DevCodec.cpp@ 44528

Last change on this file since 44528 was 44528, checked in by vboxsync, 12 years ago
header (C) fixes
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1	/* $Id: DevCodec.cpp 44528 2013-02-04 14:27:54Z vboxsync $ */
2	/** @file
3	* DevCodec - VBox ICH Intel HD Audio Codec.
4	*/
5
6	/*
7	* Copyright (C) 2006-2012 Oracle Corporation
8	*
9	* This file is part of VirtualBox Open Source Edition (OSE), as
10	* available from http://www.virtualbox.org. This file is free software;
11	* you can redistribute it and/or modify it under the terms of the GNU
12	* General Public License (GPL) as published by the Free Software
13	* Foundation, in version 2 as it comes in the "COPYING" file of the
14	* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15	* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16	*/
17
18
19	/*******************************************************************************
20	* Header Files *
21	*******************************************************************************/
22	#define LOG_GROUP LOG_GROUP_DEV_AUDIO
23	#include <VBox/vmm/pdmdev.h>
24	#include <iprt/assert.h>
25	#include <iprt/uuid.h>
26	#include <iprt/string.h>
27	#include <iprt/mem.h>
28	#include <iprt/asm.h>
29	#include <iprt/cpp/utils.h>
30
31	#include "VBoxDD.h"
32	extern "C" {
33	#include "audio.h"
34	}
35	#include "DevCodec.h"
36
37
38	/*******************************************************************************
39	* Structures and Typedefs *
40	*******************************************************************************/
41	#define CODECNODE_F0_PARAM_LENGTH 0x14
42	#define CODECNODE_F02_PARAM_LENGTH 16
43
44	typedef struct CODECCOMMONNODE
45	{
46	uint8_t id; /* 7 - bit format */
47	/** The node name. */
48	char const *pszName;
49	/* RPM 5.3.6 */
50	uint32_t au32F00_param[CODECNODE_F0_PARAM_LENGTH];
51	uint32_t au32F02_param[CODECNODE_F02_PARAM_LENGTH];
52	} CODECCOMMONNODE, *PCODECCOMMONNODE;
53	AssertCompile(CODECNODE_F0_PARAM_LENGTH == 20); /* saved state */
54	AssertCompile(CODECNODE_F02_PARAM_LENGTH == 16); /* saved state */
55
56	#define AssertNodeSize(a_Node, a_cParams) \
57	AssertCompile((a_cParams) <= (60 + 6)); /* the max size - saved state */ \
58	AssertCompile(sizeof(a_Node) - sizeof(CODECCOMMONNODE) == (((a_cParams) * sizeof(uint32_t) + sizeof(void ) - 1) & ~(sizeof(void ) - 1)))
59
60	typedef struct ROOTCODECNODE
61	{
62	CODECCOMMONNODE node;
63	} ROOTCODECNODE, *PROOTCODECNODE;
64	AssertNodeSize(ROOTCODECNODE, 0);
65
66	#define AMPLIFIER_SIZE 60
67	typedef uint32_t AMPLIFIER[AMPLIFIER_SIZE];
68	#define AMPLIFIER_IN 0
69	#define AMPLIFIER_OUT 1
70	#define AMPLIFIER_LEFT 1
71	#define AMPLIFIER_RIGHT 0
72	#define AMPLIFIER_REGISTER(amp, inout, side, index) ((amp)[30(inout) + 15(side) + (index)])
73	typedef struct DACNODE
74	{
75	CODECCOMMONNODE node;
76	uint32_t u32F0d_param;
77	uint32_t u32F04_param;
78	uint32_t u32F05_param;
79	uint32_t u32F06_param;
80	uint32_t u32F0c_param;
81
82	uint32_t u32A_param;
83	AMPLIFIER B_params;
84
85	} DACNODE, *PDACNODE;
86	AssertNodeSize(DACNODE, 6 + 60);
87
88	typedef struct ADCNODE
89	{
90	CODECCOMMONNODE node;
91	uint32_t u32F03_param;
92	uint32_t u32F05_param;
93	uint32_t u32F06_param;
94	uint32_t u32F09_param;
95
96	uint32_t u32A_param;
97	uint32_t u32F01_param;
98	AMPLIFIER B_params;
99	} ADCNODE, *PADCNODE;
100	AssertNodeSize(DACNODE, 6 + 60);
101
102	typedef struct SPDIFOUTNODE
103	{
104	CODECCOMMONNODE node;
105	uint32_t u32F05_param;
106	uint32_t u32F06_param;
107	uint32_t u32F09_param;
108	uint32_t u32F0d_param;
109
110	uint32_t u32A_param;
111	AMPLIFIER B_params;
112	} SPDIFOUTNODE, *PSPDIFOUTNODE;
113	AssertNodeSize(SPDIFOUTNODE, 5 + 60);
114
115	typedef struct SPDIFINNODE
116	{
117	CODECCOMMONNODE node;
118	uint32_t u32F05_param;
119	uint32_t u32F06_param;
120	uint32_t u32F09_param;
121	uint32_t u32F0d_param;
122
123	uint32_t u32A_param;
124	AMPLIFIER B_params;
125	} SPDIFINNODE, *PSPDIFINNODE;
126	AssertNodeSize(SPDIFINNODE, 5 + 60);
127
128	typedef struct AFGCODECNODE
129	{
130	CODECCOMMONNODE node;
131	uint32_t u32F05_param;
132	uint32_t u32F08_param;
133	uint32_t u32F20_param;
134	uint32_t u32F17_param;
135	} AFGCODECNODE, *PAFGCODECNODE;
136	AssertNodeSize(AFGCODECNODE, 4);
137
138	typedef struct PORTNODE
139	{
140	CODECCOMMONNODE node;
141	uint32_t u32F07_param;
142	uint32_t u32F08_param;
143	uint32_t u32F09_param;
144	uint32_t u32F01_param;
145	uint32_t u32F1c_param;
146	AMPLIFIER B_params;
147	} PORTNODE, *PPORTNODE;
148	AssertNodeSize(PORTNODE, 5 + 60);
149
150	typedef struct DIGOUTNODE
151	{
152	CODECCOMMONNODE node;
153	uint32_t u32F01_param;
154	uint32_t u32F08_param;
155	uint32_t u32F07_param;
156	uint32_t u32F09_param;
157	uint32_t u32F1c_param;
158	} DIGOUTNODE, *PDIGOUTNODE;
159	AssertNodeSize(DIGOUTNODE, 5);
160
161	typedef struct DIGINNODE
162	{
163	CODECCOMMONNODE node;
164	uint32_t u32F05_param;
165	uint32_t u32F07_param;
166	uint32_t u32F08_param;
167	uint32_t u32F09_param;
168	uint32_t u32F0c_param;
169	uint32_t u32F1c_param;
170	uint32_t u32F1e_param;
171	} DIGINNODE, *PDIGINNODE;
172	AssertNodeSize(DIGINNODE, 7);
173
174	typedef struct ADCMUXNODE
175	{
176	CODECCOMMONNODE node;
177	uint32_t u32F01_param;
178
179	uint32_t u32A_param;
180	AMPLIFIER B_params;
181	} ADCMUXNODE, *PADCMUXNODE;
182	AssertNodeSize(ADCMUXNODE, 2 + 60);
183
184	typedef struct PCBEEPNODE
185	{
186	CODECCOMMONNODE node;
187	uint32_t u32F07_param;
188	uint32_t u32F0a_param;
189
190	uint32_t u32A_param;
191	AMPLIFIER B_params;
192	uint32_t u32F1c_param;
193	} PCBEEPNODE, *PPCBEEPNODE;
194	AssertNodeSize(PCBEEPNODE, 3 + 60 + 1);
195
196	typedef struct CDNODE
197	{
198	CODECCOMMONNODE node;
199	uint32_t u32F07_param;
200	uint32_t u32F1c_param;
201	} CDNODE, *PCDNODE;
202	AssertNodeSize(CDNODE, 2);
203
204	typedef struct VOLUMEKNOBNODE
205	{
206	CODECCOMMONNODE node;
207	uint32_t u32F08_param;
208	uint32_t u32F0f_param;
209	} VOLUMEKNOBNODE, *PVOLUMEKNOBNODE;
210	AssertNodeSize(VOLUMEKNOBNODE, 2);
211
212	typedef struct ADCVOLNODE
213	{
214	CODECCOMMONNODE node;
215	uint32_t u32F0c_param;
216	uint32_t u32F01_param;
217	uint32_t u32A_params;
218	AMPLIFIER B_params;
219	} ADCVOLNODE, *PADCVOLNODE;
220	AssertNodeSize(ADCVOLNODE, 3 + 60);
221
222	typedef struct RESNODE
223	{
224	CODECCOMMONNODE node;
225	uint32_t u32F05_param;
226	uint32_t u32F06_param;
227	uint32_t u32F07_param;
228	uint32_t u32F1c_param;
229	} RESNODE, *PRESNODE;
230	AssertNodeSize(RESNODE, 4);
231
232	/**
233	* Used for the saved state.
