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Add audren:u IPC service wrapper with structure definitions

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fincs 2018-08-13 16:29:07 +02:00
parent 80439a186b
commit 6fbf25fb62
3 changed files with 742 additions and 0 deletions
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1
nx/include/switch.h
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@ -44,6 +44,7 @@ extern "C" {
#include "switch/services/applet.h"
#include "switch/services/audin.h"
#include "switch/services/audout.h"
#include "switch/services/audren.h"
#include "switch/services/csrng.h"
#include "switch/services/bpc.h"
//#include "switch/services/bsd.h" Use switch/runtime/devices/socket.h instead

327
nx/include/switch/services/audren.h Normal file
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@ -0,0 +1,327 @@
/**
* @file audren.h
* @brief Audio renderer service.
* @author fincs
* @copyright libnx Authors
*/
#pragma once
#include "../audio/audio.h"
#ifdef __cplusplus
#define AUDREN_CONSTEXPR constexpr
#else
#define AUDREN_CONSTEXPR static inline
#endif
#define AUDREN_TIMER_FREQ_HZ 200.0f
#define AUDREN_TIMER_PERIOD_MS 5.0f
#define AUDREN_SAMPLES_PER_FRAME_32KHZ 160
#define AUDREN_SAMPLES_PER_FRAME_48KHZ 240
#define AUDREN_INPUT_PARAM_ALIGNMENT 0x1000
#define AUDREN_OUTPUT_PARAM_ALIGNMENT 0x10
#define AUDREN_MEMPOOL_ALIGNMENT 0x1000
#define AUDREN_BUFFER_ALIGNMENT 0x40
#define AUDREN_REVISION_1 0x31564552 // REV1 [1.0.0+?]
#define AUDREN_REVISION_2 0x32564552 // REV2 [2.0.0+?]
#define AUDREN_REVISION_3 0x33564552 // REV3 [3.0.0+?]
#define AUDREN_REVISION_4 0x34564552 // REV4 [somewhere after 3.0.0, possibly 4.0.0+?]
#define AUDREN_NODEID(_a,_b,_c) ((((u32)(_a) & 0xF) << 28) | (((u32)(_b) & 0xFFF) << 16) | ((u32)(_c) & 0xFFFF))
#define AUDREN_FINAL_MIX_ID 0
#define AUDREN_UNUSED_MIX_ID 0x7FFFFFFF
#define AUDREN_UNUSED_SPLITTER_ID 0xFFFFFFFF
#define AUDREN_DEFAULT_DEVICE_NAME "MainAudioOut"
typedef enum {
AudioRendererOutputRate_32kHz,
AudioRendererOutputRate_48kHz,
} AudioRendererOutputRate;
typedef struct {
AudioRendererOutputRate output_rate;
int num_voices;
int num_effects;
int num_sinks;
int num_mix_objs;
int num_mix_buffers;
} AudioRendererConfig;
/*
Input buffer layout:
AudioRendererUpdateDataHeader
AudioRendererBehaviorInfoIn
AudioRendererMemPoolInfoIn * mempool_count
AudioRendererChannelInfoIn * channel_count
AudioRendererVoiceInfoIn * voice_count
(effects would go here)
(splitters would go here)
AudioRendererMixInfoIn * mix_count (i.e. submix_count+1)
AudioRendererSinkInfoIn * sink_count
AudioRendererPerformanceBufferInfoIn
*/
/*
Output buffer layout:
AudioRendererUpdateDataHeader
AudioRendererMemPoolInfoOut * mempool_count
AudioRendererVoiceInfoOut * voice_count
(effects would go here)
AudioRendererSinkInfoOut * sink_count
AudioRendererPerformanceBufferInfoOut
AudioRendererBehaviorInfoOut
*/
typedef struct {
u32 revision;
u32 behavior_sz;
u32 mempools_sz;
u32 voices_sz;
u32 channels_sz;
u32 effects_sz;
u32 mixes_sz;
u32 sinks_sz;
u32 perfmgr_sz;
u32 _padding[6];
u32 total_sz;
} AudioRendererUpdateDataHeader;
typedef struct {
u32 revision;
u32 _padding1;
u64 flags;
} AudioRendererBehaviorInfoIn;
typedef struct {
u64 unknown[20];
u64 _padding1[2];
} AudioRendererBehaviorInfoOut;
typedef enum {
AudioRendererMemPoolState_Invalid,
AudioRendererMemPoolState_New,
AudioRendererMemPoolState_RequestDetach,
AudioRendererMemPoolState_Detached,
AudioRendererMemPoolState_RequestAttach,
AudioRendererMemPoolState_Attached,
