/* $Id: DevHdaCodec.cpp 96407 2022-08-22 17:43:14Z vboxsync $ */ /** @file * Intel HD Audio Controller Emulation - Codec, Sigmatel/IDT STAC9220. * * Implemented based on the Intel HD Audio specification and the * Sigmatel/IDT STAC9220 datasheet. */ /* * Copyright (C) 2006-2022 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0-only */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_DEV_HDA_CODEC #include #include #include #include #include #include #include #include #include #include #include #include "VBoxDD.h" #include "AudioMixer.h" #include "DevHda.h" /********************************************************************************************************************************* * Defined Constants And Macros * *********************************************************************************************************************************/ #define AMPLIFIER_IN 0 #define AMPLIFIER_OUT 1 #define AMPLIFIER_LEFT 1 #define AMPLIFIER_RIGHT 0 #define AMPLIFIER_REGISTER(amp, inout, side, index) ((amp)[30*(inout) + 15*(side) + (index)]) /** @name STAC9220 - Nodes IDs / Names. * @{ */ #define STAC9220_NID_ROOT 0x0 /* Root node */ #define STAC9220_NID_AFG 0x1 /* Audio Configuration Group */ #define STAC9220_NID_DAC0 0x2 /* Out */ #define STAC9220_NID_DAC1 0x3 /* Out */ #define STAC9220_NID_DAC2 0x4 /* Out */ #define STAC9220_NID_DAC3 0x5 /* Out */ #define STAC9220_NID_ADC0 0x6 /* In */ #define STAC9220_NID_ADC1 0x7 /* In */ #define STAC9220_NID_SPDIF_OUT 0x8 /* Out */ #define STAC9220_NID_SPDIF_IN 0x9 /* In */ /** Also known as PIN_A. */ #define STAC9220_NID_PIN_HEADPHONE0 0xA /* In, Out */ #define STAC9220_NID_PIN_B 0xB /* In, Out */ #define STAC9220_NID_PIN_C 0xC /* In, Out */ /** Also known as PIN D. */ #define STAC9220_NID_PIN_HEADPHONE1 0xD /* In, Out */ #define STAC9220_NID_PIN_E 0xE /* In */ #define STAC9220_NID_PIN_F 0xF /* In, Out */ /** Also known as DIGOUT0. */ #define STAC9220_NID_PIN_SPDIF_OUT 0x10 /* Out */ /** Also known as DIGIN. */ #define STAC9220_NID_PIN_SPDIF_IN 0x11 /* In */ #define STAC9220_NID_ADC0_MUX 0x12 /* In */ #define STAC9220_NID_ADC1_MUX 0x13 /* In */ #define STAC9220_NID_PCBEEP 0x14 /* Out */ #define STAC9220_NID_PIN_CD 0x15 /* In */ #define STAC9220_NID_VOL_KNOB 0x16 #define STAC9220_NID_AMP_ADC0 0x17 /* In */ #define STAC9220_NID_AMP_ADC1 0x18 /* In */ /* Only for STAC9221. */ #define STAC9221_NID_ADAT_OUT 0x19 /* Out */ #define STAC9221_NID_I2S_OUT 0x1A /* Out */ #define STAC9221_NID_PIN_I2S_OUT 0x1B /* Out */ /** Number of total nodes emulated. */ #define STAC9221_NUM_NODES 0x1C /** @} */ /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ /** * A codec verb descriptor. */ typedef struct CODECVERB { /** Verb. */ uint32_t uVerb; /** Verb mask. */ uint32_t fMask; /** * Function pointer for implementation callback. * * This is always a valid pointer in ring-3, while elsewhere a NULL indicates * that we must return to ring-3 to process it. * * @returns VBox status code (99.9% is VINF_SUCCESS, caller doesn't care much * what you return at present). * * @param pThis The shared codec intance data. * @param uCmd The command. * @param puResp Where to return the response value. * * @thread EMT or task worker thread (see HDASTATE::hCorbDmaTask). */ DECLCALLBACKMEMBER(int, pfn, (PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp)); /** Friendly name, for debugging. */ const char *pszName; } CODECVERB; /** Pointer to a const codec verb descriptor. */ typedef CODECVERB const *PCCODECVERB; /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ /** @name STAC9220 Node Classifications. * @note Referenced through STAC9220WIDGET in the constructor below. * @{ */ static uint8_t const g_abStac9220Ports[] = { STAC9220_NID_PIN_HEADPHONE0, STAC9220_NID_PIN_B, STAC9220_NID_PIN_C, STAC9220_NID_PIN_HEADPHONE1, STAC9220_NID_PIN_E, STAC9220_NID_PIN_F, 0 }; static uint8_t const g_abStac9220Dacs[] = { STAC9220_NID_DAC0, STAC9220_NID_DAC1, STAC9220_NID_DAC2, STAC9220_NID_DAC3, 0 }; static uint8_t const g_abStac9220Adcs[] = { STAC9220_NID_ADC0, STAC9220_NID_ADC1, 0 }; static uint8_t const g_abStac9220SpdifOuts[] = { STAC9220_NID_SPDIF_OUT, 0 }; static uint8_t const g_abStac9220SpdifIns[] = { STAC9220_NID_SPDIF_IN, 0 }; static uint8_t const g_abStac9220DigOutPins[] = { STAC9220_NID_PIN_SPDIF_OUT, 0 }; static uint8_t const g_abStac9220DigInPins[] = { STAC9220_NID_PIN_SPDIF_IN, 0 }; static uint8_t const g_abStac9220AdcVols[] = { STAC9220_NID_AMP_ADC0, STAC9220_NID_AMP_ADC1, 0 }; static uint8_t const g_abStac9220AdcMuxs[] = { STAC9220_NID_ADC0_MUX, STAC9220_NID_ADC1_MUX, 0 }; static uint8_t const g_abStac9220Pcbeeps[] = { STAC9220_NID_PCBEEP, 0 }; static uint8_t const g_abStac9220Cds[] = { STAC9220_NID_PIN_CD, 0 }; static uint8_t const g_abStac9220VolKnobs[] = { STAC9220_NID_VOL_KNOB, 0 }; /** @} */ /** @name STAC 9221 Values. * @note Referenced through STAC9220WIDGET in the constructor below * @{ */ /** @todo Is STAC9220_NID_SPDIF_IN really correct for reserved nodes? */ static uint8_t const g_abStac9220Reserveds[] = { STAC9220_NID_SPDIF_IN, STAC9221_NID_ADAT_OUT, STAC9221_NID_I2S_OUT, STAC9221_NID_PIN_I2S_OUT, 0 }; /** @} */ /** SSM description of CODECCOMMONNODE. */ static SSMFIELD const g_aCodecNodeFields[] = { SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.uID), SSMFIELD_ENTRY_PAD_HC_AUTO(3, 3), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F00_param), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F02_param), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, au32Params), SSMFIELD_ENTRY_TERM() }; /** Backward compatibility with v1 of CODECCOMMONNODE. */ static SSMFIELD const g_aCodecNodeFieldsV1[] = { SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.uID), SSMFIELD_ENTRY_PAD_HC_AUTO(3, 7), SSMFIELD_ENTRY_OLD_HCPTR(Core.name), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F00_param), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F02_param), SSMFIELD_ENTRY( CODECSAVEDSTATENODE, au32Params), SSMFIELD_ENTRY_TERM() }; /********************************************************************************************************************************* * STAC9220 Constructor / Reset * *********************************************************************************************************************************/ /** * Resets a single node of the codec. * * @param pThis HDA codec of node to reset. * @param uNID Node ID to set node to. * @param pNode Node to reset. * @param fInReset Set if we're called from hdaCodecReset via * stac9220Reset, clear if called from stac9220Construct. */ static void stac9220NodeReset(PHDACODECR3 pThis, uint8_t uNID, PCODECNODE pNode, bool const fInReset) { LogFlowFunc(("NID=0x%x (%RU8)\n", uNID, uNID)); if ( !fInReset && ( uNID != STAC9220_NID_ROOT && uNID != STAC9220_NID_AFG) ) { RT_ZERO(pNode->node); } /* Set common parameters across all nodes. */ pNode->node.uID = uNID; pNode->node.uSD = 0; switch (uNID) { /* Root node. */ case STAC9220_NID_ROOT: { /* Set the revision ID. */ pNode->root.node.au32F00_param[0x02] = CODEC_MAKE_F00_02(0x1, 0x0, 0x3, 0x4, 0x0, 0x1); break; } /* * AFG (Audio Function Group). */ case STAC9220_NID_AFG: { pNode->afg.node.au32F00_param[0x08] = CODEC_MAKE_F00_08(1, 0xd, 0xd); /* We set the AFG's PCM capabitilies fixed to 16kHz, 22.5kHz + 44.1kHz, 16-bit signed. */ pNode->afg.node.au32F00_param[0x0A] = CODEC_F00_0A_44_1KHZ /* 44.1 kHz */ | CODEC_F00_0A_44_1KHZ_1_2X /* Messed up way of saying 22.05 kHz */ | CODEC_F00_0A_48KHZ_1_3X /* Messed up way of saying 16 kHz. */ | CODEC_F00_0A_16_BIT; /* 16-bit signed */ /* Note! We do not set CODEC_F00_0A_48KHZ here because we end up with S/PDIF output showing up in windows and it trying to configure streams other than 0 and 4 and stuff going sideways in the stream setup/removal area. */ pNode->afg.node.au32F00_param[0x0B] = CODEC_F00_0B_PCM; pNode->afg.node.au32F00_param[0x0C] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_BALANCED_IO | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENCE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE; /* Default input amplifier capabilities. */ pNode->node.au32F00_param[0x0D] = CODEC_MAKE_F00_0D(CODEC_AMP_CAP_MUTE, CODEC_AMP_STEP_SIZE, CODEC_AMP_NUM_STEPS, CODEC_AMP_OFF_INITIAL); /* Default output amplifier capabilities. */ pNode->node.au32F00_param[0x12] = CODEC_MAKE_F00_12(CODEC_AMP_CAP_MUTE, CODEC_AMP_STEP_SIZE, CODEC_AMP_NUM_STEPS, CODEC_AMP_OFF_INITIAL); pNode->afg.node.au32F00_param[0x11] = CODEC_MAKE_F00_11(1, 1, 0, 0, 4); pNode->afg.node.au32F00_param[0x0F] = CODEC_F00_0F_D3 | CODEC_F00_0F_D2 | CODEC_F00_0F_D1 | CODEC_F00_0F_D0; pNode->afg.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D2, CODEC_F05_D2); /* PS-Act: D2, PS->Set D2. */ pNode->afg.u32F08_param = 0; pNode->afg.u32F17_param = 0; break; } /* * DACs. */ case STAC9220_NID_DAC0: /* DAC0: Headphones 0 + 1 */ case STAC9220_NID_DAC1: /* DAC1: PIN C */ case STAC9220_NID_DAC2: /* DAC2: PIN B */ case STAC9220_NID_DAC3: /* DAC3: PIN F */ { pNode->dac.u32A_param = CODEC_MAKE_A(HDA_SDFMT_TYPE_PCM, HDA_SDFMT_BASE_44KHZ, HDA_SDFMT_MULT_1X, HDA_SDFMT_DIV_2X, HDA_SDFMT_16_BIT, HDA_SDFMT_CHAN_STEREO); /* 7.3.4.6: Audio widget capabilities. */ pNode->dac.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 13, 0) | CODEC_F00_09_CAP_L_R_SWAP | CODEC_F00_09_CAP_POWER_CTRL | CODEC_F00_09_CAP_OUT_AMP_PRESENT | CODEC_F00_09_CAP_STEREO; /* Connection list; must be 0 if the only connection for the widget is * to the High Definition Audio Link. */ pNode->dac.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 0 /* Entries */); pNode->dac.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3); RT_ZERO(pNode->dac.B_params); AMPLIFIER_REGISTER(pNode->dac.B_params, AMPLIFIER_OUT, AMPLIFIER_LEFT, 0) = 0x7F | RT_BIT(7); AMPLIFIER_REGISTER(pNode->dac.B_params, AMPLIFIER_OUT, AMPLIFIER_RIGHT, 0) = 0x7F | RT_BIT(7); break; } /* * ADCs. */ case STAC9220_NID_ADC0: /* Analog input. */ { pNode->node.au32F02_param[0] = STAC9220_NID_AMP_ADC0; goto adc_init; } case STAC9220_NID_ADC1: /* Analog input (CD). */ { pNode->node.au32F02_param[0] = STAC9220_NID_AMP_ADC1; /* Fall through is intentional. */ adc_init: pNode->adc.u32A_param = CODEC_MAKE_A(HDA_SDFMT_TYPE_PCM, HDA_SDFMT_BASE_44KHZ, HDA_SDFMT_MULT_1X, HDA_SDFMT_DIV_2X, HDA_SDFMT_16_BIT, HDA_SDFMT_CHAN_STEREO); pNode->adc.u32F03_param = RT_BIT(0); pNode->adc.