1 | /* $Id: DevE1000.cpp 81727 2019-11-06 21:04:31Z vboxsync $ */
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2 | /** @file
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3 | * DevE1000 - Intel 82540EM Ethernet Controller Emulation.
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4 | *
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5 | * Implemented in accordance with the specification:
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6 | *
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7 | * PCI/PCI-X Family of Gigabit Ethernet Controllers Software Developer's Manual
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8 | * 82540EP/EM, 82541xx, 82544GC/EI, 82545GM/EM, 82546GB/EB, and 82547xx
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9 | *
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10 | * 317453-002 Revision 3.5
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11 | *
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12 | * @todo IPv6 checksum offloading support
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13 | * @todo Flexible Filter / Wakeup (optional?)
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14 | */
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15 |
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16 | /*
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17 | * Copyright (C) 2007-2019 Oracle Corporation
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18 | *
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19 | * This file is part of VirtualBox Open Source Edition (OSE), as
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20 | * available from http://www.virtualbox.org. This file is free software;
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21 | * you can redistribute it and/or modify it under the terms of the GNU
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22 | * General Public License (GPL) as published by the Free Software
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23 | * Foundation, in version 2 as it comes in the "COPYING" file of the
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24 | * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
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25 | * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
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26 | */
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27 |
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28 |
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29 | /*********************************************************************************************************************************
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30 | * Header Files *
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31 | *********************************************************************************************************************************/
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32 | #define LOG_GROUP LOG_GROUP_DEV_E1000
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33 | #include <iprt/crc.h>
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34 | #include <iprt/ctype.h>
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35 | #include <iprt/net.h>
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36 | #include <iprt/semaphore.h>
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37 | #include <iprt/string.h>
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38 | #include <iprt/time.h>
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39 | #include <iprt/uuid.h>
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40 | #include <VBox/vmm/pdmdev.h>
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41 | #include <VBox/vmm/pdmnetifs.h>
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42 | #include <VBox/vmm/pdmnetinline.h>
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43 | #include <VBox/param.h>
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44 | #include "VBoxDD.h"
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45 |
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46 | #include "DevEEPROM.h"
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47 | #include "DevE1000Phy.h"
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48 |
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49 |
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50 | /*********************************************************************************************************************************
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51 | * Defined Constants And Macros *
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52 | *********************************************************************************************************************************/
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53 | /** @name E1000 Build Options
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54 | * @{ */
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55 | /** @def E1K_INIT_RA0
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56 | * E1K_INIT_RA0 forces E1000 to set the first entry in Receive Address filter
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57 | * table to MAC address obtained from CFGM. Most guests read MAC address from
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58 | * EEPROM and write it to RA[0] explicitly, but Mac OS X seems to depend on it
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59 | * being already set (see @bugref{4657}).
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60 | */
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61 | #define E1K_INIT_RA0
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62 | /** @def E1K_LSC_ON_RESET
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63 | * E1K_LSC_ON_RESET causes e1000 to generate Link Status Change
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64 | * interrupt after hard reset. This makes the E1K_LSC_ON_SLU option unnecessary.
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65 | * With unplugged cable, LSC is triggerred for 82543GC only.
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66 | */
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67 | #define E1K_LSC_ON_RESET
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68 | /** @def E1K_LSC_ON_SLU
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69 | * E1K_LSC_ON_SLU causes E1000 to generate Link Status Change interrupt when
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70 | * the guest driver brings up the link via STATUS.LU bit. Again the only guest
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71 | * that requires it is Mac OS X (see @bugref{4657}).
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72 | */
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73 | //#define E1K_LSC_ON_SLU
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74 | /** @def E1K_INIT_LINKUP_DELAY
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75 | * E1K_INIT_LINKUP_DELAY prevents the link going up while the driver is still
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76 | * in init (see @bugref{8624}).
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77 | */
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78 | #define E1K_INIT_LINKUP_DELAY_US (2000 * 1000)
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79 | /** @def E1K_IMS_INT_DELAY_NS
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80 | * E1K_IMS_INT_DELAY_NS prevents interrupt storms in Windows guests on enabling
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81 | * interrupts (see @bugref{8624}).
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82 | */
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83 | #define E1K_IMS_INT_DELAY_NS 100
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84 | /** @def E1K_TX_DELAY
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85 | * E1K_TX_DELAY aims to improve guest-host transfer rate for TCP streams by
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86 | * preventing packets to be sent immediately. It allows to send several
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87 | * packets in a batch reducing the number of acknowledgments. Note that it
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88 | * effectively disables R0 TX path, forcing sending in R3.
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89 | */
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90 | //#define E1K_TX_DELAY 150
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91 | /** @def E1K_USE_TX_TIMERS
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92 | * E1K_USE_TX_TIMERS aims to reduce the number of generated TX interrupts if a
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93 | * guest driver set the delays via the Transmit Interrupt Delay Value (TIDV)
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94 | * register. Enabling it showed no positive effects on existing guests so it
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95 | * stays disabled. See sections 3.2.7.1 and 3.4.3.1 in "8254x Family of Gigabit
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96 | * Ethernet Controllers Software Developer’s Manual" for more detailed
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97 | * explanation.
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98 | */
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99 | //#define E1K_USE_TX_TIMERS
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100 | /** @def E1K_NO_TAD
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101 | * E1K_NO_TAD disables one of two timers enabled by E1K_USE_TX_TIMERS, the
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102 | * Transmit Absolute Delay time. This timer sets the maximum time interval
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103 | * during which TX interrupts can be postponed (delayed). It has no effect
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104 | * if E1K_USE_TX_TIMERS is not defined.
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105 | */
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106 | //#define E1K_NO_TAD
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107 | /** @def E1K_REL_DEBUG
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108 | * E1K_REL_DEBUG enables debug logging of l1, l2, l3 in release build.
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109 | */
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110 | //#define E1K_REL_DEBUG
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111 | /** @def E1K_INT_STATS
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112 | * E1K_INT_STATS enables collection of internal statistics used for
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113 | * debugging of delayed interrupts, etc.
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114 | */
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115 | #define E1K_INT_STATS
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116 | /** @def E1K_WITH_MSI
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117 | * E1K_WITH_MSI enables rudimentary MSI support. Not implemented.
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118 | */
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119 | //#define E1K_WITH_MSI
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120 | /** @def E1K_WITH_TX_CS
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121 | * E1K_WITH_TX_CS protects e1kXmitPending with a critical section.
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122 | */
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123 | #define E1K_WITH_TX_CS
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124 | /** @def E1K_WITH_TXD_CACHE
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125 | * E1K_WITH_TXD_CACHE causes E1000 to fetch multiple TX descriptors in a
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126 | * single physical memory read (or two if it wraps around the end of TX
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127 | * descriptor ring). It is required for proper functioning of bandwidth
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128 | * resource control as it allows to compute exact sizes of packets prior
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129 | * to allocating their buffers (see @bugref{5582}).
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130 | */
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131 | #define E1K_WITH_TXD_CACHE
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132 | /** @def E1K_WITH_RXD_CACHE
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133 | * E1K_WITH_RXD_CACHE causes E1000 to fetch multiple RX descriptors in a
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134 | * single physical memory read (or two if it wraps around the end of RX
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135 | * descriptor ring). Intel's packet driver for DOS needs this option in
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136 | * order to work properly (see @bugref{6217}).
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137 | */
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138 | #define E1K_WITH_RXD_CACHE
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139 | /** @def E1K_WITH_PREREG_MMIO
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140 | * E1K_WITH_PREREG_MMIO enables a new style MMIO registration and is
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141 | * currently only done for testing the relateted PDM, IOM and PGM code. */
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142 | //#define E1K_WITH_PREREG_MMIO
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143 | /* @} */
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144 | /* End of Options ************************************************************/
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145 |
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146 | #ifdef E1K_WITH_TXD_CACHE
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147 | /**
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148 | * E1K_TXD_CACHE_SIZE specifies the maximum number of TX descriptors stored
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149 | * in the state structure. It limits the amount of descriptors loaded in one
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150 | * batch read. For example, Linux guest may use up to 20 descriptors per
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151 | * TSE packet. The largest TSE packet seen (Windows guest) was 45 descriptors.
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152 | */
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153 | # define E1K_TXD_CACHE_SIZE 64u
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154 | #endif /* E1K_WITH_TXD_CACHE */
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155 |
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156 | #ifdef E1K_WITH_RXD_CACHE
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157 | /**
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158 | * E1K_RXD_CACHE_SIZE specifies the maximum number of RX descriptors stored
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159 | * in the state structure. It limits the amount of descriptors loaded in one
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160 | * batch read. For example, XP guest adds 15 RX descriptors at a time.
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161 | */
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162 | # define E1K_RXD_CACHE_SIZE 16u
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163 | #endif /* E1K_WITH_RXD_CACHE */
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164 |
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165 |
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166 | /* Little helpers ************************************************************/
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167 | #undef htons
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168 | #undef ntohs
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169 | #undef htonl
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170 | #undef ntohl
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171 | #define htons(x) ((((x) & 0xff00) >> 8) | (((x) & 0x00ff) << 8))
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172 | #define ntohs(x) htons(x)
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173 | #define htonl(x) ASMByteSwapU32(x)
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174 | #define ntohl(x) htonl(x)
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175 |
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176 | #ifndef DEBUG
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177 | # ifdef E1K_REL_DEBUG
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178 | # define DEBUG
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179 | # define E1kLog(a) LogRel(a)
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180 | # define E1kLog2(a) LogRel(a)
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181 | # define E1kLog3(a) LogRel(a)
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182 | # define E1kLogX(x, a) LogRel(a)
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183 | //# define E1kLog3(a) do {} while (0)
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184 | # else
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185 | # define E1kLog(a) do {} while (0)
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186 | # define E1kLog2(a) do {} while (0)
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187 | # define E1kLog3(a) do {} while (0)
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188 | # define E1kLogX(x, a) do {} while (0)
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189 | # endif
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190 | #else
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191 | # define E1kLog(a) Log(a)
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192 | # define E1kLog2(a) Log2(a)
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193 | # define E1kLog3(a) Log3(a)
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194 | # define E1kLogX(x, a) LogIt(x, LOG_GROUP, a)
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195 | //# define E1kLog(a) do {} while (0)
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196 | //# define E1kLog2(a) do {} while (0)
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197 | //# define E1kLog3(a) do {} while (0)
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198 | #endif
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199 |
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200 | #if 0
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201 | # define LOG_ENABLED
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202 | # define E1kLogRel(a) LogRel(a)
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203 | # undef Log6
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204 | # define Log6(a) LogRel(a)
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205 | #else
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206 | # define E1kLogRel(a) do { } while (0)
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207 | #endif
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208 |
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209 | //#undef DEBUG
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210 |
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211 | #define E1K_RELOCATE(p, o) *(RTHCUINTPTR *)&p += o
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212 |
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213 | #define E1K_INC_CNT32(cnt) \
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214 | do { \
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215 | if (cnt < UINT32_MAX) \
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216 | cnt++; \
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217 | } while (0)
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218 |
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219 | #define E1K_ADD_CNT64(cntLo, cntHi, val) \
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220 | do { \
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221 | uint64_t u64Cnt = RT_MAKE_U64(cntLo, cntHi); \
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222 | uint64_t tmp = u64Cnt; \
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223 | u64Cnt += val; \
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224 | if (tmp > u64Cnt ) \
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225 | u64Cnt = UINT64_MAX; \
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226 | cntLo = (uint32_t)u64Cnt; \
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227 | cntHi = (uint32_t)(u64Cnt >> 32); \
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228 | } while (0)
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229 |
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230 | #ifdef E1K_INT_STATS
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231 | # define E1K_INC_ISTAT_CNT(cnt) do { ++cnt; } while (0)
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232 | #else /* E1K_INT_STATS */
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233 | # define E1K_INC_ISTAT_CNT(cnt) do { } while (0)
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234 | #endif /* E1K_INT_STATS */
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235 |
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236 |
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237 | /*****************************************************************************/
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238 |
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239 | typedef uint32_t E1KCHIP;
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240 | #define E1K_CHIP_82540EM 0
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241 | #define E1K_CHIP_82543GC 1
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242 | #define E1K_CHIP_82545EM 2
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243 |
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244 | #ifdef IN_RING3
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245 | /** Different E1000 chips. */
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246 | static const struct E1kChips
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247 | {
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248 | uint16_t uPCIVendorId;
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249 | uint16_t uPCIDeviceId;
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250 | uint16_t uPCISubsystemVendorId;
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251 | uint16_t uPCISubsystemId;
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252 | const char *pcszName;
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253 | } g_aChips[] =
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254 | {
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255 | /* Vendor Device SSVendor SubSys Name */
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256 | { 0x8086,
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257 | /* Temporary code, as MSI-aware driver dislike 0x100E. How to do that right? */
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258 | # ifdef E1K_WITH_MSI
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259 | 0x105E,
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260 | # else
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261 | 0x100E,
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262 | # endif
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263 | 0x8086, 0x001E, "82540EM" }, /* Intel 82540EM-A in Intel PRO/1000 MT Desktop */
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264 | { 0x8086, 0x1004, 0x8086, 0x1004, "82543GC" }, /* Intel 82543GC in Intel PRO/1000 T Server */
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265 | { 0x8086, 0x100F, 0x15AD, 0x0750, "82545EM" } /* Intel 82545EM-A in VMWare Network Adapter */
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266 | };
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267 | #endif /* IN_RING3 */
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268 |
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269 |
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270 | /* The size of register area mapped to I/O space */
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271 | #define E1K_IOPORT_SIZE 0x8
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272 | /* The size of memory-mapped register area */
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273 | #define E1K_MM_SIZE 0x20000
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274 |
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275 | #define E1K_MAX_TX_PKT_SIZE 16288
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276 | #define E1K_MAX_RX_PKT_SIZE 16384
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277 |
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278 | /*****************************************************************************/
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279 |
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280 | /** Gets the specfieid bits from the register. */
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281 | #define GET_BITS(reg, bits) ((reg & reg##_##bits##_MASK) >> reg##_##bits##_SHIFT)
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282 | #define GET_BITS_V(val, reg, bits) ((val & reg##_##bits##_MASK) >> reg##_##bits##_SHIFT)
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283 | #define BITS(reg, bits, bitval) (bitval << reg##_##bits##_SHIFT)
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284 | #define SET_BITS(reg, bits, bitval) do { reg = (reg & ~reg##_##bits##_MASK) | (bitval << reg##_##bits##_SHIFT); } while (0)
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285 | #define SET_BITS_V(val, reg, bits, bitval) do { val = (val & ~reg##_##bits##_MASK) | (bitval << reg##_##bits##_SHIFT); } while (0)
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286 |
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287 | #define CTRL_SLU UINT32_C(0x00000040)
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288 | #define CTRL_MDIO UINT32_C(0x00100000)
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289 | #define CTRL_MDC UINT32_C(0x00200000)
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290 | #define CTRL_MDIO_DIR UINT32_C(0x01000000)
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291 | #define CTRL_MDC_DIR UINT32_C(0x02000000)
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292 | #define CTRL_RESET UINT32_C(0x04000000)
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293 | #define CTRL_VME UINT32_C(0x40000000)
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294 |
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295 | #define STATUS_LU UINT32_C(0x00000002)
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296 | #define STATUS_TXOFF UINT32_C(0x00000010)
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297 |
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298 | #define EECD_EE_WIRES UINT32_C(0x0F)
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299 | #define EECD_EE_REQ UINT32_C(0x40)
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300 | #define EECD_EE_GNT UINT32_C(0x80)
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301 |
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302 | #define EERD_START UINT32_C(0x00000001)
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303 | #define EERD_DONE UINT32_C(0x00000010)
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304 | #define EERD_DATA_MASK UINT32_C(0xFFFF0000)
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305 | #define EERD_DATA_SHIFT 16
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306 | #define EERD_ADDR_MASK UINT32_C(0x0000FF00)
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307 | #define EERD_ADDR_SHIFT 8
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308 |
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309 | #define MDIC_DATA_MASK UINT32_C(0x0000FFFF)
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310 | #define MDIC_DATA_SHIFT 0
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311 | #define MDIC_REG_MASK UINT32_C(0x001F0000)
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312 | #define MDIC_REG_SHIFT 16
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313 | #define MDIC_PHY_MASK UINT32_C(0x03E00000)
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314 | #define MDIC_PHY_SHIFT 21
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315 | #define MDIC_OP_WRITE UINT32_C(0x04000000)
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316 | #define MDIC_OP_READ UINT32_C(0x08000000)
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317 | #define MDIC_READY UINT32_C(0x10000000)
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318 | #define MDIC_INT_EN UINT32_C(0x20000000)
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319 | #define MDIC_ERROR UINT32_C(0x40000000)
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320 |
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321 | #define TCTL_EN UINT32_C(0x00000002)
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322 | #define TCTL_PSP UINT32_C(0x00000008)
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323 |
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324 | #define RCTL_EN UINT32_C(0x00000002)
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325 | #define RCTL_UPE UINT32_C(0x00000008)
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326 | #define RCTL_MPE UINT32_C(0x00000010)
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327 | #define RCTL_LPE UINT32_C(0x00000020)
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328 | #define RCTL_LBM_MASK UINT32_C(0x000000C0)
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329 | #define RCTL_LBM_SHIFT 6
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330 | #define RCTL_RDMTS_MASK UINT32_C(0x00000300)
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331 | #define RCTL_RDMTS_SHIFT 8
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332 | #define RCTL_LBM_TCVR UINT32_C(3) /**< PHY or external SerDes loopback. */
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333 | #define RCTL_MO_MASK UINT32_C(0x00003000)
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334 | #define RCTL_MO_SHIFT 12
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335 | #define RCTL_BAM UINT32_C(0x00008000)
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336 | #define RCTL_BSIZE_MASK UINT32_C(0x00030000)
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337 | #define RCTL_BSIZE_SHIFT 16
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338 | #define RCTL_VFE UINT32_C(0x00040000)
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339 | #define RCTL_CFIEN UINT32_C(0x00080000)
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340 | #define RCTL_CFI UINT32_C(0x00100000)
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341 | #define RCTL_BSEX UINT32_C(0x02000000)
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342 | #define RCTL_SECRC UINT32_C(0x04000000)
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343 |
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344 | #define ICR_TXDW UINT32_C(0x00000001)
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345 | #define ICR_TXQE UINT32_C(0x00000002)
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346 | #define ICR_LSC UINT32_C(0x00000004)
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347 | #define ICR_RXDMT0 UINT32_C(0x00000010)
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348 | #define ICR_RXT0 UINT32_C(0x00000080)
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349 | #define ICR_TXD_LOW UINT32_C(0x00008000)
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350 | #define RDTR_FPD UINT32_C(0x80000000)
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351 |
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352 | #define PBA_st ((PBAST*)(pThis->auRegs + PBA_IDX))
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353 | typedef struct
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354 | {
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355 | unsigned rxa : 7;
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356 | unsigned rxa_r : 9;
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357 | unsigned txa : 16;
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358 | } PBAST;
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359 | AssertCompileSize(PBAST, 4);
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360 |
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361 | #define TXDCTL_WTHRESH_MASK 0x003F0000
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362 | #define TXDCTL_WTHRESH_SHIFT 16
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363 | #define TXDCTL_LWTHRESH_MASK 0xFE000000
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364 | #define TXDCTL_LWTHRESH_SHIFT 25
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365 |
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366 | #define RXCSUM_PCSS_MASK UINT32_C(0x000000FF)
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367 | #define RXCSUM_PCSS_SHIFT 0
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368 |
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369 | /** @name Register access macros
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370 | * @remarks These ASSUME alocal variable @a pThis of type PE1KSTATE.
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371 | * @{ */
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372 | #define CTRL pThis->auRegs[CTRL_IDX]
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373 | #define STATUS pThis->auRegs[STATUS_IDX]
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374 | #define EECD pThis->auRegs[EECD_IDX]
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375 | #define EERD pThis->auRegs[EERD_IDX]
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376 | #define CTRL_EXT pThis->auRegs[CTRL_EXT_IDX]
|
---|
377 | #define FLA pThis->auRegs[FLA_IDX]
|
---|
378 | #define MDIC pThis->auRegs[MDIC_IDX]
|
---|
379 | #define FCAL pThis->auRegs[FCAL_IDX]
|
---|
380 | #define FCAH pThis->auRegs[FCAH_IDX]
|
---|
381 | #define FCT pThis->auRegs[FCT_IDX]
|
---|
382 | #define VET pThis->auRegs[VET_IDX]
|
---|
383 | #define ICR pThis->auRegs[ICR_IDX]
|
---|
384 | #define ITR pThis->auRegs[ITR_IDX]
|
---|
385 | #define ICS pThis->auRegs[ICS_IDX]
|
---|
386 | #define IMS pThis->auRegs[IMS_IDX]
|
---|
387 | #define IMC pThis->auRegs[IMC_IDX]
|
---|
388 | #define RCTL pThis->auRegs[RCTL_IDX]
|
---|
389 | #define FCTTV pThis->auRegs[FCTTV_IDX]
|
---|
390 | #define TXCW pThis->auRegs[TXCW_IDX]
|
---|
391 | #define RXCW pThis->auRegs[RXCW_IDX]
|
---|
392 | #define TCTL pThis->auRegs[TCTL_IDX]
|
---|
393 | #define TIPG pThis->auRegs[TIPG_IDX]
|
---|
394 | #define AIFS pThis->auRegs[AIFS_IDX]
|
---|
395 | #define LEDCTL pThis->auRegs[LEDCTL_IDX]
|
---|
396 | #define PBA pThis->auRegs[PBA_IDX]
|
---|
397 | #define FCRTL pThis->auRegs[FCRTL_IDX]
|
---|
398 | #define FCRTH pThis->auRegs[FCRTH_IDX]
|
---|
399 | #define RDFH pThis->auRegs[RDFH_IDX]
|
---|
400 | #define RDFT pThis->auRegs[RDFT_IDX]
|
---|
401 | #define RDFHS pThis->auRegs[RDFHS_IDX]
|
---|
402 | #define RDFTS pThis->auRegs[RDFTS_IDX]
|
---|
403 | #define RDFPC pThis->auRegs[RDFPC_IDX]
|
---|
404 | #define RDBAL pThis->auRegs[RDBAL_IDX]
|
---|
405 | #define RDBAH pThis->auRegs[RDBAH_IDX]
|
---|
406 | #define RDLEN pThis->auRegs[RDLEN_IDX]
|
---|
407 | #define RDH pThis->auRegs[RDH_IDX]
|
---|
408 | #define RDT pThis->auRegs[RDT_IDX]
|
---|
409 | #define RDTR pThis->auRegs[RDTR_IDX]
|
---|
410 | #define RXDCTL pThis->auRegs[RXDCTL_IDX]
|
---|
411 | #define RADV pThis->auRegs[RADV_IDX]
|
---|
412 | #define RSRPD pThis->auRegs[RSRPD_IDX]
|
---|
413 | #define TXDMAC pThis->auRegs[TXDMAC_IDX]
|
---|
414 | #define TDFH pThis->auRegs[TDFH_IDX]
|
---|
415 | #define TDFT pThis->auRegs[TDFT_IDX]
|
---|
416 | #define TDFHS pThis->auRegs[TDFHS_IDX]
|
---|
417 | #define TDFTS pThis->auRegs[TDFTS_IDX]
|
---|
418 | #define TDFPC pThis->auRegs[TDFPC_IDX]
|
---|
419 | #define TDBAL pThis->auRegs[TDBAL_IDX]
|
---|
420 | #define TDBAH pThis->auRegs[TDBAH_IDX]
|
---|
421 | #define TDLEN pThis->auRegs[TDLEN_IDX]
|
---|
422 | #define TDH pThis->auRegs[TDH_IDX]
|
---|
423 | #define TDT pThis->auRegs[TDT_IDX]
|
---|
424 | #define TIDV pThis->auRegs[TIDV_IDX]
|
---|
425 | #define TXDCTL pThis->auRegs[TXDCTL_IDX]
|
---|
426 | #define TADV pThis->auRegs[TADV_IDX]
|
---|
427 | #define TSPMT pThis->auRegs[TSPMT_IDX]
|
---|
428 | #define CRCERRS pThis->auRegs[CRCERRS_IDX]
|
---|
429 | #define ALGNERRC pThis->auRegs[ALGNERRC_IDX]
|
---|
430 | #define SYMERRS pThis->auRegs[SYMERRS_IDX]
|
---|
431 | #define RXERRC pThis->auRegs[RXERRC_IDX]
|
---|
432 | #define MPC pThis->auRegs[MPC_IDX]
|
---|
433 | #define SCC pThis->auRegs[SCC_IDX]
|
---|
434 | #define ECOL pThis->auRegs[ECOL_IDX]
|
---|
435 | #define MCC pThis->auRegs[MCC_IDX]
|
---|
436 | #define LATECOL pThis->auRegs[LATECOL_IDX]
|
---|
437 | #define COLC pThis->auRegs[COLC_IDX]
|
---|
438 | #define DC pThis->auRegs[DC_IDX]
|
---|
439 | #define TNCRS pThis->auRegs[TNCRS_IDX]
|
---|
440 | /* #define SEC pThis->auRegs[SEC_IDX] Conflict with sys/time.h */
|
---|
441 | #define CEXTERR pThis->auRegs[CEXTERR_IDX]
|
---|
442 | #define RLEC pThis->auRegs[RLEC_IDX]
|
---|
443 | #define XONRXC pThis->auRegs[XONRXC_IDX]
|
---|
444 | #define XONTXC pThis->auRegs[XONTXC_IDX]
|
---|
445 | #define XOFFRXC pThis->auRegs[XOFFRXC_IDX]
|
---|
446 | #define XOFFTXC pThis->auRegs[XOFFTXC_IDX]
|
---|
447 | #define FCRUC pThis->auRegs[FCRUC_IDX]
|
---|
448 | #define PRC64 pThis->auRegs[PRC64_IDX]
|
---|
449 | #define PRC127 pThis->auRegs[PRC127_IDX]
|
---|
450 | #define PRC255 pThis->auRegs[PRC255_IDX]
|
---|
451 | #define PRC511 pThis->auRegs[PRC511_IDX]
|
---|
452 | #define PRC1023 pThis->auRegs[PRC1023_IDX]
|
---|
453 | #define PRC1522 pThis->auRegs[PRC1522_IDX]
|
---|
454 | #define GPRC pThis->auRegs[GPRC_IDX]
|
---|
455 | #define BPRC pThis->auRegs[BPRC_IDX]
|
---|
456 | #define MPRC pThis->auRegs[MPRC_IDX]
|
---|
457 | #define GPTC pThis->auRegs[GPTC_IDX]
|
---|
458 | #define GORCL pThis->auRegs[GORCL_IDX]
|
---|
459 | #define GORCH pThis->auRegs[GORCH_IDX]
|
---|
460 | #define GOTCL pThis->auRegs[GOTCL_IDX]
|
---|
461 | #define GOTCH pThis->auRegs[GOTCH_IDX]
|
---|
462 | #define RNBC pThis->auRegs[RNBC_IDX]
|
---|
463 | #define RUC pThis->auRegs[RUC_IDX]
|
---|
464 | #define RFC pThis->auRegs[RFC_IDX]
|
---|
465 | #define ROC pThis->auRegs[ROC_IDX]
|
---|
466 | #define RJC pThis->auRegs[RJC_IDX]
|
---|
467 | #define MGTPRC pThis->auRegs[MGTPRC_IDX]
|
---|
468 | #define MGTPDC pThis->auRegs[MGTPDC_IDX]
|
---|
469 | #define MGTPTC pThis->auRegs[MGTPTC_IDX]
|
---|
470 | #define TORL pThis->auRegs[TORL_IDX]
|
---|
471 | #define TORH pThis->auRegs[TORH_IDX]
|
---|
472 | #define TOTL pThis->auRegs[TOTL_IDX]
|
---|
473 | #define TOTH pThis->auRegs[TOTH_IDX]
|
---|
474 | #define TPR pThis->auRegs[TPR_IDX]
|
---|
475 | #define TPT pThis->auRegs[TPT_IDX]
|
---|
476 | #define PTC64 pThis->auRegs[PTC64_IDX]
|
---|
477 | #define PTC127 pThis->auRegs[PTC127_IDX]
|
---|
478 | #define PTC255 pThis->auRegs[PTC255_IDX]
|
---|
479 | #define PTC511 pThis->auRegs[PTC511_IDX]
|
---|
480 | #define PTC1023 pThis->auRegs[PTC1023_IDX]
|
---|
481 | #define PTC1522 pThis->auRegs[PTC1522_IDX]
|
---|
482 | #define MPTC pThis->auRegs[MPTC_IDX]
|
---|
483 | #define BPTC pThis->auRegs[BPTC_IDX]
|
---|
484 | #define TSCTC pThis->auRegs[TSCTC_IDX]
|
---|
485 | #define TSCTFC pThis->auRegs[TSCTFC_IDX]
|
---|
486 | #define RXCSUM pThis->auRegs[RXCSUM_IDX]
|
---|
487 | #define WUC pThis->auRegs[WUC_IDX]
|
---|
488 | #define WUFC pThis->auRegs[WUFC_IDX]
|
---|
489 | #define WUS pThis->auRegs[WUS_IDX]
|
---|
490 | #define MANC pThis->auRegs[MANC_IDX]
|
---|
491 | #define IPAV pThis->auRegs[IPAV_IDX]
|
---|
492 | #define WUPL pThis->auRegs[WUPL_IDX]
|
---|
493 | /** @} */
|
---|
494 |
|
---|
495 | /**
|
---|
496 | * Indices of memory-mapped registers in register table.
|
---|
497 | */
|
---|
498 | typedef enum
|
---|
499 | {
|
---|
500 | CTRL_IDX,
|
---|
501 | STATUS_IDX,
|
---|
502 | EECD_IDX,
|
---|
503 | EERD_IDX,
|
---|
504 | CTRL_EXT_IDX,
|
---|
505 | FLA_IDX,
|
---|
506 | MDIC_IDX,
|
---|
507 | FCAL_IDX,
|
---|
508 | FCAH_IDX,
|
---|
509 | FCT_IDX,
|
---|
510 | VET_IDX,
|
---|
511 | ICR_IDX,
|
---|
512 | ITR_IDX,
|
---|
513 | ICS_IDX,
|
---|
514 | IMS_IDX,
|
---|
515 | IMC_IDX,
|
---|
516 | RCTL_IDX,
|
---|
517 | FCTTV_IDX,
|
---|
518 | TXCW_IDX,
|
---|
519 | RXCW_IDX,
|
---|
520 | TCTL_IDX,
|
---|
521 | TIPG_IDX,
|
---|
522 | AIFS_IDX,
|
---|
523 | LEDCTL_IDX,
|
---|
524 | PBA_IDX,
|
---|
525 | FCRTL_IDX,
|
---|
526 | FCRTH_IDX,
|
---|
527 | RDFH_IDX,
|
---|
528 | RDFT_IDX,
|
---|
529 | RDFHS_IDX,
|
---|
530 | RDFTS_IDX,
|
---|
531 | RDFPC_IDX,
|
---|
532 | RDBAL_IDX,
|
---|
533 | RDBAH_IDX,
|
---|
534 | RDLEN_IDX,
|
---|
535 | RDH_IDX,
|
---|
536 | RDT_IDX,
|
---|
537 | RDTR_IDX,
|
---|
538 | RXDCTL_IDX,
|
---|
539 | RADV_IDX,
|
---|
540 | RSRPD_IDX,
|
---|
541 | TXDMAC_IDX,
|
---|
542 | TDFH_IDX,
|
---|
543 | TDFT_IDX,
|
---|
544 | TDFHS_IDX,
|
---|
545 | TDFTS_IDX,
|
---|
546 | TDFPC_IDX,
|
---|
547 | TDBAL_IDX,
|
---|
548 | TDBAH_IDX,
|
---|
549 | TDLEN_IDX,
|
---|
550 | TDH_IDX,
|
---|
551 | TDT_IDX,
|
---|
552 | TIDV_IDX,
|
---|
553 | TXDCTL_IDX,
|
---|
554 | TADV_IDX,
|
---|
555 | TSPMT_IDX,
|
---|
556 | CRCERRS_IDX,
|
---|
557 | ALGNERRC_IDX,
|
---|
558 | SYMERRS_IDX,
|
---|
559 | RXERRC_IDX,
|
---|
560 | MPC_IDX,
|
---|
561 | SCC_IDX,
|
---|
562 | ECOL_IDX,
|
---|
563 | MCC_IDX,
|
---|
564 | LATECOL_IDX,
|
---|
565 | COLC_IDX,
|
---|
566 | DC_IDX,
|
---|
567 | TNCRS_IDX,
|
---|
568 | SEC_IDX,
|
---|
569 | CEXTERR_IDX,
|
---|
570 | RLEC_IDX,
|
---|
571 | XONRXC_IDX,
|
---|
572 | XONTXC_IDX,
|
---|
573 | XOFFRXC_IDX,
|
---|
574 | XOFFTXC_IDX,
|
---|
575 | FCRUC_IDX,
|
---|
576 | PRC64_IDX,
|
---|
577 | PRC127_IDX,
|
---|
578 | PRC255_IDX,
|
---|
579 | PRC511_IDX,
|
---|
580 | PRC1023_IDX,
|
---|
581 | PRC1522_IDX,
|
---|
582 | GPRC_IDX,
|
---|
583 | BPRC_IDX,
|
---|
584 | MPRC_IDX,
|
---|
585 | GPTC_IDX,
|
---|
586 | GORCL_IDX,
|
---|
587 | GORCH_IDX,
|
---|
588 | GOTCL_IDX,
|
---|
589 | GOTCH_IDX,
|
---|
590 | RNBC_IDX,
|
---|
591 | RUC_IDX,
|
---|
592 | RFC_IDX,
|
---|
593 | ROC_IDX,
|
---|
594 | RJC_IDX,
|
---|
595 | MGTPRC_IDX,
|
---|
596 | MGTPDC_IDX,
|
---|
597 | MGTPTC_IDX,
|
---|
598 | TORL_IDX,
|
---|
599 | TORH_IDX,
|
---|
600 | TOTL_IDX,
|
---|
601 | TOTH_IDX,
|
---|
602 | TPR_IDX,
|
---|
603 | TPT_IDX,
|
---|
604 | PTC64_IDX,
|
---|
605 | PTC127_IDX,
|
---|
606 | PTC255_IDX,
|
---|
607 | PTC511_IDX,
|
---|
608 | PTC1023_IDX,
|
---|
609 | PTC1522_IDX,
|
---|
610 | MPTC_IDX,
|
---|
611 | BPTC_IDX,
|
---|
612 | TSCTC_IDX,
|
---|
613 | TSCTFC_IDX,
|
---|
614 | RXCSUM_IDX,
|
---|
615 | WUC_IDX,
|
---|
616 | WUFC_IDX,
|
---|
617 | WUS_IDX,
|
---|
618 | MANC_IDX,
|
---|
619 | IPAV_IDX,
|
---|
620 | WUPL_IDX,
|
---|
621 | MTA_IDX,
|
---|
622 | RA_IDX,
|
---|
623 | VFTA_IDX,
|
---|
624 | IP4AT_IDX,
|
---|
625 | IP6AT_IDX,
|
---|
626 | WUPM_IDX,
|
---|
627 | FFLT_IDX,
|
---|
628 | FFMT_IDX,
|
---|
629 | FFVT_IDX,
|
---|
630 | PBM_IDX,
|
---|
631 | RA_82542_IDX,
|
---|
632 | MTA_82542_IDX,
|
---|
633 | VFTA_82542_IDX,
|
---|
634 | E1K_NUM_OF_REGS
|
---|
635 | } E1kRegIndex;
|
---|
636 |
|
---|
637 | #define E1K_NUM_OF_32BIT_REGS MTA_IDX
|
---|
638 | /** The number of registers with strictly increasing offset. */
|
---|
639 | #define E1K_NUM_OF_BINARY_SEARCHABLE (WUPL_IDX + 1)
|
---|
640 |
|
---|
641 |
|
---|
642 | /**
|
---|
643 | * Define E1000-specific EEPROM layout.
|
---|
644 | */
|
---|
645 | struct E1kEEPROM
|
---|
646 | {
|
---|
647 | public:
|
---|
648 | EEPROM93C46 eeprom;
|
---|
649 |
|
---|
650 | #ifdef IN_RING3
|
---|
651 | /**
|
---|
652 | * Initialize EEPROM content.
|
---|
653 | *
|
---|
654 | * @param macAddr MAC address of E1000.
|
---|
655 | */
|
---|
656 | void init(RTMAC &macAddr)
|
---|
657 | {
|
---|
658 | eeprom.init();
|
---|
659 | memcpy(eeprom.m_au16Data, macAddr.au16, sizeof(macAddr.au16));
|
---|
660 | eeprom.m_au16Data[0x04] = 0xFFFF;
|
---|
661 | /*
|
---|
662 | * bit 3 - full support for power management
|
---|
663 | * bit 10 - full duplex
|
---|
664 | */
|
---|
665 | eeprom.m_au16Data[0x0A] = 0x4408;
|
---|
666 | eeprom.m_au16Data[0x0B] = 0x001E;
|
---|
667 | eeprom.m_au16Data[0x0C] = 0x8086;
|
---|
668 | eeprom.m_au16Data[0x0D] = 0x100E;
|
---|
669 | eeprom.m_au16Data[0x0E] = 0x8086;
|
---|
670 | eeprom.m_au16Data[0x0F] = 0x3040;
|
---|
671 | eeprom.m_au16Data[0x21] = 0x7061;
|
---|
672 | eeprom.m_au16Data[0x22] = 0x280C;
|
---|
673 | eeprom.m_au16Data[0x23] = 0x00C8;
|
---|
674 | eeprom.m_au16Data[0x24] = 0x00C8;
|
---|
675 | eeprom.m_au16Data[0x2F] = 0x0602;
|
---|
676 | updateChecksum();
|
---|
677 | };
|
---|
678 |
|
---|
679 | /**
|
---|
680 | * Compute the checksum as required by E1000 and store it
|
---|
681 | * in the last word.
|
---|
682 | */
|
---|
683 | void updateChecksum()
|
---|
684 | {
|
---|
685 | uint16_t u16Checksum = 0;
|
---|
686 |
|
---|
687 | for (int i = 0; i < eeprom.SIZE-1; i++)
|
---|
688 | u16Checksum += eeprom.m_au16Data[i];
|
---|
689 | eeprom.m_au16Data[eeprom.SIZE-1] = 0xBABA - u16Checksum;
|
---|
690 | };
|
---|
691 |
|
---|
692 | /**
|
---|
693 | * First 6 bytes of EEPROM contain MAC address.
|
---|
694 | *
|
---|
695 | * @returns MAC address of E1000.
|
---|
696 | */
|
---|
697 | void getMac(PRTMAC pMac)
|
---|
698 | {
|
---|
699 | memcpy(pMac->au16, eeprom.m_au16Data, sizeof(pMac->au16));
|
---|
700 | };
|
---|
701 |
|
---|
702 | uint32_t read()
|
---|
703 | {
|
---|
704 | return eeprom.read();
|
---|
705 | }
|
---|
706 |
|
---|
707 | void write(uint32_t u32Wires)
|
---|
708 | {
|
---|
709 | eeprom.write(u32Wires);
|
---|
710 | }
|
---|
711 |
|
---|
712 | bool readWord(uint32_t u32Addr, uint16_t *pu16Value)
|
---|
713 | {
|
---|
714 | return eeprom.readWord(u32Addr, pu16Value);
|
---|
715 | }
|
---|
716 |
|
---|
717 | int load(PCPDMDEVHLPR3 pHlp, PSSMHANDLE pSSM)
|
---|
718 | {
|
---|
719 | return eeprom.load(pHlp, pSSM);
|
---|
720 | }
|
---|
721 |
|
---|
722 | void save(PCPDMDEVHLPR3 pHlp, PSSMHANDLE pSSM)
|
---|
723 | {
|
---|
724 | eeprom.save(pHlp, pSSM);
|
---|
725 | }
|
---|
726 | #endif /* IN_RING3 */
|
---|
727 | };
|
---|
728 |
|
---|
729 |
|
---|
730 | #define E1K_SPEC_VLAN(s) (s & 0xFFF)
|
---|
731 | #define E1K_SPEC_CFI(s) (!!((s>>12) & 0x1))
|
---|
732 | #define E1K_SPEC_PRI(s) ((s>>13) & 0x7)
|
---|
733 |
|
---|
734 | struct E1kRxDStatus
|
---|
735 | {
|
---|
736 | /** @name Descriptor Status field (3.2.3.1)
|
---|
737 | * @{ */
|
---|
738 | unsigned fDD : 1; /**< Descriptor Done. */
|
---|
739 | unsigned fEOP : 1; /**< End of packet. */
|
---|
740 | unsigned fIXSM : 1; /**< Ignore checksum indication. */
|
---|
741 | unsigned fVP : 1; /**< VLAN, matches VET. */
|
---|
742 | unsigned : 1;
|
---|
743 | unsigned fTCPCS : 1; /**< RCP Checksum calculated on the packet. */
|
---|
744 | unsigned fIPCS : 1; /**< IP Checksum calculated on the packet. */
|
---|
745 | unsigned fPIF : 1; /**< Passed in-exact filter */
|
---|
746 | /** @} */
|
---|
747 | /** @name Descriptor Errors field (3.2.3.2)
|
---|
748 | * (Only valid when fEOP and fDD are set.)
|
---|
749 | * @{ */
|
---|
750 | unsigned fCE : 1; /**< CRC or alignment error. */
|
---|
751 | unsigned : 4; /**< Reserved, varies with different models... */
|
---|
752 | unsigned fTCPE : 1; /**< TCP/UDP checksum error. */
|
---|
753 | unsigned fIPE : 1; /**< IP Checksum error. */
|
---|
754 | unsigned fRXE : 1; /**< RX Data error. */
|
---|
755 | /** @} */
|
---|
756 | /** @name Descriptor Special field (3.2.3.3)
|
---|
757 | * @{ */
|
---|
758 | unsigned u16Special : 16; /**< VLAN: Id, Canonical form, Priority. */
|
---|
759 | /** @} */
|
---|
760 | };
|
---|
761 | typedef struct E1kRxDStatus E1KRXDST;
|
---|
762 |
|
---|
763 | struct E1kRxDesc_st
|
---|
764 | {
|
---|
765 | uint64_t u64BufAddr; /**< Address of data buffer */
|
---|
766 | uint16_t u16Length; /**< Length of data in buffer */
|
---|
767 | uint16_t u16Checksum; /**< Packet checksum */
|
---|
768 | E1KRXDST status;
|
---|
769 | };
|
---|
770 | typedef struct E1kRxDesc_st E1KRXDESC;
|
---|
771 | AssertCompileSize(E1KRXDESC, 16);
|
---|
772 |
|
---|
773 | #define E1K_DTYP_LEGACY -1
|
---|
774 | #define E1K_DTYP_CONTEXT 0
|
---|
775 | #define E1K_DTYP_DATA 1
|
---|
776 |
|
---|
777 | struct E1kTDLegacy
|
---|
778 | {
|
---|
779 | uint64_t u64BufAddr; /**< Address of data buffer */
|
---|
780 | struct TDLCmd_st
|
---|
781 | {
|
---|
782 | unsigned u16Length : 16;
|
---|
783 | unsigned u8CSO : 8;
|
---|
784 | /* CMD field : 8 */
|
---|
785 | unsigned fEOP : 1;
|
---|
786 | unsigned fIFCS : 1;
|
---|
787 | unsigned fIC : 1;
|
---|
788 | unsigned fRS : 1;
|
---|
789 | unsigned fRPS : 1;
|
---|
790 | unsigned fDEXT : 1;
|
---|
791 | unsigned fVLE : 1;
|
---|
792 | unsigned fIDE : 1;
|
---|
793 | } cmd;
|
---|
794 | struct TDLDw3_st
|
---|
795 | {
|
---|
796 | /* STA field */
|
---|
797 | unsigned fDD : 1;
|
---|
798 | unsigned fEC : 1;
|
---|
799 | unsigned fLC : 1;
|
---|
800 | unsigned fTURSV : 1;
|
---|
801 | /* RSV field */
|
---|
802 | unsigned u4RSV : 4;
|
---|
803 | /* CSS field */
|
---|
804 | unsigned u8CSS : 8;
|
---|
805 | /* Special field*/
|
---|
806 | unsigned u16Special: 16;
|
---|
807 | } dw3;
|
---|
808 | };
|
---|
809 |
|
---|
810 | /**
|
---|
811 | * TCP/IP Context Transmit Descriptor, section 3.3.6.
|
---|
812 | */
|
---|
813 | struct E1kTDContext
|
---|
814 | {
|
---|
815 | struct CheckSum_st
|
---|
816 | {
|
---|
817 | /** TSE: Header start. !TSE: Checksum start. */
|
---|
818 | unsigned u8CSS : 8;
|
---|
819 | /** Checksum offset - where to store it. */
|
---|
820 | unsigned u8CSO : 8;
|
---|
821 | /** Checksum ending (inclusive) offset, 0 = end of packet. */
|
---|
822 | unsigned u16CSE : 16;
|
---|
823 | } ip;
|
---|
824 | struct CheckSum_st tu;
|
---|
825 | struct TDCDw2_st
|
---|
826 | {
|
---|
827 | /** TSE: The total number of payload bytes for this context. Sans header. */
|
---|
828 | unsigned u20PAYLEN : 20;
|
---|
829 | /** The descriptor type - E1K_DTYP_CONTEXT (0). */
|
---|
830 | unsigned u4DTYP : 4;
|
---|
831 | /** TUCMD field, 8 bits
|
---|
832 | * @{ */
|
---|
833 | /** TSE: TCP (set) or UDP (clear). */
|
---|
834 | unsigned fTCP : 1;
|
---|
835 | /** TSE: IPv4 (set) or IPv6 (clear) - for finding the payload length field in
|
---|
836 | * the IP header. Does not affect the checksumming.
|
---|
837 | * @remarks 82544GC/EI interprets a cleared field differently. */
|
---|
838 | unsigned fIP : 1;
|
---|
839 | /** TSE: TCP segmentation enable. When clear the context describes */
|
---|
840 | unsigned fTSE : 1;
|
---|
841 | /** Report status (only applies to dw3.fDD for here). */
|
---|
842 | unsigned fRS : 1;
|
---|
843 | /** Reserved, MBZ. */
|
---|
844 | unsigned fRSV1 : 1;
|
---|
845 | /** Descriptor extension, must be set for this descriptor type. */
|
---|
846 | unsigned fDEXT : 1;
|
---|
847 | /** Reserved, MBZ. */
|
---|
848 | unsigned fRSV2 : 1;
|
---|
849 | /** Interrupt delay enable. */
|
---|
850 | unsigned fIDE : 1;
|
---|
851 | /** @} */
|
---|
852 | } dw2;
|
---|
853 | struct TDCDw3_st
|
---|
854 | {
|
---|
855 | /** Descriptor Done. */
|
---|
856 | unsigned fDD : 1;
|
---|
857 | /** Reserved, MBZ. */
|
---|
858 | unsigned u7RSV : 7;
|
---|
859 | /** TSO: The header (prototype) length (Ethernet[, VLAN tag], IP, TCP/UDP. */
|
---|
860 | unsigned u8HDRLEN : 8;
|
---|
861 | /** TSO: Maximum segment size. */
|
---|
862 | unsigned u16MSS : 16;
|
---|
863 | } dw3;
|
---|
864 | };
|
---|
865 | typedef struct E1kTDContext E1KTXCTX;
|
---|
866 |
|
---|
867 | /**
|
---|
868 | * TCP/IP Data Transmit Descriptor, section 3.3.7.
|
---|
869 | */
|
---|
870 | struct E1kTDData
|
---|
871 | {
|
---|
872 | uint64_t u64BufAddr; /**< Address of data buffer */
|
---|
873 | struct TDDCmd_st
|
---|
874 | {
|
---|
875 | /** The total length of data pointed to by this descriptor. */
|
---|
876 | unsigned u20DTALEN : 20;
|
---|
877 | /** The descriptor type - E1K_DTYP_DATA (1). */
|
---|
878 | unsigned u4DTYP : 4;
|
---|
879 | /** @name DCMD field, 8 bits (3.3.7.1).
|
---|
880 | * @{ */
|
---|
881 | /** End of packet. Note TSCTFC update. */
|
---|
882 | unsigned fEOP : 1;
|
---|
883 | /** Insert Ethernet FCS/CRC (requires fEOP to be set). */
|
---|
884 | unsigned fIFCS : 1;
|
---|
885 | /** Use the TSE context when set and the normal when clear. */
|
---|
886 | unsigned fTSE : 1;
|
---|
887 | /** Report status (dw3.STA). */
|
---|
888 | unsigned fRS : 1;
|
---|
889 | /** Reserved. 82544GC/EI defines this report packet set (RPS). */
|
---|
890 | unsigned fRPS : 1;
|
---|
891 | /** Descriptor extension, must be set for this descriptor type. */
|
---|
892 | unsigned fDEXT : 1;
|
---|
893 | /** VLAN enable, requires CTRL.VME, auto enables FCS/CRC.
|
---|
894 | * Insert dw3.SPECIAL after ethernet header. */
|
---|
895 | unsigned fVLE : 1;
|
---|
896 | /** Interrupt delay enable. */
|
---|
897 | unsigned fIDE : 1;
|
---|
898 | /** @} */
|
---|
899 | } cmd;
|
---|
900 | struct TDDDw3_st
|
---|
901 | {
|
---|
902 | /** @name STA field (3.3.7.2)
|
---|
903 | * @{ */
|
---|
904 | unsigned fDD : 1; /**< Descriptor done. */
|
---|
905 | unsigned fEC : 1; /**< Excess collision. */
|
---|
906 | unsigned fLC : 1; /**< Late collision. */
|
---|
907 | /** Reserved, except for the usual oddball (82544GC/EI) where it's called TU. */
|
---|
908 | unsigned fTURSV : 1;
|
---|
909 | /** @} */
|
---|
910 | unsigned u4RSV : 4; /**< Reserved field, MBZ. */
|
---|
911 | /** @name POPTS (Packet Option) field (3.3.7.3)
|
---|
912 | * @{ */
|
---|
913 | unsigned fIXSM : 1; /**< Insert IP checksum. */
|
---|
914 | unsigned fTXSM : 1; /**< Insert TCP/UDP checksum. */
|
---|
915 | unsigned u6RSV : 6; /**< Reserved, MBZ. */
|
---|
916 | /** @} */
|
---|
917 | /** @name SPECIAL field - VLAN tag to be inserted after ethernet header.
|
---|
918 | * Requires fEOP, fVLE and CTRL.VME to be set.
|
---|
919 | * @{ */
|
---|
920 | unsigned u16Special: 16; /**< VLAN: Id, Canonical form, Priority. */
|
---|
921 | /** @} */
|
---|
922 | } dw3;
|
---|
923 | };
|
---|
924 | typedef struct E1kTDData E1KTXDAT;
|
---|
925 |
|
---|
926 | union E1kTxDesc
|
---|
927 | {
|
---|
928 | struct E1kTDLegacy legacy;
|
---|
929 | struct E1kTDContext context;
|
---|
930 | struct E1kTDData data;
|
---|
931 | };
|
---|
932 | typedef union E1kTxDesc E1KTXDESC;
|
---|
933 | AssertCompileSize(E1KTXDESC, 16);
|
---|
934 |
|
---|
935 | #define RA_CTL_AS 0x0003
|
---|
936 | #define RA_CTL_AV 0x8000
|
---|
937 |
|
---|
938 | union E1kRecAddr
|
---|
939 | {
|
---|
940 | uint32_t au32[32];
|
---|
941 | struct RAArray
|
---|
942 | {
|
---|
943 | uint8_t addr[6];
|
---|
944 | uint16_t ctl;
|
---|
945 | } array[16];
|
---|
946 | };
|
---|
947 | typedef struct E1kRecAddr::RAArray E1KRAELEM;
|
---|
948 | typedef union E1kRecAddr E1KRA;
|
---|
949 | AssertCompileSize(E1KRA, 8*16);
|
---|
950 |
|
---|
951 | #define E1K_IP_RF UINT16_C(0x8000) /**< reserved fragment flag */
|
---|
952 | #define E1K_IP_DF UINT16_C(0x4000) /**< dont fragment flag */
|
---|
953 | #define E1K_IP_MF UINT16_C(0x2000) /**< more fragments flag */
|
---|
954 | #define E1K_IP_OFFMASK UINT16_C(0x1fff) /**< mask for fragmenting bits */
|
---|
955 |
|
---|
956 | /** @todo use+extend RTNETIPV4 */
|
---|
957 | struct E1kIpHeader
|
---|
958 | {
|
---|
959 | /* type of service / version / header length */
|
---|
960 | uint16_t tos_ver_hl;
|
---|
961 | /* total length */
|
---|
962 | uint16_t total_len;
|
---|
963 | /* identification */
|
---|
964 | uint16_t ident;
|
---|
965 | /* fragment offset field */
|
---|
966 | uint16_t offset;
|
---|
967 | /* time to live / protocol*/
|
---|
968 | uint16_t ttl_proto;
|
---|
969 | /* checksum */
|
---|
970 | uint16_t chksum;
|
---|
971 | /* source IP address */
|
---|
972 | uint32_t src;
|
---|
973 | /* destination IP address */
|
---|
974 | uint32_t dest;
|
---|
975 | };
|
---|
976 | AssertCompileSize(struct E1kIpHeader, 20);
|
---|
977 |
|
---|
978 | #define E1K_TCP_FIN UINT16_C(0x01)
|
---|
979 | #define E1K_TCP_SYN UINT16_C(0x02)
|
---|
980 | #define E1K_TCP_RST UINT16_C(0x04)
|
---|
981 | #define E1K_TCP_PSH UINT16_C(0x08)
|
---|
982 | #define E1K_TCP_ACK UINT16_C(0x10)
|
---|
983 | #define E1K_TCP_URG UINT16_C(0x20)
|
---|
984 | #define E1K_TCP_ECE UINT16_C(0x40)
|
---|
985 | #define E1K_TCP_CWR UINT16_C(0x80)
|
---|
986 | #define E1K_TCP_FLAGS UINT16_C(0x3f)
|
---|
987 |
|
---|
988 | /** @todo use+extend RTNETTCP */
|
---|
989 | struct E1kTcpHeader
|
---|
990 | {
|
---|
991 | uint16_t src;
|
---|
992 | uint16_t dest;
|
---|
993 | uint32_t seqno;
|
---|
994 | uint32_t ackno;
|
---|
995 | uint16_t hdrlen_flags;
|
---|
996 | uint16_t wnd;
|
---|
997 | uint16_t chksum;
|
---|
998 | uint16_t urgp;
|
---|
999 | };
|
---|
1000 | AssertCompileSize(struct E1kTcpHeader, 20);
|
---|
1001 |
|
---|
1002 |
|
---|
1003 | #ifdef E1K_WITH_TXD_CACHE
|
---|
1004 | /** The current Saved state version. */
|
---|
1005 | # define E1K_SAVEDSTATE_VERSION 4
|
---|
1006 | /** Saved state version for VirtualBox 4.2 with VLAN tag fields. */
|
---|
1007 | # define E1K_SAVEDSTATE_VERSION_VBOX_42_VTAG 3
|
---|
1008 | #else /* !E1K_WITH_TXD_CACHE */
|
---|
1009 | /** The current Saved state version. */
|
---|
1010 | # define E1K_SAVEDSTATE_VERSION 3
|
---|
1011 | #endif /* !E1K_WITH_TXD_CACHE */
|
---|
1012 | /** Saved state version for VirtualBox 4.1 and earlier.
|
---|
1013 | * These did not include VLAN tag fields. */
|
---|
1014 | #define E1K_SAVEDSTATE_VERSION_VBOX_41 2
|
---|
1015 | /** Saved state version for VirtualBox 3.0 and earlier.
|
---|
1016 | * This did not include the configuration part nor the E1kEEPROM. */
|
---|
1017 | #define E1K_SAVEDSTATE_VERSION_VBOX_30 1
|
---|
1018 |
|
---|
1019 | /**
|
---|
1020 | * E1000 shared device state.
|
---|
1021 | *
|
---|
1022 | * This is shared between ring-0 and ring-3.
