/* -*- tab-width: 8; c-basic-offset: 4 -*- */ /* * Sample Wine Driver for Advanced Linux Sound System (ALSA) * Based on version of the ALSA API * * Copyright 2002 Eric Pouech * 2002 Marco Pietrobono * 2003 Christian Costa : WaveIn support * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* unless someone makes a wineserver kernel module, Unix pipes are faster than win32 events */ #define USE_PIPE_SYNC #include "config.h" #include "wine/port.h" #include #include #include #include #ifdef HAVE_UNISTD_H # include #endif #include #include #include #ifdef HAVE_SYS_IOCTL_H # include #endif #ifdef HAVE_SYS_MMAN_H # include #endif #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winerror.h" #include "winuser.h" #include "winnls.h" #include "winreg.h" #include "mmddk.h" #include "mmreg.h" #include "dsound.h" #include "dsdriver.h" #include "ks.h" #include "ksguid.h" #include "ksmedia.h" #define ALSA_PCM_NEW_HW_PARAMS_API #define ALSA_PCM_NEW_SW_PARAMS_API #include "alsa.h" #include "wine/library.h" #include "wine/unicode.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(wave); #ifdef HAVE_ALSA /* internal ALSALIB functions */ /* FIXME: we shouldn't be using internal functions... */ snd_pcm_uframes_t _snd_pcm_mmap_hw_ptr(snd_pcm_t *pcm); /* state diagram for waveOut writing: * * +---------+-------------+---------------+---------------------------------+ * | state | function | event | new state | * +---------+-------------+---------------+---------------------------------+ * | | open() | | STOPPED | * | PAUSED | write() | | PAUSED | * | STOPPED | write() | | PLAYING | * | PLAYING | write() | HEADER | PLAYING | * | (other) | write() | | | * | (any) | pause() | PAUSING | PAUSED | * | PAUSED | restart() | RESTARTING | PLAYING (if no thrd => STOPPED) | * | (any) | reset() | RESETTING | STOPPED | * | (any) | close() | CLOSING | CLOSED | * +---------+-------------+---------------+---------------------------------+ */ /* states of the playing device */ #define WINE_WS_PLAYING 0 #define WINE_WS_PAUSED 1 #define WINE_WS_STOPPED 2 #define WINE_WS_CLOSED 3 /* events to be send to device */ enum win_wm_message { WINE_WM_PAUSING = WM_USER + 1, WINE_WM_RESTARTING, WINE_WM_RESETTING, WINE_WM_HEADER, WINE_WM_UPDATE, WINE_WM_BREAKLOOP, WINE_WM_CLOSING, WINE_WM_STARTING, WINE_WM_STOPPING }; #ifdef USE_PIPE_SYNC #define SIGNAL_OMR(omr) do { int x = 0; write((omr)->msg_pipe[1], &x, sizeof(x)); } while (0) #define CLEAR_OMR(omr) do { int x = 0; read((omr)->msg_pipe[0], &x, sizeof(x)); } while (0) #define RESET_OMR(omr) do { } while (0) #define WAIT_OMR(omr, sleep) \ do { struct pollfd pfd; pfd.fd = (omr)->msg_pipe[0]; \ pfd.events = POLLIN; poll(&pfd, 1, sleep); } while (0) #else #define SIGNAL_OMR(omr) do { SetEvent((omr)->msg_event); } while (0) #define CLEAR_OMR(omr) do { } while (0) #define RESET_OMR(omr) do { ResetEvent((omr)->msg_event); } while (0) #define WAIT_OMR(omr, sleep) \ do { WaitForSingleObject((omr)->msg_event, sleep); } while (0) #endif typedef struct { enum win_wm_message msg; /* message identifier */ DWORD param; /* parameter for this message */ HANDLE hEvent; /* if message is synchronous, handle of event for synchro */ } ALSA_MSG; /* implement an in-process message ring for better performance * (compared to passing thru the server) * this ring will be used by the input (resp output) record (resp playback) routine */ #define ALSA_RING_BUFFER_INCREMENT 64 typedef struct { ALSA_MSG * messages; int ring_buffer_size; int msg_tosave; int msg_toget; #ifdef USE_PIPE_SYNC int msg_pipe[2]; #else HANDLE msg_event; #endif CRITICAL_SECTION msg_crst; } ALSA_MSG_RING; typedef struct { volatile int state; /* one of the WINE_WS_ manifest constants */ WAVEOPENDESC waveDesc; WORD wFlags; WAVEFORMATPCMEX format; char* pcmname; /* string name of alsa PCM device */ char* ctlname; /* string name of alsa control device */ char interface_name[MAXPNAMELEN * 2]; snd_pcm_t* pcm; /* handle to ALSA playback device */ snd_pcm_hw_params_t * hw_params; DWORD dwBufferSize; /* size of whole ALSA buffer in bytes */ LPWAVEHDR lpQueuePtr; /* start of queued WAVEHDRs (waiting to be notified) */ LPWAVEHDR lpPlayPtr; /* start of not yet fully played buffers */ LPWAVEHDR lpLoopPtr; /* pointer of first buffer in loop, if any */ DWORD dwLoops; /* private copy of loop counter */ DWORD dwPlayedTotal; /* number of bytes actually played since opening */ DWORD dwWrittenTotal; /* number of bytes written to ALSA buffer since opening */ /* synchronization stuff */ HANDLE hStartUpEvent; HANDLE hThread; DWORD dwThreadID; ALSA_MSG_RING msgRing; /* DirectSound stuff */ DSDRIVERDESC ds_desc; DSDRIVERCAPS ds_caps; /* Waveout only fields */ WAVEOUTCAPSW outcaps; snd_hctl_t * hctl; /* control handle for the playback volume */ snd_pcm_sframes_t (*write)(snd_pcm_t *, const void *, snd_pcm_uframes_t ); DWORD dwPartialOffset; /* Offset of not yet written bytes in lpPlayPtr */ /* Wavein only fields */ WAVEINCAPSW incaps; DWORD dwSupport; snd_pcm_sframes_t (*read)(snd_pcm_t *, void *, snd_pcm_uframes_t ); DWORD dwPeriodSize; /* size of OSS buffer period */ DWORD dwTotalRecorded; } WINE_WAVEDEV; /*---------------------------------------------------------------------------- ** Global array of output and input devices, initialized via ALSA_WaveInit */ #define WAVEDEV_ALLOC_EXTENT_SIZE 10 static WINE_WAVEDEV *WOutDev; static DWORD ALSA_WodNumMallocedDevs; static DWORD ALSA_WodNumDevs; static WINE_WAVEDEV *WInDev; static DWORD ALSA_WidNumMallocedDevs; static DWORD ALSA_WidNumDevs; static DWORD wodDsCreate(UINT wDevID, PIDSDRIVER* drv); static DWORD wodDsDesc(UINT wDevID, PDSDRIVERDESC desc); /*======================================================================* * Utility functions * *======================================================================*/ /* These strings used only for tracing */ static const char * getCmdString(enum win_wm_message msg) { static char unknown[32]; #define MSG_TO_STR(x) case x: return #x switch(msg) { MSG_TO_STR(WINE_WM_PAUSING); MSG_TO_STR(WINE_WM_RESTARTING); MSG_TO_STR(WINE_WM_RESETTING); MSG_TO_STR(WINE_WM_HEADER); MSG_TO_STR(WINE_WM_UPDATE); MSG_TO_STR(WINE_WM_BREAKLOOP); MSG_TO_STR(WINE_WM_CLOSING); MSG_TO_STR(WINE_WM_STARTING); MSG_TO_STR(WINE_WM_STOPPING); } #undef MSG_TO_STR sprintf(unknown, "UNKNOWN(0x%08x)", msg); return unknown; } static const char * getMessage(UINT msg) { static char unknown[32]; #define MSG_TO_STR(x) case x: return #x