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3); /* PS-Act: D3 Set: D3 */ pNode->adc.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_INPUT, 0xD, 0) | CODEC_F00_09_CAP_POWER_CTRL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_PROC_WIDGET | CODEC_F00_09_CAP_STEREO; /* Connection list entries. */ pNode->adc.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); break; } /* * SP/DIF In/Out. */ case STAC9220_NID_SPDIF_OUT: { pNode->spdifout.u32A_param = CODEC_MAKE_A(HDA_SDFMT_TYPE_PCM, HDA_SDFMT_BASE_44KHZ, HDA_SDFMT_MULT_1X, HDA_SDFMT_DIV_2X, HDA_SDFMT_16_BIT, HDA_SDFMT_CHAN_STEREO); pNode->spdifout.u32F06_param = 0; pNode->spdifout.u32F0d_param = 0; pNode->spdifout.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 4, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_FMT_OVERRIDE | CODEC_F00_09_CAP_STEREO; /* Use a fixed format from AFG. */ pNode->spdifout.node.au32F00_param[0xA] = pThis->aNodes[STAC9220_NID_AFG].node.au32F00_param[0xA]; pNode->spdifout.node.au32F00_param[0xB] = CODEC_F00_0B_PCM; break; } case STAC9220_NID_SPDIF_IN: { pNode->spdifin.u32A_param = CODEC_MAKE_A(HDA_SDFMT_TYPE_PCM, HDA_SDFMT_BASE_44KHZ, HDA_SDFMT_MULT_1X, HDA_SDFMT_DIV_2X, HDA_SDFMT_16_BIT, HDA_SDFMT_CHAN_STEREO); pNode->spdifin.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_INPUT, 4, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_FMT_OVERRIDE | CODEC_F00_09_CAP_STEREO; /* Use a fixed format from AFG. */ pNode->spdifin.node.au32F00_param[0xA] = pThis->aNodes[STAC9220_NID_AFG].node.au32F00_param[0xA]; pNode->spdifin.node.au32F00_param[0xB] = CODEC_F00_0B_PCM; /* Connection list entries. */ pNode->spdifin.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); pNode->spdifin.node.au32F02_param[0] = 0x11; break; } /* * PINs / Ports. */ case STAC9220_NID_PIN_HEADPHONE0: /* Port A: Headphone in/out (front). */ { pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0 /*fPresent*/, CODEC_F09_ANALOG_NA); pNode->port.node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_HEADPHONE_AMP | CODEC_F00_0C_CAP_PRESENCE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED; /* Connection list entry 0: Goes to DAC0. */ pNode->port.node.au32F02_param[0] = STAC9220_NID_DAC0; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_FRONT, CODEC_F1C_DEVICE_HP, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_GREEN, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_1, 0x0 /* Seq */); goto port_init; } case STAC9220_NID_PIN_B: /* Port B: Rear CLFE (Center / Subwoofer). */ { pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1 /*fPresent*/, CODEC_F09_ANALOG_NA); pNode->port.node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENCE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED; /* Connection list entry 0: Goes to DAC2. */ pNode->port.node.au32F02_param[0] = STAC9220_NID_DAC2; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_SPEAKER, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_BLACK, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_0, 0x1 /* Seq */); goto port_init; } case STAC9220_NID_PIN_C: /* Rear Speaker. */ { pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1 /*fPresent*/, CODEC_F09_ANALOG_NA); pNode->port.node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENCE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED; /* Connection list entry 0: Goes to DAC1. */ pNode->port.node.au32F02_param[0x0] = STAC9220_NID_DAC1; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_SPEAKER, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_GREEN, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_0, 0x0 /* Seq */); goto port_init; } case STAC9220_NID_PIN_HEADPHONE1: /* Also known as PIN_D. */ { pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1 /*fPresent*/, CODEC_F09_ANALOG_NA); pNode->port.node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_HEADPHONE_AMP | CODEC_F00_0C_CAP_PRESENCE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED; /* Connection list entry 0: Goes to DAC1. */ pNode->port.node.au32F02_param[0x0] = STAC9220_NID_DAC0; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_FRONT, CODEC_F1C_DEVICE_MIC, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_PINK, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_15, 0x0 /* Ignored */); /* Fall through is intentional. */ port_init: pNode->port.u32F07_param = CODEC_F07_IN_ENABLE | CODEC_F07_OUT_ENABLE; pNode->port.u32F08_param = 0; pNode->port.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_STEREO; /* Connection list entries. */ pNode->port.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); break; } case STAC9220_NID_PIN_E: { pNode->port.u32F07_param = CODEC_F07_IN_ENABLE; pNode->port.u32F08_param = 0; /* If Line in is reported as enabled, OS X sees no speakers! Windows does * not care either way, although Linux does. */ pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0 /* fPresent */, 0); pNode->port.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_STEREO; pNode->port.node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_PRESENCE_DETECT; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_LINE_IN, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_BLUE, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_4, 0x1 /* Seq */); break; } case STAC9220_NID_PIN_F: { pNode->port.u32F07_param = CODEC_F07_IN_ENABLE | CODEC_F07_OUT_ENABLE; pNode->port.u32F08_param = 0; pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1 /* fPresent */, CODEC_F09_ANALOG_NA); pNode->port.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_OUT_AMP_PRESENT | CODEC_F00_09_CAP_STEREO; pNode->port.node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT; /* Connection list entry 0: Goes to DAC3. */ pNode->port.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); pNode->port.node.au32F02_param[0x0] = STAC9220_NID_DAC3; if (!fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_INTERNAL, CODEC_F1C_DEVICE_SPEAKER, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_ORANGE, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_0, 0x2 /* Seq */); break; } case STAC9220_NID_PIN_SPDIF_OUT: /* Rear SPDIF Out. */ { pNode->digout.u32F07_param = CODEC_F07_OUT_ENABLE; pNode->digout.u32F09_param = 0; pNode->digout.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_STEREO; pNode->digout.node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT; /* Connection list entries. */ pNode->digout.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 3 /* Entries */); pNode->digout.node.au32F02_param[0x0] = RT_MAKE_U32_FROM_U8(STAC9220_NID_SPDIF_OUT, STAC9220_NID_AMP_ADC0, STAC9221_NID_ADAT_OUT, 0); if (!fInReset) pNode->digout.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_SPDIF_OUT, CODEC_F1C_CONNECTION_TYPE_DIN, CODEC_F1C_COLOR_BLACK, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_2, 0x0 /* Seq */); break; } case STAC9220_NID_PIN_SPDIF_IN: { pNode->digin.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3); /* PS-Act: D3 -> D3 */ pNode->digin.u32F07_param = CODEC_F07_IN_ENABLE; pNode->digin.u32F08_param = 0; pNode->digin.u32F09_param = CODEC_MAKE_F09_DIGITAL(0, 0); pNode->digin.u32F0c_param = 0; pNode->digin.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 3, 0) | CODEC_F00_09_CAP_POWER_CTRL | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_STEREO; pNode->digin.node.au32F00_param[0xC] = CODEC_F00_0C_CAP_EAPD | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_PRESENCE_DETECT; if (!fInReset) pNode->digin.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_SPDIF_IN, CODEC_F1C_CONNECTION_TYPE_OTHER_DIGITAL, CODEC_F1C_COLOR_BLACK, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_5, 0x0 /* Seq */); break; } case STAC9220_NID_ADC0_MUX: { pNode->adcmux.u32F01_param = 0; /* Connection select control index (STAC9220_NID_PIN_E). */ goto adcmux_init; } case STAC9220_NID_ADC1_MUX: { pNode->adcmux.u32F01_param = 1; /* Connection select control index (STAC9220_NID_PIN_CD). */ /* Fall through is intentional. */ adcmux_init: pNode->adcmux.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_SELECTOR, 0, 0) | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_AMP_FMT_OVERRIDE | CODEC_F00_09_CAP_OUT_AMP_PRESENT | CODEC_F00_09_CAP_STEREO; pNode->adcmux.node.au32F00_param[0xD] = CODEC_MAKE_F00_0D(0, 27, 4, 0); /* Connection list entries. */ pNode->adcmux.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 7 /* Entries */); pNode->adcmux.node.au32F02_param[0x0] = RT_MAKE_U32_FROM_U8(STAC9220_NID_PIN_E, STAC9220_NID_PIN_CD, STAC9220_NID_PIN_F, STAC9220_NID_PIN_B); pNode->adcmux.node.au32F02_param[0x4] = RT_MAKE_U32_FROM_U8(STAC9220_NID_PIN_C, STAC9220_NID_PIN_HEADPHONE1, STAC9220_NID_PIN_HEADPHONE0, 0x0 /* Unused */); /* STAC 9220 v10 6.21-22.{4,5} both(left and right) out amplifiers initialized with 0. */ RT_ZERO(pNode->adcmux.B_params); break; } case STAC9220_NID_PCBEEP: { pNode->pcbeep.u32F0a_param = 0; pNode->pcbeep.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_BEEP_GEN, 0, 0) | CODEC_F00_09_CAP_AMP_FMT_OVERRIDE | CODEC_F00_09_CAP_OUT_AMP_PRESENT; pNode->pcbeep.node.au32F00_param[0xD] = CODEC_MAKE_F00_0D(0, 17, 3, 3); RT_ZERO(pNode->pcbeep.B_params); break; } case STAC9220_NID_PIN_CD: { pNode->cdnode.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_STEREO; pNode->cdnode.node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT; if (!fInReset) pNode->cdnode.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_FIXED, CODEC_F1C_LOCATION_INTERNAL, CODEC_F1C_DEVICE_CD, CODEC_F1C_CONNECTION_TYPE_ATAPI, CODEC_F1C_COLOR_UNKNOWN, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_4, 0x2 /* Seq */); break; } case STAC9220_NID_VOL_KNOB: { pNode->volumeKnob.u32F08_param = 0; pNode->volumeKnob.u32F0f_param = 0x7f; pNode->volumeKnob.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VOLUME_KNOB, 0, 0); pNode->volumeKnob.node.au32F00_param[0xD] = RT_BIT(7) | 0x7F; /* Connection list entries. */ pNode->volumeKnob.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 4 /* Entries */); pNode->volumeKnob.node.au32F02_param[0x0] = RT_MAKE_U32_FROM_U8(STAC9220_NID_DAC0, STAC9220_NID_DAC1, STAC9220_NID_DAC2, STAC9220_NID_DAC3); break; } case STAC9220_NID_AMP_ADC0: /* ADC0Vol */ { pNode->adcvol.node.au32F02_param[0] = STAC9220_NID_ADC0_MUX; goto adcvol_init; } case STAC9220_NID_AMP_ADC1: /* ADC1Vol */ { pNode->adcvol.node.au32F02_param[0] = STAC9220_NID_ADC1_MUX; /* Fall through is intentional. */ adcvol_init: pNode->adcvol.node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_SELECTOR, 0, 0) | CODEC_F00_09_CAP_L_R_SWAP | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_IN_AMP_PRESENT | CODEC_F00_09_CAP_STEREO; pNode->adcvol.