|
---|
1023 | */
|
---|
1024 | typedef struct E1KSTATE
|
---|
1025 | {
|
---|
1026 | char szPrf[8]; /**< Log prefix, e.g. E1000#1. */
|
---|
1027 |
|
---|
1028 | /** Handle to PCI region \#0, the MMIO region. */
|
---|
1029 | IOMIOPORTHANDLE hMmioRegion;
|
---|
1030 | /** Handle to PCI region \#2, the I/O ports. */
|
---|
1031 | IOMIOPORTHANDLE hIoPorts;
|
---|
1032 |
|
---|
1033 | /** Receive Interrupt Delay Timer. */
|
---|
1034 | TMTIMERHANDLE hRIDTimer;
|
---|
1035 | /** Receive Absolute Delay Timer. */
|
---|
1036 | TMTIMERHANDLE hRADTimer;
|
---|
1037 | /** Transmit Interrupt Delay Timer. */
|
---|
1038 | TMTIMERHANDLE hTIDTimer;
|
---|
1039 | /** Transmit Absolute Delay Timer. */
|
---|
1040 | TMTIMERHANDLE hTADTimer;
|
---|
1041 | /** Transmit Delay Timer. */
|
---|
1042 | TMTIMERHANDLE hTXDTimer;
|
---|
1043 | /** Late Interrupt Timer. */
|
---|
1044 | TMTIMERHANDLE hIntTimer;
|
---|
1045 | /** Link Up(/Restore) Timer. */
|
---|
1046 | TMTIMERHANDLE hLUTimer;
|
---|
1047 |
|
---|
1048 | /** Transmit task. */
|
---|
1049 | PDMTASKHANDLE hTxTask;
|
---|
1050 |
|
---|
1051 | /** Critical section - what is it protecting? */
|
---|
1052 | PDMCRITSECT cs;
|
---|
1053 | /** RX Critical section. */
|
---|
1054 | PDMCRITSECT csRx;
|
---|
1055 | #ifdef E1K_WITH_TX_CS
|
---|
1056 | /** TX Critical section. */
|
---|
1057 | PDMCRITSECT csTx;
|
---|
1058 | #endif /* E1K_WITH_TX_CS */
|
---|
1059 | /** MAC address obtained from the configuration. */
|
---|
1060 | RTMAC macConfigured;
|
---|
1061 | uint16_t u16Padding0;
|
---|
1062 | /** EMT: Last time the interrupt was acknowledged. */
|
---|
1063 | uint64_t u64AckedAt;
|
---|
1064 | /** All: Used for eliminating spurious interrupts. */
|
---|
1065 | bool fIntRaised;
|
---|
1066 | /** EMT: false if the cable is disconnected by the GUI. */
|
---|
1067 | bool fCableConnected;
|
---|
1068 | /** EMT: Compute Ethernet CRC for RX packets. */
|
---|
1069 | bool fEthernetCRC;
|
---|
1070 | /** All: throttle interrupts. */
|
---|
1071 | bool fItrEnabled;
|
---|
1072 | /** All: throttle RX interrupts. */
|
---|
1073 | bool fItrRxEnabled;
|
---|
1074 | /** All: Delay TX interrupts using TIDV/TADV. */
|
---|
1075 | bool fTidEnabled;
|
---|
1076 | bool afPadding[2];
|
---|
1077 | /** Link up delay (in milliseconds). */
|
---|
1078 | uint32_t cMsLinkUpDelay;
|
---|
1079 |
|
---|
1080 | /** All: Device register storage. */
|
---|
1081 | uint32_t auRegs[E1K_NUM_OF_32BIT_REGS];
|
---|
1082 | /** TX/RX: Status LED. */
|
---|
1083 | PDMLED led;
|
---|
1084 | /** TX/RX: Number of packet being sent/received to show in debug log. */
|
---|
1085 | uint32_t u32PktNo;
|
---|
1086 |
|
---|
1087 | /** EMT: Offset of the register to be read via IO. */
|
---|
1088 | uint32_t uSelectedReg;
|
---|
1089 | /** EMT: Multicast Table Array. */
|
---|
1090 | uint32_t auMTA[128];
|
---|
1091 | /** EMT: Receive Address registers. */
|
---|
1092 | E1KRA aRecAddr;
|
---|
1093 | /** EMT: VLAN filter table array. */
|
---|
1094 | uint32_t auVFTA[128];
|
---|
1095 | /** EMT: Receive buffer size. */
|
---|
1096 | uint16_t u16RxBSize;
|
---|
1097 | /** EMT: Locked state -- no state alteration possible. */
|
---|
1098 | bool fLocked;
|
---|
1099 | /** EMT: */
|
---|
1100 | bool fDelayInts;
|
---|
1101 | /** All: */
|
---|
1102 | bool fIntMaskUsed;
|
---|
1103 |
|
---|
1104 | /** N/A: */
|
---|
1105 | bool volatile fMaybeOutOfSpace;
|
---|
1106 | /** EMT: Gets signalled when more RX descriptors become available. */
|
---|
1107 | SUPSEMEVENT hEventMoreRxDescAvail;
|
---|
1108 | #ifdef E1K_WITH_RXD_CACHE
|
---|
1109 | /** RX: Fetched RX descriptors. */
|
---|
1110 | E1KRXDESC aRxDescriptors[E1K_RXD_CACHE_SIZE];
|
---|
1111 | //uint64_t aRxDescAddr[E1K_RXD_CACHE_SIZE];
|
---|
1112 | /** RX: Actual number of fetched RX descriptors. */
|
---|
1113 | uint32_t nRxDFetched;
|
---|
1114 | /** RX: Index in cache of RX descriptor being processed. */
|
---|
1115 | uint32_t iRxDCurrent;
|
---|
1116 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
1117 |
|
---|
1118 | /** TX: Context used for TCP segmentation packets. */
|
---|
1119 | E1KTXCTX contextTSE;
|
---|
1120 | /** TX: Context used for ordinary packets. */
|
---|
1121 | E1KTXCTX contextNormal;
|
---|
1122 | #ifdef E1K_WITH_TXD_CACHE
|
---|
1123 | /** TX: Fetched TX descriptors. */
|
---|
1124 | E1KTXDESC aTxDescriptors[E1K_TXD_CACHE_SIZE];
|
---|
1125 | /** TX: Actual number of fetched TX descriptors. */
|
---|
1126 | uint8_t nTxDFetched;
|
---|
1127 | /** TX: Index in cache of TX descriptor being processed. */
|
---|
1128 | uint8_t iTxDCurrent;
|
---|
1129 | /** TX: Will this frame be sent as GSO. */
|
---|
1130 | bool fGSO;
|
---|
1131 | /** Alignment padding. */
|
---|
1132 | bool fReserved;
|
---|
1133 | /** TX: Number of bytes in next packet. */
|
---|
1134 | uint32_t cbTxAlloc;
|
---|
1135 |
|
---|
1136 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
1137 | /** GSO context. u8Type is set to PDMNETWORKGSOTYPE_INVALID when not
|
---|
1138 | * applicable to the current TSE mode. */
|
---|
1139 | PDMNETWORKGSO GsoCtx;
|
---|
1140 | /** Scratch space for holding the loopback / fallback scatter / gather
|
---|
1141 | * descriptor. */
|
---|
1142 | union
|
---|
1143 | {
|
---|
1144 | PDMSCATTERGATHER Sg;
|
---|
1145 | uint8_t padding[8 * sizeof(RTUINTPTR)];
|
---|
1146 | } uTxFallback;
|
---|
1147 | /** TX: Transmit packet buffer use for TSE fallback and loopback. */
|
---|
1148 | uint8_t aTxPacketFallback[E1K_MAX_TX_PKT_SIZE];
|
---|
1149 | /** TX: Number of bytes assembled in TX packet buffer. */
|
---|
1150 | uint16_t u16TxPktLen;
|
---|
1151 | /** TX: False will force segmentation in e1000 instead of sending frames as GSO. */
|
---|
1152 | bool fGSOEnabled;
|
---|
1153 | /** TX: IP checksum has to be inserted if true. */
|
---|
1154 | bool fIPcsum;
|
---|
1155 | /** TX: TCP/UDP checksum has to be inserted if true. */
|
---|
1156 | bool fTCPcsum;
|
---|
1157 | /** TX: VLAN tag has to be inserted if true. */
|
---|
1158 | bool fVTag;
|
---|
1159 | /** TX: TCI part of VLAN tag to be inserted. */
|
---|
1160 | uint16_t u16VTagTCI;
|
---|
1161 | /** TX TSE fallback: Number of payload bytes remaining in TSE context. */
|
---|
1162 | uint32_t u32PayRemain;
|
---|
1163 | /** TX TSE fallback: Number of header bytes remaining in TSE context. */
|
---|
1164 | uint16_t u16HdrRemain;
|
---|
1165 | /** TX TSE fallback: Flags from template header. */
|
---|
1166 | uint16_t u16SavedFlags;
|
---|
1167 | /** TX TSE fallback: Partial checksum from template header. */
|
---|
1168 | uint32_t u32SavedCsum;
|
---|
1169 | /** ?: Emulated controller type. */
|
---|
1170 | E1KCHIP eChip;
|
---|
1171 |
|
---|
1172 | /** EMT: Physical interface emulation. */
|
---|
1173 | PHY phy;
|
---|
1174 |
|
---|
1175 | #if 0
|
---|
1176 | /** Alignment padding. */
|
---|
1177 | uint8_t Alignment[HC_ARCH_BITS == 64 ? 8 : 4];
|
---|
1178 | #endif
|
---|
1179 |
|
---|
1180 | STAMCOUNTER StatReceiveBytes;
|
---|
1181 | STAMCOUNTER StatTransmitBytes;
|
---|
1182 | #if defined(VBOX_WITH_STATISTICS)
|
---|
1183 | STAMPROFILEADV StatMMIOReadRZ;
|
---|
1184 | STAMPROFILEADV StatMMIOReadR3;
|
---|
1185 | STAMPROFILEADV StatMMIOWriteRZ;
|
---|
1186 | STAMPROFILEADV StatMMIOWriteR3;
|
---|
1187 | STAMPROFILEADV StatEEPROMRead;
|
---|
1188 | STAMPROFILEADV StatEEPROMWrite;
|
---|
1189 | STAMPROFILEADV StatIOReadRZ;
|
---|
1190 | STAMPROFILEADV StatIOReadR3;
|
---|
1191 | STAMPROFILEADV StatIOWriteRZ;
|
---|
1192 | STAMPROFILEADV StatIOWriteR3;
|
---|
1193 | STAMPROFILEADV StatLateIntTimer;
|
---|
1194 | STAMCOUNTER StatLateInts;
|
---|
1195 | STAMCOUNTER StatIntsRaised;
|
---|
1196 | STAMCOUNTER StatIntsPrevented;
|
---|
1197 | STAMPROFILEADV StatReceive;
|
---|
1198 | STAMPROFILEADV StatReceiveCRC;
|
---|
1199 | STAMPROFILEADV StatReceiveFilter;
|
---|
1200 | STAMPROFILEADV StatReceiveStore;
|
---|
1201 | STAMPROFILEADV StatTransmitRZ;
|
---|
1202 | STAMPROFILEADV StatTransmitR3;
|
---|
1203 | STAMPROFILE StatTransmitSendRZ;
|
---|
1204 | STAMPROFILE StatTransmitSendR3;
|
---|
1205 | STAMPROFILE StatRxOverflow;
|
---|
1206 | STAMCOUNTER StatRxOverflowWakeupRZ;
|
---|
1207 | STAMCOUNTER StatRxOverflowWakeupR3;
|
---|
1208 | STAMCOUNTER StatTxDescCtxNormal;
|
---|
1209 | STAMCOUNTER StatTxDescCtxTSE;
|
---|
1210 | STAMCOUNTER StatTxDescLegacy;
|
---|
1211 | STAMCOUNTER StatTxDescData;
|
---|
1212 | STAMCOUNTER StatTxDescTSEData;
|
---|
1213 | STAMCOUNTER StatTxPathFallback;
|
---|
1214 | STAMCOUNTER StatTxPathGSO;
|
---|
1215 | STAMCOUNTER StatTxPathRegular;
|
---|
1216 | STAMCOUNTER StatPHYAccesses;
|
---|
1217 | STAMCOUNTER aStatRegWrites[E1K_NUM_OF_REGS];
|
---|
1218 | STAMCOUNTER aStatRegReads[E1K_NUM_OF_REGS];
|
---|
1219 | #endif /* VBOX_WITH_STATISTICS */
|
---|
1220 |
|
---|
1221 | #ifdef E1K_INT_STATS
|
---|
1222 | /* Internal stats */
|
---|
1223 | uint64_t u64ArmedAt;
|
---|
1224 | uint64_t uStatMaxTxDelay;
|
---|
1225 | uint32_t uStatInt;
|
---|
1226 | uint32_t uStatIntTry;
|
---|
1227 | uint32_t uStatIntLower;
|
---|
1228 | uint32_t uStatNoIntICR;
|
---|
1229 | int32_t iStatIntLost;
|
---|
1230 | int32_t iStatIntLostOne;
|
---|
1231 | uint32_t uStatIntIMS;
|
---|
1232 | uint32_t uStatIntSkip;
|
---|
1233 | uint32_t uStatIntLate;
|
---|
1234 | uint32_t uStatIntMasked;
|
---|
1235 | uint32_t uStatIntEarly;
|
---|
1236 | uint32_t uStatIntRx;
|
---|
1237 | uint32_t uStatIntTx;
|
---|
1238 | uint32_t uStatIntICS;
|
---|
1239 | uint32_t uStatIntRDTR;
|
---|
1240 | uint32_t uStatIntRXDMT0;
|
---|
1241 | uint32_t uStatIntTXQE;
|
---|
1242 | uint32_t uStatTxNoRS;
|
---|
1243 | uint32_t uStatTxIDE;
|
---|
1244 | uint32_t uStatTxDelayed;
|
---|
1245 | uint32_t uStatTxDelayExp;
|
---|
1246 | uint32_t uStatTAD;
|
---|
1247 | uint32_t uStatTID;
|
---|
1248 | uint32_t uStatRAD;
|
---|
1249 | uint32_t uStatRID;
|
---|
1250 | uint32_t uStatRxFrm;
|
---|
1251 | uint32_t uStatTxFrm;
|
---|
1252 | uint32_t uStatDescCtx;
|
---|
1253 | uint32_t uStatDescDat;
|
---|
1254 | uint32_t uStatDescLeg;
|
---|
1255 | uint32_t uStatTx1514;
|
---|
1256 | uint32_t uStatTx2962;
|
---|
1257 | uint32_t uStatTx4410;
|
---|
1258 | uint32_t uStatTx5858;
|
---|
1259 | uint32_t uStatTx7306;
|
---|
1260 | uint32_t uStatTx8754;
|
---|
1261 | uint32_t uStatTx16384;
|
---|
1262 | uint32_t uStatTx32768;
|
---|
1263 | uint32_t uStatTxLarge;
|
---|
1264 | uint32_t uStatAlign;
|
---|
1265 | #endif /* E1K_INT_STATS */
|
---|
1266 | } E1KSTATE;
|
---|
1267 | /** Pointer to the E1000 device state. */
|
---|
1268 | typedef E1KSTATE *PE1KSTATE;
|
---|
1269 |
|
---|
1270 | /**
|
---|
1271 | * E1000 ring-3 device state
|
---|
1272 | *
|
---|
1273 | * @implements PDMINETWORKDOWN
|
---|
1274 | * @implements PDMINETWORKCONFIG
|
---|
1275 | * @implements PDMILEDPORTS
|
---|
1276 | */
|
---|
1277 | typedef struct E1KSTATER3
|
---|
1278 | {
|
---|
1279 | PDMIBASE IBase;
|
---|
1280 | PDMINETWORKDOWN INetworkDown;
|
---|
1281 | PDMINETWORKCONFIG INetworkConfig;
|
---|
1282 | /** LED interface */
|
---|
1283 | PDMILEDPORTS ILeds;
|
---|
1284 | /** Attached network driver. */
|
---|
1285 | R3PTRTYPE(PPDMIBASE) pDrvBase;
|
---|
1286 | R3PTRTYPE(PPDMILEDCONNECTORS) pLedsConnector;
|
---|
1287 |
|
---|
1288 | /** Pointer to the shared state. */
|
---|
1289 | R3PTRTYPE(PE1KSTATE) pShared;
|
---|
1290 |
|
---|
1291 | /** Device instance. */
|
---|
1292 | PPDMDEVINSR3 pDevInsR3;
|
---|
1293 | /** Attached network driver. */
|
---|
1294 | PPDMINETWORKUPR3 pDrvR3;
|
---|
1295 | /** The scatter / gather buffer used for the current outgoing packet. */
|
---|
1296 | R3PTRTYPE(PPDMSCATTERGATHER) pTxSgR3;
|
---|
1297 |
|
---|
1298 | /** EMT: EEPROM emulation */
|
---|
1299 | E1kEEPROM eeprom;
|
---|
1300 | } E1KSTATER3;
|
---|
1301 | /** Pointer to the E1000 ring-3 device state. */
|
---|
1302 | typedef E1KSTATER3 *PE1KSTATER3;
|
---|
1303 |
|
---|
1304 |
|
---|
1305 | /**
|
---|
1306 | * E1000 ring-0 device state
|
---|
1307 | */
|
---|
1308 | typedef struct E1KSTATER0
|
---|
1309 | {
|
---|
1310 | /** Device instance. */
|
---|
1311 | PPDMDEVINSR0 pDevInsR0;
|
---|
1312 | /** Attached network driver. */
|
---|
1313 | PPDMINETWORKUPR0 pDrvR0;
|
---|
1314 | /** The scatter / gather buffer used for the current outgoing packet - R0. */
|
---|
1315 | R0PTRTYPE(PPDMSCATTERGATHER) pTxSgR0;
|
---|
1316 | } E1KSTATER0;
|
---|
1317 | /** Pointer to the E1000 ring-0 device state. */
|
---|
1318 | typedef E1KSTATER0 *PE1KSTATER0;
|
---|
1319 |
|
---|
1320 |
|
---|
1321 | /**
|
---|
1322 | * E1000 raw-mode device state
|
---|
1323 | */
|
---|
1324 | typedef struct E1KSTATERC
|
---|
1325 | {
|
---|
1326 | /** Device instance. */
|
---|
1327 | PPDMDEVINSRC pDevInsRC;
|
---|
1328 | /** Attached network driver. */
|
---|
1329 | PPDMINETWORKUPRC pDrvRC;
|
---|
1330 | /** The scatter / gather buffer used for the current outgoing packet. */
|
---|
1331 | RCPTRTYPE(PPDMSCATTERGATHER) pTxSgRC;
|
---|
1332 | } E1KSTATERC;
|
---|
1333 | /** Pointer to the E1000 raw-mode device state. */
|
---|
1334 | typedef E1KSTATERC *PE1KSTATERC;
|
---|
1335 |
|
---|
1336 |
|
---|
1337 | /** @def PE1KSTATECC
|
---|
1338 | * Pointer to the instance data for the current context. */
|
---|
1339 | #ifdef IN_RING3
|
---|
1340 | typedef E1KSTATER3 E1KSTATECC;
|
---|
1341 | typedef PE1KSTATER3 PE1KSTATECC;
|
---|
1342 | #elif defined(IN_RING0)
|
---|
1343 | typedef E1KSTATER0 E1KSTATECC;
|
---|
1344 | typedef PE1KSTATER0 PE1KSTATECC;
|
---|
1345 | #elif defined(IN_RC)
|
---|
1346 | typedef E1KSTATERC E1KSTATECC;
|
---|
1347 | typedef PE1KSTATERC PE1KSTATECC;
|
---|
1348 | #else
|
---|
1349 | # error "Not IN_RING3, IN_RING0 or IN_RC"
|
---|
1350 | #endif
|
---|
1351 |
|
---|
1352 |
|
---|
1353 | #ifndef VBOX_DEVICE_STRUCT_TESTCASE
|
---|
1354 |
|
---|
1355 | /* Forward declarations ******************************************************/
|
---|
1356 | static int e1kXmitPending(PPDMDEVINS pDevIns, PE1KSTATE pThis, bool fOnWorkerThread);
|
---|
1357 |
|
---|
1358 | /**
|
---|
1359 | * E1000 register read handler.
|
---|
1360 | */
|
---|
1361 | typedef int (FNE1KREGREAD)(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value);
|
---|
1362 | /**
|
---|
1363 | * E1000 register write handler.
|
---|
1364 | */
|
---|
1365 | typedef int (FNE1KREGWRITE)(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t u32Value);
|
---|
1366 |
|
---|
1367 | static FNE1KREGREAD e1kRegReadUnimplemented;
|
---|
1368 | static FNE1KREGWRITE e1kRegWriteUnimplemented;
|
---|
1369 | static FNE1KREGREAD e1kRegReadAutoClear;
|
---|
1370 | static FNE1KREGREAD e1kRegReadDefault;
|
---|
1371 | static FNE1KREGWRITE e1kRegWriteDefault;
|
---|
1372 | #if 0 /* unused */
|
---|
1373 | static FNE1KREGREAD e1kRegReadCTRL;
|
---|
1374 | #endif
|
---|
1375 | static FNE1KREGWRITE e1kRegWriteCTRL;
|
---|
1376 | static FNE1KREGREAD e1kRegReadEECD;
|
---|
1377 | static FNE1KREGWRITE e1kRegWriteEECD;
|
---|
1378 | static FNE1KREGWRITE e1kRegWriteEERD;
|
---|
1379 | static FNE1KREGWRITE e1kRegWriteMDIC;
|
---|
1380 | static FNE1KREGREAD e1kRegReadICR;
|
---|
1381 | static FNE1KREGWRITE e1kRegWriteICR;
|
---|
1382 | static FNE1KREGWRITE e1kRegWriteICS;
|
---|
1383 | static FNE1KREGWRITE e1kRegWriteIMS;
|
---|
1384 | static FNE1KREGWRITE e1kRegWriteIMC;
|
---|
1385 | static FNE1KREGWRITE e1kRegWriteRCTL;
|
---|
1386 | static FNE1KREGWRITE e1kRegWritePBA;
|
---|
1387 | static FNE1KREGWRITE e1kRegWriteRDT;
|
---|
1388 | static FNE1KREGWRITE e1kRegWriteRDTR;
|
---|
1389 | static FNE1KREGWRITE e1kRegWriteTDT;
|
---|
1390 | static FNE1KREGREAD e1kRegReadMTA;
|
---|
1391 | static FNE1KREGWRITE e1kRegWriteMTA;
|
---|
1392 | static FNE1KREGREAD e1kRegReadRA;
|
---|
1393 | static FNE1KREGWRITE e1kRegWriteRA;
|
---|
1394 | static FNE1KREGREAD e1kRegReadVFTA;
|
---|
1395 | static FNE1KREGWRITE e1kRegWriteVFTA;
|
---|
1396 |
|
---|
1397 | /**
|
---|
1398 | * Register map table.
|
---|
1399 | *
|
---|
1400 | * Override pfnRead and pfnWrite to get register-specific behavior.
|
---|
1401 | */
|
---|
1402 | static const struct E1kRegMap_st
|
---|
1403 | {
|
---|
1404 | /** Register offset in the register space. */
|
---|
1405 | uint32_t offset;
|
---|
1406 | /** Size in bytes. Registers of size > 4 are in fact tables. */
|
---|
1407 | uint32_t size;
|
---|
1408 | /** Readable bits. */
|
---|
1409 | uint32_t readable;
|
---|
1410 | /** Writable bits. */
|
---|
1411 | uint32_t writable;
|
---|
1412 | /** Read callback. */
|
---|
1413 | FNE1KREGREAD *pfnRead;
|
---|
1414 | /** Write callback. */
|
---|
1415 | FNE1KREGWRITE *pfnWrite;
|
---|
1416 | /** Abbreviated name. */
|
---|
1417 | const char *abbrev;
|
---|
1418 | /** Full name. */
|
---|
1419 | const char *name;
|
---|
1420 | } g_aE1kRegMap[E1K_NUM_OF_REGS] =
|
---|
1421 | {
|
---|
1422 | /* offset size read mask write mask read callback write callback abbrev full name */
|
---|
1423 | /*------- ------- ---------- ---------- ----------------------- ------------------------ ---------- ------------------------------*/
|
---|
1424 | { 0x00000, 0x00004, 0xDBF31BE9, 0xDBF31BE9, e1kRegReadDefault , e1kRegWriteCTRL , "CTRL" , "Device Control" },
|
---|
1425 | { 0x00008, 0x00004, 0x0000FDFF, 0x00000000, e1kRegReadDefault , e1kRegWriteUnimplemented, "STATUS" , "Device Status" },
|
---|
1426 | { 0x00010, 0x00004, 0x000027F0, 0x00000070, e1kRegReadEECD , e1kRegWriteEECD , "EECD" , "EEPROM/Flash Control/Data" },
|
---|
1427 | { 0x00014, 0x00004, 0xFFFFFF10, 0xFFFFFF00, e1kRegReadDefault , e1kRegWriteEERD , "EERD" , "EEPROM Read" },
|
---|
1428 | { 0x00018, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "CTRL_EXT", "Extended Device Control" },
|
---|
1429 | { 0x0001c, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FLA" , "Flash Access (N/A)" },
|
---|
1430 | { 0x00020, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteMDIC , "MDIC" , "MDI Control" },
|
---|
1431 | { 0x00028, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCAL" , "Flow Control Address Low" },
|
---|
1432 | { 0x0002c, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCAH" , "Flow Control Address High" },
|
---|
1433 | { 0x00030, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCT" , "Flow Control Type" },
|
---|
1434 | { 0x00038, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "VET" , "VLAN EtherType" },
|
---|
1435 | { 0x000c0, 0x00004, 0x0001F6DF, 0x0001F6DF, e1kRegReadICR , e1kRegWriteICR , "ICR" , "Interrupt Cause Read" },
|
---|
1436 | { 0x000c4, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "ITR" , "Interrupt Throttling" },
|
---|
1437 | { 0x000c8, 0x00004, 0x00000000, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteICS , "ICS" , "Interrupt Cause Set" },
|
---|
1438 | { 0x000d0, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteIMS , "IMS" , "Interrupt Mask Set/Read" },
|
---|
1439 | { 0x000d8, 0x00004, 0x00000000, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteIMC , "IMC" , "Interrupt Mask Clear" },
|
---|
1440 | { 0x00100, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteRCTL , "RCTL" , "Receive Control" },
|
---|
1441 | { 0x00170, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCTTV" , "Flow Control Transmit Timer Value" },
|
---|
1442 | { 0x00178, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TXCW" , "Transmit Configuration Word (N/A)" },
|
---|
1443 | { 0x00180, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RXCW" , "Receive Configuration Word (N/A)" },
|
---|
1444 | { 0x00400, 0x00004, 0x017FFFFA, 0x017FFFFA, e1kRegReadDefault , e1kRegWriteDefault , "TCTL" , "Transmit Control" },
|
---|
1445 | { 0x00410, 0x00004, 0x3FFFFFFF, 0x3FFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "TIPG" , "Transmit IPG" },
|
---|
1446 | { 0x00458, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "AIFS" , "Adaptive IFS Throttle - AIT" },
|
---|
1447 | { 0x00e00, 0x00004, 0xCFCFCFCF, 0xCFCFCFCF, e1kRegReadDefault , e1kRegWriteDefault , "LEDCTL" , "LED Control" },
|
---|
1448 | { 0x01000, 0x00004, 0xFFFF007F, 0x0000007F, e1kRegReadDefault , e1kRegWritePBA , "PBA" , "Packet Buffer Allocation" },
|
---|
1449 | { 0x02160, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCRTL" , "Flow Control Receive Threshold Low" },
|
---|
1450 | { 0x02168, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCRTH" , "Flow Control Receive Threshold High" },
|
---|
1451 | { 0x02410, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RDFH" , "Receive Data FIFO Head" },
|
---|
1452 | { 0x02418, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RDFT" , "Receive Data FIFO Tail" },
|
---|
1453 | { 0x02420, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RDFHS" , "Receive Data FIFO Head Saved Register" },
|
---|
1454 | { 0x02428, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RDFTS" , "Receive Data FIFO Tail Saved Register" },
|
---|
1455 | { 0x02430, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RDFPC" , "Receive Data FIFO Packet Count" },
|
---|
1456 | { 0x02800, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "RDBAL" , "Receive Descriptor Base Low" },
|
---|
1457 | { 0x02804, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "RDBAH" , "Receive Descriptor Base High" },
|
---|
1458 | { 0x02808, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "RDLEN" , "Receive Descriptor Length" },
|
---|
1459 | { 0x02810, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "RDH" , "Receive Descriptor Head" },
|
---|
1460 | { 0x02818, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteRDT , "RDT" , "Receive Descriptor Tail" },
|
---|
1461 | { 0x02820, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteRDTR , "RDTR" , "Receive Delay Timer" },
|
---|
1462 | { 0x02828, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RXDCTL" , "Receive Descriptor Control" },
|
---|
1463 | { 0x0282c, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "RADV" , "Receive Interrupt Absolute Delay Timer" },
|
---|
1464 | { 0x02c00, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RSRPD" , "Receive Small Packet Detect Interrupt" },
|
---|
1465 | { 0x03000, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TXDMAC" , "TX DMA Control (N/A)" },
|
---|
1466 | { 0x03410, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TDFH" , "Transmit Data FIFO Head" },
|
---|
1467 | { 0x03418, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TDFT" , "Transmit Data FIFO Tail" },
|
---|
1468 | { 0x03420, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TDFHS" , "Transmit Data FIFO Head Saved Register" },
|
---|
1469 | { 0x03428, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TDFTS" , "Transmit Data FIFO Tail Saved Register" },
|
---|
1470 | { 0x03430, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TDFPC" , "Transmit Data FIFO Packet Count" },
|
---|
1471 | { 0x03800, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "TDBAL" , "Transmit Descriptor Base Low" },
|
---|
1472 | { 0x03804, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "TDBAH" , "Transmit Descriptor Base High" },
|
---|
1473 | { 0x03808, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "TDLEN" , "Transmit Descriptor Length" },
|
---|
1474 | { 0x03810, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "TDH" , "Transmit Descriptor Head" },
|
---|
1475 | { 0x03818, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteTDT , "TDT" , "Transmit Descriptor Tail" },
|
---|
1476 | { 0x03820, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "TIDV" , "Transmit Interrupt Delay Value" },
|
---|
1477 | { 0x03828, 0x00004, 0xFF3F3F3F, 0xFF3F3F3F, e1kRegReadDefault , e1kRegWriteDefault , "TXDCTL" , "Transmit Descriptor Control" },
|
---|
1478 | { 0x0382c, 0x00004, 0x0000FFFF, 0x0000FFFF, e1kRegReadDefault , e1kRegWriteDefault , "TADV" , "Transmit Absolute Interrupt Delay Timer" },
|
---|
1479 | { 0x03830, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "TSPMT" , "TCP Segmentation Pad and Threshold" },
|
---|
1480 | { 0x04000, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "CRCERRS" , "CRC Error Count" },
|
---|
1481 | { 0x04004, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "ALGNERRC", "Alignment Error Count" },
|
---|
1482 | { 0x04008, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "SYMERRS" , "Symbol Error Count" },
|
---|
1483 | { 0x0400c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RXERRC" , "RX Error Count" },
|
---|
1484 | { 0x04010, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "MPC" , "Missed Packets Count" },
|
---|
1485 | { 0x04014, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "SCC" , "Single Collision Count" },
|
---|
1486 | { 0x04018, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "ECOL" , "Excessive Collisions Count" },
|
---|
1487 | { 0x0401c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "MCC" , "Multiple Collision Count" },
|
---|
1488 | { 0x04020, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "LATECOL" , "Late Collisions Count" },
|
---|
1489 | { 0x04028, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "COLC" , "Collision Count" },
|
---|
1490 | { 0x04030, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "DC" , "Defer Count" },
|
---|
1491 | { 0x04034, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "TNCRS" , "Transmit - No CRS" },
|
---|
1492 | { 0x04038, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "SEC" , "Sequence Error Count" },
|
---|
1493 | { 0x0403c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "CEXTERR" , "Carrier Extension Error Count" },
|
---|
1494 | { 0x04040, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RLEC" , "Receive Length Error Count" },
|
---|
1495 | { 0x04048, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "XONRXC" , "XON Received Count" },
|
---|
1496 | { 0x0404c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "XONTXC" , "XON Transmitted Count" },
|
---|
1497 | { 0x04050, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "XOFFRXC" , "XOFF Received Count" },
|
---|
1498 | { 0x04054, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "XOFFTXC" , "XOFF Transmitted Count" },
|
---|
1499 | { 0x04058, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FCRUC" , "FC Received Unsupported Count" },
|
---|
1500 | { 0x0405c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC64" , "Packets Received (64 Bytes) Count" },
|
---|
1501 | { 0x04060, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC127" , "Packets Received (65-127 Bytes) Count" },
|
---|
1502 | { 0x04064, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC255" , "Packets Received (128-255 Bytes) Count" },
|
---|
1503 | { 0x04068, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC511" , "Packets Received (256-511 Bytes) Count" },
|
---|
1504 | { 0x0406c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC1023" , "Packets Received (512-1023 Bytes) Count" },
|
---|
1505 | { 0x04070, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PRC1522" , "Packets Received (1024-Max Bytes)" },
|
---|
1506 | { 0x04074, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GPRC" , "Good Packets Received Count" },
|
---|
1507 | { 0x04078, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "BPRC" , "Broadcast Packets Received Count" },
|
---|
1508 | { 0x0407c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "MPRC" , "Multicast Packets Received Count" },
|
---|
1509 | { 0x04080, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GPTC" , "Good Packets Transmitted Count" },
|
---|
1510 | { 0x04088, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GORCL" , "Good Octets Received Count (Low)" },
|
---|
1511 | { 0x0408c, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GORCH" , "Good Octets Received Count (Hi)" },
|
---|
1512 | { 0x04090, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GOTCL" , "Good Octets Transmitted Count (Low)" },
|
---|
1513 | { 0x04094, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "GOTCH" , "Good Octets Transmitted Count (Hi)" },
|
---|
1514 | { 0x040a0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RNBC" , "Receive No Buffers Count" },
|
---|
1515 | { 0x040a4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RUC" , "Receive Undersize Count" },
|
---|
1516 | { 0x040a8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RFC" , "Receive Fragment Count" },
|
---|
1517 | { 0x040ac, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "ROC" , "Receive Oversize Count" },
|
---|
1518 | { 0x040b0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "RJC" , "Receive Jabber Count" },
|
---|
1519 | { 0x040b4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "MGTPRC" , "Management Packets Received Count" },
|
---|
1520 | { 0x040b8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "MGTPDC" , "Management Packets Dropped Count" },
|
---|
1521 | { 0x040bc, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "MGTPTC" , "Management Pkts Transmitted Count" },
|
---|
1522 | { 0x040c0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TORL" , "Total Octets Received (Lo)" },
|
---|
1523 | { 0x040c4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TORH" , "Total Octets Received (Hi)" },
|
---|
1524 | { 0x040c8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TOTL" , "Total Octets Transmitted (Lo)" },
|
---|
1525 | { 0x040cc, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TOTH" , "Total Octets Transmitted (Hi)" },
|
---|
1526 | { 0x040d0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TPR" , "Total Packets Received" },
|
---|
1527 | { 0x040d4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TPT" , "Total Packets Transmitted" },
|
---|
1528 | { 0x040d8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC64" , "Packets Transmitted (64 Bytes) Count" },
|
---|
1529 | { 0x040dc, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC127" , "Packets Transmitted (65-127 Bytes) Count" },
|
---|
1530 | { 0x040e0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC255" , "Packets Transmitted (128-255 Bytes) Count" },
|
---|
1531 | { 0x040e4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC511" , "Packets Transmitted (256-511 Bytes) Count" },
|
---|
1532 | { 0x040e8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC1023" , "Packets Transmitted (512-1023 Bytes) Count" },
|
---|
1533 | { 0x040ec, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "PTC1522" , "Packets Transmitted (1024 Bytes or Greater) Count" },
|
---|
1534 | { 0x040f0, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "MPTC" , "Multicast Packets Transmitted Count" },
|
---|
1535 | { 0x040f4, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "BPTC" , "Broadcast Packets Transmitted Count" },
|
---|
1536 | { 0x040f8, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TSCTC" , "TCP Segmentation Context Transmitted Count" },
|
---|
1537 | { 0x040fc, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadAutoClear , e1kRegWriteUnimplemented, "TSCTFC" , "TCP Segmentation Context Tx Fail Count" },
|
---|
1538 | { 0x05000, 0x00004, 0x000007FF, 0x000007FF, e1kRegReadDefault , e1kRegWriteDefault , "RXCSUM" , "Receive Checksum Control" },
|
---|
1539 | { 0x05800, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "WUC" , "Wakeup Control" },
|
---|
1540 | { 0x05808, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "WUFC" , "Wakeup Filter Control" },
|
---|
1541 | { 0x05810, 0x00004, 0xFFFFFFFF, 0x00000000, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "WUS" , "Wakeup Status" },
|
---|
1542 | { 0x05820, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadDefault , e1kRegWriteDefault , "MANC" , "Management Control" },
|
---|
1543 | { 0x05838, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "IPAV" , "IP Address Valid" },
|
---|
1544 | { 0x05900, 0x00004, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "WUPL" , "Wakeup Packet Length" },
|
---|
1545 | { 0x05200, 0x00200, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadMTA , e1kRegWriteMTA , "MTA" , "Multicast Table Array (n)" },
|
---|
1546 | { 0x05400, 0x00080, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadRA , e1kRegWriteRA , "RA" , "Receive Address (64-bit) (n)" },
|
---|
1547 | { 0x05600, 0x00200, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadVFTA , e1kRegWriteVFTA , "VFTA" , "VLAN Filter Table Array (n)" },
|
---|
1548 | { 0x05840, 0x0001c, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "IP4AT" , "IPv4 Address Table" },
|
---|
1549 | { 0x05880, 0x00010, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "IP6AT" , "IPv6 Address Table" },
|
---|
1550 | { 0x05a00, 0x00080, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "WUPM" , "Wakeup Packet Memory" },
|
---|
1551 | { 0x05f00, 0x0001c, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FFLT" , "Flexible Filter Length Table" },
|
---|
1552 | { 0x09000, 0x003fc, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FFMT" , "Flexible Filter Mask Table" },
|
---|
1553 | { 0x09800, 0x003fc, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "FFVT" , "Flexible Filter Value Table" },
|
---|
1554 | { 0x10000, 0x10000, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadUnimplemented, e1kRegWriteUnimplemented, "PBM" , "Packet Buffer Memory (n)" },
|
---|
1555 | { 0x00040, 0x00080, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadRA , e1kRegWriteRA , "RA82542" , "Receive Address (64-bit) (n) (82542)" },
|
---|
1556 | { 0x00200, 0x00200, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadMTA , e1kRegWriteMTA , "MTA82542", "Multicast Table Array (n) (82542)" },
|
---|
1557 | { 0x00600, 0x00200, 0xFFFFFFFF, 0xFFFFFFFF, e1kRegReadVFTA , e1kRegWriteVFTA , "VFTA82542", "VLAN Filter Table Array (n) (82542)" }
|
---|
1558 | };
|
---|
1559 |
|
---|
1560 | #ifdef LOG_ENABLED
|
---|
1561 |
|
---|
1562 | /**
|
---|
1563 | * Convert U32 value to hex string. Masked bytes are replaced with dots.
|
---|
1564 | *
|
---|
1565 | * @remarks The mask has half-byte byte (not bit) granularity (e.g. 0000000F).
|
---|
1566 | *
|
---|
1567 | * @returns The buffer.
|
---|
1568 | *
|
---|
1569 | * @param u32 The word to convert into string.
|
---|
1570 | * @param mask Selects which bytes to convert.
|
---|
1571 | * @param buf Where to put the result.
|
---|
1572 | */
|
---|
1573 | static char *e1kU32toHex(uint32_t u32, uint32_t mask, char *buf)
|
---|
1574 | {
|
---|
1575 | for (char *ptr = buf + 7; ptr >= buf; --ptr, u32 >>=4, mask >>=4)
|
---|
1576 | {
|
---|
1577 | if (mask & 0xF)
|
---|
1578 | *ptr = (u32 & 0xF) + ((u32 & 0xF) > 9 ? '7' : '0');
|
---|
1579 | else
|
---|
1580 | *ptr = '.';
|
---|
1581 | }
|
---|
1582 | buf[8] = 0;
|
---|
1583 | return buf;
|
---|
1584 | }
|
---|
1585 |
|
---|
1586 | /**
|
---|
1587 | * Returns timer name for debug purposes.
|
---|
1588 | *
|
---|
1589 | * @returns The timer name.
|
---|
1590 | *
|
---|
1591 | * @param pThis The device state structure.
|
---|
1592 | * @param hTimer The timer to name.
|
---|
1593 | */
|
---|
1594 | DECLINLINE(const char *) e1kGetTimerName(PE1KSTATE pThis, TMTIMERHANDLE hTimer)
|
---|
1595 | {
|
---|
1596 | if (hTimer == pThis->hTIDTimer)
|
---|
1597 | return "TID";
|
---|
1598 | if (hTimer == pThis->hTADTimer)
|
---|
1599 | return "TAD";
|
---|
1600 | if (hTimer == pThis->hRIDTimer)
|
---|
1601 | return "RID";
|
---|
1602 | if (hTimer == pThis->hRADTimer)
|
---|
1603 | return "RAD";
|
---|
1604 | if (hTimer == pThis->hIntTimer)
|
---|
1605 | return "Int";
|
---|
1606 | if (hTimer == pThis->hTXDTimer)
|
---|
1607 | return "TXD";
|
---|
1608 | if (hTimer == pThis->hLUTimer)
|
---|
1609 | return "LinkUp";
|
---|
1610 | return "unknown";
|
---|
1611 | }
|
---|
1612 |
|
---|
1613 | #endif /* LOG_ENABLED */
|
---|
1614 |
|
---|
1615 | /**
|
---|
1616 | * Arm a timer.
|
---|
1617 | *
|
---|
1618 | * @param pDevIns The device instance.
|
---|
1619 | * @param pThis Pointer to the device state structure.
|
---|
1620 | * @param hTimer The timer to arm.
|
---|
1621 | * @param uExpireIn Expiration interval in microseconds.
|
---|
1622 | */
|
---|
1623 | DECLINLINE(void) e1kArmTimer(PPDMDEVINS pDevIns, PE1KSTATE pThis, TMTIMERHANDLE hTimer, uint32_t uExpireIn)
|
---|
1624 | {
|
---|
1625 | if (pThis->fLocked)
|
---|
1626 | return;
|
---|
1627 |
|
---|
1628 | E1kLog2(("%s Arming %s timer to fire in %d usec...\n",
|
---|
1629 | pThis->szPrf, e1kGetTimerName(pThis, hTimer), uExpireIn));
|
---|
1630 | int rc = PDMDevHlpTimerSetMicro(pDevIns, hTimer, uExpireIn);
|
---|
1631 | AssertRC(rc);
|
---|
1632 | }
|
---|
1633 |
|
---|
1634 | #ifdef IN_RING3
|
---|
1635 | /**
|
---|
1636 | * Cancel a timer.
|
---|
1637 | *
|
---|
1638 | * @param pDevIns The device instance.
|
---|
1639 | * @param pThis Pointer to the device state structure.
|
---|
1640 | * @param pTimer Pointer to the timer.
|
---|
1641 | */
|
---|
1642 | DECLINLINE(void) e1kCancelTimer(PPDMDEVINS pDevIns, PE1KSTATE pThis, TMTIMERHANDLE hTimer)
|
---|
1643 | {
|
---|
1644 | E1kLog2(("%s Stopping %s timer...\n",
|
---|
1645 | pThis->szPrf, e1kGetTimerName(pThis, hTimer)));
|
---|
1646 | int rc = PDMDevHlpTimerStop(pDevIns, hTimer);
|
---|
1647 | if (RT_FAILURE(rc))
|
---|
1648 | E1kLog2(("%s e1kCancelTimer: TMTimerStop(%s) failed with %Rrc\n",
|
---|
1649 | pThis->szPrf, e1kGetTimerName(pThis, hTimer), rc));
|
---|
1650 | RT_NOREF_PV(pThis);
|
---|
1651 | }
|
---|
1652 | #endif /* IN_RING3 */
|
---|
1653 |
|
---|
1654 | #define e1kCsEnter(ps, rc) PDMDevHlpCritSectEnter(pDevIns, &ps->cs, rc)
|
---|
1655 | #define e1kCsLeave(ps) PDMDevHlpCritSectLeave(pDevIns, &ps->cs)
|
---|
1656 |
|
---|
1657 | #define e1kCsRxEnter(ps, rc) PDMDevHlpCritSectEnter(pDevIns, &ps->csRx, rc)
|
---|
1658 | #define e1kCsRxLeave(ps) PDMDevHlpCritSectLeave(pDevIns, &ps->csRx)
|
---|
1659 | #define e1kCsRxIsOwner(ps) PDMDevHlpCritSectIsOwner(pDevIns, &ps->csRx)
|
---|
1660 |
|
---|
1661 | #ifndef E1K_WITH_TX_CS
|
---|
1662 | # define e1kCsTxEnter(ps, rc) VINF_SUCCESS
|
---|
1663 | # define e1kCsTxLeave(ps) do { } while (0)
|
---|
1664 | #else /* E1K_WITH_TX_CS */
|
---|
1665 | # define e1kCsTxEnter(ps, rc) PDMDevHlpCritSectEnter(pDevIns, &ps->csTx, rc)
|
---|
1666 | # define e1kCsTxLeave(ps) PDMDevHlpCritSectLeave(pDevIns, &ps->csTx)
|
---|
1667 | #endif /* E1K_WITH_TX_CS */
|
---|
1668 |
|
---|
1669 |
|
---|
1670 | /**
|
---|
1671 | * Wakeup the RX thread.
|
---|
1672 | */
|
---|
1673 | static void e1kWakeupReceive(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
1674 | {
|
---|
1675 | if ( pThis->fMaybeOutOfSpace
|
---|
1676 | && pThis->hEventMoreRxDescAvail != NIL_SUPSEMEVENT)
|
---|
1677 | {
|
---|
1678 | STAM_COUNTER_INC(&pThis->CTX_SUFF_Z(StatRxOverflowWakeup));
|
---|
1679 | E1kLog(("%s Waking up Out-of-RX-space semaphore\n", pThis->szPrf));
|
---|
1680 | int rc = PDMDevHlpSUPSemEventSignal(pDevIns, pThis->hEventMoreRxDescAvail);
|
---|
1681 | AssertRC(rc);
|
---|
1682 | }
|
---|
1683 | }
|
---|
1684 |
|
---|
1685 | #ifdef IN_RING3
|
---|
1686 |
|
---|
1687 | /**
|
---|
1688 | * Hardware reset. Revert all registers to initial values.
|
---|
1689 | *
|
---|
1690 | * @param pDevIns The device instance.
|
---|
1691 | * @param pThis The device state structure.
|
---|
1692 | * @param pThisCC The current context instance data.
|
---|
1693 | */
|
---|
1694 | static void e1kR3HardReset(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC)
|
---|
1695 | {
|
---|
1696 | E1kLog(("%s Hard reset triggered\n", pThis->szPrf));
|
---|
1697 | /* No interrupts should survive device reset, see @bugref(9556). */
|
---|
1698 | if (pThis->fIntRaised)
|
---|
1699 | {
|
---|
1700 | /* Lower(0) INTA(0) */
|
---|
1701 | PDMDevHlpPCISetIrq(pDevIns, 0, 0);
|
---|
1702 | pThis->fIntRaised = false;
|
---|
1703 | E1kLog(("%s e1kR3HardReset: Lowered IRQ: ICR=%08x\n", pThis->szPrf, ICR));
|
---|
1704 | }
|
---|
1705 | memset(pThis->auRegs, 0, sizeof(pThis->auRegs));
|
---|
1706 | memset(pThis->aRecAddr.au32, 0, sizeof(pThis->aRecAddr.au32));
|
---|
1707 | #ifdef E1K_INIT_RA0
|
---|
1708 | memcpy(pThis->aRecAddr.au32, pThis->macConfigured.au8,
|
---|
1709 | sizeof(pThis->macConfigured.au8));
|
---|
1710 | pThis->aRecAddr.array[0].ctl |= RA_CTL_AV;
|
---|
1711 | #endif /* E1K_INIT_RA0 */
|
---|
1712 | STATUS = 0x0081; /* SPEED=10b (1000 Mb/s), FD=1b (Full Duplex) */
|
---|
1713 | EECD = 0x0100; /* EE_PRES=1b (EEPROM present) */
|
---|
1714 | CTRL = 0x0a09; /* FRCSPD=1b SPEED=10b LRST=1b FD=1b */
|
---|
1715 | TSPMT = 0x01000400;/* TSMT=0400h TSPBP=0100h */
|
---|
1716 | Assert(GET_BITS(RCTL, BSIZE) == 0);
|
---|
1717 | pThis->u16RxBSize = 2048;
|
---|
1718 |
|
---|
1719 | uint16_t u16LedCtl = 0x0602; /* LED0/LINK_UP#, LED2/LINK100# */
|
---|
1720 | pThisCC->eeprom.readWord(0x2F, &u16LedCtl); /* Read LEDCTL defaults from EEPROM */
|
---|
1721 | LEDCTL = 0x07008300 | (((uint32_t)u16LedCtl & 0xCF00) << 8) | (u16LedCtl & 0xCF); /* Only LED0 and LED2 defaults come from EEPROM */
|
---|
1722 |
|
---|
1723 | /* Reset promiscuous mode */
|
---|
1724 | if (pThisCC->pDrvR3)
|
---|
1725 | pThisCC->pDrvR3->pfnSetPromiscuousMode(pThisCC->pDrvR3, false);
|
---|
1726 |
|
---|
1727 | #ifdef E1K_WITH_TXD_CACHE
|
---|
1728 | int rc = e1kCsTxEnter(pThis, VERR_SEM_BUSY);
|
---|
1729 | if (RT_LIKELY(rc == VINF_SUCCESS))
|
---|
1730 | {
|
---|
1731 | pThis->nTxDFetched = 0;
|
---|
1732 | pThis->iTxDCurrent = 0;
|
---|
1733 | pThis->fGSO = false;
|
---|
1734 | pThis->cbTxAlloc = 0;
|
---|
1735 | e1kCsTxLeave(pThis);
|
---|
1736 | }
|
---|
1737 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
1738 | #ifdef E1K_WITH_RXD_CACHE
|
---|
1739 | if (RT_LIKELY(e1kCsRxEnter(pThis, VERR_SEM_BUSY) == VINF_SUCCESS))
|
---|
1740 | {
|
---|
1741 | pThis->iRxDCurrent = pThis->nRxDFetched = 0;
|
---|
1742 | e1kCsRxLeave(pThis);
|
---|
1743 | }
|
---|
1744 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
1745 | #ifdef E1K_LSC_ON_RESET
|
---|
1746 | E1kLog(("%s Will trigger LSC in %d seconds...\n",
|
---|
1747 | pThis->szPrf, pThis->cMsLinkUpDelay / 1000));
|
---|
1748 | e1kArmTimer(pDevIns, pThis, pThis->hLUTimer, pThis->cMsLinkUpDelay * 1000);
|
---|
1749 | #endif /* E1K_LSC_ON_RESET */
|
---|
1750 | }
|
---|
1751 |
|
---|
1752 | #endif /* IN_RING3 */
|
---|
1753 |
|
---|
1754 | /**
|
---|
1755 | * Compute Internet checksum.
|
---|
1756 | *
|
---|
1757 | * @remarks Refer to http://www.netfor2.com/checksum.html for short intro.
|
---|
1758 | *
|
---|
1759 | * @param pThis The device state structure.
|
---|
1760 | * @param cpPacket The packet.
|
---|
1761 | * @param cb The size of the packet.
|
---|
1762 | * @param pszText A string denoting direction of packet transfer.
|
---|
1763 | *
|
---|
1764 | * @return The 1's complement of the 1's complement sum.
|
---|
1765 | *
|
---|
1766 | * @thread E1000_TX
|
---|
1767 | */
|
---|
1768 | static uint16_t e1kCSum16(const void *pvBuf, size_t cb)
|
---|
1769 | {
|
---|
1770 | uint32_t csum = 0;
|
---|
1771 | uint16_t *pu16 = (uint16_t *)pvBuf;
|
---|
1772 |
|
---|
1773 | while (cb > 1)
|
---|
1774 | {
|
---|
1775 | csum += *pu16++;
|
---|
1776 | cb -= 2;
|
---|
1777 | }
|
---|
1778 | if (cb)
|
---|
1779 | csum += *(uint8_t*)pu16;
|
---|
1780 | while (csum >> 16)
|
---|
1781 | csum = (csum >> 16) + (csum & 0xFFFF);
|
---|
1782 | return ~csum;
|
---|
1783 | }
|
---|
1784 |
|
---|
1785 | /**
|
---|
1786 | * Dump a packet to debug log.
|
---|
1787 | *
|
---|
1788 | * @param pDevIns The device instance.
|
---|
1789 | * @param pThis The device state structure.
|
---|
1790 | * @param cpPacket The packet.
|
---|
1791 | * @param cb The size of the packet.
|
---|
1792 | * @param pszText A string denoting direction of packet transfer.
|
---|
1793 | * @thread E1000_TX
|
---|
1794 | */
|
---|
1795 | DECLINLINE(void) e1kPacketDump(PPDMDEVINS pDevIns, PE1KSTATE pThis, const uint8_t *cpPacket, size_t cb, const char *pszText)
|
---|
1796 | {
|
---|
1797 | #ifdef DEBUG
|
---|
1798 | if (RT_LIKELY(e1kCsEnter(pThis, VERR_SEM_BUSY) == VINF_SUCCESS))
|
---|
1799 | {
|
---|
1800 | Log4(("%s --- %s packet #%d: %RTmac => %RTmac (%d bytes) ---\n",
|
---|
1801 | pThis->szPrf, pszText, ++pThis->u32PktNo, cpPacket+6, cpPacket, cb));
|
---|
1802 | if (ntohs(*(uint16_t*)(cpPacket+12)) == 0x86DD)
|
---|
1803 | {
|
---|
1804 | Log4(("%s --- IPv6: %RTnaipv6 => %RTnaipv6\n",
|
---|
1805 | pThis->szPrf, cpPacket+14+8, cpPacket+14+24));
|
---|
1806 | if (*(cpPacket+14+6) == 0x6)
|
---|
1807 | Log4(("%s --- TCP: seq=%x ack=%x\n", pThis->szPrf,
|
---|
1808 | ntohl(*(uint32_t*)(cpPacket+14+40+4)), ntohl(*(uint32_t*)(cpPacket+14+40+8))));
|
---|
1809 | }
|
---|
1810 | else if (ntohs(*(uint16_t*)(cpPacket+12)) == 0x800)
|
---|
1811 | {
|
---|
1812 | Log4(("%s --- IPv4: %RTnaipv4 => %RTnaipv4\n",
|
---|
1813 | pThis->szPrf, *(uint32_t*)(cpPacket+14+12), *(uint32_t*)(cpPacket+14+16)));
|
---|
1814 | if (*(cpPacket+14+6) == 0x6)
|
---|
1815 | Log4(("%s --- TCP: seq=%x ack=%x\n", pThis->szPrf,
|
---|
1816 | ntohl(*(uint32_t*)(cpPacket+14+20+4)), ntohl(*(uint32_t*)(cpPacket+14+20+8))));
|
---|
1817 | }
|
---|
1818 | E1kLog3(("%.*Rhxd\n", cb, cpPacket));
|
---|
1819 | e1kCsLeave(pThis);
|
---|
1820 | }
|
---|
1821 | #else
|
---|
1822 | if (RT_LIKELY(e1kCsEnter(pThis, VERR_SEM_BUSY) == VINF_SUCCESS))
|
---|
1823 | {
|
---|
1824 | if (ntohs(*(uint16_t*)(cpPacket+12)) == 0x86DD)
|
---|
1825 | E1kLogRel(("E1000: %s packet #%d, %RTmac => %RTmac, %RTnaipv6 => %RTnaipv6, seq=%x ack=%x\n",
|
---|
1826 | pszText, ++pThis->u32PktNo, cpPacket+6, cpPacket, cpPacket+14+8, cpPacket+14+24,
|
---|
1827 | ntohl(*(uint32_t*)(cpPacket+14+40+4)), ntohl(*(uint32_t*)(cpPacket+14+40+8))));
|
---|
1828 | else
|
---|
1829 | E1kLogRel(("E1000: %s packet #%d, %RTmac => %RTmac, %RTnaipv4 => %RTnaipv4, seq=%x ack=%x\n",
|
---|
1830 | pszText, ++pThis->u32PktNo, cpPacket+6, cpPacket,
|
---|
1831 | *(uint32_t*)(cpPacket+14+12), *(uint32_t*)(cpPacket+14+16),
|
---|
1832 | ntohl(*(uint32_t*)(cpPacket+14+20+4)), ntohl(*(uint32_t*)(cpPacket+14+20+8))));
|
---|
1833 | e1kCsLeave(pThis);
|
---|
1834 | }
|
---|
1835 | RT_NOREF2(cb, pszText);
|
---|
1836 | #endif
|
---|
1837 | }
|
---|
1838 |
|
---|
1839 | /**
|
---|
1840 | * Determine the type of transmit descriptor.
|
---|
1841 | *
|
---|
1842 | * @returns Descriptor type. See E1K_DTYP_XXX defines.
|
---|
1843 | *
|
---|
1844 | * @param pDesc Pointer to descriptor union.
|
---|
1845 | * @thread E1000_TX
|
---|
1846 | */
|
---|
1847 | DECLINLINE(int) e1kGetDescType(E1KTXDESC *pDesc)
|
---|
1848 | {
|
---|
1849 | if (pDesc->legacy.cmd.fDEXT)
|
---|
1850 | return pDesc->context.dw2.u4DTYP;
|
---|
1851 | return E1K_DTYP_LEGACY;
|
---|
1852 | }
|
---|
1853 |
|
---|
1854 |
|
---|
1855 | #ifdef E1K_WITH_RXD_CACHE
|
---|
1856 | /**
|
---|
1857 | * Return the number of RX descriptor that belong to the hardware.
|
---|
1858 | *
|
---|
1859 | * @returns the number of available descriptors in RX ring.
|
---|
1860 | * @param pThis The device state structure.
|
---|
1861 | * @thread ???
|
---|
1862 | */
|
---|
1863 | DECLINLINE(uint32_t) e1kGetRxLen(PE1KSTATE pThis)
|
---|
1864 | {
|
---|
1865 | /**
|
---|
1866 | * Make sure RDT won't change during computation. EMT may modify RDT at
|
---|
1867 | * any moment.
|
---|
1868 | */
|
---|
1869 | uint32_t rdt = RDT;
|
---|
1870 | return (RDH > rdt ? RDLEN/sizeof(E1KRXDESC) : 0) + rdt - RDH;
|
---|
1871 | }
|
---|
1872 |
|
---|
1873 | DECLINLINE(unsigned) e1kRxDInCache(PE1KSTATE pThis)
|
---|
1874 | {
|
---|
1875 | return pThis->nRxDFetched > pThis->iRxDCurrent ?
|
---|
1876 | pThis->nRxDFetched - pThis->iRxDCurrent : 0;
|
---|
1877 | }
|
---|
1878 |
|
---|
1879 | DECLINLINE(unsigned) e1kRxDIsCacheEmpty(PE1KSTATE pThis)
|
---|
1880 | {
|
---|
1881 | return pThis->iRxDCurrent >= pThis->nRxDFetched;
|
---|
1882 | }
|
---|
1883 |
|
---|
1884 | /**
|
---|
1885 | * Load receive descriptors from guest memory. The caller needs to be in Rx
|
---|
1886 | * critical section.
|
---|
1887 | *
|
---|
1888 | * We need two physical reads in case the tail wrapped around the end of RX
|
---|
1889 | * descriptor ring.
|
---|
1890 | *
|
---|
1891 | * @returns the actual number of descriptors fetched.
|
---|
1892 | * @param pDevIns The device instance.
|
---|
1893 | * @param pThis The device state structure.
|
---|
1894 | * @thread EMT, RX
|
---|
1895 | */
|
---|
1896 | DECLINLINE(unsigned) e1kRxDPrefetch(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
1897 | {
|
---|
1898 | /* We've already loaded pThis->nRxDFetched descriptors past RDH. */
|
---|
1899 | unsigned nDescsAvailable = e1kGetRxLen(pThis) - e1kRxDInCache(pThis);
|
---|
1900 | unsigned nDescsToFetch = RT_MIN(nDescsAvailable, E1K_RXD_CACHE_SIZE - pThis->nRxDFetched);
|
---|
1901 | unsigned nDescsTotal = RDLEN / sizeof(E1KRXDESC);
|
---|
1902 | Assert(nDescsTotal != 0);
|
---|
1903 | if (nDescsTotal == 0)
|
---|
1904 | return 0;
|
---|
1905 | unsigned nFirstNotLoaded = (RDH + e1kRxDInCache(pThis)) % nDescsTotal;
|
---|
1906 | unsigned nDescsInSingleRead = RT_MIN(nDescsToFetch, nDescsTotal - nFirstNotLoaded);
|
---|
1907 | E1kLog3(("%s e1kRxDPrefetch: nDescsAvailable=%u nDescsToFetch=%u "
|
---|
1908 | "nDescsTotal=%u nFirstNotLoaded=0x%x nDescsInSingleRead=%u\n",
|
---|
1909 | pThis->szPrf, nDescsAvailable, nDescsToFetch, nDescsTotal,
|
---|
1910 | nFirstNotLoaded, nDescsInSingleRead));
|
---|
1911 | if (nDescsToFetch == 0)
|
---|
1912 | return 0;
|
---|
1913 | E1KRXDESC* pFirstEmptyDesc = &pThis->aRxDescriptors[pThis->nRxDFetched];
|
---|
1914 | PDMDevHlpPhysRead(pDevIns,
|
---|
1915 | ((uint64_t)RDBAH << 32) + RDBAL + nFirstNotLoaded * sizeof(E1KRXDESC),
|
---|
1916 | pFirstEmptyDesc, nDescsInSingleRead * sizeof(E1KRXDESC));
|
---|
1917 | // uint64_t addrBase = ((uint64_t)RDBAH << 32) + RDBAL;
|
---|
1918 | // unsigned i, j;
|
---|
1919 | // for (i = pThis->nRxDFetched; i < pThis->nRxDFetched + nDescsInSingleRead; ++i)
|
---|
1920 | // {
|
---|
1921 | // pThis->aRxDescAddr[i] = addrBase + (nFirstNotLoaded + i - pThis->nRxDFetched) * sizeof(E1KRXDESC);
|
---|
1922 | // E1kLog3(("%s aRxDescAddr[%d] = %p\n", pThis->szPrf, i, pThis->aRxDescAddr[i]));
|
---|
1923 | // }
|
---|
1924 | E1kLog3(("%s Fetched %u RX descriptors at %08x%08x(0x%x), RDLEN=%08x, RDH=%08x, RDT=%08x\n",
|
---|
1925 | pThis->szPrf, nDescsInSingleRead,
|
---|
1926 | RDBAH, RDBAL + RDH * sizeof(E1KRXDESC),
|
---|
1927 | nFirstNotLoaded, RDLEN, RDH, RDT));
|
---|
1928 | if (nDescsToFetch > nDescsInSingleRead)
|
---|
1929 | {
|
---|
1930 | PDMDevHlpPhysRead(pDevIns,
|
---|
1931 | ((uint64_t)RDBAH << 32) + RDBAL,
|
---|
1932 | pFirstEmptyDesc + nDescsInSingleRead,
|
---|
1933 | (nDescsToFetch - nDescsInSingleRead) * sizeof(E1KRXDESC));
|
---|
1934 | // Assert(i == pThis->nRxDFetched + nDescsInSingleRead);
|
---|
1935 | // for (j = 0; i < pThis->nRxDFetched + nDescsToFetch; ++i, ++j)
|
---|
1936 | // {
|
---|
1937 | // pThis->aRxDescAddr[i] = addrBase + j * sizeof(E1KRXDESC);
|
---|
1938 | // E1kLog3(("%s aRxDescAddr[%d] = %p\n", pThis->szPrf, i, pThis->aRxDescAddr[i]));
|
---|
1939 | // }
|
---|
1940 | E1kLog3(("%s Fetched %u RX descriptors at %08x%08x\n",
|
---|
1941 | pThis->szPrf, nDescsToFetch - nDescsInSingleRead,
|
---|
1942 | RDBAH, RDBAL));
|
---|
1943 | }
|
---|
1944 | pThis->nRxDFetched += nDescsToFetch;
|
---|
1945 | return nDescsToFetch;
|
---|
1946 | }
|
---|
1947 |
|
---|
1948 | # ifdef IN_RING3 /* currently only used in ring-3 due to stack space requirements of the caller */
|
---|
1949 | /**
|
---|
1950 | * Dump receive descriptor to debug log.
|
---|
1951 | *
|
---|
1952 | * @param pThis The device state structure.
|
---|
1953 | * @param pDesc Pointer to the descriptor.
|
---|
1954 | * @thread E1000_RX
|
---|
1955 | */
|
---|
1956 | static void e1kPrintRDesc(PE1KSTATE pThis, E1KRXDESC *pDesc)
|
---|
1957 | {
|
---|
1958 | RT_NOREF2(pThis, pDesc);
|
---|
1959 | E1kLog2(("%s <-- Receive Descriptor (%d bytes):\n", pThis->szPrf, pDesc->u16Length));
|
---|
1960 | E1kLog2((" Address=%16LX Length=%04X Csum=%04X\n",
|
---|
1961 | pDesc->u64BufAddr, pDesc->u16Length, pDesc->u16Checksum));
|
---|
1962 | E1kLog2((" STA: %s %s %s %s %s %s %s ERR: %s %s %s %s SPECIAL: %s VLAN=%03x PRI=%x\n",
|
---|
1963 | pDesc->status.fPIF ? "PIF" : "pif",
|
---|
1964 | pDesc->status.fIPCS ? "IPCS" : "ipcs",
|
---|
1965 | pDesc->status.fTCPCS ? "TCPCS" : "tcpcs",
|
---|
1966 | pDesc->status.fVP ? "VP" : "vp",
|
---|
1967 | pDesc->status.fIXSM ? "IXSM" : "ixsm",
|
---|
1968 | pDesc->status.fEOP ? "EOP" : "eop",
|
---|
1969 | pDesc->status.fDD ? "DD" : "dd",
|
---|
1970 | pDesc->status.fRXE ? "RXE" : "rxe",
|
---|
1971 | pDesc->status.fIPE ? "IPE" : "ipe",
|
---|
1972 | pDesc->status.fTCPE ? "TCPE" : "tcpe",
|
---|
1973 | pDesc->status.fCE ? "CE" : "ce",
|
---|
1974 | E1K_SPEC_CFI(pDesc->status.u16Special) ? "CFI" :"cfi",
|
---|
1975 | E1K_SPEC_VLAN(pDesc->status.u16Special),
|
---|
1976 | E1K_SPEC_PRI(pDesc->status.u16Special)));
|
---|
1977 | }
|
---|
1978 | # endif /* IN_RING3 */
|
---|
1979 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
1980 |
|
---|
1981 | /**
|
---|
1982 | * Dump transmit descriptor to debug log.
|
---|
1983 | *
|
---|
1984 | * @param pThis The device state structure.
|
---|
1985 | * @param pDesc Pointer to descriptor union.
|
---|
1986 | * @param pszDir A string denoting direction of descriptor transfer
|
---|
1987 | * @thread E1000_TX
|
---|
1988 | */
|
---|
1989 | static void e1kPrintTDesc(PE1KSTATE pThis, E1KTXDESC *pDesc, const char *pszDir,
|
---|
1990 | unsigned uLevel = RTLOGGRPFLAGS_LEVEL_2)
|
---|
1991 | {
|
---|
1992 | RT_NOREF4(pThis, pDesc, pszDir, uLevel);
|
---|
1993 |
|
---|
1994 | /*
|
---|
1995 | * Unfortunately we cannot use our format handler here, we want R0 logging
|
---|
1996 | * as well.
|
---|
1997 | */
|
---|
1998 | switch (e1kGetDescType(pDesc))
|
---|
1999 | {
|
---|
2000 | case E1K_DTYP_CONTEXT:
|
---|
2001 | E1kLogX(uLevel, ("%s %s Context Transmit Descriptor %s\n",
|
---|
2002 | pThis->szPrf, pszDir, pszDir));
|
---|
2003 | E1kLogX(uLevel, (" IPCSS=%02X IPCSO=%02X IPCSE=%04X TUCSS=%02X TUCSO=%02X TUCSE=%04X\n",
|
---|
2004 | pDesc->context.ip.u8CSS, pDesc->context.ip.u8CSO, pDesc->context.ip.u16CSE,
|
---|
2005 | pDesc->context.tu.u8CSS, pDesc->context.tu.u8CSO, pDesc->context.tu.u16CSE));
|
---|
2006 | E1kLogX(uLevel, (" TUCMD:%s%s%s %s %s PAYLEN=%04x HDRLEN=%04x MSS=%04x STA: %s\n",
|
---|
2007 | pDesc->context.dw2.fIDE ? " IDE":"",
|
---|
2008 | pDesc->context.dw2.fRS ? " RS" :"",
|
---|
2009 | pDesc->context.dw2.fTSE ? " TSE":"",
|
---|
2010 | pDesc->context.dw2.fIP ? "IPv4":"IPv6",
|
---|
2011 | pDesc->context.dw2.fTCP ? "TCP":"UDP",
|
---|
2012 | pDesc->context.dw2.u20PAYLEN,
|
---|
2013 | pDesc->context.dw3.u8HDRLEN,
|
---|
2014 | pDesc->context.dw3.u16MSS,
|
---|
2015 | pDesc->context.dw3.fDD?"DD":""));
|
---|
2016 | break;
|
---|
2017 | case E1K_DTYP_DATA:
|
---|
2018 | E1kLogX(uLevel, ("%s %s Data Transmit Descriptor (%d bytes) %s\n",
|
---|
2019 | pThis->szPrf, pszDir, pDesc->data.cmd.u20DTALEN, pszDir));
|
---|
2020 | E1kLogX(uLevel, (" Address=%16LX DTALEN=%05X\n",
|
---|
2021 | pDesc->data.u64BufAddr,
|
---|
2022 | pDesc->data.cmd.u20DTALEN));
|
---|
2023 | E1kLogX(uLevel, (" DCMD:%s%s%s%s%s%s%s STA:%s%s%s POPTS:%s%s SPECIAL:%s VLAN=%03x PRI=%x\n",
|
---|
2024 | pDesc->data.cmd.fIDE ? " IDE" :"",
|
---|
2025 | pDesc->data.cmd.fVLE ? " VLE" :"",
|
---|
2026 | pDesc->data.cmd.fRPS ? " RPS" :"",
|
---|
2027 | pDesc->data.cmd.fRS ? " RS" :"",
|
---|
2028 | pDesc->data.cmd.fTSE ? " TSE" :"",
|
---|
2029 | pDesc->data.cmd.fIFCS? " IFCS":"",
|
---|
2030 | pDesc->data.cmd.fEOP ? " EOP" :"",
|
---|
2031 | pDesc->data.dw3.fDD ? " DD" :"",
|
---|
2032 | pDesc->data.dw3.fEC ? " EC" :"",
|
---|
2033 | pDesc->data.dw3.fLC ? " LC" :"",
|
---|
2034 | pDesc->data.dw3.fTXSM? " TXSM":"",
|
---|
2035 | pDesc->data.dw3.fIXSM? " IXSM":"",
|
---|
2036 | E1K_SPEC_CFI(pDesc->data.dw3.u16Special) ? "CFI" :"cfi",
|
---|
2037 | E1K_SPEC_VLAN(pDesc->data.dw3.u16Special),
|
---|
2038 | E1K_SPEC_PRI(pDesc->data.dw3.u16Special)));
|
---|
2039 | break;
|
---|
2040 | case E1K_DTYP_LEGACY:
|
---|
2041 | E1kLogX(uLevel, ("%s %s Legacy Transmit Descriptor (%d bytes) %s\n",
|
---|
2042 | pThis->szPrf, pszDir, pDesc->legacy.cmd.u16Length, pszDir));
|
---|
2043 | E1kLogX(uLevel, (" Address=%16LX DTALEN=%05X\n",
|
---|
2044 | pDesc->data.u64BufAddr,
|
---|
2045 | pDesc->legacy.cmd.u16Length));
|
---|
2046 | E1kLogX(uLevel, (" CMD:%s%s%s%s%s%s%s STA:%s%s%s CSO=%02x CSS=%02x SPECIAL:%s VLAN=%03x PRI=%x\n",
|
---|
2047 | pDesc->legacy.cmd.fIDE ? " IDE" :"",
|
---|
2048 | pDesc->legacy.cmd.fVLE ? " VLE" :"",
|
---|
2049 | pDesc->legacy.cmd.fRPS ? " RPS" :"",
|
---|
2050 | pDesc->legacy.cmd.fRS ? " RS" :"",
|
---|
2051 | pDesc->legacy.cmd.fIC ? " IC" :"",
|
---|
2052 | pDesc->legacy.cmd.fIFCS? " IFCS":"",
|
---|
2053 | pDesc->legacy.cmd.fEOP ? " EOP" :"",
|
---|
2054 | pDesc->legacy.dw3.fDD ? " DD" :"",
|
---|
2055 | pDesc->legacy.dw3.fEC ? " EC" :"",
|
---|
2056 | pDesc->legacy.dw3.fLC ? " LC" :"",
|
---|
2057 | pDesc->legacy.cmd.u8CSO,
|
---|
2058 | pDesc->legacy.dw3.u8CSS,
|
---|
2059 | E1K_SPEC_CFI(pDesc->legacy.dw3.u16Special) ? "CFI" :"cfi",
|
---|
2060 | E1K_SPEC_VLAN(pDesc->legacy.dw3.u16Special),
|
---|
2061 | E1K_SPEC_PRI(pDesc->legacy.dw3.u16Special)));
|
---|
2062 | break;
|
---|
2063 | default:
|
---|
2064 | E1kLog(("%s %s Invalid Transmit Descriptor %s\n",
|
---|
2065 | pThis->szPrf, pszDir, pszDir));
|
---|
2066 | break;
|
---|
2067 | }
|
---|
2068 | }
|
---|
2069 |
|
---|
2070 | /**
|
---|
2071 | * Raise an interrupt later.