switch(msg) { MSG_TO_STR(DRVM_INIT); MSG_TO_STR(DRVM_EXIT); MSG_TO_STR(DRVM_ENABLE); MSG_TO_STR(DRVM_DISABLE); MSG_TO_STR(WIDM_OPEN); MSG_TO_STR(WIDM_CLOSE); MSG_TO_STR(WIDM_ADDBUFFER); MSG_TO_STR(WIDM_PREPARE); MSG_TO_STR(WIDM_UNPREPARE); MSG_TO_STR(WIDM_GETDEVCAPS); MSG_TO_STR(WIDM_GETNUMDEVS); MSG_TO_STR(WIDM_GETPOS); MSG_TO_STR(WIDM_RESET); MSG_TO_STR(WIDM_START); MSG_TO_STR(WIDM_STOP); MSG_TO_STR(WODM_OPEN); MSG_TO_STR(WODM_CLOSE); MSG_TO_STR(WODM_WRITE); MSG_TO_STR(WODM_PAUSE); MSG_TO_STR(WODM_GETPOS); MSG_TO_STR(WODM_BREAKLOOP); MSG_TO_STR(WODM_PREPARE); MSG_TO_STR(WODM_UNPREPARE); MSG_TO_STR(WODM_GETDEVCAPS); MSG_TO_STR(WODM_GETNUMDEVS); MSG_TO_STR(WODM_GETPITCH); MSG_TO_STR(WODM_SETPITCH); MSG_TO_STR(WODM_GETPLAYBACKRATE); MSG_TO_STR(WODM_SETPLAYBACKRATE); MSG_TO_STR(WODM_GETVOLUME); MSG_TO_STR(WODM_SETVOLUME); MSG_TO_STR(WODM_RESTART); MSG_TO_STR(WODM_RESET); MSG_TO_STR(DRV_QUERYDEVICEINTERFACESIZE); MSG_TO_STR(DRV_QUERYDEVICEINTERFACE); MSG_TO_STR(DRV_QUERYDSOUNDIFACE); MSG_TO_STR(DRV_QUERYDSOUNDDESC); } #undef MSG_TO_STR sprintf(unknown, "UNKNOWN(0x%04x)", msg); return unknown; } static const char * getFormat(WORD wFormatTag) { static char unknown[32]; #define FMT_TO_STR(x) case x: return #x switch(wFormatTag) { FMT_TO_STR(WAVE_FORMAT_PCM); FMT_TO_STR(WAVE_FORMAT_EXTENSIBLE); FMT_TO_STR(WAVE_FORMAT_MULAW); FMT_TO_STR(WAVE_FORMAT_ALAW); FMT_TO_STR(WAVE_FORMAT_ADPCM); } #undef FMT_TO_STR sprintf(unknown, "UNKNOWN(0x%04x)", wFormatTag); return unknown; } /* Allow 1% deviation for sample rates (some ES137x cards) */ static BOOL NearMatch(int rate1, int rate2) { return (((100 * (rate1 - rate2)) / rate1) == 0); } static DWORD bytes_to_mmtime(LPMMTIME lpTime, DWORD position, WAVEFORMATPCMEX* format) { TRACE("wType=%04X wBitsPerSample=%u nSamplesPerSec=%lu nChannels=%u nAvgBytesPerSec=%lu\n", lpTime->wType, format->Format.wBitsPerSample, format->Format.nSamplesPerSec, format->Format.nChannels, format->Format.nAvgBytesPerSec); TRACE("Position in bytes=%lu\n", position); switch (lpTime->wType) { case TIME_SAMPLES: lpTime->u.sample = position / (format->Format.wBitsPerSample / 8 * format->Format.nChannels); TRACE("TIME_SAMPLES=%lu\n", lpTime->u.sample); break; case TIME_MS: lpTime->u.ms = 1000.0 * position / (format->Format.wBitsPerSample / 8 * format->Format.nChannels * format->Format.nSamplesPerSec); TRACE("TIME_MS=%lu\n", lpTime->u.ms); break; case TIME_SMPTE: lpTime->u.smpte.fps = 30; position = position / (format->Format.wBitsPerSample / 8 * format->Format.nChannels); position += (format->Format.nSamplesPerSec / lpTime->u.smpte.fps) - 1; /* round up */ lpTime->u.smpte.sec = position / format->Format.nSamplesPerSec; position -= lpTime->u.smpte.sec * format->Format.nSamplesPerSec; lpTime->u.smpte.min = lpTime->u.smpte.sec / 60; lpTime->u.smpte.sec -= 60 * lpTime->u.smpte.min; lpTime->u.smpte.hour = lpTime->u.smpte.min / 60; lpTime->u.smpte.min -= 60 * lpTime->u.smpte.hour; lpTime->u.smpte.fps = 30; lpTime->u.smpte.frame = position * lpTime->u.smpte.fps / format->Format.nSamplesPerSec; TRACE("TIME_SMPTE=%02u:%02u:%02u:%02u\n", lpTime->u.smpte.hour, lpTime->u.smpte.min, lpTime->u.smpte.sec, lpTime->u.smpte.frame); break; default: WARN("Format %d not supported, using TIME_BYTES !\n", lpTime->wType); lpTime->wType = TIME_BYTES; /* fall through */ case TIME_BYTES: lpTime->u.cb = position; TRACE("TIME_BYTES=%lu\n", lpTime->u.cb); break; } return MMSYSERR_NOERROR; } static BOOL supportedFormat(LPWAVEFORMATEX wf) { TRACE("(%p)\n",wf); if (wf->nSamplesPerSecnSamplesPerSec>DSBFREQUENCY_MAX) return FALSE; if (wf->wFormatTag == WAVE_FORMAT_PCM) { if (wf->nChannels==1||wf->nChannels==2) { if (wf->wBitsPerSample==8||wf->wBitsPerSample==16) return TRUE; } } else if (wf->wFormatTag == WAVE_FORMAT_EXTENSIBLE) { WAVEFORMATEXTENSIBLE * wfex = (WAVEFORMATEXTENSIBLE *)wf; if (wf->cbSize == 22 && (IsEqualGUID(&wfex->SubFormat, &KSDATAFORMAT_SUBTYPE_PCM) || IsEqualGUID(&wfex->SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT))) { if (wf->nChannels>=1 && wf->nChannels<=6) { if (wf->wBitsPerSample==wfex->Samples.wValidBitsPerSample) { if (wf->wBitsPerSample==8||wf->wBitsPerSample==16|| wf->wBitsPerSample==24||wf->wBitsPerSample==32) { return TRUE; } } else WARN("wBitsPerSample != wValidBitsPerSample not supported yet\n"); } } else WARN("only KSDATAFORMAT_SUBTYPE_PCM and KSDATAFORMAT_SUBTYPE_IEEE_FLOAT " "supported\n"); } else if (wf->wFormatTag == WAVE_FORMAT_MULAW || wf->wFormatTag == WAVE_FORMAT_ALAW) { if (wf->wBitsPerSample==8) return TRUE; else ERR("WAVE_FORMAT_MULAW and WAVE_FORMAT_ALAW wBitsPerSample must = 8\n"); } else if (wf->wFormatTag == WAVE_FORMAT_ADPCM) { if (wf->wBitsPerSample==4) return TRUE; else ERR("WAVE_FORMAT_ADPCM wBitsPerSample must = 4\n"); } else WARN("only WAVE_FORMAT_PCM and WAVE_FORMAT_EXTENSIBLE supported\n"); return FALSE; } static void copy_format(LPWAVEFORMATEX wf1, LPWAVEFORMATPCMEX wf2) { ZeroMemory(wf2, sizeof(wf2)); if (wf1->wFormatTag == WAVE_FORMAT_PCM) memcpy(wf2, wf1, sizeof(PCMWAVEFORMAT)); else if (wf1->wFormatTag == WAVE_FORMAT_EXTENSIBLE) memcpy(wf2, wf1, sizeof(WAVEFORMATPCMEX)); else memcpy(wf2, wf1, sizeof(WAVEFORMATEX) + wf1->cbSize); } /*---------------------------------------------------------------------------- ** ALSA_RegGetString ** Retrieve a string from a registry key */ static int ALSA_RegGetString(HKEY key, const char *value, char **bufp) { DWORD rc; DWORD type; DWORD bufsize; *bufp = NULL; rc = RegQueryValueExA(key, value, NULL, &type, NULL, &bufsize); if (rc != ERROR_SUCCESS) return(rc); if (type != REG_SZ) return 1; *bufp = HeapAlloc(GetProcessHeap(), 0, bufsize); if (! *bufp) return 1; rc = RegQueryValueExA(key, value, NULL, NULL, (LPBYTE)*bufp, &bufsize); return rc; } /*---------------------------------------------------------------------------- ** ALSA_RegGetBoolean ** Get a string and interpret it as a boolean */ #define IS_OPTION_TRUE(ch) ((ch) == 'y' || (ch) == 'Y' || (ch) == 't' || (ch) == 'T' || (ch) == '1') static int ALSA_RegGetBoolean(HKEY key, const char *value, BOOL *answer) { DWORD rc; char *buf = NULL; rc = ALSA_RegGetString(key, value, &buf); if (buf) { *answer = FALSE; if (IS_OPTION_TRUE(*buf)) *answer = TRUE; HeapFree(GetProcessHeap(), 0, buf); } return rc; } /*---------------------------------------------------------------------------- ** ALSA_RegGetBoolean ** Get a string and interpret it as a DWORD */ static int ALSA_RegGetInt(HKEY key, const char *value, DWORD *answer) { DWORD rc; char *buf = NULL; rc = ALSA_RegGetString(key, value, &buf); if (buf) { *answer = atoi(buf); HeapFree(GetProcessHeap(), 0, buf); } return rc; } /*======================================================================* * Low level WAVE implementation * *======================================================================*/ /*---------------------------------------------------------------------------- ** ALSA_TestDeviceForWine ** ** Test to see if a given device is sufficient for Wine. */ static int ALSA_TestDeviceForWine(int card, int device, snd_pcm_stream_t streamtype) { snd_pcm_t *pcm = NULL; char pcmname[256]; int retcode; snd_pcm_hw_params_t *hwparams; char *reason = NULL; unsigned int rrate; /* Note that the plug: device masks out a lot of info, we want to avoid that */ sprintf(pcmname, "hw:%d,%d", card, device); retcode = snd_pcm_open(&pcm, pcmname, streamtype, SND_PCM_NONBLOCK); if (retcode < 0) { /* Note that a busy