234	*/
235	typedef struct CODECSAVEDSTATENODE
236	{
237	CODECCOMMONNODE Core;
238	uint32_t au32Params[60 + 6];
239	} CODECSAVEDSTATENODE;
240	AssertNodeSize(CODECSAVEDSTATENODE, 60 + 6);
241
242	typedef union CODECNODE
243	{
244	CODECCOMMONNODE node;
245	ROOTCODECNODE root;
246	AFGCODECNODE afg;
247	DACNODE dac;
248	ADCNODE adc;
249	SPDIFOUTNODE spdifout;
250	SPDIFINNODE spdifin;
251	PORTNODE port;
252	DIGOUTNODE digout;
253	DIGINNODE digin;
254	ADCMUXNODE adcmux;
255	PCBEEPNODE pcbeep;
256	CDNODE cdnode;
257	VOLUMEKNOBNODE volumeKnob;
258	ADCVOLNODE adcvol;
259	RESNODE reserved;
260	CODECSAVEDSTATENODE SavedState;
261	} CODECNODE, *PCODECNODE;
262	AssertNodeSize(CODECNODE, 60 + 6);
263
264
265	/*******************************************************************************
266	* Global Variables *
267	*******************************************************************************/
268	/* STAC9220 - Referenced thru STAC9220WIDGET in the constructor below. */
269	static uint8_t const g_abStac9220Ports[] = { 0xA, 0xB, 0xC, 0xD, 0xE, 0xF, 0};
270	static uint8_t const g_abStac9220Dacs[] = { 0x2, 0x3, 0x4, 0x5, 0};
271	static uint8_t const g_abStac9220Adcs[] = { 0x6, 0x7, 0};
272	static uint8_t const g_abStac9220SpdifOuts[] = { 0x8, 0 };
273	static uint8_t const g_abStac9220SpdifIns[] = { 0x9, 0 };
274	static uint8_t const g_abStac9220DigOutPins[] = { 0x10, 0 };
275	static uint8_t const g_abStac9220DigInPins[] = { 0x11, 0 };
276	static uint8_t const g_abStac9220AdcVols[] = { 0x17, 0x18, 0};
277	static uint8_t const g_abStac9220AdcMuxs[] = { 0x12, 0x13, 0};
278	static uint8_t const g_abStac9220Pcbeeps[] = { 0x14, 0 };
279	static uint8_t const g_abStac9220Cds[] = { 0x15, 0 };
280	static uint8_t const g_abStac9220VolKnobs[] = { 0x16, 0 };
281	static uint8_t const g_abStac9220Reserveds[] = { 0x9, 0x19, 0x1a, 0x1b, 0 };
282
283
284	/** SSM description of a CODECNODE. */
285	static SSMFIELD const g_aCodecNodeFields[] =
286	{
287	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.id),
288	SSMFIELD_ENTRY_PAD_HC_AUTO(3, 3),
289	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F00_param),
290	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F02_param),
291	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, au32Params),
292	SSMFIELD_ENTRY_TERM()
293	};
294
295	/** Backward compatibility with v1 of the CODECNODE. */
296	static SSMFIELD const g_aCodecNodeFieldsV1[] =
297	{
298	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.id),
299	SSMFIELD_ENTRY_PAD_HC_AUTO(3, 7),
300	SSMFIELD_ENTRY_OLD_HCPTR(Core.name),
301	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F00_param),
302	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, Core.au32F02_param),
303	SSMFIELD_ENTRY( CODECSAVEDSTATENODE, au32Params),
304	SSMFIELD_ENTRY_TERM()
305	};
306
307
308	/*******************************************************************************
309	* Internal Functions *
310	*******************************************************************************/
311	static int stac9220ResetNode(struct CODECState *pState, uint8_t nodenum, PCODECNODE pNode);
312
313
314
315	static int stac9220Construct(CODECState *pState)
316	{
317	unconst(pState->cTotalNodes) = 0x1C;
318	pState->pfnCodecNodeReset = stac9220ResetNode;
319	pState->u16VendorId = 0x8384;
320	pState->u16DeviceId = 0x7680;
321	pState->u8BSKU = 0x76;
322	pState->u8AssemblyId = 0x80;
323	pState->pNodes = (PCODECNODE)RTMemAllocZ(sizeof(CODECNODE) * pState->cTotalNodes);
324	pState->fInReset = false;
325	#define STAC9220WIDGET(type) pState->au8##type##s = g_abStac9220##type##s
326	STAC9220WIDGET(Port);
327	STAC9220WIDGET(Dac);
328	STAC9220WIDGET(Adc);
329	STAC9220WIDGET(AdcVol);
330	STAC9220WIDGET(AdcMux);
331	STAC9220WIDGET(Pcbeep);
332	STAC9220WIDGET(SpdifIn);
333	STAC9220WIDGET(SpdifOut);
334	STAC9220WIDGET(DigInPin);
335	STAC9220WIDGET(DigOutPin);
336	STAC9220WIDGET(Cd);
337	STAC9220WIDGET(VolKnob);
338	STAC9220WIDGET(Reserved);
339	#undef STAC9220WIDGET
340	unconst(pState->u8AdcVolsLineIn) = 0x17;
341	unconst(pState->u8DacLineOut) = 0x2;
342
343	return VINF_SUCCESS;
344	}
345
346	static int stac9220ResetNode(struct CODECState *pState, uint8_t nodenum, PCODECNODE pNode)
347	{
348	pNode->node.id = nodenum;
349	pNode->node.au32F00_param[0xF] = 0; /* Power statest Supported: are the same as AFG reports */
350	switch (nodenum)
351	{
352	/* Root Node*/
353	case 0:
354	pNode->node.au32F00_param[2] = CODEC_MAKE_F00_02(0x1, 0x0, 0x34, 0x1); /* rev id */
355	break;
356	case 1:
357	pNode->node.au32F00_param[8] = CODEC_MAKE_F00_08(1, 0xd, 0xd);
358	pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17)
359	\| CODEC_F00_0C_CAP_BALANCED_IO
360	\| CODEC_F00_0C_CAP_INPUT
361	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
362	\| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
363	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//(17 << 8)\|RT_BIT(6)\|RT_BIT(5)\|RT_BIT(2)\|RT_BIT(1)\|RT_BIT(0);
364	pNode->node.au32F00_param[0xB] = CODEC_F00_0B_PCM;
365	pNode->node.au32F00_param[0xD] = CODEC_MAKE_F00_0D(1, 0x5, 0xE, 0);//RT_BIT(31)\|(0x5 << 16)\|(0xE)<<8;
366	pNode->node.au32F00_param[0x12] = RT_BIT(31)\|(0x2 << 16)\|(0x7f << 8)\|0x7f;
367	pNode->node.au32F00_param[0x11] = CODEC_MAKE_F00_11(1, 1, 0, 0, 4);//0xc0000004;
368	pNode->node.au32F00_param[0xF] = CODEC_F00_0F_D3\|CODEC_F00_0F_D2\|CODEC_F00_0F_D1\|CODEC_F00_0F_D0;
369	pNode->afg.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D2, CODEC_F05_D2);//0x2 << 4\| 0x2; /* PS-Act: D3, PS->Set D3 */
370	pNode->afg.u32F08_param = 0;
371	pNode->afg.u32F17_param = 0;
372	break;
373	case 2:
374	case 3:
375	case 4:
376	case 5:
377	memset(pNode->dac.B_params, 0, AMPLIFIER_SIZE);
378	pNode->dac.u32A_param = CODEC_MAKE_A(0, 1, CODEC_A_MULT_1X, CODEC_A_DIV_1X, CODEC_A_16_BIT, 1);//RT_BIT(14)\|(0x1 << 4)\|0x1; /* 441000Hz/16bit/2ch */
379
380	AMPLIFIER_REGISTER(pNode->dac.B_params, AMPLIFIER_OUT, AMPLIFIER_LEFT, 0) = 0x7F \| RT_BIT(7);
381	AMPLIFIER_REGISTER(pNode->dac.B_params, AMPLIFIER_OUT, AMPLIFIER_RIGHT, 0) = 0x7F \| RT_BIT(7);
382
383	pNode->dac.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0xD, 0)
384	\| CODEC_F00_09_CAP_L_R_SWAP
385	\| CODEC_F00_09_CAP_POWER_CTRL
386	\| CODEC_F00_09_CAP_OUT_AMP_PRESENT
387	\| CODEC_F00_09_CAP_LSB;//(0xD << 16) \| RT_BIT(11) \| RT_BIT(10) \| RT_BIT(2) \| RT_BIT(0);
388	pNode->dac.u32F0c_param = 0;
389	pNode->dac.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 \| 0x3; /* PS-Act: D3, Set: D3 */
390	break;
391	case 6:
392	pNode->node.au32F02_param[0] = 0x17;
393	goto adc_init;
394	case 7:
395	pNode->node.au32F02_param[0] = 0x18;
396	adc_init:
397	pNode->adc.u32A_param = CODEC_MAKE_A(0, 1, CODEC_A_MULT_1X, CODEC_A_DIV_1X, CODEC_A_16_BIT, 1);//RT_BIT(14)\|(0x1 << 3)\|0x1; /* 441000Hz/16bit/2ch */
398	pNode->adc.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//RT_BIT(0);
399	pNode->adc.u32F03_param = RT_BIT(0);
400	pNode->adc.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 \| 0x3; /* PS-Act: D3 Set: D3 */
401	pNode->adc.u32F06_param = 0;
402	pNode->adc.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_INPUT, 0xD, 0)
403	\| CODEC_F00_09_CAP_POWER_CTRL
404	\| CODEC_F00_09_CAP_CONNECTION_LIST
405	\| CODEC_F00_09_CAP_PROC_WIDGET
406	\| CODEC_F00_09_CAP_LSB;//RT_BIT(20)\| (0xd << 16) \| RT_BIT(10) \| RT_BIT(8) \| RT_BIT(6)\| RT_BIT(0);
407	break;
408	case 8:
409	pNode->spdifout.u32A_param = CODEC_MAKE_A(0, 1, CODEC_A_MULT_1X, CODEC_A_DIV_1X, CODEC_A_16_BIT, 1);//(1<<14)\|(0x1<<4) \| 0x1;
410	pNode->spdifout.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0x4, 0)
411	\| CODEC_F00_09_CAP_DIGITAL
412	\| CODEC_F00_09_CAP_FMT_OVERRIDE
413	\| CODEC_F00_09_CAP_LSB;//(4 << 16) \| RT_BIT(9)\|RT_BIT(4)\|0x1;
414	pNode->node.au32F00_param[0xa] = pState->pNodes[1].node.au32F00_param[0xA];
415	pNode->spdifout.node.au32F00_param[0xB] = CODEC_F00_0B_PCM;
416	pNode->spdifout.u32F06_param = 0;
417	pNode->spdifout.u32F0d_param = 0;
418	break;
419	case 9:
420	pNode->spdifin.u32A_param = CODEC_MAKE_A(0, 1, CODEC_A_MULT_1X, CODEC_A_DIV_1X, CODEC_A_16_BIT, 1);//(0x1<<4) \| 0x1;
421	pNode->spdifin.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_INPUT, 0x4, 0)
422	\| CODEC_F00_09_CAP_DIGITAL
423	\| CODEC_F00_09_CAP_CONNECTION_LIST
424	\| CODEC_F00_09_CAP_FMT_OVERRIDE
425	\| CODEC_F00_09_CAP_LSB;//(0x1 << 20)\|(4 << 16) \| RT_BIT(9)\| RT_BIT(8)\|RT_BIT(4)\|0x1;
426	pNode->node.au32F00_param[0xA] = pState->pNodes[1].node.au32F00_param[0xA];
427	pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//RT_BIT(0);
428	pNode->node.au32F02_param[0] = 0x11;
429	pNode->spdifin.node.au32F00_param[0xB] = CODEC_F00_0B_PCM;
430	pNode->spdifin.u32F06_param = 0;
431	pNode->spdifin.u32F0d_param = 0;
432	break;
433	case 0xA:
434	pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17)
435	\| CODEC_F00_0C_CAP_INPUT
436	\| CODEC_F00_0C_CAP_OUTPUT
437	\| CODEC_F00_0C_CAP_HP
438	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
439	\| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
440	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x173f;
441	pNode->node.au32F02_param[0] = 0x2;
442	pNode->port.u32F07_param = CODEC_F07_IN_ENABLE
443	\| CODEC_F07_OUT_ENABLE;
444	pNode->port.u32F08_param = 0;
445	if (!pState->fInReset)
446	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
447	CODEC_F1C_LOCATION_FRONT,
448	CODEC_F1C_DEVICE_HP,
449	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
450	CODEC_F1C_COLOR_GREEN,
451	CODEC_F1C_MISC_JACK_DETECT,
452	0x2, 0);//RT_MAKE_U32_FROM_U8(0x20, 0x40, 0x21, 0x02);
453	goto port_init;
454	case 0xB:
455	pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17)
456	\| CODEC_F00_0C_CAP_INPUT
457	\| CODEC_F00_0C_CAP_OUTPUT
458	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
459	\| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
460	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737;
461	pNode->node.au32F02_param[0] = 0x4;
462	pNode->port.u32F07_param = CODEC_F07_IN_ENABLE;
463	if (!pState->fInReset)
464	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
465	CODEC_F1C_LOCATION_INTERNAL\|CODEC_F1C_LOCATION_REAR,
466	CODEC_F1C_DEVICE_SPEAKER,
467	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
468	CODEC_F1C_COLOR_BLACK,
469	CODEC_F1C_MISC_JACK_DETECT,
470	0x1, 0x1);//RT_MAKE_U32_FROM_U8(0x11, 0x60, 0x11, 0x01);
471	goto port_init;
472	case 0xC:
473	pNode->node.au32F02_param[0] = 0x3;
474	pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17)
475	\| CODEC_F00_0C_CAP_INPUT
476	\| CODEC_F00_0C_CAP_OUTPUT