|
---|
2072 | *
|
---|
2073 | * @param pThis The device state structure.
|
---|
2074 | */
|
---|
2075 | DECLINLINE(void) e1kPostponeInterrupt(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint64_t nsDeadline)
|
---|
2076 | {
|
---|
2077 | if (!PDMDevHlpTimerIsActive(pDevIns, pThis->hIntTimer))
|
---|
2078 | PDMDevHlpTimerSetNano(pDevIns, pThis->hIntTimer, nsDeadline);
|
---|
2079 | }
|
---|
2080 |
|
---|
2081 | /**
|
---|
2082 | * Raise interrupt if not masked.
|
---|
2083 | *
|
---|
2084 | * @param pThis The device state structure.
|
---|
2085 | */
|
---|
2086 | static int e1kRaiseInterrupt(PPDMDEVINS pDevIns, PE1KSTATE pThis, int rcBusy, uint32_t u32IntCause = 0)
|
---|
2087 | {
|
---|
2088 | int rc = e1kCsEnter(pThis, rcBusy);
|
---|
2089 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
2090 | return rc;
|
---|
2091 |
|
---|
2092 | E1K_INC_ISTAT_CNT(pThis->uStatIntTry);
|
---|
2093 | ICR |= u32IntCause;
|
---|
2094 | if (ICR & IMS)
|
---|
2095 | {
|
---|
2096 | if (pThis->fIntRaised)
|
---|
2097 | {
|
---|
2098 | E1K_INC_ISTAT_CNT(pThis->uStatIntSkip);
|
---|
2099 | E1kLog2(("%s e1kRaiseInterrupt: Already raised, skipped. ICR&IMS=%08x\n",
|
---|
2100 | pThis->szPrf, ICR & IMS));
|
---|
2101 | }
|
---|
2102 | else
|
---|
2103 | {
|
---|
2104 | uint64_t tsNow = PDMDevHlpTimerGet(pDevIns, pThis->hIntTimer);
|
---|
2105 | if (!!ITR && tsNow - pThis->u64AckedAt < ITR * 256
|
---|
2106 | && pThis->fItrEnabled && (pThis->fItrRxEnabled || !(ICR & ICR_RXT0)))
|
---|
2107 | {
|
---|
2108 | E1K_INC_ISTAT_CNT(pThis->uStatIntEarly);
|
---|
2109 | E1kLog2(("%s e1kRaiseInterrupt: Too early to raise again: %d ns < %d ns.\n",
|
---|
2110 | pThis->szPrf, (uint32_t)(tsNow - pThis->u64AckedAt), ITR * 256));
|
---|
2111 | e1kPostponeInterrupt(pDevIns, pThis, ITR * 256);
|
---|
2112 | }
|
---|
2113 | else
|
---|
2114 | {
|
---|
2115 |
|
---|
2116 | /* Since we are delivering the interrupt now
|
---|
2117 | * there is no need to do it later -- stop the timer.
|
---|
2118 | */
|
---|
2119 | PDMDevHlpTimerStop(pDevIns, pThis->hIntTimer);
|
---|
2120 | E1K_INC_ISTAT_CNT(pThis->uStatInt);
|
---|
2121 | STAM_COUNTER_INC(&pThis->StatIntsRaised);
|
---|
2122 | /* Got at least one unmasked interrupt cause */
|
---|
2123 | pThis->fIntRaised = true;
|
---|
2124 | /* Raise(1) INTA(0) */
|
---|
2125 | E1kLogRel(("E1000: irq RAISED icr&mask=0x%x, icr=0x%x\n", ICR & IMS, ICR));
|
---|
2126 | PDMDevHlpPCISetIrq(pDevIns, 0, 1);
|
---|
2127 | E1kLog(("%s e1kRaiseInterrupt: Raised. ICR&IMS=%08x\n",
|
---|
2128 | pThis->szPrf, ICR & IMS));
|
---|
2129 | }
|
---|
2130 | }
|
---|
2131 | }
|
---|
2132 | else
|
---|
2133 | {
|
---|
2134 | E1K_INC_ISTAT_CNT(pThis->uStatIntMasked);
|
---|
2135 | E1kLog2(("%s e1kRaiseInterrupt: Not raising, ICR=%08x, IMS=%08x\n",
|
---|
2136 | pThis->szPrf, ICR, IMS));
|
---|
2137 | }
|
---|
2138 | e1kCsLeave(pThis);
|
---|
2139 | return VINF_SUCCESS;
|
---|
2140 | }
|
---|
2141 |
|
---|
2142 | /**
|
---|
2143 | * Compute the physical address of the descriptor.
|
---|
2144 | *
|
---|
2145 | * @returns the physical address of the descriptor.
|
---|
2146 | *
|
---|
2147 | * @param baseHigh High-order 32 bits of descriptor table address.
|
---|
2148 | * @param baseLow Low-order 32 bits of descriptor table address.
|
---|
2149 | * @param idxDesc The descriptor index in the table.
|
---|
2150 | */
|
---|
2151 | DECLINLINE(RTGCPHYS) e1kDescAddr(uint32_t baseHigh, uint32_t baseLow, uint32_t idxDesc)
|
---|
2152 | {
|
---|
2153 | AssertCompile(sizeof(E1KRXDESC) == sizeof(E1KTXDESC));
|
---|
2154 | return ((uint64_t)baseHigh << 32) + baseLow + idxDesc * sizeof(E1KRXDESC);
|
---|
2155 | }
|
---|
2156 |
|
---|
2157 | #ifdef IN_RING3 /* currently only used in ring-3 due to stack space requirements of the caller */
|
---|
2158 | /**
|
---|
2159 | * Advance the head pointer of the receive descriptor queue.
|
---|
2160 | *
|
---|
2161 | * @remarks RDH always points to the next available RX descriptor.
|
---|
2162 | *
|
---|
2163 | * @param pDevIns The device instance.
|
---|
2164 | * @param pThis The device state structure.
|
---|
2165 | */
|
---|
2166 | DECLINLINE(void) e1kAdvanceRDH(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
2167 | {
|
---|
2168 | Assert(e1kCsRxIsOwner(pThis));
|
---|
2169 | //e1kCsEnter(pThis, RT_SRC_POS);
|
---|
2170 | if (++RDH * sizeof(E1KRXDESC) >= RDLEN)
|
---|
2171 | RDH = 0;
|
---|
2172 | #ifdef E1K_WITH_RXD_CACHE
|
---|
2173 | /*
|
---|
2174 | * We need to fetch descriptors now as the guest may advance RDT all the way
|
---|
2175 | * to RDH as soon as we generate RXDMT0 interrupt. This is mostly to provide
|
---|
2176 | * compatibility with Phar Lap ETS, see @bugref(7346). Note that we do not
|
---|
2177 | * check if the receiver is enabled. It must be, otherwise we won't get here
|
---|
2178 | * in the first place.
|
---|
2179 | *
|
---|
2180 | * Note that we should have moved both RDH and iRxDCurrent by now.
|
---|
2181 | */
|
---|
2182 | if (e1kRxDIsCacheEmpty(pThis))
|
---|
2183 | {
|
---|
2184 | /* Cache is empty, reset it and check if we can fetch more. */
|
---|
2185 | pThis->iRxDCurrent = pThis->nRxDFetched = 0;
|
---|
2186 | E1kLog3(("%s e1kAdvanceRDH: Rx cache is empty, RDH=%x RDT=%x "
|
---|
2187 | "iRxDCurrent=%x nRxDFetched=%x\n",
|
---|
2188 | pThis->szPrf, RDH, RDT, pThis->iRxDCurrent, pThis->nRxDFetched));
|
---|
2189 | e1kRxDPrefetch(pDevIns, pThis);
|
---|
2190 | }
|
---|
2191 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
2192 | /*
|
---|
2193 | * Compute current receive queue length and fire RXDMT0 interrupt
|
---|
2194 | * if we are low on receive buffers
|
---|
2195 | */
|
---|
2196 | uint32_t uRQueueLen = RDH>RDT ? RDLEN/sizeof(E1KRXDESC)-RDH+RDT : RDT-RDH;
|
---|
2197 | /*
|
---|
2198 | * The minimum threshold is controlled by RDMTS bits of RCTL:
|
---|
2199 | * 00 = 1/2 of RDLEN
|
---|
2200 | * 01 = 1/4 of RDLEN
|
---|
2201 | * 10 = 1/8 of RDLEN
|
---|
2202 | * 11 = reserved
|
---|
2203 | */
|
---|
2204 | uint32_t uMinRQThreshold = RDLEN / sizeof(E1KRXDESC) / (2 << GET_BITS(RCTL, RDMTS));
|
---|
2205 | if (uRQueueLen <= uMinRQThreshold)
|
---|
2206 | {
|
---|
2207 | E1kLogRel(("E1000: low on RX descriptors, RDH=%x RDT=%x len=%x threshold=%x\n", RDH, RDT, uRQueueLen, uMinRQThreshold));
|
---|
2208 | E1kLog2(("%s Low on RX descriptors, RDH=%x RDT=%x len=%x threshold=%x, raise an interrupt\n",
|
---|
2209 | pThis->szPrf, RDH, RDT, uRQueueLen, uMinRQThreshold));
|
---|
2210 | E1K_INC_ISTAT_CNT(pThis->uStatIntRXDMT0);
|
---|
2211 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_RXDMT0);
|
---|
2212 | }
|
---|
2213 | E1kLog2(("%s e1kAdvanceRDH: at exit RDH=%x RDT=%x len=%x\n",
|
---|
2214 | pThis->szPrf, RDH, RDT, uRQueueLen));
|
---|
2215 | //e1kCsLeave(pThis);
|
---|
2216 | }
|
---|
2217 | #endif /* IN_RING3 */
|
---|
2218 |
|
---|
2219 | #ifdef E1K_WITH_RXD_CACHE
|
---|
2220 |
|
---|
2221 | # ifdef IN_RING3 /* currently only used in ring-3 due to stack space requirements of the caller */
|
---|
2222 |
|
---|
2223 | /**
|
---|
2224 | * Obtain the next RX descriptor from RXD cache, fetching descriptors from the
|
---|
2225 | * RX ring if the cache is empty.
|
---|
2226 | *
|
---|
2227 | * Note that we cannot advance the cache pointer (iRxDCurrent) yet as it will
|
---|
2228 | * go out of sync with RDH which will cause trouble when EMT checks if the
|
---|
2229 | * cache is empty to do pre-fetch @bugref(6217).
|
---|
2230 | *
|
---|
2231 | * @param pDevIns The device instance.
|
---|
2232 | * @param pThis The device state structure.
|
---|
2233 | * @thread RX
|
---|
2234 | */
|
---|
2235 | DECLINLINE(E1KRXDESC *) e1kRxDGet(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
2236 | {
|
---|
2237 | Assert(e1kCsRxIsOwner(pThis));
|
---|
2238 | /* Check the cache first. */
|
---|
2239 | if (pThis->iRxDCurrent < pThis->nRxDFetched)
|
---|
2240 | return &pThis->aRxDescriptors[pThis->iRxDCurrent];
|
---|
2241 | /* Cache is empty, reset it and check if we can fetch more. */
|
---|
2242 | pThis->iRxDCurrent = pThis->nRxDFetched = 0;
|
---|
2243 | if (e1kRxDPrefetch(pDevIns, pThis))
|
---|
2244 | return &pThis->aRxDescriptors[pThis->iRxDCurrent];
|
---|
2245 | /* Out of Rx descriptors. */
|
---|
2246 | return NULL;
|
---|
2247 | }
|
---|
2248 |
|
---|
2249 |
|
---|
2250 | /**
|
---|
2251 | * Return the RX descriptor obtained with e1kRxDGet() and advance the cache
|
---|
2252 | * pointer. The descriptor gets written back to the RXD ring.
|
---|
2253 | *
|
---|
2254 | * @param pDevIns The device instance.
|
---|
2255 | * @param pThis The device state structure.
|
---|
2256 | * @param pDesc The descriptor being "returned" to the RX ring.
|
---|
2257 | * @thread RX
|
---|
2258 | */
|
---|
2259 | DECLINLINE(void) e1kRxDPut(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KRXDESC* pDesc)
|
---|
2260 | {
|
---|
2261 | Assert(e1kCsRxIsOwner(pThis));
|
---|
2262 | pThis->iRxDCurrent++;
|
---|
2263 | // Assert(pDesc >= pThis->aRxDescriptors);
|
---|
2264 | // Assert(pDesc < pThis->aRxDescriptors + E1K_RXD_CACHE_SIZE);
|
---|
2265 | // uint64_t addr = e1kDescAddr(RDBAH, RDBAL, RDH);
|
---|
2266 | // uint32_t rdh = RDH;
|
---|
2267 | // Assert(pThis->aRxDescAddr[pDesc - pThis->aRxDescriptors] == addr);
|
---|
2268 | PDMDevHlpPCIPhysWrite(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), pDesc, sizeof(E1KRXDESC));
|
---|
2269 | /*
|
---|
2270 | * We need to print the descriptor before advancing RDH as it may fetch new
|
---|
2271 | * descriptors into the cache.
|
---|
2272 | */
|
---|
2273 | e1kPrintRDesc(pThis, pDesc);
|
---|
2274 | e1kAdvanceRDH(pDevIns, pThis);
|
---|
2275 | }
|
---|
2276 |
|
---|
2277 | /**
|
---|
2278 | * Store a fragment of received packet at the specifed address.
|
---|
2279 | *
|
---|
2280 | * @param pDevIns The device instance.
|
---|
2281 | * @param pThis The device state structure.
|
---|
2282 | * @param pDesc The next available RX descriptor.
|
---|
2283 | * @param pvBuf The fragment.
|
---|
2284 | * @param cb The size of the fragment.
|
---|
2285 | */
|
---|
2286 | static void e1kStoreRxFragment(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KRXDESC *pDesc, const void *pvBuf, size_t cb)
|
---|
2287 | {
|
---|
2288 | STAM_PROFILE_ADV_START(&pThis->StatReceiveStore, a);
|
---|
2289 | E1kLog2(("%s e1kStoreRxFragment: store fragment of %04X at %016LX, EOP=%d\n",
|
---|
2290 | pThis->szPrf, cb, pDesc->u64BufAddr, pDesc->status.fEOP));
|
---|
2291 | PDMDevHlpPCIPhysWrite(pDevIns, pDesc->u64BufAddr, pvBuf, cb);
|
---|
2292 | pDesc->u16Length = (uint16_t)cb;
|
---|
2293 | Assert(pDesc->u16Length == cb);
|
---|
2294 | STAM_PROFILE_ADV_STOP(&pThis->StatReceiveStore, a);
|
---|
2295 | RT_NOREF(pThis);
|
---|
2296 | }
|
---|
2297 |
|
---|
2298 | # endif /* IN_RING3 */
|
---|
2299 |
|
---|
2300 | #else /* !E1K_WITH_RXD_CACHE */
|
---|
2301 |
|
---|
2302 | /**
|
---|
2303 | * Store a fragment of received packet that fits into the next available RX
|
---|
2304 | * buffer.
|
---|
2305 | *
|
---|
2306 | * @remarks Trigger the RXT0 interrupt if it is the last fragment of the packet.
|
---|
2307 | *
|
---|
2308 | * @param pDevIns The device instance.
|
---|
2309 | * @param pThis The device state structure.
|
---|
2310 | * @param pDesc The next available RX descriptor.
|
---|
2311 | * @param pvBuf The fragment.
|
---|
2312 | * @param cb The size of the fragment.
|
---|
2313 | */
|
---|
2314 | static void e1kStoreRxFragment(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KRXDESC *pDesc, const void *pvBuf, size_t cb)
|
---|
2315 | {
|
---|
2316 | STAM_PROFILE_ADV_START(&pThis->StatReceiveStore, a);
|
---|
2317 | E1kLog2(("%s e1kStoreRxFragment: store fragment of %04X at %016LX, EOP=%d\n", pThis->szPrf, cb, pDesc->u64BufAddr, pDesc->status.fEOP));
|
---|
2318 | PDMDevHlpPCIPhysWrite(pDevIns, pDesc->u64BufAddr, pvBuf, cb);
|
---|
2319 | pDesc->u16Length = (uint16_t)cb; Assert(pDesc->u16Length == cb);
|
---|
2320 | /* Write back the descriptor */
|
---|
2321 | PDMDevHlpPCIPhysWrite(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), pDesc, sizeof(E1KRXDESC));
|
---|
2322 | e1kPrintRDesc(pThis, pDesc);
|
---|
2323 | E1kLogRel(("E1000: Wrote back RX desc, RDH=%x\n", RDH));
|
---|
2324 | /* Advance head */
|
---|
2325 | e1kAdvanceRDH(pDevIns, pThis);
|
---|
2326 | //E1kLog2(("%s e1kStoreRxFragment: EOP=%d RDTR=%08X RADV=%08X\n", pThis->szPrf, pDesc->fEOP, RDTR, RADV));
|
---|
2327 | if (pDesc->status.fEOP)
|
---|
2328 | {
|
---|
2329 | /* Complete packet has been stored -- it is time to let the guest know. */
|
---|
2330 | #ifdef E1K_USE_RX_TIMERS
|
---|
2331 | if (RDTR)
|
---|
2332 | {
|
---|
2333 | /* Arm the timer to fire in RDTR usec (discard .024) */
|
---|
2334 | e1kArmTimer(pDevIns, pThis, pThis->hRIDTimer, RDTR);
|
---|
2335 | /* If absolute timer delay is enabled and the timer is not running yet, arm it. */
|
---|
2336 | if (RADV != 0 && !PDMDevHlpTimerIsActive(pDevIns, pThis->CTX_SUFF(pRADTimer)))
|
---|
2337 | e1kArmTimer(pThis, pThis->hRADTimer, RADV);
|
---|
2338 | }
|
---|
2339 | else
|
---|
2340 | {
|
---|
2341 | #endif
|
---|
2342 | /* 0 delay means immediate interrupt */
|
---|
2343 | E1K_INC_ISTAT_CNT(pThis->uStatIntRx);
|
---|
2344 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_RXT0);
|
---|
2345 | #ifdef E1K_USE_RX_TIMERS
|
---|
2346 | }
|
---|
2347 | #endif
|
---|
2348 | }
|
---|
2349 | STAM_PROFILE_ADV_STOP(&pThis->StatReceiveStore, a);
|
---|
2350 | }
|
---|
2351 |
|
---|
2352 | #endif /* !E1K_WITH_RXD_CACHE */
|
---|
2353 |
|
---|
2354 | /**
|
---|
2355 | * Returns true if it is a broadcast packet.
|
---|
2356 | *
|
---|
2357 | * @returns true if destination address indicates broadcast.
|
---|
2358 | * @param pvBuf The ethernet packet.
|
---|
2359 | */
|
---|
2360 | DECLINLINE(bool) e1kIsBroadcast(const void *pvBuf)
|
---|
2361 | {
|
---|
2362 | static const uint8_t s_abBcastAddr[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
|
---|
2363 | return memcmp(pvBuf, s_abBcastAddr, sizeof(s_abBcastAddr)) == 0;
|
---|
2364 | }
|
---|
2365 |
|
---|
2366 | /**
|
---|
2367 | * Returns true if it is a multicast packet.
|
---|
2368 | *
|
---|
2369 | * @remarks returns true for broadcast packets as well.
|
---|
2370 | * @returns true if destination address indicates multicast.
|
---|
2371 | * @param pvBuf The ethernet packet.
|
---|
2372 | */
|
---|
2373 | DECLINLINE(bool) e1kIsMulticast(const void *pvBuf)
|
---|
2374 | {
|
---|
2375 | return (*(char*)pvBuf) & 1;
|
---|
2376 | }
|
---|
2377 |
|
---|
2378 | #ifdef IN_RING3 /* currently only used in ring-3 due to stack space requirements of the caller */
|
---|
2379 | /**
|
---|
2380 | * Set IXSM, IPCS and TCPCS flags according to the packet type.
|
---|
2381 | *
|
---|
2382 | * @remarks We emulate checksum offloading for major packets types only.
|
---|
2383 | *
|
---|
2384 | * @returns VBox status code.
|
---|
2385 | * @param pThis The device state structure.
|
---|
2386 | * @param pFrame The available data.
|
---|
2387 | * @param cb Number of bytes available in the buffer.
|
---|
2388 | * @param status Bit fields containing status info.
|
---|
2389 | */
|
---|
2390 | static int e1kRxChecksumOffload(PE1KSTATE pThis, const uint8_t *pFrame, size_t cb, E1KRXDST *pStatus)
|
---|
2391 | {
|
---|
2392 | /** @todo
|
---|
2393 | * It is not safe to bypass checksum verification for packets coming
|
---|
2394 | * from real wire. We currently unable to tell where packets are
|
---|
2395 | * coming from so we tell the driver to ignore our checksum flags
|
---|
2396 | * and do verification in software.
|
---|
2397 | */
|
---|
2398 | # if 0
|
---|
2399 | uint16_t uEtherType = ntohs(*(uint16_t*)(pFrame + 12));
|
---|
2400 |
|
---|
2401 | E1kLog2(("%s e1kRxChecksumOffload: EtherType=%x\n", pThis->szPrf, uEtherType));
|
---|
2402 |
|
---|
2403 | switch (uEtherType)
|
---|
2404 | {
|
---|
2405 | case 0x800: /* IPv4 */
|
---|
2406 | {
|
---|
2407 | pStatus->fIXSM = false;
|
---|
2408 | pStatus->fIPCS = true;
|
---|
2409 | PRTNETIPV4 pIpHdr4 = (PRTNETIPV4)(pFrame + 14);
|
---|
2410 | /* TCP/UDP checksum offloading works with TCP and UDP only */
|
---|
2411 | pStatus->fTCPCS = pIpHdr4->ip_p == 6 || pIpHdr4->ip_p == 17;
|
---|
2412 | break;
|
---|
2413 | }
|
---|
2414 | case 0x86DD: /* IPv6 */
|
---|
2415 | pStatus->fIXSM = false;
|
---|
2416 | pStatus->fIPCS = false;
|
---|
2417 | pStatus->fTCPCS = true;
|
---|
2418 | break;
|
---|
2419 | default: /* ARP, VLAN, etc. */
|
---|
2420 | pStatus->fIXSM = true;
|
---|
2421 | break;
|
---|
2422 | }
|
---|
2423 | # else
|
---|
2424 | pStatus->fIXSM = true;
|
---|
2425 | RT_NOREF_PV(pThis); RT_NOREF_PV(pFrame); RT_NOREF_PV(cb);
|
---|
2426 | # endif
|
---|
2427 | return VINF_SUCCESS;
|
---|
2428 | }
|
---|
2429 | #endif /* IN_RING3 */
|
---|
2430 |
|
---|
2431 | /**
|
---|
2432 | * Pad and store received packet.
|
---|
2433 | *
|
---|
2434 | * @remarks Make sure that the packet appears to upper layer as one coming
|
---|
2435 | * from real Ethernet: pad it and insert FCS.
|
---|
2436 | *
|
---|
2437 | * @returns VBox status code.
|
---|
2438 | * @param pDevIns The device instance.
|
---|
2439 | * @param pThis The device state structure.
|
---|
2440 | * @param pvBuf The available data.
|
---|
2441 | * @param cb Number of bytes available in the buffer.
|
---|
2442 | * @param status Bit fields containing status info.
|
---|
2443 | */
|
---|
2444 | static int e1kHandleRxPacket(PPDMDEVINS pDevIns, PE1KSTATE pThis, const void *pvBuf, size_t cb, E1KRXDST status)
|
---|
2445 | {
|
---|
2446 | #if defined(IN_RING3) /** @todo Remove this extra copying, it's gonna make us run out of kernel / hypervisor stack! */
|
---|
2447 | uint8_t rxPacket[E1K_MAX_RX_PKT_SIZE];
|
---|
2448 | uint8_t *ptr = rxPacket;
|
---|
2449 |
|
---|
2450 | int rc = e1kCsRxEnter(pThis, VERR_SEM_BUSY);
|
---|
2451 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
2452 | return rc;
|
---|
2453 |
|
---|
2454 | if (cb > 70) /* unqualified guess */
|
---|
2455 | pThis->led.Asserted.s.fReading = pThis->led.Actual.s.fReading = 1;
|
---|
2456 |
|
---|
2457 | Assert(cb <= E1K_MAX_RX_PKT_SIZE);
|
---|
2458 | Assert(cb > 16);
|
---|
2459 | size_t cbMax = ((RCTL & RCTL_LPE) ? E1K_MAX_RX_PKT_SIZE - 4 : 1518) - (status.fVP ? 0 : 4);
|
---|
2460 | E1kLog3(("%s Max RX packet size is %u\n", pThis->szPrf, cbMax));
|
---|
2461 | if (status.fVP)
|
---|
2462 | {
|
---|
2463 | /* VLAN packet -- strip VLAN tag in VLAN mode */
|
---|
2464 | if ((CTRL & CTRL_VME) && cb > 16)
|
---|
2465 | {
|
---|
2466 | uint16_t *u16Ptr = (uint16_t*)pvBuf;
|
---|
2467 | memcpy(rxPacket, pvBuf, 12); /* Copy src and dst addresses */
|
---|
2468 | status.u16Special = RT_BE2H_U16(u16Ptr[7]); /* Extract VLAN tag */
|
---|
2469 | memcpy(rxPacket + 12, (uint8_t*)pvBuf + 16, cb - 16); /* Copy the rest of the packet */
|
---|
2470 | cb -= 4;
|
---|
2471 | E1kLog3(("%s Stripped tag for VLAN %u (cb=%u)\n",
|
---|
2472 | pThis->szPrf, status.u16Special, cb));
|
---|
2473 | }
|
---|
2474 | else
|
---|
2475 | status.fVP = false; /* Set VP only if we stripped the tag */
|
---|
2476 | }
|
---|
2477 | else
|
---|
2478 | memcpy(rxPacket, pvBuf, cb);
|
---|
2479 | /* Pad short packets */
|
---|
2480 | if (cb < 60)
|
---|
2481 | {
|
---|
2482 | memset(rxPacket + cb, 0, 60 - cb);
|
---|
2483 | cb = 60;
|
---|
2484 | }
|
---|
2485 | if (!(RCTL & RCTL_SECRC) && cb <= cbMax)
|
---|
2486 | {
|
---|
2487 | STAM_PROFILE_ADV_START(&pThis->StatReceiveCRC, a);
|
---|
2488 | /*
|
---|
2489 | * Add FCS if CRC stripping is not enabled. Since the value of CRC
|
---|
2490 | * is ignored by most of drivers we may as well save us the trouble
|
---|
2491 | * of calculating it (see EthernetCRC CFGM parameter).
|
---|
2492 | */
|
---|
2493 | if (pThis->fEthernetCRC)
|
---|
2494 | *(uint32_t*)(rxPacket + cb) = RTCrc32(rxPacket, cb);
|
---|
2495 | cb += sizeof(uint32_t);
|
---|
2496 | STAM_PROFILE_ADV_STOP(&pThis->StatReceiveCRC, a);
|
---|
2497 | E1kLog3(("%s Added FCS (cb=%u)\n", pThis->szPrf, cb));
|
---|
2498 | }
|
---|
2499 | /* Compute checksum of complete packet */
|
---|
2500 | size_t cbCSumStart = RT_MIN(GET_BITS(RXCSUM, PCSS), cb);
|
---|
2501 | uint16_t checksum = e1kCSum16(rxPacket + cbCSumStart, cb - cbCSumStart);
|
---|
2502 | e1kRxChecksumOffload(pThis, rxPacket, cb, &status);
|
---|
2503 |
|
---|
2504 | /* Update stats */
|
---|
2505 | E1K_INC_CNT32(GPRC);
|
---|
2506 | if (e1kIsBroadcast(pvBuf))
|
---|
2507 | E1K_INC_CNT32(BPRC);
|
---|
2508 | else if (e1kIsMulticast(pvBuf))
|
---|
2509 | E1K_INC_CNT32(MPRC);
|
---|
2510 | /* Update octet receive counter */
|
---|
2511 | E1K_ADD_CNT64(GORCL, GORCH, cb);
|
---|
2512 | STAM_REL_COUNTER_ADD(&pThis->StatReceiveBytes, cb);
|
---|
2513 | if (cb == 64)
|
---|
2514 | E1K_INC_CNT32(PRC64);
|
---|
2515 | else if (cb < 128)
|
---|
2516 | E1K_INC_CNT32(PRC127);
|
---|
2517 | else if (cb < 256)
|
---|
2518 | E1K_INC_CNT32(PRC255);
|
---|
2519 | else if (cb < 512)
|
---|
2520 | E1K_INC_CNT32(PRC511);
|
---|
2521 | else if (cb < 1024)
|
---|
2522 | E1K_INC_CNT32(PRC1023);
|
---|
2523 | else
|
---|
2524 | E1K_INC_CNT32(PRC1522);
|
---|
2525 |
|
---|
2526 | E1K_INC_ISTAT_CNT(pThis->uStatRxFrm);
|
---|
2527 |
|
---|
2528 | # ifdef E1K_WITH_RXD_CACHE
|
---|
2529 | while (cb > 0)
|
---|
2530 | {
|
---|
2531 | E1KRXDESC *pDesc = e1kRxDGet(pDevIns, pThis);
|
---|
2532 |
|
---|
2533 | if (pDesc == NULL)
|
---|
2534 | {
|
---|
2535 | E1kLog(("%s Out of receive buffers, dropping the packet "
|
---|
2536 | "(cb=%u, in_cache=%u, RDH=%x RDT=%x)\n",
|
---|
2537 | pThis->szPrf, cb, e1kRxDInCache(pThis), RDH, RDT));
|
---|
2538 | break;
|
---|
2539 | }
|
---|
2540 | # else /* !E1K_WITH_RXD_CACHE */
|
---|
2541 | if (RDH == RDT)
|
---|
2542 | {
|
---|
2543 | E1kLog(("%s Out of receive buffers, dropping the packet\n",
|
---|
2544 | pThis->szPrf));
|
---|
2545 | }
|
---|
2546 | /* Store the packet to receive buffers */
|
---|
2547 | while (RDH != RDT)
|
---|
2548 | {
|
---|
2549 | /* Load the descriptor pointed by head */
|
---|
2550 | E1KRXDESC desc, *pDesc = &desc;
|
---|
2551 | PDMDevHlpPhysRead(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), &desc, sizeof(desc));
|
---|
2552 | # endif /* !E1K_WITH_RXD_CACHE */
|
---|
2553 | if (pDesc->u64BufAddr)
|
---|
2554 | {
|
---|
2555 | uint16_t u16RxBufferSize = pThis->u16RxBSize; /* see @bugref{9427} */
|
---|
2556 |
|
---|
2557 | /* Update descriptor */
|
---|
2558 | pDesc->status = status;
|
---|
2559 | pDesc->u16Checksum = checksum;
|
---|
2560 | pDesc->status.fDD = true;
|
---|
2561 |
|
---|
2562 | /*
|
---|
2563 | * We need to leave Rx critical section here or we risk deadlocking
|
---|
2564 | * with EMT in e1kRegWriteRDT when the write is to an unallocated
|
---|
2565 | * page or has an access handler associated with it.
|
---|
2566 | * Note that it is safe to leave the critical section here since
|
---|
2567 | * e1kRegWriteRDT() never modifies RDH. It never touches already
|
---|
2568 | * fetched RxD cache entries either.
|
---|
2569 | */
|
---|
2570 | if (cb > u16RxBufferSize)
|
---|
2571 | {
|
---|
2572 | pDesc->status.fEOP = false;
|
---|
2573 | e1kCsRxLeave(pThis);
|
---|
2574 | e1kStoreRxFragment(pDevIns, pThis, pDesc, ptr, u16RxBufferSize);
|
---|
2575 | rc = e1kCsRxEnter(pThis, VERR_SEM_BUSY);
|
---|
2576 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
2577 | return rc;
|
---|
2578 | ptr += u16RxBufferSize;
|
---|
2579 | cb -= u16RxBufferSize;
|
---|
2580 | }
|
---|
2581 | else
|
---|
2582 | {
|
---|
2583 | pDesc->status.fEOP = true;
|
---|
2584 | e1kCsRxLeave(pThis);
|
---|
2585 | e1kStoreRxFragment(pDevIns, pThis, pDesc, ptr, cb);
|
---|
2586 | # ifdef E1K_WITH_RXD_CACHE
|
---|
2587 | rc = e1kCsRxEnter(pThis, VERR_SEM_BUSY);
|
---|
2588 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
2589 | return rc;
|
---|
2590 | cb = 0;
|
---|
2591 | # else /* !E1K_WITH_RXD_CACHE */
|
---|
2592 | pThis->led.Actual.s.fReading = 0;
|
---|
2593 | return VINF_SUCCESS;
|
---|
2594 | # endif /* !E1K_WITH_RXD_CACHE */
|
---|
2595 | }
|
---|
2596 | /*
|
---|
2597 | * Note: RDH is advanced by e1kStoreRxFragment if E1K_WITH_RXD_CACHE
|
---|
2598 | * is not defined.
|
---|
2599 | */
|
---|
2600 | }
|
---|
2601 | # ifdef E1K_WITH_RXD_CACHE
|
---|
2602 | /* Write back the descriptor. */
|
---|
2603 | pDesc->status.fDD = true;
|
---|
2604 | e1kRxDPut(pDevIns, pThis, pDesc);
|
---|
2605 | # else /* !E1K_WITH_RXD_CACHE */
|
---|
2606 | else
|
---|
2607 | {
|
---|
2608 | /* Write back the descriptor. */
|
---|
2609 | pDesc->status.fDD = true;
|
---|
2610 | PDMDevHlpPCIPhysWrite(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), pDesc, sizeof(E1KRXDESC));
|
---|
2611 | e1kAdvanceRDH(pDevIns, pThis);
|
---|
2612 | }
|
---|
2613 | # endif /* !E1K_WITH_RXD_CACHE */
|
---|
2614 | }
|
---|
2615 |
|
---|
2616 | if (cb > 0)
|
---|
2617 | E1kLog(("%s Out of receive buffers, dropping %u bytes", pThis->szPrf, cb));
|
---|
2618 |
|
---|
2619 | pThis->led.Actual.s.fReading = 0;
|
---|
2620 |
|
---|
2621 | e1kCsRxLeave(pThis);
|
---|
2622 | # ifdef E1K_WITH_RXD_CACHE
|
---|
2623 | /* Complete packet has been stored -- it is time to let the guest know. */
|
---|
2624 | # ifdef E1K_USE_RX_TIMERS
|
---|
2625 | if (RDTR)
|
---|
2626 | {
|
---|
2627 | /* Arm the timer to fire in RDTR usec (discard .024) */
|
---|
2628 | e1kArmTimer(pThis, pThis->hRIDTimer, RDTR);
|
---|
2629 | /* If absolute timer delay is enabled and the timer is not running yet, arm it. */
|
---|
2630 | if (RADV != 0 && !PDMDevHlpTimerIsActive(pDevIns, pThis->hRADTimer))
|
---|
2631 | e1kArmTimer(pThis, pThis->hRADTimer, RADV);
|
---|
2632 | }
|
---|
2633 | else
|
---|
2634 | {
|
---|
2635 | # endif /* E1K_USE_RX_TIMERS */
|
---|
2636 | /* 0 delay means immediate interrupt */
|
---|
2637 | E1K_INC_ISTAT_CNT(pThis->uStatIntRx);
|
---|
2638 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_RXT0);
|
---|
2639 | # ifdef E1K_USE_RX_TIMERS
|
---|
2640 | }
|
---|
2641 | # endif /* E1K_USE_RX_TIMERS */
|
---|
2642 | # endif /* E1K_WITH_RXD_CACHE */
|
---|
2643 |
|
---|
2644 | return VINF_SUCCESS;
|
---|
2645 | #else /* !IN_RING3 */
|
---|
2646 | RT_NOREF(pDevIns, pThis, pvBuf, cb, status);
|
---|
2647 | return VERR_INTERNAL_ERROR_2;
|
---|
2648 | #endif /* !IN_RING3 */
|
---|
2649 | }
|
---|
2650 |
|
---|
2651 |
|
---|
2652 | #ifdef IN_RING3
|
---|
2653 | /**
|
---|
2654 | * Bring the link up after the configured delay, 5 seconds by default.
|
---|
2655 | *
|
---|
2656 | * @param pDevIns The device instance.
|
---|
2657 | * @param pThis The device state structure.
|
---|
2658 | * @thread any
|
---|
2659 | */
|
---|
2660 | DECLINLINE(void) e1kBringLinkUpDelayed(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
2661 | {
|
---|
2662 | E1kLog(("%s Will bring up the link in %d seconds...\n",
|
---|
2663 | pThis->szPrf, pThis->cMsLinkUpDelay / 1000));
|
---|
2664 | e1kArmTimer(pDevIns, pThis, pThis->hLUTimer, pThis->cMsLinkUpDelay * 1000);
|
---|
2665 | }
|
---|
2666 |
|
---|
2667 | /**
|
---|
2668 | * Bring up the link immediately.
|
---|
2669 | *
|
---|
2670 | * @param pDevIns The device instance.
|
---|
2671 | * @param pThis The device state structure.
|
---|
2672 | * @param pThisCC The current context instance data.
|
---|
2673 | */
|
---|
2674 | DECLINLINE(void) e1kR3LinkUp(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC)
|
---|
2675 | {
|
---|
2676 | E1kLog(("%s Link is up\n", pThis->szPrf));
|
---|
2677 | STATUS |= STATUS_LU;
|
---|
2678 | Phy::setLinkStatus(&pThis->phy, true);
|
---|
2679 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_LSC);
|
---|
2680 | if (pThisCC->pDrvR3)
|
---|
2681 | pThisCC->pDrvR3->pfnNotifyLinkChanged(pThisCC->pDrvR3, PDMNETWORKLINKSTATE_UP);
|
---|
2682 | /* Trigger processing of pending TX descriptors (see @bugref{8942}). */
|
---|
2683 | PDMDevHlpTaskTrigger(pDevIns, pThis->hTxTask);
|
---|
2684 | }
|
---|
2685 |
|
---|
2686 | /**
|
---|
2687 | * Bring down the link immediately.
|
---|
2688 | *
|
---|
2689 | * @param pDevIns The device instance.
|
---|
2690 | * @param pThis The device state structure.
|
---|
2691 | * @param pThisCC The current context instance data.
|
---|
2692 | */
|
---|
2693 | DECLINLINE(void) e1kR3LinkDown(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC)
|
---|
2694 | {
|
---|
2695 | E1kLog(("%s Link is down\n", pThis->szPrf));
|
---|
2696 | STATUS &= ~STATUS_LU;
|
---|
2697 | #ifdef E1K_LSC_ON_RESET
|
---|
2698 | Phy::setLinkStatus(&pThis->phy, false);
|
---|
2699 | #endif /* E1K_LSC_ON_RESET */
|
---|
2700 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_LSC);
|
---|
2701 | if (pThisCC->pDrvR3)
|
---|
2702 | pThisCC->pDrvR3->pfnNotifyLinkChanged(pThisCC->pDrvR3, PDMNETWORKLINKSTATE_DOWN);
|
---|
2703 | }
|
---|
2704 |
|
---|
2705 | /**
|
---|
2706 | * Bring down the link temporarily.
|
---|
2707 | *
|
---|
2708 | * @param pDevIns The device instance.
|
---|
2709 | * @param pThis The device state structure.
|
---|
2710 | * @param pThisCC The current context instance data.
|
---|
2711 | */
|
---|
2712 | DECLINLINE(void) e1kR3LinkDownTemp(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC)
|
---|
2713 | {
|
---|
2714 | E1kLog(("%s Link is down temporarily\n", pThis->szPrf));
|
---|
2715 | STATUS &= ~STATUS_LU;
|
---|
2716 | Phy::setLinkStatus(&pThis->phy, false);
|
---|
2717 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_LSC);
|
---|
2718 | /*
|
---|
2719 | * Notifying the associated driver that the link went down (even temporarily)
|
---|
2720 | * seems to be the right thing, but it was not done before. This may cause
|
---|
2721 | * a regression if the driver does not expect the link to go down as a result
|
---|
2722 | * of sending PDMNETWORKLINKSTATE_DOWN_RESUME to this device. Earlier versions
|
---|
2723 | * of code notified the driver that the link was up! See @bugref{7057}.
|
---|
2724 | */
|
---|
2725 | if (pThisCC->pDrvR3)
|
---|
2726 | pThisCC->pDrvR3->pfnNotifyLinkChanged(pThisCC->pDrvR3, PDMNETWORKLINKSTATE_DOWN);
|
---|
2727 | e1kBringLinkUpDelayed(pDevIns, pThis);
|
---|
2728 | }
|
---|
2729 | #endif /* IN_RING3 */
|
---|
2730 |
|
---|
2731 | #if 0 /* unused */
|
---|
2732 | /**
|
---|
2733 | * Read handler for Device Status register.
|
---|
2734 | *
|
---|
2735 | * Get the link status from PHY.
|
---|
2736 | *
|
---|
2737 | * @returns VBox status code.
|
---|
2738 | *
|
---|
2739 | * @param pThis The device state structure.
|
---|
2740 | * @param offset Register offset in memory-mapped frame.
|
---|
2741 | * @param index Register index in register array.
|
---|
2742 | * @param mask Used to implement partial reads (8 and 16-bit).
|
---|
2743 | */
|
---|
2744 | static int e1kRegReadCTRL(PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
2745 | {
|
---|
2746 | E1kLog(("%s e1kRegReadCTRL: mdio dir=%s mdc dir=%s mdc=%d\n",
|
---|
2747 | pThis->szPrf, (CTRL & CTRL_MDIO_DIR)?"OUT":"IN ",
|
---|
2748 | (CTRL & CTRL_MDC_DIR)?"OUT":"IN ", !!(CTRL & CTRL_MDC)));
|
---|
2749 | if ((CTRL & CTRL_MDIO_DIR) == 0 && (CTRL & CTRL_MDC))
|
---|
2750 | {
|
---|
2751 | /* MDC is high and MDIO pin is used for input, read MDIO pin from PHY */
|
---|
2752 | if (Phy::readMDIO(&pThis->phy))
|
---|
2753 | *pu32Value = CTRL | CTRL_MDIO;
|
---|
2754 | else
|
---|
2755 | *pu32Value = CTRL & ~CTRL_MDIO;
|
---|
2756 | E1kLog(("%s e1kRegReadCTRL: Phy::readMDIO(%d)\n",
|
---|
2757 | pThis->szPrf, !!(*pu32Value & CTRL_MDIO)));
|
---|
2758 | }
|
---|
2759 | else
|
---|
2760 | {
|
---|
2761 | /* MDIO pin is used for output, ignore it */
|
---|
2762 | *pu32Value = CTRL;
|
---|
2763 | }
|
---|
2764 | return VINF_SUCCESS;
|
---|
2765 | }
|
---|
2766 | #endif /* unused */
|
---|
2767 |
|
---|
2768 | /**
|
---|
2769 | * A callback used by PHY to indicate that the link needs to be updated due to
|
---|
2770 | * reset of PHY.
|
---|
2771 | *
|
---|
2772 | * @param pDevIns The device instance.
|
---|
2773 | * @thread any
|
---|
2774 | */
|
---|
2775 | void e1kPhyLinkResetCallback(PPDMDEVINS pDevIns)
|
---|
2776 | {
|
---|
2777 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
2778 |
|
---|
2779 | /* Make sure we have cable connected and MAC can talk to PHY */
|
---|
2780 | if (pThis->fCableConnected && (CTRL & CTRL_SLU))
|
---|
2781 | e1kArmTimer(pDevIns, pThis, pThis->hLUTimer, E1K_INIT_LINKUP_DELAY_US);
|
---|
2782 | }
|
---|
2783 |
|
---|
2784 | /**
|
---|
2785 | * Write handler for Device Control register.
|
---|
2786 | *
|
---|
2787 | * Handles reset.
|
---|
2788 | *
|
---|
2789 | * @param pThis The device state structure.
|
---|
2790 | * @param offset Register offset in memory-mapped frame.
|
---|
2791 | * @param index Register index in register array.
|
---|
2792 | * @param value The value to store.
|
---|
2793 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
2794 | * @thread EMT
|
---|
2795 | */
|
---|
2796 | static int e1kRegWriteCTRL(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
2797 | {
|
---|
2798 | int rc = VINF_SUCCESS;
|
---|
2799 |
|
---|
2800 | if (value & CTRL_RESET)
|
---|
2801 | { /* RST */
|
---|
2802 | #ifndef IN_RING3
|
---|
2803 | return VINF_IOM_R3_MMIO_WRITE;
|
---|
2804 | #else
|
---|
2805 | e1kR3HardReset(pDevIns, pThis, PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC));
|
---|
2806 | #endif
|
---|
2807 | }
|
---|
2808 | else
|
---|
2809 | {
|
---|
2810 | #ifdef E1K_LSC_ON_SLU
|
---|
2811 | /*
|
---|
2812 | * When the guest changes 'Set Link Up' bit from 0 to 1 we check if
|
---|
2813 | * the link is down and the cable is connected, and if they are we
|
---|
2814 | * bring the link up, see @bugref{8624}.
|
---|
2815 | */
|
---|
2816 | if ( (value & CTRL_SLU)
|
---|
2817 | && !(CTRL & CTRL_SLU)
|
---|
2818 | && pThis->fCableConnected
|
---|
2819 | && !(STATUS & STATUS_LU))
|
---|
2820 | {
|
---|
2821 | /* It should take about 2 seconds for the link to come up */
|
---|
2822 | e1kArmTimer(pDevIns, pThis, pThis->hLUTimer, E1K_INIT_LINKUP_DELAY_US);
|
---|
2823 | }
|
---|
2824 | #else /* !E1K_LSC_ON_SLU */
|
---|
2825 | if ( (value & CTRL_SLU)
|
---|
2826 | && !(CTRL & CTRL_SLU)
|
---|
2827 | && pThis->fCableConnected
|
---|
2828 | && !PDMDevHlpTimerIsActive(pDevIns, pThis->hLUTimer))
|
---|
2829 | {
|
---|
2830 | /* PXE does not use LSC interrupts, see @bugref{9113}. */
|
---|
2831 | STATUS |= STATUS_LU;
|
---|
2832 | }
|
---|
2833 | #endif /* !E1K_LSC_ON_SLU */
|
---|
2834 | if ((value & CTRL_VME) != (CTRL & CTRL_VME))
|
---|
2835 | {
|
---|
2836 | E1kLog(("%s VLAN Mode %s\n", pThis->szPrf, (value & CTRL_VME) ? "Enabled" : "Disabled"));
|
---|
2837 | }
|
---|
2838 | Log7(("%s e1kRegWriteCTRL: mdio dir=%s mdc dir=%s mdc=%s mdio=%d\n",
|
---|
2839 | pThis->szPrf, (value & CTRL_MDIO_DIR)?"OUT":"IN ",
|
---|
2840 | (value & CTRL_MDC_DIR)?"OUT":"IN ", (value & CTRL_MDC)?"HIGH":"LOW ", !!(value & CTRL_MDIO)));
|
---|
2841 | if (value & CTRL_MDC)
|
---|
2842 | {
|
---|
2843 | if (value & CTRL_MDIO_DIR)
|
---|
2844 | {
|
---|
2845 | Log7(("%s e1kRegWriteCTRL: Phy::writeMDIO(%d)\n", pThis->szPrf, !!(value & CTRL_MDIO)));
|
---|
2846 | /* MDIO direction pin is set to output and MDC is high, write MDIO pin value to PHY */
|
---|
2847 | Phy::writeMDIO(&pThis->phy, !!(value & CTRL_MDIO), pDevIns);
|
---|
2848 | }
|
---|
2849 | else
|
---|
2850 | {
|
---|
2851 | if (Phy::readMDIO(&pThis->phy))
|
---|
2852 | value |= CTRL_MDIO;
|
---|
2853 | else
|
---|
2854 | value &= ~CTRL_MDIO;
|
---|
2855 | Log7(("%s e1kRegWriteCTRL: Phy::readMDIO(%d)\n", pThis->szPrf, !!(value & CTRL_MDIO)));
|
---|
2856 | }
|
---|
2857 | }
|
---|
2858 | rc = e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
2859 | }
|
---|
2860 |
|
---|
2861 | return rc;
|
---|
2862 | }
|
---|
2863 |
|
---|
2864 | /**
|
---|
2865 | * Write handler for EEPROM/Flash Control/Data register.
|
---|
2866 | *
|
---|
2867 | * Handles EEPROM access requests; forwards writes to EEPROM device if access has been granted.
|
---|
2868 | *
|
---|
2869 | * @param pThis The device state structure.
|
---|
2870 | * @param offset Register offset in memory-mapped frame.
|
---|
2871 | * @param index Register index in register array.
|
---|
2872 | * @param value The value to store.
|
---|
2873 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
2874 | * @thread EMT
|
---|
2875 | */
|
---|
2876 | static int e1kRegWriteEECD(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
2877 | {
|
---|
2878 | RT_NOREF(pDevIns, offset, index);
|
---|
2879 | #ifdef IN_RING3
|
---|
2880 | /* So far we are concerned with lower byte only */
|
---|
2881 | if ((EECD & EECD_EE_GNT) || pThis->eChip == E1K_CHIP_82543GC)
|
---|
2882 | {
|
---|
2883 | /* Access to EEPROM granted -- forward 4-wire bits to EEPROM device */
|
---|
2884 | /* Note: 82543GC does not need to request EEPROM access */
|
---|
2885 | STAM_PROFILE_ADV_START(&pThis->StatEEPROMWrite, a);
|
---|
2886 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
2887 | pThisCC->eeprom.write(value & EECD_EE_WIRES);
|
---|
2888 | STAM_PROFILE_ADV_STOP(&pThis->StatEEPROMWrite, a);
|
---|
2889 | }
|
---|
2890 | if (value & EECD_EE_REQ)
|
---|
2891 | EECD |= EECD_EE_REQ|EECD_EE_GNT;
|
---|
2892 | else
|
---|
2893 | EECD &= ~EECD_EE_GNT;
|
---|
2894 | //e1kRegWriteDefault(pThis, offset, index, value );
|
---|
2895 |
|
---|
2896 | return VINF_SUCCESS;
|
---|
2897 | #else /* !IN_RING3 */
|
---|
2898 | RT_NOREF(pThis, value);
|
---|
2899 | return VINF_IOM_R3_MMIO_WRITE;
|
---|
2900 | #endif /* !IN_RING3 */
|
---|
2901 | }
|
---|
2902 |
|
---|
2903 | /**
|
---|
2904 | * Read handler for EEPROM/Flash Control/Data register.
|
---|
2905 | *
|
---|
2906 | * Lower 4 bits come from EEPROM device if EEPROM access has been granted.
|
---|
2907 | *
|
---|
2908 | * @returns VBox status code.
|
---|
2909 | *
|
---|
2910 | * @param pThis The device state structure.
|
---|
2911 | * @param offset Register offset in memory-mapped frame.
|
---|
2912 | * @param index Register index in register array.
|
---|
2913 | * @param mask Used to implement partial reads (8 and 16-bit).
|
---|
2914 | * @thread EMT
|
---|
2915 | */
|
---|
2916 | static int e1kRegReadEECD(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
2917 | {
|
---|
2918 | #ifdef IN_RING3
|
---|
2919 | uint32_t value;
|
---|
2920 | int rc = e1kRegReadDefault(pDevIns, pThis, offset, index, &value);
|
---|
2921 | if (RT_SUCCESS(rc))
|
---|
2922 | {
|
---|
2923 | if ((value & EECD_EE_GNT) || pThis->eChip == E1K_CHIP_82543GC)
|
---|
2924 | {
|
---|
2925 | /* Note: 82543GC does not need to request EEPROM access */
|
---|
2926 | /* Access to EEPROM granted -- get 4-wire bits to EEPROM device */
|
---|
2927 | STAM_PROFILE_ADV_START(&pThis->StatEEPROMRead, a);
|
---|
2928 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
2929 | value |= pThisCC->eeprom.read();
|
---|
2930 | STAM_PROFILE_ADV_STOP(&pThis->StatEEPROMRead, a);
|
---|
2931 | }
|
---|
2932 | *pu32Value = value;
|
---|
2933 | }
|
---|
2934 |
|
---|
2935 | return rc;
|
---|
2936 | #else /* !IN_RING3 */
|
---|
2937 | RT_NOREF_PV(pDevIns); RT_NOREF_PV(pThis); RT_NOREF_PV(offset); RT_NOREF_PV(index); RT_NOREF_PV(pu32Value);
|
---|
2938 | return VINF_IOM_R3_MMIO_READ;
|
---|
2939 | #endif /* !IN_RING3 */
|
---|
2940 | }
|
---|
2941 |
|
---|
2942 | /**
|
---|
2943 | * Write handler for EEPROM Read register.
|
---|
2944 | *
|
---|
2945 | * Handles EEPROM word access requests, reads EEPROM and stores the result
|
---|
2946 | * into DATA field.
|
---|
2947 | *
|
---|
2948 | * @param pThis The device state structure.
|
---|
2949 | * @param offset Register offset in memory-mapped frame.
|
---|
2950 | * @param index Register index in register array.
|
---|
2951 | * @param value The value to store.
|
---|
2952 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
2953 | * @thread EMT
|
---|
2954 | */
|
---|
2955 | static int e1kRegWriteEERD(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
2956 | {
|
---|
2957 | #ifdef IN_RING3
|
---|
2958 | /* Make use of 'writable' and 'readable' masks. */
|
---|
2959 | e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
2960 | /* DONE and DATA are set only if read was triggered by START. */
|
---|
2961 | if (value & EERD_START)
|
---|
2962 | {
|
---|
2963 | STAM_PROFILE_ADV_START(&pThis->StatEEPROMRead, a);
|
---|
2964 | uint16_t tmp;
|
---|
2965 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
2966 | if (pThisCC->eeprom.readWord(GET_BITS_V(value, EERD, ADDR), &tmp))
|
---|
2967 | SET_BITS(EERD, DATA, tmp);
|
---|
2968 | EERD |= EERD_DONE;
|
---|
2969 | STAM_PROFILE_ADV_STOP(&pThis->StatEEPROMRead, a);
|
---|
2970 | }
|
---|
2971 |
|
---|
2972 | return VINF_SUCCESS;
|
---|
2973 | #else /* !IN_RING3 */
|
---|
2974 | RT_NOREF_PV(pDevIns); RT_NOREF_PV(pThis); RT_NOREF_PV(offset); RT_NOREF_PV(index); RT_NOREF_PV(value);
|
---|
2975 | return VINF_IOM_R3_MMIO_WRITE;
|
---|
2976 | #endif /* !IN_RING3 */
|
---|
2977 | }
|
---|
2978 |
|
---|
2979 |
|
---|
2980 | /**
|
---|
2981 | * Write handler for MDI Control register.
|
---|
2982 | *
|
---|
2983 | * Handles PHY read/write requests; forwards requests to internal PHY device.
|
---|
2984 | *
|
---|
2985 | * @param pThis The device state structure.
|
---|
2986 | * @param offset Register offset in memory-mapped frame.
|
---|
2987 | * @param index Register index in register array.
|
---|
2988 | * @param value The value to store.
|
---|
2989 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
2990 | * @thread EMT
|
---|
2991 | */
|
---|
2992 | static int e1kRegWriteMDIC(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
2993 | {
|
---|
2994 | if (value & MDIC_INT_EN)
|
---|
2995 | {
|
---|
2996 | E1kLog(("%s ERROR! Interrupt at the end of an MDI cycle is not supported yet.\n",
|
---|
2997 | pThis->szPrf));
|
---|
2998 | }
|
---|
2999 | else if (value & MDIC_READY)
|
---|
3000 | {
|
---|
3001 | E1kLog(("%s ERROR! Ready bit is not reset by software during write operation.\n",
|
---|
3002 | pThis->szPrf));
|
---|
3003 | }
|
---|
3004 | else if (GET_BITS_V(value, MDIC, PHY) != 1)
|
---|
3005 | {
|
---|
3006 | E1kLog(("%s WARNING! Access to invalid PHY detected, phy=%d.\n",
|
---|
3007 | pThis->szPrf, GET_BITS_V(value, MDIC, PHY)));
|
---|
3008 | /*
|
---|
3009 | * Some drivers scan the MDIO bus for a PHY. We can work with these
|
---|
3010 | * drivers if we set MDIC_READY and MDIC_ERROR when there isn't a PHY
|
---|
3011 | * at the requested address, see @bugref{7346}.
|
---|
3012 | */
|
---|
3013 | MDIC = MDIC_READY | MDIC_ERROR;
|
---|
3014 | }
|
---|
3015 | else
|
---|
3016 | {
|
---|
3017 | /* Store the value */
|
---|
3018 | e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
3019 | STAM_COUNTER_INC(&pThis->StatPHYAccesses);
|
---|
3020 | /* Forward op to PHY */
|
---|
3021 | if (value & MDIC_OP_READ)
|
---|
3022 | SET_BITS(MDIC, DATA, Phy::readRegister(&pThis->phy, GET_BITS_V(value, MDIC, REG), pDevIns));
|
---|
3023 | else
|
---|
3024 | Phy::writeRegister(&pThis->phy, GET_BITS_V(value, MDIC, REG), value & MDIC_DATA_MASK, pDevIns);
|
---|
3025 | /* Let software know that we are done */
|
---|
3026 | MDIC |= MDIC_READY;
|
---|
3027 | }
|
---|
3028 |
|
---|
3029 | return VINF_SUCCESS;
|
---|
3030 | }
|
---|
3031 |
|
---|
3032 | /**
|
---|
3033 | * Write handler for Interrupt Cause Read register.
|
---|
3034 | *
|
---|
3035 | * Bits corresponding to 1s in 'value' will be cleared in ICR register.
|
---|
3036 | *
|
---|
3037 | * @param pThis The device state structure.
|
---|
3038 | * @param offset Register offset in memory-mapped frame.
|
---|
3039 | * @param index Register index in register array.
|
---|
3040 | * @param value The value to store.
|
---|
3041 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3042 | * @thread EMT
|
---|
3043 | */
|
---|
3044 | static int e1kRegWriteICR(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3045 | {
|
---|
3046 | ICR &= ~value;
|
---|
3047 |
|
---|
3048 | RT_NOREF_PV(pDevIns); RT_NOREF_PV(pThis); RT_NOREF_PV(offset); RT_NOREF_PV(index);
|
---|
3049 | return VINF_SUCCESS;
|
---|
3050 | }
|
---|
3051 |
|
---|
3052 | /**
|
---|
3053 | * Read handler for Interrupt Cause Read register.
|
---|
3054 | *
|
---|
3055 | * Reading this register acknowledges all interrupts.
|
---|
3056 | *
|
---|
3057 | * @returns VBox status code.
|
---|
3058 | *
|
---|
3059 | * @param pThis The device state structure.
|
---|
3060 | * @param offset Register offset in memory-mapped frame.
|
---|
3061 | * @param index Register index in register array.
|
---|
3062 | * @param mask Not used.
|
---|
3063 | * @thread EMT
|
---|
3064 | */
|
---|
3065 | static int e1kRegReadICR(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
3066 | {
|
---|
3067 | int rc = e1kCsEnter(pThis, VINF_IOM_R3_MMIO_READ);
|
---|
3068 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
3069 | return rc;
|
---|
3070 |
|
---|
3071 | uint32_t value = 0;
|
---|
3072 | rc = e1kRegReadDefault(pDevIns, pThis, offset, index, &value);
|
---|
3073 | if (RT_SUCCESS(rc))
|
---|
3074 | {
|
---|
3075 | if (value)
|
---|
3076 | {
|
---|
3077 | if (!pThis->fIntRaised)
|
---|
3078 | E1K_INC_ISTAT_CNT(pThis->uStatNoIntICR);
|
---|
3079 | /*
|
---|
3080 | * Not clearing ICR causes QNX to hang as it reads ICR in a loop
|
---|
3081 | * with disabled interrupts.
|
---|
3082 | */
|
---|
3083 | //if (IMS)
|
---|
3084 | if (1)
|
---|
3085 | {
|
---|
3086 | /*
|
---|
3087 | * Interrupts were enabled -- we are supposedly at the very
|
---|
3088 | * beginning of interrupt handler
|
---|
3089 | */
|
---|
3090 | E1kLogRel(("E1000: irq lowered, icr=0x%x\n", ICR));
|
---|
3091 | E1kLog(("%s e1kRegReadICR: Lowered IRQ (%08x)\n", pThis->szPrf, ICR));
|
---|
3092 | /* Clear all pending interrupts */
|
---|
3093 | ICR = 0;
|
---|
3094 | pThis->fIntRaised = false;
|
---|
3095 | /* Lower(0) INTA(0) */
|
---|
3096 | PDMDevHlpPCISetIrq(pDevIns, 0, 0);
|
---|
3097 |
|
---|
3098 | pThis->u64AckedAt = PDMDevHlpTimerGet(pDevIns, pThis->hIntTimer);
|
---|
3099 | if (pThis->fIntMaskUsed)
|
---|
3100 | pThis->fDelayInts = true;
|
---|
3101 | }
|
---|
3102 | else
|
---|
3103 | {
|
---|
3104 | /*
|
---|
3105 | * Interrupts are disabled -- in windows guests ICR read is done
|
---|
3106 | * just before re-enabling interrupts
|
---|
3107 | */
|
---|
3108 | E1kLog(("%s e1kRegReadICR: Suppressing auto-clear due to disabled interrupts (%08x)\n", pThis->szPrf, ICR));
|
---|
3109 | }
|
---|
3110 | }
|
---|
3111 | *pu32Value = value;
|
---|
3112 | }
|
---|
3113 | e1kCsLeave(pThis);
|
---|
3114 |
|
---|
3115 | return rc;
|
---|
3116 | }
|
---|
3117 |
|
---|
3118 | /**
|
---|
3119 | * Write handler for Interrupt Cause Set register.
|
---|
3120 | *
|
---|
3121 | * Bits corresponding to 1s in 'value' will be set in ICR register.
|
---|
3122 | *
|
---|
3123 | * @param pThis The device state structure.
|
---|
3124 | * @param offset Register offset in memory-mapped frame.
|
---|
3125 | * @param index Register index in register array.
|
---|
3126 | * @param value The value to store.
|
---|
3127 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3128 | * @thread EMT
|
---|
3129 | */
|
---|
3130 | static int e1kRegWriteICS(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3131 | {
|
---|
3132 | RT_NOREF_PV(offset); RT_NOREF_PV(index);
|
---|
3133 | E1K_INC_ISTAT_CNT(pThis->uStatIntICS);
|
---|
3134 | return e1kRaiseInterrupt(pDevIns, pThis, VINF_IOM_R3_MMIO_WRITE, value & g_aE1kRegMap[ICS_IDX].writable);
|
---|
3135 | }
|
---|
3136 |
|
---|
3137 | /**
|
---|
3138 | * Write handler for Interrupt Mask Set register.
|
---|
3139 | *
|
---|
3140 | * Will trigger pending interrupts.
|
---|
3141 | *
|
---|
3142 | * @param pThis The device state structure.
|
---|
3143 | * @param offset Register offset in memory-mapped frame.
|
---|
3144 | * @param index Register index in register array.
|
---|
3145 | * @param value The value to store.
|
---|
3146 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3147 | * @thread EMT
|
---|
3148 | */
|
---|
3149 | static int e1kRegWriteIMS(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3150 | {
|
---|
3151 | RT_NOREF_PV(offset); RT_NOREF_PV(index);
|
---|
3152 |
|
---|
3153 | IMS |= value;
|
---|
3154 | E1kLogRel(("E1000: irq enabled, RDH=%x RDT=%x TDH=%x TDT=%x\n", RDH, RDT, TDH, TDT));
|
---|
3155 | E1kLog(("%s e1kRegWriteIMS: IRQ enabled\n", pThis->szPrf));
|
---|
3156 | /*
|
---|
3157 | * We cannot raise an interrupt here as it will occasionally cause an interrupt storm
|
---|
3158 | * in Windows guests (see @bugref{8624}, @bugref{5023}).
|
---|
3159 | */
|
---|
3160 | if ((ICR & IMS) && !pThis->fLocked)
|
---|
3161 | {
|
---|
3162 | E1K_INC_ISTAT_CNT(pThis->uStatIntIMS);
|
---|
3163 | e1kPostponeInterrupt(pDevIns, pThis, E1K_IMS_INT_DELAY_NS);
|
---|
3164 | }
|
---|
3165 |
|
---|
3166 | return VINF_SUCCESS;
|
---|
3167 | }
|
---|
3168 |
|
---|
3169 | /**
|
---|
3170 | * Write handler for Interrupt Mask Clear register.