device isn't automatically disqualified */ if (retcode == (-1 * EBUSY)) retcode = 0; goto exit; } snd_pcm_hw_params_alloca(&hwparams); retcode = snd_pcm_hw_params_any(pcm, hwparams); if (retcode < 0) { reason = "Could not retrieve hw_params"; goto exit; } /* set the count of channels */ retcode = snd_pcm_hw_params_set_channels(pcm, hwparams, 2); if (retcode < 0) { reason = "Could not set channels"; goto exit; } rrate = 44100; retcode = snd_pcm_hw_params_set_rate_near(pcm, hwparams, &rrate, 0); if (retcode < 0) { reason = "Could not set rate"; goto exit; } if (rrate == 0) { reason = "Rate came back as 0"; goto exit; } /* write the parameters to device */ retcode = snd_pcm_hw_params(pcm, hwparams); if (retcode < 0) { reason = "Could not set hwparams"; goto exit; } retcode = 0; exit: if (pcm) snd_pcm_close(pcm); if (retcode != 0 && retcode != (-1 * ENOENT)) TRACE("Discarding card %d/device %d: %s [%d(%s)]\n", card, device, reason, retcode, snd_strerror(retcode)); return retcode; } /************************************************************************** * ALSA_CheckSetVolume [internal] * * Helper function for Alsa volume queries. This tries to simplify * the process of managing the volume. All parameters are optional * (pass NULL to ignore or not use). * Return values are MMSYSERR_NOERROR on success, or !0 on failure; * error codes are normalized into the possible documented return * values from waveOutGetVolume. */ static int ALSA_CheckSetVolume(snd_hctl_t *hctl, int *out_left, int *out_right, int *out_min, int *out_max, int *out_step, int *new_left, int *new_right) { int rc = MMSYSERR_NOERROR; int value_count = 0; snd_hctl_elem_t * elem = NULL; snd_ctl_elem_info_t * eleminfop = NULL; snd_ctl_elem_value_t * elemvaluep = NULL; snd_ctl_elem_id_t * elemidp = NULL; #define EXIT_ON_ERROR(f,txt,exitcode) do \ { \ int err; \ if ( (err = (f) ) < 0) \ { \ ERR(txt " failed: %s\n", snd_strerror(err)); \ rc = exitcode; \ goto out; \ } \ } while(0) if (! hctl) return MMSYSERR_NOTSUPPORTED; /* Allocate areas to return information about the volume */ EXIT_ON_ERROR(snd_ctl_elem_id_malloc(&elemidp), "snd_ctl_elem_id_malloc", MMSYSERR_NOMEM); EXIT_ON_ERROR(snd_ctl_elem_value_malloc (&elemvaluep), "snd_ctl_elem_value_malloc", MMSYSERR_NOMEM); EXIT_ON_ERROR(snd_ctl_elem_info_malloc (&eleminfop), "snd_ctl_elem_info_malloc", MMSYSERR_NOMEM); snd_ctl_elem_id_clear(elemidp); snd_ctl_elem_value_clear(elemvaluep); snd_ctl_elem_info_clear(eleminfop); /* Setup and find an element id that exactly matches the characteristic we want ** FIXME: It is probably short sighted to hard code and fixate on PCM Playback Volume */ snd_ctl_elem_id_set_name(elemidp, "PCM Playback Volume"); snd_ctl_elem_id_set_interface(elemidp, SND_CTL_ELEM_IFACE_MIXER); elem = snd_hctl_find_elem(hctl, elemidp); if (elem) { /* Read and return volume information */ EXIT_ON_ERROR(snd_hctl_elem_info(elem, eleminfop), "snd_hctl_elem_info", MMSYSERR_NOTSUPPORTED); value_count = snd_ctl_elem_info_get_count(eleminfop); if (out_min || out_max || out_step) { if (!snd_ctl_elem_info_is_readable(eleminfop)) { ERR("snd_ctl_elem_info_is_readable returned false; cannot return info\n"); rc = MMSYSERR_NOTSUPPORTED; goto out; } if (out_min) *out_min = snd_ctl_elem_info_get_min(eleminfop); if (out_max) *out_max = snd_ctl_elem_info_get_max(eleminfop); if (out_step) *out_step = snd_ctl_elem_info_get_step(eleminfop); } if (out_left || out_right) { EXIT_ON_ERROR(snd_hctl_elem_read(elem, elemvaluep), "snd_hctl_elem_read", MMSYSERR_NOTSUPPORTED); if (out_left) *out_left = snd_ctl_elem_value_get_integer(elemvaluep, 0); if (out_right) { if (value_count == 1) *out_right = snd_ctl_elem_value_get_integer(elemvaluep, 0); else if (value_count == 2) *out_right = snd_ctl_elem_value_get_integer(elemvaluep, 1); else { ERR("Unexpected value count %d from snd_ctl_elem_info_get_count while getting volume info\n", value_count); rc = -1; goto out; } } } /* Set the volume */ if (new_left || new_right) { EXIT_ON_ERROR(snd_hctl_elem_read(elem, elemvaluep), "snd_hctl_elem_read", MMSYSERR_NOTSUPPORTED); if (new_left) snd_ctl_elem_value_set_integer(elemvaluep, 0, *new_left); if (new_right) { if (value_count == 1) snd_ctl_elem_value_set_integer(elemvaluep, 0, *new_right); else if (value_count == 2) snd_ctl_elem_value_set_integer(elemvaluep, 1, *new_right); else { ERR("Unexpected value count %d from snd_ctl_elem_info_get_count while setting volume info\n", value_count); rc = -1; goto out; } } EXIT_ON_ERROR(snd_hctl_elem_write(elem, elemvaluep), "snd_hctl_elem_write", MMSYSERR_NOTSUPPORTED); } } else { ERR("Could not find 'PCM Playback Volume' element\n"); rc = MMSYSERR_NOTSUPPORTED; } #undef EXIT_ON_ERROR out: if (elemvaluep) snd_ctl_elem_value_free(elemvaluep); if (eleminfop) snd_ctl_elem_info_free(eleminfop); if (elemidp) snd_ctl_elem_id_free(elemidp); return rc; } /************************************************************************** * ALSA_XRUNRecovery [internal] * * used to recovery from XRUN errors (buffer underflow/overflow) */ static int ALSA_XRUNRecovery(WINE_WAVEDEV * wwo, int err) { if (err == -EPIPE) { /* under-run */ err = snd_pcm_prepare(wwo->pcm); if (err < 0) ERR( "underrun recovery failed. prepare failed: %s\n", snd_strerror(err)); return 0; } else if (err == -ESTRPIPE) { while ((err = snd_pcm_resume(wwo->pcm)) == -EAGAIN) sleep(1); /* wait until the suspend flag is released */ if (err < 0) { err = snd_pcm_prepare(wwo->pcm); if (err < 0) ERR("recovery from suspend failed, prepare failed: %s\n", snd_strerror(err)); } return 0; } return err; } /************************************************************************** * ALSA_TraceParameters [internal] * * used to trace format changes, hw and sw parameters */ static void ALSA_TraceParameters(snd_pcm_hw_params_t * hw_params, snd_pcm_sw_params_t * sw, int full) { int err; snd_pcm_format_t format; snd_pcm_access_t access; err = snd_pcm_hw_params_get_access(hw_params, &access); err = snd_pcm_hw_params_get_format(hw_params, &format); #define X(x) ((x)? "true" : "false") if (full) TRACE("FLAGS: sampleres=%s overrng=%s pause=%s resume=%s syncstart=%s batch=%s block=%s double=%s " "halfd=%s joint=%s\n", X(snd_pcm_hw_params_can_mmap_sample_resolution(hw_params)), X(snd_pcm_hw_params_can_overrange(hw_params)), X(snd_pcm_hw_params_can_pause(hw_params)), X(snd_pcm_hw_params_can_resume(hw_params)), X(snd_pcm_hw_params_can_sync_start(hw_params)), X(snd_pcm_hw_params_is_batch(hw_params)), X(snd_pcm_hw_params_is_block_transfer(hw_params)), X(snd_pcm_hw_params_is_double(hw_params)), X(snd_pcm_hw_params_is_half_duplex(hw_params)), X(snd_pcm_hw_params_is_joint_duplex(hw_params))); #undef X if (access >= 0) TRACE("access=%s\n", snd_pcm_access_name(access)); else { snd_pcm_access_mask_t * acmask; snd_pcm_access_mask_alloca(&acmask); snd_pcm_hw_params_get_access_mask(hw_params, acmask); for ( access = SND_PCM_ACCESS_MMAP_INTERLEAVED; access <= SND_PCM_ACCESS_LAST; access++) if (snd_pcm_access_mask_test(acmask, access)) TRACE("access=%s\n", snd_pcm_access_name(access)); } if (format >= 0) { TRACE("format=%s\n", snd_pcm_format_name(format)); } else { snd_pcm_format_mask_t * fmask; snd_pcm_format_mask_alloca(&fmask); snd_pcm_hw_params_get_format_mask(hw_params, fmask); for ( format = SND_PCM_FORMAT_S8; format <= SND_PCM_FORMAT_LAST ; format++) if ( snd_pcm_format_mask_test(fmask, format) ) TRACE("format=%s\n", snd_pcm_format_name(format)); } do { int err=0; unsigned int val=0; err = snd_pcm_hw_params_get_channels(hw_params, &val); if (err<0) { unsigned int min = 0; unsigned int max = 0; err = snd_pcm_hw_params_get_channels_min(hw_params, &min), err = snd_pcm_hw_params_get_channels_max(hw_params, &max); TRACE("channels_min=%u, channels_min_max=%u\n", min, max); } else { TRACE("channels=%d\n", val); } } while(0); do { int err=0; snd_pcm_uframes_t val=0; err = snd_pcm_hw_params_get_buffer_size(hw_params, &val); if (err<0) { snd_pcm_uframes_t min = 0; snd_pcm_uframes_t max = 0; err = snd_pcm_hw_params_get_buffer_size_min(hw_params, &min), err = snd_pcm_hw_params_get_buffer_size_max(hw_params, &max); TRACE("buffer_size_min=%lu, buffer_size_min_max=%lu\n", min, max); } else { TRACE("buffer_size=%lu\n", val); } } while(0); #define X(x) do { \ int err=0; \ int dir=0; \ unsigned int val=0; \ err = snd_pcm_hw_params_get_##x(hw_params,&val, &dir); \ if (err<0) { \ unsigned int min = 0; \ unsigned int max = 0; \ err = snd_pcm_hw_params_get_##x##_min(hw_params, &min, &dir); \ err = snd_pcm_hw_params_get_##x##_max(hw_params, &max, &dir); \ TRACE(#x "_min=%u " #x "_max=%u\n", min, max); \ } else \ TRACE(#x "=%d\n", val); \ } while(0) X(rate); X(buffer_time); X(periods); do { int err=0; int dir=0; snd_pcm_uframes_t val=0; err = snd_pcm_hw_params_get_period_size(hw_params, &val, &dir); if (err<0) { snd_pcm_uframes_t min = 0; snd_pcm_uframes_t max = 0; err = snd_pcm_hw_params_get_period_size_min(hw_params, &min, &dir), err = snd_pcm_hw_params_get_period_size_max(hw_params, &max, &dir); TRACE("period_size_min=%lu, period_size_min_max=%lu\n", min, max); } else { TRACE("period_size=%lu\n", val); } } while(0); X(period_time); X(tick_time); #undef X if (!sw) return; } /* return a string duplicated on the win32 process heap, free with HeapFree */ static char* ALSA_strdup(const char *s) { char *result = HeapAlloc(GetProcessHeap(), 0, strlen(s)+1); if (!result) return NULL; strcpy(result, s); return result; } #define ALSA_RETURN_ONFAIL(mycall) \ { \ int rc; \ {rc = mycall;} \ if ((rc) < 0) \ { \ ERR("%s failed: %s(%d)\n", #mycall, snd_strerror(rc), rc); \ return(rc); \ } \ } /*---------------------------------------------------------------------------- ** ALSA_ComputeCaps ** ** Given an ALSA PCM, figure out our HW CAPS structure info. ** ctl can be null, pcm is required, as is all output parms. ** */ static int ALSA_ComputeCaps(snd_ctl_t *ctl, snd_pcm_t *pcm, WORD *channels, DWORD *flags, DWORD *formats, DWORD *supports) { snd_pcm_hw_params_t *hw_params; snd_pcm_format_mask_t *fmask; snd_pcm_access_mask_t *acmask; unsigned int ratemin = 0; unsigned int ratemax = 0; unsigned int chmin = 0; unsigned int chmax = 0; int dir = 0; snd_pcm_hw_params_alloca(&hw_params); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_any(pcm, hw_params)); snd_pcm_format_mask_alloca(&fmask); snd_pcm_hw_params_get_format_mask(hw_params, fmask); snd_pcm_access_mask_alloca(&acmask); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_get_access_mask(hw_params, acmask)); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_get_rate_min(hw_params, &ratemin, &dir)); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_get_rate_max(hw_params, &ratemax, &dir)); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_get_channels_min(hw_params, &chmin)); ALSA_RETURN_ONFAIL(snd_pcm_hw_params_get_channels_max(hw_params, &chmax)); #define X(r,v) \ if ( (r) >= ratemin && ( (r) <= ratemax || ratemax == -1) ) \ { \ if (snd_pcm_format_mask_test( fmask, SND_PCM_FORMAT_U8)) \ { \ if (chmin <= 1 && 1 <= chmax) \ *formats |= WAVE_FORMAT_##v##M08; \ if (chmin <= 2 && 2 <= chmax) \ *formats |= WAVE_FORMAT_##v##S08; \ } \ if (snd_pcm_format_mask_test( fmask, SND_PCM_FORMAT_S16_LE)) \ { \ if (chmin <= 1 && 1 <= chmax) \ *formats |= WAVE_FORMAT_##v##M16; \ if (chmin <= 2 && 2 <= chmax) \ *formats |= WAVE_FORMAT_##v##S16; \ } \ } X(11025,1); X(22050,2); X(44100,4); X(48000,48); X(96000,96); #undef X if (chmin > 1) FIXME("Device has a minimum of %d channels\n", chmin); *channels = chmax; /* FIXME: is sample accurate always true ? ** Can we do WAVECAPS_PITCH, WAVECAPS_SYNC, or WAVECAPS_PLAYBACKRATE? */ *supports |= WAVECAPS_SAMPLEACCURATE; /* FIXME: NONITERLEAVED and COMPLEX are not supported right now */ if ( snd_pcm_access_mask_test( acmask, SND_PCM_ACCESS_MMAP_INTERLEAVED ) ) *supports |= WAVECAPS_DIRECTSOUND; /* check for volume control support */ if (ctl) { *supports |= WAVECAPS_VOLUME; if (chmin <= 2 && 2 <= chmax) *supports |= WAVECAPS_LRVOLUME; } if (*formats & (WAVE_FORMAT_1M08 | WAVE_FORMAT_2M08 | WAVE_FORMAT_4M08 | WAVE_FORMAT_48M08 | WAVE_FORMAT_96M08 | WAVE_FORMAT_1M16 | WAVE_FORMAT_2M16 | WAVE_FORMAT_4M16 | WAVE_FORMAT_48M16 | WAVE_FORMAT_96M16) ) *flags |= DSCAPS_PRIMARYMONO; if (*formats & (WAVE_FORMAT_1S08 | WAVE_FORMAT_2S08 | WAVE_FORMAT_4S08 | WAVE_FORMAT_48S08 | WAVE_FORMAT_96S08 | WAVE_FORMAT_1S16 | WAVE_FORMAT_2S16 | WAVE_FORMAT_4S16 | WAVE_FORMAT_48S16 | WAVE_FORMAT_96S16) ) *flags |= DSCAPS_PRIMARYSTEREO; if (*formats & (WAVE_FORMAT_1M08 | WAVE_FORMAT_2M08 | WAVE_FORMAT_4M08 | WAVE_FORMAT_48M08 | WAVE_FORMAT_96M08 | WAVE_FORMAT_1S08 | WAVE_FORMAT_2S08 | WAVE_FORMAT_4S08 | WAVE_FORMAT_48S08 | WAVE_FORMAT_96S08) ) *flags |= DSCAPS_PRIMARY8BIT; if (*formats & (WAVE_FORMAT_1M16 | WAVE_FORMAT_2M16 | WAVE_FORMAT_4M16 | WAVE_FORMAT_48M16 | WAVE_FORMAT_96M16 | WAVE_FORMAT_1S16 | WAVE_FORMAT_2S16 | WAVE_FORMAT_4S16 | WAVE_FORMAT_48S16 | WAVE_FORMAT_96S16) ) *flags |= DSCAPS_PRIMARY16BIT; return(0); } /*---------------------------------------------------------------------------- ** ALSA_AddCommonDevice ** ** Perform Alsa initialization common to both capture and playback ** ** Side Effect: ww->pcname and ww->ctlname may need to be freed. ** ** Note: this was originally coded by using snd_pcm_name(pcm), until ** I discovered that with at least one version of alsa lib, ** the use of a pcm named default:0 would cause snd_pcm_name() to fail. ** So passing the name in is logically extraneous. Sigh. */ static int ALSA_AddCommonDevice(snd_ctl_t *ctl, snd_pcm_t *pcm, const char *pcmname, WINE_WAVEDEV *ww) { snd_pcm_info_t *infop; snd_pcm_info_alloca(&infop); ALSA_RETURN_ONFAIL(snd_pcm_info(pcm, infop)); if (pcm && pcmname) ww->pcmname = ALSA_strdup(pcmname); else return -1; if (ctl && snd_ctl_name(ctl)) ww->ctlname = ALSA_strdup(snd_ctl_name(ctl)); strcpy(ww->interface_name, "winealsa: "); memcpy(ww->interface_name + strlen(ww->interface_name), ww->pcmname, min(strlen(ww->pcmname), sizeof(ww->interface_name) - strlen("winealsa: "))); strcpy(ww->ds_desc.szDrvname, "winealsa.drv"); memcpy(ww->ds_desc.szDesc, snd_pcm_info_get_name(infop), min( (sizeof(ww->ds_desc.szDesc) - 1), strlen(snd_pcm_info_get_name(infop))) ); ww->ds_caps.dwMinSecondarySampleRate = DSBFREQUENCY_MIN; ww->ds_caps.dwMaxSecondarySampleRate = DSBFREQUENCY_MAX; ww->ds_caps.dwPrimaryBuffers = 1; return 0; } /*---------------------------------------------------------------------------- ** ALSA_FreeDevice */ static void ALSA_FreeDevice(WINE_WAVEDEV *ww) { if (ww->pcmname) HeapFree(GetProcessHeap(), 0, ww->pcmname); ww->pcmname = NULL; if (ww->ctlname) HeapFree(GetProcessHeap(), 0, ww->ctlname); ww->ctlname = NULL; } /*---------------------------------------------------------------------------- ** ALSA_AddDeviceToArray ** ** Dynamically size one of the wavein or waveout arrays of devices, ** and add a fully configured device node to the array. ** */ static int ALSA_AddDeviceToArray(WINE_WAVEDEV *ww, WINE_WAVEDEV **array, DWORD *count, DWORD *alloced, int isdefault) { int i = *count; if (*count >= *alloced) { (*alloced) += WAVEDEV_ALLOC_EXTENT_SIZE; if (! (*array)) *array = HeapAlloc(GetProcessHeap(), 0, sizeof(*ww) * (*alloced)); else *array = HeapReAlloc(GetProcessHeap(), 0, *array, sizeof(*ww) * (*alloced)); if (!*array) { return -1; } } /* If this is the default, arrange for it to be the first element */ if (isdefault && i > 0) { (*array)[*count] = (*array)[0]; i = 0; } (*array)[i] = *ww; (*count)++; return 0; } /*---------------------------------------------------------------------------- ** ALSA_AddPlaybackDevice ** ** Add a given Alsa device to Wine's internal list of Playback ** devices. */ static int ALSA_AddPlaybackDevice(snd_ctl_t *ctl, snd_pcm_t *pcm, const char *pcmname, int isdefault) { WINE_WAVEDEV wwo; WCHAR nameW[MAXPNAMELEN * 2]; int rc; memset(&wwo, '\0', sizeof(wwo)); rc = ALSA_AddCommonDevice(ctl, pcm, pcmname, &wwo); if (rc) return(rc); MultiByteToWideChar(CP_ACP, 0, wwo.ds_desc.szDesc, -1, nameW, sizeof(nameW)/sizeof(WCHAR)); strcpyW(wwo.outcaps.szPname, nameW); wwo.outcaps.wMid = MM_CREATIVE; wwo.outcaps.wPid = MM_CREATIVE_SBP16_WAVEOUT; wwo.outcaps.vDriverVersion = 0x0100; rc = ALSA_ComputeCaps(ctl, pcm, &wwo.outcaps.wChannels, &wwo.ds_caps.dwFlags, &wwo.outcaps.dwFormats, &wwo.outcaps.dwSupport); if (rc) { WARN("Error calculating device caps for pcm [%s]\n", wwo.pcmname); ALSA_FreeDevice(&wwo); return(rc); } rc = ALSA_AddDeviceToArray(&wwo, &WOutDev, &ALSA_WodNumDevs, &ALSA_WodNumMallocedDevs, isdefault); if (rc) ALSA_FreeDevice(&wwo); return (rc); } /*---------------------------------------------------------------------------- ** ALSA_AddCaptureDevice ** ** Add a given Alsa device to Wine's internal list of Capture ** devices. */ static int ALSA_AddCaptureDevice(snd_ctl_t *ctl, snd_pcm_t *pcm, const char *pcmname, int isdefault) { WINE_WAVEDEV wwi; WCHAR nameW[MAXPNAMELEN * 2]; int rc; memset(&wwi, '\0', sizeof(wwi)); rc = ALSA_AddCommonDevice(ctl, pcm, pcmname, &wwi); if (rc) return(rc); MultiByteToWideChar(CP_ACP, 0, wwi.ds_desc.szDesc, -1, nameW, sizeof(nameW)/sizeof(WCHAR)); strcpyW(wwi.incaps.szPname, nameW); wwi.incaps.wMid = MM_CREATIVE; wwi.incaps.wPid = MM_CREATIVE_SBP16_WAVEOUT; wwi.incaps.vDriverVersion = 0x0100; rc = ALSA_ComputeCaps(ctl, pcm, &wwi.incaps.wChannels, &wwi.ds_caps.dwFlags, &wwi.incaps.dwFormats, &wwi.dwSupport); if (rc) { WARN("Error calculating device caps for pcm [%s]\n", wwi.pcmname); ALSA_FreeDevice(&wwi); return(rc); } rc = ALSA_AddDeviceToArray(&wwi, &WInDev, &ALSA_WidNumDevs, &ALSA_WidNumMallocedDevs, isdefault); if (rc) ALSA_FreeDevice(&wwi); return(rc); } /*---------------------------------------------------------------------------- ** ALSA_CheckEnvironment ** ** Given an Alsa style configuration node, scan its subitems ** for environment variable names, and use them to find an override, ** if appropriate. ** This is essentially a long and convolunted way of doing: ** getenv("ALSA_CARD") ** getenv("ALSA_CTL_CARD") ** getenv("ALSA_PCM_CARD") ** getenv("ALSA_PCM_DEVICE") ** ** The output value is set with the atoi() of the first environment ** variable found to be set, if any; otherwise, it is left alone */ static void ALSA_CheckEnvironment(snd_config_t *node, int *outvalue) { snd_config_iterator_t iter; for (iter = snd_config_iterator_first(node); iter != snd_config_iterator_end(node); iter = snd_config_iterator_next(iter)) { snd_config_t *leaf = snd_config_iterator_entry(iter); if (snd_config_get_type(leaf) == SND_CONFIG_TYPE_STRING) { const char *value; if (snd_config_get_string(leaf, &value) >= 0) { char *p = getenv(value); if (p) { *outvalue = atoi(p); return; } } } } } /*---------------------------------------------------------------------------- ** ALSA_DefaultDevices ** ** Jump through Alsa style hoops to (hopefully) properly determine ** Alsa defaults for CTL Card #, as well as for PCM Card + Device #. ** We'll also find out if the user has set any of the environment ** variables that specify we're to use a specific card or device. ** ** Parameters: ** directhw Whether to use a direct hardware device or not; ** essentially switches the pcm device name from ** one of 'default:X' or 'plughw:X' to "hw:X" ** defctlcard If !NULL, will hold the ctl card number given ** by the ALSA config as the default ** defpcmcard If !NULL, default pcm card # ** defpcmdev If !NULL, default pcm device # ** fixedctlcard If !NULL, and the user set the appropriate ** environment variable, we'll set to the ** card the user specified. ** fixedpcmcard If !NULL, and the user set the appropriate ** environment variable, we'll set to the ** card the user specified. ** fixedpcmdev If !NULL, and the user set the appropriate ** environment variable, we'll set to the ** device the user specified. ** ** Returns: 0 on success, < 0 on failiure */ static int ALSA_DefaultDevices(int directhw, long *defctlcard, long *defpcmcard, long *defpcmdev, int *fixedctlcard, int *fixedpcmcard, int *fixedpcmdev) { snd_config_t *configp; char pcmsearch[256]; ALSA_RETURN_ONFAIL(snd_config_update()); if (defctlcard) if (snd_config_search(snd_config, "defaults.ctl.card", &configp) >= 0) snd_config_get_integer(configp, defctlcard); if (defpcmcard) if (snd_config_search(snd_config, "defaults.pcm.card", &configp) >= 0) snd_config_get_integer(configp, defpcmcard); if (defpcmdev) if (snd_config_search(snd_config, "defaults.pcm.device", &configp) >= 0) snd_config_get_integer(configp, defpcmdev); if (fixedctlcard) { if (snd_config_search(snd_config, "ctl.hw.@args.CARD.default.vars", &configp) >= 0) ALSA_CheckEnvironment(configp, fixedctlcard); } if (fixedpcmcard) { sprintf(pcmsearch, "pcm.%s.@args.CARD.default.vars", directhw ? "hw" : "plughw"); if (snd_config_search(snd_config, pcmsearch, &configp) >= 0) ALSA_CheckEnvironment(configp, fixedpcmcard); } if (fixedpcmdev) { sprintf(pcmsearch, "pcm.