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); RT_ZERO(pNode->adcvol.B_params); AMPLIFIER_REGISTER(pNode->adcvol.B_params, AMPLIFIER_IN, AMPLIFIER_LEFT, 0) = RT_BIT(7); AMPLIFIER_REGISTER(pNode->adcvol.B_params, AMPLIFIER_IN, AMPLIFIER_RIGHT, 0) = RT_BIT(7); break; } /* * STAC9221 nodes. */ case STAC9221_NID_ADAT_OUT: { pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VENDOR_DEFINED, 3, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_STEREO; break; } case STAC9221_NID_I2S_OUT: { pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 3, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_STEREO; break; } case STAC9221_NID_PIN_I2S_OUT: { pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_STEREO; pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT; /* Connection list entries. */ pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(CODEC_F00_0E_LIST_NID_SHORT, 1 /* Entries */); pNode->node.au32F02_param[0] = STAC9221_NID_I2S_OUT; if (!fInReset) pNode->reserved.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_NO_PHYS, CODEC_F1C_LOCATION_NA, CODEC_F1C_DEVICE_LINE_OUT, CODEC_F1C_CONNECTION_TYPE_UNKNOWN, CODEC_F1C_COLOR_UNKNOWN, CODEC_F1C_MISC_NONE, CODEC_F1C_ASSOCIATION_GROUP_15, 0x0 /* Ignored */); break; } default: AssertMsgFailed(("Node %RU8 not implemented\n", uNID)); break; } } /** * Resets the codec with all its connected nodes. * * @param pThis HDA codec to reset. */ static void stac9220Reset(PHDACODECR3 pThis) { AssertPtrReturnVoid(pThis->aNodes); LogRel(("HDA: Codec reset\n")); uint8_t const cTotalNodes = (uint8_t)RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)); for (uint8_t i = 0; i < cTotalNodes; i++) stac9220NodeReset(pThis, i, &pThis->aNodes[i], true /*fInReset*/); } static int stac9220Construct(PHDACODECR3 pThis, HDACODECCFG *pCfg) { /* * Note: The Linux kernel uses "patch_stac922x" for the fixups, * which in turn uses "ref922x_pin_configs" for the configuration * defaults tweaking in sound/pci/hda/patch_sigmatel.c. */ pCfg->idVendor = 0x8384; /* SigmaTel */ pCfg->idDevice = 0x7680; /* STAC9221 A1 */ pCfg->bBSKU = 0x76; pCfg->idAssembly = 0x80; AssertCompile(STAC9221_NUM_NODES <= RT_ELEMENTS(pThis->aNodes)); pCfg->cTotalNodes = STAC9221_NUM_NODES; pCfg->idxAdcVolsLineIn = STAC9220_NID_AMP_ADC0; pCfg->idxDacLineOut = STAC9220_NID_DAC1; /* Copy over the node class lists and popuplate afNodeClassifications. */ #define STAC9220WIDGET(a_Type) do { \ AssertCompile(RT_ELEMENTS(g_abStac9220##a_Type##s) <= RT_ELEMENTS(pCfg->ab##a_Type##s)); \ uint8_t *pbDst = (uint8_t *)&pCfg->ab##a_Type##s[0]; \ uintptr_t i; \ for (i = 0; i < RT_ELEMENTS(g_abStac9220##a_Type##s); i++) \ { \ uint8_t const idNode = g_abStac9220##a_Type##s[i]; \ if (idNode == 0) \ break; \ AssertReturn(idNode < RT_ELEMENTS(pThis->aNodes), VERR_INTERNAL_ERROR_3); \ pCfg->afNodeClassifications[idNode] |= RT_CONCAT(CODEC_NODE_CLS_,a_Type); \ pbDst[i] = idNode; \ } \ Assert(i + 1 == RT_ELEMENTS(g_abStac9220##a_Type##s)); \ for (; i < RT_ELEMENTS(pCfg->ab##a_Type##s); i++) \ pbDst[i] = 0; \ } while (0) STAC9220WIDGET(Port); STAC9220WIDGET(Dac); STAC9220WIDGET(Adc); STAC9220WIDGET(AdcVol); STAC9220WIDGET(AdcMux); STAC9220WIDGET(Pcbeep); STAC9220WIDGET(SpdifIn); STAC9220WIDGET(SpdifOut); STAC9220WIDGET(DigInPin); STAC9220WIDGET(DigOutPin); STAC9220WIDGET(Cd); STAC9220WIDGET(VolKnob); STAC9220WIDGET(Reserved); #undef STAC9220WIDGET /* * Initialize all codec nodes. * This is specific to the codec, so do this here. * * Note: Do *not* call stac9220Reset() here, as this would not * initialize the node default configuration values then! */ for (uint8_t i = 0; i < STAC9221_NUM_NODES; i++) stac9220NodeReset(pThis, i, &pThis->aNodes[i], false /*fInReset*/); /* Common root node initializers. */ pThis->aNodes[STAC9220_NID_ROOT].root.node.au32F00_param[0] = CODEC_MAKE_F00_00(pCfg->idVendor, pCfg->idDevice); pThis->aNodes[STAC9220_NID_ROOT].root.node.au32F00_param[4] = CODEC_MAKE_F00_04(0x1, 0x1); /* Common AFG node initializers. */ pThis->aNodes[STAC9220_NID_AFG].afg.node.au32F00_param[0x4] = CODEC_MAKE_F00_04(0x2, STAC9221_NUM_NODES - 2); pThis->aNodes[STAC9220_NID_AFG].afg.node.au32F00_param[0x5] = CODEC_MAKE_F00_05(1, CODEC_F00_05_AFG); pThis->aNodes[STAC9220_NID_AFG].afg.node.au32F00_param[0xA] = CODEC_F00_0A_44_1KHZ | CODEC_F00_0A_16_BIT; pThis->aNodes[STAC9220_NID_AFG].afg.u32F20_param = CODEC_MAKE_F20(pCfg->idVendor, pCfg->bBSKU, pCfg->idAssembly); return VINF_SUCCESS; } /********************************************************************************************************************************* * Common Helpers * *********************************************************************************************************************************/ /* * Some generic predicate functions. */ #define HDA_CODEC_IS_NODE_OF_TYPE_FUNC(a_Type) \ DECLINLINE(bool) hdaCodecIs##a_Type##Node(PHDACODECR3 pThis, uint8_t idNode) \ { \ Assert(idNode < RT_ELEMENTS(pThis->Cfg.afNodeClassifications)); \ Assert( (memchr(&pThis->Cfg.RT_CONCAT3(ab,a_Type,s)[0], idNode, sizeof(pThis->Cfg.RT_CONCAT3(ab,a_Type,s))) != NULL) \ == RT_BOOL(pThis->Cfg.afNodeClassifications[idNode] & RT_CONCAT(CODEC_NODE_CLS_,a_Type))); \ return RT_BOOL(pThis->Cfg.afNodeClassifications[idNode] & RT_CONCAT(CODEC_NODE_CLS_,a_Type)); \ } /* hdaCodecIsPortNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Port) /* hdaCodecIsDacNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Dac) /* hdaCodecIsAdcVolNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(AdcVol) /* hdaCodecIsAdcNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Adc) /* hdaCodecIsAdcMuxNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(AdcMux) /* hdaCodecIsPcbeepNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Pcbeep) /* hdaCodecIsSpdifOutNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(SpdifOut) /* hdaCodecIsSpdifInNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(SpdifIn) /* hdaCodecIsDigInPinNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(DigInPin) /* hdaCodecIsDigOutPinNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(DigOutPin) /* hdaCodecIsCdNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Cd) /* hdaCodecIsVolKnobNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(VolKnob) /* hdaCodecIsReservedNode */ HDA_CODEC_IS_NODE_OF_TYPE_FUNC(Reserved) /* * Misc helpers. */ static int hdaR3CodecToAudVolume(PHDACODECR3 pThis, PCODECNODE pNode, AMPLIFIER *pAmp, PDMAUDIOMIXERCTL enmMixerCtl) { RT_NOREF(pNode); uint8_t iDir; switch (enmMixerCtl) { case PDMAUDIOMIXERCTL_VOLUME_MASTER: case PDMAUDIOMIXERCTL_FRONT: iDir = AMPLIFIER_OUT; break; case PDMAUDIOMIXERCTL_LINE_IN: case PDMAUDIOMIXERCTL_MIC_IN: iDir = AMPLIFIER_IN; break; default: AssertMsgFailedReturn(("Invalid mixer control %RU32\n", enmMixerCtl), VERR_INVALID_PARAMETER); break; } int iMute; iMute = AMPLIFIER_REGISTER(*pAmp, iDir, AMPLIFIER_LEFT, 0) & RT_BIT(7); iMute |= AMPLIFIER_REGISTER(*pAmp, iDir, AMPLIFIER_RIGHT, 0) & RT_BIT(7); iMute >>=7; iMute &= 0x1; uint8_t bLeft = AMPLIFIER_REGISTER(*pAmp, iDir, AMPLIFIER_LEFT, 0) & 0x7f; uint8_t bRight = AMPLIFIER_REGISTER(*pAmp, iDir, AMPLIFIER_RIGHT, 0) & 0x7f; /* * The STAC9220 volume controls have 0 to -96dB attenuation range in 128 steps. * We have 0 to -96dB range in 256 steps. HDA volume setting of 127 must map * to 255 internally (0dB), while HDA volume setting of 0 (-96dB) should map * to 1 (rather than zero) internally. */ bLeft = (bLeft + 1) * (2 * 255) / 256; bRight = (bRight + 1) * (2 * 255) / 256; PDMAUDIOVOLUME Vol; PDMAudioVolumeInitFromStereo(&Vol, RT_BOOL(iMute), bLeft, bRight); LogFunc(("[NID0x%02x] %RU8/%RU8%s\n", pNode->node.uID, bLeft, bRight, Vol.fMuted ? "- Muted!" : "")); LogRel2(("HDA: Setting volume for mixer control '%s' to %RU8/%RU8%s\n", PDMAudioMixerCtlGetName(enmMixerCtl), bLeft, bRight, Vol.fMuted ? "- Muted!" : "")); return hdaR3MixerSetVolume(pThis, enmMixerCtl, &Vol); } DECLINLINE(void) hdaCodecSetRegister(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset, uint32_t mask) { Assert((pu32Reg && u8Offset < 32)); *pu32Reg &= ~(mask << u8Offset); *pu32Reg |= (u32Cmd & mask) << u8Offset; } DECLINLINE(void) hdaCodecSetRegisterU8(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset) { hdaCodecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_8BIT_DATA); } DECLINLINE(void) hdaCodecSetRegisterU16(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset) { hdaCodecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_16BIT_DATA); } /********************************************************************************************************************************* * Verb Processor Functions. * *********************************************************************************************************************************/ #if 0 /* unused */ /** * @interface_method_impl{CODECVERB,pfn, Unimplemented} */ static DECLCALLBACK(int) vrbProcUnimplemented(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { RT_NOREF(pThis, uCmd); LogFlowFunc(("uCmd(raw:%x: cad:%x, d:%c, nid:%x, verb:%x)\n", uCmd, CODEC_CAD(uCmd), CODEC_DIRECT(uCmd) ? 'N' : 'Y', CODEC_NID(uCmd), CODEC_VERBDATA(uCmd))); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, ??? } */ static DECLCALLBACK(int) vrbProcBreak(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { int rc; rc = vrbProcUnimplemented(pThis, uCmd, puResp); *puResp |= CODEC_RESPONSE_UNSOLICITED; return rc; } #endif /* unused */ /** * @interface_method_impl{CODECVERB,pfn, b-- } */ static DECLCALLBACK(int) vrbProcGetAmplifier(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; /* HDA spec 7.3.3.7 Note A */ /** @todo If index out of range response should be 0. */ uint8_t u8Index = CODEC_GET_AMP_DIRECTION(uCmd) == AMPLIFIER_OUT ? 0 : CODEC_GET_AMP_INDEX(uCmd); PCODECNODE pNode = &pThis->aNodes[CODEC_NID(uCmd)]; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->dac.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->adcvol.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else if (hdaCodecIsAdcMuxNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->adcmux.