|
---|
3171 | *
|
---|
3172 | * Bits corresponding to 1s in 'value' will be cleared in IMS register.
|
---|
3173 | *
|
---|
3174 | * @param pThis The device state structure.
|
---|
3175 | * @param offset Register offset in memory-mapped frame.
|
---|
3176 | * @param index Register index in register array.
|
---|
3177 | * @param value The value to store.
|
---|
3178 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3179 | * @thread EMT
|
---|
3180 | */
|
---|
3181 | static int e1kRegWriteIMC(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3182 | {
|
---|
3183 | RT_NOREF_PV(offset); RT_NOREF_PV(index);
|
---|
3184 |
|
---|
3185 | int rc = e1kCsEnter(pThis, VINF_IOM_R3_MMIO_WRITE);
|
---|
3186 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
3187 | return rc;
|
---|
3188 | if (pThis->fIntRaised)
|
---|
3189 | {
|
---|
3190 | /*
|
---|
3191 | * Technically we should reset fIntRaised in ICR read handler, but it will cause
|
---|
3192 | * Windows to freeze since it may receive an interrupt while still in the very beginning
|
---|
3193 | * of interrupt handler.
|
---|
3194 | */
|
---|
3195 | E1K_INC_ISTAT_CNT(pThis->uStatIntLower);
|
---|
3196 | STAM_COUNTER_INC(&pThis->StatIntsPrevented);
|
---|
3197 | E1kLogRel(("E1000: irq lowered (IMC), icr=0x%x\n", ICR));
|
---|
3198 | /* Lower(0) INTA(0) */
|
---|
3199 | PDMDevHlpPCISetIrq(pDevIns, 0, 0);
|
---|
3200 | pThis->fIntRaised = false;
|
---|
3201 | E1kLog(("%s e1kRegWriteIMC: Lowered IRQ: ICR=%08x\n", pThis->szPrf, ICR));
|
---|
3202 | }
|
---|
3203 | IMS &= ~value;
|
---|
3204 | E1kLog(("%s e1kRegWriteIMC: IRQ disabled\n", pThis->szPrf));
|
---|
3205 | e1kCsLeave(pThis);
|
---|
3206 |
|
---|
3207 | return VINF_SUCCESS;
|
---|
3208 | }
|
---|
3209 |
|
---|
3210 | /**
|
---|
3211 | * Write handler for Receive Control register.
|
---|
3212 | *
|
---|
3213 | * @param pThis The device state structure.
|
---|
3214 | * @param offset Register offset in memory-mapped frame.
|
---|
3215 | * @param index Register index in register array.
|
---|
3216 | * @param value The value to store.
|
---|
3217 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3218 | * @thread EMT
|
---|
3219 | */
|
---|
3220 | static int e1kRegWriteRCTL(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3221 | {
|
---|
3222 | /* Update promiscuous mode */
|
---|
3223 | bool fBecomePromiscous = !!(value & (RCTL_UPE | RCTL_MPE));
|
---|
3224 | if (fBecomePromiscous != !!( RCTL & (RCTL_UPE | RCTL_MPE)))
|
---|
3225 | {
|
---|
3226 | /* Promiscuity has changed, pass the knowledge on. */
|
---|
3227 | #ifndef IN_RING3
|
---|
3228 | return VINF_IOM_R3_MMIO_WRITE;
|
---|
3229 | #else
|
---|
3230 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
3231 | if (pThisCC->pDrvR3)
|
---|
3232 | pThisCC->pDrvR3->pfnSetPromiscuousMode(pThisCC->pDrvR3, fBecomePromiscous);
|
---|
3233 | #endif
|
---|
3234 | }
|
---|
3235 |
|
---|
3236 | /* Adjust receive buffer size */
|
---|
3237 | unsigned cbRxBuf = 2048 >> GET_BITS_V(value, RCTL, BSIZE);
|
---|
3238 | if (value & RCTL_BSEX)
|
---|
3239 | cbRxBuf *= 16;
|
---|
3240 | if (cbRxBuf > E1K_MAX_RX_PKT_SIZE)
|
---|
3241 | cbRxBuf = E1K_MAX_RX_PKT_SIZE;
|
---|
3242 | if (cbRxBuf != pThis->u16RxBSize)
|
---|
3243 | E1kLog2(("%s e1kRegWriteRCTL: Setting receive buffer size to %d (old %d)\n",
|
---|
3244 | pThis->szPrf, cbRxBuf, pThis->u16RxBSize));
|
---|
3245 | pThis->u16RxBSize = cbRxBuf;
|
---|
3246 |
|
---|
3247 | /* Update the register */
|
---|
3248 | return e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
3249 | }
|
---|
3250 |
|
---|
3251 | /**
|
---|
3252 | * Write handler for Packet Buffer Allocation register.
|
---|
3253 | *
|
---|
3254 | * TXA = 64 - RXA.
|
---|
3255 | *
|
---|
3256 | * @param pThis The device state structure.
|
---|
3257 | * @param offset Register offset in memory-mapped frame.
|
---|
3258 | * @param index Register index in register array.
|
---|
3259 | * @param value The value to store.
|
---|
3260 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3261 | * @thread EMT
|
---|
3262 | */
|
---|
3263 | static int e1kRegWritePBA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3264 | {
|
---|
3265 | e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
3266 | PBA_st->txa = 64 - PBA_st->rxa;
|
---|
3267 |
|
---|
3268 | return VINF_SUCCESS;
|
---|
3269 | }
|
---|
3270 |
|
---|
3271 | /**
|
---|
3272 | * Write handler for Receive Descriptor Tail register.
|
---|
3273 | *
|
---|
3274 | * @remarks Write into RDT forces switch to HC and signal to
|
---|
3275 | * e1kR3NetworkDown_WaitReceiveAvail().
|
---|
3276 | *
|
---|
3277 | * @returns VBox status code.
|
---|
3278 | *
|
---|
3279 | * @param pThis The device state structure.
|
---|
3280 | * @param offset Register offset in memory-mapped frame.
|
---|
3281 | * @param index Register index in register array.
|
---|
3282 | * @param value The value to store.
|
---|
3283 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3284 | * @thread EMT
|
---|
3285 | */
|
---|
3286 | static int e1kRegWriteRDT(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3287 | {
|
---|
3288 | #ifndef IN_RING3
|
---|
3289 | /* XXX */
|
---|
3290 | // return VINF_IOM_R3_MMIO_WRITE;
|
---|
3291 | #endif
|
---|
3292 | int rc = e1kCsRxEnter(pThis, VINF_IOM_R3_MMIO_WRITE);
|
---|
3293 | if (RT_LIKELY(rc == VINF_SUCCESS))
|
---|
3294 | {
|
---|
3295 | E1kLog(("%s e1kRegWriteRDT\n", pThis->szPrf));
|
---|
3296 | #ifndef E1K_WITH_RXD_CACHE
|
---|
3297 | /*
|
---|
3298 | * Some drivers advance RDT too far, so that it equals RDH. This
|
---|
3299 | * somehow manages to work with real hardware but not with this
|
---|
3300 | * emulated device. We can work with these drivers if we just
|
---|
3301 | * write 1 less when we see a driver writing RDT equal to RDH,
|
---|
3302 | * see @bugref{7346}.
|
---|
3303 | */
|
---|
3304 | if (value == RDH)
|
---|
3305 | {
|
---|
3306 | if (RDH == 0)
|
---|
3307 | value = (RDLEN / sizeof(E1KRXDESC)) - 1;
|
---|
3308 | else
|
---|
3309 | value = RDH - 1;
|
---|
3310 | }
|
---|
3311 | #endif /* !E1K_WITH_RXD_CACHE */
|
---|
3312 | rc = e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
3313 | #ifdef E1K_WITH_RXD_CACHE
|
---|
3314 | /*
|
---|
3315 | * We need to fetch descriptors now as RDT may go whole circle
|
---|
3316 | * before we attempt to store a received packet. For example,
|
---|
3317 | * Intel's DOS drivers use 2 (!) RX descriptors with the total ring
|
---|
3318 | * size being only 8 descriptors! Note that we fetch descriptors
|
---|
3319 | * only when the cache is empty to reduce the number of memory reads
|
---|
3320 | * in case of frequent RDT writes. Don't fetch anything when the
|
---|
3321 | * receiver is disabled either as RDH, RDT, RDLEN can be in some
|
---|
3322 | * messed up state.
|
---|
3323 | * Note that despite the cache may seem empty, meaning that there are
|
---|
3324 | * no more available descriptors in it, it may still be used by RX
|
---|
3325 | * thread which has not yet written the last descriptor back but has
|
---|
3326 | * temporarily released the RX lock in order to write the packet body
|
---|
3327 | * to descriptor's buffer. At this point we still going to do prefetch
|
---|
3328 | * but it won't actually fetch anything if there are no unused slots in
|
---|
3329 | * our "empty" cache (nRxDFetched==E1K_RXD_CACHE_SIZE). We must not
|
---|
3330 | * reset the cache here even if it appears empty. It will be reset at
|
---|
3331 | * a later point in e1kRxDGet().
|
---|
3332 | */
|
---|
3333 | if (e1kRxDIsCacheEmpty(pThis) && (RCTL & RCTL_EN))
|
---|
3334 | e1kRxDPrefetch(pDevIns, pThis);
|
---|
3335 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
3336 | e1kCsRxLeave(pThis);
|
---|
3337 | if (RT_SUCCESS(rc))
|
---|
3338 | {
|
---|
3339 | /* Signal that we have more receive descriptors available. */
|
---|
3340 | e1kWakeupReceive(pDevIns, pThis);
|
---|
3341 | }
|
---|
3342 | }
|
---|
3343 | return rc;
|
---|
3344 | }
|
---|
3345 |
|
---|
3346 | /**
|
---|
3347 | * Write handler for Receive Delay Timer register.
|
---|
3348 | *
|
---|
3349 | * @param pThis The device state structure.
|
---|
3350 | * @param offset Register offset in memory-mapped frame.
|
---|
3351 | * @param index Register index in register array.
|
---|
3352 | * @param value The value to store.
|
---|
3353 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
3354 | * @thread EMT
|
---|
3355 | */
|
---|
3356 | static int e1kRegWriteRDTR(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
3357 | {
|
---|
3358 | e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
3359 | if (value & RDTR_FPD)
|
---|
3360 | {
|
---|
3361 | /* Flush requested, cancel both timers and raise interrupt */
|
---|
3362 | #ifdef E1K_USE_RX_TIMERS
|
---|
3363 | e1kCancelTimer(pDevIns, pThis, pThis->hRIDTimer);
|
---|
3364 | e1kCancelTimer(pDevIns, pThis, pThis->hRADTimer);
|
---|
3365 | #endif
|
---|
3366 | E1K_INC_ISTAT_CNT(pThis->uStatIntRDTR);
|
---|
3367 | return e1kRaiseInterrupt(pDevIns, pThis, VINF_IOM_R3_MMIO_WRITE, ICR_RXT0);
|
---|
3368 | }
|
---|
3369 |
|
---|
3370 | return VINF_SUCCESS;
|
---|
3371 | }
|
---|
3372 |
|
---|
3373 | DECLINLINE(uint32_t) e1kGetTxLen(PE1KSTATE pThis)
|
---|
3374 | {
|
---|
3375 | /**
|
---|
3376 | * Make sure TDT won't change during computation. EMT may modify TDT at
|
---|
3377 | * any moment.
|
---|
3378 | */
|
---|
3379 | uint32_t tdt = TDT;
|
---|
3380 | return (TDH>tdt ? TDLEN/sizeof(E1KTXDESC) : 0) + tdt - TDH;
|
---|
3381 | }
|
---|
3382 |
|
---|
3383 | #ifdef IN_RING3
|
---|
3384 |
|
---|
3385 | # ifdef E1K_TX_DELAY
|
---|
3386 | /**
|
---|
3387 | * Transmit Delay Timer handler.
|
---|
3388 | *
|
---|
3389 | * @remarks We only get here when the timer expires.
|
---|
3390 | *
|
---|
3391 | * @param pDevIns Pointer to device instance structure.
|
---|
3392 | * @param pTimer Pointer to the timer.
|
---|
3393 | * @param pvUser NULL.
|
---|
3394 | * @thread EMT
|
---|
3395 | */
|
---|
3396 | static DECLCALLBACK(void) e1kR3TxDelayTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3397 | {
|
---|
3398 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3399 | Assert(PDMCritSectIsOwner(&pThis->csTx));
|
---|
3400 |
|
---|
3401 | E1K_INC_ISTAT_CNT(pThis->uStatTxDelayExp);
|
---|
3402 | # ifdef E1K_INT_STATS
|
---|
3403 | uint64_t u64Elapsed = RTTimeNanoTS() - pThis->u64ArmedAt;
|
---|
3404 | if (u64Elapsed > pThis->uStatMaxTxDelay)
|
---|
3405 | pThis->uStatMaxTxDelay = u64Elapsed;
|
---|
3406 | # endif
|
---|
3407 | int rc = e1kXmitPending(pDevIns, pThis, false /*fOnWorkerThread*/);
|
---|
3408 | AssertMsg(RT_SUCCESS(rc) || rc == VERR_TRY_AGAIN, ("%Rrc\n", rc));
|
---|
3409 | }
|
---|
3410 | # endif /* E1K_TX_DELAY */
|
---|
3411 |
|
---|
3412 | //# ifdef E1K_USE_TX_TIMERS
|
---|
3413 |
|
---|
3414 | /**
|
---|
3415 | * Transmit Interrupt Delay Timer handler.
|
---|
3416 | *
|
---|
3417 | * @remarks We only get here when the timer expires.
|
---|
3418 | *
|
---|
3419 | * @param pDevIns Pointer to device instance structure.
|
---|
3420 | * @param pTimer Pointer to the timer.
|
---|
3421 | * @param pvUser NULL.
|
---|
3422 | * @thread EMT
|
---|
3423 | */
|
---|
3424 | static DECLCALLBACK(void) e1kR3TxIntDelayTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3425 | {
|
---|
3426 | RT_NOREF(pDevIns);
|
---|
3427 | RT_NOREF(pTimer);
|
---|
3428 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3429 |
|
---|
3430 | E1K_INC_ISTAT_CNT(pThis->uStatTID);
|
---|
3431 | /* Cancel absolute delay timer as we have already got attention */
|
---|
3432 | # ifndef E1K_NO_TAD
|
---|
3433 | e1kCancelTimer(pDevIns, pThis, pThis->hTADTimer);
|
---|
3434 | # endif
|
---|
3435 | e1kRaiseInterrupt(pDevIns, pThis, ICR_TXDW);
|
---|
3436 | }
|
---|
3437 |
|
---|
3438 | /**
|
---|
3439 | * Transmit Absolute Delay Timer handler.
|
---|
3440 | *
|
---|
3441 | * @remarks We only get here when the timer expires.
|
---|
3442 | *
|
---|
3443 | * @param pDevIns Pointer to device instance structure.
|
---|
3444 | * @param pTimer Pointer to the timer.
|
---|
3445 | * @param pvUser NULL.
|
---|
3446 | * @thread EMT
|
---|
3447 | */
|
---|
3448 | static DECLCALLBACK(void) e1kR3TxAbsDelayTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3449 | {
|
---|
3450 | RT_NOREF(pDevIns);
|
---|
3451 | RT_NOREF(pTimer);
|
---|
3452 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3453 |
|
---|
3454 | E1K_INC_ISTAT_CNT(pThis->uStatTAD);
|
---|
3455 | /* Cancel interrupt delay timer as we have already got attention */
|
---|
3456 | e1kCancelTimer(pDevIns, pThis, pThis->hTIDTimer);
|
---|
3457 | e1kRaiseInterrupt(pDevIns, pThis, ICR_TXDW);
|
---|
3458 | }
|
---|
3459 |
|
---|
3460 | //# endif /* E1K_USE_TX_TIMERS */
|
---|
3461 | # ifdef E1K_USE_RX_TIMERS
|
---|
3462 |
|
---|
3463 | /**
|
---|
3464 | * Receive Interrupt Delay Timer handler.
|
---|
3465 | *
|
---|
3466 | * @remarks We only get here when the timer expires.
|
---|
3467 | *
|
---|
3468 | * @param pDevIns Pointer to device instance structure.
|
---|
3469 | * @param pTimer Pointer to the timer.
|
---|
3470 | * @param pvUser NULL.
|
---|
3471 | * @thread EMT
|
---|
3472 | */
|
---|
3473 | static DECLCALLBACK(void) e1kR3RxIntDelayTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3474 | {
|
---|
3475 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3476 |
|
---|
3477 | E1K_INC_ISTAT_CNT(pThis->uStatRID);
|
---|
3478 | /* Cancel absolute delay timer as we have already got attention */
|
---|
3479 | e1kCancelTimer(pDevIns, pThis, pThis->hRADTimer);
|
---|
3480 | e1kRaiseInterrupt(pDevIns, pThis, ICR_RXT0);
|
---|
3481 | }
|
---|
3482 |
|
---|
3483 | /**
|
---|
3484 | * Receive Absolute Delay Timer handler.
|
---|
3485 | *
|
---|
3486 | * @remarks We only get here when the timer expires.
|
---|
3487 | *
|
---|
3488 | * @param pDevIns Pointer to device instance structure.
|
---|
3489 | * @param pTimer Pointer to the timer.
|
---|
3490 | * @param pvUser NULL.
|
---|
3491 | * @thread EMT
|
---|
3492 | */
|
---|
3493 | static DECLCALLBACK(void) e1kR3RxAbsDelayTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3494 | {
|
---|
3495 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3496 |
|
---|
3497 | E1K_INC_ISTAT_CNT(pThis->uStatRAD);
|
---|
3498 | /* Cancel interrupt delay timer as we have already got attention */
|
---|
3499 | e1kCancelTimer(pDevIns, pThis, pThis->hRIDTimer);
|
---|
3500 | e1kRaiseInterrupt(pDevIns, pThis, ICR_RXT0);
|
---|
3501 | }
|
---|
3502 |
|
---|
3503 | # endif /* E1K_USE_RX_TIMERS */
|
---|
3504 |
|
---|
3505 | /**
|
---|
3506 | * Late Interrupt Timer handler.
|
---|
3507 | *
|
---|
3508 | * @param pDevIns Pointer to device instance structure.
|
---|
3509 | * @param pTimer Pointer to the timer.
|
---|
3510 | * @param pvUser NULL.
|
---|
3511 | * @thread EMT
|
---|
3512 | */
|
---|
3513 | static DECLCALLBACK(void) e1kR3LateIntTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3514 | {
|
---|
3515 | RT_NOREF(pDevIns, pTimer);
|
---|
3516 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3517 |
|
---|
3518 | STAM_PROFILE_ADV_START(&pThis->StatLateIntTimer, a);
|
---|
3519 | STAM_COUNTER_INC(&pThis->StatLateInts);
|
---|
3520 | E1K_INC_ISTAT_CNT(pThis->uStatIntLate);
|
---|
3521 | # if 0
|
---|
3522 | if (pThis->iStatIntLost > -100)
|
---|
3523 | pThis->iStatIntLost--;
|
---|
3524 | # endif
|
---|
3525 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, 0);
|
---|
3526 | STAM_PROFILE_ADV_STOP(&pThis->StatLateIntTimer, a);
|
---|
3527 | }
|
---|
3528 |
|
---|
3529 | /**
|
---|
3530 | * Link Up Timer handler.
|
---|
3531 | *
|
---|
3532 | * @param pDevIns Pointer to device instance structure.
|
---|
3533 | * @param pTimer Pointer to the timer.
|
---|
3534 | * @param pvUser NULL.
|
---|
3535 | * @thread EMT
|
---|
3536 | */
|
---|
3537 | static DECLCALLBACK(void) e1kR3LinkUpTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
3538 | {
|
---|
3539 | RT_NOREF(pTimer);
|
---|
3540 | PE1KSTATE pThis = (PE1KSTATE)pvUser;
|
---|
3541 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
3542 |
|
---|
3543 | /*
|
---|
3544 | * This can happen if we set the link status to down when the Link up timer was
|
---|
3545 | * already armed (shortly after e1kLoadDone() or when the cable was disconnected
|
---|
3546 | * and connect+disconnect the cable very quick. Moreover, 82543GC triggers LSC
|
---|
3547 | * on reset even if the cable is unplugged (see @bugref{8942}).
|
---|
3548 | */
|
---|
3549 | if (pThis->fCableConnected)
|
---|
3550 | {
|
---|
3551 | /* 82543GC does not have an internal PHY */
|
---|
3552 | if (pThis->eChip == E1K_CHIP_82543GC || (CTRL & CTRL_SLU))
|
---|
3553 | e1kR3LinkUp(pDevIns, pThis, pThisCC);
|
---|
3554 | }
|
---|
3555 | # ifdef E1K_LSC_ON_RESET
|
---|
3556 | else if (pThis->eChip == E1K_CHIP_82543GC)
|
---|
3557 | e1kR3LinkDown(pDevIns, pThis, pThisCC);
|
---|
3558 | # endif /* E1K_LSC_ON_RESET */
|
---|
3559 | }
|
---|
3560 |
|
---|
3561 | #endif /* IN_RING3 */
|
---|
3562 |
|
---|
3563 | /**
|
---|
3564 | * Sets up the GSO context according to the TSE new context descriptor.
|
---|
3565 | *
|
---|
3566 | * @param pGso The GSO context to setup.
|
---|
3567 | * @param pCtx The context descriptor.
|
---|
3568 | */
|
---|
3569 | DECLINLINE(void) e1kSetupGsoCtx(PPDMNETWORKGSO pGso, E1KTXCTX const *pCtx)
|
---|
3570 | {
|
---|
3571 | pGso->u8Type = PDMNETWORKGSOTYPE_INVALID;
|
---|
3572 |
|
---|
3573 | /*
|
---|
3574 | * See if the context descriptor describes something that could be TCP or
|
---|
3575 | * UDP over IPv[46].
|
---|
3576 | */
|
---|
3577 | /* Check the header ordering and spacing: 1. Ethernet, 2. IP, 3. TCP/UDP. */
|
---|
3578 | if (RT_UNLIKELY( pCtx->ip.u8CSS < sizeof(RTNETETHERHDR) ))
|
---|
3579 | {
|
---|
3580 | E1kLog(("e1kSetupGsoCtx: IPCSS=%#x\n", pCtx->ip.u8CSS));
|
---|
3581 | return;
|
---|
3582 | }
|
---|
3583 | if (RT_UNLIKELY( pCtx->tu.u8CSS < (size_t)pCtx->ip.u8CSS + (pCtx->dw2.fIP ? RTNETIPV4_MIN_LEN : RTNETIPV6_MIN_LEN) ))
|
---|
3584 | {
|
---|
3585 | E1kLog(("e1kSetupGsoCtx: TUCSS=%#x\n", pCtx->tu.u8CSS));
|
---|
3586 | return;
|
---|
3587 | }
|
---|
3588 | if (RT_UNLIKELY( pCtx->dw2.fTCP
|
---|
3589 | ? pCtx->dw3.u8HDRLEN < (size_t)pCtx->tu.u8CSS + RTNETTCP_MIN_LEN
|
---|
3590 | : pCtx->dw3.u8HDRLEN != (size_t)pCtx->tu.u8CSS + RTNETUDP_MIN_LEN ))
|
---|
3591 | {
|
---|
3592 | E1kLog(("e1kSetupGsoCtx: HDRLEN=%#x TCP=%d\n", pCtx->dw3.u8HDRLEN, pCtx->dw2.fTCP));
|
---|
3593 | return;
|
---|
3594 | }
|
---|
3595 |
|
---|
3596 | /* The end of the TCP/UDP checksum should stop at the end of the packet or at least after the headers. */
|
---|
3597 | if (RT_UNLIKELY( pCtx->tu.u16CSE > 0 && pCtx->tu.u16CSE <= pCtx->dw3.u8HDRLEN ))
|
---|
3598 | {
|
---|
3599 | E1kLog(("e1kSetupGsoCtx: TUCSE=%#x HDRLEN=%#x\n", pCtx->tu.u16CSE, pCtx->dw3.u8HDRLEN));
|
---|
3600 | return;
|
---|
3601 | }
|
---|
3602 |
|
---|
3603 | /* IPv4 checksum offset. */
|
---|
3604 | if (RT_UNLIKELY( pCtx->dw2.fIP && (size_t)pCtx->ip.u8CSO - pCtx->ip.u8CSS != RT_UOFFSETOF(RTNETIPV4, ip_sum) ))
|
---|
3605 | {
|
---|
3606 | E1kLog(("e1kSetupGsoCtx: IPCSO=%#x IPCSS=%#x\n", pCtx->ip.u8CSO, pCtx->ip.u8CSS));
|
---|
3607 | return;
|
---|
3608 | }
|
---|
3609 |
|
---|
3610 | /* TCP/UDP checksum offsets. */
|
---|
3611 | if (RT_UNLIKELY( (size_t)pCtx->tu.u8CSO - pCtx->tu.u8CSS
|
---|
3612 | != ( pCtx->dw2.fTCP
|
---|
3613 | ? RT_UOFFSETOF(RTNETTCP, th_sum)
|
---|
3614 | : RT_UOFFSETOF(RTNETUDP, uh_sum) ) ))
|
---|
3615 | {
|
---|
3616 | E1kLog(("e1kSetupGsoCtx: TUCSO=%#x TUCSS=%#x TCP=%d\n", pCtx->ip.u8CSO, pCtx->ip.u8CSS, pCtx->dw2.fTCP));
|
---|
3617 | return;
|
---|
3618 | }
|
---|
3619 |
|
---|
3620 | /*
|
---|
3621 | * Because of internal networking using a 16-bit size field for GSO context
|
---|
3622 | * plus frame, we have to make sure we don't exceed this.
|
---|
3623 | */
|
---|
3624 | if (RT_UNLIKELY( pCtx->dw3.u8HDRLEN + pCtx->dw2.u20PAYLEN > VBOX_MAX_GSO_SIZE ))
|
---|
3625 | {
|
---|
3626 | E1kLog(("e1kSetupGsoCtx: HDRLEN(=%#x) + PAYLEN(=%#x) = %#x, max is %#x\n",
|
---|
3627 | pCtx->dw3.u8HDRLEN, pCtx->dw2.u20PAYLEN, pCtx->dw3.u8HDRLEN + pCtx->dw2.u20PAYLEN, VBOX_MAX_GSO_SIZE));
|
---|
3628 | return;
|
---|
3629 | }
|
---|
3630 |
|
---|
3631 | /*
|
---|
3632 | * We're good for now - we'll do more checks when seeing the data.
|
---|
3633 | * So, figure the type of offloading and setup the context.
|
---|
3634 | */
|
---|
3635 | if (pCtx->dw2.fIP)
|
---|
3636 | {
|
---|
3637 | if (pCtx->dw2.fTCP)
|
---|
3638 | {
|
---|
3639 | pGso->u8Type = PDMNETWORKGSOTYPE_IPV4_TCP;
|
---|
3640 | pGso->cbHdrsSeg = pCtx->dw3.u8HDRLEN;
|
---|
3641 | }
|
---|
3642 | else
|
---|
3643 | {
|
---|
3644 | pGso->u8Type = PDMNETWORKGSOTYPE_IPV4_UDP;
|
---|
3645 | pGso->cbHdrsSeg = pCtx->tu.u8CSS; /* IP header only */
|
---|
3646 | }
|
---|
3647 | /** @todo Detect IPv4-IPv6 tunneling (need test setup since linux doesn't do
|
---|
3648 | * this yet it seems)... */
|
---|
3649 | }
|
---|
3650 | else
|
---|
3651 | {
|
---|
3652 | pGso->cbHdrsSeg = pCtx->dw3.u8HDRLEN; /** @todo IPv6 UFO */
|
---|
3653 | if (pCtx->dw2.fTCP)
|
---|
3654 | pGso->u8Type = PDMNETWORKGSOTYPE_IPV6_TCP;
|
---|
3655 | else
|
---|
3656 | pGso->u8Type = PDMNETWORKGSOTYPE_IPV6_UDP;
|
---|
3657 | }
|
---|
3658 | pGso->offHdr1 = pCtx->ip.u8CSS;
|
---|
3659 | pGso->offHdr2 = pCtx->tu.u8CSS;
|
---|
3660 | pGso->cbHdrsTotal = pCtx->dw3.u8HDRLEN;
|
---|
3661 | pGso->cbMaxSeg = pCtx->dw3.u16MSS;
|
---|
3662 | Assert(PDMNetGsoIsValid(pGso, sizeof(*pGso), pGso->cbMaxSeg * 5));
|
---|
3663 | E1kLog2(("e1kSetupGsoCtx: mss=%#x hdr=%#x hdrseg=%#x hdr1=%#x hdr2=%#x %s\n",
|
---|
3664 | pGso->cbMaxSeg, pGso->cbHdrsTotal, pGso->cbHdrsSeg, pGso->offHdr1, pGso->offHdr2, PDMNetGsoTypeName((PDMNETWORKGSOTYPE)pGso->u8Type) ));
|
---|
3665 | }
|
---|
3666 |
|
---|
3667 | /**
|
---|
3668 | * Checks if we can use GSO processing for the current TSE frame.
|
---|
3669 | *
|
---|
3670 | * @param pThis The device state structure.
|
---|
3671 | * @param pGso The GSO context.
|
---|
3672 | * @param pData The first data descriptor of the frame.
|
---|
3673 | * @param pCtx The TSO context descriptor.
|
---|
3674 | */
|
---|
3675 | DECLINLINE(bool) e1kCanDoGso(PE1KSTATE pThis, PCPDMNETWORKGSO pGso, E1KTXDAT const *pData, E1KTXCTX const *pCtx)
|
---|
3676 | {
|
---|
3677 | if (!pData->cmd.fTSE)
|
---|
3678 | {
|
---|
3679 | E1kLog2(("e1kCanDoGso: !TSE\n"));
|
---|
3680 | return false;
|
---|
3681 | }
|
---|
3682 | if (pData->cmd.fVLE) /** @todo VLAN tagging. */
|
---|
3683 | {
|
---|
3684 | E1kLog(("e1kCanDoGso: VLE\n"));
|
---|
3685 | return false;
|
---|
3686 | }
|
---|
3687 | if (RT_UNLIKELY(!pThis->fGSOEnabled))
|
---|
3688 | {
|
---|
3689 | E1kLog3(("e1kCanDoGso: GSO disabled via CFGM\n"));
|
---|
3690 | return false;
|
---|
3691 | }
|
---|
3692 |
|
---|
3693 | switch ((PDMNETWORKGSOTYPE)pGso->u8Type)
|
---|
3694 | {
|
---|
3695 | case PDMNETWORKGSOTYPE_IPV4_TCP:
|
---|
3696 | case PDMNETWORKGSOTYPE_IPV4_UDP:
|
---|
3697 | if (!pData->dw3.fIXSM)
|
---|
3698 | {
|
---|
3699 | E1kLog(("e1kCanDoGso: !IXSM (IPv4)\n"));
|
---|
3700 | return false;
|
---|
3701 | }
|
---|
3702 | if (!pData->dw3.fTXSM)
|
---|
3703 | {
|
---|
3704 | E1kLog(("e1kCanDoGso: !TXSM (IPv4)\n"));
|
---|
3705 | return false;
|
---|
3706 | }
|
---|
3707 | /** @todo what more check should we perform here? Ethernet frame type? */
|
---|
3708 | E1kLog2(("e1kCanDoGso: OK, IPv4\n"));
|
---|
3709 | return true;
|
---|
3710 |
|
---|
3711 | case PDMNETWORKGSOTYPE_IPV6_TCP:
|
---|
3712 | case PDMNETWORKGSOTYPE_IPV6_UDP:
|
---|
3713 | if (pData->dw3.fIXSM && pCtx->ip.u8CSO)
|
---|
3714 | {
|
---|
3715 | E1kLog(("e1kCanDoGso: IXSM (IPv6)\n"));
|
---|
3716 | return false;
|
---|
3717 | }
|
---|
3718 | if (!pData->dw3.fTXSM)
|
---|
3719 | {
|
---|
3720 | E1kLog(("e1kCanDoGso: TXSM (IPv6)\n"));
|
---|
3721 | return false;
|
---|
3722 | }
|
---|
3723 | /** @todo what more check should we perform here? Ethernet frame type? */
|
---|
3724 | E1kLog2(("e1kCanDoGso: OK, IPv4\n"));
|
---|
3725 | return true;
|
---|
3726 |
|
---|
3727 | default:
|
---|
3728 | Assert(pGso->u8Type == PDMNETWORKGSOTYPE_INVALID);
|
---|
3729 | E1kLog2(("e1kCanDoGso: e1kSetupGsoCtx failed\n"));
|
---|
3730 | return false;
|
---|
3731 | }
|
---|
3732 | }
|
---|
3733 |
|
---|
3734 | /**
|
---|
3735 | * Frees the current xmit buffer.
|
---|
3736 | *
|
---|
3737 | * @param pThis The device state structure.
|
---|
3738 | */
|
---|
3739 | static void e1kXmitFreeBuf(PE1KSTATE pThis, PE1KSTATECC pThisCC)
|
---|
3740 | {
|
---|
3741 | PPDMSCATTERGATHER pSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
3742 | if (pSg)
|
---|
3743 | {
|
---|
3744 | pThisCC->CTX_SUFF(pTxSg) = NULL;
|
---|
3745 |
|
---|
3746 | if (pSg->pvAllocator != pThis)
|
---|
3747 | {
|
---|
3748 | PPDMINETWORKUP pDrv = pThisCC->CTX_SUFF(pDrv);
|
---|
3749 | if (pDrv)
|
---|
3750 | pDrv->pfnFreeBuf(pDrv, pSg);
|
---|
3751 | }
|
---|
3752 | else
|
---|
3753 | {
|
---|
3754 | /* loopback */
|
---|
3755 | AssertCompileMemberSize(E1KSTATE, uTxFallback.Sg, 8 * sizeof(size_t));
|
---|
3756 | Assert(pSg->fFlags == (PDMSCATTERGATHER_FLAGS_MAGIC | PDMSCATTERGATHER_FLAGS_OWNER_3));
|
---|
3757 | pSg->fFlags = 0;
|
---|
3758 | pSg->pvAllocator = NULL;
|
---|
3759 | }
|
---|
3760 | }
|
---|
3761 | }
|
---|
3762 |
|
---|
3763 | #ifndef E1K_WITH_TXD_CACHE
|
---|
3764 | /**
|
---|
3765 | * Allocates an xmit buffer.
|
---|
3766 | *
|
---|
3767 | * @returns See PDMINETWORKUP::pfnAllocBuf.
|
---|
3768 | * @param pThis The device state structure.
|
---|
3769 | * @param cbMin The minimum frame size.
|
---|
3770 | * @param fExactSize Whether cbMin is exact or if we have to max it
|
---|
3771 | * out to the max MTU size.
|
---|
3772 | * @param fGso Whether this is a GSO frame or not.
|
---|
3773 | */
|
---|
3774 | DECLINLINE(int) e1kXmitAllocBuf(PE1KSTATE pThis, PE1KSTATECC pThisCC, size_t cbMin, bool fExactSize, bool fGso)
|
---|
3775 | {
|
---|
3776 | /* Adjust cbMin if necessary. */
|
---|
3777 | if (!fExactSize)
|
---|
3778 | cbMin = RT_MAX(cbMin, E1K_MAX_TX_PKT_SIZE);
|
---|
3779 |
|
---|
3780 | /* Deal with existing buffer (descriptor screw up, reset, etc). */
|
---|
3781 | if (RT_UNLIKELY(pThisCC->CTX_SUFF(pTxSg)))
|
---|
3782 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
3783 | Assert(pThisCC->CTX_SUFF(pTxSg) == NULL);
|
---|
3784 |
|
---|
3785 | /*
|
---|
3786 | * Allocate the buffer.
|
---|
3787 | */
|
---|
3788 | PPDMSCATTERGATHER pSg;
|
---|
3789 | if (RT_LIKELY(GET_BITS(RCTL, LBM) != RCTL_LBM_TCVR))
|
---|
3790 | {
|
---|
3791 | PPDMINETWORKUP pDrv = pThisCC->CTX_SUFF(pDrv);
|
---|
3792 | if (RT_UNLIKELY(!pDrv))
|
---|
3793 | return VERR_NET_DOWN;
|
---|
3794 | int rc = pDrv->pfnAllocBuf(pDrv, cbMin, fGso ? &pThis->GsoCtx : NULL, &pSg);
|
---|
3795 | if (RT_FAILURE(rc))
|
---|
3796 | {
|
---|
3797 | /* Suspend TX as we are out of buffers atm */
|
---|
3798 | STATUS |= STATUS_TXOFF;
|
---|
3799 | return rc;
|
---|
3800 | }
|
---|
3801 | }
|
---|
3802 | else
|
---|
3803 | {
|
---|
3804 | /* Create a loopback using the fallback buffer and preallocated SG. */
|
---|
3805 | AssertCompileMemberSize(E1KSTATE, uTxFallback.Sg, 8 * sizeof(size_t));
|
---|
3806 | pSg = &pThis->uTxFallback.Sg;
|
---|
3807 | pSg->fFlags = PDMSCATTERGATHER_FLAGS_MAGIC | PDMSCATTERGATHER_FLAGS_OWNER_3;
|
---|
3808 | pSg->cbUsed = 0;
|
---|
3809 | pSg->cbAvailable = 0;
|
---|
3810 | pSg->pvAllocator = pThis;
|
---|
3811 | pSg->pvUser = NULL; /* No GSO here. */
|
---|
3812 | pSg->cSegs = 1;
|
---|
3813 | pSg->aSegs[0].pvSeg = pThis->aTxPacketFallback;
|
---|
3814 | pSg->aSegs[0].cbSeg = sizeof(pThis->aTxPacketFallback);
|
---|
3815 | }
|
---|
3816 |
|
---|
3817 | pThisCC->CTX_SUFF(pTxSg) = pSg;
|
---|
3818 | return VINF_SUCCESS;
|
---|
3819 | }
|
---|
3820 | #else /* E1K_WITH_TXD_CACHE */
|
---|
3821 | /**
|
---|
3822 | * Allocates an xmit buffer.
|
---|
3823 | *
|
---|
3824 | * @returns See PDMINETWORKUP::pfnAllocBuf.
|
---|
3825 | * @param pThis The device state structure.
|
---|
3826 | * @param cbMin The minimum frame size.
|
---|
3827 | * @param fExactSize Whether cbMin is exact or if we have to max it
|
---|
3828 | * out to the max MTU size.
|
---|
3829 | * @param fGso Whether this is a GSO frame or not.
|
---|
3830 | */
|
---|
3831 | DECLINLINE(int) e1kXmitAllocBuf(PE1KSTATE pThis, PE1KSTATECC pThisCC, bool fGso)
|
---|
3832 | {
|
---|
3833 | /* Deal with existing buffer (descriptor screw up, reset, etc). */
|
---|
3834 | if (RT_UNLIKELY(pThisCC->CTX_SUFF(pTxSg)))
|
---|
3835 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
3836 | Assert(pThisCC->CTX_SUFF(pTxSg) == NULL);
|
---|
3837 |
|
---|
3838 | /*
|
---|
3839 | * Allocate the buffer.
|
---|
3840 | */
|
---|
3841 | PPDMSCATTERGATHER pSg;
|
---|
3842 | if (RT_LIKELY(GET_BITS(RCTL, LBM) != RCTL_LBM_TCVR))
|
---|
3843 | {
|
---|
3844 | if (pThis->cbTxAlloc == 0)
|
---|
3845 | {
|
---|
3846 | /* Zero packet, no need for the buffer */
|
---|
3847 | return VINF_SUCCESS;
|
---|
3848 | }
|
---|
3849 |
|
---|
3850 | PPDMINETWORKUP pDrv = pThisCC->CTX_SUFF(pDrv);
|
---|
3851 | if (RT_UNLIKELY(!pDrv))
|
---|
3852 | return VERR_NET_DOWN;
|
---|
3853 | int rc = pDrv->pfnAllocBuf(pDrv, pThis->cbTxAlloc, fGso ? &pThis->GsoCtx : NULL, &pSg);
|
---|
3854 | if (RT_FAILURE(rc))
|
---|
3855 | {
|
---|
3856 | /* Suspend TX as we are out of buffers atm */
|
---|
3857 | STATUS |= STATUS_TXOFF;
|
---|
3858 | return rc;
|
---|
3859 | }
|
---|
3860 | E1kLog3(("%s Allocated buffer for TX packet: cb=%u %s%s\n",
|
---|
3861 | pThis->szPrf, pThis->cbTxAlloc,
|
---|
3862 | pThis->fVTag ? "VLAN " : "",
|
---|
3863 | pThis->fGSO ? "GSO " : ""));
|
---|
3864 | }
|
---|
3865 | else
|
---|
3866 | {
|
---|
3867 | /* Create a loopback using the fallback buffer and preallocated SG. */
|
---|
3868 | AssertCompileMemberSize(E1KSTATE, uTxFallback.Sg, 8 * sizeof(size_t));
|
---|
3869 | pSg = &pThis->uTxFallback.Sg;
|
---|
3870 | pSg->fFlags = PDMSCATTERGATHER_FLAGS_MAGIC | PDMSCATTERGATHER_FLAGS_OWNER_3;
|
---|
3871 | pSg->cbUsed = 0;
|
---|
3872 | pSg->cbAvailable = sizeof(pThis->aTxPacketFallback);
|
---|
3873 | pSg->pvAllocator = pThis;
|
---|
3874 | pSg->pvUser = NULL; /* No GSO here. */
|
---|
3875 | pSg->cSegs = 1;
|
---|
3876 | pSg->aSegs[0].pvSeg = pThis->aTxPacketFallback;
|
---|
3877 | pSg->aSegs[0].cbSeg = sizeof(pThis->aTxPacketFallback);
|
---|
3878 | }
|
---|
3879 | pThis->cbTxAlloc = 0;
|
---|
3880 |
|
---|
3881 | pThisCC->CTX_SUFF(pTxSg) = pSg;
|
---|
3882 | return VINF_SUCCESS;
|
---|
3883 | }
|
---|
3884 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
3885 |
|
---|
3886 | /**
|
---|
3887 | * Checks if it's a GSO buffer or not.
|
---|
3888 | *
|
---|
3889 | * @returns true / false.
|
---|
3890 | * @param pTxSg The scatter / gather buffer.
|
---|
3891 | */
|
---|
3892 | DECLINLINE(bool) e1kXmitIsGsoBuf(PDMSCATTERGATHER const *pTxSg)
|
---|
3893 | {
|
---|
3894 | #if 0
|
---|
3895 | if (!pTxSg)
|
---|
3896 | E1kLog(("e1kXmitIsGsoBuf: pTxSG is NULL\n"));
|
---|
3897 | if (pTxSg && pTxSg->pvUser)
|
---|
3898 | E1kLog(("e1kXmitIsGsoBuf: pvUser is NULL\n"));
|
---|
3899 | #endif
|
---|
3900 | return pTxSg && pTxSg->pvUser /* GSO indicator */;
|
---|
3901 | }
|
---|
3902 |
|
---|
3903 | #ifndef E1K_WITH_TXD_CACHE
|
---|
3904 | /**
|
---|
3905 | * Load transmit descriptor from guest memory.
|
---|
3906 | *
|
---|
3907 | * @param pDevIns The device instance.
|
---|
3908 | * @param pDesc Pointer to descriptor union.
|
---|
3909 | * @param addr Physical address in guest context.
|
---|
3910 | * @thread E1000_TX
|
---|
3911 | */
|
---|
3912 | DECLINLINE(void) e1kLoadDesc(PPDMDEVINS pDevIns, E1KTXDESC *pDesc, RTGCPHYS addr)
|
---|
3913 | {
|
---|
3914 | PDMDevHlpPhysRead(pDevIns, addr, pDesc, sizeof(E1KTXDESC));
|
---|
3915 | }
|
---|
3916 | #else /* E1K_WITH_TXD_CACHE */
|
---|
3917 | /**
|
---|
3918 | * Load transmit descriptors from guest memory.
|
---|
3919 | *
|
---|
3920 | * We need two physical reads in case the tail wrapped around the end of TX
|
---|
3921 | * descriptor ring.
|
---|
3922 | *
|
---|
3923 | * @returns the actual number of descriptors fetched.
|
---|
3924 | * @param pDevIns The device instance.
|
---|
3925 | * @param pThis The device state structure.
|
---|
3926 | * @thread E1000_TX
|
---|
3927 | */
|
---|
3928 | DECLINLINE(unsigned) e1kTxDLoadMore(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
3929 | {
|
---|
3930 | Assert(pThis->iTxDCurrent == 0);
|
---|
3931 | /* We've already loaded pThis->nTxDFetched descriptors past TDH. */
|
---|
3932 | unsigned nDescsAvailable = e1kGetTxLen(pThis) - pThis->nTxDFetched;
|
---|
3933 | unsigned nDescsToFetch = RT_MIN(nDescsAvailable, E1K_TXD_CACHE_SIZE - pThis->nTxDFetched);
|
---|
3934 | unsigned nDescsTotal = TDLEN / sizeof(E1KTXDESC);
|
---|
3935 | unsigned nFirstNotLoaded = (TDH + pThis->nTxDFetched) % nDescsTotal;
|
---|
3936 | unsigned nDescsInSingleRead = RT_MIN(nDescsToFetch, nDescsTotal - nFirstNotLoaded);
|
---|
3937 | E1kLog3(("%s e1kTxDLoadMore: nDescsAvailable=%u nDescsToFetch=%u nDescsTotal=%u nFirstNotLoaded=0x%x nDescsInSingleRead=%u\n",
|
---|
3938 | pThis->szPrf, nDescsAvailable, nDescsToFetch, nDescsTotal,
|
---|
3939 | nFirstNotLoaded, nDescsInSingleRead));
|
---|
3940 | if (nDescsToFetch == 0)
|
---|
3941 | return 0;
|
---|
3942 | E1KTXDESC* pFirstEmptyDesc = &pThis->aTxDescriptors[pThis->nTxDFetched];
|
---|
3943 | PDMDevHlpPhysRead(pDevIns,
|
---|
3944 | ((uint64_t)TDBAH << 32) + TDBAL + nFirstNotLoaded * sizeof(E1KTXDESC),
|
---|
3945 | pFirstEmptyDesc, nDescsInSingleRead * sizeof(E1KTXDESC));
|
---|
3946 | E1kLog3(("%s Fetched %u TX descriptors at %08x%08x(0x%x), TDLEN=%08x, TDH=%08x, TDT=%08x\n",
|
---|
3947 | pThis->szPrf, nDescsInSingleRead,
|
---|
3948 | TDBAH, TDBAL + TDH * sizeof(E1KTXDESC),
|
---|
3949 | nFirstNotLoaded, TDLEN, TDH, TDT));
|
---|
3950 | if (nDescsToFetch > nDescsInSingleRead)
|
---|
3951 | {
|
---|
3952 | PDMDevHlpPhysRead(pDevIns,
|
---|
3953 | ((uint64_t)TDBAH << 32) + TDBAL,
|
---|
3954 | pFirstEmptyDesc + nDescsInSingleRead,
|
---|
3955 | (nDescsToFetch - nDescsInSingleRead) * sizeof(E1KTXDESC));
|
---|
3956 | E1kLog3(("%s Fetched %u TX descriptors at %08x%08x\n",
|
---|
3957 | pThis->szPrf, nDescsToFetch - nDescsInSingleRead,
|
---|
3958 | TDBAH, TDBAL));
|
---|
3959 | }
|
---|
3960 | pThis->nTxDFetched += nDescsToFetch;
|
---|
3961 | return nDescsToFetch;
|
---|
3962 | }
|
---|
3963 |
|
---|
3964 | /**
|
---|
3965 | * Load transmit descriptors from guest memory only if there are no loaded
|
---|
3966 | * descriptors.
|
---|
3967 | *
|
---|
3968 | * @returns true if there are descriptors in cache.
|
---|
3969 | * @param pDevIns The device instance.
|
---|
3970 | * @param pThis The device state structure.
|
---|
3971 | * @thread E1000_TX
|
---|
3972 | */
|
---|
3973 | DECLINLINE(bool) e1kTxDLazyLoad(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
3974 | {
|
---|
3975 | if (pThis->nTxDFetched == 0)
|
---|
3976 | return e1kTxDLoadMore(pDevIns, pThis) != 0;
|
---|
3977 | return true;
|
---|
3978 | }
|
---|
3979 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
3980 |
|
---|
3981 | /**
|
---|
3982 | * Write back transmit descriptor to guest memory.
|
---|
3983 | *
|
---|
3984 | * @param pDevIns The device instance.
|
---|
3985 | * @param pThis The device state structure.
|
---|
3986 | * @param pDesc Pointer to descriptor union.
|
---|
3987 | * @param addr Physical address in guest context.
|
---|
3988 | * @thread E1000_TX
|
---|
3989 | */
|
---|
3990 | DECLINLINE(void) e1kWriteBackDesc(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KTXDESC *pDesc, RTGCPHYS addr)
|
---|
3991 | {
|
---|
3992 | /* Only the last half of the descriptor has to be written back. */
|
---|
3993 | e1kPrintTDesc(pThis, pDesc, "^^^");
|
---|
3994 | PDMDevHlpPCIPhysWrite(pDevIns, addr, pDesc, sizeof(E1KTXDESC));
|
---|
3995 | }
|
---|
3996 |
|
---|
3997 | /**
|
---|
3998 | * Transmit complete frame.
|
---|
3999 | *
|
---|
4000 | * @remarks We skip the FCS since we're not responsible for sending anything to
|
---|
4001 | * a real ethernet wire.
|
---|
4002 | *
|
---|
4003 | * @param pDevIns The device instance.
|
---|
4004 | * @param pThis The device state structure.
|
---|
4005 | * @param pThisCC The current context instance data.
|
---|
4006 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4007 | * @thread E1000_TX
|
---|
4008 | */
|
---|
4009 | static void e1kTransmitFrame(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC, bool fOnWorkerThread)
|
---|
4010 | {
|
---|
4011 | PPDMSCATTERGATHER pSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4012 | uint32_t cbFrame = pSg ? (uint32_t)pSg->cbUsed : 0;
|
---|
4013 | Assert(!pSg || pSg->cSegs == 1);
|
---|
4014 |
|
---|
4015 | if (cbFrame > 70) /* unqualified guess */
|
---|
4016 | pThis->led.Asserted.s.fWriting = pThis->led.Actual.s.fWriting = 1;
|
---|
4017 |
|
---|
4018 | #ifdef E1K_INT_STATS
|
---|
4019 | if (cbFrame <= 1514)
|
---|
4020 | E1K_INC_ISTAT_CNT(pThis->uStatTx1514);
|
---|
4021 | else if (cbFrame <= 2962)
|
---|
4022 | E1K_INC_ISTAT_CNT(pThis->uStatTx2962);
|
---|
4023 | else if (cbFrame <= 4410)
|
---|
4024 | E1K_INC_ISTAT_CNT(pThis->uStatTx4410);
|
---|
4025 | else if (cbFrame <= 5858)
|
---|
4026 | E1K_INC_ISTAT_CNT(pThis->uStatTx5858);
|
---|
4027 | else if (cbFrame <= 7306)
|
---|
4028 | E1K_INC_ISTAT_CNT(pThis->uStatTx7306);
|
---|
4029 | else if (cbFrame <= 8754)
|
---|
4030 | E1K_INC_ISTAT_CNT(pThis->uStatTx8754);
|
---|
4031 | else if (cbFrame <= 16384)
|
---|
4032 | E1K_INC_ISTAT_CNT(pThis->uStatTx16384);
|
---|
4033 | else if (cbFrame <= 32768)
|
---|
4034 | E1K_INC_ISTAT_CNT(pThis->uStatTx32768);
|
---|
4035 | else
|
---|
4036 | E1K_INC_ISTAT_CNT(pThis->uStatTxLarge);
|
---|
4037 | #endif /* E1K_INT_STATS */
|
---|
4038 |
|
---|
4039 | /* Add VLAN tag */
|
---|
4040 | if (cbFrame > 12 && pThis->fVTag)
|
---|
4041 | {
|
---|
4042 | E1kLog3(("%s Inserting VLAN tag %08x\n",
|
---|
4043 | pThis->szPrf, RT_BE2H_U16(VET) | (RT_BE2H_U16(pThis->u16VTagTCI) << 16)));
|
---|
4044 | memmove((uint8_t*)pSg->aSegs[0].pvSeg + 16, (uint8_t*)pSg->aSegs[0].pvSeg + 12, cbFrame - 12);
|
---|
4045 | *((uint32_t*)pSg->aSegs[0].pvSeg + 3) = RT_BE2H_U16(VET) | (RT_BE2H_U16(pThis->u16VTagTCI) << 16);
|
---|
4046 | pSg->cbUsed += 4;
|
---|
4047 | cbFrame += 4;
|
---|
4048 | Assert(pSg->cbUsed == cbFrame);
|
---|
4049 | Assert(pSg->cbUsed <= pSg->cbAvailable);
|
---|
4050 | }
|
---|
4051 | /* E1kLog2(("%s < < < Outgoing packet. Dump follows: > > >\n"
|
---|
4052 | "%.*Rhxd\n"
|
---|
4053 | "%s < < < < < < < < < < < < < End of dump > > > > > > > > > > > >\n",
|
---|
4054 | pThis->szPrf, cbFrame, pSg->aSegs[0].pvSeg, pThis->szPrf));*/
|
---|
4055 |
|
---|
4056 | /* Update the stats */
|
---|
4057 | E1K_INC_CNT32(TPT);
|
---|
4058 | E1K_ADD_CNT64(TOTL, TOTH, cbFrame);
|
---|
4059 | E1K_INC_CNT32(GPTC);
|
---|
4060 | if (pSg && e1kIsBroadcast(pSg->aSegs[0].pvSeg))
|
---|
4061 | E1K_INC_CNT32(BPTC);
|
---|
4062 | else if (pSg && e1kIsMulticast(pSg->aSegs[0].pvSeg))
|
---|
4063 | E1K_INC_CNT32(MPTC);
|
---|
4064 | /* Update octet transmit counter */
|
---|
4065 | E1K_ADD_CNT64(GOTCL, GOTCH, cbFrame);
|
---|
4066 | if (pThisCC->CTX_SUFF(pDrv))
|
---|
4067 | STAM_REL_COUNTER_ADD(&pThis->StatTransmitBytes, cbFrame);
|
---|
4068 | if (cbFrame == 64)
|
---|
4069 | E1K_INC_CNT32(PTC64);
|
---|
4070 | else if (cbFrame < 128)
|
---|
4071 | E1K_INC_CNT32(PTC127);
|
---|
4072 | else if (cbFrame < 256)
|
---|
4073 | E1K_INC_CNT32(PTC255);
|
---|
4074 | else if (cbFrame < 512)
|
---|
4075 | E1K_INC_CNT32(PTC511);
|
---|
4076 | else if (cbFrame < 1024)
|
---|
4077 | E1K_INC_CNT32(PTC1023);
|
---|
4078 | else
|
---|
4079 | E1K_INC_CNT32(PTC1522);
|
---|
4080 |
|
---|
4081 | E1K_INC_ISTAT_CNT(pThis->uStatTxFrm);
|
---|
4082 |
|
---|
4083 | /*
|
---|
4084 | * Dump and send the packet.
|
---|
4085 | */
|
---|
4086 | int rc = VERR_NET_DOWN;
|
---|
4087 | if (pSg && pSg->pvAllocator != pThis)
|
---|
4088 | {
|
---|
4089 | e1kPacketDump(pDevIns, pThis, (uint8_t const *)pSg->aSegs[0].pvSeg, cbFrame, "--> Outgoing");
|
---|
4090 |
|
---|
4091 | pThisCC->CTX_SUFF(pTxSg) = NULL;
|
---|
4092 | PPDMINETWORKUP pDrv = pThisCC->CTX_SUFF(pDrv);
|
---|
4093 | if (pDrv)
|
---|
4094 | {
|
---|
4095 | /* Release critical section to avoid deadlock in CanReceive */
|
---|
4096 | //e1kCsLeave(pThis);
|
---|
4097 | STAM_PROFILE_START(&pThis->CTX_SUFF_Z(StatTransmitSend), a);
|
---|
4098 | rc = pDrv->pfnSendBuf(pDrv, pSg, fOnWorkerThread);
|
---|
4099 | STAM_PROFILE_STOP(&pThis->CTX_SUFF_Z(StatTransmitSend), a);
|
---|
4100 | //e1kCsEnter(pThis, RT_SRC_POS);
|
---|
4101 | }
|
---|
4102 | }
|
---|
4103 | else if (pSg)
|
---|
4104 | {
|
---|
4105 | Assert(pSg->aSegs[0].pvSeg == pThis->aTxPacketFallback);
|
---|
4106 | e1kPacketDump(pDevIns, pThis, (uint8_t const *)pSg->aSegs[0].pvSeg, cbFrame, "--> Loopback");
|
---|
4107 |
|
---|
4108 | /** @todo do we actually need to check that we're in loopback mode here? */
|
---|
4109 | if (GET_BITS(RCTL, LBM) == RCTL_LBM_TCVR)
|
---|
4110 | {
|
---|
4111 | E1KRXDST status;
|
---|
4112 | RT_ZERO(status);
|
---|
4113 | status.fPIF = true;
|
---|
4114 | e1kHandleRxPacket(pDevIns, pThis, pSg->aSegs[0].pvSeg, cbFrame, status);
|
---|
4115 | rc = VINF_SUCCESS;
|
---|
4116 | }
|
---|
4117 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
4118 | }
|
---|
4119 | else
|
---|
4120 | rc = VERR_NET_DOWN;
|
---|
4121 | if (RT_FAILURE(rc))
|
---|
4122 | {
|
---|
4123 | E1kLogRel(("E1000: ERROR! pfnSend returned %Rrc\n", rc));
|
---|
4124 | /** @todo handle VERR_NET_DOWN and VERR_NET_NO_BUFFER_SPACE. Signal error ? */
|
---|
4125 | }
|
---|
4126 |
|
---|
4127 | pThis->led.Actual.s.fWriting = 0;
|
---|
4128 | }
|
---|
4129 |
|
---|
4130 | /**
|
---|
4131 | * Compute and write internet checksum (e1kCSum16) at the specified offset.
|
---|
4132 | *
|
---|
4133 | * @param pThis The device state structure.
|
---|
4134 | * @param pPkt Pointer to the packet.
|
---|
4135 | * @param u16PktLen Total length of the packet.
|
---|
4136 | * @param cso Offset in packet to write checksum at.
|
---|
4137 | * @param css Offset in packet to start computing
|
---|
4138 | * checksum from.
|
---|
4139 | * @param cse Offset in packet to stop computing
|
---|
4140 | * checksum at.
|
---|
4141 | * @thread E1000_TX
|
---|
4142 | */
|
---|
4143 | static void e1kInsertChecksum(PE1KSTATE pThis, uint8_t *pPkt, uint16_t u16PktLen, uint8_t cso, uint8_t css, uint16_t cse)
|
---|
4144 | {
|
---|
4145 | RT_NOREF1(pThis);
|
---|
4146 |
|
---|
4147 | if (css >= u16PktLen)
|
---|
4148 | {
|
---|
4149 | E1kLog2(("%s css(%X) is greater than packet length-1(%X), checksum is not inserted\n",
|
---|
4150 | pThis->szPrf, cso, u16PktLen));
|
---|
4151 | return;
|
---|
4152 | }
|
---|
4153 |
|
---|
4154 | if (cso >= u16PktLen - 1)
|
---|
4155 | {
|
---|
4156 | E1kLog2(("%s cso(%X) is greater than packet length-2(%X), checksum is not inserted\n",
|
---|
4157 | pThis->szPrf, cso, u16PktLen));
|
---|
4158 | return;
|
---|
4159 | }
|
---|
4160 |
|
---|
4161 | if (cse == 0)
|
---|
4162 | cse = u16PktLen - 1;
|
---|
4163 | else if (cse < css)
|
---|
4164 | {
|
---|
4165 | E1kLog2(("%s css(%X) is greater than cse(%X), checksum is not inserted\n",
|
---|
4166 | pThis->szPrf, css, cse));
|
---|
4167 | return;
|
---|
4168 | }
|
---|
4169 |
|
---|
4170 | uint16_t u16ChkSum = e1kCSum16(pPkt + css, cse - css + 1);
|
---|
4171 | E1kLog2(("%s Inserting csum: %04X at %02X, old value: %04X\n", pThis->szPrf,
|
---|
4172 | u16ChkSum, cso, *(uint16_t*)(pPkt + cso)));
|
---|
4173 | *(uint16_t*)(pPkt + cso) = u16ChkSum;
|
---|
4174 | }
|
---|
4175 |
|
---|
4176 | /**
|
---|
4177 | * Add a part of descriptor's buffer to transmit frame.
|
---|
4178 | *
|
---|
4179 | * @remarks data.u64BufAddr is used unconditionally for both data
|
---|
4180 | * and legacy descriptors since it is identical to
|
---|
4181 | * legacy.u64BufAddr.
|
---|
4182 | *
|
---|
4183 | * @param pDevIns The device instance.
|
---|
4184 | * @param pThis The device state structure.
|
---|
4185 | * @param pDesc Pointer to the descriptor to transmit.
|
---|
4186 | * @param u16Len Length of buffer to the end of segment.
|
---|
4187 | * @param fSend Force packet sending.
|
---|
4188 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4189 | * @thread E1000_TX
|
---|
4190 | */
|
---|
4191 | #ifndef E1K_WITH_TXD_CACHE
|
---|
4192 | static void e1kFallbackAddSegment(PPDMDEVINS pDevIns, PE1KSTATE pThis, RTGCPHYS PhysAddr, uint16_t u16Len, bool fSend, bool fOnWorkerThread)
|
---|
4193 | {
|
---|
4194 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
4195 | /* TCP header being transmitted */
|
---|
4196 | struct E1kTcpHeader *pTcpHdr = (struct E1kTcpHeader *)(pThis->aTxPacketFallback + pThis->contextTSE.tu.u8CSS);
|
---|
4197 | /* IP header being transmitted */
|
---|
4198 | struct E1kIpHeader *pIpHdr = (struct E1kIpHeader *)(pThis->aTxPacketFallback + pThis->contextTSE.ip.u8CSS);
|
---|
4199 |
|
---|
4200 | E1kLog3(("%s e1kFallbackAddSegment: Length=%x, remaining payload=%x, header=%x, send=%RTbool\n",
|
---|
4201 | pThis->szPrf, u16Len, pThis->u32PayRemain, pThis->u16HdrRemain, fSend));
|
---|
4202 | Assert(pThis->u32PayRemain + pThis->u16HdrRemain > 0);
|
---|
4203 |
|
---|
4204 | PDMDevHlpPhysRead(pDevIns, PhysAddr, pThis->aTxPacketFallback + pThis->u16TxPktLen, u16Len);
|
---|
4205 | E1kLog3(("%s Dump of the segment:\n"
|
---|
4206 | "%.*Rhxd\n"
|
---|
4207 | "%s --- End of dump ---\n",
|
---|
4208 | pThis->szPrf, u16Len, pThis->aTxPacketFallback + pThis->u16TxPktLen, pThis->szPrf));
|
---|
4209 | pThis->u16TxPktLen += u16Len;
|
---|
4210 | E1kLog3(("%s e1kFallbackAddSegment: pThis->u16TxPktLen=%x\n",
|
---|
4211 | pThis->szPrf, pThis->u16TxPktLen));
|
---|
4212 | if (pThis->u16HdrRemain > 0)
|
---|
4213 | {
|
---|
4214 | /* The header was not complete, check if it is now */
|
---|
4215 | if (u16Len >= pThis->u16HdrRemain)
|
---|
4216 | {
|
---|
4217 | /* The rest is payload */
|
---|
4218 | u16Len -= pThis->u16HdrRemain;
|
---|
4219 | pThis->u16HdrRemain = 0;
|
---|
4220 | /* Save partial checksum and flags */
|
---|
4221 | pThis->u32SavedCsum = pTcpHdr->chksum;
|
---|
4222 | pThis->u16SavedFlags = pTcpHdr->hdrlen_flags;
|
---|
4223 | /* Clear FIN and PSH flags now and set them only in the last segment */
|
---|
4224 | pTcpHdr->hdrlen_flags &= ~htons(E1K_TCP_FIN | E1K_TCP_PSH);
|
---|
4225 | }
|
---|
4226 | else
|
---|
4227 | {
|
---|
4228 | /* Still not */
|
---|
4229 | pThis->u16HdrRemain -= u16Len;
|
---|
4230 | E1kLog3(("%s e1kFallbackAddSegment: Header is still incomplete, 0x%x bytes remain.\n",
|
---|
4231 | pThis->szPrf, pThis->u16HdrRemain));
|
---|
4232 | return;
|
---|
4233 | }
|
---|
4234 | }
|
---|
4235 |
|
---|
4236 | pThis->u32PayRemain -= u16Len;
|
---|
4237 |
|
---|
4238 | if (fSend)
|
---|
4239 | {
|
---|
4240 | /* Leave ethernet header intact */
|
---|
4241 | /* IP Total Length = payload + headers - ethernet header */
|
---|
4242 | pIpHdr->total_len = htons(pThis->u16TxPktLen - pThis->contextTSE.ip.u8CSS);
|
---|
4243 | E1kLog3(("%s e1kFallbackAddSegment: End of packet, pIpHdr->total_len=%x\n",
|
---|
4244 | pThis->szPrf, ntohs(pIpHdr->total_len)));
|
---|
4245 | /* Update IP Checksum */
|
---|
4246 | pIpHdr->chksum = 0;
|
---|
4247 | e1kInsertChecksum(pThis, pThis->aTxPacketFallback, pThis->u16TxPktLen,
|
---|
4248 | pThis->contextTSE.ip.u8CSO,
|
---|
4249 | pThis->contextTSE.ip.u8CSS,
|
---|
4250 | pThis->contextTSE.ip.u16CSE);
|
---|
4251 |
|
---|
4252 | /* Update TCP flags */
|
---|
4253 | /* Restore original FIN and PSH flags for the last segment */
|
---|
4254 | if (pThis->u32PayRemain == 0)
|
---|
4255 | {
|
---|
4256 | pTcpHdr->hdrlen_flags = pThis->u16SavedFlags;
|
---|
4257 | E1K_INC_CNT32(TSCTC);
|
---|
4258 | }
|
---|
4259 | /* Add TCP length to partial pseudo header sum */
|
---|
4260 | uint32_t csum = pThis->u32SavedCsum
|
---|
4261 | + htons(pThis->u16TxPktLen - pThis->contextTSE.tu.u8CSS);
|
---|
4262 | while (csum >> 16)
|
---|
4263 | csum = (csum >> 16) + (csum & 0xFFFF);
|
---|
4264 | pTcpHdr->chksum = csum;
|
---|
4265 | /* Compute final checksum */
|
---|
4266 | e1kInsertChecksum(pThis, pThis->aTxPacketFallback, pThis->u16TxPktLen,
|
---|
4267 | pThis->contextTSE.tu.u8CSO,
|
---|
4268 | pThis->contextTSE.tu.u8CSS,
|
---|
4269 | pThis->contextTSE.tu.u16CSE);
|
---|
4270 |
|
---|
4271 | /*
|
---|
4272 | * Transmit it. If we've use the SG already, allocate a new one before
|
---|
4273 | * we copy of the data.