477	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
478	\| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
479	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737;
480	pNode->port.u32F07_param = CODEC_F07_IN_ENABLE;
481	if (!pState->fInReset)
482	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
483	CODEC_F1C_LOCATION_REAR,
484	CODEC_F1C_DEVICE_SPEAKER,
485	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
486	CODEC_F1C_COLOR_GREEN,
487	0x0, 0x1, 0x0);//RT_MAKE_U32_FROM_U8(0x10, 0x40, 0x11, 0x01);
488	goto port_init;
489	case 0xD:
490	pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17)
491	\| CODEC_F00_0C_CAP_INPUT
492	\| CODEC_F00_0C_CAP_OUTPUT
493	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
494	\| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
495	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737;
496	pNode->port.u32F07_param = CODEC_F07_IN_ENABLE;
497	pNode->node.au32F02_param[0] = 0x2;
498	if (!pState->fInReset)
499	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
500	CODEC_F1C_LOCATION_FRONT,
501	CODEC_F1C_DEVICE_MIC,
502	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
503	CODEC_F1C_COLOR_PINK,
504	0x0, 0x5, 0x0);//RT_MAKE_U32_FROM_U8(0x50, 0x90, 0xA1, 0x02); /* Microphone */
505	port_init:
506	pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1, CODEC_F09_ANALOG_NA);//RT_BIT(31)\|0x7fffffff;
507	pNode->port.u32F08_param = 0;
508	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0)
509	\| CODEC_F00_09_CAP_CONNECTION_LIST
510	\| CODEC_F00_09_CAP_UNSOL
511	\| CODEC_F00_09_CAP_LSB;//(4 << 20)\|RT_BIT(8)\|RT_BIT(7)\|RT_BIT(0);
512	pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//0x1;
513	break;
514	case 0xE:
515	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0)
516	\| CODEC_F00_09_CAP_UNSOL
517	\| CODEC_F00_09_CAP_LSB;//(4 << 20)\|RT_BIT(7)\|RT_BIT(0);
518	pNode->port.u32F08_param = 0;
519	pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT
520	\| CODEC_F00_0C_CAP_OUTPUT
521	\| CODEC_F00_0C_CAP_PRESENSE_DETECT;//0x34;
522	pNode->port.u32F07_param = CODEC_F07_IN_ENABLE;
523	pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0, CODEC_F09_ANALOG_NA);//0x7fffffff;
524	if (!pState->fInReset)
525	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
526	CODEC_F1C_LOCATION_REAR,
527	CODEC_F1C_DEVICE_LINE_OUT,
528	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
529	CODEC_F1C_COLOR_BLUE,
530	0x0, 0x4, 0x0);//0x01013040; /* Line Out */
531	break;
532	case 0xF:
533	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0x0)
534	\| CODEC_F00_09_CAP_CONNECTION_LIST
535	\| CODEC_F00_09_CAP_UNSOL
536	\| CODEC_F00_09_CAP_OUT_AMP_PRESENT
537	\| CODEC_F00_09_CAP_LSB;//(4 << 20)\|RT_BIT(8)\|RT_BIT(7)\|RT_BIT(2)\|RT_BIT(0);
538	pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT
539	\| CODEC_F00_0C_CAP_OUTPUT
540	\| CODEC_F00_0C_CAP_PRESENSE_DETECT
541	/* \| CODEC_F00_0C_CAP_TRIGGER_REQUIRED
542	\| CODEC_F00_0C_CAP_IMPENDANCE_SENSE */;//0x37;
543	pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//0x1;
544	pNode->port.u32F08_param = 0;
545	pNode->port.u32F07_param = CODEC_F07_OUT_ENABLE
546	\| CODEC_F07_IN_ENABLE;
547	if (!pState->fInReset)
548	pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
549	CODEC_F1C_LOCATION_INTERNAL,
550	CODEC_F1C_DEVICE_SPEAKER,
551	CODEC_F1C_CONNECTION_TYPE_1_8INCHES,
552	CODEC_F1C_COLOR_ORANGE,
553	0x0, 0x1, 0x2);//RT_MAKE_U32_FROM_U8(0x12, 0x60, 0x11, 0x01);
554	pNode->node.au32F02_param[0] = 0x5;
555	pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0, CODEC_F09_ANALOG_NA);//0x7fffffff;
556	break;
557	case 0x10:
558	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0x0)
559	\| CODEC_F00_09_CAP_DIGITAL
560	\| CODEC_F00_09_CAP_CONNECTION_LIST
561	\| CODEC_F00_09_CAP_LSB;//(4<<20)\|RT_BIT(9)\|RT_BIT(8)\|RT_BIT(0);
562	pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT;//RT_BIT(4);
563	pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 0x3);
564	pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0x08, 0x17, 0x19, 0);
565	if (!pState->fInReset)
566	pNode->digout.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
567	CODEC_F1C_LOCATION_REAR,
568	CODEC_F1C_DEVICE_SPDIF_OUT,
569	CODEC_F1C_CONNECTION_TYPE_DIN,
570	CODEC_F1C_COLOR_BLACK,
571	0x0, 0x3, 0x0);//RT_MAKE_U32_FROM_U8(0x30, 0x10, 0x45, 0x01);
572	break;
573	case 0x11:
574	pNode->node.au32F00_param[9] = (4 << 20)\|(3<<16)\|RT_BIT(10)\|RT_BIT(9)\|RT_BIT(7)\|RT_BIT(0);
575	pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_EAPD
576	\| CODEC_F00_0C_CAP_INPUT
577	\| CODEC_F00_0C_CAP_PRESENSE_DETECT;//RT_BIT(16)\| RT_BIT(5)\|RT_BIT(2);
578	pNode->digin.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 \| 0x3; /* PS-Act: D3 -> D3 */
579	pNode->digin.u32F07_param = 0;
580	pNode->digin.u32F08_param = 0;
581	pNode->digin.u32F09_param = 0;
582	pNode->digin.u32F0c_param = 0;
583	if (!pState->fInReset)
584	pNode->digin.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX,
585	CODEC_F1C_LOCATION_REAR,
586	CODEC_F1C_DEVICE_SPDIF_IN,
587	CODEC_F1C_CONNECTION_TYPE_OTHER_DIGITAL,
588	CODEC_F1C_COLOR_BLACK,
589	0x0, 0x6, 0x0);//(0x1 << 24) \| (0xc5 << 16) \| (0x10 << 8) \| 0x60;
590	break;
591	case 0x12:
592	pNode->adcmux.u32F01_param = 0;
593	goto adcmux_init;
594	case 0x13:
595	pNode->adcmux.u32F01_param = 1;
596	adcmux_init:
597	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_SELECTOR, 0x0, 0)
598	\| CODEC_F00_09_CAP_CONNECTION_LIST
599	\| CODEC_F00_09_CAP_AMP_FMT_OVERRIDE
600	\| CODEC_F00_09_CAP_OUT_AMP_PRESENT
601	\| CODEC_F00_09_CAP_LSB;//(3<<20)\|RT_BIT(8)\|RT_BIT(3)\|RT_BIT(2)\|RT_BIT(0);
602	pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x7);
603	pNode->node.au32F00_param[0x12] = (0x27 << 16)\|(0x4 << 8);
604	/* STAC 9220 v10 6.21-22.{4,5} both(left and right) out amplefiers inited with 0*/
605	memset(pNode->adcmux.B_params, 0, AMPLIFIER_SIZE);
606	pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0xe, 0x15, 0xf, 0xb);
607	pNode->node.au32F02_param[4] = RT_MAKE_U32_FROM_U8(0xc, 0xd, 0xa, 0x0);
608	break;
609	case 0x14:
610	pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_BEEP_GEN, 0, 0)
611	\| CODEC_F00_09_CAP_AMP_FMT_OVERRIDE
612	\| CODEC_F00_09_CAP_OUT_AMP_PRESENT;//(7 << 20) \| RT_BIT(3) \| RT_BIT(2);
613	pNode->node.au32F00_param[0x12] = (0x17 << 16)\|(0x3 << 8)\| 0x3;
614	pNode->pcbeep.u32F0a_param = 0;
615	memset(pNode->pcbeep.B_params, 0, AMPLIFIER_SIZE);
616	break;
617	case 0x15:
618	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0)
619	\| CODEC_F00_09_CAP_LSB;//(4 << 20)\|RT_BIT(0);
620	pNode->node.au32F00_param[0xc] = CODEC_F00_0C_CAP_INPUT;//RT_BIT(5);
621	if (!pState->fInReset)
622	pNode->cdnode.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_FIXED,
623	CODEC_F1C_LOCATION_INTERNAL,
624	CODEC_F1C_DEVICE_CD,
625	CODEC_F1C_CONNECTION_TYPE_ATAPI,
626	CODEC_F1C_COLOR_UNKNOWN,
627	0x0, 0x7, 0x0);//RT_MAKE_U32_FROM_U8(0x70, 0x0, 0x33, 0x90);
628	break;
629	case 0x16:
630	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VOLUME_KNOB, 0x0, 0x0);//(0x6 << 20);
631	pNode->node.au32F00_param[0x13] = RT_BIT(7)\| 0x7F;
632	pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x4);
633	pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0x2, 0x3, 0x4, 0x5);
634	pNode->volumeKnob.u32F08_param = 0;
635	pNode->volumeKnob.u32F0f_param = 0x7f;
636	break;
637	case 0x17:
638	pNode->node.au32F02_param[0] = 0x12;
639	goto adcvol_init;
640	case 0x18:
641	pNode->node.au32F02_param[0] = 0x13;
642	adcvol_init:
643	memset(pNode->adcvol.B_params, 0, AMPLIFIER_SIZE);
644
645	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_SELECTOR, 0, 0)
646	\| CODEC_F00_09_CAP_L_R_SWAP
647	\| CODEC_F00_09_CAP_CONNECTION_LIST
648	\| CODEC_F00_09_CAP_IN_AMP_PRESENT
649	\| CODEC_F00_09_CAP_LSB;//(0x3 << 20)\|RT_BIT(11)\|RT_BIT(8)\|RT_BIT(1)\|RT_BIT(0);
650	pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x1);
651	AMPLIFIER_REGISTER(pNode->adcvol.B_params, AMPLIFIER_IN, AMPLIFIER_LEFT, 0) = RT_BIT(7);
652	AMPLIFIER_REGISTER(pNode->adcvol.B_params, AMPLIFIER_IN, AMPLIFIER_RIGHT, 0) = RT_BIT(7);
653	pNode->adcvol.u32F0c_param = 0;
654	break;
655	case 0x19:
656	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VENDOR_DEFINED, 0x3, 0)
657	\| CODEC_F00_09_CAP_DIGITAL
658	\| CODEC_F00_09_CAP_LSB;//(0xF << 20)\|(0x3 << 16)\|RT_BIT(9)\|RT_BIT(0);
659	break;
660	case 0x1A:
661	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0x3, 0)
662	\| CODEC_F00_09_CAP_DIGITAL
663	\| CODEC_F00_09_CAP_LSB;//(0x3 << 16)\|RT_BIT(9)\|RT_BIT(0);
664	break;
665	case 0x1B:
666	pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0)
667	\| CODEC_F00_09_CAP_DIGITAL
668	\| CODEC_F00_09_CAP_CONNECTION_LIST
669	\| CODEC_F00_09_CAP_LSB;//(0x4 << 20)\|RT_BIT(9)\|RT_BIT(8)\|RT_BIT(0);
670	pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 0x1);
671	pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT;//0x10;
672	pNode->node.au32F02_param[0] = 0x1a;
673	pNode->reserved.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_NO_PHYS,
674	CODEC_F1C_LOCATION_NA,
675	CODEC_F1C_DEVICE_LINE_OUT,
676	CODEC_F1C_CONNECTION_TYPE_UNKNOWN,
677	CODEC_F1C_COLOR_UNKNOWN,
678	0x0, 0x0, 0xf);//0x4000000f;
679	break;
680	default:
681	break;
682	}
683	return VINF_SUCCESS;
684	}
685
686	/* generic */
687
688	#define DECLISNODEOFTYPE(type) \
689	static inline int codecIs##type##Node(struct CODECState *pState, uint8_t cNode) \
690	{ \
691	Assert(pState->au8##type##s); \
692	for(int i = 0; pState->au8##type##s[i] != 0; ++i) \
693	if (pState->au8##type##s[i] == cNode) \
694	return 1; \
695	return 0; \
696	}
697	/* codecIsPortNode */
698	DECLISNODEOFTYPE(Port)
699	/* codecIsDacNode */
700	DECLISNODEOFTYPE(Dac)
701	/* codecIsAdcVolNode */
702	DECLISNODEOFTYPE(AdcVol)
703	/* codecIsAdcNode */
704	DECLISNODEOFTYPE(Adc)
705	/* codecIsAdcMuxNode */
706	DECLISNODEOFTYPE(AdcMux)
707	/* codecIsPcbeepNode */
708	DECLISNODEOFTYPE(Pcbeep)
709	/* codecIsSpdifOutNode */
710	DECLISNODEOFTYPE(SpdifOut)
711	/* codecIsSpdifInNode */
712	DECLISNODEOFTYPE(SpdifIn)
713	/* codecIsDigInPinNode */
714	DECLISNODEOFTYPE(DigInPin)
715	/* codecIsDigOutPinNode */
716	DECLISNODEOFTYPE(DigOutPin)
717	/* codecIsCdNode */
718	DECLISNODEOFTYPE(Cd)
719	/* codecIsVolKnobNode */
720	DECLISNODEOFTYPE(VolKnob)
721	/* codecIsReservedNode */
722	DECLISNODEOFTYPE(Reserved)
723
724	static int codecToAudVolume(AMPLIFIER *pAmp, audmixerctl_t mt);
725
726	static inline void codecSetRegister(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset, uint32_t mask)
727	{
