/* $Id: DevCodec.cpp 36692 2011-04-18 03:06:05Z vboxsync $ */ /** @file * DevCodec - VBox ICH Intel HD Audio Codec. */ /* * Copyright (C) 2006-2008 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #define LOG_GROUP LOG_GROUP_DEV_AUDIO #include #include #include #include #include #include #include #include "VBoxDD.h" extern "C" { #include "audio.h" } #include "DevCodec.h" #define CODECNODE_F0_PARAM_LENGTH 0x14 #define CODECNODE_F02_PARAM_LENGTH 16 typedef struct CODECCOMMONNODE { uint8_t id; /* 7 - bit format */ const char *name; /* RPM 5.3.6 */ uint32_t au32F00_param[CODECNODE_F0_PARAM_LENGTH]; uint32_t au32F02_param[CODECNODE_F02_PARAM_LENGTH]; } CODECCOMMONNODE, *PCODECCOMMONNODE; typedef struct ROOTCODECNODE { CODECCOMMONNODE node; }ROOTCODECNODE, *PROOTCODECNODE; #define AMPLIFIER_SIZE 60 typedef uint32_t AMPLIFIER[AMPLIFIER_SIZE]; #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)]) typedef struct DACNODE { CODECCOMMONNODE node; uint32_t u32F0d_param; uint32_t u32F04_param; uint32_t u32F05_param; uint32_t u32F06_param; uint32_t u32F0c_param; uint32_t u32A_param; AMPLIFIER B_params; } DACNODE, *PDACNODE; typedef struct ADCNODE { CODECCOMMONNODE node; uint32_t u32F03_param; uint32_t u32F05_param; uint32_t u32F06_param; uint32_t u32F09_param; uint32_t u32A_param; uint32_t u32F01_param; AMPLIFIER B_params; } ADCNODE, *PADCNODE; typedef struct SPDIFOUTNODE { CODECCOMMONNODE node; uint32_t u32F05_param; uint32_t u32F06_param; uint32_t u32F09_param; uint32_t u32F0d_param; uint32_t u32A_param; AMPLIFIER B_params; } SPDIFOUTNODE, *PSPDIFOUTNODE; typedef struct SPDIFINNODE { CODECCOMMONNODE node; uint32_t u32F05_param; uint32_t u32F06_param; uint32_t u32F09_param; uint32_t u32F0d_param; uint32_t u32A_param; AMPLIFIER B_params; } SPDIFINNODE, *PSPDIFINNODE; typedef struct AFGCODECNODE { CODECCOMMONNODE node; uint32_t u32F05_param; uint32_t u32F08_param; uint32_t u32F20_param; uint32_t u32F17_param; } AFGCODECNODE, *PAFGCODECNODE; typedef struct PORTNODE { CODECCOMMONNODE node; uint32_t u32F07_param; uint32_t u32F08_param; uint32_t u32F09_param; uint32_t u32F01_param; uint32_t u32F1c_param; AMPLIFIER B_params; } PORTNODE, *PPORTNODE; typedef struct DIGOUTNODE { CODECCOMMONNODE node; uint32_t u32F01_param; uint32_t u32F08_param; uint32_t u32F07_param; uint32_t u32F09_param; uint32_t u32F1c_param; } DIGOUTNODE, *PDIGOUTNODE; typedef struct DIGINNODE { CODECCOMMONNODE node; uint32_t u32F05_param; uint32_t u32F07_param; uint32_t u32F08_param; uint32_t u32F09_param; uint32_t u32F0c_param; uint32_t u32F1c_param; uint32_t u32F1e_param; } DIGINNODE, *PDIGINNODE; typedef struct ADCMUXNODE { CODECCOMMONNODE node; uint32_t u32F01_param; uint32_t u32A_param; AMPLIFIER B_params; } ADCMUXNODE, *PADCMUXNODE; typedef struct PCBEEPNODE { CODECCOMMONNODE node; uint32_t u32F07_param; uint32_t u32F0a_param; uint32_t u32A_param; AMPLIFIER B_params; uint32_t u32F1c_param; } PCBEEPNODE, *PPCBEEPNODE; typedef struct CDNODE { CODECCOMMONNODE node; uint32_t u32F07_param; uint32_t u32F1c_param; } CDNODE, *PCDNODE; typedef struct VOLUMEKNOBNODE { CODECCOMMONNODE node; uint32_t u32F08_param; uint32_t u32F0f_param; } VOLUMEKNOBNODE, *PVOLUMEKNOBNODE; typedef struct ADCVOLNODE { CODECCOMMONNODE node; uint32_t u32F0c_param; uint32_t u32F01_param; uint32_t u32A_params; AMPLIFIER B_params; } ADCVOLNODE, *PADCVOLNODE; typedef struct RESNODE { CODECCOMMONNODE node; uint32_t u32F05_param; uint32_t u32F06_param; uint32_t u32F07_param; uint32_t u32F1c_param; } RESNODE, *PRESNODE; typedef union CODECNODE { CODECCOMMONNODE node; ROOTCODECNODE root; AFGCODECNODE afg; DACNODE dac; ADCNODE adc; SPDIFOUTNODE spdifout; SPDIFINNODE spdifin; PORTNODE port; DIGOUTNODE digout; DIGINNODE digin; ADCMUXNODE adcmux; PCBEEPNODE pcbeep; CDNODE cdnode; VOLUMEKNOBNODE volumeKnob; ADCVOLNODE adcvol; RESNODE reserved; } CODECNODE, *PCODECNODE; /* STAC9220 */ const static uint8_t au8Stac9220Ports[] = { 0xA, 0xB, 0xC, 0xD, 0xE, 0xF, 0}; const static uint8_t au8Stac9220Dacs[] = { 0x2, 0x3, 0x4, 0x5, 0}; const static uint8_t au8Stac9220Adcs[] = { 0x6, 0x7, 0}; const static uint8_t au8Stac9220SpdifOuts[] = { 0x8, 0 }; const static uint8_t au8Stac9220SpdifIns[] = { 0x9, 0 }; const static uint8_t au8Stac9220DigOutPins[] = { 0x10, 0 }; const static uint8_t au8Stac9220DigInPins[] = { 0x11, 0 }; const static uint8_t au8Stac9220AdcVols[] = { 0x17, 0x18, 0}; const static uint8_t au8Stac9220AdcMuxs[] = { 0x12, 0x13, 0}; const static uint8_t au8Stac9220Pcbeeps[] = { 0x14, 0 }; const static uint8_t au8Stac9220Cds[] = { 0x15, 0 }; const static uint8_t au8Stac9220VolKnobs[] = { 0x16, 0 }; const static uint8_t au8Stac9220Reserveds[] = { 0x9, 0x19, 0x1a, 0x1b, 0 }; static int stac9220ResetNode(struct CODECState *pState, uint8_t nodenum, PCODECNODE pNode); static int stac9220Construct(CODECState *pState) { unconst(pState->cTotalNodes) = 0x1C; pState->pfnCodecNodeReset = stac9220ResetNode; pState->u16VendorId = 0x8384; pState->u16DeviceId = 0x7680; pState->u8BSKU = 0x76; pState->u8AssemblyId = 0x80; pState->pNodes = (PCODECNODE)RTMemAllocZ(sizeof(CODECNODE) * pState->cTotalNodes); pState->fInReset = false; #define STAC9220WIDGET(type) pState->au8##type##s = au8Stac9220##type##s 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 unconst(pState->u8AdcVolsLineIn) = 0x17; unconst(pState->u8DacLineOut) = 0x2; return VINF_SUCCESS; } static int stac9220ResetNode(struct CODECState *pState, uint8_t nodenum, PCODECNODE pNode) { pNode->node.id = nodenum; pNode->node.au32F00_param[0xF] = 0; /* Power statest Supported: are the same as AFG reports */ switch (nodenum) { /* Root Node*/ case 0: pNode->root.node.name = "Root"; pNode->node.au32F00_param[2] = CODEC_MAKE_F00_02(0x1, 0x0, 0x34, 0x1); /* rev id */ break; case 1: pNode->afg.node.name = "AFG"; pNode->node.au32F00_param[8] = CODEC_MAKE_F00_08(1, 0xd, 0xd); pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_BALANCED_IO | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//(17 << 