%s.@args.DEV.default.vars", directhw ? "hw" : "plughw"); if (snd_config_search(snd_config, pcmsearch, &configp) >= 0) ALSA_CheckEnvironment(configp, fixedpcmdev); } return 0; } /*---------------------------------------------------------------------------- ** ALSA_ScanDevices ** ** Iterate through all discoverable ALSA cards, searching ** for usable PCM devices. ** ** Parameters: ** directhw Whether to use a direct hardware device or not; ** essentially switches the pcm device name from ** one of 'default:X' or 'plughw:X' to "hw:X" ** defctlcard Alsa's notion of the default ctl card. ** defpcmcard . pcm card ** defpcmdev . pcm device ** fixedctlcard If not -1, then gives the value of ALSA_CTL_CARD ** or equivalent environment variable ** fixedpcmcard If not -1, then gives the value of ALSA_PCM_CARD ** or equivalent environment variable ** fixedpcmdev If not -1, then gives the value of ALSA_PCM_DEVICE ** or equivalent environment variable ** ** Returns: 0 on success, < 0 on failiure */ static int ALSA_ScanDevices(int directhw, long defctlcard, long defpcmcard, long defpcmdev, int fixedctlcard, int fixedpcmcard, int fixedpcmdev) { int card = fixedpcmcard; int scan_devices = (fixedpcmdev == -1); /*------------------------------------------------------------------------ ** Loop through all available cards **----------------------------------------------------------------------*/ if (card == -1) snd_card_next(&card); for (; card != -1; snd_card_next(&card)) { char ctlname[256]; snd_ctl_t *ctl; int rc; int device; /*-------------------------------------------------------------------- ** Try to open a ctl handle; Wine doesn't absolutely require one, ** but it does allow for volume control and for device scanning **------------------------------------------------------------------*/ sprintf(ctlname, "default:%d", fixedctlcard == -1 ? card : fixedctlcard); rc = snd_ctl_open(&ctl, ctlname, SND_CTL_NONBLOCK); if (rc < 0) { sprintf(ctlname, "hw:%d", fixedctlcard == -1 ? card : fixedctlcard); rc = snd_ctl_open(&ctl, ctlname, SND_CTL_NONBLOCK); } if (rc < 0) { ctl = NULL; WARN("Unable to open an alsa ctl for [%s] (pcm card %d): %s; not scanning devices\n", ctlname, card, snd_strerror(rc)); if (fixedpcmdev == -1) fixedpcmdev = 0; } /*-------------------------------------------------------------------- ** Loop through all available devices on this card **------------------------------------------------------------------*/ device = fixedpcmdev; if (device == -1) snd_ctl_pcm_next_device(ctl, &device); for (; device != -1; snd_ctl_pcm_next_device(ctl, &device)) { char defaultpcmname[256]; char plugpcmname[256]; char hwpcmname[256]; char *pcmname = NULL; snd_pcm_t *pcm; sprintf(defaultpcmname, "default:%d", card); sprintf(plugpcmname, "plughw:%d,%d", card, device); sprintf(hwpcmname, "hw:%d,%d", card, device); /*---------------------------------------------------------------- ** See if it's a valid playback device **--------------------------------------------------------------*/ if (ALSA_TestDeviceForWine(card, device, SND_PCM_STREAM_PLAYBACK) == 0) { /* If we can, try the default:X device name first */ if (! scan_devices && ! directhw) { pcmname = defaultpcmname; rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_PLAYBACK, SND_PCM_NONBLOCK); } else rc = -1; if (rc < 0) { pcmname = directhw ? hwpcmname : plugpcmname; rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_PLAYBACK, SND_PCM_NONBLOCK); } if (rc >= 0) { if (defctlcard == card && defpcmcard == card && defpcmdev == device) ALSA_AddPlaybackDevice(ctl, pcm, pcmname, TRUE); else ALSA_AddPlaybackDevice(ctl, pcm, pcmname, FALSE); snd_pcm_close(pcm); } else { TRACE("Device [%s/%s] failed to open for playback: %s\n", directhw || scan_devices ? "(N/A)" : defaultpcmname, directhw ? hwpcmname : plugpcmname, snd_strerror(rc)); } } /*---------------------------------------------------------------- ** See if it's a valid capture device **--------------------------------------------------------------*/ if (ALSA_TestDeviceForWine(card, device, SND_PCM_STREAM_CAPTURE) == 0) { /* If we can, try the default:X device name first */ if (! scan_devices && ! directhw) { pcmname = defaultpcmname; rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_CAPTURE, SND_PCM_NONBLOCK); } else rc = -1; if (rc < 0) { pcmname = directhw ? hwpcmname : plugpcmname; rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_CAPTURE, SND_PCM_NONBLOCK); } if (rc >= 0) { if (defctlcard == card && defpcmcard == card && defpcmdev == device) ALSA_AddCaptureDevice(ctl, pcm, pcmname, TRUE); else ALSA_AddCaptureDevice(ctl, pcm, pcmname, FALSE); snd_pcm_close(pcm); } else { TRACE("Device [%s/%s] failed to open for capture: %s\n", directhw || scan_devices ? "(N/A)" : defaultpcmname, directhw ? hwpcmname : plugpcmname, snd_strerror(rc)); } } if (! scan_devices) break; } if (ctl) snd_ctl_close(ctl); /*-------------------------------------------------------------------- ** If the user has set env variables such that we're pegged to ** a specific card, then break after we've examined it **------------------------------------------------------------------*/ if (fixedpcmcard != -1) break; } return 0; } /*---------------------------------------------------------------------------- ** ALSA_PerformDefaultScan ** Perform the basic default scanning for devices within ALSA. ** The hope is that this routine implements a 'correct' ** scanning algorithm from the Alsalib point of view. ** ** Note that Wine, overall, has other mechanisms to ** override and specify exact CTL and PCM device names, ** but this routine is imagined as the default that ** 99% of users will use. ** ** The basic algorithm is simple: ** Use snd_card_next to iterate cards; within cards, use ** snd_ctl_pcm_next_device to iterate through devices. ** ** We add a little complexity by taking into consideration ** environment variables such as ALSA_CARD (et all), and by ** detecting when a given device matches the default specified ** by Alsa. ** ** Parameters: ** directhw If !0, indicates we should use the hw:X ** PCM interface, rather than first try ** the 'default' device followed by the plughw ** device. (default and plughw do fancy mixing ** and audio scaling, if they are available). ** devscan If TRUE, we should scan all devices, not ** juse use device 0 on each card ** ** Returns: ** 0 on succes ** ** Effects: ** Invokes the ALSA_AddXXXDevice functions on valid ** looking devices */ static int ALSA_PerformDefaultScan(int directhw, BOOL devscan) { long defctlcard = -1, defpcmcard = -1, defpcmdev = -1; int fixedctlcard = -1, fixedpcmcard = -1, fixedpcmdev = -1; int rc; /* FIXME: We should dlsym the new snd_names_list/snd_names_list_free 1.0.9 apis, ** and use them instead of this scan mechanism if they are present */ rc = ALSA_DefaultDevices(directhw, &defctlcard, &defpcmcard, &defpcmdev, &fixedctlcard, &fixedpcmcard, &fixedpcmdev); if (rc) return(rc); if (fixedpcmdev == -1 && ! devscan) fixedpcmdev = 0; return(ALSA_ScanDevices(directhw, defctlcard, defpcmcard, defpcmdev, fixedctlcard, fixedpcmcard, fixedpcmdev)); } /*---------------------------------------------------------------------------- ** ALSA_AddUserSpecifiedDevice ** Add a device given from the registry */ static int ALSA_AddUserSpecifiedDevice(const char *ctlname, const char *pcmname) { int rc; int okay = 0; snd_ctl_t *ctl = NULL; snd_pcm_t *pcm = NULL; if (ctlname) { rc = snd_ctl_open(&ctl, ctlname, SND_CTL_NONBLOCK); if (rc < 0) ctl = NULL; } rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_PLAYBACK, SND_PCM_NONBLOCK); if (rc >= 0) { ALSA_AddPlaybackDevice(ctl, pcm, pcmname, FALSE); okay++; snd_pcm_close(pcm); } rc = snd_pcm_open(&pcm, pcmname, SND_PCM_STREAM_CAPTURE, SND_PCM_NONBLOCK); if (rc >= 0) { ALSA_AddCaptureDevice(ctl, pcm, pcmname, FALSE); okay++; snd_pcm_close(pcm); } if (ctl) snd_ctl_close(ctl); return (okay == 0); } /*---------------------------------------------------------------------------- ** ALSA_WaveInit ** Initialize the Wine Alsa sub system. ** The main task is to probe for and store a list of all appropriate playback ** and capture devices. ** Key control points are from the registry key: ** [Software\Wine\Alsa Driver] ** AutoScanCards Whether or not to scan all known sound cards ** and add them to Wine's list (default yes) ** AutoScanDevices Whether or not to scan all known PCM devices ** on each card (default no) ** UseDirectHW Whether or not to use the hw:X device, ** instead of the fancy default:X or plughw:X device. ** The hw:X device goes straight to the hardware ** without any fancy mixing or audio scaling in between. ** DeviceCount If present, specifies the number of hard coded ** Alsa devices to add to Wine's list; default 0 ** DevicePCMn Specifies the Alsa PCM devices to open for ** Device n (where n goes from 1 to DeviceCount) ** DeviceCTLn Specifies the Alsa control devices to open for ** Device n (where n goes from 1 to DeviceCount) ** ** Using AutoScanCards no, and then Devicexxx info ** is a way to exactly specify the devices used by Wine. ** */ LONG ALSA_WaveInit(void) { DWORD rc; BOOL AutoScanCards = TRUE; BOOL AutoScanDevices = FALSE; BOOL UseDirectHW = FALSE; DWORD DeviceCount = 0; HKEY key = 0; int i; if (!wine_dlopen("libasound.so.2", RTLD_LAZY|RTLD_GLOBAL, NULL, 0)) { ERR("Error: ALSA lib needs to be loaded with flags RTLD_LAZY and RTLD_GLOBAL.\n"); return -1; } /* @@ Wine registry key: HKCU\Software\Wine\Alsa Driver */ rc = RegOpenKeyExA(HKEY_CURRENT_USER, "Software\\Wine\\Alsa Driver", 0, KEY_QUERY_VALUE, &key); if (rc == ERROR_SUCCESS) { ALSA_RegGetBoolean(key, "AutoScanCards", &AutoScanCards); ALSA_RegGetBoolean(key, "AutoScanDevices", &AutoScanDevices); ALSA_RegGetBoolean(key, "UseDirectHW", &UseDirectHW); ALSA_RegGetInt(key, "DeviceCount", &DeviceCount); } if (AutoScanCards) rc = ALSA_PerformDefaultScan(UseDirectHW, AutoScanDevices); for (i = 0; i < DeviceCount; i++) { char *ctl_name = NULL; char *pcm_name = NULL; char value[30]; sprintf(value, "DevicePCM%d", i + 1); if (ALSA_RegGetString(key, value, &pcm_name) == ERROR_SUCCESS) { sprintf(value, "DeviceCTL%d", i + 1); ALSA_RegGetString(key, value, &ctl_name); ALSA_AddUserSpecifiedDevice(ctl_name, pcm_name); } if (ctl_name) HeapFree(GetProcessHeap(), 0, ctl_name); if (pcm_name) HeapFree(GetProcessHeap(), 0, pcm_name); } if (key) RegCloseKey(key); return (rc); } /****************************************************************** * ALSA_InitRingMessage * * Initialize the ring of messages for passing between driver's caller and playback/record * thread */ static int ALSA_InitRingMessage(ALSA_MSG_RING* omr) { omr->msg_toget = 0; omr->msg_tosave = 0; #ifdef USE_PIPE_SYNC if (pipe(omr->msg_pipe) < 0) { omr->msg_pipe[0] = -1; omr->msg_pipe[1] = -1; ERR("could not create pipe, error=%s\n", strerror(errno)); } #else omr->msg_event = CreateEventW(NULL, FALSE, FALSE, NULL); #endif omr->ring_buffer_size = ALSA_RING_BUFFER_INCREMENT; omr->messages = HeapAlloc(GetProcessHeap(),HEAP_ZERO_MEMORY,omr->ring_buffer_size * sizeof(ALSA_MSG)); InitializeCriticalSection(&omr->msg_crst); return 0; } /****************************************************************** * ALSA_DestroyRingMessage * */ static int ALSA_DestroyRingMessage(ALSA_MSG_RING* omr) { #ifdef USE_PIPE_SYNC close(omr->msg_pipe[0]); close(omr->msg_pipe[1]); #else CloseHandle(omr->msg_event); #endif HeapFree(GetProcessHeap(),0,omr->messages); omr->ring_buffer_size = 0; DeleteCriticalSection(&omr->msg_crst); return 0; } /****************************************************************** * ALSA_AddRingMessage * * Inserts a new message into the ring (should be called from DriverProc derivated routines) */ static int ALSA_AddRingMessage(ALSA_MSG_RING* omr, enum win_wm_message msg, DWORD param, BOOL wait) { HANDLE hEvent = INVALID_HANDLE_VALUE; EnterCriticalSection(&omr->msg_crst); if ((omr->msg_toget == ((omr->msg_tosave + 1) % omr->ring_buffer_size))) { int old_ring_buffer_size = omr->ring_buffer_size; omr->ring_buffer_size += ALSA_RING_BUFFER_INCREMENT; TRACE("omr->ring_buffer_size=%d\n",omr->ring_buffer_size); omr->messages = HeapReAlloc(GetProcessHeap(),0,omr->messages, omr->ring_buffer_size * sizeof(ALSA_MSG)); /* Now we need to rearrange the ring buffer so that the new buffers just allocated are in between omr->msg_tosave and omr->msg_toget. */ if (omr->msg_tosave < omr->msg_toget) { memmove(&(omr->messages[omr->msg_toget + ALSA_RING_BUFFER_INCREMENT]), &(omr->messages[omr->msg_toget]), sizeof(ALSA_MSG)*(old_ring_buffer_size - omr->msg_toget) ); omr->msg_toget += ALSA_RING_BUFFER_INCREMENT; } } if (wait) { hEvent = CreateEventW(NULL, FALSE, FALSE, NULL); if (hEvent == INVALID_HANDLE_VALUE) { ERR("can't create event !?\n"); LeaveCriticalSection(&omr->msg_crst); return 0; } if (omr->msg_toget != omr->msg_tosave && omr->messages[omr->msg_toget].msg != WINE_WM_HEADER) FIXME("two fast messages in the queue!!!! toget = %d(%s), tosave=%d(%s)\n", omr->msg_toget,getCmdString(omr->messages[omr->msg_toget].msg), omr->msg_tosave,getCmdString(omr->messages[omr->msg_tosave].msg)); /* fast messages have to be added at the start of the queue */ omr->msg_toget = (omr->msg_toget + omr->ring_buffer_size - 1) % omr->ring_buffer_size; omr->messages[omr->msg_toget].msg = msg; omr->messages[omr->msg_toget].param = param; omr->messages[omr->msg_toget].hEvent = hEvent; } else { omr->messages[omr->msg_tosave].msg = msg; omr->messages[omr->msg_tosave].param = param; omr->messages[omr->msg_tosave].hEvent = INVALID_HANDLE_VALUE; omr->msg_tosave = (omr->msg_tosave + 1) % omr->ring_buffer_size; } LeaveCriticalSection(&omr->msg_crst); /* signal a new message */ SIGNAL_OMR(omr); if (wait) { /* wait for playback/record thread to have processed the message */ WaitForSingleObject(hEvent, INFINITE); CloseHandle(hEvent); } return 