728	Assert((pu32Reg && u8Offset < 32));
729	*pu32Reg &= ~(mask << u8Offset);
730	*pu32Reg \|= (u32Cmd & mask) << u8Offset;
731	}
732	static inline void codecSetRegisterU8(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset)
733	{
734	codecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_8BIT_DATA);
735	}
736
737	static inline void codecSetRegisterU16(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset)
738	{
739	codecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_16BIT_DATA);
740	}
741
742
743	static int codecUnimplemented(struct CODECState pState, uint32_t cmd, uint64_t pResp)
744	{
745	Log(("codecUnimplemented: cmd(raw:%x: cad:%x, d:%c, nid:%x, verb:%x)\n", cmd,
746	CODEC_CAD(cmd), CODEC_DIRECT(cmd) ? 'N' : 'Y', CODEC_NID(cmd), CODEC_VERBDATA(cmd)));
747	*pResp = 0;
748	return VINF_SUCCESS;
749	}
750
751	static int codecBreak(struct CODECState pState, uint32_t cmd, uint64_t pResp)
752	{
753	int rc;
754	rc = codecUnimplemented(pState, cmd, pResp);
755	*pResp \|= CODEC_RESPONSE_UNSOLICITED;
756	return rc;
757	}
758	/* B-- */
759	static int codecGetAmplifier(struct CODECState pState, uint32_t cmd, uint64_t pResp)
760	{
761	Assert((CODEC_CAD(cmd) == pState->id));
762	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
763	if (CODEC_NID(cmd) >= pState->cTotalNodes)
764	{
765	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
766	return VINF_SUCCESS;
767	}
768	*pResp = 0;
769	/* HDA spec 7.3.3.7 Note A */
770	/* @todo: if index out of range response should be 0 */
771	uint8_t u8Index = CODEC_GET_AMP_DIRECTION(cmd) == AMPLIFIER_OUT? 0 : CODEC_GET_AMP_INDEX(cmd);
772
773	PCODECNODE pNode = &pState->pNodes[CODEC_NID(cmd)];
774	if (codecIsDacNode(pState, CODEC_NID(cmd)))
775	*pResp = AMPLIFIER_REGISTER(pNode->dac.B_params,
776	CODEC_GET_AMP_DIRECTION(cmd),
777	CODEC_GET_AMP_SIDE(cmd),
778	u8Index);
779	else if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
780	*pResp = AMPLIFIER_REGISTER(pNode->adcvol.B_params,
781	CODEC_GET_AMP_DIRECTION(cmd),
782	CODEC_GET_AMP_SIDE(cmd),
783	u8Index);
784	else if (codecIsAdcMuxNode(pState, CODEC_NID(cmd)))
785	*pResp = AMPLIFIER_REGISTER(pNode->adcmux.B_params,
786	CODEC_GET_AMP_DIRECTION(cmd),
787	CODEC_GET_AMP_SIDE(cmd),
788	u8Index);
789	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
790	*pResp = AMPLIFIER_REGISTER(pNode->pcbeep.B_params,
791	CODEC_GET_AMP_DIRECTION(cmd),
792	CODEC_GET_AMP_SIDE(cmd),
793	u8Index);
794	else if (codecIsPortNode(pState, CODEC_NID(cmd)))
795	*pResp = AMPLIFIER_REGISTER(pNode->port.B_params,
796	CODEC_GET_AMP_DIRECTION(cmd),
797	CODEC_GET_AMP_SIDE(cmd),
798	u8Index);
799	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
800	*pResp = AMPLIFIER_REGISTER(pNode->adc.B_params,
801	CODEC_GET_AMP_DIRECTION(cmd),
802	CODEC_GET_AMP_SIDE(cmd),
803	u8Index);
804	else{
805	AssertMsgReturn(0, ("access to fields of %x need to be implemented\n", CODEC_NID(cmd)), VINF_SUCCESS);
806	}
807	return VINF_SUCCESS;
808	}
809	/* 3-- */
810	static int codecSetAmplifier(struct CODECState pState, uint32_t cmd, uint64_t pResp)
811	{
812	AMPLIFIER *pAmplifier = NULL;
813	bool fIsLeft = false;
814	bool fIsRight = false;
815	bool fIsOut = false;
816	bool fIsIn = false;
817	uint8_t u8Index = 0;
818	Assert((CODEC_CAD(cmd) == pState->id));
819	if (CODEC_NID(cmd) >= pState->cTotalNodes)
820	{
821	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
822	return VINF_SUCCESS;
823	}
824	*pResp = 0;
825	PCODECNODE pNode = &pState->pNodes[CODEC_NID(cmd)];
826	if (codecIsDacNode(pState, CODEC_NID(cmd)))
827	pAmplifier = &pNode->dac.B_params;
828	else if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
829	pAmplifier = &pNode->adcvol.B_params;
830	else if (codecIsAdcMuxNode(pState, CODEC_NID(cmd)))
831	pAmplifier = &pNode->adcmux.B_params;
832	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
833	pAmplifier = &pNode->pcbeep.B_params;
834	else if (codecIsPortNode(pState, CODEC_NID(cmd)))
835	pAmplifier = &pNode->port.B_params;
836	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
837	pAmplifier = &pNode->adc.B_params;
838	Assert(pAmplifier);
839	if (pAmplifier)
840	{
841	fIsOut = CODEC_SET_AMP_IS_OUT_DIRECTION(cmd);
842	fIsIn = CODEC_SET_AMP_IS_IN_DIRECTION(cmd);
843	fIsRight = CODEC_SET_AMP_IS_RIGHT_SIDE(cmd);
844	fIsLeft = CODEC_SET_AMP_IS_LEFT_SIDE(cmd);
845	u8Index = CODEC_SET_AMP_INDEX(cmd);
846	if ( (!fIsLeft && !fIsRight)
847	\|\| (!fIsOut && !fIsIn))
848	return VINF_SUCCESS;
849	if (fIsIn)
850	{
851	if (fIsLeft)
852	codecSetRegisterU8(&AMPLIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_LEFT, u8Index), cmd, 0);
853	if (fIsRight)
854	codecSetRegisterU8(&AMPLIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_RIGHT, u8Index), cmd, 0);
855	}
856	if (fIsOut)
857	{
858	if (fIsLeft)
859	codecSetRegisterU8(&AMPLIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_LEFT, u8Index), cmd, 0);
860	if (fIsRight)
861	codecSetRegisterU8(&AMPLIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_RIGHT, u8Index), cmd, 0);
862	}
863	if (CODEC_NID(cmd) == pState->u8DacLineOut)
864	codecToAudVolume(pAmplifier, AUD_MIXER_VOLUME);
865	if (CODEC_NID(cmd) == pState->u8AdcVolsLineIn) /* Microphone */
866	codecToAudVolume(pAmplifier, AUD_MIXER_LINE_IN);
867	}
868	return VINF_SUCCESS;
869	}
870
871	static int codecGetParameter(struct CODECState pState, uint32_t cmd, uint64_t pResp)
872	{
873	Assert((CODEC_CAD(cmd) == pState->id));
874	if (CODEC_NID(cmd) >= pState->cTotalNodes)
875	{
876	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
877	return VINF_SUCCESS;
878	}
879	Assert(((cmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F0_PARAM_LENGTH));
880	if ((cmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F0_PARAM_LENGTH)
881	{
882	Log(("HDAcodec: invalid F00 parameter %d\n", (cmd & CODEC_VERB_8BIT_DATA)));
883	return VINF_SUCCESS;
884	}
885	*pResp = 0;
886	*pResp = pState->pNodes[CODEC_NID(cmd)].node.au32F00_param[cmd & CODEC_VERB_8BIT_DATA];
887	return VINF_SUCCESS;
888	}
889
890	/* F01 */
891	static int codecGetConSelectCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
892	{
893	Assert((CODEC_CAD(cmd) == pState->id));
894	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
895	if (CODEC_NID(cmd) >= pState->cTotalNodes)
896	{
897	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
898	return VINF_SUCCESS;
899	}
900	*pResp = 0;
901	if (codecIsAdcMuxNode(pState, CODEC_NID(cmd)))
902	*pResp = pState->pNodes[CODEC_NID(cmd)].adcmux.u32F01_param;
903	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
904	*pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F01_param;
905	else if (codecIsPortNode(pState, CODEC_NID(cmd)))
906	*pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F01_param;
907	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
908	*pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F01_param;
909	else if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
910	*pResp = pState->pNodes[CODEC_NID(cmd)].adcvol.u32F01_param;
911	return VINF_SUCCESS;
912	}
913
914	/* 701 */
915	static int codecSetConSelectCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
916	{
917	uint32_t *pu32Reg = NULL;
918	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
919	if (CODEC_NID(cmd) >= pState->cTotalNodes)
920	{
921	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
922	return VINF_SUCCESS;
923	}
924	*pResp = 0;
925	if (codecIsAdcMuxNode(pState, CODEC_NID(cmd)))
926	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcmux.u32F01_param;
927	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
928	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F01_param;
929	else if (codecIsPortNode(pState, CODEC_NID(cmd)))
930	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F01_param;
931	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
932	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adc.u32F01_param;
933	else if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
934	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcvol.u32F01_param;
935	Assert((pu32Reg));
936	if (pu32Reg)
937	codecSetRegisterU8(pu32Reg, cmd, 0);
938	return VINF_SUCCESS;
939	}
940
941	/* F07 */
942	static int codecGetPinCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
943	{
944	Assert((CODEC_CAD(cmd) == pState->id));
945	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
946	if (CODEC_NID(cmd) >= pState->cTotalNodes)
947	{
948	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
949	return VINF_SUCCESS;
950	}
951	*pResp = 0;
952	if (codecIsPortNode(pState, CODEC_NID(cmd)))
953	*pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F07_param;
954	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
955	*pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F07_param;
956	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
957	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F07_param;
958	else if (codecIsCdNode(pState, CODEC_NID(cmd)))
959	*pResp = pState->pNodes[CODEC_NID(cmd)].cdnode.u32F07_param;
960	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
961	*pResp = pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F07_param;
962	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
963	*pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F07_param;
964	else
965	AssertMsgFailed(("Unsupported"));
966	return VINF_SUCCESS;
967	}
968
969	/* 707 */
970	static int codecSetPinCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
971	{
972	Assert((CODEC_CAD(cmd) == pState->id));
973	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
974	if (CODEC_NID(cmd) >= pState->cTotalNodes)
975	{
976	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
977	return VINF_SUCCESS;
978	}
979	*pResp = 0;
980	uint32_t *pu32Reg = NULL;
981	if (codecIsPortNode(pState, CODEC_NID(cmd)))
982	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F07_param;
983	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
984	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F07_param;
985	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
986	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F07_param;
987	else if (codecIsCdNode(pState, CODEC_NID(cmd)))
988	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].cdnode.u32F07_param;
989	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
990	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F07_param;
991	else if ( codecIsReservedNode(pState, CODEC_NID(cmd))
992	&& CODEC_NID(cmd) == 0x1b)
993	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F07_param;