AudioRendererMemPoolState_Released,
} AudioRendererMemPoolState;
typedef struct {
const void* address;
u64 size;
AudioRendererMemPoolState state;
u32 _padding2[3];
} AudioRendererMemPoolInfoIn;
typedef struct
{
AudioRendererMemPoolState new_state;
u32 _padding2[3];
} AudioRendererMemPoolInfoOut;
typedef struct {
u32 id;
float mix[24];
bool is_used;
u8 _padding1[11];
} AudioRendererChannelInfoIn;
typedef struct {
bool enable;
u8 _padding;
s16 numerator[3];
s16 denominator[2];
} AudioRendererBiquadFilter;
typedef struct {
u16 coefficients[16];
} AudioRendererAdpcmParameters;
typedef struct {
u16 index;
s16 history0;
s16 history1;
} AudioRendererAdpcmContext;
typedef struct {
const void* address;
u64 size;
s32 start_sample_offset;
s32 end_sample_offset;
bool is_looping;
bool end_of_stream;
bool sent_to_server;
u8 _padding1[5];
const void* context_addr;
u64 context_sz;
u64 _padding2;
} AudioRendererWaveBuf;
typedef enum {
AudioRendererVoicePlayState_Started,
AudioRendererVoicePlayState_Stopped,
AudioRendererVoicePlayState_Paused,
} AudioRendererVoicePlayState;
typedef struct {
u32 id;
u32 node_id;
bool is_new;
bool is_used;
AudioRendererVoicePlayState state : 8;
PcmFormat sample_format : 8;
u32 sample_rate;
u32 priority;
u32 sorting_order;
u32 channel_count;
float pitch;
float volume;
AudioRendererBiquadFilter biquads[2];
u32 wavebuf_count;
s16 wavebuf_head;
u16 _padding1;
u32 _padding2;
const void* extra_params_ptr;
u64 extra_params_sz;
u32 dest_mix_id;
u32 dest_splitter_id;
AudioRendererWaveBuf wavebufs[4];
u32 channel_ids[6];
u8 _padding3[24];
} AudioRendererVoiceInfoIn;
typedef struct {
u64 played_sample_count;
u32 num_wavebufs_consumed;
u32 voice_drops_count;
} AudioRendererVoiceInfoOut;
typedef struct {
float volume;
u32 sample_rate;
u32 buffer_count;
bool is_used;
u8 _padding1[3];
u32 mix_id;
u32 _padding2;
u32 node_id;
u32 _padding3[2];
float mix[24][24]; // [src_index][dest_index]
u32 dest_mix_id;
u32 dest_splitter_id;
u32 _padding4;
} AudioRendererMixInfoIn;
typedef struct {
u8 coefficients[16];
} AudioRendererDownMixParameters;
typedef enum {
AudioRendererSinkType_Invalid,
AudioRendererSinkType_Device,
AudioRendererSinkType_CircularBuffer,
} AudioRendererSinkType;
typedef struct {
char name[255];
u8 _padding1;
u32 input_count;
u8 inputs[6];
u8 _padding2;
bool downmix_params_enabled;
AudioRendererDownMixParameters downmix_params;
} AudioRendererDeviceSinkInfoIn;
typedef struct {
void* buffer_ptr;
u32 buffer_sz;
u32 input_count;
u32 sample_count;
u32 last_read_offset;
PcmFormat sample_format;
u8 inputs[6];
u8 _padding2[6];
} AudioRendererCircularBufferSinkInfoIn;
typedef struct {
AudioRendererSinkType type : 8;
bool is_used;
u8 _padding1[2];
u32 node_id;
u64 _padding2[3];
union {
AudioRendererDeviceSinkInfoIn device_sink;
AudioRendererCircularBufferSinkInfoIn circular_buffer_sink;
};
} AudioRendererSinkInfoIn;
typedef struct {
u32 last_written_offset;
u32 unk1;
u64 unk2;
u64 _padding1[2];
} AudioRendererSinkInfoOut;
typedef struct {
u32 detail_target;
u32 _padding1[3];
} AudioRendererPerformanceBufferInfoIn;
typedef struct {
u32 written_sz;
u32 _padding1[3];
} AudioRendererPerformanceBufferInfoOut;
static inline u32 audrenGetRevision(void)
{
extern u32 g_audrenRevision;
return g_audrenRevision;
}
AUDREN_CONSTEXPR int audrenGetMemPoolCount(const AudioRendererConfig* config)
{
return config->num_effects + 4 * config->num_voices;
}
AUDREN_CONSTEXPR size_t audrenGetInputParamSize(const AudioRendererConfig* config)
{