|
---|
4274 | */
|
---|
4275 | PPDMSCATTERGATHER pTxSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4276 | if (!pTxSg)
|
---|
4277 | {
|
---|
4278 | e1kXmitAllocBuf(pThis, pThisCC, pThis->u16TxPktLen + (pThis->fVTag ? 4 : 0), true /*fExactSize*/, false /*fGso*/);
|
---|
4279 | pTxSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4280 | }
|
---|
4281 | if (pTxSg)
|
---|
4282 | {
|
---|
4283 | Assert(pThis->u16TxPktLen <= pThisCC->CTX_SUFF(pTxSg)->cbAvailable);
|
---|
4284 | Assert(pTxSg->cSegs == 1);
|
---|
4285 | if (pThis->CCCTX_SUFF(pTxSg)->aSegs[0].pvSeg != pThis->aTxPacketFallback)
|
---|
4286 | memcpy(pTxSg->aSegs[0].pvSeg, pThis->aTxPacketFallback, pThis->u16TxPktLen);
|
---|
4287 | pTxSg->cbUsed = pThis->u16TxPktLen;
|
---|
4288 | pTxSg->aSegs[0].cbSeg = pThis->u16TxPktLen;
|
---|
4289 | }
|
---|
4290 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
4291 |
|
---|
4292 | /* Update Sequence Number */
|
---|
4293 | pTcpHdr->seqno = htonl(ntohl(pTcpHdr->seqno) + pThis->u16TxPktLen
|
---|
4294 | - pThis->contextTSE.dw3.u8HDRLEN);
|
---|
4295 | /* Increment IP identification */
|
---|
4296 | pIpHdr->ident = htons(ntohs(pIpHdr->ident) + 1);
|
---|
4297 | }
|
---|
4298 | }
|
---|
4299 | #else /* E1K_WITH_TXD_CACHE */
|
---|
4300 | static int e1kFallbackAddSegment(PPDMDEVINS pDevIns, PE1KSTATE pThis, RTGCPHYS PhysAddr, uint16_t u16Len, bool fSend, bool fOnWorkerThread)
|
---|
4301 | {
|
---|
4302 | int rc = VINF_SUCCESS;
|
---|
4303 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
4304 | /* TCP header being transmitted */
|
---|
4305 | struct E1kTcpHeader *pTcpHdr = (struct E1kTcpHeader *)(pThis->aTxPacketFallback + pThis->contextTSE.tu.u8CSS);
|
---|
4306 | /* IP header being transmitted */
|
---|
4307 | struct E1kIpHeader *pIpHdr = (struct E1kIpHeader *)(pThis->aTxPacketFallback + pThis->contextTSE.ip.u8CSS);
|
---|
4308 |
|
---|
4309 | E1kLog3(("%s e1kFallbackAddSegment: Length=%x, remaining payload=%x, header=%x, send=%RTbool\n",
|
---|
4310 | pThis->szPrf, u16Len, pThis->u32PayRemain, pThis->u16HdrRemain, fSend));
|
---|
4311 | AssertReturn(pThis->u32PayRemain + pThis->u16HdrRemain > 0, VINF_SUCCESS);
|
---|
4312 |
|
---|
4313 | if (pThis->u16TxPktLen + u16Len <= sizeof(pThis->aTxPacketFallback))
|
---|
4314 | PDMDevHlpPhysRead(pDevIns, PhysAddr, pThis->aTxPacketFallback + pThis->u16TxPktLen, u16Len);
|
---|
4315 | else
|
---|
4316 | E1kLog(("%s e1kFallbackAddSegment: writing beyond aTxPacketFallback, u16TxPktLen=%d(0x%x) + u16Len=%d(0x%x) > %d\n",
|
---|
4317 | pThis->szPrf, pThis->u16TxPktLen, pThis->u16TxPktLen, u16Len, u16Len, sizeof(pThis->aTxPacketFallback)));
|
---|
4318 | E1kLog3(("%s Dump of the segment:\n"
|
---|
4319 | "%.*Rhxd\n"
|
---|
4320 | "%s --- End of dump ---\n",
|
---|
4321 | pThis->szPrf, u16Len, pThis->aTxPacketFallback + pThis->u16TxPktLen, pThis->szPrf));
|
---|
4322 | pThis->u16TxPktLen += u16Len;
|
---|
4323 | E1kLog3(("%s e1kFallbackAddSegment: pThis->u16TxPktLen=%x\n",
|
---|
4324 | pThis->szPrf, pThis->u16TxPktLen));
|
---|
4325 | if (pThis->u16HdrRemain > 0)
|
---|
4326 | {
|
---|
4327 | /* The header was not complete, check if it is now */
|
---|
4328 | if (u16Len >= pThis->u16HdrRemain)
|
---|
4329 | {
|
---|
4330 | /* The rest is payload */
|
---|
4331 | u16Len -= pThis->u16HdrRemain;
|
---|
4332 | pThis->u16HdrRemain = 0;
|
---|
4333 | /* Save partial checksum and flags */
|
---|
4334 | pThis->u32SavedCsum = pTcpHdr->chksum;
|
---|
4335 | pThis->u16SavedFlags = pTcpHdr->hdrlen_flags;
|
---|
4336 | /* Clear FIN and PSH flags now and set them only in the last segment */
|
---|
4337 | pTcpHdr->hdrlen_flags &= ~htons(E1K_TCP_FIN | E1K_TCP_PSH);
|
---|
4338 | }
|
---|
4339 | else
|
---|
4340 | {
|
---|
4341 | /* Still not */
|
---|
4342 | pThis->u16HdrRemain -= u16Len;
|
---|
4343 | E1kLog3(("%s e1kFallbackAddSegment: Header is still incomplete, 0x%x bytes remain.\n",
|
---|
4344 | pThis->szPrf, pThis->u16HdrRemain));
|
---|
4345 | return rc;
|
---|
4346 | }
|
---|
4347 | }
|
---|
4348 |
|
---|
4349 | if (u16Len > pThis->u32PayRemain)
|
---|
4350 | pThis->u32PayRemain = 0;
|
---|
4351 | else
|
---|
4352 | pThis->u32PayRemain -= u16Len;
|
---|
4353 |
|
---|
4354 | if (fSend)
|
---|
4355 | {
|
---|
4356 | /* Leave ethernet header intact */
|
---|
4357 | /* IP Total Length = payload + headers - ethernet header */
|
---|
4358 | pIpHdr->total_len = htons(pThis->u16TxPktLen - pThis->contextTSE.ip.u8CSS);
|
---|
4359 | E1kLog3(("%s e1kFallbackAddSegment: End of packet, pIpHdr->total_len=%x\n",
|
---|
4360 | pThis->szPrf, ntohs(pIpHdr->total_len)));
|
---|
4361 | /* Update IP Checksum */
|
---|
4362 | pIpHdr->chksum = 0;
|
---|
4363 | e1kInsertChecksum(pThis, pThis->aTxPacketFallback, pThis->u16TxPktLen,
|
---|
4364 | pThis->contextTSE.ip.u8CSO,
|
---|
4365 | pThis->contextTSE.ip.u8CSS,
|
---|
4366 | pThis->contextTSE.ip.u16CSE);
|
---|
4367 |
|
---|
4368 | /* Update TCP flags */
|
---|
4369 | /* Restore original FIN and PSH flags for the last segment */
|
---|
4370 | if (pThis->u32PayRemain == 0)
|
---|
4371 | {
|
---|
4372 | pTcpHdr->hdrlen_flags = pThis->u16SavedFlags;
|
---|
4373 | E1K_INC_CNT32(TSCTC);
|
---|
4374 | }
|
---|
4375 | /* Add TCP length to partial pseudo header sum */
|
---|
4376 | uint32_t csum = pThis->u32SavedCsum
|
---|
4377 | + htons(pThis->u16TxPktLen - pThis->contextTSE.tu.u8CSS);
|
---|
4378 | while (csum >> 16)
|
---|
4379 | csum = (csum >> 16) + (csum & 0xFFFF);
|
---|
4380 | pTcpHdr->chksum = csum;
|
---|
4381 | /* Compute final checksum */
|
---|
4382 | e1kInsertChecksum(pThis, pThis->aTxPacketFallback, pThis->u16TxPktLen,
|
---|
4383 | pThis->contextTSE.tu.u8CSO,
|
---|
4384 | pThis->contextTSE.tu.u8CSS,
|
---|
4385 | pThis->contextTSE.tu.u16CSE);
|
---|
4386 |
|
---|
4387 | /*
|
---|
4388 | * Transmit it.
|
---|
4389 | */
|
---|
4390 | PPDMSCATTERGATHER pTxSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4391 | if (pTxSg)
|
---|
4392 | {
|
---|
4393 | /* Make sure the packet fits into the allocated buffer */
|
---|
4394 | size_t cbCopy = RT_MIN(pThis->u16TxPktLen, pThisCC->CTX_SUFF(pTxSg)->cbAvailable);
|
---|
4395 | #ifdef DEBUG
|
---|
4396 | if (pThis->u16TxPktLen > pTxSg->cbAvailable)
|
---|
4397 | E1kLog(("%s e1kFallbackAddSegment: truncating packet, u16TxPktLen=%d(0x%x) > cbAvailable=%d(0x%x)\n",
|
---|
4398 | pThis->szPrf, pThis->u16TxPktLen, pThis->u16TxPktLen, pTxSg->cbAvailable, pTxSg->cbAvailable));
|
---|
4399 | #endif /* DEBUG */
|
---|
4400 | Assert(pTxSg->cSegs == 1);
|
---|
4401 | if (pTxSg->aSegs[0].pvSeg != pThis->aTxPacketFallback)
|
---|
4402 | memcpy(pTxSg->aSegs[0].pvSeg, pThis->aTxPacketFallback, cbCopy);
|
---|
4403 | pTxSg->cbUsed = cbCopy;
|
---|
4404 | pTxSg->aSegs[0].cbSeg = cbCopy;
|
---|
4405 | }
|
---|
4406 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
4407 |
|
---|
4408 | /* Update Sequence Number */
|
---|
4409 | pTcpHdr->seqno = htonl(ntohl(pTcpHdr->seqno) + pThis->u16TxPktLen
|
---|
4410 | - pThis->contextTSE.dw3.u8HDRLEN);
|
---|
4411 | /* Increment IP identification */
|
---|
4412 | pIpHdr->ident = htons(ntohs(pIpHdr->ident) + 1);
|
---|
4413 |
|
---|
4414 | /* Allocate new buffer for the next segment. */
|
---|
4415 | if (pThis->u32PayRemain)
|
---|
4416 | {
|
---|
4417 | pThis->cbTxAlloc = RT_MIN(pThis->u32PayRemain,
|
---|
4418 | pThis->contextTSE.dw3.u16MSS)
|
---|
4419 | + pThis->contextTSE.dw3.u8HDRLEN
|
---|
4420 | + (pThis->fVTag ? 4 : 0);
|
---|
4421 | rc = e1kXmitAllocBuf(pThis, pThisCC, false /* fGSO */);
|
---|
4422 | }
|
---|
4423 | }
|
---|
4424 |
|
---|
4425 | return rc;
|
---|
4426 | }
|
---|
4427 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
4428 |
|
---|
4429 | #ifndef E1K_WITH_TXD_CACHE
|
---|
4430 | /**
|
---|
4431 | * TCP segmentation offloading fallback: Add descriptor's buffer to transmit
|
---|
4432 | * frame.
|
---|
4433 | *
|
---|
4434 | * We construct the frame in the fallback buffer first and the copy it to the SG
|
---|
4435 | * buffer before passing it down to the network driver code.
|
---|
4436 | *
|
---|
4437 | * @returns true if the frame should be transmitted, false if not.
|
---|
4438 | *
|
---|
4439 | * @param pThis The device state structure.
|
---|
4440 | * @param pDesc Pointer to the descriptor to transmit.
|
---|
4441 | * @param cbFragment Length of descriptor's buffer.
|
---|
4442 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4443 | * @thread E1000_TX
|
---|
4444 | */
|
---|
4445 | static bool e1kFallbackAddToFrame(PE1KSTATE pThis, E1KTXDESC *pDesc, uint32_t cbFragment, bool fOnWorkerThread)
|
---|
4446 | {
|
---|
4447 | PPDMSCATTERGATHER pTxSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4448 | Assert(e1kGetDescType(pDesc) == E1K_DTYP_DATA);
|
---|
4449 | Assert(pDesc->data.cmd.fTSE);
|
---|
4450 | Assert(!e1kXmitIsGsoBuf(pTxSg));
|
---|
4451 |
|
---|
4452 | uint16_t u16MaxPktLen = pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw3.u16MSS;
|
---|
4453 | Assert(u16MaxPktLen != 0);
|
---|
4454 | Assert(u16MaxPktLen < E1K_MAX_TX_PKT_SIZE);
|
---|
4455 |
|
---|
4456 | /*
|
---|
4457 | * Carve out segments.
|
---|
4458 | */
|
---|
4459 | do
|
---|
4460 | {
|
---|
4461 | /* Calculate how many bytes we have left in this TCP segment */
|
---|
4462 | uint32_t cb = u16MaxPktLen - pThis->u16TxPktLen;
|
---|
4463 | if (cb > cbFragment)
|
---|
4464 | {
|
---|
4465 | /* This descriptor fits completely into current segment */
|
---|
4466 | cb = cbFragment;
|
---|
4467 | e1kFallbackAddSegment(pDevIns, pThis, pDesc->data.u64BufAddr, cb, pDesc->data.cmd.fEOP /*fSend*/, fOnWorkerThread);
|
---|
4468 | }
|
---|
4469 | else
|
---|
4470 | {
|
---|
4471 | e1kFallbackAddSegment(pDevIns, pThis, pDesc->data.u64BufAddr, cb, true /*fSend*/, fOnWorkerThread);
|
---|
4472 | /*
|
---|
4473 | * Rewind the packet tail pointer to the beginning of payload,
|
---|
4474 | * so we continue writing right beyond the header.
|
---|
4475 | */
|
---|
4476 | pThis->u16TxPktLen = pThis->contextTSE.dw3.u8HDRLEN;
|
---|
4477 | }
|
---|
4478 |
|
---|
4479 | pDesc->data.u64BufAddr += cb;
|
---|
4480 | cbFragment -= cb;
|
---|
4481 | } while (cbFragment > 0);
|
---|
4482 |
|
---|
4483 | if (pDesc->data.cmd.fEOP)
|
---|
4484 | {
|
---|
4485 | /* End of packet, next segment will contain header. */
|
---|
4486 | if (pThis->u32PayRemain != 0)
|
---|
4487 | E1K_INC_CNT32(TSCTFC);
|
---|
4488 | pThis->u16TxPktLen = 0;
|
---|
4489 | e1kXmitFreeBuf(pThis, PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC));
|
---|
4490 | }
|
---|
4491 |
|
---|
4492 | return false;
|
---|
4493 | }
|
---|
4494 | #else /* E1K_WITH_TXD_CACHE */
|
---|
4495 | /**
|
---|
4496 | * TCP segmentation offloading fallback: Add descriptor's buffer to transmit
|
---|
4497 | * frame.
|
---|
4498 | *
|
---|
4499 | * We construct the frame in the fallback buffer first and the copy it to the SG
|
---|
4500 | * buffer before passing it down to the network driver code.
|
---|
4501 | *
|
---|
4502 | * @returns error code
|
---|
4503 | *
|
---|
4504 | * @param pDevIns The device instance.
|
---|
4505 | * @param pThis The device state structure.
|
---|
4506 | * @param pDesc Pointer to the descriptor to transmit.
|
---|
4507 | * @param cbFragment Length of descriptor's buffer.
|
---|
4508 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4509 | * @thread E1000_TX
|
---|
4510 | */
|
---|
4511 | static int e1kFallbackAddToFrame(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KTXDESC *pDesc, bool fOnWorkerThread)
|
---|
4512 | {
|
---|
4513 | #ifdef VBOX_STRICT
|
---|
4514 | PPDMSCATTERGATHER pTxSg = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC)->CTX_SUFF(pTxSg);
|
---|
4515 | Assert(e1kGetDescType(pDesc) == E1K_DTYP_DATA);
|
---|
4516 | Assert(pDesc->data.cmd.fTSE);
|
---|
4517 | Assert(!e1kXmitIsGsoBuf(pTxSg));
|
---|
4518 | #endif
|
---|
4519 |
|
---|
4520 | uint16_t u16MaxPktLen = pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw3.u16MSS;
|
---|
4521 | /* We cannot produce empty packets, ignore all TX descriptors (see @bugref{9571}) */
|
---|
4522 | if (u16MaxPktLen == 0)
|
---|
4523 | return VINF_SUCCESS;
|
---|
4524 |
|
---|
4525 | /*
|
---|
4526 | * Carve out segments.
|
---|
4527 | */
|
---|
4528 | int rc = VINF_SUCCESS;
|
---|
4529 | do
|
---|
4530 | {
|
---|
4531 | /* Calculate how many bytes we have left in this TCP segment */
|
---|
4532 | uint32_t cb = u16MaxPktLen - pThis->u16TxPktLen;
|
---|
4533 | if (cb > pDesc->data.cmd.u20DTALEN)
|
---|
4534 | {
|
---|
4535 | /* This descriptor fits completely into current segment */
|
---|
4536 | cb = pDesc->data.cmd.u20DTALEN;
|
---|
4537 | rc = e1kFallbackAddSegment(pDevIns, pThis, pDesc->data.u64BufAddr, cb, pDesc->data.cmd.fEOP /*fSend*/, fOnWorkerThread);
|
---|
4538 | }
|
---|
4539 | else
|
---|
4540 | {
|
---|
4541 | rc = e1kFallbackAddSegment(pDevIns, pThis, pDesc->data.u64BufAddr, cb, true /*fSend*/, fOnWorkerThread);
|
---|
4542 | /*
|
---|
4543 | * Rewind the packet tail pointer to the beginning of payload,
|
---|
4544 | * so we continue writing right beyond the header.
|
---|
4545 | */
|
---|
4546 | pThis->u16TxPktLen = pThis->contextTSE.dw3.u8HDRLEN;
|
---|
4547 | }
|
---|
4548 |
|
---|
4549 | pDesc->data.u64BufAddr += cb;
|
---|
4550 | pDesc->data.cmd.u20DTALEN -= cb;
|
---|
4551 | } while (pDesc->data.cmd.u20DTALEN > 0 && RT_SUCCESS(rc));
|
---|
4552 |
|
---|
4553 | if (pDesc->data.cmd.fEOP)
|
---|
4554 | {
|
---|
4555 | /* End of packet, next segment will contain header. */
|
---|
4556 | if (pThis->u32PayRemain != 0)
|
---|
4557 | E1K_INC_CNT32(TSCTFC);
|
---|
4558 | pThis->u16TxPktLen = 0;
|
---|
4559 | e1kXmitFreeBuf(pThis, PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC));
|
---|
4560 | }
|
---|
4561 |
|
---|
4562 | return VINF_SUCCESS; /// @todo consider rc;
|
---|
4563 | }
|
---|
4564 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
4565 |
|
---|
4566 |
|
---|
4567 | /**
|
---|
4568 | * Add descriptor's buffer to transmit frame.
|
---|
4569 | *
|
---|
4570 | * This deals with GSO and normal frames, e1kFallbackAddToFrame deals with the
|
---|
4571 | * TSE frames we cannot handle as GSO.
|
---|
4572 | *
|
---|
4573 | * @returns true on success, false on failure.
|
---|
4574 | *
|
---|
4575 | * @param pDevIns The device instance.
|
---|
4576 | * @param pThisCC The current context instance data.
|
---|
4577 | * @param pThis The device state structure.
|
---|
4578 | * @param PhysAddr The physical address of the descriptor buffer.
|
---|
4579 | * @param cbFragment Length of descriptor's buffer.
|
---|
4580 | * @thread E1000_TX
|
---|
4581 | */
|
---|
4582 | static bool e1kAddToFrame(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC, RTGCPHYS PhysAddr, uint32_t cbFragment)
|
---|
4583 | {
|
---|
4584 | PPDMSCATTERGATHER pTxSg = pThisCC->CTX_SUFF(pTxSg);
|
---|
4585 | bool const fGso = e1kXmitIsGsoBuf(pTxSg);
|
---|
4586 | uint32_t const cbNewPkt = cbFragment + pThis->u16TxPktLen;
|
---|
4587 |
|
---|
4588 | LogFlow(("%s e1kAddToFrame: ENTER cbFragment=%d u16TxPktLen=%d cbUsed=%d cbAvailable=%d fGSO=%s\n",
|
---|
4589 | pThis->szPrf, cbFragment, pThis->u16TxPktLen, pTxSg->cbUsed, pTxSg->cbAvailable,
|
---|
4590 | fGso ? "true" : "false"));
|
---|
4591 | if (RT_UNLIKELY( !fGso && cbNewPkt > E1K_MAX_TX_PKT_SIZE ))
|
---|
4592 | {
|
---|
4593 | E1kLog(("%s Transmit packet is too large: %u > %u(max)\n", pThis->szPrf, cbNewPkt, E1K_MAX_TX_PKT_SIZE));
|
---|
4594 | return false;
|
---|
4595 | }
|
---|
4596 | if (RT_UNLIKELY( cbNewPkt > pTxSg->cbAvailable ))
|
---|
4597 | {
|
---|
4598 | E1kLog(("%s Transmit packet is too large: %u > %u(max)\n", pThis->szPrf, cbNewPkt, pTxSg->cbAvailable));
|
---|
4599 | return false;
|
---|
4600 | }
|
---|
4601 |
|
---|
4602 | if (RT_LIKELY(pTxSg))
|
---|
4603 | {
|
---|
4604 | Assert(pTxSg->cSegs == 1);
|
---|
4605 | if (pTxSg->cbUsed != pThis->u16TxPktLen)
|
---|
4606 | E1kLog(("%s e1kAddToFrame: pTxSg->cbUsed=%d(0x%x) != u16TxPktLen=%d(0x%x)\n",
|
---|
4607 | pThis->szPrf, pTxSg->cbUsed, pTxSg->cbUsed, pThis->u16TxPktLen, pThis->u16TxPktLen));
|
---|
4608 |
|
---|
4609 | PDMDevHlpPhysRead(pDevIns, PhysAddr, (uint8_t *)pTxSg->aSegs[0].pvSeg + pThis->u16TxPktLen, cbFragment);
|
---|
4610 |
|
---|
4611 | pTxSg->cbUsed = cbNewPkt;
|
---|
4612 | }
|
---|
4613 | pThis->u16TxPktLen = cbNewPkt;
|
---|
4614 |
|
---|
4615 | return true;
|
---|
4616 | }
|
---|
4617 |
|
---|
4618 |
|
---|
4619 | /**
|
---|
4620 | * Write the descriptor back to guest memory and notify the guest.
|
---|
4621 | *
|
---|
4622 | * @param pThis The device state structure.
|
---|
4623 | * @param pDesc Pointer to the descriptor have been transmitted.
|
---|
4624 | * @param addr Physical address of the descriptor in guest memory.
|
---|
4625 | * @thread E1000_TX
|
---|
4626 | */
|
---|
4627 | static void e1kDescReport(PPDMDEVINS pDevIns, PE1KSTATE pThis, E1KTXDESC *pDesc, RTGCPHYS addr)
|
---|
4628 | {
|
---|
4629 | /*
|
---|
4630 | * We fake descriptor write-back bursting. Descriptors are written back as they are
|
---|
4631 | * processed.
|
---|
4632 | */
|
---|
4633 | /* Let's pretend we process descriptors. Write back with DD set. */
|
---|
4634 | /*
|
---|
4635 | * Prior to r71586 we tried to accomodate the case when write-back bursts
|
---|
4636 | * are enabled without actually implementing bursting by writing back all
|
---|
4637 | * descriptors, even the ones that do not have RS set. This caused kernel
|
---|
4638 | * panics with Linux SMP kernels, as the e1000 driver tried to free up skb
|
---|
4639 | * associated with written back descriptor if it happened to be a context
|
---|
4640 | * descriptor since context descriptors do not have skb associated to them.
|
---|
4641 | * Starting from r71586 we write back only the descriptors with RS set,
|
---|
4642 | * which is a little bit different from what the real hardware does in
|
---|
4643 | * case there is a chain of data descritors where some of them have RS set
|
---|
4644 | * and others do not. It is very uncommon scenario imho.
|
---|
4645 | * We need to check RPS as well since some legacy drivers use it instead of
|
---|
4646 | * RS even with newer cards.
|
---|
4647 | */
|
---|
4648 | if (pDesc->legacy.cmd.fRS || pDesc->legacy.cmd.fRPS)
|
---|
4649 | {
|
---|
4650 | pDesc->legacy.dw3.fDD = 1; /* Descriptor Done */
|
---|
4651 | e1kWriteBackDesc(pDevIns, pThis, pDesc, addr);
|
---|
4652 | if (pDesc->legacy.cmd.fEOP)
|
---|
4653 | {
|
---|
4654 | //#ifdef E1K_USE_TX_TIMERS
|
---|
4655 | if (pThis->fTidEnabled && pDesc->legacy.cmd.fIDE)
|
---|
4656 | {
|
---|
4657 | E1K_INC_ISTAT_CNT(pThis->uStatTxIDE);
|
---|
4658 | //if (pThis->fIntRaised)
|
---|
4659 | //{
|
---|
4660 | // /* Interrupt is already pending, no need for timers */
|
---|
4661 | // ICR |= ICR_TXDW;
|
---|
4662 | //}
|
---|
4663 | //else {
|
---|
4664 | /* Arm the timer to fire in TIVD usec (discard .024) */
|
---|
4665 | e1kArmTimer(pDevIns, pThis, pThis->hTIDTimer, TIDV);
|
---|
4666 | # ifndef E1K_NO_TAD
|
---|
4667 | /* If absolute timer delay is enabled and the timer is not running yet, arm it. */
|
---|
4668 | E1kLog2(("%s Checking if TAD timer is running\n",
|
---|
4669 | pThis->szPrf));
|
---|
4670 | if (TADV != 0 && !PDMDevHlpTimerIsActive(pDevIns, pThis->hTADTimer))
|
---|
4671 | e1kArmTimer(pDevIns, pThis, pThis->hTADTimer, TADV);
|
---|
4672 | # endif /* E1K_NO_TAD */
|
---|
4673 | }
|
---|
4674 | else
|
---|
4675 | {
|
---|
4676 | if (pThis->fTidEnabled)
|
---|
4677 | {
|
---|
4678 | E1kLog2(("%s No IDE set, cancel TAD timer and raise interrupt\n",
|
---|
4679 | pThis->szPrf));
|
---|
4680 | /* Cancel both timers if armed and fire immediately. */
|
---|
4681 | # ifndef E1K_NO_TAD
|
---|
4682 | PDMDevHlpTimerStop(pDevIns, pThis->hTADTimer);
|
---|
4683 | # endif
|
---|
4684 | PDMDevHlpTimerStop(pDevIns, pThis->hTIDTimer);
|
---|
4685 | }
|
---|
4686 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
4687 | E1K_INC_ISTAT_CNT(pThis->uStatIntTx);
|
---|
4688 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_TXDW);
|
---|
4689 | //#ifdef E1K_USE_TX_TIMERS
|
---|
4690 | }
|
---|
4691 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
4692 | }
|
---|
4693 | }
|
---|
4694 | else
|
---|
4695 | {
|
---|
4696 | E1K_INC_ISTAT_CNT(pThis->uStatTxNoRS);
|
---|
4697 | }
|
---|
4698 | }
|
---|
4699 |
|
---|
4700 | #ifndef E1K_WITH_TXD_CACHE
|
---|
4701 |
|
---|
4702 | /**
|
---|
4703 | * Process Transmit Descriptor.
|
---|
4704 | *
|
---|
4705 | * E1000 supports three types of transmit descriptors:
|
---|
4706 | * - legacy data descriptors of older format (context-less).
|
---|
4707 | * - data the same as legacy but providing new offloading capabilities.
|
---|
4708 | * - context sets up the context for following data descriptors.
|
---|
4709 | *
|
---|
4710 | * @param pDevIns The device instance.
|
---|
4711 | * @param pThis The device state structure.
|
---|
4712 | * @param pThisCC The current context instance data.
|
---|
4713 | * @param pDesc Pointer to descriptor union.
|
---|
4714 | * @param addr Physical address of descriptor in guest memory.
|
---|
4715 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4716 | * @thread E1000_TX
|
---|
4717 | */
|
---|
4718 | static int e1kXmitDesc(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC, E1KTXDESC *pDesc,
|
---|
4719 | RTGCPHYS addr, bool fOnWorkerThread)
|
---|
4720 | {
|
---|
4721 | int rc = VINF_SUCCESS;
|
---|
4722 | uint32_t cbVTag = 0;
|
---|
4723 |
|
---|
4724 | e1kPrintTDesc(pThis, pDesc, "vvv");
|
---|
4725 |
|
---|
4726 | //#ifdef E1K_USE_TX_TIMERS
|
---|
4727 | if (pThis->fTidEnabled)
|
---|
4728 | e1kCancelTimer(pDevIns, pThis, pThis->hTIDTimer);
|
---|
4729 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
4730 |
|
---|
4731 | switch (e1kGetDescType(pDesc))
|
---|
4732 | {
|
---|
4733 | case E1K_DTYP_CONTEXT:
|
---|
4734 | if (pDesc->context.dw2.fTSE)
|
---|
4735 | {
|
---|
4736 | pThis->contextTSE = pDesc->context;
|
---|
4737 | pThis->u32PayRemain = pDesc->context.dw2.u20PAYLEN;
|
---|
4738 | pThis->u16HdrRemain = pDesc->context.dw3.u8HDRLEN;
|
---|
4739 | e1kSetupGsoCtx(&pThis->GsoCtx, &pDesc->context);
|
---|
4740 | STAM_COUNTER_INC(&pThis->StatTxDescCtxTSE);
|
---|
4741 | }
|
---|
4742 | else
|
---|
4743 | {
|
---|
4744 | pThis->contextNormal = pDesc->context;
|
---|
4745 | STAM_COUNTER_INC(&pThis->StatTxDescCtxNormal);
|
---|
4746 | }
|
---|
4747 | E1kLog2(("%s %s context updated: IP CSS=%02X, IP CSO=%02X, IP CSE=%04X"
|
---|
4748 | ", TU CSS=%02X, TU CSO=%02X, TU CSE=%04X\n", pThis->szPrf,
|
---|
4749 | pDesc->context.dw2.fTSE ? "TSE" : "Normal",
|
---|
4750 | pDesc->context.ip.u8CSS,
|
---|
4751 | pDesc->context.ip.u8CSO,
|
---|
4752 | pDesc->context.ip.u16CSE,
|
---|
4753 | pDesc->context.tu.u8CSS,
|
---|
4754 | pDesc->context.tu.u8CSO,
|
---|
4755 | pDesc->context.tu.u16CSE));
|
---|
4756 | E1K_INC_ISTAT_CNT(pThis->uStatDescCtx);
|
---|
4757 | e1kDescReport(pThis, pDesc, addr);
|
---|
4758 | break;
|
---|
4759 |
|
---|
4760 | case E1K_DTYP_DATA:
|
---|
4761 | {
|
---|
4762 | if (pDesc->data.cmd.u20DTALEN == 0 || pDesc->data.u64BufAddr == 0)
|
---|
4763 | {
|
---|
4764 | E1kLog2(("% Empty data descriptor, skipped.\n", pThis->szPrf));
|
---|
4765 | /** @todo Same as legacy when !TSE. See below. */
|
---|
4766 | break;
|
---|
4767 | }
|
---|
4768 | STAM_COUNTER_INC(pDesc->data.cmd.fTSE?
|
---|
4769 | &pThis->StatTxDescTSEData:
|
---|
4770 | &pThis->StatTxDescData);
|
---|
4771 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4772 | E1K_INC_ISTAT_CNT(pThis->uStatDescDat);
|
---|
4773 |
|
---|
4774 | /*
|
---|
4775 | * The last descriptor of non-TSE packet must contain VLE flag.
|
---|
4776 | * TSE packets have VLE flag in the first descriptor. The later
|
---|
4777 | * case is taken care of a bit later when cbVTag gets assigned.
|
---|
4778 | *
|
---|
4779 | * 1) pDesc->data.cmd.fEOP && !pDesc->data.cmd.fTSE
|
---|
4780 | */
|
---|
4781 | if (pDesc->data.cmd.fEOP && !pDesc->data.cmd.fTSE)
|
---|
4782 | {
|
---|
4783 | pThis->fVTag = pDesc->data.cmd.fVLE;
|
---|
4784 | pThis->u16VTagTCI = pDesc->data.dw3.u16Special;
|
---|
4785 | }
|
---|
4786 | /*
|
---|
4787 | * First fragment: Allocate new buffer and save the IXSM and TXSM
|
---|
4788 | * packet options as these are only valid in the first fragment.
|
---|
4789 | */
|
---|
4790 | if (pThis->u16TxPktLen == 0)
|
---|
4791 | {
|
---|
4792 | pThis->fIPcsum = pDesc->data.dw3.fIXSM;
|
---|
4793 | pThis->fTCPcsum = pDesc->data.dw3.fTXSM;
|
---|
4794 | E1kLog2(("%s Saving checksum flags:%s%s; \n", pThis->szPrf,
|
---|
4795 | pThis->fIPcsum ? " IP" : "",
|
---|
4796 | pThis->fTCPcsum ? " TCP/UDP" : ""));
|
---|
4797 | if (pDesc->data.cmd.fTSE)
|
---|
4798 | {
|
---|
4799 | /* 2) pDesc->data.cmd.fTSE && pThis->u16TxPktLen == 0 */
|
---|
4800 | pThis->fVTag = pDesc->data.cmd.fVLE;
|
---|
4801 | pThis->u16VTagTCI = pDesc->data.dw3.u16Special;
|
---|
4802 | cbVTag = pThis->fVTag ? 4 : 0;
|
---|
4803 | }
|
---|
4804 | else if (pDesc->data.cmd.fEOP)
|
---|
4805 | cbVTag = pDesc->data.cmd.fVLE ? 4 : 0;
|
---|
4806 | else
|
---|
4807 | cbVTag = 4;
|
---|
4808 | E1kLog3(("%s About to allocate TX buffer: cbVTag=%u\n", pThis->szPrf, cbVTag));
|
---|
4809 | if (e1kCanDoGso(pThis, &pThis->GsoCtx, &pDesc->data, &pThis->contextTSE))
|
---|
4810 | rc = e1kXmitAllocBuf(pThis, pThisCC, pThis->contextTSE.dw2.u20PAYLEN + pThis->contextTSE.dw3.u8HDRLEN + cbVTag,
|
---|
4811 | true /*fExactSize*/, true /*fGso*/);
|
---|
4812 | else if (pDesc->data.cmd.fTSE)
|
---|
4813 | rc = e1kXmitAllocBuf(pThis, pThisCC, , pThis->contextTSE.dw3.u16MSS + pThis->contextTSE.dw3.u8HDRLEN + cbVTag,
|
---|
4814 | pDesc->data.cmd.fTSE /*fExactSize*/, false /*fGso*/);
|
---|
4815 | else
|
---|
4816 | rc = e1kXmitAllocBuf(pThis, pThisCC, pDesc->data.cmd.u20DTALEN + cbVTag,
|
---|
4817 | pDesc->data.cmd.fEOP /*fExactSize*/, false /*fGso*/);
|
---|
4818 |
|
---|
4819 | /**
|
---|
4820 | * @todo: Perhaps it is not that simple for GSO packets! We may
|
---|
4821 | * need to unwind some changes.
|
---|
4822 | */
|
---|
4823 | if (RT_FAILURE(rc))
|
---|
4824 | {
|
---|
4825 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4826 | break;
|
---|
4827 | }
|
---|
4828 | /** @todo Is there any way to indicating errors other than collisions? Like
|
---|
4829 | * VERR_NET_DOWN. */
|
---|
4830 | }
|
---|
4831 |
|
---|
4832 | /*
|
---|
4833 | * Add the descriptor data to the frame. If the frame is complete,
|
---|
4834 | * transmit it and reset the u16TxPktLen field.
|
---|
4835 | */
|
---|
4836 | if (e1kXmitIsGsoBuf(pThisCC->CTX_SUFF(pTxSg)))
|
---|
4837 | {
|
---|
4838 | STAM_COUNTER_INC(&pThis->StatTxPathGSO);
|
---|
4839 | bool fRc = e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->data.cmd.u20DTALEN);
|
---|
4840 | if (pDesc->data.cmd.fEOP)
|
---|
4841 | {
|
---|
4842 | if ( fRc
|
---|
4843 | && pThisCC->CTX_SUFF(pTxSg)
|
---|
4844 | && pThisCC->CTX_SUFF(pTxSg)->cbUsed == (size_t)pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw2.u20PAYLEN)
|
---|
4845 | {
|
---|
4846 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
4847 | E1K_INC_CNT32(TSCTC);
|
---|
4848 | }
|
---|
4849 | else
|
---|
4850 | {
|
---|
4851 | if (fRc)
|
---|
4852 | E1kLog(("%s bad GSO/TSE %p or %u < %u\n" , pThis->szPrf,
|
---|
4853 | pThisCC->CTX_SUFF(pTxSg), pThisCC->CTX_SUFF(pTxSg) ? pThisCC->CTX_SUFF(pTxSg)->cbUsed : 0,
|
---|
4854 | pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw2.u20PAYLEN));
|
---|
4855 | e1kXmitFreeBuf(pThis);
|
---|
4856 | E1K_INC_CNT32(TSCTFC);
|
---|
4857 | }
|
---|
4858 | pThis->u16TxPktLen = 0;
|
---|
4859 | }
|
---|
4860 | }
|
---|
4861 | else if (!pDesc->data.cmd.fTSE)
|
---|
4862 | {
|
---|
4863 | STAM_COUNTER_INC(&pThis->StatTxPathRegular);
|
---|
4864 | bool fRc = e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->data.cmd.u20DTALEN);
|
---|
4865 | if (pDesc->data.cmd.fEOP)
|
---|
4866 | {
|
---|
4867 | if (fRc && pThisCC->CTX_SUFF(pTxSg))
|
---|
4868 | {
|
---|
4869 | Assert(pThisCC->CTX_SUFF(pTxSg)->cSegs == 1);
|
---|
4870 | if (pThis->fIPcsum)
|
---|
4871 | e1kInsertChecksum(pThis, (uint8_t *)pThisCC->CTX_SUFF(pTxSg)->aSegs[0].pvSeg, pThis->u16TxPktLen,
|
---|
4872 | pThis->contextNormal.ip.u8CSO,
|
---|
4873 | pThis->contextNormal.ip.u8CSS,
|
---|
4874 | pThis->contextNormal.ip.u16CSE);
|
---|
4875 | if (pThis->fTCPcsum)
|
---|
4876 | e1kInsertChecksum(pThis, (uint8_t *)pThisCC->CTX_SUFF(pTxSg)->aSegs[0].pvSeg, pThis->u16TxPktLen,
|
---|
4877 | pThis->contextNormal.tu.u8CSO,
|
---|
4878 | pThis->contextNormal.tu.u8CSS,
|
---|
4879 | pThis->contextNormal.tu.u16CSE);
|
---|
4880 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
4881 | }
|
---|
4882 | else
|
---|
4883 | e1kXmitFreeBuf(pThis);
|
---|
4884 | pThis->u16TxPktLen = 0;
|
---|
4885 | }
|
---|
4886 | }
|
---|
4887 | else
|
---|
4888 | {
|
---|
4889 | STAM_COUNTER_INC(&pThis->StatTxPathFallback);
|
---|
4890 | e1kFallbackAddToFrame(pDevIns, pThis, pDesc, pDesc->data.cmd.u20DTALEN, fOnWorkerThread);
|
---|
4891 | }
|
---|
4892 |
|
---|
4893 | e1kDescReport(pThis, pDesc, addr);
|
---|
4894 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4895 | break;
|
---|
4896 | }
|
---|
4897 |
|
---|
4898 | case E1K_DTYP_LEGACY:
|
---|
4899 | if (pDesc->legacy.cmd.u16Length == 0 || pDesc->legacy.u64BufAddr == 0)
|
---|
4900 | {
|
---|
4901 | E1kLog(("%s Empty legacy descriptor, skipped.\n", pThis->szPrf));
|
---|
4902 | /** @todo 3.3.3, Length/Buffer Address: RS set -> write DD when processing. */
|
---|
4903 | break;
|
---|
4904 | }
|
---|
4905 | STAM_COUNTER_INC(&pThis->StatTxDescLegacy);
|
---|
4906 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4907 |
|
---|
4908 | /* First fragment: allocate new buffer. */
|
---|
4909 | if (pThis->u16TxPktLen == 0)
|
---|
4910 | {
|
---|
4911 | if (pDesc->legacy.cmd.fEOP)
|
---|
4912 | cbVTag = pDesc->legacy.cmd.fVLE ? 4 : 0;
|
---|
4913 | else
|
---|
4914 | cbVTag = 4;
|
---|
4915 | E1kLog3(("%s About to allocate TX buffer: cbVTag=%u\n", pThis->szPrf, cbVTag));
|
---|
4916 | /** @todo reset status bits? */
|
---|
4917 | rc = e1kXmitAllocBuf(pThis, pThisCC, pDesc->legacy.cmd.u16Length + cbVTag, pDesc->legacy.cmd.fEOP, false /*fGso*/);
|
---|
4918 | if (RT_FAILURE(rc))
|
---|
4919 | {
|
---|
4920 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4921 | break;
|
---|
4922 | }
|
---|
4923 |
|
---|
4924 | /** @todo Is there any way to indicating errors other than collisions? Like
|
---|
4925 | * VERR_NET_DOWN. */
|
---|
4926 | }
|
---|
4927 |
|
---|
4928 | /* Add fragment to frame. */
|
---|
4929 | if (e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->legacy.cmd.u16Length))
|
---|
4930 | {
|
---|
4931 | E1K_INC_ISTAT_CNT(pThis->uStatDescLeg);
|
---|
4932 |
|
---|
4933 | /* Last fragment: Transmit and reset the packet storage counter. */
|
---|
4934 | if (pDesc->legacy.cmd.fEOP)
|
---|
4935 | {
|
---|
4936 | pThis->fVTag = pDesc->legacy.cmd.fVLE;
|
---|
4937 | pThis->u16VTagTCI = pDesc->legacy.dw3.u16Special;
|
---|
4938 | /** @todo Offload processing goes here. */
|
---|
4939 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
4940 | pThis->u16TxPktLen = 0;
|
---|
4941 | }
|
---|
4942 | }
|
---|
4943 | /* Last fragment + failure: free the buffer and reset the storage counter. */
|
---|
4944 | else if (pDesc->legacy.cmd.fEOP)
|
---|
4945 | {
|
---|
4946 | e1kXmitFreeBuf(pThis);
|
---|
4947 | pThis->u16TxPktLen = 0;
|
---|
4948 | }
|
---|
4949 |
|
---|
4950 | e1kDescReport(pThis, pDesc, addr);
|
---|
4951 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
4952 | break;
|
---|
4953 |
|
---|
4954 | default:
|
---|
4955 | E1kLog(("%s ERROR Unsupported transmit descriptor type: 0x%04x\n",
|
---|
4956 | pThis->szPrf, e1kGetDescType(pDesc)));
|
---|
4957 | break;
|
---|
4958 | }
|
---|
4959 |
|
---|
4960 | return rc;
|
---|
4961 | }
|
---|
4962 |
|
---|
4963 | #else /* E1K_WITH_TXD_CACHE */
|
---|
4964 |
|
---|
4965 | /**
|
---|
4966 | * Process Transmit Descriptor.
|
---|
4967 | *
|
---|
4968 | * E1000 supports three types of transmit descriptors:
|
---|
4969 | * - legacy data descriptors of older format (context-less).
|
---|
4970 | * - data the same as legacy but providing new offloading capabilities.
|
---|
4971 | * - context sets up the context for following data descriptors.
|
---|
4972 | *
|
---|
4973 | * @param pDevIns The device instance.
|
---|
4974 | * @param pThis The device state structure.
|
---|
4975 | * @param pThisCC The current context instance data.
|
---|
4976 | * @param pDesc Pointer to descriptor union.
|
---|
4977 | * @param addr Physical address of descriptor in guest memory.
|
---|
4978 | * @param fOnWorkerThread Whether we're on a worker thread or an EMT.
|
---|
4979 | * @param cbPacketSize Size of the packet as previously computed.
|
---|
4980 | * @thread E1000_TX
|
---|
4981 | */
|
---|
4982 | static int e1kXmitDesc(PPDMDEVINS pDevIns, PE1KSTATE pThis, PE1KSTATECC pThisCC, E1KTXDESC *pDesc,
|
---|
4983 | RTGCPHYS addr, bool fOnWorkerThread)
|
---|
4984 | {
|
---|
4985 | int rc = VINF_SUCCESS;
|
---|
4986 |
|
---|
4987 | e1kPrintTDesc(pThis, pDesc, "vvv");
|
---|
4988 |
|
---|
4989 | if (pDesc->legacy.dw3.fDD)
|
---|
4990 | {
|
---|
4991 | E1kLog(("%s e1kXmitDesc: skipping bad descriptor ^^^\n", pThis->szPrf));
|
---|
4992 | e1kDescReport(pDevIns, pThis, pDesc, addr);
|
---|
4993 | return VINF_SUCCESS;
|
---|
4994 | }
|
---|
4995 |
|
---|
4996 | //#ifdef E1K_USE_TX_TIMERS
|
---|
4997 | if (pThis->fTidEnabled)
|
---|
4998 | PDMDevHlpTimerStop(pDevIns, pThis->hTIDTimer);
|
---|
4999 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
5000 |
|
---|
5001 | switch (e1kGetDescType(pDesc))
|
---|
5002 | {
|
---|
5003 | case E1K_DTYP_CONTEXT:
|
---|
5004 | /* The caller have already updated the context */
|
---|
5005 | E1K_INC_ISTAT_CNT(pThis->uStatDescCtx);
|
---|
5006 | e1kDescReport(pDevIns, pThis, pDesc, addr);
|
---|
5007 | break;
|
---|
5008 |
|
---|
5009 | case E1K_DTYP_DATA:
|
---|
5010 | {
|
---|
5011 | STAM_COUNTER_INC(pDesc->data.cmd.fTSE?
|
---|
5012 | &pThis->StatTxDescTSEData:
|
---|
5013 | &pThis->StatTxDescData);
|
---|
5014 | E1K_INC_ISTAT_CNT(pThis->uStatDescDat);
|
---|
5015 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5016 | if (pDesc->data.cmd.u20DTALEN == 0 || pDesc->data.u64BufAddr == 0)
|
---|
5017 | {
|
---|
5018 | E1kLog2(("% Empty data descriptor, skipped.\n", pThis->szPrf));
|
---|
5019 | if (pDesc->data.cmd.fEOP)
|
---|
5020 | {
|
---|
5021 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
5022 | pThis->u16TxPktLen = 0;
|
---|
5023 | }
|
---|
5024 | }
|
---|
5025 | else
|
---|
5026 | {
|
---|
5027 | /*
|
---|
5028 | * Add the descriptor data to the frame. If the frame is complete,
|
---|
5029 | * transmit it and reset the u16TxPktLen field.
|
---|
5030 | */
|
---|
5031 | if (e1kXmitIsGsoBuf(pThisCC->CTX_SUFF(pTxSg)))
|
---|
5032 | {
|
---|
5033 | STAM_COUNTER_INC(&pThis->StatTxPathGSO);
|
---|
5034 | bool fRc = e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->data.cmd.u20DTALEN);
|
---|
5035 | if (pDesc->data.cmd.fEOP)
|
---|
5036 | {
|
---|
5037 | if ( fRc
|
---|
5038 | && pThisCC->CTX_SUFF(pTxSg)
|
---|
5039 | && pThisCC->CTX_SUFF(pTxSg)->cbUsed == (size_t)pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw2.u20PAYLEN)
|
---|
5040 | {
|
---|
5041 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
5042 | E1K_INC_CNT32(TSCTC);
|
---|
5043 | }
|
---|
5044 | else
|
---|
5045 | {
|
---|
5046 | if (fRc)
|
---|
5047 | E1kLog(("%s bad GSO/TSE %p or %u < %u\n" , pThis->szPrf,
|
---|
5048 | pThisCC->CTX_SUFF(pTxSg), pThisCC->CTX_SUFF(pTxSg) ? pThisCC->CTX_SUFF(pTxSg)->cbUsed : 0,
|
---|
5049 | pThis->contextTSE.dw3.u8HDRLEN + pThis->contextTSE.dw2.u20PAYLEN));
|
---|
5050 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
5051 | E1K_INC_CNT32(TSCTFC);
|
---|
5052 | }
|
---|
5053 | pThis->u16TxPktLen = 0;
|
---|
5054 | }
|
---|
5055 | }
|
---|
5056 | else if (!pDesc->data.cmd.fTSE)
|
---|
5057 | {
|
---|
5058 | STAM_COUNTER_INC(&pThis->StatTxPathRegular);
|
---|
5059 | bool fRc = e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->data.cmd.u20DTALEN);
|
---|
5060 | if (pDesc->data.cmd.fEOP)
|
---|
5061 | {
|
---|
5062 | if (fRc && pThisCC->CTX_SUFF(pTxSg))
|
---|
5063 | {
|
---|
5064 | Assert(pThisCC->CTX_SUFF(pTxSg)->cSegs == 1);
|
---|
5065 | if (pThis->fIPcsum)
|
---|
5066 | e1kInsertChecksum(pThis, (uint8_t *)pThisCC->CTX_SUFF(pTxSg)->aSegs[0].pvSeg, pThis->u16TxPktLen,
|
---|
5067 | pThis->contextNormal.ip.u8CSO,
|
---|
5068 | pThis->contextNormal.ip.u8CSS,
|
---|
5069 | pThis->contextNormal.ip.u16CSE);
|
---|
5070 | if (pThis->fTCPcsum)
|
---|
5071 | e1kInsertChecksum(pThis, (uint8_t *)pThisCC->CTX_SUFF(pTxSg)->aSegs[0].pvSeg, pThis->u16TxPktLen,
|
---|
5072 | pThis->contextNormal.tu.u8CSO,
|
---|
5073 | pThis->contextNormal.tu.u8CSS,
|
---|
5074 | pThis->contextNormal.tu.u16CSE);
|
---|
5075 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
5076 | }
|
---|
5077 | else
|
---|
5078 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
5079 | pThis->u16TxPktLen = 0;
|
---|
5080 | }
|
---|
5081 | }
|
---|
5082 | else
|
---|
5083 | {
|
---|
5084 | STAM_COUNTER_INC(&pThis->StatTxPathFallback);
|
---|
5085 | rc = e1kFallbackAddToFrame(pDevIns, pThis, pDesc, fOnWorkerThread);
|
---|
5086 | }
|
---|
5087 | }
|
---|
5088 | e1kDescReport(pDevIns, pThis, pDesc, addr);
|
---|
5089 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5090 | break;
|
---|
5091 | }
|
---|
5092 |
|
---|
5093 | case E1K_DTYP_LEGACY:
|
---|
5094 | STAM_COUNTER_INC(&pThis->StatTxDescLegacy);
|
---|
5095 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5096 | if (pDesc->legacy.cmd.u16Length == 0 || pDesc->legacy.u64BufAddr == 0)
|
---|
5097 | {
|
---|
5098 | E1kLog(("%s Empty legacy descriptor, skipped.\n", pThis->szPrf));
|
---|
5099 | }
|
---|
5100 | else
|
---|
5101 | {
|
---|
5102 | /* Add fragment to frame. */
|
---|
5103 | if (e1kAddToFrame(pDevIns, pThis, pThisCC, pDesc->data.u64BufAddr, pDesc->legacy.cmd.u16Length))
|
---|
5104 | {
|
---|
5105 | E1K_INC_ISTAT_CNT(pThis->uStatDescLeg);
|
---|
5106 |
|
---|
5107 | /* Last fragment: Transmit and reset the packet storage counter. */
|
---|
5108 | if (pDesc->legacy.cmd.fEOP)
|
---|
5109 | {
|
---|
5110 | if (pDesc->legacy.cmd.fIC)
|
---|
5111 | {
|
---|
5112 | e1kInsertChecksum(pThis,
|
---|
5113 | (uint8_t *)pThisCC->CTX_SUFF(pTxSg)->aSegs[0].pvSeg,
|
---|
5114 | pThis->u16TxPktLen,
|
---|
5115 | pDesc->legacy.cmd.u8CSO,
|
---|
5116 | pDesc->legacy.dw3.u8CSS,
|
---|
5117 | 0);
|
---|
5118 | }
|
---|
5119 | e1kTransmitFrame(pDevIns, pThis, pThisCC, fOnWorkerThread);
|
---|
5120 | pThis->u16TxPktLen = 0;
|
---|
5121 | }
|
---|
5122 | }
|
---|
5123 | /* Last fragment + failure: free the buffer and reset the storage counter. */
|
---|
5124 | else if (pDesc->legacy.cmd.fEOP)
|
---|
5125 | {
|
---|
5126 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
5127 | pThis->u16TxPktLen = 0;
|
---|
5128 | }
|
---|
5129 | }
|
---|
5130 | e1kDescReport(pDevIns, pThis, pDesc, addr);
|
---|
5131 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5132 | break;
|
---|
5133 |
|
---|
5134 | default:
|
---|
5135 | E1kLog(("%s ERROR Unsupported transmit descriptor type: 0x%04x\n",
|
---|
5136 | pThis->szPrf, e1kGetDescType(pDesc)));
|
---|
5137 | break;
|
---|
5138 | }
|
---|
5139 |
|
---|
5140 | return rc;
|
---|
5141 | }
|
---|
5142 |
|
---|
5143 | DECLINLINE(void) e1kUpdateTxContext(PE1KSTATE pThis, E1KTXDESC *pDesc)
|
---|
5144 | {
|
---|
5145 | if (pDesc->context.dw2.fTSE)
|
---|
5146 | {
|
---|
5147 | pThis->contextTSE = pDesc->context;
|
---|
5148 | uint32_t cbMaxSegmentSize = pThis->contextTSE.dw3.u16MSS + pThis->contextTSE.dw3.u8HDRLEN + 4; /*VTAG*/
|
---|
5149 | if (RT_UNLIKELY(cbMaxSegmentSize > E1K_MAX_TX_PKT_SIZE))
|
---|
5150 | {
|
---|
5151 | pThis->contextTSE.dw3.u16MSS = E1K_MAX_TX_PKT_SIZE - pThis->contextTSE.dw3.u8HDRLEN - 4; /*VTAG*/
|
---|
5152 | LogRelMax(10, ("%s: Transmit packet is too large: %u > %u(max). Adjusted MSS to %u.\n",
|
---|
5153 | pThis->szPrf, cbMaxSegmentSize, E1K_MAX_TX_PKT_SIZE, pThis->contextTSE.dw3.u16MSS));
|
---|
5154 | }
|
---|
5155 | pThis->u32PayRemain = pThis->contextTSE.dw2.u20PAYLEN;
|
---|
5156 | pThis->u16HdrRemain = pThis->contextTSE.dw3.u8HDRLEN;
|
---|
5157 | e1kSetupGsoCtx(&pThis->GsoCtx, &pThis->contextTSE);
|
---|
5158 | STAM_COUNTER_INC(&pThis->StatTxDescCtxTSE);
|
---|
5159 | }
|
---|
5160 | else
|
---|
5161 | {
|
---|
5162 | pThis->contextNormal = pDesc->context;
|
---|
5163 | STAM_COUNTER_INC(&pThis->StatTxDescCtxNormal);
|
---|
5164 | }
|
---|
5165 | E1kLog2(("%s %s context updated: IP CSS=%02X, IP CSO=%02X, IP CSE=%04X"
|
---|
5166 | ", TU CSS=%02X, TU CSO=%02X, TU CSE=%04X\n", pThis->szPrf,
|
---|
5167 | pDesc->context.dw2.fTSE ? "TSE" : "Normal",
|
---|
5168 | pDesc->context.ip.u8CSS,
|
---|
5169 | pDesc->context.ip.u8CSO,
|
---|
5170 | pDesc->context.ip.u16CSE,
|
---|
5171 | pDesc->context.tu.u8CSS,
|
---|
5172 | pDesc->context.tu.u8CSO,
|
---|
5173 | pDesc->context.tu.u16CSE));
|
---|
5174 | }
|
---|
5175 |
|
---|
5176 | static bool e1kLocateTxPacket(PE1KSTATE pThis)
|
---|
5177 | {
|
---|
5178 | LogFlow(("%s e1kLocateTxPacket: ENTER cbTxAlloc=%d\n",
|
---|
5179 | pThis->szPrf, pThis->cbTxAlloc));
|
---|
5180 | /* Check if we have located the packet already. */
|
---|
5181 | if (pThis->cbTxAlloc)
|
---|
5182 | {
|
---|
5183 | LogFlow(("%s e1kLocateTxPacket: RET true cbTxAlloc=%d\n",
|
---|
5184 | pThis->szPrf, pThis->cbTxAlloc));
|
---|
5185 | return true;
|
---|
5186 | }
|
---|
5187 |
|
---|
5188 | bool fTSE = false;
|
---|
5189 | uint32_t cbPacket = 0;
|
---|
5190 |
|
---|
5191 | for (int i = pThis->iTxDCurrent; i < pThis->nTxDFetched; ++i)
|
---|
5192 | {
|
---|
5193 | E1KTXDESC *pDesc = &pThis->aTxDescriptors[i];
|
---|
5194 | switch (e1kGetDescType(pDesc))
|
---|
5195 | {
|
---|
5196 | case E1K_DTYP_CONTEXT:
|
---|
5197 | if (cbPacket == 0)
|
---|
5198 | e1kUpdateTxContext(pThis, pDesc);
|
---|
5199 | else
|
---|
5200 | E1kLog(("%s e1kLocateTxPacket: ignoring a context descriptor in the middle of a packet, cbPacket=%d\n",
|
---|
5201 | pThis->szPrf, cbPacket));
|
---|
5202 | continue;
|
---|
5203 | case E1K_DTYP_LEGACY:
|
---|
5204 | /* Skip invalid descriptors. */
|
---|
5205 | if (cbPacket > 0 && (pThis->fGSO || fTSE))
|
---|
5206 | {
|
---|
5207 | E1kLog(("%s e1kLocateTxPacket: ignoring a legacy descriptor in the segmentation context, cbPacket=%d\n",
|
---|
5208 | pThis->szPrf, cbPacket));
|
---|
5209 | pDesc->legacy.dw3.fDD = true; /* Make sure it is skipped by processing */
|
---|
5210 | continue;
|
---|
5211 | }
|
---|
5212 | /* Skip empty descriptors. */
|
---|
5213 | if (!pDesc->legacy.u64BufAddr || !pDesc->legacy.cmd.u16Length)
|
---|
5214 | break;
|
---|
5215 | cbPacket += pDesc->legacy.cmd.u16Length;
|
---|
5216 | pThis->fGSO = false;
|
---|
5217 | break;
|
---|
5218 | case E1K_DTYP_DATA:
|
---|
5219 | /* Skip invalid descriptors. */
|
---|
5220 | if (cbPacket > 0 && (bool)pDesc->data.cmd.fTSE != fTSE)
|
---|
5221 | {
|
---|
5222 | E1kLog(("%s e1kLocateTxPacket: ignoring %sTSE descriptor in the %ssegmentation context, cbPacket=%d\n",
|
---|
5223 | pThis->szPrf, pDesc->data.cmd.fTSE ? "" : "non-", fTSE ? "" : "non-", cbPacket));
|
---|
5224 | pDesc->data.dw3.fDD = true; /* Make sure it is skipped by processing */
|
---|
5225 | continue;
|
---|
5226 | }
|
---|
5227 | /* Skip empty descriptors. */
|
---|
5228 | if (!pDesc->data.u64BufAddr || !pDesc->data.cmd.u20DTALEN)
|
---|
5229 | break;
|
---|
5230 | if (cbPacket == 0)
|
---|
5231 | {
|
---|
5232 | /*
|
---|
5233 | * The first fragment: save IXSM and TXSM options
|
---|
5234 | * as these are only valid in the first fragment.
|
---|
5235 | */
|
---|
5236 | pThis->fIPcsum = pDesc->data.dw3.fIXSM;
|
---|
5237 | pThis->fTCPcsum = pDesc->data.dw3.fTXSM;
|
---|
5238 | fTSE = pDesc->data.cmd.fTSE;
|
---|
5239 | /*
|
---|
5240 | * TSE descriptors have VLE bit properly set in
|
---|
5241 | * the first fragment.
|
---|
5242 | */
|
---|
5243 | if (fTSE)
|
---|
5244 | {
|
---|
5245 | pThis->fVTag = pDesc->data.cmd.fVLE;
|
---|
5246 | pThis->u16VTagTCI = pDesc->data.dw3.u16Special;
|
---|
5247 | }
|
---|
5248 | pThis->fGSO = e1kCanDoGso(pThis, &pThis->GsoCtx, &pDesc->data, &pThis->contextTSE);
|
---|
5249 | }
|
---|
5250 | cbPacket += pDesc->data.cmd.u20DTALEN;
|
---|
5251 | break;
|
---|
5252 | default:
|
---|
5253 | AssertMsgFailed(("Impossible descriptor type!"));
|
---|
5254 | }
|
---|
5255 | if (pDesc->legacy.cmd.fEOP)
|
---|
5256 | {
|
---|
5257 | /*
|
---|
5258 | * Non-TSE descriptors have VLE bit properly set in
|
---|
5259 | * the last fragment.
|
---|
5260 | */
|
---|
5261 | if (!fTSE)
|
---|
5262 | {
|
---|
5263 | pThis->fVTag = pDesc->data.cmd.fVLE;
|
---|
5264 | pThis->u16VTagTCI = pDesc->data.dw3.u16Special;
|
---|
5265 | }
|
---|
5266 | /*
|
---|
5267 | * Compute the required buffer size. If we cannot do GSO but still
|
---|
5268 | * have to do segmentation we allocate the first segment only.
|
---|
5269 | */
|
---|
5270 | pThis->cbTxAlloc = (!fTSE || pThis->fGSO) ?