8)|RT_BIT(6)|RT_BIT(5)|RT_BIT(2)|RT_BIT(1)|RT_BIT(0); pNode->node.au32F00_param[0xB] = CODEC_F00_0B_PCM; pNode->node.au32F00_param[0xD] = CODEC_MAKE_F00_0D(1, 0x5, 0xE, 0);//RT_BIT(31)|(0x5 << 16)|(0xE)<<8; pNode->node.au32F00_param[0x12] = RT_BIT(31)|(0x2 << 16)|(0x7f << 8)|0x7f; pNode->node.au32F00_param[0x11] = CODEC_MAKE_F00_11(1, 1, 0, 0, 4);//0xc0000004; pNode->node.au32F00_param[0xF] = 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);//0x2 << 4| 0x2; /* PS-Act: D3, PS->Set D3 */ pNode->afg.u32F08_param = 0; pNode->afg.u32F17_param = 0; break; case 2: pNode->dac.node.name = "DAC0"; goto dac_init; case 3: pNode->dac.node.name = "DAC1"; goto dac_init; case 4: pNode->dac.node.name = "DAC2"; goto dac_init; case 5: pNode->dac.node.name = "DAC3"; dac_init: memset(pNode->dac.B_params, 0, AMPLIFIER_SIZE); 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 */ 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); pNode->dac.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0xD, 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_LSB;//(0xD << 16) | RT_BIT(11) | RT_BIT(10) | RT_BIT(2) | RT_BIT(0); pNode->dac.u32F0c_param = 0; pNode->dac.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 | 0x3; /* PS-Act: D3, Set: D3 */ break; case 6: pNode->adc.node.name = "ADC0"; pNode->node.au32F02_param[0] = 0x17; goto adc_init; case 7: pNode->adc.node.name = "ADC1"; pNode->node.au32F02_param[0] = 0x18; adc_init: 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 */ pNode->adc.node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//RT_BIT(0); pNode->adc.u32F03_param = RT_BIT(0); pNode->adc.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 | 0x3; /* PS-Act: D3 Set: D3 */ pNode->adc.u32F06_param = 0; pNode->adc.node.au32F00_param[9] = 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_LSB;//RT_BIT(20)| (0xd << 16) | RT_BIT(10) | RT_BIT(8) | RT_BIT(6)| RT_BIT(0); break; case 8: pNode->spdifout.node.name = "SPDIFOut"; 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; pNode->spdifout.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0x4, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_FMT_OVERRIDE | CODEC_F00_09_CAP_LSB;//(4 << 16) | RT_BIT(9)|RT_BIT(4)|0x1; pNode->node.au32F00_param[0xa] = pState->pNodes[1].node.au32F00_param[0xA]; pNode->spdifout.node.au32F00_param[0xB] = CODEC_F00_0B_PCM; pNode->spdifout.u32F06_param = 0; pNode->spdifout.u32F0d_param = 0; break; case 9: pNode->node.name = "Reserved_0"; 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; pNode->spdifin.node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_INPUT, 0x4, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_FMT_OVERRIDE | CODEC_F00_09_CAP_LSB;//(0x1 << 20)|(4 << 16) | RT_BIT(9)| RT_BIT(8)|RT_BIT(4)|0x1; pNode->node.au32F00_param[0xA] = pState->pNodes[1].node.au32F00_param[0xA]; pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//RT_BIT(0); pNode->node.au32F02_param[0] = 0x11; pNode->spdifin.node.au32F00_param[0xB] = CODEC_F00_0B_PCM; pNode->spdifin.u32F06_param = 0; pNode->spdifin.u32F0d_param = 0; break; case 0xA: pNode->node.name = "PortA"; pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_HP | CODEC_F00_0C_CAP_PRESENSE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x173f; pNode->node.au32F02_param[0] = 0x2; pNode->port.u32F07_param = CODEC_F07_IN_ENABLE | CODEC_F07_OUT_ENABLE; pNode->port.u32F08_param = 0; if (!pState->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_JACK_DETECT, 0x2, 0);//RT_MAKE_U32_FROM_U8(0x20, 0x40, 0x21, 0x02); goto port_init; case 0xB: pNode->node.name = "PortB"; pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737; pNode->node.au32F02_param[0] = 0x4; pNode->port.u32F07_param = CODEC_F07_IN_ENABLE; if (!pState->fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_INTERNAL|CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_SPEAKER, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_BLACK, CODEC_F1C_MISC_JACK_DETECT, 0x1, 0x1);//RT_MAKE_U32_FROM_U8(0x11, 0x60, 0x11, 0x01); goto port_init; case 0xC: pNode->node.name = "PortC"; pNode->node.au32F02_param[0] = 0x3; pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737; pNode->port.u32F07_param = CODEC_F07_IN_ENABLE; if (!pState->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, 0x0, 0x1, 0x0);//RT_MAKE_U32_FROM_U8(0x10, 0x40, 0x11, 0x01); goto port_init; case 0xD: pNode->node.name = "PortD"; pNode->node.au32F00_param[0xC] = CODEC_MAKE_F00_0C(0x17) | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE;//0x1737; pNode->port.u32F07_param = CODEC_F07_IN_ENABLE; pNode->node.au32F02_param[0] = 0x2; if (!pState->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, 0x0, 0x5, 0x0);//RT_MAKE_U32_FROM_U8(0x50, 0x90, 0xA1, 0x02); /* Microphone */ port_init: pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(1, CODEC_F09_ANALOG_NA);//RT_BIT(31)|0x7fffffff; pNode->port.u32F08_param = 0; pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0) | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_LSB;//(4 << 20)|RT_BIT(8)|RT_BIT(7)|RT_BIT(0); pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//0x1; break; case 0xE: pNode->node.name = "PortE"; pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0) | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_LSB;//(4 << 20)|RT_BIT(7)|RT_BIT(0); pNode->port.u32F08_param = 0; pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT;//0x34; pNode->port.u32F07_param = CODEC_F07_IN_ENABLE; pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0, CODEC_F09_ANALOG_NA);//0x7fffffff; if (!pState->fInReset) pNode->port.u32F1c_param = CODEC_MAKE_F1C(CODEC_F1C_PORT_COMPLEX, CODEC_F1C_LOCATION_REAR, CODEC_F1C_DEVICE_LINE_OUT, CODEC_F1C_CONNECTION_TYPE_1_8INCHES, CODEC_F1C_COLOR_BLUE, 0x0, 0x4, 0x0);//0x01013040; /* Line Out */ break; case 0xF: pNode->node.name = "PortF"; pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0x0) | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_UNSOL | CODEC_F00_09_CAP_OUT_AMP_PRESENT | CODEC_F00_09_CAP_LSB;//(4 << 20)|RT_BIT(8)|RT_BIT(7)|RT_BIT(2)|RT_BIT(0); pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_OUTPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT /* | CODEC_F00_0C_CAP_TRIGGER_REQUIRED | CODEC_F00_0C_CAP_IMPENDANCE_SENSE */;//0x37; pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 1);//0x1; pNode->port.u32F08_param = 0; pNode->port.u32F07_param = CODEC_F07_OUT_ENABLE | CODEC_F07_IN_ENABLE; if (!pState->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, 0x0, 0x1, 0x2);//RT_MAKE_U32_FROM_U8(0x12, 0x60, 0x11, 0x01); pNode->node.au32F02_param[0] = 0x5; pNode->port.u32F09_param = CODEC_MAKE_F09_ANALOG(0, CODEC_F09_ANALOG_NA);//0x7fffffff; break; case 0x10: pNode->node.name = "DigOut_0"; pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0x0, 0x0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_CONNECTION_LIST | CODEC_F00_09_CAP_LSB;//(4<<20)|RT_BIT(9)|RT_BIT(8)|RT_BIT(0); pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT;//RT_BIT(4); pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 0x3); pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0x08, 0x17, 0x19, 0); if (!pState->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, 0x0, 0x3, 0x0);//RT_MAKE_U32_FROM_U8(0x30, 0x10, 0x45, 0x01); break; case 0x11: pNode->node.name = "DigIn_0"; pNode->node.au32F00_param[9] = (4 << 20)|(3<<16)|RT_BIT(10)|RT_BIT(9)|RT_BIT(7)|RT_BIT(0); pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_EAPD | CODEC_F00_0C_CAP_INPUT | CODEC_F00_0C_CAP_PRESENSE_DETECT;//RT_BIT(16)| RT_BIT(5)|RT_BIT(2); pNode->digin.u32F05_param = CODEC_MAKE_F05(0, 0, 0, CODEC_F05_D3, CODEC_F05_D3);//0x3 << 4 | 0x3; /* PS-Act: D3 -> D3 */ pNode->digin.u32F07_param = 0; pNode->digin.u32F08_param = 0; pNode->digin.u32F09_param = 0; pNode->digin.u32F0c_param = 0; if (!pState->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, 0x0, 0x6, 0x0);//(0x1 << 24) | (0xc5 << 16) | (0x10 << 8) | 0x60; break; case 0x12: pNode->node.name = "ADCMux_0"; pNode->adcmux.u32F01_param = 0; goto adcmux_init; case 0x13: pNode->node.name = "ADCMux_1"; pNode->adcmux.u32F01_param = 1; adcmux_init: pNode->node.au32F00_param[9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_SELECTOR, 0x0, 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_LSB;//(3<<20)|RT_BIT(8)|RT_BIT(3)|RT_BIT(2)|RT_BIT(0); pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x7); pNode->node.au32F00_param[0x12] = (0x27 << 16)|(0x4 << 8); /* STAC 9220 v10 6.21-22.{4,5} both(left and right) out amplefiers inited with 0*/ memset(pNode->adcmux.B_params, 0, AMPLIFIER_SIZE); pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0xe, 0x15, 0xf, 0xb); pNode->node.au32F02_param[4] = RT_MAKE_U32_FROM_U8(0xc, 0xd, 0xa, 0x0); break; case 0x14: pNode->node.name = "PCBEEP"; pNode->node.au32F00_param[9] = 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;//(7 << 20) | RT_BIT(3) | RT_BIT(2); pNode->node.au32F00_param[0x12] = (0x17 << 16)|(0x3 << 8)| 0x3; pNode->pcbeep.u32F0a_param = 0; memset(pNode->pcbeep.B_params, 0, AMPLIFIER_SIZE); break; case 0x15: pNode->node.name = "CD"; pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_PIN_COMPLEX, 0, 0) | CODEC_F00_09_CAP_LSB;//(4 << 20)|RT_BIT(0); pNode->node.au32F00_param[0xc] = CODEC_F00_0C_CAP_INPUT;//RT_BIT(5); if (!pState->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, 0x0, 0x7, 0x0);//RT_MAKE_U32_FROM_U8(0x70, 0x0, 0x33, 0x90); break; case 0x16: pNode->node.name = "VolumeKnob"; pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VOLUME_KNOB, 0x0, 0x0);//(0x6 << 20); pNode->node.au32F00_param[0x13] = RT_BIT(7)| 0x7F; pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x4); pNode->node.au32F02_param[0] = RT_MAKE_U32_FROM_U8(0x2, 0x3, 0x4, 0x5); pNode->volumeKnob.u32F08_param = 0; pNode->volumeKnob.u32F0f_param = 0x7f; break; case 0x17: pNode->node.name = "ADC0Vol"; pNode->node.au32F02_param[0] = 0x12; goto adcvol_init; case 0x18: pNode->node.name = "ADC1Vol"; pNode->node.au32F02_param[0] = 0x13; adcvol_init: memset(pNode->adcvol.B_params, 0, AMPLIFIER_SIZE); pNode->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_LSB;//(0x3 << 20)|RT_BIT(11)|RT_BIT(8)|RT_BIT(1)|RT_BIT(0); pNode->node.au32F00_param[0xe] = CODEC_MAKE_F00_0E(0, 0x1); 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); pNode->adcvol.u32F0c_param = 0; break; case 0x19: pNode->node.name = "Reserved_1"; pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_VENDOR_DEFINED, 0x3, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_LSB;//(0xF << 20)|(0x3 << 16)|RT_BIT(9)|RT_BIT(0); break; case 0x1A: pNode->node.name = "Reserved_2"; pNode->node.au32F00_param[0x9] = CODEC_MAKE_F00_09(CODEC_F00_09_TYPE_AUDIO_OUTPUT, 0x3, 0) | CODEC_F00_09_CAP_DIGITAL | CODEC_F00_09_CAP_LSB;//(0x3 << 16)|RT_BIT(9)|RT_BIT(0); break; case 0x1B: pNode->node.name = "Reserved_3"; 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_LSB;//(0x4 << 20)|RT_BIT(9)|RT_BIT(8)|RT_BIT(0); pNode->node.au32F00_param[0xE] = CODEC_MAKE_F00_0E(0, 0x1); pNode->node.au32F00_param[0xC] = CODEC_F00_0C_CAP_OUTPUT;//0x10; pNode->node.au32F02_param[0] = 0x1a; 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, 0x0, 0x0, 0xf);//0x4000000f; break; default: break; } return VINF_SUCCESS; } /* generic */ #define DECLISNODEOFTYPE(type) \ static inline int codecIs##type##Node(struct CODECState *pState, uint8_t cNode) \ { \ Assert(pState->au8##type##s); \ for(int i = 0; pState->au8##type##s[i] != 0; ++i) \ if (pState->au8##type##s[i] == cNode) \ return 1; \ return 0; \ } /* codecIsPortNode */ DECLISNODEOFTYPE(Port) /* codecIsDacNode */ DECLISNODEOFTYPE(Dac) /* codecIsAdcVolNode */ DECLISNODEOFTYPE(AdcVol) /* codecIsAdcNode */ DECLISNODEOFTYPE(Adc) /* codecIsAdcMuxNode */ DECLISNODEOFTYPE(AdcMux) /* codecIsPcbeepNode */ DECLISNODEOFTYPE(Pcbeep) /* codecIsSpdifOutNode */ DECLISNODEOFTYPE(SpdifOut) /* codecIsSpdifInNode */ DECLISNODEOFTYPE(SpdifIn) /* codecIsDigInPinNode */ DECLISNODEOFTYPE(DigInPin) /* codecIsDigOutPinNode */ DECLISNODEOFTYPE(DigOutPin) /* codecIsCdNode */ DECLISNODEOFTYPE(Cd) /* codecIsVolKnobNode */ DECLISNODEOFTYPE(VolKnob) /* codecIsReservedNode */ DECLISNODEOFTYPE(Reserved) static int codecToAudVolume(AMPLIFIER *pAmp, audmixerctl_t mt); static inline void codecSetRegister(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset, uint32_t mask) { Assert((pu32Reg && u8Offset < 32)); *pu32Reg &= ~(mask << u8Offset); *pu32Reg |= (u32Cmd & mask) << u8Offset; } static inline void codecSetRegisterU8(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset) { codecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_8BIT_DATA); } static inline void codecSetRegisterU16(uint32_t *pu32Reg, uint32_t u32Cmd, uint8_t u8Offset) { codecSetRegister(pu32Reg, u32Cmd, u8Offset, CODEC_VERB_16BIT_DATA); } static int codecUnimplemented(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Log(("codecUnimplemented: cmd(raw:%x: cad:%x, d:%c, nid:%x, verb:%x)\n", cmd, CODEC_CAD(cmd), CODEC_DIRECT(cmd) ? 'N' : 'Y', CODEC_NID(cmd), CODEC_VERBDATA(cmd))); *pResp = 0; return VINF_SUCCESS; } static int codecBreak(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { int rc; rc = codecUnimplemented(pState, cmd, pResp); *pResp |= CODEC_RESPONSE_UNSOLICITED; return rc; } /* B-- */ static int codecGetAmplifier(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 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(cmd) == AMPLIFIER_OUT? 0 : CODEC_GET_AMP_INDEX(cmd); PCODECNODE pNode = &pState->pNodes[CODEC_NID(cmd)]; if (codecIsDacNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->dac.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->adcvol.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else if (codecIsAdcMuxNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->adcmux.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->pcbeep.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->port.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = AMPLIFIER_REGISTER(pNode->adc.B_params, CODEC_GET_AMP_DIRECTION(cmd), CODEC_GET_AMP_SIDE(cmd), u8Index); else{ AssertMsgReturn(0, ("access to fields of %x need to be implemented\n", CODEC_NID(cmd)), VINF_SUCCESS); } return VINF_SUCCESS; } /* 3-- */ static int codecSetAmplifier(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { AMPLIFIER *pAmplifier = NULL; bool fIsLeft = false; bool fIsRight = false; bool fIsOut = false; bool fIsIn = false; uint8_t u8Index = 0; Assert((CODEC_CAD(cmd) == pState->id)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; PCODECNODE pNode = &pState->pNodes[CODEC_NID(cmd)]; if (codecIsDacNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->dac.B_params; else if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->adcvol.B_params; else if (codecIsAdcMuxNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->adcmux.B_params; else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->pcbeep.B_params; else if (codecIsPortNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->port.B_params; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) pAmplifier = &pNode->adc.B_params; Assert(pAmplifier); if (pAmplifier) { fIsOut = CODEC_SET_AMP_IS_OUT_DIRECTION(cmd); fIsIn = CODEC_SET_AMP_IS_IN_DIRECTION(cmd); fIsRight = CODEC_SET_AMP_IS_RIGHT_SIDE(cmd); fIsLeft = CODEC_SET_AMP_IS_LEFT_SIDE(cmd); u8Index = CODEC_SET_AMP_INDEX(cmd); if ( (!fIsLeft && !fIsRight) || (!fIsOut && !fIsIn)) return VINF_SUCCESS; if (fIsIn) { if (fIsLeft) codecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_LEFT, u8Index), cmd, 0); if (fIsRight) codecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_IN, AMPLIFIER_RIGHT, u8Index), cmd, 0); } if (fIsOut) { if (fIsLeft) codecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_LEFT, u8Index), cmd, 0); if (fIsRight) codecSetRegisterU8(&LIFIER_REGISTER(*pAmplifier, AMPLIFIER_OUT, AMPLIFIER_RIGHT, u8Index), cmd, 0); } if (CODEC_NID(cmd) == pState->u8DacLineOut) codecToAudVolume(pAmplifier, AUD_MIXER_VOLUME); if (CODEC_NID(cmd) == pState->u8AdcVolsLineIn) /* Microphone */ codecToAudVolume(pAmplifier, AUD_MIXER_LINE_IN); } return VINF_SUCCESS; } static int codecGetParameter(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } Assert(((cmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F0_PARAM_LENGTH)); if ((cmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F0_PARAM_LENGTH) { Log(("HDAcodec: invalid F00 parameter %d\n", (cmd & CODEC_VERB_8BIT_DATA))); return VINF_SUCCESS; } *pResp = 0; *pResp = pState->pNodes[CODEC_NID(cmd)].node.au32F00_param[cmd & CODEC_VERB_8BIT_DATA]; return VINF_SUCCESS; } /* F01 */ static int codecGetConSelectCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsAdcMuxNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adcmux.u32F01_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F01_param; else if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F01_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F01_param; else if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adcvol.u32F01_param; return VINF_SUCCESS; } /* 701 */ static int codecSetConSelectCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { uint32_t *pu32Reg = NULL; Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsAdcMuxNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcmux.u32F01_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F01_param; else if (codecIsPortNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F01_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adc.u32F01_param; else if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcvol.u32F01_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F07 */ static int codecGetPinCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F07_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F07_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F07_param; else if (codecIsCdNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].cdnode.u32F07_param; else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F07_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F07_param; else