994	Assert((pu32Reg));
995	if (pu32Reg)
996	codecSetRegisterU8(pu32Reg, cmd, 0);
997	return VINF_SUCCESS;
998	}
999
1000	/* F08 */
1001	static int codecGetUnsolicitedEnabled(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1002	{
1003	Assert((CODEC_CAD(cmd) == pState->id));
1004	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1005	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1006	{
1007	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1008	return VINF_SUCCESS;
1009	}
1010	*pResp = 0;
1011	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1012	*pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F08_param;
1013	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1014	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param;
1015	else if ((cmd) == 1 /* AFG */)
1016	*pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F08_param;
1017	else if (codecIsVolKnobNode(pState, CODEC_NID(cmd)))
1018	*pResp = pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F08_param;
1019	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
1020	*pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F08_param;
1021	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1022	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param;
1023	else
1024	AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd)));
1025	return VINF_SUCCESS;
1026	}
1027
1028	/* 708 */
1029	static int codecSetUnsolicitedEnabled(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1030	{
1031	Assert((CODEC_CAD(cmd) == pState->id));
1032	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1033	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1034	{
1035	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1036	return VINF_SUCCESS;
1037	}
1038	*pResp = 0;
1039	uint32_t *pu32Reg = NULL;
1040	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1041	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F08_param;
1042	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1043	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param;
1044	else if (CODEC_NID(cmd) == 1 /* AFG */)
1045	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F08_param;
1046	else if (codecIsVolKnobNode(pState, CODEC_NID(cmd)))
1047	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F08_param;
1048	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1049	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param;
1050	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
1051	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F08_param;
1052	else
1053	AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd)));
1054	Assert(pu32Reg);
1055	if(pu32Reg)
1056	codecSetRegisterU8(pu32Reg, cmd, 0);
1057	return VINF_SUCCESS;
1058	}
1059
1060	/* F09 */
1061	static int codecGetPinSense(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1062	{
1063	Assert((CODEC_CAD(cmd) == pState->id));
1064	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1065	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1066	{
1067	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1068	return VINF_SUCCESS;
1069	}
1070	*pResp = 0;
1071	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1072	*pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F09_param;
1073	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1074	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F09_param;
1075	else
1076	AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd)));
1077	return VINF_SUCCESS;
1078	}
1079
1080	/* 709 */
1081	static int codecSetPinSense(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1082	{
1083	Assert((CODEC_CAD(cmd) == pState->id));
1084	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1085	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1086	{
1087	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1088	return VINF_SUCCESS;
1089	}
1090	*pResp = 0;
1091	uint32_t *pu32Reg = NULL;
1092	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1093	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F09_param;
1094	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1095	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F09_param;
1096	Assert(pu32Reg);
1097	if(pu32Reg)
1098	codecSetRegisterU8(pu32Reg, cmd, 0);
1099	return VINF_SUCCESS;
1100	}
1101
1102	static int codecGetConnectionListEntry(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1103	{
1104	Assert((CODEC_CAD(cmd) == pState->id));
1105	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1106	*pResp = 0;
1107	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1108	{
1109	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1110	return VINF_SUCCESS;
1111	}
1112	Assert((cmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F02_PARAM_LENGTH);
1113	if ((cmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F02_PARAM_LENGTH)
1114	{
1115	Log(("HDAcodec: access to invalid F02 index %d\n", (cmd & CODEC_VERB_8BIT_DATA)));
1116	return VINF_SUCCESS;
1117	}
1118	*pResp = pState->pNodes[CODEC_NID(cmd)].node.au32F02_param[cmd & CODEC_VERB_8BIT_DATA];
1119	return VINF_SUCCESS;
1120	}
1121	/* F03 */
1122	static int codecGetProcessingState(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1123	{
1124	Assert((CODEC_CAD(cmd) == pState->id));
1125	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1126	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1127	{
1128	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1129	return VINF_SUCCESS;
1130	}
1131	*pResp = 0;
1132	if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1133	*pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F03_param;
1134	return VINF_SUCCESS;
1135	}
1136
1137	/* 703 */
1138	static int codecSetProcessingState(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1139	{
1140	Assert((CODEC_CAD(cmd) == pState->id));
1141	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1142	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1143	{
1144	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1145	return VINF_SUCCESS;
1146	}
1147	*pResp = 0;
1148	if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1149	{
1150	codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].adc.u32F03_param, cmd, 0);
1151	}
1152	return VINF_SUCCESS;
1153	}
1154
1155	/* F0D */
1156	static int codecGetDigitalConverter(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1157	{
1158	Assert((CODEC_CAD(cmd) == pState->id));
1159	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1160	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1161	{
1162	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1163	return VINF_SUCCESS;
1164	}
1165	*pResp = 0;
1166	if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1167	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F0d_param;
1168	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1169	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F0d_param;
1170	return VINF_SUCCESS;
1171	}
1172
1173	static int codecSetDigitalConverter(struct CODECState pState, uint32_t cmd, uint8_t u8Offset, uint64_t pResp)
1174	{
1175	Assert((CODEC_CAD(cmd) == pState->id));
1176	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1177	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1178	{
1179	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1180	return VINF_SUCCESS;
1181	}
1182	*pResp = 0;
1183	if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1184	codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].spdifout.u32F0d_param, cmd, u8Offset);
1185	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1186	codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].spdifin.u32F0d_param, cmd, u8Offset);
1187	return VINF_SUCCESS;
1188	}
1189
1190	/* 70D */
1191	static int codecSetDigitalConverter1(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1192	{
1193	return codecSetDigitalConverter(pState, cmd, 0, pResp);
1194	}
1195
1196	/* 70E */
1197	static int codecSetDigitalConverter2(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1198	{
1199	return codecSetDigitalConverter(pState, cmd, 8, pResp);
1200	}
1201
1202	/* F20 */
1203	static int codecGetSubId(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1204	{
1205	Assert((CODEC_CAD(cmd) == pState->id));
1206	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1207	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1208	{
1209	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1210	return VINF_SUCCESS;
1211	}
1212	*pResp = 0;
1213	if (CODEC_NID(cmd) == 1 /* AFG */)
1214	{
1215	*pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F20_param;
1216	}
1217	return VINF_SUCCESS;
1218	}
1219
1220	static int codecSetSubIdX(struct CODECState *pState, uint32_t cmd, uint8_t u8Offset)
1221	{
1222	Assert((CODEC_CAD(cmd) == pState->id));
1223	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1224	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1225	{
1226	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1227	return VINF_SUCCESS;
1228	}
1229	uint32_t *pu32Reg = NULL;
1230	if (CODEC_NID(cmd) == 0x1 /* AFG */)
1231	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F20_param;
1232	Assert((pu32Reg));
1233	if (pu32Reg)
1234	codecSetRegisterU8(pu32Reg, cmd, u8Offset);
1235	return VINF_SUCCESS;
1236	}
1237	/* 720 */
1238	static int codecSetSubId0 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1239	{
1240	*pResp = 0;
1241	return codecSetSubIdX(pState, cmd, 0);
1242	}
1243
1244	/* 721 */
1245	static int codecSetSubId1 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1246	{
1247	*pResp = 0;
1248	return codecSetSubIdX(pState, cmd, 8);
1249	}
1250	/* 722 */
1251	static int codecSetSubId2 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1252	{
1253	*pResp = 0;
1254	return codecSetSubIdX(pState, cmd, 16);
1255	}
1256	/* 723 */
1257	static int codecSetSubId3 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1258	{
1259	*pResp = 0;
1260	return codecSetSubIdX(pState, cmd, 24);
1261	}
1262
1263	static int codecReset(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1264	{
1265	Assert((CODEC_CAD(cmd) == pState->id));
1266	Assert(CODEC_NID(cmd) == 1 /* AFG */);
1267	if( CODEC_NID(cmd) == 1 /* AFG */
1268	&& pState->pfnCodecNodeReset)
1269	{
1270	uint8_t i;
1271	Log(("HDAcodec: enters reset\n"));
1272	Assert(pState->pfnCodecNodeReset);
1273	for (i = 0; i < pState->cTotalNodes; ++i)
1274	{
1275	pState->pfnCodecNodeReset(pState, i, &pState->pNodes[i]);
1276	}
1277	pState->fInReset = false;
1278	Log(("HDAcodec: exits reset\n"));