|
---|
5271 | cbPacket :
|
---|
5272 | RT_MIN(cbPacket, pThis->contextTSE.dw3.u16MSS + pThis->contextTSE.dw3.u8HDRLEN);
|
---|
5273 | if (pThis->fVTag)
|
---|
5274 | pThis->cbTxAlloc += 4;
|
---|
5275 | LogFlow(("%s e1kLocateTxPacket: RET true cbTxAlloc=%d cbPacket=%d%s%s\n",
|
---|
5276 | pThis->szPrf, pThis->cbTxAlloc, cbPacket,
|
---|
5277 | pThis->fGSO ? " GSO" : "", fTSE ? " TSE" : ""));
|
---|
5278 | return true;
|
---|
5279 | }
|
---|
5280 | }
|
---|
5281 |
|
---|
5282 | if (cbPacket == 0 && pThis->nTxDFetched - pThis->iTxDCurrent > 0)
|
---|
5283 | {
|
---|
5284 | /* All descriptors were empty, we need to process them as a dummy packet */
|
---|
5285 | LogFlow(("%s e1kLocateTxPacket: RET true cbTxAlloc=%d, zero packet!\n",
|
---|
5286 | pThis->szPrf, pThis->cbTxAlloc));
|
---|
5287 | return true;
|
---|
5288 | }
|
---|
5289 | LogFlow(("%s e1kLocateTxPacket: RET false cbTxAlloc=%d cbPacket=%d\n",
|
---|
5290 | pThis->szPrf, pThis->cbTxAlloc, cbPacket));
|
---|
5291 | return false;
|
---|
5292 | }
|
---|
5293 |
|
---|
5294 | static int e1kXmitPacket(PPDMDEVINS pDevIns, PE1KSTATE pThis, bool fOnWorkerThread)
|
---|
5295 | {
|
---|
5296 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
5297 | int rc = VINF_SUCCESS;
|
---|
5298 |
|
---|
5299 | LogFlow(("%s e1kXmitPacket: ENTER current=%d fetched=%d\n",
|
---|
5300 | pThis->szPrf, pThis->iTxDCurrent, pThis->nTxDFetched));
|
---|
5301 |
|
---|
5302 | while (pThis->iTxDCurrent < pThis->nTxDFetched)
|
---|
5303 | {
|
---|
5304 | E1KTXDESC *pDesc = &pThis->aTxDescriptors[pThis->iTxDCurrent];
|
---|
5305 | E1kLog3(("%s About to process new TX descriptor at %08x%08x, TDLEN=%08x, TDH=%08x, TDT=%08x\n",
|
---|
5306 | pThis->szPrf, TDBAH, TDBAL + TDH * sizeof(E1KTXDESC), TDLEN, TDH, TDT));
|
---|
5307 | rc = e1kXmitDesc(pDevIns, pThis, pThisCC, pDesc, e1kDescAddr(TDBAH, TDBAL, TDH), fOnWorkerThread);
|
---|
5308 | if (RT_FAILURE(rc))
|
---|
5309 | break;
|
---|
5310 | if (++TDH * sizeof(E1KTXDESC) >= TDLEN)
|
---|
5311 | TDH = 0;
|
---|
5312 | uint32_t uLowThreshold = GET_BITS(TXDCTL, LWTHRESH)*8;
|
---|
5313 | if (uLowThreshold != 0 && e1kGetTxLen(pThis) <= uLowThreshold)
|
---|
5314 | {
|
---|
5315 | E1kLog2(("%s Low on transmit descriptors, raise ICR.TXD_LOW, len=%x thresh=%x\n",
|
---|
5316 | pThis->szPrf, e1kGetTxLen(pThis), GET_BITS(TXDCTL, LWTHRESH)*8));
|
---|
5317 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_TXD_LOW);
|
---|
5318 | }
|
---|
5319 | ++pThis->iTxDCurrent;
|
---|
5320 | if (e1kGetDescType(pDesc) != E1K_DTYP_CONTEXT && pDesc->legacy.cmd.fEOP)
|
---|
5321 | break;
|
---|
5322 | }
|
---|
5323 |
|
---|
5324 | LogFlow(("%s e1kXmitPacket: RET %Rrc current=%d fetched=%d\n",
|
---|
5325 | pThis->szPrf, rc, pThis->iTxDCurrent, pThis->nTxDFetched));
|
---|
5326 | return rc;
|
---|
5327 | }
|
---|
5328 |
|
---|
5329 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
5330 | #ifndef E1K_WITH_TXD_CACHE
|
---|
5331 |
|
---|
5332 | /**
|
---|
5333 | * Transmit pending descriptors.
|
---|
5334 | *
|
---|
5335 | * @returns VBox status code. VERR_TRY_AGAIN is returned if we're busy.
|
---|
5336 | *
|
---|
5337 | * @param pDevIns The device instance.
|
---|
5338 | * @param pThis The E1000 state.
|
---|
5339 | * @param fOnWorkerThread Whether we're on a worker thread or on an EMT.
|
---|
5340 | */
|
---|
5341 | static int e1kXmitPending(PPDMDEVINS pDevIns, PE1KSTATE pThis, bool fOnWorkerThread)
|
---|
5342 | {
|
---|
5343 | int rc = VINF_SUCCESS;
|
---|
5344 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
5345 |
|
---|
5346 | /* Check if transmitter is enabled. */
|
---|
5347 | if (!(TCTL & TCTL_EN))
|
---|
5348 | return VINF_SUCCESS;
|
---|
5349 | /*
|
---|
5350 | * Grab the xmit lock of the driver as well as the E1K device state.
|
---|
5351 | */
|
---|
5352 | rc = e1kCsTxEnter(pThis, VERR_SEM_BUSY);
|
---|
5353 | if (RT_LIKELY(rc == VINF_SUCCESS))
|
---|
5354 | {
|
---|
5355 | PPDMINETWORKUP pDrv = pThis->CTX_SUFF(pDrv);
|
---|
5356 | if (pDrv)
|
---|
5357 | {
|
---|
5358 | rc = pDrv->pfnBeginXmit(pDrv, fOnWorkerThread);
|
---|
5359 | if (RT_FAILURE(rc))
|
---|
5360 | {
|
---|
5361 | e1kCsTxLeave(pThis);
|
---|
5362 | return rc;
|
---|
5363 | }
|
---|
5364 | }
|
---|
5365 | /*
|
---|
5366 | * Process all pending descriptors.
|
---|
5367 | * Note! Do not process descriptors in locked state
|
---|
5368 | */
|
---|
5369 | while (TDH != TDT && !pThis->fLocked)
|
---|
5370 | {
|
---|
5371 | E1KTXDESC desc;
|
---|
5372 | E1kLog3(("%s About to process new TX descriptor at %08x%08x, TDLEN=%08x, TDH=%08x, TDT=%08x\n",
|
---|
5373 | pThis->szPrf, TDBAH, TDBAL + TDH * sizeof(desc), TDLEN, TDH, TDT));
|
---|
5374 |
|
---|
5375 | e1kLoadDesc(pDevIns, &desc, ((uint64_t)TDBAH << 32) + TDBAL + TDH * sizeof(desc));
|
---|
5376 | rc = e1kXmitDesc(pDevIns, pThis, pThisCC, &desc, e1kDescAddr(TDBAH, TDBAL, TDH), fOnWorkerThread);
|
---|
5377 | /* If we failed to transmit descriptor we will try it again later */
|
---|
5378 | if (RT_FAILURE(rc))
|
---|
5379 | break;
|
---|
5380 | if (++TDH * sizeof(desc) >= TDLEN)
|
---|
5381 | TDH = 0;
|
---|
5382 |
|
---|
5383 | if (e1kGetTxLen(pThis) <= GET_BITS(TXDCTL, LWTHRESH)*8)
|
---|
5384 | {
|
---|
5385 | E1kLog2(("%s Low on transmit descriptors, raise ICR.TXD_LOW, len=%x thresh=%x\n",
|
---|
5386 | pThis->szPrf, e1kGetTxLen(pThis), GET_BITS(TXDCTL, LWTHRESH)*8));
|
---|
5387 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_TXD_LOW);
|
---|
5388 | }
|
---|
5389 |
|
---|
5390 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5391 | }
|
---|
5392 |
|
---|
5393 | /// @todo uncomment: pThis->uStatIntTXQE++;
|
---|
5394 | /// @todo uncomment: e1kRaiseInterrupt(pDevIns, pThis, ICR_TXQE);
|
---|
5395 | /*
|
---|
5396 | * Release the lock.
|
---|
5397 | */
|
---|
5398 | if (pDrv)
|
---|
5399 | pDrv->pfnEndXmit(pDrv);
|
---|
5400 | e1kCsTxLeave(pThis);
|
---|
5401 | }
|
---|
5402 |
|
---|
5403 | return rc;
|
---|
5404 | }
|
---|
5405 |
|
---|
5406 | #else /* E1K_WITH_TXD_CACHE */
|
---|
5407 |
|
---|
5408 | static void e1kDumpTxDCache(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
5409 | {
|
---|
5410 | unsigned i, cDescs = TDLEN / sizeof(E1KTXDESC);
|
---|
5411 | uint32_t tdh = TDH;
|
---|
5412 | LogRel(("E1000: -- Transmit Descriptors (%d total) --\n", cDescs));
|
---|
5413 | for (i = 0; i < cDescs; ++i)
|
---|
5414 | {
|
---|
5415 | E1KTXDESC desc;
|
---|
5416 | PDMDevHlpPhysRead(pDevIns , e1kDescAddr(TDBAH, TDBAL, i), &desc, sizeof(desc));
|
---|
5417 | if (i == tdh)
|
---|
5418 | LogRel(("E1000: >>> "));
|
---|
5419 | LogRel(("E1000: %RGp: %R[e1ktxd]\n", e1kDescAddr(TDBAH, TDBAL, i), &desc));
|
---|
5420 | }
|
---|
5421 | LogRel(("E1000: -- Transmit Descriptors in Cache (at %d (TDH %d)/ fetched %d / max %d) --\n",
|
---|
5422 | pThis->iTxDCurrent, TDH, pThis->nTxDFetched, E1K_TXD_CACHE_SIZE));
|
---|
5423 | if (tdh > pThis->iTxDCurrent)
|
---|
5424 | tdh -= pThis->iTxDCurrent;
|
---|
5425 | else
|
---|
5426 | tdh = cDescs + tdh - pThis->iTxDCurrent;
|
---|
5427 | for (i = 0; i < pThis->nTxDFetched; ++i)
|
---|
5428 | {
|
---|
5429 | if (i == pThis->iTxDCurrent)
|
---|
5430 | LogRel(("E1000: >>> "));
|
---|
5431 | LogRel(("E1000: %RGp: %R[e1ktxd]\n", e1kDescAddr(TDBAH, TDBAL, tdh++ % cDescs), &pThis->aTxDescriptors[i]));
|
---|
5432 | }
|
---|
5433 | }
|
---|
5434 |
|
---|
5435 | /**
|
---|
5436 | * Transmit pending descriptors.
|
---|
5437 | *
|
---|
5438 | * @returns VBox status code. VERR_TRY_AGAIN is returned if we're busy.
|
---|
5439 | *
|
---|
5440 | * @param pDevIns The device instance.
|
---|
5441 | * @param pThis The E1000 state.
|
---|
5442 | * @param fOnWorkerThread Whether we're on a worker thread or on an EMT.
|
---|
5443 | */
|
---|
5444 | static int e1kXmitPending(PPDMDEVINS pDevIns, PE1KSTATE pThis, bool fOnWorkerThread)
|
---|
5445 | {
|
---|
5446 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
5447 | int rc = VINF_SUCCESS;
|
---|
5448 |
|
---|
5449 | /* Check if transmitter is enabled. */
|
---|
5450 | if (!(TCTL & TCTL_EN))
|
---|
5451 | return VINF_SUCCESS;
|
---|
5452 | /*
|
---|
5453 | * Grab the xmit lock of the driver as well as the E1K device state.
|
---|
5454 | */
|
---|
5455 | PPDMINETWORKUP pDrv = pThisCC->CTX_SUFF(pDrv);
|
---|
5456 | if (pDrv)
|
---|
5457 | {
|
---|
5458 | rc = pDrv->pfnBeginXmit(pDrv, fOnWorkerThread);
|
---|
5459 | if (RT_FAILURE(rc))
|
---|
5460 | return rc;
|
---|
5461 | }
|
---|
5462 |
|
---|
5463 | /*
|
---|
5464 | * Process all pending descriptors.
|
---|
5465 | * Note! Do not process descriptors in locked state
|
---|
5466 | */
|
---|
5467 | rc = e1kCsTxEnter(pThis, VERR_SEM_BUSY);
|
---|
5468 | if (RT_LIKELY(rc == VINF_SUCCESS))
|
---|
5469 | {
|
---|
5470 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5471 | /*
|
---|
5472 | * fIncomplete is set whenever we try to fetch additional descriptors
|
---|
5473 | * for an incomplete packet. If fail to locate a complete packet on
|
---|
5474 | * the next iteration we need to reset the cache or we risk to get
|
---|
5475 | * stuck in this loop forever.
|
---|
5476 | */
|
---|
5477 | bool fIncomplete = false;
|
---|
5478 | while (!pThis->fLocked && e1kTxDLazyLoad(pDevIns, pThis))
|
---|
5479 | {
|
---|
5480 | while (e1kLocateTxPacket(pThis))
|
---|
5481 | {
|
---|
5482 | fIncomplete = false;
|
---|
5483 | /* Found a complete packet, allocate it. */
|
---|
5484 | rc = e1kXmitAllocBuf(pThis, pThisCC, pThis->fGSO);
|
---|
5485 | /* If we're out of bandwidth we'll come back later. */
|
---|
5486 | if (RT_FAILURE(rc))
|
---|
5487 | goto out;
|
---|
5488 | /* Copy the packet to allocated buffer and send it. */
|
---|
5489 | rc = e1kXmitPacket(pDevIns, pThis, fOnWorkerThread);
|
---|
5490 | /* If we're out of bandwidth we'll come back later. */
|
---|
5491 | if (RT_FAILURE(rc))
|
---|
5492 | goto out;
|
---|
5493 | }
|
---|
5494 | uint8_t u8Remain = pThis->nTxDFetched - pThis->iTxDCurrent;
|
---|
5495 | if (RT_UNLIKELY(fIncomplete))
|
---|
5496 | {
|
---|
5497 | static bool fTxDCacheDumped = false;
|
---|
5498 | /*
|
---|
5499 | * The descriptor cache is full, but we were unable to find
|
---|
5500 | * a complete packet in it. Drop the cache and hope that
|
---|
5501 | * the guest driver can recover from network card error.
|
---|
5502 | */
|
---|
5503 | LogRel(("%s: No complete packets in%s TxD cache! "
|
---|
5504 | "Fetched=%d, current=%d, TX len=%d.\n",
|
---|
5505 | pThis->szPrf,
|
---|
5506 | u8Remain == E1K_TXD_CACHE_SIZE ? " full" : "",
|
---|
5507 | pThis->nTxDFetched, pThis->iTxDCurrent,
|
---|
5508 | e1kGetTxLen(pThis)));
|
---|
5509 | if (!fTxDCacheDumped)
|
---|
5510 | {
|
---|
5511 | fTxDCacheDumped = true;
|
---|
5512 | e1kDumpTxDCache(pDevIns, pThis);
|
---|
5513 | }
|
---|
5514 | pThis->iTxDCurrent = pThis->nTxDFetched = 0;
|
---|
5515 | /*
|
---|
5516 | * Returning an error at this point means Guru in R0
|
---|
5517 | * (see @bugref{6428}).
|
---|
5518 | */
|
---|
5519 | # ifdef IN_RING3
|
---|
5520 | rc = VERR_NET_INCOMPLETE_TX_PACKET;
|
---|
5521 | # else /* !IN_RING3 */
|
---|
5522 | rc = VINF_IOM_R3_MMIO_WRITE;
|
---|
5523 | # endif /* !IN_RING3 */
|
---|
5524 | goto out;
|
---|
5525 | }
|
---|
5526 | if (u8Remain > 0)
|
---|
5527 | {
|
---|
5528 | Log4(("%s Incomplete packet at %d. Already fetched %d, "
|
---|
5529 | "%d more are available\n",
|
---|
5530 | pThis->szPrf, pThis->iTxDCurrent, u8Remain,
|
---|
5531 | e1kGetTxLen(pThis) - u8Remain));
|
---|
5532 |
|
---|
5533 | /*
|
---|
5534 | * A packet was partially fetched. Move incomplete packet to
|
---|
5535 | * the beginning of cache buffer, then load more descriptors.
|
---|
5536 | */
|
---|
5537 | memmove(pThis->aTxDescriptors,
|
---|
5538 | &pThis->aTxDescriptors[pThis->iTxDCurrent],
|
---|
5539 | u8Remain * sizeof(E1KTXDESC));
|
---|
5540 | pThis->iTxDCurrent = 0;
|
---|
5541 | pThis->nTxDFetched = u8Remain;
|
---|
5542 | e1kTxDLoadMore(pDevIns, pThis);
|
---|
5543 | fIncomplete = true;
|
---|
5544 | }
|
---|
5545 | else
|
---|
5546 | pThis->nTxDFetched = 0;
|
---|
5547 | pThis->iTxDCurrent = 0;
|
---|
5548 | }
|
---|
5549 | if (!pThis->fLocked && GET_BITS(TXDCTL, LWTHRESH) == 0)
|
---|
5550 | {
|
---|
5551 | E1kLog2(("%s Out of transmit descriptors, raise ICR.TXD_LOW\n",
|
---|
5552 | pThis->szPrf));
|
---|
5553 | e1kRaiseInterrupt(pDevIns, pThis, VERR_SEM_BUSY, ICR_TXD_LOW);
|
---|
5554 | }
|
---|
5555 | out:
|
---|
5556 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatTransmit), a);
|
---|
5557 |
|
---|
5558 | /// @todo uncomment: pThis->uStatIntTXQE++;
|
---|
5559 | /// @todo uncomment: e1kRaiseInterrupt(pDevIns, pThis, ICR_TXQE);
|
---|
5560 |
|
---|
5561 | e1kCsTxLeave(pThis);
|
---|
5562 | }
|
---|
5563 |
|
---|
5564 |
|
---|
5565 | /*
|
---|
5566 | * Release the lock.
|
---|
5567 | */
|
---|
5568 | if (pDrv)
|
---|
5569 | pDrv->pfnEndXmit(pDrv);
|
---|
5570 | return rc;
|
---|
5571 | }
|
---|
5572 |
|
---|
5573 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
5574 | #ifdef IN_RING3
|
---|
5575 |
|
---|
5576 | /**
|
---|
5577 | * @interface_method_impl{PDMINETWORKDOWN,pfnXmitPending}
|
---|
5578 | */
|
---|
5579 | static DECLCALLBACK(void) e1kR3NetworkDown_XmitPending(PPDMINETWORKDOWN pInterface)
|
---|
5580 | {
|
---|
5581 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkDown);
|
---|
5582 | PE1KSTATE pThis = pThisCC->pShared;
|
---|
5583 | /* Resume suspended transmission */
|
---|
5584 | STATUS &= ~STATUS_TXOFF;
|
---|
5585 | e1kXmitPending(pThisCC->pDevInsR3, pThis, true /*fOnWorkerThread*/);
|
---|
5586 | }
|
---|
5587 |
|
---|
5588 | /**
|
---|
5589 | * @callback_method_impl{FNPDMTASKDEV,
|
---|
5590 | * Executes e1kXmitPending at the behest of ring-0/raw-mode.}
|
---|
5591 | * @note Not executed on EMT.
|
---|
5592 | */
|
---|
5593 | static DECLCALLBACK(void) e1kR3TxTaskCallback(PPDMDEVINS pDevIns, void *pvUser)
|
---|
5594 | {
|
---|
5595 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
5596 | E1kLog2(("%s e1kR3TxTaskCallback:\n", pThis->szPrf));
|
---|
5597 |
|
---|
5598 | int rc = e1kXmitPending(pDevIns, pThis, false /*fOnWorkerThread*/);
|
---|
5599 | AssertMsg(RT_SUCCESS(rc) || rc == VERR_TRY_AGAIN || rc == VERR_NET_DOWN, ("%Rrc\n", rc));
|
---|
5600 |
|
---|
5601 | RT_NOREF(rc, pvUser);
|
---|
5602 | }
|
---|
5603 |
|
---|
5604 | #endif /* IN_RING3 */
|
---|
5605 |
|
---|
5606 | /**
|
---|
5607 | * Write handler for Transmit Descriptor Tail register.
|
---|
5608 | *
|
---|
5609 | * @param pThis The device state structure.
|
---|
5610 | * @param offset Register offset in memory-mapped frame.
|
---|
5611 | * @param index Register index in register array.
|
---|
5612 | * @param value The value to store.
|
---|
5613 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
5614 | * @thread EMT
|
---|
5615 | */
|
---|
5616 | static int e1kRegWriteTDT(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5617 | {
|
---|
5618 | int rc = e1kRegWriteDefault(pDevIns, pThis, offset, index, value);
|
---|
5619 |
|
---|
5620 | /* All descriptors starting with head and not including tail belong to us. */
|
---|
5621 | /* Process them. */
|
---|
5622 | E1kLog2(("%s e1kRegWriteTDT: TDBAL=%08x, TDBAH=%08x, TDLEN=%08x, TDH=%08x, TDT=%08x\n",
|
---|
5623 | pThis->szPrf, TDBAL, TDBAH, TDLEN, TDH, TDT));
|
---|
5624 |
|
---|
5625 | /* Ignore TDT writes when the link is down. */
|
---|
5626 | if (TDH != TDT && (STATUS & STATUS_LU))
|
---|
5627 | {
|
---|
5628 | Log5(("E1000: TDT write: TDH=%08x, TDT=%08x, %d descriptors to process\n", TDH, TDT, e1kGetTxLen(pThis)));
|
---|
5629 | E1kLog(("%s e1kRegWriteTDT: %d descriptors to process\n",
|
---|
5630 | pThis->szPrf, e1kGetTxLen(pThis)));
|
---|
5631 |
|
---|
5632 | /* Transmit pending packets if possible, defer it if we cannot do it
|
---|
5633 | in the current context. */
|
---|
5634 | #ifdef E1K_TX_DELAY
|
---|
5635 | rc = e1kCsTxEnter(pThis, VERR_SEM_BUSY);
|
---|
5636 | if (RT_LIKELY(rc == VINF_SUCCESS))
|
---|
5637 | {
|
---|
5638 | if (!PDMDevInsTimerIsActive(pDevIns, pThis->hTXDTimer))
|
---|
5639 | {
|
---|
5640 | # ifdef E1K_INT_STATS
|
---|
5641 | pThis->u64ArmedAt = RTTimeNanoTS();
|
---|
5642 | # endif
|
---|
5643 | e1kArmTimer(pDevIns, pThis, pThis->hTXDTimer, E1K_TX_DELAY);
|
---|
5644 | }
|
---|
5645 | E1K_INC_ISTAT_CNT(pThis->uStatTxDelayed);
|
---|
5646 | e1kCsTxLeave(pThis);
|
---|
5647 | return rc;
|
---|
5648 | }
|
---|
5649 | /* We failed to enter the TX critical section -- transmit as usual. */
|
---|
5650 | #endif /* E1K_TX_DELAY */
|
---|
5651 | #ifndef IN_RING3
|
---|
5652 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
5653 | if (!pThisCC->CTX_SUFF(pDrv))
|
---|
5654 | {
|
---|
5655 | PDMDevHlpTaskTrigger(pDevIns, pThis->hTxTask);
|
---|
5656 | rc = VINF_SUCCESS;
|
---|
5657 | }
|
---|
5658 | else
|
---|
5659 | #endif
|
---|
5660 | {
|
---|
5661 | rc = e1kXmitPending(pDevIns, pThis, false /*fOnWorkerThread*/);
|
---|
5662 | if (rc == VERR_TRY_AGAIN)
|
---|
5663 | rc = VINF_SUCCESS;
|
---|
5664 | #ifndef IN_RING3
|
---|
5665 | else if (rc == VERR_SEM_BUSY)
|
---|
5666 | rc = VINF_IOM_R3_MMIO_WRITE;
|
---|
5667 | #endif
|
---|
5668 | AssertRC(rc);
|
---|
5669 | }
|
---|
5670 | }
|
---|
5671 |
|
---|
5672 | return rc;
|
---|
5673 | }
|
---|
5674 |
|
---|
5675 | /**
|
---|
5676 | * Write handler for Multicast Table Array registers.
|
---|
5677 | *
|
---|
5678 | * @param pThis The device state structure.
|
---|
5679 | * @param offset Register offset in memory-mapped frame.
|
---|
5680 | * @param index Register index in register array.
|
---|
5681 | * @param value The value to store.
|
---|
5682 | * @thread EMT
|
---|
5683 | */
|
---|
5684 | static int e1kRegWriteMTA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5685 | {
|
---|
5686 | RT_NOREF_PV(pDevIns);
|
---|
5687 | AssertReturn(offset - g_aE1kRegMap[index].offset < sizeof(pThis->auMTA), VERR_DEV_IO_ERROR);
|
---|
5688 | pThis->auMTA[(offset - g_aE1kRegMap[index].offset) / sizeof(pThis->auMTA[0])] = value;
|
---|
5689 |
|
---|
5690 | return VINF_SUCCESS;
|
---|
5691 | }
|
---|
5692 |
|
---|
5693 | /**
|
---|
5694 | * Read handler for Multicast Table Array registers.
|
---|
5695 | *
|
---|
5696 | * @returns VBox status code.
|
---|
5697 | *
|
---|
5698 | * @param pThis The device state structure.
|
---|
5699 | * @param offset Register offset in memory-mapped frame.
|
---|
5700 | * @param index Register index in register array.
|
---|
5701 | * @thread EMT
|
---|
5702 | */
|
---|
5703 | static int e1kRegReadMTA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5704 | {
|
---|
5705 | RT_NOREF_PV(pDevIns);
|
---|
5706 | AssertReturn(offset - g_aE1kRegMap[index].offset < sizeof(pThis->auMTA), VERR_DEV_IO_ERROR);
|
---|
5707 | *pu32Value = pThis->auMTA[(offset - g_aE1kRegMap[index].offset)/sizeof(pThis->auMTA[0])];
|
---|
5708 |
|
---|
5709 | return VINF_SUCCESS;
|
---|
5710 | }
|
---|
5711 |
|
---|
5712 | /**
|
---|
5713 | * Write handler for Receive Address registers.
|
---|
5714 | *
|
---|
5715 | * @param pThis The device state structure.
|
---|
5716 | * @param offset Register offset in memory-mapped frame.
|
---|
5717 | * @param index Register index in register array.
|
---|
5718 | * @param value The value to store.
|
---|
5719 | * @thread EMT
|
---|
5720 | */
|
---|
5721 | static int e1kRegWriteRA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5722 | {
|
---|
5723 | RT_NOREF_PV(pDevIns);
|
---|
5724 | AssertReturn(offset - g_aE1kRegMap[index].offset < sizeof(pThis->aRecAddr.au32), VERR_DEV_IO_ERROR);
|
---|
5725 | pThis->aRecAddr.au32[(offset - g_aE1kRegMap[index].offset)/sizeof(pThis->aRecAddr.au32[0])] = value;
|
---|
5726 |
|
---|
5727 | return VINF_SUCCESS;
|
---|
5728 | }
|
---|
5729 |
|
---|
5730 | /**
|
---|
5731 | * Read handler for Receive Address registers.
|
---|
5732 | *
|
---|
5733 | * @returns VBox status code.
|
---|
5734 | *
|
---|
5735 | * @param pThis The device state structure.
|
---|
5736 | * @param offset Register offset in memory-mapped frame.
|
---|
5737 | * @param index Register index in register array.
|
---|
5738 | * @thread EMT
|
---|
5739 | */
|
---|
5740 | static int e1kRegReadRA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5741 | {
|
---|
5742 | RT_NOREF_PV(pDevIns);
|
---|
5743 | AssertReturn(offset - g_aE1kRegMap[index].offset< sizeof(pThis->aRecAddr.au32), VERR_DEV_IO_ERROR);
|
---|
5744 | *pu32Value = pThis->aRecAddr.au32[(offset - g_aE1kRegMap[index].offset)/sizeof(pThis->aRecAddr.au32[0])];
|
---|
5745 |
|
---|
5746 | return VINF_SUCCESS;
|
---|
5747 | }
|
---|
5748 |
|
---|
5749 | /**
|
---|
5750 | * Write handler for VLAN Filter Table Array registers.
|
---|
5751 | *
|
---|
5752 | * @param pThis The device state structure.
|
---|
5753 | * @param offset Register offset in memory-mapped frame.
|
---|
5754 | * @param index Register index in register array.
|
---|
5755 | * @param value The value to store.
|
---|
5756 | * @thread EMT
|
---|
5757 | */
|
---|
5758 | static int e1kRegWriteVFTA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5759 | {
|
---|
5760 | RT_NOREF_PV(pDevIns);
|
---|
5761 | AssertReturn(offset - g_aE1kRegMap[index].offset < sizeof(pThis->auVFTA), VINF_SUCCESS);
|
---|
5762 | pThis->auVFTA[(offset - g_aE1kRegMap[index].offset)/sizeof(pThis->auVFTA[0])] = value;
|
---|
5763 |
|
---|
5764 | return VINF_SUCCESS;
|
---|
5765 | }
|
---|
5766 |
|
---|
5767 | /**
|
---|
5768 | * Read handler for VLAN Filter Table Array registers.
|
---|
5769 | *
|
---|
5770 | * @returns VBox status code.
|
---|
5771 | *
|
---|
5772 | * @param pThis The device state structure.
|
---|
5773 | * @param offset Register offset in memory-mapped frame.
|
---|
5774 | * @param index Register index in register array.
|
---|
5775 | * @thread EMT
|
---|
5776 | */
|
---|
5777 | static int e1kRegReadVFTA(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5778 | {
|
---|
5779 | RT_NOREF_PV(pDevIns);
|
---|
5780 | AssertReturn(offset - g_aE1kRegMap[index].offset< sizeof(pThis->auVFTA), VERR_DEV_IO_ERROR);
|
---|
5781 | *pu32Value = pThis->auVFTA[(offset - g_aE1kRegMap[index].offset)/sizeof(pThis->auVFTA[0])];
|
---|
5782 |
|
---|
5783 | return VINF_SUCCESS;
|
---|
5784 | }
|
---|
5785 |
|
---|
5786 | /**
|
---|
5787 | * Read handler for unimplemented registers.
|
---|
5788 | *
|
---|
5789 | * Merely reports reads from unimplemented registers.
|
---|
5790 | *
|
---|
5791 | * @returns VBox status code.
|
---|
5792 | *
|
---|
5793 | * @param pThis The device state structure.
|
---|
5794 | * @param offset Register offset in memory-mapped frame.
|
---|
5795 | * @param index Register index in register array.
|
---|
5796 | * @thread EMT
|
---|
5797 | */
|
---|
5798 | static int e1kRegReadUnimplemented(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5799 | {
|
---|
5800 | RT_NOREF(pDevIns, pThis, offset, index);
|
---|
5801 | E1kLog(("%s At %08X read (00000000) attempt from unimplemented register %s (%s)\n",
|
---|
5802 | pThis->szPrf, offset, g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
5803 | *pu32Value = 0;
|
---|
5804 |
|
---|
5805 | return VINF_SUCCESS;
|
---|
5806 | }
|
---|
5807 |
|
---|
5808 | /**
|
---|
5809 | * Default register read handler with automatic clear operation.
|
---|
5810 | *
|
---|
5811 | * Retrieves the value of register from register array in device state structure.
|
---|
5812 | * Then resets all bits.
|
---|
5813 | *
|
---|
5814 | * @remarks The 'mask' parameter is simply ignored as masking and shifting is
|
---|
5815 | * done in the caller.
|
---|
5816 | *
|
---|
5817 | * @returns VBox status code.
|
---|
5818 | *
|
---|
5819 | * @param pThis The device state structure.
|
---|
5820 | * @param offset Register offset in memory-mapped frame.
|
---|
5821 | * @param index Register index in register array.
|
---|
5822 | * @thread EMT
|
---|
5823 | */
|
---|
5824 | static int e1kRegReadAutoClear(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5825 | {
|
---|
5826 | AssertReturn(index < E1K_NUM_OF_32BIT_REGS, VERR_DEV_IO_ERROR);
|
---|
5827 | int rc = e1kRegReadDefault(pDevIns, pThis, offset, index, pu32Value);
|
---|
5828 | pThis->auRegs[index] = 0;
|
---|
5829 |
|
---|
5830 | return rc;
|
---|
5831 | }
|
---|
5832 |
|
---|
5833 | /**
|
---|
5834 | * Default register read handler.
|
---|
5835 | *
|
---|
5836 | * Retrieves the value of register from register array in device state structure.
|
---|
5837 | * Bits corresponding to 0s in 'readable' mask will always read as 0s.
|
---|
5838 | *
|
---|
5839 | * @remarks The 'mask' parameter is simply ignored as masking and shifting is
|
---|
5840 | * done in the caller.
|
---|
5841 | *
|
---|
5842 | * @returns VBox status code.
|
---|
5843 | *
|
---|
5844 | * @param pThis The device state structure.
|
---|
5845 | * @param offset Register offset in memory-mapped frame.
|
---|
5846 | * @param index Register index in register array.
|
---|
5847 | * @thread EMT
|
---|
5848 | */
|
---|
5849 | static int e1kRegReadDefault(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t *pu32Value)
|
---|
5850 | {
|
---|
5851 | RT_NOREF_PV(pDevIns); RT_NOREF_PV(offset);
|
---|
5852 |
|
---|
5853 | AssertReturn(index < E1K_NUM_OF_32BIT_REGS, VERR_DEV_IO_ERROR);
|
---|
5854 | *pu32Value = pThis->auRegs[index] & g_aE1kRegMap[index].readable;
|
---|
5855 |
|
---|
5856 | return VINF_SUCCESS;
|
---|
5857 | }
|
---|
5858 |
|
---|
5859 | /**
|
---|
5860 | * Write handler for unimplemented registers.
|
---|
5861 | *
|
---|
5862 | * Merely reports writes to unimplemented registers.
|
---|
5863 | *
|
---|
5864 | * @param pThis The device state structure.
|
---|
5865 | * @param offset Register offset in memory-mapped frame.
|
---|
5866 | * @param index Register index in register array.
|
---|
5867 | * @param value The value to store.
|
---|
5868 | * @thread EMT
|
---|
5869 | */
|
---|
5870 |
|
---|
5871 | static int e1kRegWriteUnimplemented(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5872 | {
|
---|
5873 | RT_NOREF_PV(pDevIns); RT_NOREF_PV(pThis); RT_NOREF_PV(offset); RT_NOREF_PV(index); RT_NOREF_PV(value);
|
---|
5874 |
|
---|
5875 | E1kLog(("%s At %08X write attempt (%08X) to unimplemented register %s (%s)\n",
|
---|
5876 | pThis->szPrf, offset, value, g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
5877 |
|
---|
5878 | return VINF_SUCCESS;
|
---|
5879 | }
|
---|
5880 |
|
---|
5881 | /**
|
---|
5882 | * Default register write handler.
|
---|
5883 | *
|
---|
5884 | * Stores the value to the register array in device state structure. Only bits
|
---|
5885 | * corresponding to 1s both in 'writable' and 'mask' will be stored.
|
---|
5886 | *
|
---|
5887 | * @returns VBox status code.
|
---|
5888 | *
|
---|
5889 | * @param pThis The device state structure.
|
---|
5890 | * @param offset Register offset in memory-mapped frame.
|
---|
5891 | * @param index Register index in register array.
|
---|
5892 | * @param value The value to store.
|
---|
5893 | * @param mask Used to implement partial writes (8 and 16-bit).
|
---|
5894 | * @thread EMT
|
---|
5895 | */
|
---|
5896 |
|
---|
5897 | static int e1kRegWriteDefault(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offset, uint32_t index, uint32_t value)
|
---|
5898 | {
|
---|
5899 | RT_NOREF(pDevIns, offset);
|
---|
5900 |
|
---|
5901 | AssertReturn(index < E1K_NUM_OF_32BIT_REGS, VERR_DEV_IO_ERROR);
|
---|
5902 | pThis->auRegs[index] = (value & g_aE1kRegMap[index].writable)
|
---|
5903 | | (pThis->auRegs[index] & ~g_aE1kRegMap[index].writable);
|
---|
5904 |
|
---|
5905 | return VINF_SUCCESS;
|
---|
5906 | }
|
---|
5907 |
|
---|
5908 | /**
|
---|
5909 | * Search register table for matching register.
|
---|
5910 | *
|
---|
5911 | * @returns Index in the register table or -1 if not found.
|
---|
5912 | *
|
---|
5913 | * @param offReg Register offset in memory-mapped region.
|
---|
5914 | * @thread EMT
|
---|
5915 | */
|
---|
5916 | static int e1kRegLookup(uint32_t offReg)
|
---|
5917 | {
|
---|
5918 |
|
---|
5919 | #if 0
|
---|
5920 | int index;
|
---|
5921 |
|
---|
5922 | for (index = 0; index < E1K_NUM_OF_REGS; index++)
|
---|
5923 | {
|
---|
5924 | if (g_aE1kRegMap[index].offset <= offReg && offReg < g_aE1kRegMap[index].offset + g_aE1kRegMap[index].size)
|
---|
5925 | {
|
---|
5926 | return index;
|
---|
5927 | }
|
---|
5928 | }
|
---|
5929 | #else
|
---|
5930 | int iStart = 0;
|
---|
5931 | int iEnd = E1K_NUM_OF_BINARY_SEARCHABLE;
|
---|
5932 | for (;;)
|
---|
5933 | {
|
---|
5934 | int i = (iEnd - iStart) / 2 + iStart;
|
---|
5935 | uint32_t offCur = g_aE1kRegMap[i].offset;
|
---|
5936 | if (offReg < offCur)
|
---|
5937 | {
|
---|
5938 | if (i == iStart)
|
---|
5939 | break;
|
---|
5940 | iEnd = i;
|
---|
5941 | }
|
---|
5942 | else if (offReg >= offCur + g_aE1kRegMap[i].size)
|
---|
5943 | {
|
---|
5944 | i++;
|
---|
5945 | if (i == iEnd)
|
---|
5946 | break;
|
---|
5947 | iStart = i;
|
---|
5948 | }
|
---|
5949 | else
|
---|
5950 | return i;
|
---|
5951 | Assert(iEnd > iStart);
|
---|
5952 | }
|
---|
5953 |
|
---|
5954 | for (unsigned i = E1K_NUM_OF_BINARY_SEARCHABLE; i < RT_ELEMENTS(g_aE1kRegMap); i++)
|
---|
5955 | if (offReg - g_aE1kRegMap[i].offset < g_aE1kRegMap[i].size)
|
---|
5956 | return i;
|
---|
5957 |
|
---|
5958 | # ifdef VBOX_STRICT
|
---|
5959 | for (unsigned i = 0; i < RT_ELEMENTS(g_aE1kRegMap); i++)
|
---|
5960 | Assert(offReg - g_aE1kRegMap[i].offset >= g_aE1kRegMap[i].size);
|
---|
5961 | # endif
|
---|
5962 |
|
---|
5963 | #endif
|
---|
5964 |
|
---|
5965 | return -1;
|
---|
5966 | }
|
---|
5967 |
|
---|
5968 | /**
|
---|
5969 | * Handle unaligned register read operation.
|
---|
5970 | *
|
---|
5971 | * Looks up and calls appropriate handler.
|
---|
5972 | *
|
---|
5973 | * @returns VBox status code.
|
---|
5974 | *
|
---|
5975 | * @param pDevIns The device instance.
|
---|
5976 | * @param pThis The device state structure.
|
---|
5977 | * @param offReg Register offset in memory-mapped frame.
|
---|
5978 | * @param pv Where to store the result.
|
---|
5979 | * @param cb Number of bytes to read.
|
---|
5980 | * @thread EMT
|
---|
5981 | * @remarks IOM takes care of unaligned and small reads via MMIO. For I/O port
|
---|
5982 | * accesses we have to take care of that ourselves.
|
---|
5983 | */
|
---|
5984 | static int e1kRegReadUnaligned(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offReg, void *pv, uint32_t cb)
|
---|
5985 | {
|
---|
5986 | uint32_t u32 = 0;
|
---|
5987 | uint32_t shift;
|
---|
5988 | int rc = VINF_SUCCESS;
|
---|
5989 | int index = e1kRegLookup(offReg);
|
---|
5990 | #ifdef LOG_ENABLED
|
---|
5991 | char buf[9];
|
---|
5992 | #endif
|
---|
5993 |
|
---|
5994 | /*
|
---|
5995 | * From the spec:
|
---|
5996 | * For registers that should be accessed as 32-bit double words, partial writes (less than a 32-bit
|
---|
5997 | * double word) is ignored. Partial reads return all 32 bits of data regardless of the byte enables.
|
---|
5998 | */
|
---|
5999 |
|
---|
6000 | /*
|
---|
6001 | * To be able to read bytes and short word we convert them to properly
|
---|
6002 | * shifted 32-bit words and masks. The idea is to keep register-specific
|
---|
6003 | * handlers simple. Most accesses will be 32-bit anyway.
|
---|
6004 | */
|
---|
6005 | uint32_t mask;
|
---|
6006 | switch (cb)
|
---|
6007 | {
|
---|
6008 | case 4: mask = 0xFFFFFFFF; break;
|
---|
6009 | case 2: mask = 0x0000FFFF; break;
|
---|
6010 | case 1: mask = 0x000000FF; break;
|
---|
6011 | default:
|
---|
6012 | return PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS, "unsupported op size: offset=%#10x cb=%#10x\n", offReg, cb);
|
---|
6013 | }
|
---|
6014 | if (index != -1)
|
---|
6015 | {
|
---|
6016 | RT_UNTRUSTED_VALIDATED_FENCE(); /* paranoia because of port I/O. */
|
---|
6017 | if (g_aE1kRegMap[index].readable)
|
---|
6018 | {
|
---|
6019 | /* Make the mask correspond to the bits we are about to read. */
|
---|
6020 | shift = (offReg - g_aE1kRegMap[index].offset) % sizeof(uint32_t) * 8;
|
---|
6021 | mask <<= shift;
|
---|
6022 | if (!mask)
|
---|
6023 | return PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS, "Zero mask: offset=%#10x cb=%#10x\n", offReg, cb);
|
---|
6024 | /*
|
---|
6025 | * Read it. Pass the mask so the handler knows what has to be read.
|
---|
6026 | * Mask out irrelevant bits.
|
---|
6027 | */
|
---|
6028 | //rc = e1kCsEnter(pThis, VERR_SEM_BUSY, RT_SRC_POS);
|
---|
6029 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
6030 | return rc;
|
---|
6031 | //pThis->fDelayInts = false;
|
---|
6032 | //pThis->iStatIntLost += pThis->iStatIntLostOne;
|
---|
6033 | //pThis->iStatIntLostOne = 0;
|
---|
6034 | rc = g_aE1kRegMap[index].pfnRead(pDevIns, pThis, offReg & 0xFFFFFFFC, index, &u32);
|
---|
6035 | u32 &= mask;
|
---|
6036 | //e1kCsLeave(pThis);
|
---|
6037 | E1kLog2(("%s At %08X read %s from %s (%s)\n",
|
---|
6038 | pThis->szPrf, offReg, e1kU32toHex(u32, mask, buf), g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
6039 | Log6(("%s At %08X read %s from %s (%s) [UNALIGNED]\n",
|
---|
6040 | pThis->szPrf, offReg, e1kU32toHex(u32, mask, buf), g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
6041 | /* Shift back the result. */
|
---|
6042 | u32 >>= shift;
|
---|
6043 | }
|
---|
6044 | else
|
---|
6045 | E1kLog(("%s At %08X read (%s) attempt from write-only register %s (%s)\n",
|
---|
6046 | pThis->szPrf, offReg, e1kU32toHex(u32, mask, buf), g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
6047 | if (IOM_SUCCESS(rc))
|
---|
6048 | STAM_COUNTER_INC(&pThis->aStatRegReads[index]);
|
---|
6049 | }
|
---|
6050 | else
|
---|
6051 | E1kLog(("%s At %08X read (%s) attempt from non-existing register\n",
|
---|
6052 | pThis->szPrf, offReg, e1kU32toHex(u32, mask, buf)));
|
---|
6053 |
|
---|
6054 | memcpy(pv, &u32, cb);
|
---|
6055 | return rc;
|
---|
6056 | }
|
---|
6057 |
|
---|
6058 | /**
|
---|
6059 | * Handle 4 byte aligned and sized read operation.
|
---|
6060 | *
|
---|
6061 | * Looks up and calls appropriate handler.
|
---|
6062 | *
|
---|
6063 | * @returns VBox status code.
|
---|
6064 | *
|
---|
6065 | * @param pDevIns The device instance.
|
---|
6066 | * @param pThis The device state structure.
|
---|
6067 | * @param offReg Register offset in memory-mapped frame.
|
---|
6068 | * @param pu32 Where to store the result.
|
---|
6069 | * @thread EMT
|
---|
6070 | */
|
---|
6071 | static VBOXSTRICTRC e1kRegReadAlignedU32(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offReg, uint32_t *pu32)
|
---|
6072 | {
|
---|
6073 | Assert(!(offReg & 3));
|
---|
6074 |
|
---|
6075 | /*
|
---|
6076 | * Lookup the register and check that it's readable.
|
---|
6077 | */
|
---|
6078 | VBOXSTRICTRC rc = VINF_SUCCESS;
|
---|
6079 | int idxReg = e1kRegLookup(offReg);
|
---|
6080 | if (RT_LIKELY(idxReg != -1))
|
---|
6081 | {
|
---|
6082 | RT_UNTRUSTED_VALIDATED_FENCE(); /* paranoia because of port I/O. */
|
---|
6083 | if (RT_UNLIKELY(g_aE1kRegMap[idxReg].readable))
|
---|
6084 | {
|
---|
6085 | /*
|
---|
6086 | * Read it. Pass the mask so the handler knows what has to be read.
|
---|
6087 | * Mask out irrelevant bits.
|
---|
6088 | */
|
---|
6089 | //rc = e1kCsEnter(pThis, VERR_SEM_BUSY, RT_SRC_POS);
|
---|
6090 | //if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
6091 | // return rc;
|
---|
6092 | //pThis->fDelayInts = false;
|
---|
6093 | //pThis->iStatIntLost += pThis->iStatIntLostOne;
|
---|
6094 | //pThis->iStatIntLostOne = 0;
|
---|
6095 | rc = g_aE1kRegMap[idxReg].pfnRead(pDevIns, pThis, offReg & 0xFFFFFFFC, idxReg, pu32);
|
---|
6096 | //e1kCsLeave(pThis);
|
---|
6097 | Log6(("%s At %08X read %08X from %s (%s)\n",
|
---|
6098 | pThis->szPrf, offReg, *pu32, g_aE1kRegMap[idxReg].abbrev, g_aE1kRegMap[idxReg].name));
|
---|
6099 | if (IOM_SUCCESS(rc))
|
---|
6100 | STAM_COUNTER_INC(&pThis->aStatRegReads[idxReg]);
|
---|
6101 | }
|
---|
6102 | else
|
---|
6103 | E1kLog(("%s At %08X read attempt from non-readable register %s (%s)\n",
|
---|
6104 | pThis->szPrf, offReg, g_aE1kRegMap[idxReg].abbrev, g_aE1kRegMap[idxReg].name));
|
---|
6105 | }
|
---|
6106 | else
|
---|
6107 | E1kLog(("%s At %08X read attempt from non-existing register\n", pThis->szPrf, offReg));
|
---|
6108 | return rc;
|
---|
6109 | }
|
---|
6110 |
|
---|
6111 | /**
|
---|
6112 | * Handle 4 byte sized and aligned register write operation.
|
---|
6113 | *
|
---|
6114 | * Looks up and calls appropriate handler.
|
---|
6115 | *
|
---|
6116 | * @returns VBox status code.
|
---|
6117 | *
|
---|
6118 | * @param pDevIns The device instance.
|
---|
6119 | * @param pThis The device state structure.
|
---|
6120 | * @param offReg Register offset in memory-mapped frame.
|
---|
6121 | * @param u32Value The value to write.
|
---|
6122 | * @thread EMT
|
---|
6123 | */
|
---|
6124 | static VBOXSTRICTRC e1kRegWriteAlignedU32(PPDMDEVINS pDevIns, PE1KSTATE pThis, uint32_t offReg, uint32_t u32Value)
|
---|
6125 | {
|
---|
6126 | VBOXSTRICTRC rc = VINF_SUCCESS;
|
---|
6127 | int index = e1kRegLookup(offReg);
|
---|
6128 | if (RT_LIKELY(index != -1))
|
---|
6129 | {
|
---|
6130 | RT_UNTRUSTED_VALIDATED_FENCE(); /* paranoia because of port I/O. */
|
---|
6131 | if (RT_LIKELY(g_aE1kRegMap[index].writable))
|
---|
6132 | {
|
---|
6133 | /*
|
---|
6134 | * Write it. Pass the mask so the handler knows what has to be written.
|
---|
6135 | * Mask out irrelevant bits.
|
---|
6136 | */
|
---|
6137 | Log6(("%s At %08X write %08X to %s (%s)\n",
|
---|
6138 | pThis->szPrf, offReg, u32Value, g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
6139 | //rc = e1kCsEnter(pThis, VERR_SEM_BUSY, RT_SRC_POS);
|
---|
6140 | //if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
6141 | // return rc;
|
---|
6142 | //pThis->fDelayInts = false;
|
---|
6143 | //pThis->iStatIntLost += pThis->iStatIntLostOne;
|
---|
6144 | //pThis->iStatIntLostOne = 0;
|
---|
6145 | rc = g_aE1kRegMap[index].pfnWrite(pDevIns, pThis, offReg, index, u32Value);
|
---|
6146 | //e1kCsLeave(pThis);
|
---|
6147 | }
|
---|
6148 | else
|
---|
6149 | E1kLog(("%s At %08X write attempt (%08X) to read-only register %s (%s)\n",
|
---|
6150 | pThis->szPrf, offReg, u32Value, g_aE1kRegMap[index].abbrev, g_aE1kRegMap[index].name));
|
---|
6151 | if (IOM_SUCCESS(rc))
|
---|
6152 | STAM_COUNTER_INC(&pThis->aStatRegWrites[index]);
|
---|
6153 | }
|
---|
6154 | else
|
---|
6155 | E1kLog(("%s At %08X write attempt (%08X) to non-existing register\n",
|
---|
6156 | pThis->szPrf, offReg, u32Value));
|
---|
6157 | return rc;
|
---|
6158 | }
|
---|
6159 |
|
---|
6160 |
|
---|
6161 | /* -=-=-=-=- MMIO and I/O Port Callbacks -=-=-=-=- */
|
---|
6162 |
|
---|
6163 | /**
|
---|
6164 | * @callback_method_impl{FNIOMMMIONEWREAD}
|
---|
6165 | */
|
---|
6166 | static DECLCALLBACK(VBOXSTRICTRC) e1kMMIORead(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS off, void *pv, uint32_t cb)
|
---|
6167 | {
|
---|
6168 | RT_NOREF2(pvUser, cb);
|
---|
6169 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6170 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatMMIORead), a);
|
---|
6171 |
|
---|
6172 | Assert(off < E1K_MM_SIZE);
|
---|
6173 | Assert(cb == 4);
|
---|
6174 | Assert(!(off & 3));
|
---|
6175 |
|
---|
6176 | VBOXSTRICTRC rcStrict = e1kRegReadAlignedU32(pDevIns, pThis, (uint32_t)off, (uint32_t *)pv);
|
---|
6177 |
|
---|
6178 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatMMIORead), a);
|
---|
6179 | return rcStrict;
|
---|
6180 | }
|
---|
6181 |
|
---|
6182 | /**
|
---|
6183 | * @callback_method_impl{FNIOMMMIONEWWRITE}
|
---|
6184 | */
|
---|
6185 | static DECLCALLBACK(VBOXSTRICTRC) e1kMMIOWrite(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS off, void const *pv, uint32_t cb)
|
---|
6186 | {
|
---|
6187 | RT_NOREF2(pvUser, cb);
|
---|
6188 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6189 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatMMIOWrite), a);
|
---|
6190 |
|
---|
6191 | Assert(off < E1K_MM_SIZE);
|
---|
6192 | Assert(cb == 4);
|
---|
6193 | Assert(!(off & 3));
|
---|
6194 |
|
---|
6195 | VBOXSTRICTRC rcStrict = e1kRegWriteAlignedU32(pDevIns, pThis, (uint32_t)off, *(uint32_t const *)pv);
|
---|
6196 |
|
---|
6197 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatMMIOWrite), a);
|
---|
6198 | return rcStrict;
|
---|
6199 | }
|
---|
6200 |
|
---|
6201 | /**
|
---|
6202 | * @callback_method_impl{FNIOMIOPORTNEWIN}
|
---|
6203 | */
|
---|
6204 | static DECLCALLBACK(VBOXSTRICTRC) e1kIOPortIn(PPDMDEVINS pDevIns, void *pvUser, RTIOPORT offPort, uint32_t *pu32, unsigned cb)
|
---|
6205 | {
|
---|
6206 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6207 | VBOXSTRICTRC rc;
|
---|
6208 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatIORead), a);
|
---|
6209 | RT_NOREF_PV(pvUser);
|
---|
6210 |
|
---|
6211 | if (RT_LIKELY(cb == 4))
|
---|
6212 | switch (offPort)
|
---|
6213 | {
|
---|
6214 | case 0x00: /* IOADDR */
|
---|
6215 | *pu32 = pThis->uSelectedReg;
|
---|
6216 | E1kLog2(("%s e1kIOPortIn: IOADDR(0), selecting register %#010x, val=%#010x\n", pThis->szPrf, pThis->uSelectedReg, *pu32));
|
---|
6217 | rc = VINF_SUCCESS;
|
---|
6218 | break;
|
---|
6219 |
|
---|
6220 | case 0x04: /* IODATA */
|
---|
6221 | if (!(pThis->uSelectedReg & 3))
|
---|
6222 | rc = e1kRegReadAlignedU32(pDevIns, pThis, pThis->uSelectedReg, pu32);
|
---|
6223 | else /** @todo r=bird: I wouldn't be surprised if this unaligned branch wasn't necessary. */
|
---|
6224 | rc = e1kRegReadUnaligned(pDevIns, pThis, pThis->uSelectedReg, pu32, cb);
|
---|
6225 | if (rc == VINF_IOM_R3_MMIO_READ)
|
---|
6226 | rc = VINF_IOM_R3_IOPORT_READ;
|
---|
6227 | E1kLog2(("%s e1kIOPortIn: IODATA(4), reading from selected register %#010x, val=%#010x\n", pThis->szPrf, pThis->uSelectedReg, *pu32));
|
---|
6228 | break;
|
---|
6229 |
|
---|
6230 | default:
|
---|
6231 | E1kLog(("%s e1kIOPortIn: invalid port %#010x\n", pThis->szPrf, offPort));
|
---|
6232 | /** @todo r=bird: Check what real hardware returns here. */
|
---|
6233 | //rc = VERR_IOM_IOPORT_UNUSED; /* Why not? */
|
---|
6234 | rc = VINF_IOM_MMIO_UNUSED_00; /* used to return VINF_SUCCESS and not touch *pu32, which amounted to this. */
|
---|
6235 | break;
|
---|
6236 | }
|
---|
6237 | else
|
---|
6238 | {
|
---|
6239 | E1kLog(("%s e1kIOPortIn: invalid op size: offPort=%RTiop cb=%08x", pThis->szPrf, offPort, cb));
|
---|
6240 | rc = PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS, "%s e1kIOPortIn: invalid op size: offPort=%RTiop cb=%08x\n", pThis->szPrf, offPort, cb);
|
---|
6241 | *pu32 = 0; /** @todo r=bird: Check what real hardware returns here. (Didn't used to set a value here, picked zero as that's what we'd end up in most cases.) */
|
---|
6242 | }
|
---|
6243 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatIORead), a);
|
---|
6244 | return rc;
|
---|
6245 | }
|
---|
6246 |
|
---|
6247 |
|
---|
6248 | /**
|
---|
6249 | * @callback_method_impl{FNIOMIOPORTNEWOUT}
|
---|
6250 | */
|
---|
6251 | static DECLCALLBACK(VBOXSTRICTRC) e1kIOPortOut(PPDMDEVINS pDevIns, void *pvUser, RTIOPORT offPort, uint32_t u32, unsigned cb)
|
---|
6252 | {
|
---|
6253 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6254 | VBOXSTRICTRC rc;
|
---|
6255 | STAM_PROFILE_ADV_START(&pThis->CTX_SUFF_Z(StatIOWrite), a);
|
---|
6256 | RT_NOREF_PV(pvUser);
|
---|
6257 |
|
---|
6258 | E1kLog2(("%s e1kIOPortOut: offPort=%RTiop value=%08x\n", pThis->szPrf, offPort, u32));
|
---|
6259 | if (RT_LIKELY(cb == 4))
|
---|
6260 | {
|
---|
6261 | switch (offPort)
|
---|
6262 | {
|
---|
6263 | case 0x00: /* IOADDR */
|
---|
6264 | pThis->uSelectedReg = u32;
|
---|
6265 | E1kLog2(("%s e1kIOPortOut: IOADDR(0), selected register %08x\n", pThis->szPrf, pThis->uSelectedReg));
|
---|
6266 | rc = VINF_SUCCESS;
|
---|
6267 | break;
|
---|
6268 |
|
---|
6269 | case 0x04: /* IODATA */
|
---|
6270 | E1kLog2(("%s e1kIOPortOut: IODATA(4), writing to selected register %#010x, value=%#010x\n", pThis->szPrf, pThis->uSelectedReg, u32));
|
---|
6271 | if (RT_LIKELY(!(pThis->uSelectedReg & 3)))
|
---|
6272 | {
|
---|
6273 | rc = e1kRegWriteAlignedU32(pDevIns, pThis, pThis->uSelectedReg, u32);
|
---|
6274 | if (rc == VINF_IOM_R3_MMIO_WRITE)
|
---|
6275 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
6276 | }
|
---|
6277 | else
|
---|
6278 | rc = PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS,
|
---|
6279 | "Spec violation: misaligned offset: %#10x, ignored.\n", pThis->uSelectedReg);
|
---|
6280 | break;
|
---|
6281 |
|
---|
6282 | default:
|
---|
6283 | E1kLog(("%s e1kIOPortOut: invalid port %#010x\n", pThis->szPrf, offPort));
|
---|
6284 | rc = PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS, "invalid port %#010x\n", offPort);
|
---|
6285 | }
|
---|
6286 | }
|
---|
6287 | else
|
---|
6288 | {
|
---|
6289 | E1kLog(("%s e1kIOPortOut: invalid op size: offPort=%RTiop cb=%08x\n", pThis->szPrf, offPort, cb));
|
---|
6290 | rc = PDMDevHlpDBGFStop(pDevIns, RT_SRC_POS, "%s: invalid op size: offPort=%RTiop cb=%#x\n", pThis->szPrf, offPort, cb);
|
---|
6291 | }
|
---|
6292 |
|
---|
6293 | STAM_PROFILE_ADV_STOP(&pThis->CTX_SUFF_Z(StatIOWrite), a);
|
---|
6294 | return rc;
|
---|
6295 | }
|
---|
6296 |
|
---|
6297 | #ifdef IN_RING3
|
---|
6298 |
|
---|
6299 | /**
|
---|
6300 | * Dump complete device state to log.
|
---|
6301 | *
|
---|
6302 | * @param pThis Pointer to device state.
|
---|
6303 | */
|
---|
6304 | static void e1kDumpState(PE1KSTATE pThis)
|
---|
6305 | {
|
---|
6306 | RT_NOREF(pThis);
|
---|
6307 | for (int i = 0; i < E1K_NUM_OF_32BIT_REGS; ++i)
|
---|
6308 | E1kLog2(("%s: %8.8s = %08x\n", pThis->szPrf, g_aE1kRegMap[i].abbrev, pThis->auRegs[i]));
|
---|
6309 | # ifdef E1K_INT_STATS
|
---|
6310 | LogRel(("%s: Interrupt attempts: %d\n", pThis->szPrf, pThis->uStatIntTry));
|
---|
6311 | LogRel(("%s: Interrupts raised : %d\n", pThis->szPrf, pThis->uStatInt));
|
---|
6312 | LogRel(("%s: Interrupts lowered: %d\n", pThis->szPrf, pThis->uStatIntLower));
|
---|
6313 | LogRel(("%s: ICR outside ISR : %d\n", pThis->szPrf, pThis->uStatNoIntICR));
|
---|
6314 | LogRel(("%s: IMS raised ints : %d\n", pThis->szPrf, pThis->uStatIntIMS));
|
---|
6315 | LogRel(("%s: Interrupts skipped: %d\n", pThis->szPrf, pThis->uStatIntSkip));
|
---|
6316 | LogRel(("%s: Masked interrupts : %d\n", pThis->szPrf, pThis->uStatIntMasked));
|
---|
6317 | LogRel(("%s: Early interrupts : %d\n", pThis->szPrf, pThis->uStatIntEarly));
|
---|
6318 | LogRel(("%s: Late interrupts : %d\n", pThis->szPrf, pThis->uStatIntLate));
|
---|
6319 | LogRel(("%s: Lost interrupts : %d\n", pThis->szPrf, pThis->iStatIntLost));
|
---|
6320 | LogRel(("%s: Interrupts by RX : %d\n", pThis->szPrf, pThis->uStatIntRx));
|
---|
6321 | LogRel(("%s: Interrupts by TX : %d\n", pThis->szPrf, pThis->uStatIntTx));
|
---|
6322 | LogRel(("%s: Interrupts by ICS : %d\n", pThis->szPrf, pThis->uStatIntICS));
|
---|
6323 | LogRel(("%s: Interrupts by RDTR: %d\n", pThis->szPrf, pThis->uStatIntRDTR));
|
---|
6324 | LogRel(("%s: Interrupts by RDMT: %d\n", pThis->szPrf, pThis->uStatIntRXDMT0));
|
---|
6325 | LogRel(("%s: Interrupts by TXQE: %d\n", pThis->szPrf, pThis->uStatIntTXQE));
|
---|
6326 | LogRel(("%s: TX int delay asked: %d\n", pThis->szPrf, pThis->uStatTxIDE));
|
---|
6327 | LogRel(("%s: TX delayed: %d\n", pThis->szPrf, pThis->uStatTxDelayed));
|
---|
6328 | LogRel(("%s: TX delay expired: %d\n", pThis->szPrf, pThis->uStatTxDelayExp));
|
---|
6329 | LogRel(("%s: TX no report asked: %d\n", pThis->szPrf, pThis->uStatTxNoRS));
|
---|
6330 | LogRel(("%s: TX abs timer expd : %d\n", pThis->szPrf, pThis->uStatTAD));
|
---|
6331 | LogRel(("%s: TX int timer expd : %d\n", pThis->szPrf, pThis->uStatTID));
|
---|
6332 | LogRel(("%s: RX abs timer expd : %d\n", pThis->szPrf, pThis->uStatRAD));
|
---|
6333 | LogRel(("%s: RX int timer expd : %d\n", pThis->szPrf, pThis->uStatRID));
|
---|
6334 | LogRel(("%s: TX CTX descriptors: %d\n", pThis->szPrf, pThis->uStatDescCtx));
|
---|
6335 | LogRel(("%s: TX DAT descriptors: %d\n", pThis->szPrf, pThis->uStatDescDat));
|
---|
6336 | LogRel(("%s: TX LEG descriptors: %d\n", pThis->szPrf, pThis->uStatDescLeg));
|
---|
6337 | LogRel(("%s: Received frames : %d\n", pThis->szPrf, pThis->uStatRxFrm));
|
---|
6338 | LogRel(("%s: Transmitted frames: %d\n", pThis->szPrf, pThis->uStatTxFrm));
|
---|
6339 | LogRel(("%s: TX frames up to 1514: %d\n", pThis->szPrf, pThis->uStatTx1514));
|
---|
6340 | LogRel(("%s: TX frames up to 2962: %d\n", pThis->szPrf, pThis->uStatTx2962));
|
---|
6341 | LogRel(("%s: TX frames up to 4410: %d\n", pThis->szPrf, pThis->uStatTx4410));
|
---|
6342 | LogRel(("%s: TX frames up to 5858: %d\n", pThis->szPrf, pThis->uStatTx5858));
|
---|
6343 | LogRel(("%s: TX frames up to 7306: %d\n", pThis->szPrf, pThis->uStatTx7306));
|
---|
6344 | LogRel(("%s: TX frames up to 8754: %d\n", pThis->szPrf, pThis->uStatTx8754));
|
---|
6345 | LogRel(("%s: TX frames up to 16384: %d\n", pThis->szPrf, pThis->uStatTx16384));
|
---|
6346 | LogRel(("%s: TX frames up to 32768: %d\n", pThis->szPrf, pThis->uStatTx32768));
|
---|
6347 | LogRel(("%s: Larger TX frames : %d\n", pThis->szPrf, pThis->uStatTxLarge));
|
---|
6348 | LogRel(("%s: Max TX Delay : %lld\n", pThis->szPrf, pThis->uStatMaxTxDelay));
|
---|
6349 | # endif /* E1K_INT_STATS */
|
---|
6350 | }
|
---|
6351 |
|
---|
6352 |
|
---|
6353 | /* -=-=-=-=- PDMINETWORKDOWN -=-=-=-=- */
|
---|
6354 |
|
---|
6355 | /**
|
---|
6356 | * Check if the device can receive data now.