size_t size = 0;
size += sizeof(AudioRendererUpdateDataHeader);
size += sizeof(AudioRendererBehaviorInfoIn);
size += sizeof(AudioRendererMemPoolInfoIn) * audrenGetMemPoolCount(config);
size += sizeof(AudioRendererChannelInfoIn) * config->num_voices;
size += sizeof(AudioRendererVoiceInfoIn) * config->num_voices;
// todo: effects, splitters
size += sizeof(AudioRendererMixInfoIn) * config->num_mix_objs;
size += sizeof(AudioRendererSinkInfoIn) * config->num_sinks;
size += sizeof(AudioRendererPerformanceBufferInfoIn);
return size;
}
AUDREN_CONSTEXPR size_t audrenGetOutputParamSize(const AudioRendererConfig* config)
{
size_t size = 0;
size += sizeof(AudioRendererUpdateDataHeader);
size += sizeof(AudioRendererMemPoolInfoOut) * audrenGetMemPoolCount(config);
size += sizeof(AudioRendererVoiceInfoOut) * config->num_voices;
// todo: effects
size += sizeof(AudioRendererSinkInfoOut) * config->num_sinks;
size += sizeof(AudioRendererPerformanceBufferInfoOut);
size += sizeof(AudioRendererBehaviorInfoOut);
return size;
}
Result audrenInitialize(const AudioRendererConfig* config);
void audrenExit(void);
void audrenWaitFrame(void);
Result audrenGetState(u32* out_state);
Result audrenRequestUpdateAudioRenderer(const void* in_param_buf, size_t in_param_buf_size, void* out_param_buf, size_t out_param_buf_size, void* perf_buf, size_t perf_buf_size);
Result audrenStartAudioRenderer(void);
Result audrenStopAudioRenderer(void);
Result audrenSetAudioRendererRenderingTimeLimit(int percent);

414
nx/source/services/audren.c Normal file
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@ -0,0 +1,414 @@
#include <string.h>
#include "types.h"
#include "result.h"
#include "arm/atomics.h"
#include "kernel/ipc.h"
#include "kernel/tmem.h"
#include "kernel/event.h"
#include "services/sm.h"
#include "services/applet.h"
#include "services/audren.h"
u32 g_audrenRevision;
static Service g_audrenIAudioRenderer;
static TransferMemory g_audrenWorkBuf;
static Event g_audrenEvent;
typedef struct {
s32 sample_rate;
s32 sample_count;
s32 mix_buffer_count;
s32 submix_count;
s32 voice_count;
s32 sink_count;
s32 effect_count;
s32 unk1;
u8 unk2;
u8 _padding1[3];
s32 splitter_count;
s32 unk3;
s32 unk4;
u32 revision;
} AudioRendererParameter;
static Result _audrenOpenAudioRenderer(Service* audren_mgr, const AudioRendererParameter* param, u64 aruid);
static Result _audrenGetWorkBufferSize(Service* audren_mgr, const AudioRendererParameter* param, u64* out_size);
static Result _audrenQuerySystemEvent(void);
Result audrenInitialize(const AudioRendererConfig* config)
{
Result rc;
if (serviceIsActive(&g_audrenIAudioRenderer))
return MAKERESULT(Module_Libnx, LibnxError_AlreadyInitialized);
// Validate configuration
if (config->num_voices < 1 || config->num_voices > 1024)
return MAKERESULT(Module_Libnx, LibnxError_BadInput);
if (config->num_effects < 0 || config->num_effects > 256)
return MAKERESULT(Module_Libnx, LibnxError_BadInput);
if (config->num_sinks < 1 || config->num_sinks > 256)
return MAKERESULT(Module_Libnx, LibnxError_BadInput);
if (config->num_mix_objs < 1 || config->num_mix_objs > 256)
return MAKERESULT(Module_Libnx, LibnxError_BadInput);
if (config->num_mix_buffers < 1 || config->num_mix_buffers > 256)
return MAKERESULT(Module_Libnx, LibnxError_BadInput);
// Choose revision (i.e. if splitters are used then at least revision 2 must be used)
// (TODO: abstract away differences between revisions according to provided parameters)
g_audrenRevision = AUDREN_REVISION_3; // todo: ?!?