1279	}
1280	*pResp = 0;
1281	return VINF_SUCCESS;
1282	}
1283
1284	/* F05 */
1285	static int codecGetPowerState(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1286	{
1287	Assert((CODEC_CAD(cmd) == pState->id));
1288	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1289	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1290	{
1291	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1292	return VINF_SUCCESS;
1293	}
1294	*pResp = 0;
1295	if (CODEC_NID(cmd) == 1 /* AFG */)
1296	*pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F05_param;
1297	else if (codecIsDacNode(pState, CODEC_NID(cmd)))
1298	*pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F05_param;
1299	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1300	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F05_param;
1301	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1302	*pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F05_param;
1303	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1304	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F05_param;
1305	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1306	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F05_param;
1307	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1308	*pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F05_param;
1309	return VINF_SUCCESS;
1310	}
1311
1312	/* 705 */
1313
1314	static inline void codecPropogatePowerState(uint32_t *pu32F05_param)
1315	{
1316	Assert(pu32F05_param);
1317	if (!pu32F05_param)
1318	return;
1319	bool fReset = CODEC_F05_IS_RESET(*pu32F05_param);
1320	bool fStopOk = CODEC_F05_IS_STOPOK(*pu32F05_param);
1321	uint8_t u8SetPowerState = CODEC_F05_SET(*pu32F05_param);
1322	*pu32F05_param = CODEC_MAKE_F05(fReset, fStopOk, 0, u8SetPowerState, u8SetPowerState);
1323	}
1324
1325	static int codecSetPowerState(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1326	{
1327	Assert((CODEC_CAD(cmd) == pState->id));
1328	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1329	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1330	{
1331	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1332	return VINF_SUCCESS;
1333	}
1334	uint32_t *pu32Reg = NULL;
1335	*pResp = 0;
1336	if (CODEC_NID(cmd) == 1 /* AFG */)
1337	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F05_param;
1338	else if (codecIsDacNode(pState, CODEC_NID(cmd)))
1339	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].dac.u32F05_param;
1340	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1341	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F05_param;
1342	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1343	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adc.u32F05_param;
1344	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1345	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].spdifout.u32F05_param;
1346	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1347	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].spdifin.u32F05_param;
1348	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1349	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F05_param;
1350	Assert((pu32Reg));
1351	if (!pu32Reg)
1352	return VINF_SUCCESS;
1353
1354	bool fReset = CODEC_F05_IS_RESET(*pu32Reg);
1355	bool fStopOk = CODEC_F05_IS_STOPOK(*pu32Reg);
1356
1357	if (CODEC_NID(cmd) != 1 /* AFG */)
1358	{
1359	/*
1360	* We shouldn't propogate actual power state, which actual for AFG
1361	*/
1362	*pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0,
1363	CODEC_F05_ACT(pState->pNodes[1].afg.u32F05_param),
1364	CODEC_F05_SET(cmd));
1365	}
1366
1367	/* Propagate next power state only if AFG is on or verb modifies AFG power state */
1368	if ( CODEC_NID(cmd) == 1 /* AFG */
1369	\|\| !CODEC_F05_ACT(pState->pNodes[1].afg.u32F05_param))
1370	{
1371	*pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, CODEC_F05_SET(cmd), CODEC_F05_SET(cmd));
1372	if ( CODEC_NID(cmd) == 1 /* AFG */
1373	&& (CODEC_F05_SET(cmd)) == CODEC_F05_D0)
1374	{
1375	/* now we're powered on AFG and may propogate power states on nodes */
1376	const uint8_t *pu8NodeIndex = &pState->au8Dacs[0];
1377	while (*(++pu8NodeIndex))
1378	codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].dac.u32F05_param);
1379
1380	pu8NodeIndex = &pState->au8Adcs[0];
1381	while (*(++pu8NodeIndex))
1382	codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].adc.u32F05_param);
1383
1384	pu8NodeIndex = &pState->au8DigInPins[0];
1385	while (*(++pu8NodeIndex))
1386	codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].digin.u32F05_param);
1387	}
1388	}
1389	return VINF_SUCCESS;
1390	}
1391
1392	static int codecGetStreamId(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1393	{
1394	Assert((CODEC_CAD(cmd) == pState->id));
1395	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1396	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1397	{
1398	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1399	return VINF_SUCCESS;
1400	}
1401	*pResp = 0;
1402	if (codecIsDacNode(pState, CODEC_NID(cmd)))
1403	*pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F06_param;
1404	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1405	*pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F06_param;
1406	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1407	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F06_param;
1408	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1409	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F06_param;
1410	else if (CODEC_NID(cmd) == 0x1A)
1411	*pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F06_param;
1412	return VINF_SUCCESS;
1413	}
1414	static int codecSetStreamId(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1415	{
1416	Assert((CODEC_CAD(cmd) == pState->id));
1417	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1418	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1419	{
1420	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1421	return VINF_SUCCESS;
1422	}
1423	*pResp = 0;
1424	uint32_t *pu32addr = NULL;
1425	*pResp = 0;
1426	if (codecIsDacNode(pState, CODEC_NID(cmd)))
1427	pu32addr = &pState->pNodes[CODEC_NID(cmd)].dac.u32F06_param;
1428	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1429	pu32addr = &pState->pNodes[CODEC_NID(cmd)].adc.u32F06_param;
1430	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1431	pu32addr = &pState->pNodes[CODEC_NID(cmd)].spdifout.u32F06_param;
1432	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1433	pu32addr = &pState->pNodes[CODEC_NID(cmd)].spdifin.u32F06_param;
1434	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1435	pu32addr = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F06_param;
1436	Assert((pu32addr));
1437	if (pu32addr)
1438	codecSetRegisterU8(pu32addr, cmd, 0);
1439	return VINF_SUCCESS;
1440	}
1441
1442	static int codecGetConverterFormat(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1443	{
1444	Assert((CODEC_CAD(cmd) == pState->id));
1445	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1446	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1447	{
1448	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1449	return VINF_SUCCESS;
1450	}
1451	*pResp = 0;
1452	if (codecIsDacNode(pState, CODEC_NID(cmd)))
1453	*pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32A_param;
1454	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1455	*pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32A_param;
1456	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1457	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32A_param;
1458	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1459	*pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32A_param;
1460	return VINF_SUCCESS;
1461	}
1462
1463	static int codecSetConverterFormat(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1464	{
1465	Assert((CODEC_CAD(cmd) == pState->id));
1466	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1467	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1468	{
1469	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1470	return VINF_SUCCESS;
1471	}
1472	*pResp = 0;
1473	if (codecIsDacNode(pState, CODEC_NID(cmd)))
1474	codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].dac.u32A_param, cmd, 0);
1475	else if (codecIsAdcNode(pState, CODEC_NID(cmd)))
1476	codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].adc.u32A_param, cmd, 0);
1477	else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd)))
1478	codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].spdifout.u32A_param, cmd, 0);
1479	else if (codecIsSpdifInNode(pState, CODEC_NID(cmd)))
1480	codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].spdifin.u32A_param, cmd, 0);
1481	return VINF_SUCCESS;
1482	}
1483
1484	/* F0C */
1485	static int codecGetEAPD_BTLEnabled(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1486	{
1487	Assert((CODEC_CAD(cmd) == pState->id));
1488	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1489	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1490	{
1491	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1492	return VINF_SUCCESS;
1493	}
1494	*pResp = 0;
1495	if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
1496	*pResp = pState->pNodes[CODEC_NID(cmd)].adcvol.u32F0c_param;
1497	else if (codecIsDacNode(pState, CODEC_NID(cmd)))
1498	*pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F0c_param;
1499	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1500	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F0c_param;
1501	return VINF_SUCCESS;
1502	}
1503
1504	/* 70C */
1505	static int codecSetEAPD_BTLEnabled(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1506	{
1507	Assert((CODEC_CAD(cmd) == pState->id));
1508	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1509	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1510	{
1511	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1512	return VINF_SUCCESS;
1513	}
1514	*pResp = 0;
1515	uint32_t *pu32Reg = NULL;
1516	if (codecIsAdcVolNode(pState, CODEC_NID(cmd)))
1517	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcvol.u32F0c_param;
1518	else if (codecIsDacNode(pState, CODEC_NID(cmd)))
1519	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].dac.u32F0c_param;
1520	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1521	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F0c_param;
1522	*pResp = 0;
1523	Assert((pu32Reg));
1524	if (pu32Reg)
1525	codecSetRegisterU8(pu32Reg, cmd, 0);
1526	return VINF_SUCCESS;
1527	}
1528