|
---|
6357 | * This must be called before the pfnRecieve() method is called.
|
---|
6358 | *
|
---|
6359 | * @returns Number of bytes the device can receive.
|
---|
6360 | * @param pDevIns The device instance.
|
---|
6361 | * @param pThis The instance data.
|
---|
6362 | * @thread EMT
|
---|
6363 | */
|
---|
6364 | static int e1kCanReceive(PPDMDEVINS pDevIns, PE1KSTATE pThis)
|
---|
6365 | {
|
---|
6366 | #ifndef E1K_WITH_RXD_CACHE
|
---|
6367 | size_t cb;
|
---|
6368 |
|
---|
6369 | if (RT_UNLIKELY(e1kCsRxEnter(pThis, VERR_SEM_BUSY) != VINF_SUCCESS))
|
---|
6370 | return VERR_NET_NO_BUFFER_SPACE;
|
---|
6371 |
|
---|
6372 | if (RT_UNLIKELY(RDLEN == sizeof(E1KRXDESC)))
|
---|
6373 | {
|
---|
6374 | E1KRXDESC desc;
|
---|
6375 | PDMDevHlpPhysRead(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), &desc, sizeof(desc));
|
---|
6376 | if (desc.status.fDD)
|
---|
6377 | cb = 0;
|
---|
6378 | else
|
---|
6379 | cb = pThis->u16RxBSize;
|
---|
6380 | }
|
---|
6381 | else if (RDH < RDT)
|
---|
6382 | cb = (RDT - RDH) * pThis->u16RxBSize;
|
---|
6383 | else if (RDH > RDT)
|
---|
6384 | cb = (RDLEN/sizeof(E1KRXDESC) - RDH + RDT) * pThis->u16RxBSize;
|
---|
6385 | else
|
---|
6386 | {
|
---|
6387 | cb = 0;
|
---|
6388 | E1kLogRel(("E1000: OUT of RX descriptors!\n"));
|
---|
6389 | }
|
---|
6390 | E1kLog2(("%s e1kCanReceive: at exit RDH=%d RDT=%d RDLEN=%d u16RxBSize=%d cb=%lu\n",
|
---|
6391 | pThis->szPrf, RDH, RDT, RDLEN, pThis->u16RxBSize, cb));
|
---|
6392 |
|
---|
6393 | e1kCsRxLeave(pThis);
|
---|
6394 | return cb > 0 ? VINF_SUCCESS : VERR_NET_NO_BUFFER_SPACE;
|
---|
6395 | #else /* E1K_WITH_RXD_CACHE */
|
---|
6396 | int rc = VINF_SUCCESS;
|
---|
6397 |
|
---|
6398 | if (RT_UNLIKELY(e1kCsRxEnter(pThis, VERR_SEM_BUSY) != VINF_SUCCESS))
|
---|
6399 | return VERR_NET_NO_BUFFER_SPACE;
|
---|
6400 |
|
---|
6401 | if (RT_UNLIKELY(RDLEN == sizeof(E1KRXDESC)))
|
---|
6402 | {
|
---|
6403 | E1KRXDESC desc;
|
---|
6404 | PDMDevHlpPhysRead(pDevIns, e1kDescAddr(RDBAH, RDBAL, RDH), &desc, sizeof(desc));
|
---|
6405 | if (desc.status.fDD)
|
---|
6406 | rc = VERR_NET_NO_BUFFER_SPACE;
|
---|
6407 | }
|
---|
6408 | else if (e1kRxDIsCacheEmpty(pThis) && RDH == RDT)
|
---|
6409 | {
|
---|
6410 | /* Cache is empty, so is the RX ring. */
|
---|
6411 | rc = VERR_NET_NO_BUFFER_SPACE;
|
---|
6412 | }
|
---|
6413 | E1kLog2(("%s e1kCanReceive: at exit in_cache=%d RDH=%d RDT=%d RDLEN=%d"
|
---|
6414 | " u16RxBSize=%d rc=%Rrc\n", pThis->szPrf,
|
---|
6415 | e1kRxDInCache(pThis), RDH, RDT, RDLEN, pThis->u16RxBSize, rc));
|
---|
6416 |
|
---|
6417 | e1kCsRxLeave(pThis);
|
---|
6418 | return rc;
|
---|
6419 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
6420 | }
|
---|
6421 |
|
---|
6422 | /**
|
---|
6423 | * @interface_method_impl{PDMINETWORKDOWN,pfnWaitReceiveAvail}
|
---|
6424 | */
|
---|
6425 | static DECLCALLBACK(int) e1kR3NetworkDown_WaitReceiveAvail(PPDMINETWORKDOWN pInterface, RTMSINTERVAL cMillies)
|
---|
6426 | {
|
---|
6427 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkDown);
|
---|
6428 | PE1KSTATE pThis = pThisCC->pShared;
|
---|
6429 | PPDMDEVINS pDevIns = pThisCC->pDevInsR3;
|
---|
6430 |
|
---|
6431 | int rc = e1kCanReceive(pDevIns, pThis);
|
---|
6432 |
|
---|
6433 | if (RT_SUCCESS(rc))
|
---|
6434 | return VINF_SUCCESS;
|
---|
6435 | if (RT_UNLIKELY(cMillies == 0))
|
---|
6436 | return VERR_NET_NO_BUFFER_SPACE;
|
---|
6437 |
|
---|
6438 | rc = VERR_INTERRUPTED;
|
---|
6439 | ASMAtomicXchgBool(&pThis->fMaybeOutOfSpace, true);
|
---|
6440 | STAM_PROFILE_START(&pThis->StatRxOverflow, a);
|
---|
6441 | VMSTATE enmVMState;
|
---|
6442 | while (RT_LIKELY( (enmVMState = PDMDevHlpVMState(pDevIns)) == VMSTATE_RUNNING
|
---|
6443 | || enmVMState == VMSTATE_RUNNING_LS))
|
---|
6444 | {
|
---|
6445 | int rc2 = e1kCanReceive(pDevIns, pThis);
|
---|
6446 | if (RT_SUCCESS(rc2))
|
---|
6447 | {
|
---|
6448 | rc = VINF_SUCCESS;
|
---|
6449 | break;
|
---|
6450 | }
|
---|
6451 | E1kLogRel(("E1000: e1kR3NetworkDown_WaitReceiveAvail: waiting cMillies=%u...\n", cMillies));
|
---|
6452 | E1kLog(("%s: e1kR3NetworkDown_WaitReceiveAvail: waiting cMillies=%u...\n", pThis->szPrf, cMillies));
|
---|
6453 | PDMDevHlpSUPSemEventWaitNoResume(pDevIns, pThis->hEventMoreRxDescAvail, cMillies);
|
---|
6454 | }
|
---|
6455 | STAM_PROFILE_STOP(&pThis->StatRxOverflow, a);
|
---|
6456 | ASMAtomicXchgBool(&pThis->fMaybeOutOfSpace, false);
|
---|
6457 |
|
---|
6458 | return rc;
|
---|
6459 | }
|
---|
6460 |
|
---|
6461 |
|
---|
6462 | /**
|
---|
6463 | * Matches the packet addresses against Receive Address table. Looks for
|
---|
6464 | * exact matches only.
|
---|
6465 | *
|
---|
6466 | * @returns true if address matches.
|
---|
6467 | * @param pThis Pointer to the state structure.
|
---|
6468 | * @param pvBuf The ethernet packet.
|
---|
6469 | * @param cb Number of bytes available in the packet.
|
---|
6470 | * @thread EMT
|
---|
6471 | */
|
---|
6472 | static bool e1kPerfectMatch(PE1KSTATE pThis, const void *pvBuf)
|
---|
6473 | {
|
---|
6474 | for (unsigned i = 0; i < RT_ELEMENTS(pThis->aRecAddr.array); i++)
|
---|
6475 | {
|
---|
6476 | E1KRAELEM* ra = pThis->aRecAddr.array + i;
|
---|
6477 |
|
---|
6478 | /* Valid address? */
|
---|
6479 | if (ra->ctl & RA_CTL_AV)
|
---|
6480 | {
|
---|
6481 | Assert((ra->ctl & RA_CTL_AS) < 2);
|
---|
6482 | //unsigned char *pAddr = (unsigned char*)pvBuf + sizeof(ra->addr)*(ra->ctl & RA_CTL_AS);
|
---|
6483 | //E1kLog3(("%s Matching %02x:%02x:%02x:%02x:%02x:%02x against %02x:%02x:%02x:%02x:%02x:%02x...\n",
|
---|
6484 | // pThis->szPrf, pAddr[0], pAddr[1], pAddr[2], pAddr[3], pAddr[4], pAddr[5],
|
---|
6485 | // ra->addr[0], ra->addr[1], ra->addr[2], ra->addr[3], ra->addr[4], ra->addr[5]));
|
---|
6486 | /*
|
---|
6487 | * Address Select:
|
---|
6488 | * 00b = Destination address
|
---|
6489 | * 01b = Source address
|
---|
6490 | * 10b = Reserved
|
---|
6491 | * 11b = Reserved
|
---|
6492 | * Since ethernet header is (DA, SA, len) we can use address
|
---|
6493 | * select as index.
|
---|
6494 | */
|
---|
6495 | if (memcmp((char*)pvBuf + sizeof(ra->addr)*(ra->ctl & RA_CTL_AS),
|
---|
6496 | ra->addr, sizeof(ra->addr)) == 0)
|
---|
6497 | return true;
|
---|
6498 | }
|
---|
6499 | }
|
---|
6500 |
|
---|
6501 | return false;
|
---|
6502 | }
|
---|
6503 |
|
---|
6504 | /**
|
---|
6505 | * Matches the packet addresses against Multicast Table Array.
|
---|
6506 | *
|
---|
6507 | * @remarks This is imperfect match since it matches not exact address but
|
---|
6508 | * a subset of addresses.
|
---|
6509 | *
|
---|
6510 | * @returns true if address matches.
|
---|
6511 | * @param pThis Pointer to the state structure.
|
---|
6512 | * @param pvBuf The ethernet packet.
|
---|
6513 | * @param cb Number of bytes available in the packet.
|
---|
6514 | * @thread EMT
|
---|
6515 | */
|
---|
6516 | static bool e1kImperfectMatch(PE1KSTATE pThis, const void *pvBuf)
|
---|
6517 | {
|
---|
6518 | /* Get bits 32..47 of destination address */
|
---|
6519 | uint16_t u16Bit = ((uint16_t*)pvBuf)[2];
|
---|
6520 |
|
---|
6521 | unsigned offset = GET_BITS(RCTL, MO);
|
---|
6522 | /*
|
---|
6523 | * offset means:
|
---|
6524 | * 00b = bits 36..47
|
---|
6525 | * 01b = bits 35..46
|
---|
6526 | * 10b = bits 34..45
|
---|
6527 | * 11b = bits 32..43
|
---|
6528 | */
|
---|
6529 | if (offset < 3)
|
---|
6530 | u16Bit = u16Bit >> (4 - offset);
|
---|
6531 | return ASMBitTest(pThis->auMTA, u16Bit & 0xFFF);
|
---|
6532 | }
|
---|
6533 |
|
---|
6534 | /**
|
---|
6535 | * Determines if the packet is to be delivered to upper layer.
|
---|
6536 | *
|
---|
6537 | * The following filters supported:
|
---|
6538 | * - Exact Unicast/Multicast
|
---|
6539 | * - Promiscuous Unicast/Multicast
|
---|
6540 | * - Multicast
|
---|
6541 | * - VLAN
|
---|
6542 | *
|
---|
6543 | * @returns true if packet is intended for this node.
|
---|
6544 | * @param pThis Pointer to the state structure.
|
---|
6545 | * @param pvBuf The ethernet packet.
|
---|
6546 | * @param cb Number of bytes available in the packet.
|
---|
6547 | * @param pStatus Bit field to store status bits.
|
---|
6548 | * @thread EMT
|
---|
6549 | */
|
---|
6550 | static bool e1kAddressFilter(PE1KSTATE pThis, const void *pvBuf, size_t cb, E1KRXDST *pStatus)
|
---|
6551 | {
|
---|
6552 | Assert(cb > 14);
|
---|
6553 | /* Assume that we fail to pass exact filter. */
|
---|
6554 | pStatus->fPIF = false;
|
---|
6555 | pStatus->fVP = false;
|
---|
6556 | /* Discard oversized packets */
|
---|
6557 | if (cb > E1K_MAX_RX_PKT_SIZE)
|
---|
6558 | {
|
---|
6559 | E1kLog(("%s ERROR: Incoming packet is too big, cb=%d > max=%d\n",
|
---|
6560 | pThis->szPrf, cb, E1K_MAX_RX_PKT_SIZE));
|
---|
6561 | E1K_INC_CNT32(ROC);
|
---|
6562 | return false;
|
---|
6563 | }
|
---|
6564 | else if (!(RCTL & RCTL_LPE) && cb > 1522)
|
---|
6565 | {
|
---|
6566 | /* When long packet reception is disabled packets over 1522 are discarded */
|
---|
6567 | E1kLog(("%s Discarding incoming packet (LPE=0), cb=%d\n",
|
---|
6568 | pThis->szPrf, cb));
|
---|
6569 | E1K_INC_CNT32(ROC);
|
---|
6570 | return false;
|
---|
6571 | }
|
---|
6572 |
|
---|
6573 | uint16_t *u16Ptr = (uint16_t*)pvBuf;
|
---|
6574 | /* Compare TPID with VLAN Ether Type */
|
---|
6575 | if (RT_BE2H_U16(u16Ptr[6]) == VET)
|
---|
6576 | {
|
---|
6577 | pStatus->fVP = true;
|
---|
6578 | /* Is VLAN filtering enabled? */
|
---|
6579 | if (RCTL & RCTL_VFE)
|
---|
6580 | {
|
---|
6581 | /* It is 802.1q packet indeed, let's filter by VID */
|
---|
6582 | if (RCTL & RCTL_CFIEN)
|
---|
6583 | {
|
---|
6584 | E1kLog3(("%s VLAN filter: VLAN=%d CFI=%d RCTL_CFI=%d\n", pThis->szPrf,
|
---|
6585 | E1K_SPEC_VLAN(RT_BE2H_U16(u16Ptr[7])),
|
---|
6586 | E1K_SPEC_CFI(RT_BE2H_U16(u16Ptr[7])),
|
---|
6587 | !!(RCTL & RCTL_CFI)));
|
---|
6588 | if (E1K_SPEC_CFI(RT_BE2H_U16(u16Ptr[7])) != !!(RCTL & RCTL_CFI))
|
---|
6589 | {
|
---|
6590 | E1kLog2(("%s Packet filter: CFIs do not match in packet and RCTL (%d!=%d)\n",
|
---|
6591 | pThis->szPrf, E1K_SPEC_CFI(RT_BE2H_U16(u16Ptr[7])), !!(RCTL & RCTL_CFI)));
|
---|
6592 | return false;
|
---|
6593 | }
|
---|
6594 | }
|
---|
6595 | else
|
---|
6596 | E1kLog3(("%s VLAN filter: VLAN=%d\n", pThis->szPrf,
|
---|
6597 | E1K_SPEC_VLAN(RT_BE2H_U16(u16Ptr[7]))));
|
---|
6598 | if (!ASMBitTest(pThis->auVFTA, E1K_SPEC_VLAN(RT_BE2H_U16(u16Ptr[7]))))
|
---|
6599 | {
|
---|
6600 | E1kLog2(("%s Packet filter: no VLAN match (id=%d)\n",
|
---|
6601 | pThis->szPrf, E1K_SPEC_VLAN(RT_BE2H_U16(u16Ptr[7]))));
|
---|
6602 | return false;
|
---|
6603 | }
|
---|
6604 | }
|
---|
6605 | }
|
---|
6606 | /* Broadcast filtering */
|
---|
6607 | if (e1kIsBroadcast(pvBuf) && (RCTL & RCTL_BAM))
|
---|
6608 | return true;
|
---|
6609 | E1kLog2(("%s Packet filter: not a broadcast\n", pThis->szPrf));
|
---|
6610 | if (e1kIsMulticast(pvBuf))
|
---|
6611 | {
|
---|
6612 | /* Is multicast promiscuous enabled? */
|
---|
6613 | if (RCTL & RCTL_MPE)
|
---|
6614 | return true;
|
---|
6615 | E1kLog2(("%s Packet filter: no promiscuous multicast\n", pThis->szPrf));
|
---|
6616 | /* Try perfect matches first */
|
---|
6617 | if (e1kPerfectMatch(pThis, pvBuf))
|
---|
6618 | {
|
---|
6619 | pStatus->fPIF = true;
|
---|
6620 | return true;
|
---|
6621 | }
|
---|
6622 | E1kLog2(("%s Packet filter: no perfect match\n", pThis->szPrf));
|
---|
6623 | if (e1kImperfectMatch(pThis, pvBuf))
|
---|
6624 | return true;
|
---|
6625 | E1kLog2(("%s Packet filter: no imperfect match\n", pThis->szPrf));
|
---|
6626 | }
|
---|
6627 | else {
|
---|
6628 | /* Is unicast promiscuous enabled? */
|
---|
6629 | if (RCTL & RCTL_UPE)
|
---|
6630 | return true;
|
---|
6631 | E1kLog2(("%s Packet filter: no promiscuous unicast\n", pThis->szPrf));
|
---|
6632 | if (e1kPerfectMatch(pThis, pvBuf))
|
---|
6633 | {
|
---|
6634 | pStatus->fPIF = true;
|
---|
6635 | return true;
|
---|
6636 | }
|
---|
6637 | E1kLog2(("%s Packet filter: no perfect match\n", pThis->szPrf));
|
---|
6638 | }
|
---|
6639 | E1kLog2(("%s Packet filter: packet discarded\n", pThis->szPrf));
|
---|
6640 | return false;
|
---|
6641 | }
|
---|
6642 |
|
---|
6643 | /**
|
---|
6644 | * @interface_method_impl{PDMINETWORKDOWN,pfnReceive}
|
---|
6645 | */
|
---|
6646 | static DECLCALLBACK(int) e1kR3NetworkDown_Receive(PPDMINETWORKDOWN pInterface, const void *pvBuf, size_t cb)
|
---|
6647 | {
|
---|
6648 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkDown);
|
---|
6649 | PE1KSTATE pThis = pThisCC->pShared;
|
---|
6650 | PPDMDEVINS pDevIns = pThisCC->pDevInsR3;
|
---|
6651 | int rc = VINF_SUCCESS;
|
---|
6652 |
|
---|
6653 | /*
|
---|
6654 | * Drop packets if the VM is not running yet/anymore.
|
---|
6655 | */
|
---|
6656 | VMSTATE enmVMState = PDMDevHlpVMState(pDevIns);
|
---|
6657 | if ( enmVMState != VMSTATE_RUNNING
|
---|
6658 | && enmVMState != VMSTATE_RUNNING_LS)
|
---|
6659 | {
|
---|
6660 | E1kLog(("%s Dropping incoming packet as VM is not running.\n", pThis->szPrf));
|
---|
6661 | return VINF_SUCCESS;
|
---|
6662 | }
|
---|
6663 |
|
---|
6664 | /* Discard incoming packets in locked state */
|
---|
6665 | if (!(RCTL & RCTL_EN) || pThis->fLocked || !(STATUS & STATUS_LU))
|
---|
6666 | {
|
---|
6667 | E1kLog(("%s Dropping incoming packet as receive operation is disabled.\n", pThis->szPrf));
|
---|
6668 | return VINF_SUCCESS;
|
---|
6669 | }
|
---|
6670 |
|
---|
6671 | STAM_PROFILE_ADV_START(&pThis->StatReceive, a);
|
---|
6672 |
|
---|
6673 | //if (!e1kCsEnter(pThis, RT_SRC_POS))
|
---|
6674 | // return VERR_PERMISSION_DENIED;
|
---|
6675 |
|
---|
6676 | e1kPacketDump(pDevIns, pThis, (const uint8_t*)pvBuf, cb, "<-- Incoming");
|
---|
6677 |
|
---|
6678 | /* Update stats */
|
---|
6679 | if (RT_LIKELY(e1kCsEnter(pThis, VERR_SEM_BUSY) == VINF_SUCCESS))
|
---|
6680 | {
|
---|
6681 | E1K_INC_CNT32(TPR);
|
---|
6682 | E1K_ADD_CNT64(TORL, TORH, cb < 64? 64 : cb);
|
---|
6683 | e1kCsLeave(pThis);
|
---|
6684 | }
|
---|
6685 | STAM_PROFILE_ADV_START(&pThis->StatReceiveFilter, a);
|
---|
6686 | E1KRXDST status;
|
---|
6687 | RT_ZERO(status);
|
---|
6688 | bool fPassed = e1kAddressFilter(pThis, pvBuf, cb, &status);
|
---|
6689 | STAM_PROFILE_ADV_STOP(&pThis->StatReceiveFilter, a);
|
---|
6690 | if (fPassed)
|
---|
6691 | {
|
---|
6692 | rc = e1kHandleRxPacket(pDevIns, pThis, pvBuf, cb, status);
|
---|
6693 | }
|
---|
6694 | //e1kCsLeave(pThis);
|
---|
6695 | STAM_PROFILE_ADV_STOP(&pThis->StatReceive, a);
|
---|
6696 |
|
---|
6697 | return rc;
|
---|
6698 | }
|
---|
6699 |
|
---|
6700 |
|
---|
6701 | /* -=-=-=-=- PDMILEDPORTS -=-=-=-=- */
|
---|
6702 |
|
---|
6703 | /**
|
---|
6704 | * @interface_method_impl{PDMILEDPORTS,pfnQueryStatusLed}
|
---|
6705 | */
|
---|
6706 | static DECLCALLBACK(int) e1kR3QueryStatusLed(PPDMILEDPORTS pInterface, unsigned iLUN, PPDMLED *ppLed)
|
---|
6707 | {
|
---|
6708 | if (iLUN == 0)
|
---|
6709 | {
|
---|
6710 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, ILeds);
|
---|
6711 | *ppLed = &pThisCC->pShared->led;
|
---|
6712 | return VINF_SUCCESS;
|
---|
6713 | }
|
---|
6714 | return VERR_PDM_LUN_NOT_FOUND;
|
---|
6715 | }
|
---|
6716 |
|
---|
6717 |
|
---|
6718 | /* -=-=-=-=- PDMINETWORKCONFIG -=-=-=-=- */
|
---|
6719 |
|
---|
6720 | /**
|
---|
6721 | * @interface_method_impl{PDMINETWORKCONFIG,pfnGetMac}
|
---|
6722 | */
|
---|
6723 | static DECLCALLBACK(int) e1kR3GetMac(PPDMINETWORKCONFIG pInterface, PRTMAC pMac)
|
---|
6724 | {
|
---|
6725 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkConfig);
|
---|
6726 | pThisCC->eeprom.getMac(pMac);
|
---|
6727 | return VINF_SUCCESS;
|
---|
6728 | }
|
---|
6729 |
|
---|
6730 | /**
|
---|
6731 | * @interface_method_impl{PDMINETWORKCONFIG,pfnGetLinkState}
|
---|
6732 | */
|
---|
6733 | static DECLCALLBACK(PDMNETWORKLINKSTATE) e1kR3GetLinkState(PPDMINETWORKCONFIG pInterface)
|
---|
6734 | {
|
---|
6735 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkConfig);
|
---|
6736 | PE1KSTATE pThis = pThisCC->pShared;
|
---|
6737 | if (STATUS & STATUS_LU)
|
---|
6738 | return PDMNETWORKLINKSTATE_UP;
|
---|
6739 | return PDMNETWORKLINKSTATE_DOWN;
|
---|
6740 | }
|
---|
6741 |
|
---|
6742 | /**
|
---|
6743 | * @interface_method_impl{PDMINETWORKCONFIG,pfnSetLinkState}
|
---|
6744 | */
|
---|
6745 | static DECLCALLBACK(int) e1kR3SetLinkState(PPDMINETWORKCONFIG pInterface, PDMNETWORKLINKSTATE enmState)
|
---|
6746 | {
|
---|
6747 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, INetworkConfig);
|
---|
6748 | PE1KSTATE pThis = pThisCC->pShared;
|
---|
6749 | PPDMDEVINS pDevIns = pThisCC->pDevInsR3;
|
---|
6750 |
|
---|
6751 | E1kLog(("%s e1kR3SetLinkState: enmState=%d\n", pThis->szPrf, enmState));
|
---|
6752 | switch (enmState)
|
---|
6753 | {
|
---|
6754 | case PDMNETWORKLINKSTATE_UP:
|
---|
6755 | pThis->fCableConnected = true;
|
---|
6756 | /* If link was down, bring it up after a while. */
|
---|
6757 | if (!(STATUS & STATUS_LU))
|
---|
6758 | e1kBringLinkUpDelayed(pDevIns, pThis);
|
---|
6759 | break;
|
---|
6760 | case PDMNETWORKLINKSTATE_DOWN:
|
---|
6761 | pThis->fCableConnected = false;
|
---|
6762 | /* Always set the phy link state to down, regardless of the STATUS_LU bit.
|
---|
6763 | * We might have to set the link state before the driver initializes us. */
|
---|
6764 | Phy::setLinkStatus(&pThis->phy, false);
|
---|
6765 | /* If link was up, bring it down. */
|
---|
6766 | if (STATUS & STATUS_LU)
|
---|
6767 | e1kR3LinkDown(pDevIns, pThis, pThisCC);
|
---|
6768 | break;
|
---|
6769 | case PDMNETWORKLINKSTATE_DOWN_RESUME:
|
---|
6770 | /*
|
---|
6771 | * There is not much sense in bringing down the link if it has not come up yet.
|
---|
6772 | * If it is up though, we bring it down temporarely, then bring it up again.
|
---|
6773 | */
|
---|
6774 | if (STATUS & STATUS_LU)
|
---|
6775 | e1kR3LinkDownTemp(pDevIns, pThis, pThisCC);
|
---|
6776 | break;
|
---|
6777 | default:
|
---|
6778 | ;
|
---|
6779 | }
|
---|
6780 | return VINF_SUCCESS;
|
---|
6781 | }
|
---|
6782 |
|
---|
6783 |
|
---|
6784 | /* -=-=-=-=- PDMIBASE -=-=-=-=- */
|
---|
6785 |
|
---|
6786 | /**
|
---|
6787 | * @interface_method_impl{PDMIBASE,pfnQueryInterface}
|
---|
6788 | */
|
---|
6789 | static DECLCALLBACK(void *) e1kR3QueryInterface(struct PDMIBASE *pInterface, const char *pszIID)
|
---|
6790 | {
|
---|
6791 | PE1KSTATECC pThisCC = RT_FROM_MEMBER(pInterface, E1KSTATECC, IBase);
|
---|
6792 | Assert(&pThisCC->IBase == pInterface);
|
---|
6793 |
|
---|
6794 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMIBASE, &pThisCC->IBase);
|
---|
6795 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMINETWORKDOWN, &pThisCC->INetworkDown);
|
---|
6796 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMINETWORKCONFIG, &pThisCC->INetworkConfig);
|
---|
6797 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMILEDPORTS, &pThisCC->ILeds);
|
---|
6798 | return NULL;
|
---|
6799 | }
|
---|
6800 |
|
---|
6801 |
|
---|
6802 | /* -=-=-=-=- Saved State -=-=-=-=- */
|
---|
6803 |
|
---|
6804 | /**
|
---|
6805 | * Saves the configuration.
|
---|
6806 | *
|
---|
6807 | * @param pThis The E1K state.
|
---|
6808 | * @param pSSM The handle to the saved state.
|
---|
6809 | */
|
---|
6810 | static void e1kSaveConfig(PCPDMDEVHLPR3 pHlp, PE1KSTATE pThis, PSSMHANDLE pSSM)
|
---|
6811 | {
|
---|
6812 | pHlp->pfnSSMPutMem(pSSM, &pThis->macConfigured, sizeof(pThis->macConfigured));
|
---|
6813 | pHlp->pfnSSMPutU32(pSSM, pThis->eChip);
|
---|
6814 | }
|
---|
6815 |
|
---|
6816 | /**
|
---|
6817 | * @callback_method_impl{FNSSMDEVLIVEEXEC,Save basic configuration.}
|
---|
6818 | */
|
---|
6819 | static DECLCALLBACK(int) e1kLiveExec(PPDMDEVINS pDevIns, PSSMHANDLE pSSM, uint32_t uPass)
|
---|
6820 | {
|
---|
6821 | RT_NOREF(uPass);
|
---|
6822 | e1kSaveConfig(pDevIns->pHlpR3, PDMDEVINS_2_DATA(pDevIns, PE1KSTATE), pSSM);
|
---|
6823 | return VINF_SSM_DONT_CALL_AGAIN;
|
---|
6824 | }
|
---|
6825 |
|
---|
6826 | /**
|
---|
6827 | * @callback_method_impl{FNSSMDEVSAVEPREP,Synchronize.}
|
---|
6828 | */
|
---|
6829 | static DECLCALLBACK(int) e1kSavePrep(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
|
---|
6830 | {
|
---|
6831 | RT_NOREF(pSSM);
|
---|
6832 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6833 |
|
---|
6834 | int rc = e1kCsEnter(pThis, VERR_SEM_BUSY);
|
---|
6835 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
6836 | return rc;
|
---|
6837 | e1kCsLeave(pThis);
|
---|
6838 | return VINF_SUCCESS;
|
---|
6839 | #if 0
|
---|
6840 | /* 1) Prevent all threads from modifying the state and memory */
|
---|
6841 | //pThis->fLocked = true;
|
---|
6842 | /* 2) Cancel all timers */
|
---|
6843 | #ifdef E1K_TX_DELAY
|
---|
6844 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pTXDTimer));
|
---|
6845 | #endif /* E1K_TX_DELAY */
|
---|
6846 | //#ifdef E1K_USE_TX_TIMERS
|
---|
6847 | if (pThis->fTidEnabled)
|
---|
6848 | {
|
---|
6849 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pTIDTimer));
|
---|
6850 | #ifndef E1K_NO_TAD
|
---|
6851 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pTADTimer));
|
---|
6852 | #endif /* E1K_NO_TAD */
|
---|
6853 | }
|
---|
6854 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
6855 | #ifdef E1K_USE_RX_TIMERS
|
---|
6856 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pRIDTimer));
|
---|
6857 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pRADTimer));
|
---|
6858 | #endif /* E1K_USE_RX_TIMERS */
|
---|
6859 | e1kCancelTimer(pThis, pThis->CTX_SUFF(pIntTimer));
|
---|
6860 | /* 3) Did I forget anything? */
|
---|
6861 | E1kLog(("%s Locked\n", pThis->szPrf));
|
---|
6862 | return VINF_SUCCESS;
|
---|
6863 | #endif
|
---|
6864 | }
|
---|
6865 |
|
---|
6866 | /**
|
---|
6867 | * @callback_method_impl{FNSSMDEVSAVEEXEC}
|
---|
6868 | */
|
---|
6869 | static DECLCALLBACK(int) e1kSaveExec(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
|
---|
6870 | {
|
---|
6871 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6872 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
6873 | PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
|
---|
6874 |
|
---|
6875 | e1kSaveConfig(pHlp, pThis, pSSM);
|
---|
6876 | pThisCC->eeprom.save(pHlp, pSSM);
|
---|
6877 | e1kDumpState(pThis);
|
---|
6878 | pHlp->pfnSSMPutMem(pSSM, pThis->auRegs, sizeof(pThis->auRegs));
|
---|
6879 | pHlp->pfnSSMPutBool(pSSM, pThis->fIntRaised);
|
---|
6880 | Phy::saveState(pHlp, pSSM, &pThis->phy);
|
---|
6881 | pHlp->pfnSSMPutU32(pSSM, pThis->uSelectedReg);
|
---|
6882 | pHlp->pfnSSMPutMem(pSSM, pThis->auMTA, sizeof(pThis->auMTA));
|
---|
6883 | pHlp->pfnSSMPutMem(pSSM, &pThis->aRecAddr, sizeof(pThis->aRecAddr));
|
---|
6884 | pHlp->pfnSSMPutMem(pSSM, pThis->auVFTA, sizeof(pThis->auVFTA));
|
---|
6885 | pHlp->pfnSSMPutU64(pSSM, pThis->u64AckedAt);
|
---|
6886 | pHlp->pfnSSMPutU16(pSSM, pThis->u16RxBSize);
|
---|
6887 | //pHlp->pfnSSMPutBool(pSSM, pThis->fDelayInts);
|
---|
6888 | //pHlp->pfnSSMPutBool(pSSM, pThis->fIntMaskUsed);
|
---|
6889 | pHlp->pfnSSMPutU16(pSSM, pThis->u16TxPktLen);
|
---|
6890 | /** @todo State wrt to the TSE buffer is incomplete, so little point in
|
---|
6891 | * saving this actually. */
|
---|
6892 | pHlp->pfnSSMPutMem(pSSM, pThis->aTxPacketFallback, pThis->u16TxPktLen);
|
---|
6893 | pHlp->pfnSSMPutBool(pSSM, pThis->fIPcsum);
|
---|
6894 | pHlp->pfnSSMPutBool(pSSM, pThis->fTCPcsum);
|
---|
6895 | pHlp->pfnSSMPutMem(pSSM, &pThis->contextTSE, sizeof(pThis->contextTSE));
|
---|
6896 | pHlp->pfnSSMPutMem(pSSM, &pThis->contextNormal, sizeof(pThis->contextNormal));
|
---|
6897 | pHlp->pfnSSMPutBool(pSSM, pThis->fVTag);
|
---|
6898 | pHlp->pfnSSMPutU16(pSSM, pThis->u16VTagTCI);
|
---|
6899 | #ifdef E1K_WITH_TXD_CACHE
|
---|
6900 | # if 0
|
---|
6901 | pHlp->pfnSSMPutU8(pSSM, pThis->nTxDFetched);
|
---|
6902 | pHlp->pfnSSMPutMem(pSSM, pThis->aTxDescriptors,
|
---|
6903 | pThis->nTxDFetched * sizeof(pThis->aTxDescriptors[0]));
|
---|
6904 | # else
|
---|
6905 | /*
|
---|
6906 | * There is no point in storing TX descriptor cache entries as we can simply
|
---|
6907 | * fetch them again. Moreover, normally the cache is always empty when we
|
---|
6908 | * save the state. Store zero entries for compatibility.
|
---|
6909 | */
|
---|
6910 | pHlp->pfnSSMPutU8(pSSM, 0);
|
---|
6911 | # endif
|
---|
6912 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
6913 | /** @todo GSO requires some more state here. */
|
---|
6914 | E1kLog(("%s State has been saved\n", pThis->szPrf));
|
---|
6915 | return VINF_SUCCESS;
|
---|
6916 | }
|
---|
6917 |
|
---|
6918 | #if 0
|
---|
6919 | /**
|
---|
6920 | * @callback_method_impl{FNSSMDEVSAVEDONE}
|
---|
6921 | */
|
---|
6922 | static DECLCALLBACK(int) e1kSaveDone(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
|
---|
6923 | {
|
---|
6924 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6925 |
|
---|
6926 | /* If VM is being powered off unlocking will result in assertions in PGM */
|
---|
6927 | if (PDMDevHlpGetVM(pDevIns)->enmVMState == VMSTATE_RUNNING)
|
---|
6928 | pThis->fLocked = false;
|
---|
6929 | else
|
---|
6930 | E1kLog(("%s VM is not running -- remain locked\n", pThis->szPrf));
|
---|
6931 | E1kLog(("%s Unlocked\n", pThis->szPrf));
|
---|
6932 | return VINF_SUCCESS;
|
---|
6933 | }
|
---|
6934 | #endif
|
---|
6935 |
|
---|
6936 | /**
|
---|
6937 | * @callback_method_impl{FNSSMDEVLOADPREP,Synchronize.}
|
---|
6938 | */
|
---|
6939 | static DECLCALLBACK(int) e1kLoadPrep(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
|
---|
6940 | {
|
---|
6941 | RT_NOREF(pSSM);
|
---|
6942 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6943 |
|
---|
6944 | int rc = e1kCsEnter(pThis, VERR_SEM_BUSY);
|
---|
6945 | if (RT_UNLIKELY(rc != VINF_SUCCESS))
|
---|
6946 | return rc;
|
---|
6947 | e1kCsLeave(pThis);
|
---|
6948 | return VINF_SUCCESS;
|
---|
6949 | }
|
---|
6950 |
|
---|
6951 | /**
|
---|
6952 | * @callback_method_impl{FNSSMDEVLOADEXEC}
|
---|
6953 | */
|
---|
6954 | static DECLCALLBACK(int) e1kLoadExec(PPDMDEVINS pDevIns, PSSMHANDLE pSSM, uint32_t uVersion, uint32_t uPass)
|
---|
6955 | {
|
---|
6956 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
6957 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
6958 | PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
|
---|
6959 | int rc;
|
---|
6960 |
|
---|
6961 | if ( uVersion != E1K_SAVEDSTATE_VERSION
|
---|
6962 | #ifdef E1K_WITH_TXD_CACHE
|
---|
6963 | && uVersion != E1K_SAVEDSTATE_VERSION_VBOX_42_VTAG
|
---|
6964 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
6965 | && uVersion != E1K_SAVEDSTATE_VERSION_VBOX_41
|
---|
6966 | && uVersion != E1K_SAVEDSTATE_VERSION_VBOX_30)
|
---|
6967 | return VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION;
|
---|
6968 |
|
---|
6969 | if ( uVersion > E1K_SAVEDSTATE_VERSION_VBOX_30
|
---|
6970 | || uPass != SSM_PASS_FINAL)
|
---|
6971 | {
|
---|
6972 | /* config checks */
|
---|
6973 | RTMAC macConfigured;
|
---|
6974 | rc = pHlp->pfnSSMGetMem(pSSM, &macConfigured, sizeof(macConfigured));
|
---|
6975 | AssertRCReturn(rc, rc);
|
---|
6976 | if ( memcmp(&macConfigured, &pThis->macConfigured, sizeof(macConfigured))
|
---|
6977 | && (uPass == 0 || !PDMDevHlpVMTeleportedAndNotFullyResumedYet(pDevIns)) )
|
---|
6978 | LogRel(("%s: The mac address differs: config=%RTmac saved=%RTmac\n", pThis->szPrf, &pThis->macConfigured, &macConfigured));
|
---|
6979 |
|
---|
6980 | E1KCHIP eChip;
|
---|
6981 | rc = pHlp->pfnSSMGetU32(pSSM, &eChip);
|
---|
6982 | AssertRCReturn(rc, rc);
|
---|
6983 | if (eChip != pThis->eChip)
|
---|
6984 | return pHlp->pfnSSMSetCfgError(pSSM, RT_SRC_POS, N_("The chip type differs: config=%u saved=%u"), pThis->eChip, eChip);
|
---|
6985 | }
|
---|
6986 |
|
---|
6987 | if (uPass == SSM_PASS_FINAL)
|
---|
6988 | {
|
---|
6989 | if (uVersion > E1K_SAVEDSTATE_VERSION_VBOX_30)
|
---|
6990 | {
|
---|
6991 | rc = pThisCC->eeprom.load(pHlp, pSSM);
|
---|
6992 | AssertRCReturn(rc, rc);
|
---|
6993 | }
|
---|
6994 | /* the state */
|
---|
6995 | pHlp->pfnSSMGetMem(pSSM, &pThis->auRegs, sizeof(pThis->auRegs));
|
---|
6996 | pHlp->pfnSSMGetBool(pSSM, &pThis->fIntRaised);
|
---|
6997 | /** @todo PHY could be made a separate device with its own versioning */
|
---|
6998 | Phy::loadState(pHlp, pSSM, &pThis->phy);
|
---|
6999 | pHlp->pfnSSMGetU32(pSSM, &pThis->uSelectedReg);
|
---|
7000 | pHlp->pfnSSMGetMem(pSSM, &pThis->auMTA, sizeof(pThis->auMTA));
|
---|
7001 | pHlp->pfnSSMGetMem(pSSM, &pThis->aRecAddr, sizeof(pThis->aRecAddr));
|
---|
7002 | pHlp->pfnSSMGetMem(pSSM, &pThis->auVFTA, sizeof(pThis->auVFTA));
|
---|
7003 | pHlp->pfnSSMGetU64(pSSM, &pThis->u64AckedAt);
|
---|
7004 | pHlp->pfnSSMGetU16(pSSM, &pThis->u16RxBSize);
|
---|
7005 | //pHlp->pfnSSMGetBool(pSSM, pThis->fDelayInts);
|
---|
7006 | //pHlp->pfnSSMGetBool(pSSM, pThis->fIntMaskUsed);
|
---|
7007 | rc = pHlp->pfnSSMGetU16(pSSM, &pThis->u16TxPktLen);
|
---|
7008 | AssertRCReturn(rc, rc);
|
---|
7009 | if (pThis->u16TxPktLen > sizeof(pThis->aTxPacketFallback))
|
---|
7010 | pThis->u16TxPktLen = sizeof(pThis->aTxPacketFallback);
|
---|
7011 | pHlp->pfnSSMGetMem(pSSM, &pThis->aTxPacketFallback[0], pThis->u16TxPktLen);
|
---|
7012 | pHlp->pfnSSMGetBool(pSSM, &pThis->fIPcsum);
|
---|
7013 | pHlp->pfnSSMGetBool(pSSM, &pThis->fTCPcsum);
|
---|
7014 | pHlp->pfnSSMGetMem(pSSM, &pThis->contextTSE, sizeof(pThis->contextTSE));
|
---|
7015 | rc = pHlp->pfnSSMGetMem(pSSM, &pThis->contextNormal, sizeof(pThis->contextNormal));
|
---|
7016 | AssertRCReturn(rc, rc);
|
---|
7017 | if (uVersion > E1K_SAVEDSTATE_VERSION_VBOX_41)
|
---|
7018 | {
|
---|
7019 | pHlp->pfnSSMGetBool(pSSM, &pThis->fVTag);
|
---|
7020 | rc = pHlp->pfnSSMGetU16(pSSM, &pThis->u16VTagTCI);
|
---|
7021 | AssertRCReturn(rc, rc);
|
---|
7022 | }
|
---|
7023 | else
|
---|
7024 | {
|
---|
7025 | pThis->fVTag = false;
|
---|
7026 | pThis->u16VTagTCI = 0;
|
---|
7027 | }
|
---|
7028 | #ifdef E1K_WITH_TXD_CACHE
|
---|
7029 | if (uVersion > E1K_SAVEDSTATE_VERSION_VBOX_42_VTAG)
|
---|
7030 | {
|
---|
7031 | rc = pHlp->pfnSSMGetU8(pSSM, &pThis->nTxDFetched);
|
---|
7032 | AssertRCReturn(rc, rc);
|
---|
7033 | if (pThis->nTxDFetched)
|
---|
7034 | pHlp->pfnSSMGetMem(pSSM, pThis->aTxDescriptors,
|
---|
7035 | pThis->nTxDFetched * sizeof(pThis->aTxDescriptors[0]));
|
---|
7036 | }
|
---|
7037 | else
|
---|
7038 | pThis->nTxDFetched = 0;
|
---|
7039 | /**
|
---|
7040 | * @todo Perhaps we should not store TXD cache as the entries can be
|
---|
7041 | * simply fetched again from guest's memory. Or can't they?
|
---|
7042 | */
|
---|
7043 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
7044 | #ifdef E1K_WITH_RXD_CACHE
|
---|
7045 | /*
|
---|
7046 | * There is no point in storing the RX descriptor cache in the saved
|
---|
7047 | * state, we just need to make sure it is empty.
|
---|
7048 | */
|
---|
7049 | pThis->iRxDCurrent = pThis->nRxDFetched = 0;
|
---|
7050 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
7051 | rc = pHlp->pfnSSMHandleGetStatus(pSSM);
|
---|
7052 | AssertRCReturn(rc, rc);
|
---|
7053 |
|
---|
7054 | /* derived state */
|
---|
7055 | e1kSetupGsoCtx(&pThis->GsoCtx, &pThis->contextTSE);
|
---|
7056 |
|
---|
7057 | E1kLog(("%s State has been restored\n", pThis->szPrf));
|
---|
7058 | e1kDumpState(pThis);
|
---|
7059 | }
|
---|
7060 | return VINF_SUCCESS;
|
---|
7061 | }
|
---|
7062 |
|
---|
7063 | /**
|
---|
7064 | * @callback_method_impl{FNSSMDEVLOADDONE, Link status adjustments after loading.}
|
---|
7065 | */
|
---|
7066 | static DECLCALLBACK(int) e1kLoadDone(PPDMDEVINS pDevIns, PSSMHANDLE pSSM)
|
---|
7067 | {
|
---|
7068 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7069 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
7070 | RT_NOREF(pSSM);
|
---|
7071 |
|
---|
7072 | /* Update promiscuous mode */
|
---|
7073 | if (pThisCC->pDrvR3)
|
---|
7074 | pThisCC->pDrvR3->pfnSetPromiscuousMode(pThisCC->pDrvR3, !!(RCTL & (RCTL_UPE | RCTL_MPE)));
|
---|
7075 |
|
---|
7076 | /*
|
---|
7077 | * Force the link down here, since PDMNETWORKLINKSTATE_DOWN_RESUME is never
|
---|
7078 | * passed to us. We go through all this stuff if the link was up and we
|
---|
7079 | * wasn't teleported.
|
---|
7080 | */
|
---|
7081 | if ( (STATUS & STATUS_LU)
|
---|
7082 | && !PDMDevHlpVMTeleportedAndNotFullyResumedYet(pDevIns)
|
---|
7083 | && pThis->cMsLinkUpDelay)
|
---|
7084 | {
|
---|
7085 | e1kR3LinkDownTemp(pDevIns, pThis, pThisCC);
|
---|
7086 | }
|
---|
7087 | return VINF_SUCCESS;
|
---|
7088 | }
|
---|
7089 |
|
---|
7090 |
|
---|
7091 |
|
---|
7092 | /* -=-=-=-=- Debug Info + Log Types -=-=-=-=- */
|
---|
7093 |
|
---|
7094 | /**
|
---|
7095 | * @callback_method_impl{FNRTSTRFORMATTYPE}
|
---|
7096 | */
|
---|
7097 | static DECLCALLBACK(size_t) e1kFmtRxDesc(PFNRTSTROUTPUT pfnOutput,
|
---|
7098 | void *pvArgOutput,
|
---|
7099 | const char *pszType,
|
---|
7100 | void const *pvValue,
|
---|
7101 | int cchWidth,
|
---|
7102 | int cchPrecision,
|
---|
7103 | unsigned fFlags,
|
---|
7104 | void *pvUser)
|
---|
7105 | {
|
---|
7106 | RT_NOREF(cchWidth, cchPrecision, fFlags, pvUser);
|
---|
7107 | AssertReturn(strcmp(pszType, "e1krxd") == 0, 0);
|
---|
7108 | E1KRXDESC* pDesc = (E1KRXDESC*)pvValue;
|
---|
7109 | if (!pDesc)
|
---|
7110 | return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "NULL_RXD");
|
---|
7111 |
|
---|
7112 | size_t cbPrintf = 0;
|
---|
7113 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "Address=%16LX Length=%04X Csum=%04X\n",
|
---|
7114 | pDesc->u64BufAddr, pDesc->u16Length, pDesc->u16Checksum);
|
---|
7115 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, " STA: %s %s %s %s %s %s %s ERR: %s %s %s %s SPECIAL: %s VLAN=%03x PRI=%x",
|
---|
7116 | pDesc->status.fPIF ? "PIF" : "pif",
|
---|
7117 | pDesc->status.fIPCS ? "IPCS" : "ipcs",
|
---|
7118 | pDesc->status.fTCPCS ? "TCPCS" : "tcpcs",
|
---|
7119 | pDesc->status.fVP ? "VP" : "vp",
|
---|
7120 | pDesc->status.fIXSM ? "IXSM" : "ixsm",
|
---|
7121 | pDesc->status.fEOP ? "EOP" : "eop",
|
---|
7122 | pDesc->status.fDD ? "DD" : "dd",
|
---|
7123 | pDesc->status.fRXE ? "RXE" : "rxe",
|
---|
7124 | pDesc->status.fIPE ? "IPE" : "ipe",
|
---|
7125 | pDesc->status.fTCPE ? "TCPE" : "tcpe",
|
---|
7126 | pDesc->status.fCE ? "CE" : "ce",
|
---|
7127 | E1K_SPEC_CFI(pDesc->status.u16Special) ? "CFI" :"cfi",
|
---|
7128 | E1K_SPEC_VLAN(pDesc->status.u16Special),
|
---|
7129 | E1K_SPEC_PRI(pDesc->status.u16Special));
|
---|
7130 | return cbPrintf;
|
---|
7131 | }
|
---|
7132 |
|
---|
7133 | /**
|
---|
7134 | * @callback_method_impl{FNRTSTRFORMATTYPE}
|
---|
7135 | */
|
---|
7136 | static DECLCALLBACK(size_t) e1kFmtTxDesc(PFNRTSTROUTPUT pfnOutput,
|
---|
7137 | void *pvArgOutput,
|
---|
7138 | const char *pszType,
|
---|
7139 | void const *pvValue,
|
---|
7140 | int cchWidth,
|
---|
7141 | int cchPrecision,
|
---|
7142 | unsigned fFlags,
|
---|
7143 | void *pvUser)
|
---|
7144 | {
|
---|
7145 | RT_NOREF(cchWidth, cchPrecision, fFlags, pvUser);
|
---|
7146 | AssertReturn(strcmp(pszType, "e1ktxd") == 0, 0);
|
---|
7147 | E1KTXDESC *pDesc = (E1KTXDESC*)pvValue;
|
---|
7148 | if (!pDesc)
|
---|
7149 | return RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "NULL_TXD");
|
---|
7150 |
|
---|
7151 | size_t cbPrintf = 0;
|
---|
7152 | switch (e1kGetDescType(pDesc))
|
---|
7153 | {
|
---|
7154 | case E1K_DTYP_CONTEXT:
|
---|
7155 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "Type=Context\n"
|
---|
7156 | " IPCSS=%02X IPCSO=%02X IPCSE=%04X TUCSS=%02X TUCSO=%02X TUCSE=%04X\n"
|
---|
7157 | " TUCMD:%s%s%s %s %s PAYLEN=%04x HDRLEN=%04x MSS=%04x STA: %s",
|
---|
7158 | pDesc->context.ip.u8CSS, pDesc->context.ip.u8CSO, pDesc->context.ip.u16CSE,
|
---|
7159 | pDesc->context.tu.u8CSS, pDesc->context.tu.u8CSO, pDesc->context.tu.u16CSE,
|
---|
7160 | pDesc->context.dw2.fIDE ? " IDE":"",
|
---|
7161 | pDesc->context.dw2.fRS ? " RS" :"",
|
---|
7162 | pDesc->context.dw2.fTSE ? " TSE":"",
|
---|
7163 | pDesc->context.dw2.fIP ? "IPv4":"IPv6",
|
---|
7164 | pDesc->context.dw2.fTCP ? "TCP":"UDP",
|
---|
7165 | pDesc->context.dw2.u20PAYLEN,
|
---|
7166 | pDesc->context.dw3.u8HDRLEN,
|
---|
7167 | pDesc->context.dw3.u16MSS,
|
---|
7168 | pDesc->context.dw3.fDD?"DD":"");
|
---|
7169 | break;
|
---|
7170 | case E1K_DTYP_DATA:
|
---|
7171 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "Type=Data Address=%16LX DTALEN=%05X\n"
|
---|
7172 | " DCMD:%s%s%s%s%s%s%s STA:%s%s%s POPTS:%s%s SPECIAL:%s VLAN=%03x PRI=%x",
|
---|
7173 | pDesc->data.u64BufAddr,
|
---|
7174 | pDesc->data.cmd.u20DTALEN,
|
---|
7175 | pDesc->data.cmd.fIDE ? " IDE" :"",
|
---|
7176 | pDesc->data.cmd.fVLE ? " VLE" :"",
|
---|
7177 | pDesc->data.cmd.fRPS ? " RPS" :"",
|
---|
7178 | pDesc->data.cmd.fRS ? " RS" :"",
|
---|
7179 | pDesc->data.cmd.fTSE ? " TSE" :"",
|
---|
7180 | pDesc->data.cmd.fIFCS? " IFCS":"",
|
---|
7181 | pDesc->data.cmd.fEOP ? " EOP" :"",
|
---|
7182 | pDesc->data.dw3.fDD ? " DD" :"",
|
---|
7183 | pDesc->data.dw3.fEC ? " EC" :"",
|
---|
7184 | pDesc->data.dw3.fLC ? " LC" :"",
|
---|
7185 | pDesc->data.dw3.fTXSM? " TXSM":"",
|
---|
7186 | pDesc->data.dw3.fIXSM? " IXSM":"",
|
---|
7187 | E1K_SPEC_CFI(pDesc->data.dw3.u16Special) ? "CFI" :"cfi",
|
---|
7188 | E1K_SPEC_VLAN(pDesc->data.dw3.u16Special),
|
---|
7189 | E1K_SPEC_PRI(pDesc->data.dw3.u16Special));
|
---|
7190 | break;
|
---|
7191 | case E1K_DTYP_LEGACY:
|
---|
7192 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "Type=Legacy Address=%16LX DTALEN=%05X\n"
|
---|
7193 | " CMD:%s%s%s%s%s%s%s STA:%s%s%s CSO=%02x CSS=%02x SPECIAL:%s VLAN=%03x PRI=%x",
|
---|
7194 | pDesc->data.u64BufAddr,
|
---|
7195 | pDesc->legacy.cmd.u16Length,
|
---|
7196 | pDesc->legacy.cmd.fIDE ? " IDE" :"",
|
---|
7197 | pDesc->legacy.cmd.fVLE ? " VLE" :"",
|
---|
7198 | pDesc->legacy.cmd.fRPS ? " RPS" :"",
|
---|
7199 | pDesc->legacy.cmd.fRS ? " RS" :"",
|
---|
7200 | pDesc->legacy.cmd.fIC ? " IC" :"",
|
---|
7201 | pDesc->legacy.cmd.fIFCS? " IFCS":"",
|
---|
7202 | pDesc->legacy.cmd.fEOP ? " EOP" :"",
|
---|
7203 | pDesc->legacy.dw3.fDD ? " DD" :"",
|
---|
7204 | pDesc->legacy.dw3.fEC ? " EC" :"",
|
---|
7205 | pDesc->legacy.dw3.fLC ? " LC" :"",
|
---|
7206 | pDesc->legacy.cmd.u8CSO,
|
---|
7207 | pDesc->legacy.dw3.u8CSS,
|
---|
7208 | E1K_SPEC_CFI(pDesc->legacy.dw3.u16Special) ? "CFI" :"cfi",
|
---|
7209 | E1K_SPEC_VLAN(pDesc->legacy.dw3.u16Special),
|
---|
7210 | E1K_SPEC_PRI(pDesc->legacy.dw3.u16Special));
|
---|
7211 | break;
|
---|
7212 | default:
|
---|
7213 | cbPrintf += RTStrFormat(pfnOutput, pvArgOutput, NULL, 0, "Invalid Transmit Descriptor");
|
---|
7214 | break;
|
---|
7215 | }
|
---|
7216 |
|
---|
7217 | return cbPrintf;
|
---|
7218 | }
|
---|
7219 |
|
---|
7220 | /** Initializes debug helpers (logging format types). */
|
---|
7221 | static int e1kInitDebugHelpers(void)
|
---|
7222 | {
|
---|
7223 | int rc = VINF_SUCCESS;
|
---|
7224 | static bool s_fHelpersRegistered = false;
|
---|
7225 | if (!s_fHelpersRegistered)
|
---|
7226 | {
|
---|
7227 | s_fHelpersRegistered = true;
|
---|
7228 | rc = RTStrFormatTypeRegister("e1krxd", e1kFmtRxDesc, NULL);
|
---|
7229 | AssertRCReturn(rc, rc);
|
---|
7230 | rc = RTStrFormatTypeRegister("e1ktxd", e1kFmtTxDesc, NULL);
|
---|
7231 | AssertRCReturn(rc, rc);
|
---|
7232 | }
|
---|
7233 | return rc;
|
---|
7234 | }
|
---|
7235 |
|
---|
7236 | /**
|
---|
7237 | * Status info callback.
|
---|
7238 | *
|
---|
7239 | * @param pDevIns The device instance.
|
---|
7240 | * @param pHlp The output helpers.
|
---|
7241 | * @param pszArgs The arguments.
|
---|
7242 | */
|
---|
7243 | static DECLCALLBACK(void) e1kInfo(PPDMDEVINS pDevIns, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
7244 | {
|
---|
7245 | RT_NOREF(pszArgs);
|
---|
7246 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7247 | unsigned i;
|
---|
7248 | // bool fRcvRing = false;
|
---|
7249 | // bool fXmtRing = false;
|
---|
7250 |
|
---|
7251 | /*
|
---|
7252 | * Parse args.
|
---|
7253 | if (pszArgs)
|
---|
7254 | {
|
---|
7255 | fRcvRing = strstr(pszArgs, "verbose") || strstr(pszArgs, "rcv");
|
---|
7256 | fXmtRing = strstr(pszArgs, "verbose") || strstr(pszArgs, "xmt");
|
---|
7257 | }
|
---|
7258 | */
|
---|
7259 |
|
---|
7260 | /*
|
---|
7261 | * Show info.
|
---|
7262 | */
|
---|
7263 | pHlp->pfnPrintf(pHlp, "E1000 #%d: port=%04x mmio=%RGp mac-cfg=%RTmac %s%s%s\n",
|
---|
7264 | pDevIns->iInstance,
|
---|
7265 | PDMDevHlpIoPortGetMappingAddress(pDevIns, pThis->hIoPorts),
|
---|
7266 | PDMDevHlpMmioGetMappingAddress(pDevIns, pThis->hMmioRegion),
|
---|
7267 | &pThis->macConfigured, g_aChips[pThis->eChip].pcszName,
|
---|
7268 | pDevIns->fRCEnabled ? " RC" : "", pDevIns->fR0Enabled ? " R0" : "");
|
---|
7269 |
|
---|
7270 | e1kCsEnter(pThis, VERR_INTERNAL_ERROR); /* Not sure why but PCNet does it */
|
---|
7271 |
|
---|
7272 | for (i = 0; i < E1K_NUM_OF_32BIT_REGS; ++i)
|
---|
7273 | pHlp->pfnPrintf(pHlp, "%8.8s = %08x\n", g_aE1kRegMap[i].abbrev, pThis->auRegs[i]);
|
---|
7274 |
|
---|
7275 | for (i = 0; i < RT_ELEMENTS(pThis->aRecAddr.array); i++)
|
---|
7276 | {
|
---|
7277 | E1KRAELEM* ra = pThis->aRecAddr.array + i;
|
---|
7278 | if (ra->ctl & RA_CTL_AV)
|
---|
7279 | {
|
---|
7280 | const char *pcszTmp;
|
---|
7281 | switch (ra->ctl & RA_CTL_AS)
|
---|
7282 | {
|
---|
7283 | case 0: pcszTmp = "DST"; break;
|
---|
7284 | case 1: pcszTmp = "SRC"; break;
|
---|
7285 | default: pcszTmp = "reserved";
|
---|
7286 | }
|
---|
7287 | pHlp->pfnPrintf(pHlp, "RA%02d: %s %RTmac\n", i, pcszTmp, ra->addr);
|
---|
7288 | }
|
---|
7289 | }
|
---|
7290 | unsigned cDescs = RDLEN / sizeof(E1KRXDESC);
|
---|
7291 | uint32_t rdh = RDH;
|
---|
7292 | pHlp->pfnPrintf(pHlp, "\n-- Receive Descriptors (%d total) --\n", cDescs);
|
---|
7293 | for (i = 0; i < cDescs; ++i)
|
---|
7294 | {
|
---|
7295 | E1KRXDESC desc;
|
---|
7296 | PDMDevHlpPhysRead(pDevIns, e1kDescAddr(RDBAH, RDBAL, i),
|
---|
7297 | &desc, sizeof(desc));
|
---|
7298 | if (i == rdh)
|
---|
7299 | pHlp->pfnPrintf(pHlp, ">>> ");
|
---|
7300 | pHlp->pfnPrintf(pHlp, "%RGp: %R[e1krxd]\n", e1kDescAddr(RDBAH, RDBAL, i), &desc);
|
---|
7301 | }
|
---|
7302 | #ifdef E1K_WITH_RXD_CACHE
|
---|
7303 | pHlp->pfnPrintf(pHlp, "\n-- Receive Descriptors in Cache (at %d (RDH %d)/ fetched %d / max %d) --\n",
|
---|
7304 | pThis->iRxDCurrent, RDH, pThis->nRxDFetched, E1K_RXD_CACHE_SIZE);
|
---|
7305 | if (rdh > pThis->iRxDCurrent)
|
---|
7306 | rdh -= pThis->iRxDCurrent;
|
---|
7307 | else
|
---|
7308 | rdh = cDescs + rdh - pThis->iRxDCurrent;
|
---|
7309 | for (i = 0; i < pThis->nRxDFetched; ++i)
|
---|
7310 | {
|
---|
7311 | if (i == pThis->iRxDCurrent)
|
---|
7312 | pHlp->pfnPrintf(pHlp, ">>> ");
|
---|
7313 | pHlp->pfnPrintf(pHlp, "%RGp: %R[e1krxd]\n",
|
---|
7314 | e1kDescAddr(RDBAH, RDBAL, rdh++ % cDescs),
|
---|
7315 | &pThis->aRxDescriptors[i]);
|
---|
7316 | }
|
---|
7317 | #endif /* E1K_WITH_RXD_CACHE */
|
---|
7318 |
|
---|
7319 | cDescs = TDLEN / sizeof(E1KTXDESC);
|
---|
7320 | uint32_t tdh = TDH;
|
---|
7321 | pHlp->pfnPrintf(pHlp, "\n-- Transmit Descriptors (%d total) --\n", cDescs);
|
---|
7322 | for (i = 0; i < cDescs; ++i)
|
---|
7323 | {
|
---|
7324 | E1KTXDESC desc;
|
---|
7325 | PDMDevHlpPhysRead(pDevIns, e1kDescAddr(TDBAH, TDBAL, i),
|
---|
7326 | &desc, sizeof(desc));
|
---|
7327 | if (i == tdh)
|
---|
7328 | pHlp->pfnPrintf(pHlp, ">>> ");
|
---|
7329 | pHlp->pfnPrintf(pHlp, "%RGp: %R[e1ktxd]\n", e1kDescAddr(TDBAH, TDBAL, i), &desc);
|
---|
7330 | }
|
---|
7331 | #ifdef E1K_WITH_TXD_CACHE
|
---|
7332 | pHlp->pfnPrintf(pHlp, "\n-- Transmit Descriptors in Cache (at %d (TDH %d)/ fetched %d / max %d) --\n",
|
---|
7333 | pThis->iTxDCurrent, TDH, pThis->nTxDFetched, E1K_TXD_CACHE_SIZE);
|
---|
7334 | if (tdh > pThis->iTxDCurrent)
|
---|
7335 | tdh -= pThis->iTxDCurrent;
|
---|
7336 | else
|
---|
7337 | tdh = cDescs + tdh - pThis->iTxDCurrent;
|
---|
7338 | for (i = 0; i < pThis->nTxDFetched; ++i)
|
---|
7339 | {
|
---|
7340 | if (i == pThis->iTxDCurrent)
|
---|
7341 | pHlp->pfnPrintf(pHlp, ">>> ");
|
---|
7342 | pHlp->pfnPrintf(pHlp, "%RGp: %R[e1ktxd]\n",
|
---|
7343 | e1kDescAddr(TDBAH, TDBAL, tdh++ % cDescs),
|
---|
7344 | &pThis->aTxDescriptors[i]);
|
---|
7345 | }
|
---|
7346 | #endif /* E1K_WITH_TXD_CACHE */
|
---|
7347 |
|
---|
7348 |
|
---|
7349 | #ifdef E1K_INT_STATS
|
---|
7350 | pHlp->pfnPrintf(pHlp, "Interrupt attempts: %d\n", pThis->uStatIntTry);
|
---|
7351 | pHlp->pfnPrintf(pHlp, "Interrupts raised : %d\n", pThis->uStatInt);
|
---|
7352 | pHlp->pfnPrintf(pHlp, "Interrupts lowered: %d\n", pThis->uStatIntLower);
|
---|
7353 | pHlp->pfnPrintf(pHlp, "ICR outside ISR : %d\n", pThis->uStatNoIntICR);
|
---|
7354 | pHlp->pfnPrintf(pHlp, "IMS raised ints : %d\n", pThis->uStatIntIMS);
|
---|
7355 | pHlp->pfnPrintf(pHlp, "Interrupts skipped: %d\n", pThis->uStatIntSkip);
|
---|
7356 | pHlp->pfnPrintf(pHlp, "Masked interrupts : %d\n", pThis->uStatIntMasked);
|
---|
7357 | pHlp->pfnPrintf(pHlp, "Early interrupts : %d\n", pThis->uStatIntEarly);
|
---|
7358 | pHlp->pfnPrintf(pHlp, "Late interrupts : %d\n", pThis->uStatIntLate);
|
---|
7359 | pHlp->pfnPrintf(pHlp, "Lost interrupts : %d\n", pThis->iStatIntLost);
|
---|
7360 | pHlp->pfnPrintf(pHlp, "Interrupts by RX : %d\n", pThis->uStatIntRx);
|
---|
7361 | pHlp->pfnPrintf(pHlp, "Interrupts by TX : %d\n", pThis->uStatIntTx);
|
---|
7362 | pHlp->pfnPrintf(pHlp, "Interrupts by ICS : %d\n", pThis->uStatIntICS);
|
---|
7363 | pHlp->pfnPrintf(pHlp, "Interrupts by RDTR: %d\n", pThis->uStatIntRDTR);
|
---|
7364 | pHlp->pfnPrintf(pHlp, "Interrupts by RDMT: %d\n", pThis->uStatIntRXDMT0);
|
---|
7365 | pHlp->pfnPrintf(pHlp, "Interrupts by TXQE: %d\n", pThis->uStatIntTXQE);
|
---|
7366 | pHlp->pfnPrintf(pHlp, "TX int delay asked: %d\n", pThis->uStatTxIDE);
|
---|
7367 | pHlp->pfnPrintf(pHlp, "TX delayed: %d\n", pThis->uStatTxDelayed);
|
---|
7368 | pHlp->pfnPrintf(pHlp, "TX delayed expired: %d\n", pThis->uStatTxDelayExp);
|
---|
7369 | pHlp->pfnPrintf(pHlp, "TX no report asked: %d\n", pThis->uStatTxNoRS);
|
---|
7370 | pHlp->pfnPrintf(pHlp, "TX abs timer expd : %d\n", pThis->uStatTAD);
|
---|
7371 | pHlp->pfnPrintf(pHlp, "TX int timer expd : %d\n", pThis->uStatTID);
|
---|
7372 | pHlp->pfnPrintf(pHlp, "RX abs timer expd : %d\n", pThis->uStatRAD);
|
---|
7373 | pHlp->pfnPrintf(pHlp, "RX int timer expd : %d\n", pThis->uStatRID);
|
---|
7374 | pHlp->pfnPrintf(pHlp, "TX CTX descriptors: %d\n", pThis->uStatDescCtx);
|
---|
7375 | pHlp->pfnPrintf(pHlp, "TX DAT descriptors: %d\n", pThis->uStatDescDat);
|
---|
7376 | pHlp->pfnPrintf(pHlp, "TX LEG descriptors: %d\n", pThis->uStatDescLeg);
|
---|
7377 | pHlp->pfnPrintf(pHlp, "Received frames : %d\n", pThis->uStatRxFrm);
|
---|
7378 | pHlp->pfnPrintf(pHlp, "Transmitted frames: %d\n", pThis->uStatTxFrm);
|
---|
7379 | pHlp->pfnPrintf(pHlp, "TX frames up to 1514: %d\n", pThis->uStatTx1514);
|
---|
7380 | pHlp->pfnPrintf(pHlp, "TX frames up to 2962: %d\n", pThis->uStatTx2962);
|
---|
7381 | pHlp->pfnPrintf(pHlp, "TX frames up to 4410: %d\n", pThis->uStatTx4410);
|
---|
7382 | pHlp->pfnPrintf(pHlp, "TX frames up to 5858: %d\n", pThis->uStatTx5858);
|
---|
7383 | pHlp->pfnPrintf(pHlp, "TX frames up to 7306: %d\n", pThis->uStatTx7306);
|
---|
7384 | pHlp->pfnPrintf(pHlp, "TX frames up to 8754: %d\n", pThis->uStatTx8754);
|
---|
7385 | pHlp->pfnPrintf(pHlp, "TX frames up to 16384: %d\n", pThis->uStatTx16384);
|
---|
7386 | pHlp->pfnPrintf(pHlp, "TX frames up to 32768: %d\n", pThis->uStatTx32768);
|
---|
7387 | pHlp->pfnPrintf(pHlp, "Larger TX frames : %d\n", pThis->uStatTxLarge);
|
---|
7388 | #endif /* E1K_INT_STATS */
|
---|
7389 |
|
---|
7390 | e1kCsLeave(pThis);
|
---|
7391 | }
|
---|
7392 |
|
---|
7393 |
|
---|
7394 |
|
---|
7395 | /* -=-=-=-=- PDMDEVREG -=-=-=-=- */
|
---|
7396 |
|
---|
7397 | /**
|
---|
7398 | * Detach notification.