// Prepare parameter structure
AudioRendererParameter param = {0};
param.sample_rate = config->output_rate == AudioRendererOutputRate_32kHz ? 32000 : 48000;
param.sample_count = config->output_rate == AudioRendererOutputRate_32kHz ? AUDREN_SAMPLES_PER_FRAME_32KHZ : AUDREN_SAMPLES_PER_FRAME_48KHZ;
param.mix_buffer_count = config->num_mix_buffers;
param.submix_count = config->num_mix_objs - 1;
param.voice_count = config->num_voices;
param.sink_count = config->num_sinks;
param.effect_count = config->num_effects;
param.revision = g_audrenRevision;
// Get aruid
u64 aruid = 0;
rc = appletGetAppletResourceUserId(&aruid);
//if (R_FAILED(rc)) return rc; // apparently audren still inits fine with aruid = 0 so this isn't a fatal error condition
// Open IAudioRendererManager
Service audrenMgrSrv;
rc = smGetService(&audrenMgrSrv, "audren:u");
if (R_SUCCEEDED(rc))
{
// Get required work buffer size
size_t workBufSize = 0;
rc = _audrenGetWorkBufferSize(&audrenMgrSrv, &param, &workBufSize);
if (R_SUCCEEDED(rc))
{
// Create transfermem work buffer object
workBufSize = (workBufSize + 0xFFF) &~ 0xFFF; // 1.x fails hard and returns a non-page-aligned work buffer size
rc = tmemCreate(&g_audrenWorkBuf, workBufSize, Perm_None);
if (R_SUCCEEDED(rc))
{
// Create the IAudioRenderer service
rc = _audrenOpenAudioRenderer(&audrenMgrSrv, &param, aruid);
if (R_SUCCEEDED(rc))
{
// Finally, get the handle to the system event
rc = _audrenQuerySystemEvent();
if (R_FAILED(rc))
serviceClose(&g_audrenIAudioRenderer);
}
if (R_FAILED(rc))
tmemClose(&g_audrenWorkBuf);
}
}
serviceClose(&audrenMgrSrv);
}
return rc;
}
void audrenExit(void)
{
if (!serviceIsActive(&g_audrenIAudioRenderer))
return;
eventClose(&g_audrenEvent);
serviceClose(&g_audrenIAudioRenderer);
tmemClose(&g_audrenWorkBuf);
}
void audrenWaitFrame(void)
{
eventWait(&g_audrenEvent, U64_MAX);
eventClear(&g_audrenEvent);
}
Result _audrenOpenAudioRenderer(Service* audren_mgr, const AudioRendererParameter* param, u64 aruid)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
AudioRendererParameter param;
u64 work_buffer_size;
u64 aruid;
} *raw;
ipcSendPid(&c);
ipcSendHandleCopy(&c, g_audrenWorkBuf.handle);
ipcSendHandleCopy(&c, CUR_PROCESS_HANDLE);
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 0;
raw->param = *param;
raw->work_buffer_size = g_audrenWorkBuf.size;
raw->aruid = aruid;
Result rc = serviceIpcDispatch(audren_mgr);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
if (R_SUCCEEDED(rc))
serviceCreate(&g_audrenIAudioRenderer, r.Handles[0]);
}
return rc;
}
Result _audrenGetWorkBufferSize(Service* audren_mgr, const AudioRendererParameter* param, size_t* out_size)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
AudioRendererParameter param;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 1;
raw->param = *param;
Result rc = serviceIpcDispatch(audren_mgr);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
u64 work_buf_size;
} *resp = r.Raw;
rc = resp->result;
if (R_SUCCEEDED(rc) && out_size)
*out_size = resp->work_buf_size;
}
return rc;
}
Result audrenGetState(u32* out_state)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 3;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
u32 state;
} *resp = r.Raw;
rc = resp->result;
if (R_SUCCEEDED(rc) && out_state)
*out_state = resp->state;
}
return rc;
}
Result audrenRequestUpdateAudioRenderer(const void* in_param_buf, size_t in_param_buf_size, void* out_param_buf, size_t out_param_buf_size, void* perf_buf, size_t perf_buf_size)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
} *raw;
ipcAddSendBuffer(&c, in_param_buf, in_param_buf_size, BufferType_Normal);
ipcAddRecvBuffer(&c, out_param_buf, out_param_buf_size, BufferType_Normal);
ipcAddRecvBuffer(&c, perf_buf, perf_buf_size, BufferType_Normal);
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 4;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
}
return rc;
}
Result audrenStartAudioRenderer(void)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 5;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
}
return rc;
}
Result audrenStopAudioRenderer(void)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 6;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
}
return rc;
}
Result _audrenQuerySystemEvent(void)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 7;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
if (R_SUCCEEDED(rc))
eventLoadRemote(&g_audrenEvent, r.Handles[0]);
}
return rc;
}
Result audrenSetAudioRendererRenderingTimeLimit(int percent)
{
IpcCommand c;
ipcInitialize(&c);
struct {
u64 magic;
u64 cmd_id;
int percent;
} *raw;
raw = ipcPrepareHeader(&c, sizeof(*raw));
raw->magic = SFCI_MAGIC;
raw->cmd_id = 8;
raw->percent = percent;
Result rc = serviceIpcDispatch(&g_audrenIAudioRenderer);
if (R_SUCCEEDED(rc)) {
IpcParsedCommand r;
ipcParse(&r);
struct {
u64 magic;
u64 result;
} *resp = r.Raw;
rc = resp->result;
}
return rc;
}