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->pcbeep.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->port.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = AMPLIFIER_REGISTER(pNode->adc.B_params, CODEC_GET_AMP_DIRECTION(uCmd), CODEC_GET_AMP_SIDE(uCmd), u8Index); else LogRel2(("HDA: Warning: Unhandled get amplifier command: 0x%x (NID=0x%x [%RU8])\n", uCmd, CODEC_NID(uCmd), CODEC_NID(uCmd))); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, ??? } */ static DECLCALLBACK(int) vrbProcGetParameter(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { Assert((uCmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F00_PARAM_LENGTH); if ((uCmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F00_PARAM_LENGTH) { *puResp = 0; LogFlowFunc(("invalid F00 parameter %d\n", (uCmd & CODEC_VERB_8BIT_DATA))); return VINF_SUCCESS; } *puResp = pThis->aNodes[CODEC_NID(uCmd)].node.au32F00_param[uCmd & CODEC_VERB_8BIT_DATA]; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f01 } */ static DECLCALLBACK(int) vrbProcGetConSelectCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsAdcMuxNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adcmux.u32F01_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digout.u32F01_param; else if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].port.u32F01_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adc.u32F01_param; else if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adcvol.u32F01_param; else LogRel2(("HDA: Warning: Unhandled get connection select control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 701 } */ static DECLCALLBACK(int) vrbProcSetConSelectCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsAdcMuxNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adcmux.u32F01_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digout.u32F01_param; else if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].port.u32F01_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adc.u32F01_param; else if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adcvol.u32F01_param; else LogRel2(("HDA: Warning: Unhandled set connection select control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f07 } */ static DECLCALLBACK(int) vrbProcGetPinCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].port.u32F07_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digout.u32F07_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F07_param; else if (hdaCodecIsCdNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].cdnode.u32F07_param; else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].pcbeep.u32F07_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F07_param; else LogRel2(("HDA: Warning: Unhandled get pin control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 707 } */ static DECLCALLBACK(int) vrbProcSetPinCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].port.u32F07_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F07_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digout.u32F07_param; else if (hdaCodecIsCdNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].cdnode.u32F07_param; else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].pcbeep.u32F07_param; else if ( hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd)) && CODEC_NID(uCmd) == 0x1b) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F07_param; else LogRel2(("HDA: Warning: Unhandled set pin control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f08 } */ static DECLCALLBACK(int) vrbProcGetUnsolicitedEnabled(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].port.u32F08_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F08_param; else if ((uCmd) == STAC9220_NID_AFG) *puResp = pThis->aNodes[CODEC_NID(uCmd)].afg.u32F08_param; else if (hdaCodecIsVolKnobNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].volumeKnob.u32F08_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digout.u32F08_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F08_param; else LogRel2(("HDA: Warning: Unhandled get unsolicited enabled command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 708 } */ static DECLCALLBACK(int) vrbProcSetUnsolicitedEnabled(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].port.u32F08_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F08_param; else if (CODEC_NID(uCmd) == STAC9220_NID_AFG) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].afg.u32F08_param; else if (hdaCodecIsVolKnobNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].volumeKnob.u32F08_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F08_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digout.u32F08_param; else LogRel2(("HDA: Warning: Unhandled set unsolicited enabled command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f09 } */ static DECLCALLBACK(int) vrbProcGetPinSense(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].port.u32F09_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F09_param; else { AssertFailed(); LogRel2(("HDA: Warning: Unhandled get pin sense command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); } return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 709 } */ static DECLCALLBACK(int) vrbProcSetPinSense(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].port.u32F09_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F09_param; else LogRel2(("HDA: Warning: Unhandled set pin sense command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, ??? } */ static DECLCALLBACK(int) vrbProcGetConnectionListEntry(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; Assert((uCmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F02_PARAM_LENGTH); if ((uCmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F02_PARAM_LENGTH) { LogFlowFunc(("access to invalid F02 index %d\n", (uCmd & CODEC_VERB_8BIT_DATA))); return VINF_SUCCESS; } *puResp = pThis->aNodes[CODEC_NID(uCmd)].node.au32F02_param[uCmd & CODEC_VERB_8BIT_DATA]; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f03 } */ static DECLCALLBACK(int) vrbProcGetProcessingState(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adc.u32F03_param; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 703 } */ static DECLCALLBACK(int) vrbProcSetProcessingState(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU8(&pThis->aNodes[CODEC_NID(uCmd)].adc.u32F03_param, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f0d } */ static DECLCALLBACK(int) vrbProcGetDigitalConverter(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F0d_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F0d_param; return VINF_SUCCESS; } static int codecSetDigitalConverter(PHDACODECR3 pThis, uint32_t uCmd, uint8_t u8Offset, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU8(&pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F0d_param, uCmd, u8Offset); else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU8(&pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F0d_param, uCmd, u8Offset); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 70d } */ static DECLCALLBACK(int) vrbProcSetDigitalConverter1(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { return codecSetDigitalConverter(pThis, uCmd, 0, puResp); } /** * @interface_method_impl{CODECVERB,pfn, 70e } */ static DECLCALLBACK(int) vrbProcSetDigitalConverter2(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { return codecSetDigitalConverter(pThis, uCmd, 8, puResp); } /** * @interface_method_impl{CODECVERB,pfn, f20 } */ static DECLCALLBACK(int) vrbProcGetSubId(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { Assert(CODEC_CAD(uCmd) == pThis->Cfg.id); uint8_t const cTotalNodes = (uint8_t)RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)); Assert(CODEC_NID(uCmd) < cTotalNodes); if (CODEC_NID(uCmd) >= cTotalNodes) { LogFlowFunc(("invalid node address %d\n", CODEC_NID(uCmd))); *puResp = 0; return VINF_SUCCESS; } if (CODEC_NID(uCmd) == STAC9220_NID_AFG) *puResp = pThis->aNodes[CODEC_NID(uCmd)].afg.u32F20_param; else *puResp = 0; return VINF_SUCCESS; } static int codecSetSubIdX(PHDACODECR3 pThis, uint32_t uCmd, uint8_t u8Offset) { Assert(CODEC_CAD(uCmd) == pThis->Cfg.id); uint8_t const cTotalNodes = (uint8_t)RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)); Assert(CODEC_NID(uCmd) < cTotalNodes); if (CODEC_NID(uCmd) >= cTotalNodes) { LogFlowFunc(("invalid node address %d\n", CODEC_NID(uCmd))); return VINF_SUCCESS; } uint32_t *pu32Reg; if (CODEC_NID(uCmd) == STAC9220_NID_AFG) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].afg.u32F20_param; else AssertFailedReturn(VINF_SUCCESS); hdaCodecSetRegisterU8(pu32Reg, uCmd, u8Offset); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 720 } */ static DECLCALLBACK(int) vrbProcSetSubId0(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetSubIdX(pThis, uCmd, 0); } /** * @interface_method_impl{CODECVERB,pfn, 721 } */ static DECLCALLBACK(int) vrbProcSetSubId1(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetSubIdX(pThis, uCmd, 8); } /** * @interface_method_impl{CODECVERB,pfn, 722 } */ static DECLCALLBACK(int) vrbProcSetSubId2(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetSubIdX(pThis, uCmd, 16); } /** * @interface_method_impl{CODECVERB,pfn, 723 } */ static DECLCALLBACK(int) vrbProcSetSubId3(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetSubIdX(pThis, uCmd, 24); } /** * @interface_method_impl{CODECVERB,pfn, ??? } */ static DECLCALLBACK(int) vrbProcReset(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { Assert(CODEC_CAD(uCmd) == pThis->Cfg.id); if (pThis->Cfg.enmType == CODECTYPE_STAC9220) { Assert(CODEC_NID(uCmd) == STAC9220_NID_AFG); if (CODEC_NID(uCmd) == STAC9220_NID_AFG) stac9220Reset(pThis); } else AssertFailedReturn(VERR_NOT_IMPLEMENTED); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f05 } */ static DECLCALLBACK(int) vrbProcGetPowerState(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (CODEC_NID(uCmd) == STAC9220_NID_AFG) *puResp = pThis->aNodes[CODEC_NID(uCmd)].afg.u32F05_param; else if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].dac.u32F05_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adc.u32F05_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F05_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digout.u32F05_param; else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F05_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F05_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F05_param; else