1529	/* F0F */
1530	static int codecGetVolumeKnobCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1531	{
1532	Assert((CODEC_CAD(cmd) == pState->id));
1533	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1534	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1535	{
1536	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1537	return VINF_SUCCESS;
1538	}
1539	*pResp = 0;
1540	if (codecIsVolKnobNode(pState, CODEC_NID(cmd)))
1541	*pResp = pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F0f_param;
1542	return VINF_SUCCESS;
1543	}
1544
1545	/* 70F */
1546	static int codecSetVolumeKnobCtrl(struct CODECState pState, uint32_t cmd, uint64_t pResp)
1547	{
1548	Assert((CODEC_CAD(cmd) == pState->id));
1549	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1550	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1551	{
1552	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1553	return VINF_SUCCESS;
1554	}
1555	uint32_t *pu32Reg = NULL;
1556	*pResp = 0;
1557	if (codecIsVolKnobNode(pState, CODEC_NID(cmd)))
1558	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F0f_param;
1559	Assert((pu32Reg));
1560	if (pu32Reg)
1561	codecSetRegisterU8(pu32Reg, cmd, 0);
1562	return VINF_SUCCESS;
1563	}
1564
1565	/* F17 */
1566	static int codecGetGPIOUnsolisted (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1567	{
1568	Assert((CODEC_CAD(cmd) == pState->id));
1569	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1570	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1571	{
1572	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1573	return VINF_SUCCESS;
1574	}
1575	*pResp = 0;
1576	/* note: this is true for ALC885 */
1577	if (CODEC_NID(cmd) == 0x1 /* AFG */)
1578	*pResp = pState->pNodes[1].afg.u32F17_param;
1579	return VINF_SUCCESS;
1580	}
1581
1582	/* 717 */
1583	static int codecSetGPIOUnsolisted (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1584	{
1585	Assert((CODEC_CAD(cmd) == pState->id));
1586	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1587	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1588	{
1589	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1590	return VINF_SUCCESS;
1591	}
1592	uint32_t *pu32Reg = NULL;
1593	*pResp = 0;
1594	if (CODEC_NID(cmd) == 1 /* AFG */)
1595	pu32Reg = &pState->pNodes[1].afg.u32F17_param;
1596	Assert((pu32Reg));
1597	if (pu32Reg)
1598	codecSetRegisterU8(pu32Reg, cmd, 0);
1599	return VINF_SUCCESS;
1600	}
1601
1602	/* F1C */
1603	static int codecGetConfig (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1604	{
1605	Assert((CODEC_CAD(cmd) == pState->id));
1606	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1607	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1608	{
1609	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1610	return VINF_SUCCESS;
1611	}
1612	*pResp = 0;
1613	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1614	*pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F1c_param;
1615	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
1616	*pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F1c_param;
1617	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1618	*pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F1c_param;
1619	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
1620	*pResp = pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F1c_param;
1621	else if (codecIsCdNode(pState, CODEC_NID(cmd)))
1622	*pResp = pState->pNodes[CODEC_NID(cmd)].cdnode.u32F1c_param;
1623	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1624	*pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F1c_param;
1625	return VINF_SUCCESS;
1626	}
1627	static int codecSetConfigX(struct CODECState *pState, uint32_t cmd, uint8_t u8Offset)
1628	{
1629	Assert((CODEC_CAD(cmd) == pState->id));
1630	Assert((CODEC_NID(cmd) < pState->cTotalNodes));
1631	if (CODEC_NID(cmd) >= pState->cTotalNodes)
1632	{
1633	Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd)));
1634	return VINF_SUCCESS;
1635	}
1636	uint32_t *pu32Reg = NULL;
1637	if (codecIsPortNode(pState, CODEC_NID(cmd)))
1638	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F1c_param;
1639	else if (codecIsDigInPinNode(pState, CODEC_NID(cmd)))
1640	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F1c_param;
1641	else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd)))
1642	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F1c_param;
1643	else if (codecIsCdNode(pState, CODEC_NID(cmd)))
1644	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].cdnode.u32F1c_param;
1645	else if (codecIsPcbeepNode(pState, CODEC_NID(cmd)))
1646	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F1c_param;
1647	else if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1648	pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F1c_param;
1649	Assert((pu32Reg));
1650	if (pu32Reg)
1651	codecSetRegisterU8(pu32Reg, cmd, u8Offset);
1652	return VINF_SUCCESS;
1653	}
1654	/* 71C */
1655	static int codecSetConfig0 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1656	{
1657	*pResp = 0;
1658	return codecSetConfigX(pState, cmd, 0);
1659	}
1660	/* 71D */
1661	static int codecSetConfig1 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1662	{
1663	*pResp = 0;
1664	return codecSetConfigX(pState, cmd, 8);
1665	}
1666	/* 71E */
1667	static int codecSetConfig2 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1668	{
1669	*pResp = 0;
1670	return codecSetConfigX(pState, cmd, 16);
1671	}
1672	/* 71E */
1673	static int codecSetConfig3 (struct CODECState pState, uint32_t cmd, uint64_t pResp)
1674	{
1675	*pResp = 0;
1676	return codecSetConfigX(pState, cmd, 24);
1677	}
1678
1679
1680	static int codecToAudVolume(AMPLIFIER *pAmp, audmixerctl_t mt)
1681	{
1682	uint32_t dir = AMPLIFIER_OUT;
1683	switch (mt)
1684	{
1685	case AUD_MIXER_VOLUME:
1686	case AUD_MIXER_PCM:
1687	dir = AMPLIFIER_OUT;
1688	break;
1689	case AUD_MIXER_LINE_IN:
1690	dir = AMPLIFIER_IN;
1691	break;
1692	}
1693	int mute = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_LEFT, 0) & RT_BIT(7);
1694	mute \|= AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_RIGHT, 0) & RT_BIT(7);
1695	mute >>=7;
1696	mute &= 0x1;
1697	uint8_t lVol = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_LEFT, 0) & 0x7f;
1698	uint8_t rVol = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_RIGHT, 0) & 0x7f;
1699	AUD_set_volume(mt, &mute, &lVol, &rVol);
1700	return VINF_SUCCESS;
1701	}
1702
1703	static CODECVERB CODECVERBS[] =
1704	{
1705	/* verb \| verb mask \| callback */
1706	/* ----------- -------------------- ----------------------- */
1707	{0x000F0000, CODEC_VERB_8BIT_CMD , codecGetParameter },
1708	{0x000F0100, CODEC_VERB_8BIT_CMD , codecGetConSelectCtrl },
1709	{0x00070100, CODEC_VERB_8BIT_CMD , codecSetConSelectCtrl },
1710	{0x000F0600, CODEC_VERB_8BIT_CMD , codecGetStreamId },
1711	{0x00070600, CODEC_VERB_8BIT_CMD , codecSetStreamId },
1712	{0x000F0700, CODEC_VERB_8BIT_CMD , codecGetPinCtrl },
1713	{0x00070700, CODEC_VERB_8BIT_CMD , codecSetPinCtrl },
1714	{0x000F0800, CODEC_VERB_8BIT_CMD , codecGetUnsolicitedEnabled },
1715	{0x00070800, CODEC_VERB_8BIT_CMD , codecSetUnsolicitedEnabled },
1716	{0x000F0900, CODEC_VERB_8BIT_CMD , codecGetPinSense },
1717	{0x00070900, CODEC_VERB_8BIT_CMD , codecSetPinSense },
1718	{0x000F0200, CODEC_VERB_8BIT_CMD , codecGetConnectionListEntry },
1719	{0x000F0300, CODEC_VERB_8BIT_CMD , codecGetProcessingState },
1720	{0x00070300, CODEC_VERB_8BIT_CMD , codecSetProcessingState },
1721	{0x000F0D00, CODEC_VERB_8BIT_CMD , codecGetDigitalConverter },
1722	{0x00070D00, CODEC_VERB_8BIT_CMD , codecSetDigitalConverter1 },
1723	{0x00070E00, CODEC_VERB_8BIT_CMD , codecSetDigitalConverter2 },
1724	{0x000F2000, CODEC_VERB_8BIT_CMD , codecGetSubId },
1725	{0x00072000, CODEC_VERB_8BIT_CMD , codecSetSubId0 },
1726	{0x00072100, CODEC_VERB_8BIT_CMD , codecSetSubId1 },
1727	{0x00072200, CODEC_VERB_8BIT_CMD , codecSetSubId2 },
1728	{0x00072300, CODEC_VERB_8BIT_CMD , codecSetSubId3 },
1729	{0x0007FF00, CODEC_VERB_8BIT_CMD , codecReset },
1730	{0x000F0500, CODEC_VERB_8BIT_CMD , codecGetPowerState },
1731	{0x00070500, CODEC_VERB_8BIT_CMD , codecSetPowerState },
1732	{0x000F0C00, CODEC_VERB_8BIT_CMD , codecGetEAPD_BTLEnabled },
1733	{0x00070C00, CODEC_VERB_8BIT_CMD , codecSetEAPD_BTLEnabled },
1734	{0x000F0F00, CODEC_VERB_8BIT_CMD , codecGetVolumeKnobCtrl },
1735	{0x00070F00, CODEC_VERB_8BIT_CMD , codecSetVolumeKnobCtrl },
1736	{0x000F1700, CODEC_VERB_8BIT_CMD , codecGetGPIOUnsolisted },
1737	{0x00071700, CODEC_VERB_8BIT_CMD , codecSetGPIOUnsolisted },
1738	{0x000F1C00, CODEC_VERB_8BIT_CMD , codecGetConfig },
1739	{0x00071C00, CODEC_VERB_8BIT_CMD , codecSetConfig0 },
1740	{0x00071D00, CODEC_VERB_8BIT_CMD , codecSetConfig1 },
1741	{0x00071E00, CODEC_VERB_8BIT_CMD , codecSetConfig2 },
1742	{0x00071F00, CODEC_VERB_8BIT_CMD , codecSetConfig3 },
1743	{0x000A0000, CODEC_VERB_16BIT_CMD, codecGetConverterFormat },
1744	{0x00020000, CODEC_VERB_16BIT_CMD, codecSetConverterFormat },
1745	{0x000B0000, CODEC_VERB_16BIT_CMD, codecGetAmplifier },
1746	{0x00030000, CODEC_VERB_16BIT_CMD, codecSetAmplifier },
1747	};
1748
1749	static int codecLookup(CODECState *pState, uint32_t cmd, PPFNCODECVERBPROCESSOR pfn)
1750	{
1751	int rc = VINF_SUCCESS;
1752	Assert(CODEC_CAD(cmd) == pState->id);
1753	if (codecIsReservedNode(pState, CODEC_NID(cmd)))
1754	{
1755	Log(("HDAcodec: cmd %x was addressed to reserved node\n", cmd));
1756	}
1757	if ( CODEC_VERBDATA(cmd) == 0
1758	\|\| CODEC_NID(cmd) >= pState->cTotalNodes)
1759	{
1760	*pfn = codecUnimplemented;
1761	//** @todo r=michaln: There needs to be a counter to avoid log flooding (see e.g. DevRTC.cpp)
1762	Log(("HDAcodec: cmd %x was ignored\n", cmd));
1763	return VINF_SUCCESS;
1764	}
1765	for (int i = 0; i < pState->cVerbs; ++i)
1766	{
1767	if ((CODEC_VERBDATA(cmd) & pState->pVerbs[i].mask) == pState->pVerbs[i].verb)
1768	{
1769	*pfn = pState->pVerbs[i].pfn;
1770	return VINF_SUCCESS;
1771	}
1772	}
1773	*pfn = codecUnimplemented;
1774	Log(("HDAcodec: callback for %x wasn't found\n", CODEC_VERBDATA(cmd)));
1775	return rc;
1776	}
1777
1778	static void pi_callback (void *opaque, int avail)
1779	{
1780	CODECState pState = (CODECState )opaque;
1781	pState->pfnTransfer(pState, PI_INDEX, avail);
1782	}
1783
1784	static void po_callback (void *opaque, int avail)
1785	{
1786	CODECState pState = (CODECState )opaque;
1787	pState->pfnTransfer(pState, PO_INDEX, avail);
1788	}
1789
1790	/**
1791	*
1792	* routines open one of the voices (IN, OUT) with corresponding parameters.