|
---|
7399 | *
|
---|
7400 | * One port on the network card has been disconnected from the network.
|
---|
7401 | *
|
---|
7402 | * @param pDevIns The device instance.
|
---|
7403 | * @param iLUN The logical unit which is being detached.
|
---|
7404 | * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines.
|
---|
7405 | */
|
---|
7406 | static DECLCALLBACK(void) e1kR3Detach(PPDMDEVINS pDevIns, unsigned iLUN, uint32_t fFlags)
|
---|
7407 | {
|
---|
7408 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7409 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
7410 | Log(("%s e1kR3Detach:\n", pThis->szPrf));
|
---|
7411 | RT_NOREF(fFlags);
|
---|
7412 |
|
---|
7413 | AssertLogRelReturnVoid(iLUN == 0);
|
---|
7414 |
|
---|
7415 | PDMDevHlpCritSectEnter(pDevIns, &pThis->cs, VERR_SEM_BUSY);
|
---|
7416 |
|
---|
7417 | /** @todo r=pritesh still need to check if i missed
|
---|
7418 | * to clean something in this function
|
---|
7419 | */
|
---|
7420 |
|
---|
7421 | /*
|
---|
7422 | * Zero some important members.
|
---|
7423 | */
|
---|
7424 | pThisCC->pDrvBase = NULL;
|
---|
7425 | pThisCC->pDrvR3 = NULL;
|
---|
7426 | #if 0 /** @todo @bugref{9218} ring-0 driver stuff */
|
---|
7427 | pThisR0->pDrvR0 = NIL_RTR0PTR;
|
---|
7428 | pThisRC->pDrvRC = NIL_RTRCPTR;
|
---|
7429 | #endif
|
---|
7430 |
|
---|
7431 | PDMDevHlpCritSectLeave(pDevIns, &pThis->cs);
|
---|
7432 | }
|
---|
7433 |
|
---|
7434 | /**
|
---|
7435 | * Attach the Network attachment.
|
---|
7436 | *
|
---|
7437 | * One port on the network card has been connected to a network.
|
---|
7438 | *
|
---|
7439 | * @returns VBox status code.
|
---|
7440 | * @param pDevIns The device instance.
|
---|
7441 | * @param iLUN The logical unit which is being attached.
|
---|
7442 | * @param fFlags Flags, combination of the PDMDEVATT_FLAGS_* \#defines.
|
---|
7443 | *
|
---|
7444 | * @remarks This code path is not used during construction.
|
---|
7445 | */
|
---|
7446 | static DECLCALLBACK(int) e1kR3Attach(PPDMDEVINS pDevIns, unsigned iLUN, uint32_t fFlags)
|
---|
7447 | {
|
---|
7448 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7449 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
7450 | LogFlow(("%s e1kR3Attach:\n", pThis->szPrf));
|
---|
7451 | RT_NOREF(fFlags);
|
---|
7452 |
|
---|
7453 | AssertLogRelReturn(iLUN == 0, VERR_PDM_NO_SUCH_LUN);
|
---|
7454 |
|
---|
7455 | PDMDevHlpCritSectEnter(pDevIns, &pThis->cs, VERR_SEM_BUSY);
|
---|
7456 |
|
---|
7457 | /*
|
---|
7458 | * Attach the driver.
|
---|
7459 | */
|
---|
7460 | int rc = PDMDevHlpDriverAttach(pDevIns, 0, &pThisCC->IBase, &pThisCC->pDrvBase, "Network Port");
|
---|
7461 | if (RT_SUCCESS(rc))
|
---|
7462 | {
|
---|
7463 | pThisCC->pDrvR3 = PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMINETWORKUP);
|
---|
7464 | AssertMsgStmt(pThisCC->pDrvR3, ("Failed to obtain the PDMINETWORKUP interface!\n"),
|
---|
7465 | rc = VERR_PDM_MISSING_INTERFACE_BELOW);
|
---|
7466 | if (RT_SUCCESS(rc))
|
---|
7467 | {
|
---|
7468 | #if 0 /** @todo @bugref{9218} ring-0 driver stuff */
|
---|
7469 | pThisR0->pDrvR0 = PDMIBASER0_QUERY_INTERFACE(PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMIBASER0), PDMINETWORKUP);
|
---|
7470 | pThisRC->pDrvRC = PDMIBASERC_QUERY_INTERFACE(PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMIBASERC), PDMINETWORKUP);
|
---|
7471 | #endif
|
---|
7472 | }
|
---|
7473 | }
|
---|
7474 | else if ( rc == VERR_PDM_NO_ATTACHED_DRIVER
|
---|
7475 | || rc == VERR_PDM_CFG_MISSING_DRIVER_NAME)
|
---|
7476 | {
|
---|
7477 | /* This should never happen because this function is not called
|
---|
7478 | * if there is no driver to attach! */
|
---|
7479 | Log(("%s No attached driver!\n", pThis->szPrf));
|
---|
7480 | }
|
---|
7481 |
|
---|
7482 | /*
|
---|
7483 | * Temporary set the link down if it was up so that the guest will know
|
---|
7484 | * that we have change the configuration of the network card
|
---|
7485 | */
|
---|
7486 | if ((STATUS & STATUS_LU) && RT_SUCCESS(rc))
|
---|
7487 | e1kR3LinkDownTemp(pDevIns, pThis, pThisCC);
|
---|
7488 |
|
---|
7489 | PDMDevHlpCritSectLeave(pDevIns, &pThis->cs);
|
---|
7490 | return rc;
|
---|
7491 | }
|
---|
7492 |
|
---|
7493 | /**
|
---|
7494 | * @copydoc FNPDMDEVPOWEROFF
|
---|
7495 | */
|
---|
7496 | static DECLCALLBACK(void) e1kR3PowerOff(PPDMDEVINS pDevIns)
|
---|
7497 | {
|
---|
7498 | /* Poke thread waiting for buffer space. */
|
---|
7499 | e1kWakeupReceive(pDevIns, PDMDEVINS_2_DATA(pDevIns, PE1KSTATE));
|
---|
7500 | }
|
---|
7501 |
|
---|
7502 | /**
|
---|
7503 | * @copydoc FNPDMDEVRESET
|
---|
7504 | */
|
---|
7505 | static DECLCALLBACK(void) e1kR3Reset(PPDMDEVINS pDevIns)
|
---|
7506 | {
|
---|
7507 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7508 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
7509 | #ifdef E1K_TX_DELAY
|
---|
7510 | e1kCancelTimer(pDevIns, pThis, pThis->hTXDTimer);
|
---|
7511 | #endif /* E1K_TX_DELAY */
|
---|
7512 | e1kCancelTimer(pDevIns, pThis, pThis->hIntTimer);
|
---|
7513 | e1kCancelTimer(pDevIns, pThis, pThis->hLUTimer);
|
---|
7514 | e1kXmitFreeBuf(pThis, pThisCC);
|
---|
7515 | pThis->u16TxPktLen = 0;
|
---|
7516 | pThis->fIPcsum = false;
|
---|
7517 | pThis->fTCPcsum = false;
|
---|
7518 | pThis->fIntMaskUsed = false;
|
---|
7519 | pThis->fDelayInts = false;
|
---|
7520 | pThis->fLocked = false;
|
---|
7521 | pThis->u64AckedAt = 0;
|
---|
7522 | e1kR3HardReset(pDevIns, pThis, pThisCC);
|
---|
7523 | }
|
---|
7524 |
|
---|
7525 | /**
|
---|
7526 | * @copydoc FNPDMDEVSUSPEND
|
---|
7527 | */
|
---|
7528 | static DECLCALLBACK(void) e1kR3Suspend(PPDMDEVINS pDevIns)
|
---|
7529 | {
|
---|
7530 | /* Poke thread waiting for buffer space. */
|
---|
7531 | e1kWakeupReceive(pDevIns, PDMDEVINS_2_DATA(pDevIns, PE1KSTATE));
|
---|
7532 | }
|
---|
7533 |
|
---|
7534 | /**
|
---|
7535 | * Device relocation callback.
|
---|
7536 | *
|
---|
7537 | * When this callback is called the device instance data, and if the
|
---|
7538 | * device have a GC component, is being relocated, or/and the selectors
|
---|
7539 | * have been changed. The device must use the chance to perform the
|
---|
7540 | * necessary pointer relocations and data updates.
|
---|
7541 | *
|
---|
7542 | * Before the GC code is executed the first time, this function will be
|
---|
7543 | * called with a 0 delta so GC pointer calculations can be one in one place.
|
---|
7544 | *
|
---|
7545 | * @param pDevIns Pointer to the device instance.
|
---|
7546 | * @param offDelta The relocation delta relative to the old location.
|
---|
7547 | *
|
---|
7548 | * @remark A relocation CANNOT fail.
|
---|
7549 | */
|
---|
7550 | static DECLCALLBACK(void) e1kR3Relocate(PPDMDEVINS pDevIns, RTGCINTPTR offDelta)
|
---|
7551 | {
|
---|
7552 | PE1KSTATERC pThisRC = PDMINS_2_DATA_RC(pDevIns, PE1KSTATERC);
|
---|
7553 | if (pThisRC)
|
---|
7554 | pThisRC->pDevInsRC = PDMDEVINS_2_RCPTR(pDevIns);
|
---|
7555 | RT_NOREF(offDelta);
|
---|
7556 | }
|
---|
7557 |
|
---|
7558 | /**
|
---|
7559 | * Destruct a device instance.
|
---|
7560 | *
|
---|
7561 | * We need to free non-VM resources only.
|
---|
7562 | *
|
---|
7563 | * @returns VBox status code.
|
---|
7564 | * @param pDevIns The device instance data.
|
---|
7565 | * @thread EMT
|
---|
7566 | */
|
---|
7567 | static DECLCALLBACK(int) e1kR3Destruct(PPDMDEVINS pDevIns)
|
---|
7568 | {
|
---|
7569 | PDMDEV_CHECK_VERSIONS_RETURN_QUIET(pDevIns);
|
---|
7570 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7571 |
|
---|
7572 | e1kDumpState(pThis);
|
---|
7573 | E1kLog(("%s Destroying instance\n", pThis->szPrf));
|
---|
7574 | if (PDMDevHlpCritSectIsInitialized(pDevIns, &pThis->cs))
|
---|
7575 | {
|
---|
7576 | if (pThis->hEventMoreRxDescAvail != NIL_SUPSEMEVENT)
|
---|
7577 | {
|
---|
7578 | PDMDevHlpSUPSemEventSignal(pDevIns, pThis->hEventMoreRxDescAvail);
|
---|
7579 | RTThreadYield();
|
---|
7580 | PDMDevHlpSUPSemEventClose(pDevIns, pThis->hEventMoreRxDescAvail);
|
---|
7581 | pThis->hEventMoreRxDescAvail = NIL_SUPSEMEVENT;
|
---|
7582 | }
|
---|
7583 | #ifdef E1K_WITH_TX_CS
|
---|
7584 | PDMDevHlpCritSectDelete(pDevIns, &pThis->csTx);
|
---|
7585 | #endif /* E1K_WITH_TX_CS */
|
---|
7586 | PDMDevHlpCritSectDelete(pDevIns, &pThis->csRx);
|
---|
7587 | PDMDevHlpCritSectDelete(pDevIns, &pThis->cs);
|
---|
7588 | }
|
---|
7589 | return VINF_SUCCESS;
|
---|
7590 | }
|
---|
7591 |
|
---|
7592 |
|
---|
7593 | /**
|
---|
7594 | * Set PCI configuration space registers.
|
---|
7595 | *
|
---|
7596 | * @param pci Reference to PCI device structure.
|
---|
7597 | * @thread EMT
|
---|
7598 | */
|
---|
7599 | static void e1kR3ConfigurePciDev(PPDMPCIDEV pPciDev, E1KCHIP eChip)
|
---|
7600 | {
|
---|
7601 | Assert(eChip < RT_ELEMENTS(g_aChips));
|
---|
7602 | /* Configure PCI Device, assume 32-bit mode ******************************/
|
---|
7603 | PDMPciDevSetVendorId(pPciDev, g_aChips[eChip].uPCIVendorId);
|
---|
7604 | PDMPciDevSetDeviceId(pPciDev, g_aChips[eChip].uPCIDeviceId);
|
---|
7605 | PDMPciDevSetWord( pPciDev, VBOX_PCI_SUBSYSTEM_VENDOR_ID, g_aChips[eChip].uPCISubsystemVendorId);
|
---|
7606 | PDMPciDevSetWord( pPciDev, VBOX_PCI_SUBSYSTEM_ID, g_aChips[eChip].uPCISubsystemId);
|
---|
7607 |
|
---|
7608 | PDMPciDevSetWord( pPciDev, VBOX_PCI_COMMAND, 0x0000);
|
---|
7609 | /* DEVSEL Timing (medium device), 66 MHz Capable, New capabilities */
|
---|
7610 | PDMPciDevSetWord( pPciDev, VBOX_PCI_STATUS,
|
---|
7611 | VBOX_PCI_STATUS_DEVSEL_MEDIUM | VBOX_PCI_STATUS_CAP_LIST | VBOX_PCI_STATUS_66MHZ);
|
---|
7612 | /* Stepping A2 */
|
---|
7613 | PDMPciDevSetByte( pPciDev, VBOX_PCI_REVISION_ID, 0x02);
|
---|
7614 | /* Ethernet adapter */
|
---|
7615 | PDMPciDevSetByte( pPciDev, VBOX_PCI_CLASS_PROG, 0x00);
|
---|
7616 | PDMPciDevSetWord( pPciDev, VBOX_PCI_CLASS_DEVICE, 0x0200);
|
---|
7617 | /* normal single function Ethernet controller */
|
---|
7618 | PDMPciDevSetByte( pPciDev, VBOX_PCI_HEADER_TYPE, 0x00);
|
---|
7619 | /* Memory Register Base Address */
|
---|
7620 | PDMPciDevSetDWord(pPciDev, VBOX_PCI_BASE_ADDRESS_0, 0x00000000);
|
---|
7621 | /* Memory Flash Base Address */
|
---|
7622 | PDMPciDevSetDWord(pPciDev, VBOX_PCI_BASE_ADDRESS_1, 0x00000000);
|
---|
7623 | /* IO Register Base Address */
|
---|
7624 | PDMPciDevSetDWord(pPciDev, VBOX_PCI_BASE_ADDRESS_2, 0x00000001);
|
---|
7625 | /* Expansion ROM Base Address */
|
---|
7626 | PDMPciDevSetDWord(pPciDev, VBOX_PCI_ROM_ADDRESS, 0x00000000);
|
---|
7627 | /* Capabilities Pointer */
|
---|
7628 | PDMPciDevSetByte( pPciDev, VBOX_PCI_CAPABILITY_LIST, 0xDC);
|
---|
7629 | /* Interrupt Pin: INTA# */
|
---|
7630 | PDMPciDevSetByte( pPciDev, VBOX_PCI_INTERRUPT_PIN, 0x01);
|
---|
7631 | /* Max_Lat/Min_Gnt: very high priority and time slice */
|
---|
7632 | PDMPciDevSetByte( pPciDev, VBOX_PCI_MIN_GNT, 0xFF);
|
---|
7633 | PDMPciDevSetByte( pPciDev, VBOX_PCI_MAX_LAT, 0x00);
|
---|
7634 |
|
---|
7635 | /* PCI Power Management Registers ****************************************/
|
---|
7636 | /* Capability ID: PCI Power Management Registers */
|
---|
7637 | PDMPciDevSetByte( pPciDev, 0xDC, VBOX_PCI_CAP_ID_PM);
|
---|
7638 | /* Next Item Pointer: PCI-X */
|
---|
7639 | PDMPciDevSetByte( pPciDev, 0xDC + 1, 0xE4);
|
---|
7640 | /* Power Management Capabilities: PM disabled, DSI */
|
---|
7641 | PDMPciDevSetWord( pPciDev, 0xDC + 2,
|
---|
7642 | 0x0002 | VBOX_PCI_PM_CAP_DSI);
|
---|
7643 | /* Power Management Control / Status Register: PM disabled */
|
---|
7644 | PDMPciDevSetWord( pPciDev, 0xDC + 4, 0x0000);
|
---|
7645 | /* PMCSR_BSE Bridge Support Extensions: Not supported */
|
---|
7646 | PDMPciDevSetByte( pPciDev, 0xDC + 6, 0x00);
|
---|
7647 | /* Data Register: PM disabled, always 0 */
|
---|
7648 | PDMPciDevSetByte( pPciDev, 0xDC + 7, 0x00);
|
---|
7649 |
|
---|
7650 | /* PCI-X Configuration Registers *****************************************/
|
---|
7651 | /* Capability ID: PCI-X Configuration Registers */
|
---|
7652 | PDMPciDevSetByte( pPciDev, 0xE4, VBOX_PCI_CAP_ID_PCIX);
|
---|
7653 | #ifdef E1K_WITH_MSI
|
---|
7654 | PDMPciDevSetByte( pPciDev, 0xE4 + 1, 0x80);
|
---|
7655 | #else
|
---|
7656 | /* Next Item Pointer: None (Message Signalled Interrupts are disabled) */
|
---|
7657 | PDMPciDevSetByte( pPciDev, 0xE4 + 1, 0x00);
|
---|
7658 | #endif
|
---|
7659 | /* PCI-X Command: Enable Relaxed Ordering */
|
---|
7660 | PDMPciDevSetWord( pPciDev, 0xE4 + 2, VBOX_PCI_X_CMD_ERO);
|
---|
7661 | /* PCI-X Status: 32-bit, 66MHz*/
|
---|
7662 | /** @todo is this value really correct? fff8 doesn't look like actual PCI address */
|
---|
7663 | PDMPciDevSetDWord(pPciDev, 0xE4 + 4, 0x0040FFF8);
|
---|
7664 | }
|
---|
7665 |
|
---|
7666 | /**
|
---|
7667 | * @interface_method_impl{PDMDEVREG,pfnConstruct}
|
---|
7668 | */
|
---|
7669 | static DECLCALLBACK(int) e1kR3Construct(PPDMDEVINS pDevIns, int iInstance, PCFGMNODE pCfg)
|
---|
7670 | {
|
---|
7671 | PDMDEV_CHECK_VERSIONS_RETURN(pDevIns);
|
---|
7672 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
7673 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
7674 | int rc;
|
---|
7675 |
|
---|
7676 | /*
|
---|
7677 | * Initialize the instance data (state).
|
---|
7678 | * Note! Caller has initialized it to ZERO already.
|
---|
7679 | */
|
---|
7680 | RTStrPrintf(pThis->szPrf, sizeof(pThis->szPrf), "E1000#%d", iInstance);
|
---|
7681 | E1kLog(("%s Constructing new instance sizeof(E1KRXDESC)=%d\n", pThis->szPrf, sizeof(E1KRXDESC)));
|
---|
7682 | pThis->hEventMoreRxDescAvail = NIL_SUPSEMEVENT;
|
---|
7683 | pThis->u16TxPktLen = 0;
|
---|
7684 | pThis->fIPcsum = false;
|
---|
7685 | pThis->fTCPcsum = false;
|
---|
7686 | pThis->fIntMaskUsed = false;
|
---|
7687 | pThis->fDelayInts = false;
|
---|
7688 | pThis->fLocked = false;
|
---|
7689 | pThis->u64AckedAt = 0;
|
---|
7690 | pThis->led.u32Magic = PDMLED_MAGIC;
|
---|
7691 | pThis->u32PktNo = 1;
|
---|
7692 |
|
---|
7693 | pThisCC->pDevInsR3 = pDevIns;
|
---|
7694 | pThisCC->pShared = pThis;
|
---|
7695 |
|
---|
7696 | /* Interfaces */
|
---|
7697 | pThisCC->IBase.pfnQueryInterface = e1kR3QueryInterface;
|
---|
7698 |
|
---|
7699 | pThisCC->INetworkDown.pfnWaitReceiveAvail = e1kR3NetworkDown_WaitReceiveAvail;
|
---|
7700 | pThisCC->INetworkDown.pfnReceive = e1kR3NetworkDown_Receive;
|
---|
7701 | pThisCC->INetworkDown.pfnXmitPending = e1kR3NetworkDown_XmitPending;
|
---|
7702 |
|
---|
7703 | pThisCC->ILeds.pfnQueryStatusLed = e1kR3QueryStatusLed;
|
---|
7704 |
|
---|
7705 | pThisCC->INetworkConfig.pfnGetMac = e1kR3GetMac;
|
---|
7706 | pThisCC->INetworkConfig.pfnGetLinkState = e1kR3GetLinkState;
|
---|
7707 | pThisCC->INetworkConfig.pfnSetLinkState = e1kR3SetLinkState;
|
---|
7708 |
|
---|
7709 | /*
|
---|
7710 | * Internal validations.
|
---|
7711 | */
|
---|
7712 | for (uint32_t iReg = 1; iReg < E1K_NUM_OF_BINARY_SEARCHABLE; iReg++)
|
---|
7713 | AssertLogRelMsgReturn( g_aE1kRegMap[iReg].offset > g_aE1kRegMap[iReg - 1].offset
|
---|
7714 | && g_aE1kRegMap[iReg].offset + g_aE1kRegMap[iReg].size
|
---|
7715 | >= g_aE1kRegMap[iReg - 1].offset + g_aE1kRegMap[iReg - 1].size,
|
---|
7716 | ("%s@%#xLB%#x vs %s@%#xLB%#x\n",
|
---|
7717 | g_aE1kRegMap[iReg].abbrev, g_aE1kRegMap[iReg].offset, g_aE1kRegMap[iReg].size,
|
---|
7718 | g_aE1kRegMap[iReg - 1].abbrev, g_aE1kRegMap[iReg - 1].offset, g_aE1kRegMap[iReg - 1].size),
|
---|
7719 | VERR_INTERNAL_ERROR_4);
|
---|
7720 |
|
---|
7721 | /*
|
---|
7722 | * Validate configuration.
|
---|
7723 | */
|
---|
7724 | PDMDEV_VALIDATE_CONFIG_RETURN(pDevIns,
|
---|
7725 | "MAC|"
|
---|
7726 | "CableConnected|"
|
---|
7727 | "AdapterType|"
|
---|
7728 | "LineSpeed|"
|
---|
7729 | "ItrEnabled|"
|
---|
7730 | "ItrRxEnabled|"
|
---|
7731 | "EthernetCRC|"
|
---|
7732 | "GSOEnabled|"
|
---|
7733 | "LinkUpDelay", "");
|
---|
7734 |
|
---|
7735 | /** @todo LineSpeed unused! */
|
---|
7736 |
|
---|
7737 | /*
|
---|
7738 | * Get config params
|
---|
7739 | */
|
---|
7740 | PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3;
|
---|
7741 | rc = pHlp->pfnCFGMQueryBytes(pCfg, "MAC", pThis->macConfigured.au8, sizeof(pThis->macConfigured.au8));
|
---|
7742 | if (RT_FAILURE(rc))
|
---|
7743 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7744 | N_("Configuration error: Failed to get MAC address"));
|
---|
7745 | rc = pHlp->pfnCFGMQueryBool(pCfg, "CableConnected", &pThis->fCableConnected);
|
---|
7746 | if (RT_FAILURE(rc))
|
---|
7747 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7748 | N_("Configuration error: Failed to get the value of 'CableConnected'"));
|
---|
7749 | rc = pHlp->pfnCFGMQueryU32(pCfg, "AdapterType", (uint32_t*)&pThis->eChip);
|
---|
7750 | if (RT_FAILURE(rc))
|
---|
7751 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7752 | N_("Configuration error: Failed to get the value of 'AdapterType'"));
|
---|
7753 | Assert(pThis->eChip <= E1K_CHIP_82545EM);
|
---|
7754 |
|
---|
7755 | rc = pHlp->pfnCFGMQueryBoolDef(pCfg, "EthernetCRC", &pThis->fEthernetCRC, true);
|
---|
7756 | if (RT_FAILURE(rc))
|
---|
7757 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7758 | N_("Configuration error: Failed to get the value of 'EthernetCRC'"));
|
---|
7759 |
|
---|
7760 | rc = pHlp->pfnCFGMQueryBoolDef(pCfg, "GSOEnabled", &pThis->fGSOEnabled, true);
|
---|
7761 | if (RT_FAILURE(rc))
|
---|
7762 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7763 | N_("Configuration error: Failed to get the value of 'GSOEnabled'"));
|
---|
7764 |
|
---|
7765 | rc = pHlp->pfnCFGMQueryBoolDef(pCfg, "ItrEnabled", &pThis->fItrEnabled, false);
|
---|
7766 | if (RT_FAILURE(rc))
|
---|
7767 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7768 | N_("Configuration error: Failed to get the value of 'ItrEnabled'"));
|
---|
7769 |
|
---|
7770 | rc = pHlp->pfnCFGMQueryBoolDef(pCfg, "ItrRxEnabled", &pThis->fItrRxEnabled, true);
|
---|
7771 | if (RT_FAILURE(rc))
|
---|
7772 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7773 | N_("Configuration error: Failed to get the value of 'ItrRxEnabled'"));
|
---|
7774 |
|
---|
7775 | rc = pHlp->pfnCFGMQueryBoolDef(pCfg, "TidEnabled", &pThis->fTidEnabled, false);
|
---|
7776 | if (RT_FAILURE(rc))
|
---|
7777 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7778 | N_("Configuration error: Failed to get the value of 'TidEnabled'"));
|
---|
7779 |
|
---|
7780 | rc = pHlp->pfnCFGMQueryU32Def(pCfg, "LinkUpDelay", (uint32_t*)&pThis->cMsLinkUpDelay, 3000); /* ms */
|
---|
7781 | if (RT_FAILURE(rc))
|
---|
7782 | return PDMDEV_SET_ERROR(pDevIns, rc,
|
---|
7783 | N_("Configuration error: Failed to get the value of 'LinkUpDelay'"));
|
---|
7784 | Assert(pThis->cMsLinkUpDelay <= 300000); /* less than 5 minutes */
|
---|
7785 | if (pThis->cMsLinkUpDelay > 5000)
|
---|
7786 | LogRel(("%s: WARNING! Link up delay is set to %u seconds!\n", pThis->szPrf, pThis->cMsLinkUpDelay / 1000));
|
---|
7787 | else if (pThis->cMsLinkUpDelay == 0)
|
---|
7788 | LogRel(("%s: WARNING! Link up delay is disabled!\n", pThis->szPrf));
|
---|
7789 |
|
---|
7790 | LogRel(("%s: Chip=%s LinkUpDelay=%ums EthernetCRC=%s GSO=%s Itr=%s ItrRx=%s TID=%s R0=%s RC=%s\n", pThis->szPrf,
|
---|
7791 | g_aChips[pThis->eChip].pcszName, pThis->cMsLinkUpDelay,
|
---|
7792 | pThis->fEthernetCRC ? "on" : "off",
|
---|
7793 | pThis->fGSOEnabled ? "enabled" : "disabled",
|
---|
7794 | pThis->fItrEnabled ? "enabled" : "disabled",
|
---|
7795 | pThis->fItrRxEnabled ? "enabled" : "disabled",
|
---|
7796 | pThis->fTidEnabled ? "enabled" : "disabled",
|
---|
7797 | pDevIns->fR0Enabled ? "enabled" : "disabled",
|
---|
7798 | pDevIns->fRCEnabled ? "enabled" : "disabled"));
|
---|
7799 |
|
---|
7800 | /*
|
---|
7801 | * Initialize sub-components and register everything with the VMM.
|
---|
7802 | */
|
---|
7803 |
|
---|
7804 | /* Initialize the EEPROM. */
|
---|
7805 | pThisCC->eeprom.init(pThis->macConfigured);
|
---|
7806 |
|
---|
7807 | /* Initialize internal PHY. */
|
---|
7808 | Phy::init(&pThis->phy, iInstance, pThis->eChip == E1K_CHIP_82543GC ? PHY_EPID_M881000 : PHY_EPID_M881011);
|
---|
7809 |
|
---|
7810 | /* Initialize critical sections. We do our own locking. */
|
---|
7811 | rc = PDMDevHlpSetDeviceCritSect(pDevIns, PDMDevHlpCritSectGetNop(pDevIns));
|
---|
7812 | AssertRCReturn(rc, rc);
|
---|
7813 |
|
---|
7814 | rc = PDMDevHlpCritSectInit(pDevIns, &pThis->cs, RT_SRC_POS, "E1000#%d", iInstance);
|
---|
7815 | AssertRCReturn(rc, rc);
|
---|
7816 | rc = PDMDevHlpCritSectInit(pDevIns, &pThis->csRx, RT_SRC_POS, "E1000#%dRX", iInstance);
|
---|
7817 | AssertRCReturn(rc, rc);
|
---|
7818 | #ifdef E1K_WITH_TX_CS
|
---|
7819 | rc = PDMDevHlpCritSectInit(pDevIns, &pThis->csTx, RT_SRC_POS, "E1000#%dTX", iInstance);
|
---|
7820 | AssertRCReturn(rc, rc);
|
---|
7821 | #endif
|
---|
7822 |
|
---|
7823 | /* Saved state registration. */
|
---|
7824 | rc = PDMDevHlpSSMRegisterEx(pDevIns, E1K_SAVEDSTATE_VERSION, sizeof(E1KSTATE), NULL,
|
---|
7825 | NULL, e1kLiveExec, NULL,
|
---|
7826 | e1kSavePrep, e1kSaveExec, NULL,
|
---|
7827 | e1kLoadPrep, e1kLoadExec, e1kLoadDone);
|
---|
7828 | AssertRCReturn(rc, rc);
|
---|
7829 |
|
---|
7830 | /* Set PCI config registers and register ourselves with the PCI bus. */
|
---|
7831 | PDMPCIDEV_ASSERT_VALID(pDevIns, pDevIns->apPciDevs[0]);
|
---|
7832 | e1kR3ConfigurePciDev(pDevIns->apPciDevs[0], pThis->eChip);
|
---|
7833 | rc = PDMDevHlpPCIRegister(pDevIns, pDevIns->apPciDevs[0]);
|
---|
7834 | AssertRCReturn(rc, rc);
|
---|
7835 |
|
---|
7836 | #ifdef E1K_WITH_MSI
|
---|
7837 | PDMMSIREG MsiReg;
|
---|
7838 | RT_ZERO(MsiReg);
|
---|
7839 | MsiReg.cMsiVectors = 1;
|
---|
7840 | MsiReg.iMsiCapOffset = 0x80;
|
---|
7841 | MsiReg.iMsiNextOffset = 0x0;
|
---|
7842 | MsiReg.fMsi64bit = false;
|
---|
7843 | rc = PDMDevHlpPCIRegisterMsi(pDevIns, &MsiReg);
|
---|
7844 | AssertRCReturn(rc, rc);
|
---|
7845 | #endif
|
---|
7846 |
|
---|
7847 | /*
|
---|
7848 | * Map our registers to memory space (region 0, see e1kR3ConfigurePciDev)
|
---|
7849 | * From the spec (regarding flags):
|
---|
7850 | * For registers that should be accessed as 32-bit double words,
|
---|
7851 | * partial writes (less than a 32-bit double word) is ignored.
|
---|
7852 | * Partial reads return all 32 bits of data regardless of the
|
---|
7853 | * byte enables.
|
---|
7854 | */
|
---|
7855 | rc = PDMDevHlpMmioCreateEx(pDevIns, E1K_MM_SIZE, IOMMMIO_FLAGS_READ_DWORD | IOMMMIO_FLAGS_WRITE_ONLY_DWORD,
|
---|
7856 | pDevIns->apPciDevs[0], 0 /*iPciRegion*/,
|
---|
7857 | e1kMMIOWrite, e1kMMIORead, NULL /*pfnFill*/, NULL /*pvUser*/, "E1000", &pThis->hMmioRegion);
|
---|
7858 | AssertRCReturn(rc, rc);
|
---|
7859 | rc = PDMDevHlpPCIIORegionRegisterMmio(pDevIns, 0, E1K_MM_SIZE, PCI_ADDRESS_SPACE_MEM, pThis->hMmioRegion, NULL);
|
---|
7860 | AssertRCReturn(rc, rc);
|
---|
7861 |
|
---|
7862 | /* Map our registers to IO space (region 2, see e1kR3ConfigurePciDev) */
|
---|
7863 | static IOMIOPORTDESC const s_aExtDescs[] =
|
---|
7864 | {
|
---|
7865 | { "IOADDR", "IOADDR", NULL, NULL }, { "unused", "unused", NULL, NULL }, { "unused", "unused", NULL, NULL }, { "unused", "unused", NULL, NULL },
|
---|
7866 | { "IODATA", "IODATA", NULL, NULL }, { "unused", "unused", NULL, NULL }, { "unused", "unused", NULL, NULL }, { "unused", "unused", NULL, NULL },
|
---|
7867 | { NULL, NULL, NULL, NULL }
|
---|
7868 | };
|
---|
7869 | rc = PDMDevHlpIoPortCreate(pDevIns, E1K_IOPORT_SIZE, pDevIns->apPciDevs[0], 2 /*iPciRegion*/,
|
---|
7870 | e1kIOPortOut, e1kIOPortIn, NULL /*pvUser*/, "E1000", s_aExtDescs, &pThis->hIoPorts);
|
---|
7871 | AssertRCReturn(rc, rc);
|
---|
7872 | rc = PDMDevHlpPCIIORegionRegisterIo(pDevIns, 2, E1K_IOPORT_SIZE, pThis->hIoPorts);
|
---|
7873 | AssertRCReturn(rc, rc);
|
---|
7874 |
|
---|
7875 | /* Create transmit queue */
|
---|
7876 | rc = PDMDevHlpTaskCreate(pDevIns, PDMTASK_F_RZ, "E1000-Xmit", e1kR3TxTaskCallback, NULL, &pThis->hTxTask);
|
---|
7877 | AssertRCReturn(rc, rc);
|
---|
7878 |
|
---|
7879 | #ifdef E1K_TX_DELAY
|
---|
7880 | /* Create Transmit Delay Timer */
|
---|
7881 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3TxDelayTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7882 | "E1000 Transmit Delay Timer", &pThis->hTXDTimer);
|
---|
7883 | AssertRCReturn(rc, rc);
|
---|
7884 | rc = PDMDevHlpTimerSetCritSect(pDevIns, pThis->hTXDTimer, &pThis->csTx);
|
---|
7885 | AssertRCReturn(rc, rc);
|
---|
7886 | #endif /* E1K_TX_DELAY */
|
---|
7887 |
|
---|
7888 | //#ifdef E1K_USE_TX_TIMERS
|
---|
7889 | if (pThis->fTidEnabled)
|
---|
7890 | {
|
---|
7891 | /* Create Transmit Interrupt Delay Timer */
|
---|
7892 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3TxIntDelayTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7893 | "E1000 Transmit Interrupt Delay Timer", &pThis->hTIDTimer);
|
---|
7894 | AssertRCReturn(rc, rc);
|
---|
7895 |
|
---|
7896 | # ifndef E1K_NO_TAD
|
---|
7897 | /* Create Transmit Absolute Delay Timer */
|
---|
7898 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3TxAbsDelayTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7899 | "E1000 Transmit Absolute Delay Timer", &pThis->hTADTimer);
|
---|
7900 | AssertRCReturn(rc, rc);
|
---|
7901 | # endif /* E1K_NO_TAD */
|
---|
7902 | }
|
---|
7903 | //#endif /* E1K_USE_TX_TIMERS */
|
---|
7904 |
|
---|
7905 | #ifdef E1K_USE_RX_TIMERS
|
---|
7906 | /* Create Receive Interrupt Delay Timer */
|
---|
7907 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3RxIntDelayTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7908 | "E1000 Receive Interrupt Delay Timer", &pThis->hRIDTimer);
|
---|
7909 | AssertRCReturn(rc, rc);
|
---|
7910 |
|
---|
7911 | /* Create Receive Absolute Delay Timer */
|
---|
7912 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3RxAbsDelayTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7913 | "E1000 Receive Absolute Delay Timer", &pThis->hRADTimer);
|
---|
7914 | AssertRCReturn(rc, rc);
|
---|
7915 | #endif /* E1K_USE_RX_TIMERS */
|
---|
7916 |
|
---|
7917 | /* Create Late Interrupt Timer */
|
---|
7918 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3LateIntTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7919 | "E1000 Late Interrupt Timer", &pThis->hIntTimer);
|
---|
7920 | AssertRCReturn(rc, rc);
|
---|
7921 |
|
---|
7922 | /* Create Link Up Timer */
|
---|
7923 | rc = PDMDevHlpTimerCreate(pDevIns, TMCLOCK_VIRTUAL, e1kR3LinkUpTimer, pThis, TMTIMER_FLAGS_NO_CRIT_SECT,
|
---|
7924 | "E1000 Link Up Timer", &pThis->hLUTimer);
|
---|
7925 | AssertRCReturn(rc, rc);
|
---|
7926 |
|
---|
7927 | /* Register the info item */
|
---|
7928 | char szTmp[20];
|
---|
7929 | RTStrPrintf(szTmp, sizeof(szTmp), "e1k%d", iInstance);
|
---|
7930 | PDMDevHlpDBGFInfoRegister(pDevIns, szTmp, "E1000 info.", e1kInfo);
|
---|
7931 |
|
---|
7932 | /* Status driver */
|
---|
7933 | PPDMIBASE pBase;
|
---|
7934 | rc = PDMDevHlpDriverAttach(pDevIns, PDM_STATUS_LUN, &pThisCC->IBase, &pBase, "Status Port");
|
---|
7935 | if (RT_FAILURE(rc))
|
---|
7936 | return PDMDEV_SET_ERROR(pDevIns, rc, N_("Failed to attach the status LUN"));
|
---|
7937 | pThisCC->pLedsConnector = PDMIBASE_QUERY_INTERFACE(pBase, PDMILEDCONNECTORS);
|
---|
7938 |
|
---|
7939 | /* Network driver */
|
---|
7940 | rc = PDMDevHlpDriverAttach(pDevIns, 0, &pThisCC->IBase, &pThisCC->pDrvBase, "Network Port");
|
---|
7941 | if (RT_SUCCESS(rc))
|
---|
7942 | {
|
---|
7943 | pThisCC->pDrvR3 = PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMINETWORKUP);
|
---|
7944 | AssertMsgReturn(pThisCC->pDrvR3, ("Failed to obtain the PDMINETWORKUP interface!\n"), VERR_PDM_MISSING_INTERFACE_BELOW);
|
---|
7945 |
|
---|
7946 | #if 0 /** @todo @bugref{9218} ring-0 driver stuff */
|
---|
7947 | pThisR0->pDrvR0 = PDMIBASER0_QUERY_INTERFACE(PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMIBASER0), PDMINETWORKUP);
|
---|
7948 | pThisRC->pDrvRC = PDMIBASERC_QUERY_INTERFACE(PDMIBASE_QUERY_INTERFACE(pThisCC->pDrvBase, PDMIBASERC), PDMINETWORKUP);
|
---|
7949 | #endif
|
---|
7950 | }
|
---|
7951 | else if ( rc == VERR_PDM_NO_ATTACHED_DRIVER
|
---|
7952 | || rc == VERR_PDM_CFG_MISSING_DRIVER_NAME)
|
---|
7953 | {
|
---|
7954 | /* No error! */
|
---|
7955 | E1kLog(("%s This adapter is not attached to any network!\n", pThis->szPrf));
|
---|
7956 | }
|
---|
7957 | else
|
---|
7958 | return PDMDEV_SET_ERROR(pDevIns, rc, N_("Failed to attach the network LUN"));
|
---|
7959 |
|
---|
7960 | rc = PDMDevHlpSUPSemEventCreate(pDevIns, &pThis->hEventMoreRxDescAvail);
|
---|
7961 | AssertRCReturn(rc, rc);
|
---|
7962 |
|
---|
7963 | rc = e1kInitDebugHelpers();
|
---|
7964 | AssertRCReturn(rc, rc);
|
---|
7965 |
|
---|
7966 | e1kR3HardReset(pDevIns, pThis, pThisCC);
|
---|
7967 |
|
---|
7968 | /*
|
---|
7969 | * Register statistics.
|
---|
7970 | */
|
---|
7971 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->StatReceiveBytes, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_BYTES, "Amount of data received", "/Public/Net/E1k%u/BytesReceived", iInstance);
|
---|
7972 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->StatTransmitBytes, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_BYTES, "Amount of data transmitted", "/Public/Net/E1k%u/BytesTransmitted", iInstance);
|
---|
7973 |
|
---|
7974 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->StatReceiveBytes, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_BYTES, "Amount of data received", "ReceiveBytes");
|
---|
7975 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->StatTransmitBytes, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_BYTES, "Amount of data transmitted", "TransmitBytes");
|
---|
7976 |
|
---|
7977 | #if defined(VBOX_WITH_STATISTICS)
|
---|
7978 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatMMIOReadRZ, STAMTYPE_PROFILE, "MMIO/ReadRZ", STAMUNIT_TICKS_PER_CALL, "Profiling MMIO reads in RZ");
|
---|
7979 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatMMIOReadR3, STAMTYPE_PROFILE, "MMIO/ReadR3", STAMUNIT_TICKS_PER_CALL, "Profiling MMIO reads in R3");
|
---|
7980 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatMMIOWriteRZ, STAMTYPE_PROFILE, "MMIO/WriteRZ", STAMUNIT_TICKS_PER_CALL, "Profiling MMIO writes in RZ");
|
---|
7981 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatMMIOWriteR3, STAMTYPE_PROFILE, "MMIO/WriteR3", STAMUNIT_TICKS_PER_CALL, "Profiling MMIO writes in R3");
|
---|
7982 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatEEPROMRead, STAMTYPE_PROFILE, "EEPROM/Read", STAMUNIT_TICKS_PER_CALL, "Profiling EEPROM reads");
|
---|
7983 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatEEPROMWrite, STAMTYPE_PROFILE, "EEPROM/Write", STAMUNIT_TICKS_PER_CALL, "Profiling EEPROM writes");
|
---|
7984 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIOReadRZ, STAMTYPE_PROFILE, "IO/ReadRZ", STAMUNIT_TICKS_PER_CALL, "Profiling IO reads in RZ");
|
---|
7985 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIOReadR3, STAMTYPE_PROFILE, "IO/ReadR3", STAMUNIT_TICKS_PER_CALL, "Profiling IO reads in R3");
|
---|
7986 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIOWriteRZ, STAMTYPE_PROFILE, "IO/WriteRZ", STAMUNIT_TICKS_PER_CALL, "Profiling IO writes in RZ");
|
---|
7987 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIOWriteR3, STAMTYPE_PROFILE, "IO/WriteR3", STAMUNIT_TICKS_PER_CALL, "Profiling IO writes in R3");
|
---|
7988 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatLateIntTimer, STAMTYPE_PROFILE, "LateInt/Timer", STAMUNIT_TICKS_PER_CALL, "Profiling late int timer");
|
---|
7989 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatLateInts, STAMTYPE_COUNTER, "LateInt/Occured", STAMUNIT_OCCURENCES, "Number of late interrupts");
|
---|
7990 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIntsRaised, STAMTYPE_COUNTER, "Interrupts/Raised", STAMUNIT_OCCURENCES, "Number of raised interrupts");
|
---|
7991 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatIntsPrevented, STAMTYPE_COUNTER, "Interrupts/Prevented", STAMUNIT_OCCURENCES, "Number of prevented interrupts");
|
---|
7992 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatReceive, STAMTYPE_PROFILE, "Receive/Total", STAMUNIT_TICKS_PER_CALL, "Profiling receive");
|
---|
7993 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatReceiveCRC, STAMTYPE_PROFILE, "Receive/CRC", STAMUNIT_TICKS_PER_CALL, "Profiling receive checksumming");
|
---|
7994 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatReceiveFilter, STAMTYPE_PROFILE, "Receive/Filter", STAMUNIT_TICKS_PER_CALL, "Profiling receive filtering");
|
---|
7995 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatReceiveStore, STAMTYPE_PROFILE, "Receive/Store", STAMUNIT_TICKS_PER_CALL, "Profiling receive storing");
|
---|
7996 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatRxOverflow, STAMTYPE_PROFILE, "RxOverflow", STAMUNIT_TICKS_PER_OCCURENCE, "Profiling RX overflows");
|
---|
7997 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatRxOverflowWakeupRZ, STAMTYPE_COUNTER, "RxOverflowWakeupRZ", STAMUNIT_OCCURENCES, "Nr of RX overflow wakeups in RZ");
|
---|
7998 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatRxOverflowWakeupR3, STAMTYPE_COUNTER, "RxOverflowWakeupR3", STAMUNIT_OCCURENCES, "Nr of RX overflow wakeups in R3");
|
---|
7999 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTransmitRZ, STAMTYPE_PROFILE, "Transmit/TotalRZ", STAMUNIT_TICKS_PER_CALL, "Profiling transmits in RZ");
|
---|
8000 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTransmitR3, STAMTYPE_PROFILE, "Transmit/TotalR3", STAMUNIT_TICKS_PER_CALL, "Profiling transmits in R3");
|
---|
8001 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTransmitSendRZ, STAMTYPE_PROFILE, "Transmit/SendRZ", STAMUNIT_TICKS_PER_CALL, "Profiling send transmit in RZ");
|
---|
8002 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTransmitSendR3, STAMTYPE_PROFILE, "Transmit/SendR3", STAMUNIT_TICKS_PER_CALL, "Profiling send transmit in R3");
|
---|
8003 |
|
---|
8004 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxDescCtxNormal, STAMTYPE_COUNTER, "TxDesc/ContexNormal", STAMUNIT_OCCURENCES, "Number of normal context descriptors");
|
---|
8005 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxDescCtxTSE, STAMTYPE_COUNTER, "TxDesc/ContextTSE", STAMUNIT_OCCURENCES, "Number of TSE context descriptors");
|
---|
8006 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxDescData, STAMTYPE_COUNTER, "TxDesc/Data", STAMUNIT_OCCURENCES, "Number of TX data descriptors");
|
---|
8007 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxDescLegacy, STAMTYPE_COUNTER, "TxDesc/Legacy", STAMUNIT_OCCURENCES, "Number of TX legacy descriptors");
|
---|
8008 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxDescTSEData, STAMTYPE_COUNTER, "TxDesc/TSEData", STAMUNIT_OCCURENCES, "Number of TX TSE data descriptors");
|
---|
8009 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxPathFallback, STAMTYPE_COUNTER, "TxPath/Fallback", STAMUNIT_OCCURENCES, "Fallback TSE descriptor path");
|
---|
8010 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxPathGSO, STAMTYPE_COUNTER, "TxPath/GSO", STAMUNIT_OCCURENCES, "GSO TSE descriptor path");
|
---|
8011 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatTxPathRegular, STAMTYPE_COUNTER, "TxPath/Normal", STAMUNIT_OCCURENCES, "Regular descriptor path");
|
---|
8012 | PDMDevHlpSTAMRegister(pDevIns, &pThis->StatPHYAccesses, STAMTYPE_COUNTER, "PHYAccesses", STAMUNIT_OCCURENCES, "Number of PHY accesses");
|
---|
8013 | for (unsigned iReg = 0; iReg < E1K_NUM_OF_REGS; iReg++)
|
---|
8014 | {
|
---|
8015 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->aStatRegReads[iReg], STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_OCCURENCES,
|
---|
8016 | g_aE1kRegMap[iReg].name, "Regs/%s-Reads", g_aE1kRegMap[iReg].abbrev);
|
---|
8017 | PDMDevHlpSTAMRegisterF(pDevIns, &pThis->aStatRegWrites[iReg], STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, STAMUNIT_OCCURENCES,
|
---|
8018 | g_aE1kRegMap[iReg].name, "Regs/%s-Writes", g_aE1kRegMap[iReg].abbrev);
|
---|
8019 | }
|
---|
8020 | #endif /* VBOX_WITH_STATISTICS */
|
---|
8021 |
|
---|
8022 | #ifdef E1K_INT_STATS
|
---|
8023 | PDMDevHlpSTAMRegister(pDevIns, &pThis->u64ArmedAt, STAMTYPE_U64, "u64ArmedAt", STAMUNIT_NS, NULL);
|
---|
8024 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatMaxTxDelay, STAMTYPE_U64, "uStatMaxTxDelay", STAMUNIT_NS, NULL);
|
---|
8025 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatInt, STAMTYPE_U32, "uStatInt", STAMUNIT_NS, NULL);
|
---|
8026 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntTry, STAMTYPE_U32, "uStatIntTry", STAMUNIT_NS, NULL);
|
---|
8027 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntLower, STAMTYPE_U32, "uStatIntLower", STAMUNIT_NS, NULL);
|
---|
8028 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatNoIntICR, STAMTYPE_U32, "uStatNoIntICR", STAMUNIT_NS, NULL);
|
---|
8029 | PDMDevHlpSTAMRegister(pDevIns, &pThis->iStatIntLost, STAMTYPE_U32, "iStatIntLost", STAMUNIT_NS, NULL);
|
---|
8030 | PDMDevHlpSTAMRegister(pDevIns, &pThis->iStatIntLostOne, STAMTYPE_U32, "iStatIntLostOne", STAMUNIT_NS, NULL);
|
---|
8031 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntIMS, STAMTYPE_U32, "uStatIntIMS", STAMUNIT_NS, NULL);
|
---|
8032 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntSkip, STAMTYPE_U32, "uStatIntSkip", STAMUNIT_NS, NULL);
|
---|
8033 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntLate, STAMTYPE_U32, "uStatIntLate", STAMUNIT_NS, NULL);
|
---|
8034 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntMasked, STAMTYPE_U32, "uStatIntMasked", STAMUNIT_NS, NULL);
|
---|
8035 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntEarly, STAMTYPE_U32, "uStatIntEarly", STAMUNIT_NS, NULL);
|
---|
8036 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntRx, STAMTYPE_U32, "uStatIntRx", STAMUNIT_NS, NULL);
|
---|
8037 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntTx, STAMTYPE_U32, "uStatIntTx", STAMUNIT_NS, NULL);
|
---|
8038 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntICS, STAMTYPE_U32, "uStatIntICS", STAMUNIT_NS, NULL);
|
---|
8039 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntRDTR, STAMTYPE_U32, "uStatIntRDTR", STAMUNIT_NS, NULL);
|
---|
8040 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntRXDMT0, STAMTYPE_U32, "uStatIntRXDMT0", STAMUNIT_NS, NULL);
|
---|
8041 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatIntTXQE, STAMTYPE_U32, "uStatIntTXQE", STAMUNIT_NS, NULL);
|
---|
8042 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxNoRS, STAMTYPE_U32, "uStatTxNoRS", STAMUNIT_NS, NULL);
|
---|
8043 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxIDE, STAMTYPE_U32, "uStatTxIDE", STAMUNIT_NS, NULL);
|
---|
8044 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxDelayed, STAMTYPE_U32, "uStatTxDelayed", STAMUNIT_NS, NULL);
|
---|
8045 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxDelayExp, STAMTYPE_U32, "uStatTxDelayExp", STAMUNIT_NS, NULL);
|
---|
8046 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTAD, STAMTYPE_U32, "uStatTAD", STAMUNIT_NS, NULL);
|
---|
8047 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTID, STAMTYPE_U32, "uStatTID", STAMUNIT_NS, NULL);
|
---|
8048 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatRAD, STAMTYPE_U32, "uStatRAD", STAMUNIT_NS, NULL);
|
---|
8049 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatRID, STAMTYPE_U32, "uStatRID", STAMUNIT_NS, NULL);
|
---|
8050 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatRxFrm, STAMTYPE_U32, "uStatRxFrm", STAMUNIT_NS, NULL);
|
---|
8051 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxFrm, STAMTYPE_U32, "uStatTxFrm", STAMUNIT_NS, NULL);
|
---|
8052 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatDescCtx, STAMTYPE_U32, "uStatDescCtx", STAMUNIT_NS, NULL);
|
---|
8053 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatDescDat, STAMTYPE_U32, "uStatDescDat", STAMUNIT_NS, NULL);
|
---|
8054 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatDescLeg, STAMTYPE_U32, "uStatDescLeg", STAMUNIT_NS, NULL);
|
---|
8055 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx1514, STAMTYPE_U32, "uStatTx1514", STAMUNIT_NS, NULL);
|
---|
8056 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx2962, STAMTYPE_U32, "uStatTx2962", STAMUNIT_NS, NULL);
|
---|
8057 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx4410, STAMTYPE_U32, "uStatTx4410", STAMUNIT_NS, NULL);
|
---|
8058 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx5858, STAMTYPE_U32, "uStatTx5858", STAMUNIT_NS, NULL);
|
---|
8059 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx7306, STAMTYPE_U32, "uStatTx7306", STAMUNIT_NS, NULL);
|
---|
8060 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx8754, STAMTYPE_U32, "uStatTx8754", STAMUNIT_NS, NULL);
|
---|
8061 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx16384, STAMTYPE_U32, "uStatTx16384", STAMUNIT_NS, NULL);
|
---|
8062 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTx32768, STAMTYPE_U32, "uStatTx32768", STAMUNIT_NS, NULL);
|
---|
8063 | PDMDevHlpSTAMRegister(pDevIns, &pThis->uStatTxLarge, STAMTYPE_U32, "uStatTxLarge", STAMUNIT_NS, NULL);
|
---|
8064 | #endif /* E1K_INT_STATS */
|
---|
8065 |
|
---|
8066 | return VINF_SUCCESS;
|
---|
8067 | }
|
---|
8068 |
|
---|
8069 | #else /* !IN_RING3 */
|
---|
8070 |
|
---|
8071 | /**
|
---|
8072 | * @callback_method_impl{PDMDEVREGR0,pfnConstruct}
|
---|
8073 | */
|
---|
8074 | static DECLCALLBACK(int) e1kRZConstruct(PPDMDEVINS pDevIns)
|
---|
8075 | {
|
---|
8076 | PDMDEV_CHECK_VERSIONS_RETURN(pDevIns);
|
---|
8077 | PE1KSTATE pThis = PDMDEVINS_2_DATA(pDevIns, PE1KSTATE);
|
---|
8078 | PE1KSTATECC pThisCC = PDMDEVINS_2_DATA_CC(pDevIns, PE1KSTATECC);
|
---|
8079 |
|
---|
8080 | /* Initialize context specific state data: */
|
---|
8081 | pThisCC->CTX_SUFF(pDevIns) = pDevIns;
|
---|
8082 | /** @todo @bugref{9218} ring-0 driver stuff */
|
---|
8083 | pThisCC->CTX_SUFF(pDrv) = NULL;
|
---|
8084 | pThisCC->CTX_SUFF(pTxSg) = NULL;
|
---|
8085 |
|
---|
8086 | /* Configure critical sections the same way: */
|
---|
8087 | int rc = PDMDevHlpSetDeviceCritSect(pDevIns, PDMDevHlpCritSectGetNop(pDevIns));
|
---|
8088 | AssertRCReturn(rc, rc);
|
---|
8089 |
|
---|
8090 | /* Set up MMIO and I/O port callbacks for this context: */
|
---|
8091 | rc = PDMDevHlpMmioSetUpContext(pDevIns, pThis->hMmioRegion, e1kMMIOWrite, e1kMMIORead, NULL /*pvUser*/);
|
---|
8092 | AssertRCReturn(rc, rc);
|
---|
8093 |
|
---|
8094 | rc = PDMDevHlpIoPortSetUpContext(pDevIns, pThis->hIoPorts, e1kIOPortOut, e1kIOPortIn, NULL /*pvUser*/);
|
---|
8095 | AssertRCReturn(rc, rc);
|
---|
8096 |
|
---|
8097 | return VINF_SUCCESS;
|
---|
8098 | }
|
---|
8099 |
|
---|
8100 | #endif /* !IN_RING3 */
|
---|
8101 |
|
---|
8102 | /**
|
---|
8103 | * The device registration structure.
|
---|
8104 | */
|
---|
8105 | const PDMDEVREG g_DeviceE1000 =
|
---|
8106 | {
|
---|
8107 | /* .u32version = */ PDM_DEVREG_VERSION,
|
---|
8108 | /* .uReserved0 = */ 0,
|
---|
8109 | /* .szName = */ "e1000",
|
---|
8110 | /* .fFlags = */ PDM_DEVREG_FLAGS_DEFAULT_BITS | PDM_DEVREG_FLAGS_RZ | PDM_DEVREG_FLAGS_NEW_STYLE,
|
---|
8111 | /* .fClass = */ PDM_DEVREG_CLASS_NETWORK,
|
---|
8112 | /* .cMaxInstances = */ ~0U,
|
---|
8113 | /* .uSharedVersion = */ 42,
|
---|
8114 | /* .cbInstanceShared = */ sizeof(E1KSTATE),
|
---|
8115 | /* .cbInstanceCC = */ sizeof(E1KSTATECC),
|
---|
8116 | /* .cbInstanceRC = */ sizeof(E1KSTATERC),
|
---|
8117 | /* .cMaxPciDevices = */ 1,
|
---|
8118 | /* .cMaxMsixVectors = */ 0,
|
---|
8119 | /* .pszDescription = */ "Intel PRO/1000 MT Desktop Ethernet.",
|
---|
8120 | #if defined(IN_RING3)
|
---|
8121 | /* .pszRCMod = */ "VBoxDDRC.rc",
|
---|
8122 | /* .pszR0Mod = */ "VBoxDDR0.r0",
|
---|
8123 | /* .pfnConstruct = */ e1kR3Construct,
|
---|
8124 | /* .pfnDestruct = */ e1kR3Destruct,
|
---|
8125 | /* .pfnRelocate = */ e1kR3Relocate,
|
---|
8126 | /* .pfnMemSetup = */ NULL,
|
---|
8127 | /* .pfnPowerOn = */ NULL,
|
---|
8128 | /* .pfnReset = */ e1kR3Reset,
|
---|
8129 | /* .pfnSuspend = */ e1kR3Suspend,
|
---|
8130 | /* .pfnResume = */ NULL,
|
---|
8131 | /* .pfnAttach = */ e1kR3Attach,
|
---|
8132 | /* .pfnDeatch = */ e1kR3Detach,
|
---|
8133 | /* .pfnQueryInterface = */ NULL,
|
---|
8134 | /* .pfnInitComplete = */ NULL,
|
---|
8135 | /* .pfnPowerOff = */ e1kR3PowerOff,
|
---|
8136 | /* .pfnSoftReset = */ NULL,
|
---|
8137 | /* .pfnReserved0 = */ NULL,
|
---|
8138 | /* .pfnReserved1 = */ NULL,
|
---|
8139 | /* .pfnReserved2 = */ NULL,
|
---|
8140 | /* .pfnReserved3 = */ NULL,
|
---|
8141 | /* .pfnReserved4 = */ NULL,
|
---|
8142 | /* .pfnReserved5 = */ NULL,
|
---|
8143 | /* .pfnReserved6 = */ NULL,
|
---|
8144 | /* .pfnReserved7 = */ NULL,
|
---|
8145 | #elif defined(IN_RING0)
|
---|
8146 | /* .pfnEarlyConstruct = */ NULL,
|
---|
8147 | /* .pfnConstruct = */ e1kRZConstruct,
|
---|
8148 | /* .pfnDestruct = */ NULL,
|
---|
8149 | /* .pfnFinalDestruct = */ NULL,
|
---|
8150 | /* .pfnRequest = */ NULL,
|
---|
8151 | /* .pfnReserved0 = */ NULL,
|
---|
8152 | /* .pfnReserved1 = */ NULL,
|
---|
8153 | /* .pfnReserved2 = */ NULL,
|
---|
8154 | /* .pfnReserved3 = */ NULL,
|
---|
8155 | /* .pfnReserved4 = */ NULL,
|
---|
8156 | /* .pfnReserved5 = */ NULL,
|
---|
8157 | /* .pfnReserved6 = */ NULL,
|
---|
8158 | /* .pfnReserved7 = */ NULL,
|
---|
8159 | #elif defined(IN_RC)
|
---|
8160 | /* .pfnConstruct = */ e1kRZConstruct,
|
---|
8161 | /* .pfnReserved0 = */ NULL,
|
---|
8162 | /* .pfnReserved1 = */ NULL,
|
---|
8163 | /* .pfnReserved2 = */ NULL,
|
---|
8164 | /* .pfnReserved3 = */ NULL,
|
---|
8165 | /* .pfnReserved4 = */ NULL,
|
---|
8166 | /* .pfnReserved5 = */ NULL,
|
---|
8167 | /* .pfnReserved6 = */ NULL,
|
---|
8168 | /* .pfnReserved7 = */ NULL,
|
---|
8169 | #else
|
---|
8170 | # error "Not in IN_RING3, IN_RING0 or IN_RC!"
|
---|
8171 | #endif
|
---|
8172 | /* .u32VersionEnd = */ PDM_DEVREG_VERSION
|
---|
8173 | };
|
---|
8174 |
|
---|
8175 | #endif /* !VBOX_DEVICE_STRUCT_TESTCASE */
|
---|