LogRel2(("HDA: Warning: Unhandled get power state command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); LogFunc(("[NID0x%02x]: fReset=%RTbool, fStopOk=%RTbool, Act=D%RU8, Set=D%RU8\n", CODEC_NID(uCmd), CODEC_F05_IS_RESET(*puResp), CODEC_F05_IS_STOPOK(*puResp), CODEC_F05_ACT(*puResp), CODEC_F05_SET(*puResp))); return VINF_SUCCESS; } #if 1 /** * @interface_method_impl{CODECVERB,pfn, 705 } */ static DECLCALLBACK(int) vrbProcSetPowerState(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (CODEC_NID(uCmd) == STAC9220_NID_AFG) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].afg.u32F05_param; else if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].dac.u32F05_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F05_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digout.u32F05_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adc.u32F05_param; else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F05_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F05_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F05_param; else { LogRel2(("HDA: Warning: Unhandled set power state command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); } if (!pu32Reg) return VINF_SUCCESS; uint8_t uPwrCmd = CODEC_F05_SET (uCmd); bool fReset = CODEC_F05_IS_RESET (*pu32Reg); bool fStopOk = CODEC_F05_IS_STOPOK(*pu32Reg); #ifdef LOG_ENABLED bool fError = CODEC_F05_IS_ERROR (*pu32Reg); uint8_t uPwrAct = CODEC_F05_ACT (*pu32Reg); uint8_t uPwrSet = CODEC_F05_SET (*pu32Reg); LogFunc(("[NID0x%02x] Cmd=D%RU8, fReset=%RTbool, fStopOk=%RTbool, fError=%RTbool, uPwrAct=D%RU8, uPwrSet=D%RU8\n", CODEC_NID(uCmd), uPwrCmd, fReset, fStopOk, fError, uPwrAct, uPwrSet)); LogFunc(("AFG: Act=D%RU8, Set=D%RU8\n", CODEC_F05_ACT(pThis->aNodes[STAC9220_NID_AFG].afg.u32F05_param), CODEC_F05_SET(pThis->aNodes[STAC9220_NID_AFG].afg.u32F05_param))); #endif if (CODEC_NID(uCmd) == STAC9220_NID_AFG) *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, uPwrCmd /* PS-Act */, uPwrCmd /* PS-Set */); const uint8_t uAFGPwrAct = CODEC_F05_ACT(pThis->aNodes[STAC9220_NID_AFG].afg.u32F05_param); if (uAFGPwrAct == CODEC_F05_D0) /* Only propagate power state if AFG is on (D0). */ { /* Propagate to all other nodes under this AFG. */ LogFunc(("Propagating Act=D%RU8 (AFG), Set=D%RU8 to all AFG child nodes ...\n", uAFGPwrAct, uPwrCmd)); #define PROPAGATE_PWR_STATE(a_abList, a_Member) \ do { \ for (uintptr_t idxList = 0; idxList < RT_ELEMENTS(a_abList); idxList++) \ { \ uint8_t const idxNode = a_abList[idxList]; \ if (idxNode) \ { \ pThis->aNodes[idxNode].a_Member.u32F05_param = CODEC_MAKE_F05(fReset, fStopOk, 0, uAFGPwrAct, uPwrCmd); \ LogFunc(("\t[NID0x%02x]: Act=D%RU8, Set=D%RU8\n", idxNode, \ CODEC_F05_ACT(pThis->aNodes[idxNode].a_Member.u32F05_param), \ CODEC_F05_SET(pThis->aNodes[idxNode].a_Member.u32F05_param))); \ } \ else \ break; \ } \ } while (0) PROPAGATE_PWR_STATE(pThis->Cfg.abDacs, dac); PROPAGATE_PWR_STATE(pThis->Cfg.abAdcs, adc); PROPAGATE_PWR_STATE(pThis->Cfg.abDigInPins, digin); PROPAGATE_PWR_STATE(pThis->Cfg.abDigOutPins, digout); PROPAGATE_PWR_STATE(pThis->Cfg.abSpdifIns, spdifin); PROPAGATE_PWR_STATE(pThis->Cfg.abSpdifOuts, spdifout); PROPAGATE_PWR_STATE(pThis->Cfg.abReserveds, reserved); #undef PROPAGATE_PWR_STATE } /* * If this node is a reqular node (not the AFG one), adopt PS-Set of the AFG node * as PS-Set of this node. PS-Act always is one level under PS-Set here. */ else { *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, uAFGPwrAct, uPwrCmd); } LogFunc(("[NID0x%02x] fReset=%RTbool, fStopOk=%RTbool, Act=D%RU8, Set=D%RU8\n", CODEC_NID(uCmd), CODEC_F05_IS_RESET(*pu32Reg), CODEC_F05_IS_STOPOK(*pu32Reg), CODEC_F05_ACT(*pu32Reg), CODEC_F05_SET(*pu32Reg))); return VINF_SUCCESS; } #else DECLINLINE(void) codecPropogatePowerState(uint32_t *pu32F05_param) { Assert(pu32F05_param); if (!pu32F05_param) return; bool fReset = CODEC_F05_IS_RESET(*pu32F05_param); bool fStopOk = CODEC_F05_IS_STOPOK(*pu32F05_param); uint8_t u8SetPowerState = CODEC_F05_SET(*pu32F05_param); *pu32F05_param = CODEC_MAKE_F05(fReset, fStopOk, 0, u8SetPowerState, u8SetPowerState); } /** * @interface_method_impl{CODECVERB,pfn, 705 } */ static DECLCALLBACK(int) vrbProcSetPowerState(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { Assert(CODEC_CAD(uCmd) == pThis->Cfg.id); uint8_t const cTotalNodes = (uint8_t)RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)); Assert(CODEC_NID(uCmd) < cTotalNodes); if (CODEC_NID(uCmd) >= cTotalNodes) { *puResp = 0; LogFlowFunc(("invalid node address %d\n", CODEC_NID(uCmd))); return VINF_SUCCESS; } *puResp = 0; uint32_t *pu32Reg; if (CODEC_NID(uCmd) == 1 /* AFG */) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].afg.u32F05_param; else if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].dac.u32F05_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F05_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adc.u32F05_param; else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F05_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F05_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F05_param; else AssertFailedReturn(VINF_SUCCESS); bool fReset = CODEC_F05_IS_RESET(*pu32Reg); bool fStopOk = CODEC_F05_IS_STOPOK(*pu32Reg); if (CODEC_NID(uCmd) != 1 /* AFG */) { /* * We shouldn't propogate actual power state, which actual for AFG */ *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, CODEC_F05_ACT(pThis->aNodes[1].afg.u32F05_param), CODEC_F05_SET(uCmd)); } /* Propagate next power state only if AFG is on or verb modifies AFG power state */ if ( CODEC_NID(uCmd) == 1 /* AFG */ || !CODEC_F05_ACT(pThis->aNodes[1].afg.u32F05_param)) { *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, CODEC_F05_SET(uCmd), CODEC_F05_SET(uCmd)); if ( CODEC_NID(uCmd) == 1 /* AFG */ && (CODEC_F05_SET(uCmd)) == CODEC_F05_D0) { /* now we're powered on AFG and may propogate power states on nodes */ const uint8_t *pu8NodeIndex = &pThis->abDacs[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pThis->aNodes[*pu8NodeIndex].dac.u32F05_param); pu8NodeIndex = &pThis->abAdcs[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pThis->aNodes[*pu8NodeIndex].adc.u32F05_param); pu8NodeIndex = &pThis->abDigInPins[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pThis->aNodes[*pu8NodeIndex].digin.u32F05_param); } } return VINF_SUCCESS; } #endif /** * @interface_method_impl{CODECVERB,pfn, f06 } */ static DECLCALLBACK(int) vrbProcGetStreamId(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].dac.u32F06_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adc.u32F06_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F06_param; else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F06_param; else if (CODEC_NID(uCmd) == STAC9221_NID_I2S_OUT) *puResp = pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F06_param; else LogRel2(("HDA: Warning: Unhandled get stream ID command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); LogFlowFunc(("[NID0x%02x] Stream ID=%RU8, channel=%RU8\n", CODEC_NID(uCmd), CODEC_F00_06_GET_STREAM_ID(uCmd), CODEC_F00_06_GET_CHANNEL_ID(uCmd))); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, a0 } */ static DECLCALLBACK(int) vrbProcGetConverterFormat(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].dac.u32A_param; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adc.u32A_param; else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32A_param; else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32A_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].reserved.u32A_param; else LogRel2(("HDA: Warning: Unhandled get converter format command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, ??? - Also see section 3.7.1. } */ static DECLCALLBACK(int) vrbProcSetConverterFormat(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU16(&pThis->aNodes[CODEC_NID(uCmd)].dac.u32A_param, uCmd, 0); else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU16(&pThis->aNodes[CODEC_NID(uCmd)].adc.u32A_param, uCmd, 0); else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU16(&pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32A_param, uCmd, 0); else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) hdaCodecSetRegisterU16(&pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32A_param, uCmd, 0); else LogRel2(("HDA: Warning: Unhandled set converter format command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f0c } */ static DECLCALLBACK(int) vrbProcGetEAPD_BTLEnabled(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].adcvol.u32F0c_param; else if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].dac.u32F0c_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F0c_param; else LogRel2(("HDA: Warning: Unhandled get EAPD/BTL enabled command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 70c } */ static DECLCALLBACK(int) vrbProcSetEAPD_BTLEnabled(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].adcvol.u32F0c_param; else if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].dac.u32F0c_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F0c_param; else LogRel2(("HDA: Warning: Unhandled set EAPD/BTL enabled command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f0f } */ static DECLCALLBACK(int) vrbProcGetVolumeKnobCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsVolKnobNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].volumeKnob.u32F0f_param; else LogRel2(("HDA: Warning: Unhandled get volume knob control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 70f } */ static DECLCALLBACK(int) vrbProcSetVolumeKnobCtrl(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsVolKnobNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].volumeKnob.u32F0f_param; else LogRel2(("HDA: Warning: Unhandled set volume knob control command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f15 } */ static DECLCALLBACK(int) vrbProcGetGPIOData(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { RT_NOREF(pThis, uCmd); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 715 } */ static DECLCALLBACK(int) vrbProcSetGPIOData(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { RT_NOREF(pThis, uCmd); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f16 } */ static