AssertMsgFailed(("Unsupported")); return VINF_SUCCESS; } /* 707 */ static int codecSetPinCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; uint32_t *pu32Reg = NULL; if (codecIsPortNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F07_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F07_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F07_param; else if (codecIsCdNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].cdnode.u32F07_param; else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F07_param; else if ( codecIsReservedNode(pState, CODEC_NID(cmd)) && CODEC_NID(cmd) == 0x1b) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F07_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F08 */ static int codecGetUnsolicitedEnabled(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F08_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param; else if ((cmd) == 1 /* AFG */) *pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F08_param; else if (codecIsVolKnobNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F08_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F08_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param; else AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd))); return VINF_SUCCESS; } /* 708 */ static int codecSetUnsolicitedEnabled(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; uint32_t *pu32Reg = NULL; if (codecIsPortNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F08_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param; else if (CODEC_NID(cmd) == 1 /* AFG */) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F08_param; else if (codecIsVolKnobNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F08_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F08_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F08_param; else AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd))); Assert(pu32Reg); if(pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F09 */ static int codecGetPinSense(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F09_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F09_param; else AssertMsgFailed(("unsupported operation %x on node: %x\n", CODEC_VERB_CMD8(cmd), CODEC_NID(cmd))); return VINF_SUCCESS; } /* 709 */ static int codecSetPinSense(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; uint32_t *pu32Reg = NULL; if (codecIsPortNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F09_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F09_param; Assert(pu32Reg); if(pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } static int codecGetConnectionListEntry(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); *pResp = 0; if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } Assert((cmd & CODEC_VERB_8BIT_DATA) < CODECNODE_F02_PARAM_LENGTH); if ((cmd & CODEC_VERB_8BIT_DATA) >= CODECNODE_F02_PARAM_LENGTH) { Log(("HDAcodec: access to invalid F02 index %d\n", (cmd & CODEC_VERB_8BIT_DATA))); return VINF_SUCCESS; } *pResp = pState->pNodes[CODEC_NID(cmd)].node.au32F02_param[cmd & CODEC_VERB_8BIT_DATA]; return VINF_SUCCESS; } /* F03 */ static int codecGetProcessingState(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F03_param; return VINF_SUCCESS; } /* 703 */ static int codecSetProcessingState(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsAdcNode(pState, CODEC_NID(cmd))) { codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].adc.u32F03_param, cmd, 0); } return VINF_SUCCESS; } /* F0D */ static int codecGetDigitalConverter(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F0d_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F0d_param; return VINF_SUCCESS; } static int codecSetDigitalConverter(struct CODECState *pState, uint32_t cmd, uint8_t u8Offset, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].spdifout.u32F0d_param, cmd, u8Offset); else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) codecSetRegisterU8(&pState->pNodes[CODEC_NID(cmd)].spdifin.u32F0d_param, cmd, u8Offset); return VINF_SUCCESS; } /* 70D */ static int codecSetDigitalConverter1(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { return codecSetDigitalConverter(pState, cmd, 0, pResp); } /* 70E */ static int codecSetDigitalConverter2(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { return codecSetDigitalConverter(pState, cmd, 8, pResp); } /* F20 */ static int codecGetSubId(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (CODEC_NID(cmd) == 1 /* AFG */) { *pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F20_param; } return VINF_SUCCESS; } static int codecSetSubIdX(struct CODECState *pState, uint32_t cmd, uint8_t u8Offset) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } uint32_t *pu32Reg = NULL; if (CODEC_NID(cmd) == 0x1 /* AFG */) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F20_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, u8Offset); return VINF_SUCCESS; } /* 720 */ static int codecSetSubId0 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetSubIdX(pState, cmd, 0); } /* 721 */ static int codecSetSubId1 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetSubIdX(pState, cmd, 8); } /* 722 */ static int codecSetSubId2 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetSubIdX(pState, cmd, 16); } /* 723 */ static int codecSetSubId3 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetSubIdX(pState, cmd, 24); } static int codecReset(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert(CODEC_NID(cmd) == 1 /* AFG */); if(CODEC_NID(cmd) == 1 /* AFG */) { uint8_t i; Log(("HDAcodec: enters reset\n")); Assert(pState->pfnCodecNodeReset); for (i = 0; i < pState->cTotalNodes; ++i) { pState->pfnCodecNodeReset(pState, i, &pState->pNodes[i]); } pState->fInReset = false; Log(("HDAcodec: exits reset\n")); } *pResp = 0; return VINF_SUCCESS; } /* F05 */ static int codecGetPowerState(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (CODEC_NID(cmd) == 1 /* AFG */) *pResp = pState->pNodes[CODEC_NID(cmd)].afg.u32F05_param; else if (codecIsDacNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F05_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F05_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F05_param; else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F05_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F05_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F05_param; return VINF_SUCCESS; } /* 705 */ static inline 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); } static int codecSetPowerState(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } uint32_t *pu32Reg = NULL; *pResp = 0; if (CODEC_NID(cmd) == 1 /* AFG */) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].afg.u32F05_param; else if (codecIsDacNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].dac.u32F05_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F05_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adc.u32F05_param; else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].spdifout.u32F05_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].spdifin.u32F05_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F05_param; Assert((pu32Reg)); if (!pu32Reg) return VINF_SUCCESS; bool fReset = CODEC_F05_IS_RESET(*pu32Reg); bool fStopOk = CODEC_F05_IS_STOPOK(*pu32Reg); if (CODEC_NID(cmd) != 1 /* AFG */) { /* * We shouldn't propogate actual power state, which actual for AFG */ *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, CODEC_F05_ACT(pState->pNodes[1].afg.u32F05_param), CODEC_F05_SET(cmd)); } /* Propagate next power state only if AFG is on or verb modifies AFG power state */ if ( CODEC_NID(cmd) == 1 /* AFG */ || !CODEC_F05_ACT(pState->pNodes[1].afg.u32F05_param)) { *pu32Reg = CODEC_MAKE_F05(fReset, fStopOk, 0, CODEC_F05_SET(cmd), CODEC_F05_SET(cmd)); if ( CODEC_NID(cmd) == 1 /* AFG */ && (CODEC_F05_SET(cmd)) == CODEC_F05_D0) { /* now we're powered on AFG and may propogate power states on nodes */ const uint8_t *pu8NodeIndex = &pState->au8Dacs[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].dac.u32F05_param); pu8NodeIndex = &pState->au8Adcs[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].adc.u32F05_param); pu8NodeIndex = &pState->au8DigInPins[0]; while (*(++pu8NodeIndex)) codecPropogatePowerState(&pState->pNodes[*pu8NodeIndex].digin.u32F05_param); } } return VINF_SUCCESS; } static int codecGetStreamId(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsDacNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F06_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32F06_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32F06_param; else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32F06_param; else if (CODEC_NID(cmd) == 0x1A) *pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F06_param; return VINF_SUCCESS; } static int codecSetStreamId(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; uint32_t *pu32addr = NULL; *pResp = 0; if (codecIsDacNode(pState, CODEC_NID(cmd))) pu32addr = &pState->pNodes[CODEC_NID(cmd)].dac.u32F06_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) pu32addr = &pState->pNodes[CODEC_NID(cmd)].adc.u32F06_param; else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) pu32addr = &pState->pNodes[CODEC_NID(cmd)].spdifout.u32F06_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) pu32addr = &pState->pNodes[CODEC_NID(cmd)].spdifin.u32F06_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) pu32addr = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F06_param; Assert((pu32addr)); if (pu32addr) codecSetRegisterU8(pu32addr, cmd, 0); return VINF_SUCCESS; } static int codecGetConverterFormat(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsDacNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32A_param; else if (codecIsAdcNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adc.u32A_param; else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifout.u32A_param; else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].spdifin.u32A_param; return VINF_SUCCESS; } static int codecSetConverterFormat(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsDacNode(pState, CODEC_NID(cmd))) codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].dac.u32A_param, cmd, 0); else if (codecIsAdcNode(pState, CODEC_NID(cmd))) codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].adc.u32A_param, cmd, 0); else if (codecIsSpdifOutNode(pState, CODEC_NID(cmd))) codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].spdifout.u32A_param, cmd, 0); else if (codecIsSpdifInNode(pState, CODEC_NID(cmd))) codecSetRegisterU16(&pState->pNodes[CODEC_NID(cmd)].spdifin.u32A_param, cmd, 0); return VINF_SUCCESS; } /* F0C */ static int codecGetEAPD_BTLEnabled(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].adcvol.u32F0c_param; else if (codecIsDacNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].dac.u32F0c_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F0c_param; return VINF_SUCCESS; } /* 70C */ static int codecSetEAPD_BTLEnabled(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; uint32_t *pu32Reg = NULL; if (codecIsAdcVolNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].adcvol.u32F0c_param; else if (codecIsDacNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].dac.u32F0c_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F0c_param; *pResp = 0; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F0F */ static int codecGetVolumeKnobCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsVolKnobNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F0f_param; return VINF_SUCCESS; } /* 70F */ static int codecSetVolumeKnobCtrl(struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } uint32_t *pu32Reg = NULL; *pResp = 0; if (codecIsVolKnobNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].volumeKnob.u32F0f_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F17 */ static int codecGetGPIOUnsolisted (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; /* note: this is true for ALC885 */ if (CODEC_NID(cmd) == 0x1 /* AFG */) *pResp = pState->pNodes[1].afg.u32F17_param; return VINF_SUCCESS; } /* 717 */ static int codecSetGPIOUnsolisted (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } uint32_t *pu32Reg = NULL; *pResp = 0; if (CODEC_NID(cmd) == 1 /* AFG */) pu32Reg = &pState->pNodes[1].afg.u32F17_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, 0); return VINF_SUCCESS; } /* F1C */ static int codecGetConfig (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } *pResp = 0; if (codecIsPortNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].port.u32F1c_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digout.u32F1c_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].digin.u32F1c_param; else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F1c_param; else if (codecIsCdNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].cdnode.u32F1c_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) *pResp = pState->pNodes[CODEC_NID(cmd)].reserved.u32F1c_param; return VINF_SUCCESS; } static int codecSetConfigX(struct CODECState *pState, uint32_t cmd, uint8_t u8Offset) { Assert((CODEC_CAD(cmd) == pState->id)); Assert((CODEC_NID(cmd) < pState->cTotalNodes)); if (CODEC_NID(cmd) >= pState->cTotalNodes) { Log(("HDAcodec: invalid node address %d\n", CODEC_NID(cmd))); return VINF_SUCCESS; } uint32_t *pu32Reg = NULL; if (codecIsPortNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].port.u32F1c_param; else if (codecIsDigInPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digin.u32F1c_param; else if (codecIsDigOutPinNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].digout.u32F1c_param; else if (codecIsCdNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].cdnode.u32F1c_param; else if (codecIsPcbeepNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].pcbeep.u32F1c_param; else if (codecIsReservedNode(pState, CODEC_NID(cmd))) pu32Reg = &pState->pNodes[CODEC_NID(cmd)].reserved.u32F1c_param; Assert((pu32Reg)); if (pu32Reg) codecSetRegisterU8(pu32Reg, cmd, u8Offset); return VINF_SUCCESS; } /* 71C */ static int codecSetConfig0 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetConfigX(pState, cmd, 0); } /* 71D */ static int codecSetConfig1 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetConfigX(pState, cmd, 8); } /* 71E */ static int codecSetConfig2 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetConfigX(pState, cmd, 16); } /* 71E */ static int codecSetConfig3 (struct CODECState *pState, uint32_t cmd, uint64_t *pResp) { *pResp = 0; return codecSetConfigX(pState, cmd, 24); } static int codecToAudVolume(AMPLIFIER *pAmp, audmixerctl_t mt) { uint32_t dir = AMPLIFIER_OUT; switch (mt) { case AUD_MIXER_VOLUME: case AUD_MIXER_PCM: dir = AMPLIFIER_OUT; break; case AUD_MIXER_LINE_IN: dir = AMPLIFIER_IN; break; } int mute = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_LEFT, 0) & RT_BIT(7); mute |= AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_RIGHT, 0) & RT_BIT(7); mute >>=7; mute &= 0x1; uint8_t lVol = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_LEFT, 0) & 0x7f; uint8_t rVol = AMPLIFIER_REGISTER(*pAmp, dir, AMPLIFIER_RIGHT, 0) & 0x7f; AUD_set_volume(mt, &mute, &lVol, &rVol); return VINF_SUCCESS; } static CODECVERB CODECVERBS[] = { /* verb | verb mask | callback */ /* ----------- -------------------- ----------------------- */ {0x000F0000, CODEC_VERB_8BIT_CMD , codecGetParameter }, {0x000F0100, CODEC_VERB_8BIT_CMD , codecGetConSelectCtrl }, {0x00070100, CODEC_VERB_8BIT_CMD , codecSetConSelectCtrl }, {0x000F0600, CODEC_VERB_8BIT_CMD , codecGetStreamId }, {0x00070600, CODEC_VERB_8BIT_CMD , codecSetStreamId }, {0x000F0700, CODEC_VERB_8BIT_CMD , codecGetPinCtrl }, {0x00070700, CODEC_VERB_8BIT_CMD , codecSetPinCtrl }, {0x000F0800, CODEC_VERB_8BIT_CMD , codecGetUnsolicitedEnabled }, {0x00070800, CODEC_VERB_8BIT_CMD , codecSetUnsolicitedEnabled }, {0x000F0900, CODEC_VERB_8BIT_CMD , codecGetPinSense }, {0x00070900, CODEC_VERB_8BIT_CMD , codecSetPinSense }, {0x000F0200, CODEC_VERB_8BIT_CMD , codecGetConnectionListEntry }, {0x000F0300, CODEC_VERB_8BIT_CMD , codecGetProcessingState }, {0x00070300, CODEC_VERB_8BIT_CMD , codecSetProcessingState }, {0x000F0D00, CODEC_VERB_8BIT_CMD , codecGetDigitalConverter }, {0x00070D00, CODEC_VERB_8BIT_CMD , codecSetDigitalConverter1 }, {0x00070E00, CODEC_VERB_8BIT_CMD , codecSetDigitalConverter2 }, {0x000F2000, CODEC_VERB_8BIT_CMD , codecGetSubId }, {0x00072000, CODEC_VERB_8BIT_CMD , codecSetSubId0 }, {0x00072100, CODEC_VERB_8BIT_CMD , codecSetSubId1 }, {0x00072200, CODEC_VERB_8BIT_CMD , codecSetSubId2 }, {0x00072300, CODEC_VERB_8BIT_CMD , codecSetSubId3 }, {0x0007FF00, CODEC_VERB_8BIT_CMD , codecReset }, {0x000F0500, CODEC_VERB_8BIT_CMD , codecGetPowerState }, {0x00070500, CODEC_VERB_8BIT_CMD , codecSetPowerState }, {0x000F0C00, CODEC_VERB_8BIT_CMD , codecGetEAPD_BTLEnabled }, {0x00070C00, CODEC_VERB_8BIT_CMD , codecSetEAPD_BTLEnabled }, {0x000F0F00, CODEC_VERB_8BIT_CMD , codecGetVolumeKnobCtrl }, {0x00070F00, CODEC_VERB_8BIT_CMD , codecSetVolumeKnobCtrl }, {0x000F1700, CODEC_VERB_8BIT_CMD , codecGetGPIOUnsolisted }, {0x00071700, CODEC_VERB_8BIT_CMD , codecSetGPIOUnsolisted }, {0x000F1C00, CODEC_VERB_8BIT_CMD , codecGetConfig }, {0x00071C00, CODEC_VERB_8BIT_CMD , codecSetConfig0 }, {0x00071D00, CODEC_VERB_8BIT_CMD , codecSetConfig1 }, {0x00071E00, CODEC_VERB_8BIT_CMD , codecSetConfig2 }, {0x00071F00, CODEC_VERB_8BIT_CMD , codecSetConfig3 }, {0x000A0000, CODEC_VERB_16BIT_CMD, codecGetConverterFormat }, {0x00020000, CODEC_VERB_16BIT_CMD, codecSetConverterFormat }, {0x000B0000, CODEC_VERB_16BIT_CMD, codecGetAmplifier }, {0x00030000, CODEC_VERB_16BIT_CMD, codecSetAmplifier }, }; static int codecLookup(CODECState *pState, uint32_t cmd, PPFNCODECVERBPROCESSOR pfn) { int rc = VINF_SUCCESS; Assert(CODEC_CAD(cmd) == pState->id); if (codecIsReservedNode(pState, CODEC_NID(cmd))) { Log(("HDAcodec: cmd %x was addressed to reserved node\n", cmd)); } if ( CODEC_VERBDATA(cmd) == 0 || CODEC_NID(cmd) >= pState->cTotalNodes) { *pfn = codecUnimplemented; //** @todo r=michaln: There needs to be a counter to avoid log flooding (see e.g. DevRTC.cpp) Log(("HDAcodec: cmd %x was ignored\n", cmd)); return VINF_SUCCESS; } for (int i = 0; i < pState->cVerbs; ++i) { if ((CODEC_VERBDATA(cmd) & pState->pVerbs[i].mask) == pState->pVerbs[i].verb) { *pfn = pState->pVerbs[i].pfn; return VINF_SUCCESS; } } *pfn = codecUnimplemented; Log(("HDAcodec: callback for %x wasn't found\n", CODEC_VERBDATA(cmd))); return rc; } static void pi_callback (void *opaque, int avail) { CODECState *pState = (CODECState *)opaque; pState->pfnTransfer(pState, PI_INDEX, avail); } static void po_callback (void *opaque, int avail) { CODECState *pState = (CODECState *)opaque; pState->pfnTransfer(pState, PO_INDEX, avail); } /** * * routines open one of the voices (IN, OUT) with corresponding parameters. * this routine could be called from HDA on setting/resseting sound format. * * @todo: probably passed settings should be verified (if AFG's declared proposed format) before enabling. */ int codecOpenVoice(CODECState *pState, ENMSOUNDSOURCE enmSoundSource, audsettings_t *pAudioSettings) { int rc = 0; Assert((pState && pAudioSettings)); if ( !pState || !pAudioSettings) return -1; switch (enmSoundSource) { case PI_INDEX: pState->SwVoiceIn = AUD_open_in(&pState->card, pState->SwVoiceIn, "hda.in", pState, pi_callback, pAudioSettings); rc = pState->SwVoiceIn ? 0 : 1; break; case PO_INDEX: pState->SwVoiceOut = AUD_open_out(&pState->card, pState->SwVoiceOut, "hda.out", pState, po_callback, pAudioSettings); rc = pState->SwVoiceOut ? 0 : 1; break; default: return -1; } if (!rc) LogRel(("HDAcodec: can't open %s fmt(freq: %d)\n", enmSoundSource == PI_INDEX? "in" : "out", pAudioSettings->freq)); return rc; } int codecConstruct(PPDMDEVINS pDevIns, CODECState *pState, PCFGMNODE pCfgHandle) { audsettings_t as; int rc; pState->pVerbs = (CODECVERB *)&CODECVERBS; pState->cVerbs = sizeof(CODECVERBS)/sizeof(CODECVERB); pState->pfnLookup = codecLookup; rc = stac9220Construct(pState); AssertRC(rc); /* common root node initializers */ pState->pNodes[0].node.au32F00_param[0] = CODEC_MAKE_F00_00(pState->u16VendorId, pState->u16DeviceId); pState->pNodes[0].node.au32F00_param[4] = CODEC_MAKE_F00_04(0x1, 0x1); /* common AFG node initializers */ pState->pNodes[1].node.au32F00_param[4] = CODEC_MAKE_F00_04(0x2, pState->cTotalNodes - 2); pState->pNodes[1].node.au32F00_param[5] = CODEC_MAKE_F00_05(1, CODEC_F00_05_AFG); pState->pNodes[1].afg.u32F20_param = CODEC_MAKE_F20(pState->u16VendorId, pState->u8BSKU, pState->u8AssemblyId); //** @todo r=michaln: Was this meant to be 'HDA' or something like that? (AC'97 was on ICH0) AUD_register_card ("ICH0", &pState->card); /* 44.1 kHz */ as.freq = 44100; as.nchannels = 2; as.fmt = AUD_FMT_S16; as.endianness = 0; pState->pNodes[1].node.au32F00_param[0xA] = CODEC_F00_0A_16_BIT; codecOpenVoice(pState, PI_INDEX, &as); codecOpenVoice(pState, PO_INDEX, &as); pState->pNodes[1].node.au32F00_param[0xA] |= CODEC_F00_0A_44_1KHZ; uint8_t i; Assert(pState->pNodes); Assert(pState->pfnCodecNodeReset); for (i = 0; i < pState->cTotalNodes; ++i) { pState->pfnCodecNodeReset(pState, i, &pState->pNodes[i]); } codecToAudVolume(&pState->pNodes[pState->u8DacLineOut].dac.B_params, AUD_MIXER_VOLUME); codecToAudVolume(&pState->pNodes[pState->u8AdcVolsLineIn].adcvol.B_params, AUD_MIXER_LINE_IN); /* If no host voices were created, then fallback to nul audio. */ if (!AUD_is_host_voice_in_ok(pState->SwVoiceIn)) LogRel (("HDA: WARNING: Unable to open PCM IN!\n")); if (!AUD_is_host_voice_out_ok(pState->SwVoiceOut)) LogRel (("HDA: WARNING: Unable to open PCM OUT!\n")); if ( !AUD_is_host_voice_in_ok(pState->SwVoiceIn) && !AUD_is_host_voice_out_ok(pState->SwVoiceOut)) { /* Was not able initialize *any* voice. Select the NULL audio driver instead */ AUD_close_in (&pState->card, pState->SwVoiceIn); AUD_close_out (&pState->card, pState->SwVoiceOut); pState->SwVoiceOut = NULL; pState->SwVoiceIn = NULL; AUD_init_null (); PDMDevHlpVMSetRuntimeError (pDevIns, 0 /*fFlags*/, "HostAudioNotResponding", N_ ("No audio devices could be opened. Selecting the NULL audio backend " "with the consequence that no sound is audible")); } else if ( !AUD_is_host_voice_in_ok(pState->SwVoiceIn) || !AUD_is_host_voice_out_ok(pState->SwVoiceOut)) { char szMissingVoices[128]; size_t len = 0; if (!AUD_is_host_voice_in_ok(pState->SwVoiceIn)) len = RTStrPrintf (szMissingVoices, sizeof(szMissingVoices), "PCM_in"); if (!AUD_is_host_voice_out_ok(pState->SwVoiceOut)) len += RTStrPrintf (szMissingVoices + len, sizeof(szMissingVoices) - len, len ? ", PCM_out" : "PCM_out"); PDMDevHlpVMSetRuntimeError (pDevIns, 0 /*fFlags*/, "HostAudioNotResponding", N_ ("Some audio devices (%s) could not be opened. Guest applications generating audio " "output or depending on audio input may hang. Make sure your host audio device " "is working properly. Check the logfile for error messages of the audio " "subsystem"), szMissingVoices); } return VINF_SUCCESS; } int codecDestruct(CODECState *pCodecState) { RTMemFree(pCodecState->pNodes); return VINF_SUCCESS; } int codecSaveState(CODECState *pCodecState, PSSMHANDLE pSSMHandle) { SSMR3PutMem (pSSMHandle, pCodecState->pNodes, sizeof(CODECNODE) * pCodecState->cTotalNodes); return VINF_SUCCESS; } int codecLoadState(CODECState *pCodecState, PSSMHANDLE pSSMHandle) { SSMR3GetMem (pSSMHandle, pCodecState->pNodes, sizeof(CODECNODE) * pCodecState->cTotalNodes); if (codecIsDacNode(pCodecState, pCodecState->u8DacLineOut)) codecToAudVolume(&pCodecState->pNodes[pCodecState->u8DacLineOut].dac.B_params, AUD_MIXER_VOLUME); else if (codecIsSpdifOutNode(pCodecState, pCodecState->u8DacLineOut)) codecToAudVolume(&pCodecState->pNodes[pCodecState->u8DacLineOut].spdifout.B_params, AUD_MIXER_VOLUME); codecToAudVolume(&pCodecState->pNodes[pCodecState->u8AdcVolsLineIn].adcvol.B_params, AUD_MIXER_LINE_IN); return VINF_SUCCESS; }