1793	* this routine could be called from HDA on setting/resseting sound format.
1794	*
1795	* @todo: probably passed settings should be verified (if AFG's declared proposed format) before enabling.
1796	*/
1797	int codecOpenVoice(CODECState pState, ENMSOUNDSOURCE enmSoundSource, audsettings_t pAudioSettings)
1798	{
1799	int rc = 0;
1800	Assert((pState && pAudioSettings));
1801	if ( !pState
1802	\|\| !pAudioSettings)
1803	return -1;
1804	switch (enmSoundSource)
1805	{
1806	case PI_INDEX:
1807	pState->SwVoiceIn = AUD_open_in(&pState->card, pState->SwVoiceIn, "hda.in", pState, pi_callback, pAudioSettings);
1808	rc = pState->SwVoiceIn ? 0 : 1;
1809	break;
1810	case PO_INDEX:
1811	pState->SwVoiceOut = AUD_open_out(&pState->card, pState->SwVoiceOut, "hda.out", pState, po_callback, pAudioSettings);
1812	rc = pState->SwVoiceOut ? 0 : 1;
1813	break;
1814	default:
1815	return -1;
1816	}
1817	if (!rc)
1818	LogRel(("HDAcodec: can't open %s fmt(freq: %d)\n",
1819	enmSoundSource == PI_INDEX? "in" : "out",
1820	pAudioSettings->freq));
1821	return rc;
1822	}
1823
1824	int codecConstruct(PPDMDEVINS pDevIns, CODECState *pState, PCFGMNODE pCfgHandle)
1825	{
1826	audsettings_t as;
1827	int rc;
1828	pState->pVerbs = (CODECVERB *)&CODECVERBS;
1829	pState->cVerbs = sizeof(CODECVERBS)/sizeof(CODECVERB);
1830	pState->pfnLookup = codecLookup;
1831	rc = stac9220Construct(pState);
1832	AssertRC(rc);
1833	/* common root node initializers */
1834	pState->pNodes[0].node.au32F00_param[0] = CODEC_MAKE_F00_00(pState->u16VendorId, pState->u16DeviceId);
1835	pState->pNodes[0].node.au32F00_param[4] = CODEC_MAKE_F00_04(0x1, 0x1);
1836	/* common AFG node initializers */
1837	pState->pNodes[1].node.au32F00_param[4] = CODEC_MAKE_F00_04(0x2, pState->cTotalNodes - 2);
1838	pState->pNodes[1].node.au32F00_param[5] = CODEC_MAKE_F00_05(1, CODEC_F00_05_AFG);
1839	pState->pNodes[1].afg.u32F20_param = CODEC_MAKE_F20(pState->u16VendorId, pState->u8BSKU, pState->u8AssemblyId);
1840
1841	//** @todo r=michaln: Was this meant to be 'HDA' or something like that? (AC'97 was on ICH0)
1842	AUD_register_card ("ICH0", &pState->card);
1843
1844	/* 44.1 kHz */
1845	as.freq = 44100;
1846	as.nchannels = 2;
1847	as.fmt = AUD_FMT_S16;
1848	as.endianness = 0;
1849
1850	pState->pNodes[1].node.au32F00_param[0xA] = CODEC_F00_0A_16_BIT;
1851	codecOpenVoice(pState, PI_INDEX, &as);
1852	codecOpenVoice(pState, PO_INDEX, &as);
1853	pState->pNodes[1].node.au32F00_param[0xA] \|= CODEC_F00_0A_44_1KHZ;
1854
1855	uint8_t i;
1856	Assert(pState->pNodes);
1857	Assert(pState->pfnCodecNodeReset);
1858	for (i = 0; i < pState->cTotalNodes; ++i)
1859	{
1860	pState->pfnCodecNodeReset(pState, i, &pState->pNodes[i]);
1861	}
1862
1863	codecToAudVolume(&pState->pNodes[pState->u8DacLineOut].dac.B_params, AUD_MIXER_VOLUME);
1864	codecToAudVolume(&pState->pNodes[pState->u8AdcVolsLineIn].adcvol.B_params, AUD_MIXER_LINE_IN);
1865
1866	/* If no host voices were created, then fallback to nul audio. */
1867	if (!AUD_is_host_voice_in_ok(pState->SwVoiceIn))
1868	LogRel (("HDA: WARNING: Unable to open PCM IN!\n"));
1869	if (!AUD_is_host_voice_out_ok(pState->SwVoiceOut))
1870	LogRel (("HDA: WARNING: Unable to open PCM OUT!\n"));
1871
1872	if ( !AUD_is_host_voice_in_ok(pState->SwVoiceIn)
1873	&& !AUD_is_host_voice_out_ok(pState->SwVoiceOut))
1874	{
1875	/* Was not able initialize any voice. Select the NULL audio driver instead */
1876	AUD_close_in (&pState->card, pState->SwVoiceIn);
1877	AUD_close_out (&pState->card, pState->SwVoiceOut);
1878	pState->SwVoiceOut = NULL;
1879	pState->SwVoiceIn = NULL;
1880	AUD_init_null ();
1881
1882	PDMDevHlpVMSetRuntimeError (pDevIns, 0 /fFlags/, "HostAudioNotResponding",
1883	N_ ("No audio devices could be opened. Selecting the NULL audio backend "
1884	"with the consequence that no sound is audible"));
1885	}
1886	else if ( !AUD_is_host_voice_in_ok(pState->SwVoiceIn)
1887	\|\| !AUD_is_host_voice_out_ok(pState->SwVoiceOut))
1888	{
1889	char szMissingVoices[128];
1890	size_t len = 0;
1891	if (!AUD_is_host_voice_in_ok(pState->SwVoiceIn))
1892	len = RTStrPrintf (szMissingVoices, sizeof(szMissingVoices), "PCM_in");
1893	if (!AUD_is_host_voice_out_ok(pState->SwVoiceOut))
1894	len += RTStrPrintf (szMissingVoices + len, sizeof(szMissingVoices) - len, len ? ", PCM_out" : "PCM_out");
1895
1896	PDMDevHlpVMSetRuntimeError (pDevIns, 0 /fFlags/, "HostAudioNotResponding",
1897	N_ ("Some audio devices (%s) could not be opened. Guest applications generating audio "
1898	"output or depending on audio input may hang. Make sure your host audio device "
1899	"is working properly. Check the logfile for error messages of the audio "
1900	"subsystem"), szMissingVoices);
1901	}
1902
1903	return VINF_SUCCESS;
1904	}
1905
1906	int codecDestruct(CODECState *pCodecState)
1907	{
1908	RTMemFree(pCodecState->pNodes);
1909	return VINF_SUCCESS;
1910	}
1911
1912	int codecSaveState(CODECState *pCodecState, PSSMHANDLE pSSM)
1913	{
1914	AssertLogRelMsgReturn(pCodecState->cTotalNodes == 0x1c, ("cTotalNodes=%#x, should be 0x1c", pCodecState->cTotalNodes),
1915	VERR_INTERNAL_ERROR);
1916	SSMR3PutU32(pSSM, pCodecState->cTotalNodes);
1917	for (unsigned idxNode = 0; idxNode < pCodecState->cTotalNodes; ++idxNode)
1918	SSMR3PutStructEx(pSSM, &pCodecState->pNodes[idxNode].SavedState, sizeof(pCodecState->pNodes[idxNode].SavedState),
1919	0 /fFlags/, g_aCodecNodeFields, NULL /pvUser/);
1920	return VINF_SUCCESS;
1921	}
1922
1923
1924	int codecLoadState(CODECState *pCodecState, PSSMHANDLE pSSM, uint32_t uVersion)
1925	{
1926	PCSSMFIELD pFields;
1927	uint32_t fFlags;
1928	switch (uVersion)
1929	{
1930	case HDA_SSM_VERSION_1:
1931	AssertReturn(pCodecState->cTotalNodes == 0x1c, VERR_INTERNAL_ERROR);
1932	pFields = g_aCodecNodeFieldsV1;
1933	fFlags = SSMSTRUCT_FLAGS_MEM_BAND_AID_RELAXED;
1934	break;
1935
1936	case HDA_SSM_VERSION_2:
1937	case HDA_SSM_VERSION_3:
1938	AssertReturn(pCodecState->cTotalNodes == 0x1c, VERR_INTERNAL_ERROR);
1939	pFields = g_aCodecNodeFields;
1940	fFlags = SSMSTRUCT_FLAGS_MEM_BAND_AID_RELAXED;
1941	break;
1942
1943	case HDA_SSM_VERSION:
1944	{
1945	uint32_t cNodes;
1946	int rc2 = SSMR3GetU32(pSSM, &cNodes);
1947	AssertRCReturn(rc2, rc2);
1948	if (cNodes != 0x1c)
1949	return VERR_SSM_DATA_UNIT_FORMAT_CHANGED;
1950	AssertReturn(pCodecState->cTotalNodes == 0x1c, VERR_INTERNAL_ERROR);
1951
1952	pFields = g_aCodecNodeFields;
1953	fFlags = 0;
1954	break;
1955	}
1956
1957	default:
1958	return VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION;
1959	}
1960
1961	for (unsigned idxNode = 0; idxNode < pCodecState->cTotalNodes; ++idxNode)
1962	{
1963	uint8_t idOld = pCodecState->pNodes[idxNode].SavedState.Core.id;
1964	int rc = SSMR3GetStructEx(pSSM, &pCodecState->pNodes[idxNode].SavedState,
1965	sizeof(pCodecState->pNodes[idxNode].SavedState),
1966	fFlags, pFields, NULL);
1967	if (RT_FAILURE(rc))
1968	return rc;
1969	AssertLogRelMsgReturn(idOld == pCodecState->pNodes[idxNode].SavedState.Core.id,
1970	("loaded %#x, expected \n", pCodecState->pNodes[idxNode].SavedState.Core.id, idOld),
1971	VERR_SSM_DATA_UNIT_FORMAT_CHANGED);
1972	}
1973
1974	/*
1975	* Update stuff after changing the state.
1976	*/
1977	if (codecIsDacNode(pCodecState, pCodecState->u8DacLineOut))
1978	codecToAudVolume(&pCodecState->pNodes[pCodecState->u8DacLineOut].dac.B_params, AUD_MIXER_VOLUME);
1979	else if (codecIsSpdifOutNode(pCodecState, pCodecState->u8DacLineOut))
1980	codecToAudVolume(&pCodecState->pNodes[pCodecState->u8DacLineOut].spdifout.B_params, AUD_MIXER_VOLUME);
1981	codecToAudVolume(&pCodecState->pNodes[pCodecState->u8AdcVolsLineIn].adcvol.B_params, AUD_MIXER_LINE_IN);
1982
1983	return VINF_SUCCESS;
1984	}
1985

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source: vbox/trunk/src/VBox/Devices/Audio/DevCodec.cpp@ 44528

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