DECLCALLBACK(int) vrbProcGetGPIOEnableMask(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { RT_NOREF(pThis, uCmd); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 716 } */ static DECLCALLBACK(int) vrbProcSetGPIOEnableMask(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { RT_NOREF(pThis, uCmd); *puResp = 0; return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f17 } */ static DECLCALLBACK(int) vrbProcGetGPIODirection(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; /* Note: this is true for ALC885. */ if (CODEC_NID(uCmd) == STAC9220_NID_AFG) *puResp = pThis->aNodes[1].afg.u32F17_param; else LogRel2(("HDA: Warning: Unhandled get GPIO direction command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 717 } */ static DECLCALLBACK(int) vrbProcSetGPIODirection(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (CODEC_NID(uCmd) == STAC9220_NID_AFG) pu32Reg = &pThis->aNodes[1].afg.u32F17_param; else LogRel2(("HDA: Warning: Unhandled set GPIO direction command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, f1c } */ static DECLCALLBACK(int) vrbProcGetConfig(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].port.u32F1c_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digout.u32F1c_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].digin.u32F1c_param; else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].pcbeep.u32F1c_param; else if (hdaCodecIsCdNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].cdnode.u32F1c_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F1c_param; else LogRel2(("HDA: Warning: Unhandled get config command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } static int codecSetConfigX(PHDACODECR3 pThis, uint32_t uCmd, uint8_t u8Offset) { uint32_t *pu32Reg = NULL; if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].port.u32F1c_param; else if (hdaCodecIsDigInPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digin.u32F1c_param; else if (hdaCodecIsDigOutPinNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].digout.u32F1c_param; else if (hdaCodecIsCdNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].cdnode.u32F1c_param; else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].pcbeep.u32F1c_param; else if (hdaCodecIsReservedNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].reserved.u32F1c_param; else LogRel2(("HDA: Warning: Unhandled set config command (%RU8) for NID0x%02x: 0x%x\n", u8Offset, CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, u8Offset); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 71c } */ static DECLCALLBACK(int) vrbProcSetConfig0(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetConfigX(pThis, uCmd, 0); } /** * @interface_method_impl{CODECVERB,pfn, 71d } */ static DECLCALLBACK(int) vrbProcSetConfig1(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetConfigX(pThis, uCmd, 8); } /** * @interface_method_impl{CODECVERB,pfn, 71e } */ static DECLCALLBACK(int) vrbProcSetConfig2(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetConfigX(pThis, uCmd, 16); } /** * @interface_method_impl{CODECVERB,pfn, 71e } */ static DECLCALLBACK(int) vrbProcSetConfig3(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; return codecSetConfigX(pThis, uCmd, 24); } /** * @interface_method_impl{CODECVERB,pfn, f04 } */ static DECLCALLBACK(int) vrbProcGetSDISelect(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) *puResp = pThis->aNodes[CODEC_NID(uCmd)].dac.u32F04_param; else LogRel2(("HDA: Warning: Unhandled get SDI select command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 704 } */ static DECLCALLBACK(int) vrbProcSetSDISelect(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint32_t *pu32Reg = NULL; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) pu32Reg = &pThis->aNodes[CODEC_NID(uCmd)].dac.u32F04_param; else LogRel2(("HDA: Warning: Unhandled set SDI select command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); if (pu32Reg) hdaCodecSetRegisterU8(pu32Reg, uCmd, 0); return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 3-- } */ static DECLCALLBACK(int) vrbProcR3SetAmplifier(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; PCODECNODE pNode = &pThis->aNodes[CODEC_NID(uCmd)]; AMPLIFIER *pAmplifier = NULL; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->dac.B_params; else if (hdaCodecIsAdcVolNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->adcvol.B_params; else if (hdaCodecIsAdcMuxNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->adcmux.B_params; else if (hdaCodecIsPcbeepNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->pcbeep.B_params; else if (hdaCodecIsPortNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->port.B_params; else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) pAmplifier = &pNode->adc.B_params; else LogRel2(("HDA: Warning: Unhandled set amplifier command: 0x%x (Payload=%RU16, NID=0x%x [%RU8])\n", uCmd, CODEC_VERB_PAYLOAD16(uCmd), CODEC_NID(uCmd), CODEC_NID(uCmd))); if (!pAmplifier) return VINF_SUCCESS; bool fIsOut = CODEC_SET_AMP_IS_OUT_DIRECTION(uCmd); bool fIsIn = CODEC_SET_AMP_IS_IN_DIRECTION(uCmd); bool fIsLeft = CODEC_SET_AMP_IS_LEFT_SIDE(uCmd); bool fIsRight = CODEC_SET_AMP_IS_RIGHT_SIDE(uCmd); uint8_t u8Index = CODEC_SET_AMP_INDEX(uCmd); if ( (!fIsLeft && !fIsRight) || (!fIsOut && !fIsIn)) return VINF_SUCCESS; LogFunc(("[NID0x%02x] fIsOut=%RTbool, fIsIn=%RTbool, fIsLeft=%RTbool, fIsRight=%RTbool, Idx=%RU8\n", CODEC_NID(uCmd), fIsOut, fIsIn, fIsLeft, fIsRight, u8Index)); if (fIsIn) { if (fIsLeft) hdaCodecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_LEFT, u8Index), uCmd, 0); if (fIsRight) hdaCodecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_RIGHT, u8Index), uCmd, 0); /* * Check if the node ID is the one we use for controlling the line-in volume; * with STAC9220 this is connected to STAC9220_NID_AMP_ADC0 (ID 0x17). * * If we don't do this check here, some guests like newer Ubuntus mute mic-in * afterwards (connected to STAC9220_NID_AMP_ADC1 (ID 0x18)). This then would * also mute line-in, which breaks audio recording. * * See STAC9220 V1.0 01/08, p. 30 + oem2ticketref:53. */ if (CODEC_NID(uCmd) == pThis->Cfg.idxAdcVolsLineIn) hdaR3CodecToAudVolume(pThis, pNode, pAmplifier, PDMAUDIOMIXERCTL_LINE_IN); #ifdef VBOX_WITH_AUDIO_HDA_MIC_IN # error "Implement mic-in volume / mute setting." else if (CODEC_NID(uCmd) == pThis->Cfg.idxAdcVolsMicIn) hdaR3CodecToAudVolume(pThis, pNode, pAmplifier, PDMAUDIOMIXERCTL_MIC_IN); #endif } if (fIsOut) { if (fIsLeft) hdaCodecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_LEFT, u8Index), uCmd, 0); if (fIsRight) hdaCodecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_RIGHT, u8Index), uCmd, 0); if (CODEC_NID(uCmd) == pThis->Cfg.idxDacLineOut) hdaR3CodecToAudVolume(pThis, pNode, pAmplifier, PDMAUDIOMIXERCTL_FRONT); } return VINF_SUCCESS; } /** * @interface_method_impl{CODECVERB,pfn, 706 } */ static DECLCALLBACK(int) vrbProcR3SetStreamId(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { *puResp = 0; uint8_t uSD = CODEC_F00_06_GET_STREAM_ID(uCmd); uint8_t uChannel = CODEC_F00_06_GET_CHANNEL_ID(uCmd); LogFlowFunc(("[NID0x%02x] Setting to stream ID=%RU8, channel=%RU8\n", CODEC_NID(uCmd), uSD, uChannel)); ASSERT_GUEST_LOGREL_MSG_RETURN(uSD < HDA_MAX_STREAMS, ("Setting stream ID #%RU8 is invalid\n", uSD), VERR_INVALID_PARAMETER); PDMAUDIODIR enmDir; uint32_t *pu32Addr; if (hdaCodecIsDacNode(pThis, CODEC_NID(uCmd))) { pu32Addr = &pThis->aNodes[CODEC_NID(uCmd)].dac.u32F06_param; enmDir = PDMAUDIODIR_OUT; } else if (hdaCodecIsAdcNode(pThis, CODEC_NID(uCmd))) { pu32Addr = &pThis->aNodes[CODEC_NID(uCmd)].adc.u32F06_param; enmDir = PDMAUDIODIR_IN; } else if (hdaCodecIsSpdifOutNode(pThis, CODEC_NID(uCmd))) { pu32Addr = &pThis->aNodes[CODEC_NID(uCmd)].spdifout.u32F06_param; enmDir = PDMAUDIODIR_OUT; } else if (hdaCodecIsSpdifInNode(pThis, CODEC_NID(uCmd))) { pu32Addr = &pThis->aNodes[CODEC_NID(uCmd)].spdifin.u32F06_param; enmDir = PDMAUDIODIR_IN; } else { enmDir = PDMAUDIODIR_UNKNOWN; LogRel2(("HDA: Warning: Unhandled set stream ID command for NID0x%02x: 0x%x\n", CODEC_NID(uCmd), uCmd)); return VINF_SUCCESS; } /* Do we (re-)assign our input/output SDn (SDI/SDO) IDs? */ pThis->aNodes[CODEC_NID(uCmd)].node.uSD = uSD; pThis->aNodes[CODEC_NID(uCmd)].node.uChannel = uChannel; if (enmDir == PDMAUDIODIR_OUT) { /** @todo Check if non-interleaved streams need a different channel / SDn? */ /* Propagate to the controller. */ hdaR3MixerControl(pThis, PDMAUDIOMIXERCTL_FRONT, uSD, uChannel); # ifdef VBOX_WITH_AUDIO_HDA_51_SURROUND hdaR3MixerControl(pThis, PDMAUDIOMIXERCTL_CENTER_LFE, uSD, uChannel); hdaR3MixerControl(pThis, PDMAUDIOMIXERCTL_REAR, uSD, uChannel); # endif } else if (enmDir == PDMAUDIODIR_IN) { hdaR3MixerControl(pThis, PDMAUDIOMIXERCTL_LINE_IN, uSD, uChannel); # ifdef VBOX_WITH_AUDIO_HDA_MIC_IN hdaR3MixerControl(pThis, PDMAUDIOMIXERCTL_MIC_IN, uSD, uChannel); # endif } hdaCodecSetRegisterU8(pu32Addr, uCmd, 0); return VINF_SUCCESS; } /** * HDA codec verb descriptors. * * @note This must be ordered by uVerb so we can do a binary lookup. */ static const CODECVERB g_aCodecVerbs[] = { /* Verb Verb mask Callback Name ---------- --------------------- ------------------------------------------------------------------- */ { 0x00020000, CODEC_VERB_16BIT_CMD, vrbProcSetConverterFormat , "SetConverterFormat " }, { 0x00030000, CODEC_VERB_16BIT_CMD, vrbProcR3SetAmplifier , "SetAmplifier " }, { 0x00070100, CODEC_VERB_8BIT_CMD , vrbProcSetConSelectCtrl , "SetConSelectCtrl " }, { 0x00070300, CODEC_VERB_8BIT_CMD , vrbProcSetProcessingState , "SetProcessingState " }, { 0x00070400, CODEC_VERB_8BIT_CMD , vrbProcSetSDISelect , "SetSDISelect " }, { 0x00070500, CODEC_VERB_8BIT_CMD , vrbProcSetPowerState , "SetPowerState " }, { 0x00070600, CODEC_VERB_8BIT_CMD , vrbProcR3SetStreamId , "SetStreamId " }, { 0x00070700, CODEC_VERB_8BIT_CMD , vrbProcSetPinCtrl , "SetPinCtrl " }, { 0x00070800, CODEC_VERB_8BIT_CMD , vrbProcSetUnsolicitedEnabled , "SetUnsolicitedEnabled " }, { 0x00070900, CODEC_VERB_8BIT_CMD , vrbProcSetPinSense , "SetPinSense " }, { 0x00070C00, CODEC_VERB_8BIT_CMD , vrbProcSetEAPD_BTLEnabled , "SetEAPD_BTLEnabled " }, { 0x00070D00, CODEC_VERB_8BIT_CMD , vrbProcSetDigitalConverter1 , "SetDigitalConverter1 " }, { 0x00070E00, CODEC_VERB_8BIT_CMD , vrbProcSetDigitalConverter2 , "SetDigitalConverter2 " }, { 0x00070F00, CODEC_VERB_8BIT_CMD , vrbProcSetVolumeKnobCtrl , "SetVolumeKnobCtrl " }, { 0x00071500, CODEC_VERB_8BIT_CMD , vrbProcSetGPIOData , "SetGPIOData " }, { 0x00071600, CODEC_VERB_8BIT_CMD , vrbProcSetGPIOEnableMask , "SetGPIOEnableMask " }, { 0x00071700, CODEC_VERB_8BIT_CMD , vrbProcSetGPIODirection , "SetGPIODirection " }, { 0x00071C00, CODEC_VERB_8BIT_CMD , vrbProcSetConfig0 , "SetConfig0 " }, { 0x00071D00, CODEC_VERB_8BIT_CMD , vrbProcSetConfig1 , "SetConfig1 " }, { 0x00071E00, CODEC_VERB_8BIT_CMD , vrbProcSetConfig2 , "SetConfig2 " }, { 0x00071F00, CODEC_VERB_8BIT_CMD , vrbProcSetConfig3 , "SetConfig3 " }, { 0x00072000, CODEC_VERB_8BIT_CMD , vrbProcSetSubId0 , "SetSubId0 " }, { 0x00072100, CODEC_VERB_8BIT_CMD , vrbProcSetSubId1 , "SetSubId1 " }, { 0x00072200, CODEC_VERB_8BIT_CMD , vrbProcSetSubId2 , "SetSubId2 " }, { 0x00072300, CODEC_VERB_8BIT_CMD , vrbProcSetSubId3 , "SetSubId3 " }, { 0x0007FF00, CODEC_VERB_8BIT_CMD , vrbProcReset , "Reset " }, { 0x000A0000, CODEC_VERB_16BIT_CMD, vrbProcGetConverterFormat , "GetConverterFormat " }, { 0x000B0000, CODEC_VERB_16BIT_CMD, vrbProcGetAmplifier , "GetAmplifier " }, { 0x000F0000, CODEC_VERB_8BIT_CMD , vrbProcGetParameter , "GetParameter " }, { 0x000F0100, CODEC_VERB_8BIT_CMD , vrbProcGetConSelectCtrl , "GetConSelectCtrl " }, { 0x000F0200, CODEC_VERB_8BIT_CMD , vrbProcGetConnectionListEntry , "GetConnectionListEntry" }, { 0x000F0300, CODEC_VERB_8BIT_CMD , vrbProcGetProcessingState , "GetProcessingState " }, { 0x000F0400, CODEC_VERB_8BIT_CMD , vrbProcGetSDISelect , "GetSDISelect " }, { 0x000F0500, CODEC_VERB_8BIT_CMD , vrbProcGetPowerState , "GetPowerState " }, { 0x000F0600, CODEC_VERB_8BIT_CMD , vrbProcGetStreamId , "GetStreamId " }, { 0x000F0700, CODEC_VERB_8BIT_CMD , vrbProcGetPinCtrl , "GetPinCtrl " }, { 0x000F0800, CODEC_VERB_8BIT_CMD , vrbProcGetUnsolicitedEnabled , "GetUnsolicitedEnabled " }, { 0x000F0900, CODEC_VERB_8BIT_CMD , vrbProcGetPinSense , "GetPinSense " }, { 0x000F0C00, CODEC_VERB_8BIT_CMD , vrbProcGetEAPD_BTLEnabled , "GetEAPD_BTLEnabled " }, { 0x000F0D00, CODEC_VERB_8BIT_CMD , vrbProcGetDigitalConverter , "GetDigitalConverter " }, { 0x000F0F00, CODEC_VERB_8BIT_CMD , vrbProcGetVolumeKnobCtrl , "GetVolumeKnobCtrl " }, { 0x000F1500, CODEC_VERB_8BIT_CMD , vrbProcGetGPIOData , "GetGPIOData " }, { 0x000F1600, CODEC_VERB_8BIT_CMD , vrbProcGetGPIOEnableMask , "GetGPIOEnableMask " }, { 0x000F1700, CODEC_VERB_8BIT_CMD , vrbProcGetGPIODirection , "GetGPIODirection " }, { 0x000F1C00, CODEC_VERB_8BIT_CMD , vrbProcGetConfig , "GetConfig " }, { 0x000F2000, CODEC_VERB_8BIT_CMD , vrbProcGetSubId , "GetSubId " }, /** @todo Implement 0x7e7: IDT Set GPIO (STAC922x only). */ }; /** * Implements codec lookup and will call the handler on the verb it finds, * returning the handler response. * * @returns VBox status code (not strict). */ DECLHIDDEN(int) hdaR3CodecLookup(PHDACODECR3 pThis, uint32_t uCmd, uint64_t *puResp) { /* * Clear the return value and assert some sanity. */ AssertPtr(puResp); *puResp = 0; AssertPtr(pThis); AssertMsgReturn(CODEC_CAD(uCmd) == pThis->Cfg.id, ("Unknown codec address 0x%x\n", CODEC_CAD(uCmd)), VERR_INVALID_PARAMETER); uint32_t const uCmdData = CODEC_VERBDATA(uCmd); AssertMsgReturn( uCmdData != 0 && CODEC_NID(uCmd) < RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)), ("[NID0x%02x] Unknown / invalid node or data (0x%x)\n", CODEC_NID(uCmd), uCmdData), VERR_INVALID_PARAMETER); STAM_COUNTER_INC(&pThis->CTX_SUFF(StatLookups)); /* * Do a binary lookup of the verb. * Note! if we want other verb tables, add a table selector before the loop. */ size_t iFirst = 0; size_t iEnd = RT_ELEMENTS(g_aCodecVerbs); for (;;) { size_t const iCur = iFirst + (iEnd - iFirst) / 2; uint32_t const uVerb = g_aCodecVerbs[iCur].uVerb; if (uCmdData < uVerb) { if (iCur > iFirst) iEnd = iCur; else break; } else if ((uCmdData & g_aCodecVerbs[iCur].fMask) != uVerb) { if (iCur + 1 < iEnd) iFirst = iCur + 1; else break; } else { /* * Found it! Run the callback and return. */ AssertPtrReturn(g_aCodecVerbs[iCur].pfn, VERR_INTERNAL_ERROR_5); /* Paranoia^2. */ int rc = g_aCodecVerbs[iCur].pfn(pThis, uCmd, puResp); AssertRC(rc); Log3Func(("[NID0x%02x] (0x%x) %s: 0x%x -> 0x%x\n", CODEC_NID(uCmd), g_aCodecVerbs[iCur].uVerb, g_aCodecVerbs[iCur].pszName, CODEC_VERB_PAYLOAD8(uCmd), *puResp)); return rc; } } #ifdef VBOX_STRICT for (size_t i = 0; i < RT_ELEMENTS(g_aCodecVerbs); i++) { AssertMsg(i == 0 || g_aCodecVerbs[i - 1].uVerb < g_aCodecVerbs[i].uVerb, ("i=%#x uVerb[-1]=%#x uVerb=%#x - buggy table!\n", i, g_aCodecVerbs[i - 1].uVerb, g_aCodecVerbs[i].uVerb)); AssertMsg((uCmdData & g_aCodecVerbs[i].fMask) != g_aCodecVerbs[i].uVerb, ("i=%#x uVerb=%#x uCmd=%#x - buggy binary search or table!\n", i, g_aCodecVerbs[i].uVerb, uCmd)); } #endif LogFunc(("[NID0x%02x] Callback for %x not found\n", CODEC_NID(uCmd), CODEC_VERBDATA(uCmd))); return VERR_NOT_FOUND; } /********************************************************************************************************************************* * Debug * *********************************************************************************************************************************/ /** * CODEC debug info item printing state. */ typedef struct CODECDEBUG { /** DBGF info helpers. */ PCDBGFINFOHLP pHlp; /** Current recursion level. */ uint8_t uLevel; /** Pointer to codec state. */ PHDACODECR3 pThis; } CODECDEBUG; /** Pointer to the debug info item printing state for the codec. */ typedef CODECDEBUG *PCODECDEBUG; #define CODECDBG_INDENT pInfo->uLevel++; #define CODECDBG_UNINDENT if (pInfo->uLevel) pInfo->uLevel--; #define CODECDBG_PRINT(...) pInfo->pHlp->pfnPrintf(pInfo->pHlp, __VA_ARGS__) #define CODECDBG_PRINTI(...) codecDbgPrintf(pInfo, __VA_ARGS__) /** Wrapper around DBGFINFOHLP::pfnPrintf that adds identation. */ static void codecDbgPrintf(PCODECDEBUG pInfo, const char *pszFormat, ...) { va_list va; va_start(va, pszFormat); pInfo->pHlp->pfnPrintf(pInfo->pHlp, "%*s%N", pInfo->uLevel * 4, "", pszFormat, &va); va_end(va); } /** Power state */ static void codecDbgPrintNodeRegF05(PCODECDEBUG pInfo, uint32_t u32Reg) { codecDbgPrintf(pInfo, "Power (F05): fReset=%RTbool, fStopOk=%RTbool, Set=%RU8, Act=%RU8\n", CODEC_F05_IS_RESET(u32Reg), CODEC_F05_IS_STOPOK(u32Reg), CODEC_F05_SET(u32Reg), CODEC_F05_ACT(u32Reg)); } static void codecDbgPrintNodeRegA(PCODECDEBUG pInfo, uint32_t u32Reg) { codecDbgPrintf(pInfo, "RegA: %x\n", u32Reg); } static void codecDbgPrintNodeRegF00(PCODECDEBUG pInfo, uint32_t *paReg00) { codecDbgPrintf(pInfo, "Parameters (F00):\n"); CODECDBG_INDENT codecDbgPrintf(pInfo, "Connections: %RU8\n", CODEC_F00_0E_COUNT(paReg00[0xE])); codecDbgPrintf(pInfo, "Amplifier Caps:\n"); uint32_t uReg = paReg00[0xD]; CODECDBG_INDENT codecDbgPrintf(pInfo, "Input Steps=%02RU8, StepSize=%02RU8, StepOff=%02RU8, fCanMute=%RTbool\n", CODEC_F00_0D_NUM_STEPS(uReg), CODEC_F00_0D_STEP_SIZE(uReg), CODEC_F00_0D_OFFSET(uReg), RT_BOOL(CODEC_F00_0D_IS_CAP_MUTE(uReg))); uReg = paReg00[0x12]; codecDbgPrintf(pInfo, "Output Steps=%02RU8, StepSize=%02RU8, StepOff=%02RU8, fCanMute=%RTbool\n", CODEC_F00_12_NUM_STEPS(uReg), CODEC_F00_12_STEP_SIZE(uReg), CODEC_F00_12_OFFSET(uReg), RT_BOOL(CODEC_F00_12_IS_CAP_MUTE(uReg))); CODECDBG_UNINDENT CODECDBG_UNINDENT } static void codecDbgPrintNodeAmp(PCODECDEBUG pInfo, uint32_t *paReg, uint8_t uIdx, uint8_t uDir) { #define CODECDBG_AMP(reg, chan) \ codecDbgPrintf(pInfo, "Amp %RU8 %s %s: In=%RTbool, Out=%RTbool, Left=%RTbool, Right=%RTbool, Idx=%RU8, fMute=%RTbool, uGain=%RU8\n", \ uIdx, chan, uDir == AMPLIFIER_IN ? "In" : "Out", \ RT_BOOL(CODEC_SET_AMP_IS_IN_DIRECTION(reg)), RT_BOOL(CODEC_SET_AMP_IS_OUT_DIRECTION(reg)), \ RT_BOOL(CODEC_SET_AMP_IS_LEFT_SIDE(reg)), RT_BOOL(CODEC_SET_AMP_IS_RIGHT_SIDE(reg)), \ CODEC_SET_AMP_INDEX(reg), RT_BOOL(CODEC_SET_AMP_MUTE(reg)), CODEC_SET_AMP_GAIN(reg)) uint32_t regAmp = AMPLIFIER_REGISTER(paReg, uDir, AMPLIFIER_LEFT, uIdx); CODECDBG_AMP(regAmp, "Left"); regAmp = AMPLIFIER_REGISTER(paReg, uDir, AMPLIFIER_RIGHT, uIdx); CODECDBG_AMP(regAmp, "Right"); #undef CODECDBG_AMP } #if 0 /* unused */ static void codecDbgPrintNodeConnections(PCODECDEBUG pInfo, PCODECNODE pNode) { if (pNode->node.au32F00_param[0xE] == 0) /* Directly connected to HDA link. */ { codecDbgPrintf(pInfo, "[HDA LINK]\n"); return; } } #endif static void codecDbgPrintNode(PCODECDEBUG pInfo, PCODECNODE pNode, bool fRecursive) { codecDbgPrintf(pInfo, "Node 0x%02x (%02RU8): ", pNode->node.uID, pNode->node.uID); if (pNode->node.uID == STAC9220_NID_ROOT) CODECDBG_PRINT("ROOT\n"); else if (pNode->node.uID == STAC9220_NID_AFG) { CODECDBG_PRINT("AFG\n"); CODECDBG_INDENT codecDbgPrintNodeRegF00(pInfo, pNode->node.au32F00_param); codecDbgPrintNodeRegF05(pInfo, pNode->afg.u32F05_param); CODECDBG_UNINDENT } else if (hdaCodecIsPortNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("PORT\n"); else if (hdaCodecIsDacNode(pInfo->pThis, pNode->node.uID)) { CODECDBG_PRINT("DAC\n"); CODECDBG_INDENT codecDbgPrintNodeRegF00(pInfo, pNode->node.au32F00_param); codecDbgPrintNodeRegF05(pInfo, pNode->dac.u32F05_param); codecDbgPrintNodeRegA (pInfo, pNode->dac.u32A_param); codecDbgPrintNodeAmp (pInfo, pNode->dac.B_params, 0, AMPLIFIER_OUT); CODECDBG_UNINDENT } else if (hdaCodecIsAdcVolNode(pInfo->pThis, pNode->node.uID)) { CODECDBG_PRINT("ADC VOLUME\n"); CODECDBG_INDENT codecDbgPrintNodeRegF00(pInfo, pNode->node.au32F00_param); codecDbgPrintNodeRegA (pInfo, pNode->adcvol.u32A_params); codecDbgPrintNodeAmp (pInfo, pNode->adcvol.B_params, 0, AMPLIFIER_IN); CODECDBG_UNINDENT } else if (hdaCodecIsAdcNode(pInfo->pThis, pNode->node.uID)) { CODECDBG_PRINT("ADC\n"); CODECDBG_INDENT codecDbgPrintNodeRegF00(pInfo, pNode->node.au32F00_param); codecDbgPrintNodeRegF05(pInfo, pNode->adc.u32F05_param); codecDbgPrintNodeRegA (pInfo, pNode->adc.u32A_param); codecDbgPrintNodeAmp (pInfo, pNode->adc.B_params, 0, AMPLIFIER_IN); CODECDBG_UNINDENT } else if (hdaCodecIsAdcMuxNode(pInfo->pThis, pNode->node.uID)) { CODECDBG_PRINT("ADC MUX\n"); CODECDBG_INDENT codecDbgPrintNodeRegF00(pInfo, pNode->node.au32F00_param); codecDbgPrintNodeRegA (pInfo, pNode->adcmux.u32A_param); codecDbgPrintNodeAmp (pInfo, pNode->adcmux.B_params, 0, AMPLIFIER_IN); CODECDBG_UNINDENT } else if (hdaCodecIsPcbeepNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("PC BEEP\n"); else if (hdaCodecIsSpdifOutNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("SPDIF OUT\n"); else if (hdaCodecIsSpdifInNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("SPDIF IN\n"); else if (hdaCodecIsDigInPinNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("DIGITAL IN PIN\n"); else if (hdaCodecIsDigOutPinNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("DIGITAL OUT PIN\n"); else if (hdaCodecIsCdNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("CD\n"); else if (hdaCodecIsVolKnobNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("VOLUME KNOB\n"); else if (hdaCodecIsReservedNode(pInfo->pThis, pNode->node.uID)) CODECDBG_PRINT("RESERVED\n"); else CODECDBG_PRINT("UNKNOWN TYPE 0x%x\n", pNode->node.uID); if (fRecursive) { #define CODECDBG_PRINT_CONLIST_ENTRY(_aNode, _aEntry) \ if (cCnt >= _aEntry) \ { \ const uint8_t uID = RT_BYTE##_aEntry(_aNode->node.au32F02_param[0x0]); \ if (pNode->node.uID == uID) \ codecDbgPrintNode(pInfo, _aNode, false /* fRecursive */); \ } /* Slow recursion, but this is debug stuff anyway. */ for (uint8_t i = 0; i < pInfo->pThis->Cfg.cTotalNodes; i++) { const PCODECNODE pSubNode = &pInfo->pThis->aNodes[i]; if (pSubNode->node.uID == pNode->node.uID) continue; const uint8_t cCnt = CODEC_F00_0E_COUNT(pSubNode->node.au32F00_param[0xE]); if (cCnt == 0) /* No connections present? Skip. */ continue; CODECDBG_INDENT CODECDBG_PRINT_CONLIST_ENTRY(pSubNode, 1) CODECDBG_PRINT_CONLIST_ENTRY(pSubNode, 2) CODECDBG_PRINT_CONLIST_ENTRY(pSubNode, 3) CODECDBG_PRINT_CONLIST_ENTRY(pSubNode, 4) CODECDBG_UNINDENT } #undef CODECDBG_PRINT_CONLIST_ENTRY } } /** * Worker for hdaR3DbgInfoCodecNodes implementing the 'hdcnodes' info item. */ DECLHIDDEN(void) hdaR3CodecDbgListNodes(PHDACODECR3 pThis, PCDBGFINFOHLP pHlp, const char *pszArgs) { RT_NOREF(pszArgs); pHlp->pfnPrintf(pHlp, "HDA LINK / INPUTS\n"); CODECDEBUG DbgInfo; DbgInfo.pHlp = pHlp; DbgInfo.pThis = pThis; DbgInfo.uLevel = 0; PCODECDEBUG pInfo = &DbgInfo; CODECDBG_INDENT for (uint8_t i = 0; i < pThis->Cfg.cTotalNodes; i++) { PCODECNODE pNode = &pThis->aNodes[i]; /* Start with all nodes which have connection entries set. */ if (CODEC_F00_0E_COUNT(pNode->node.au32F00_param[0xE])) codecDbgPrintNode(&DbgInfo, pNode, true /* fRecursive */); } CODECDBG_UNINDENT } /** * Worker for hdaR3DbgInfoCodecSelector implementing the 'hdcselector' info item. */ DECLHIDDEN(void) hdaR3CodecDbgSelector(PHDACODECR3 pThis, PCDBGFINFOHLP pHlp, const char *pszArgs) { RT_NOREF(pThis, pHlp, pszArgs); } #if 0 /* unused */ static DECLCALLBACK(void) stac9220DbgNodes(PHDACODECR3 pThis, PCDBGFINFOHLP pHlp, const char *pszArgs) { RT_NOREF(pszArgs); uint8_t const cTotalNodes = RT_MIN(pThis->Cfg.cTotalNodes, RT_ELEMENTS(pThis->aNodes)); for (uint8_t i = 1; i < cTotalNodes; i++) { PCODECNODE pNode = &pThis->aNodes[i]; AMPLIFIER *pAmp = &pNode->dac.B_params; uint8_t lVol = AMPLIFIER_REGISTER(*pAmp, AMPLIFIER_OUT, AMPLIFIER_LEFT, 0) & 0x7f; uint8_t rVol = AMPLIFIER_REGISTER(*pAmp, AMPLIFIER_OUT, AMPLIFIER_RIGHT, 0) & 0x7f; pHlp->pfnPrintf(pHlp, "0x%x: lVol=%RU8, rVol=%RU8\n", i, lVol, rVol); } } #endif /********************************************************************************************************************************* * Stream and State Management * *********************************************************************************************************************************/ int hdaR3CodecAddStream(PHDACODECR3 pThis, PDMAUDIOMIXERCTL enmMixerCtl, PPDMAUDIOSTREAMCFG pCfg) { AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(pCfg, VERR_INVALID_POINTER); int rc = VINF_SUCCESS; switch (enmMixerCtl) { case PDMAUDIOMIXERCTL_VOLUME_MASTER: case PDMAUDIOMIXERCTL_FRONT: #ifdef VBOX_WITH_AUDIO_HDA_51_SURROUND case PDMAUDIOMIXERCTL_CENTER_LFE: case PDMAUDIOMIXERCTL_REAR: #endif break; case PDMAUDIOMIXERCTL_LINE_IN: #ifdef VBOX_WITH_AUDIO_HDA_MIC_IN case PDMAUDIOMIXERCTL_MIC_IN: #endif break; default: AssertMsgFailed(("Mixer control %#x not implemented\n", enmMixerCtl)); rc = VERR_NOT_IMPLEMENTED; break; } if (RT_SUCCESS(rc)) rc = hdaR3MixerAddStream(pThis, enmMixerCtl, pCfg); LogFlowFuncLeaveRC(rc); return rc; } int hdaR3CodecRemoveStream(PHDACODECR3 pThis, PDMAUDIOMIXERCTL enmMixerCtl, bool fImmediate) { AssertPtrReturn(pThis, VERR_INVALID_POINTER); int rc = hdaR3MixerRemoveStream(pThis, enmMixerCtl, fImmediate); LogFlowFuncLeaveRC(rc); return rc; } /** * Saved the codec state. * * @returns VBox status code. * @param pDevIns The device instance of the HDA device. * @param pThis The codec instance data. * @param pSSM The saved state handle. */ int hdaCodecSaveState(PPDMDEVINS pDevIns, PHDACODECR3 pThis, PSSMHANDLE pSSM) { PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3; AssertLogRelMsgReturn(pThis->Cfg.cTotalNodes == STAC9221_NUM_NODES, ("cTotalNodes=%#x, should be 0x1c", pThis->Cfg.cTotalNodes), VERR_INTERNAL_ERROR); pHlp->pfnSSMPutU32(pSSM, pThis->Cfg.cTotalNodes); for (unsigned idxNode = 0; idxNode < pThis->Cfg.cTotalNodes; ++idxNode) pHlp->pfnSSMPutStructEx(pSSM, &pThis->aNodes[idxNode].SavedState, sizeof(pThis->aNodes[idxNode].SavedState), 0 /*fFlags*/, g_aCodecNodeFields, NULL /*pvUser*/); return VINF_SUCCESS; } /** * Loads the codec state. * * @returns VBox status code. * @param pDevIns The device instance of the HDA device. * @param pThis The codec instance data. * @param pSSM The saved state handle. * @param uVersion The state version. */ int hdaR3CodecLoadState(PPDMDEVINS pDevIns, PHDACODECR3 pThis, PSSMHANDLE pSSM, uint32_t uVersion) { PCPDMDEVHLPR3 pHlp = pDevIns->pHlpR3; PCSSMFIELD pFields = NULL; uint32_t fFlags = 0; if (uVersion >= HDA_SAVED_STATE_VERSION_4) { /* Since version 4 a flexible node count is supported. */ uint32_t cNodes; int rc2 = pHlp->pfnSSMGetU32(pSSM, &cNodes); AssertRCReturn(rc2, rc2); AssertReturn(cNodes == 0x1c, VERR_SSM_DATA_UNIT_FORMAT_CHANGED); AssertReturn(pThis->Cfg.cTotalNodes == 0x1c, VERR_INTERNAL_ERROR); pFields = g_aCodecNodeFields; fFlags = 0; } else if (uVersion >= HDA_SAVED_STATE_VERSION_2) { AssertReturn(pThis->Cfg.cTotalNodes == 0x1c, VERR_INTERNAL_ERROR); pFields = g_aCodecNodeFields; fFlags = SSMSTRUCT_FLAGS_MEM_BAND_AID_RELAXED; } else if (uVersion >= HDA_SAVED_STATE_VERSION_1) { AssertReturn(pThis->Cfg.cTotalNodes == 0x1c, VERR_INTERNAL_ERROR); pFields = g_aCodecNodeFieldsV1; fFlags = SSMSTRUCT_FLAGS_MEM_BAND_AID_RELAXED; } else AssertFailedReturn(VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION); for (unsigned idxNode = 0; idxNode < pThis->Cfg.cTotalNodes; ++idxNode) { uint8_t idOld = pThis->aNodes[idxNode].SavedState.Core.uID; int rc = pHlp->pfnSSMGetStructEx(pSSM, &pThis->aNodes[idxNode].SavedState, sizeof(pThis->aNodes[idxNode].SavedState), fFlags, pFields, NULL); AssertRCReturn(rc, rc); AssertLogRelMsgReturn(idOld == pThis->aNodes[idxNode].SavedState.Core.uID, ("loaded %#x, expected %#x\n", pThis->aNodes[idxNode].SavedState.Core.uID, idOld), VERR_SSM_DATA_UNIT_FORMAT_CHANGED); } /* * Update stuff after changing the state. */ PCODECNODE pNode; if (hdaCodecIsDacNode(pThis, pThis->Cfg.idxDacLineOut)) { pNode = &pThis->aNodes[pThis->Cfg.idxDacLineOut]; hdaR3CodecToAudVolume(pThis, pNode, &pNode->dac.B_params, PDMAUDIOMIXERCTL_FRONT); } else if (hdaCodecIsSpdifOutNode(pThis, pThis->Cfg.idxDacLineOut)) { pNode = &pThis->aNodes[pThis->Cfg.idxDacLineOut]; hdaR3CodecToAudVolume(pThis, pNode, &pNode->spdifout.B_params, PDMAUDIOMIXERCTL_FRONT); } pNode = &pThis->aNodes[pThis->Cfg.idxAdcVolsLineIn]; hdaR3CodecToAudVolume(pThis, pNode, &pNode->adcvol.B_params, PDMAUDIOMIXERCTL_LINE_IN); LogFlowFuncLeaveRC(VINF_SUCCESS); return VINF_SUCCESS; } /** * Powers off the codec (ring-3). * * @param pThis The codec data. */ void hdaR3CodecPowerOff(PHDACODECR3 pThis) { LogFlowFuncEnter(); LogRel2(("HDA: Powering off codec ...\n")); int rc2 = hdaR3CodecRemoveStream(pThis, PDMAUDIOMIXERCTL_FRONT, true /*fImmediate*/); AssertRC(rc2); #ifdef VBOX_WITH_AUDIO_HDA_51_SURROUND rc2 = hdaR3CodecRemoveStream(pThis, PDMAUDIOMIXERCTL_CENTER_LFE, true /*fImmediate*/); AssertRC(rc2); rc2 = hdaR3CodecRemoveStream(pThis, PDMAUDIOMIXERCTL_REAR, true /*fImmediate*/); AssertRC(rc2); #endif #ifdef VBOX_WITH_AUDIO_HDA_MIC_IN rc2 = hdaR3CodecRemoveStream(pThis, PDMAUDIOMIXERCTL_MIC_IN, true /*fImmediate*/); AssertRC(rc2); #endif rc2 = hdaR3CodecRemoveStream(pThis, PDMAUDIOMIXERCTL_LINE_IN, true /*fImmediate*/); AssertRC(rc2); } /** * Constructs a codec (ring-3). * * @returns VBox status code. * @param pDevIns The associated device instance. * @param pThis The codec data. * @param uLUN Device LUN to assign. * @param pCfg CFGM node to use for configuration. */ int hdaR3CodecConstruct(PPDMDEVINS pDevIns, PHDACODECR3 pThis, uint16_t uLUN, PCFGMNODE pCfg) { AssertPtrReturn(pDevIns, VERR_INVALID_POINTER); AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(pCfg, VERR_INVALID_POINTER); HDACODECCFG *pCodecCfg = (HDACODECCFG *)&pThis->Cfg; pCodecCfg->id = uLUN; pCodecCfg->enmType = CODECTYPE_STAC9220; /** @todo Make this dynamic. */ int rc; switch (pCodecCfg->enmType) { case CODECTYPE_STAC9220: { rc = stac9220Construct(pThis, pCodecCfg); AssertRCReturn(rc, rc); break; } default: AssertFailedReturn(VERR_NOT_IMPLEMENTED); break; } /* * Set initial volume. */ PCODECNODE pNode = &pThis->aNodes[pCodecCfg->idxDacLineOut]; rc = hdaR3CodecToAudVolume(pThis, pNode, &pNode->dac.B_params, PDMAUDIOMIXERCTL_FRONT); AssertRCReturn(rc, rc); pNode = &pThis->aNodes[pCodecCfg->idxAdcVolsLineIn]; rc = hdaR3CodecToAudVolume(pThis, pNode, &pNode->adcvol.B_params, PDMAUDIOMIXERCTL_LINE_IN); AssertRCReturn(rc, rc); #ifdef VBOX_WITH_AUDIO_HDA_MIC_IN # error "Implement mic-in support!" #endif /* * Statistics */ PDMDevHlpSTAMRegister(pDevIns, &pThis->StatLookupsR3, STAMTYPE_COUNTER, "Codec/LookupsR0", STAMUNIT_OCCURENCES, "Number of R0 codecLookup calls"); #if 0 /* Codec is not yet kosher enough for ring-0. @bugref{9890c64} */ PDMDevHlpSTAMRegister(pDevIns, &pThis->StatLookupsR0, STAMTYPE_COUNTER, "Codec/LookupsR3", STAMUNIT_OCCURENCES, "Number of R3 codecLookup calls"); #endif return rc; } /** * Destructs a codec. * * @param pThis Codec to destruct. */ void hdaCodecDestruct(PHDACODECR3 pThis) { LogFlowFuncEnter(); /* Nothing to do here atm. */ RT_NOREF(pThis); } /** * Resets a codec. * * @param pThis Codec to reset. */ void hdaCodecReset(PHDACODECR3 pThis) { switch (pThis->Cfg.enmType) { case CODECTYPE_STAC9220: stac9220Reset(pThis); break; default: AssertFailed(); break; } }