1; } /****************************************************************** * ALSA_RetrieveRingMessage * * Get a message from the ring. Should be called by the playback/record thread. */ static int ALSA_RetrieveRingMessage(ALSA_MSG_RING* omr, enum win_wm_message *msg, DWORD *param, HANDLE *hEvent) { EnterCriticalSection(&omr->msg_crst); if (omr->msg_toget == omr->msg_tosave) /* buffer empty ? */ { LeaveCriticalSection(&omr->msg_crst); return 0; } *msg = omr->messages[omr->msg_toget].msg; omr->messages[omr->msg_toget].msg = 0; *param = omr->messages[omr->msg_toget].param; *hEvent = omr->messages[omr->msg_toget].hEvent; omr->msg_toget = (omr->msg_toget + 1) % omr->ring_buffer_size; CLEAR_OMR(omr); LeaveCriticalSection(&omr->msg_crst); return 1; } /****************************************************************** * ALSA_PeekRingMessage * * Peek at a message from the ring but do not remove it. * Should be called by the playback/record thread. */ static int ALSA_PeekRingMessage(ALSA_MSG_RING* omr, enum win_wm_message *msg, DWORD *param, HANDLE *hEvent) { EnterCriticalSection(&omr->msg_crst); if (omr->msg_toget == omr->msg_tosave) /* buffer empty ? */ { LeaveCriticalSection(&omr->msg_crst); return 0; } *msg = omr->messages[omr->msg_toget].msg; *param = omr->messages[omr->msg_toget].param; *hEvent = omr->messages[omr->msg_toget].hEvent; LeaveCriticalSection(&omr->msg_crst); return 1; } /*======================================================================* * Low level WAVE OUT implementation * *======================================================================*/ /************************************************************************** * wodNotifyClient [internal] */ static DWORD wodNotifyClient(WINE_WAVEDEV* wwo, WORD wMsg, DWORD dwParam1, DWORD dwParam2) { TRACE("wMsg = 0x%04x dwParm1 = %04lX dwParam2 = %04lX\n", wMsg, dwParam1, dwParam2); switch (wMsg) { case WOM_OPEN: case WOM_CLOSE: case WOM_DONE: if (wwo->wFlags != DCB_NULL && !DriverCallback(wwo->waveDesc.dwCallback, wwo->wFlags, (HDRVR)wwo->waveDesc.hWave, wMsg, wwo->waveDesc.dwInstance, dwParam1, dwParam2)) { WARN("can't notify client !\n"); return MMSYSERR_ERROR; } break; default: FIXME("Unknown callback message %u\n", wMsg); return MMSYSERR_INVALPARAM; } return MMSYSERR_NOERROR; } /************************************************************************** * wodUpdatePlayedTotal [internal] * */ static BOOL wodUpdatePlayedTotal(WINE_WAVEDEV* wwo, snd_pcm_status_t* ps) { snd_pcm_sframes_t delay = 0; snd_pcm_state_t state; state = snd_pcm_state(wwo->pcm); snd_pcm_delay(wwo->pcm, &delay); /* A delay < 0 indicates an underrun; for our purposes that's 0. */ if ( (state != SND_PCM_STATE_RUNNING && state != SND_PCM_STATE_PREPARED) || (delay < 0)) { WARN("Unexpected state (%d) or delay (%ld) while updating Total Played, resetting\n", state, delay); delay=0; } wwo->dwPlayedTotal = wwo->dwWrittenTotal - snd_pcm_frames_to_bytes(wwo->pcm, delay); return TRUE; } /************************************************************************** * wodPlayer_BeginWaveHdr [internal] * * Makes the specified lpWaveHdr the currently playing wave header. * If the specified wave header is a begin loop and we're not already in * a loop, setup the loop. */ static void wodPlayer_BeginWaveHdr(WINE_WAVEDEV* wwo, LPWAVEHDR lpWaveHdr) { wwo->lpPlayPtr = lpWaveHdr; if (!lpWaveHdr) return; if (lpWaveHdr->dwFlags & WHDR_BEGINLOOP) { if (wwo->lpLoopPtr) { WARN("Already in a loop. Discarding loop on this header (%p)\n", lpWaveHdr); } else { TRACE("Starting loop (%ldx) with %p\n", lpWaveHdr->dwLoops, lpWaveHdr); wwo->lpLoopPtr = lpWaveHdr; /* Windows does not touch WAVEHDR.dwLoops, * so we need to make an internal copy */ wwo->dwLoops = lpWaveHdr->dwLoops; } } wwo->dwPartialOffset = 0; } /************************************************************************** * wodPlayer_PlayPtrNext [internal] * * Advance the play pointer to the next waveheader, looping if required. */ static LPWAVEHDR wodPlayer_PlayPtrNext(WINE_WAVEDEV* wwo) { LPWAVEHDR lpWaveHdr = wwo->lpPlayPtr; wwo->dwPartialOffset = 0; if ((lpWaveHdr->dwFlags & WHDR_ENDLOOP) && wwo->lpLoopPtr) { /* We're at the end of a loop, loop if required */ if (--wwo->dwLoops > 0) { wwo->lpPlayPtr = wwo->lpLoopPtr; } else { /* Handle overlapping loops correctly */ if (wwo->lpLoopPtr != lpWaveHdr && (lpWaveHdr->dwFlags & WHDR_BEGINLOOP)) { FIXME("Correctly handled case ? (ending loop buffer also starts a new loop)\n"); /* shall we consider the END flag for the closing loop or for * the opening one or for both ??? * code assumes for closing loop only */ } else { lpWaveHdr = lpWaveHdr->lpNext; } wwo->lpLoopPtr = NULL; wodPlayer_BeginWaveHdr(wwo, lpWaveHdr); } } else { /* We're not in a loop. Advance to the next wave header */ wodPlayer_BeginWaveHdr(wwo, lpWaveHdr = lpWaveHdr->lpNext); } return lpWaveHdr; } /************************************************************************** * wodPlayer_DSPWait [internal] * Returns the number of milliseconds to wait for the DSP buffer to play a * period */ static DWORD wodPlayer_DSPWait(const WINE_WAVEDEV *wwo) { /* time for one period to be played */ unsigned int val=0; int dir=0; int err=0; err = snd_pcm_hw_params_get_period_time(wwo->hw_params, &val, &dir); return val / 1000; } /************************************************************************** * wodPlayer_NotifyWait [internal] * Returns the number of milliseconds to wait before attempting to notify * completion of the specified wavehdr. * This is based on the number of bytes remaining to be written in the * wave. */ static DWORD wodPlayer_NotifyWait(const WINE_WAVEDEV* wwo, LPWAVEHDR lpWaveHdr) { DWORD dwMillis; if (lpWaveHdr->reserved < wwo->dwPlayedTotal) { dwMillis = 1; } else { dwMillis = (lpWaveHdr->reserved - wwo->dwPlayedTotal) * 1000 / wwo->format.Format.nAvgBytesPerSec; if (!dwMillis) dwMillis = 1; } return dwMillis; } /************************************************************************** * wodPlayer_WriteMaxFrags [internal] * Writes the maximum number of frames possible to the DSP and returns * the number of frames written. */ static int wodPlayer_WriteMaxFrags(WINE_WAVEDEV* wwo, DWORD* frames) { /* Only attempt to write to free frames */ LPWAVEHDR lpWaveHdr = wwo->lpPlayPtr; DWORD dwLength = snd_pcm_bytes_to_frames(wwo->pcm, lpWaveHdr->dwBufferLength - wwo->dwPartialOffset); int toWrite = min(dwLength, *frames); int written; TRACE("Writing wavehdr %p.%lu[%lu]\n", lpWaveHdr, wwo->dwPartialOffset, lpWaveHdr->dwBufferLength); if (toWrite > 0) { written = (wwo->write)(wwo->pcm, lpWaveHdr->lpData + wwo->dwPartialOffset, toWrite); if ( written < 0) { /* XRUN occurred. let's try to recover */ ALSA_XRUNRecovery(wwo, written); written = (wwo->write)(wwo->pcm, lpWaveHdr->lpData + wwo->dwPartialOffset, toWrite); } if (written <= 0) { /* still in error */ ERR("Error in writing wavehdr. Reason: %s\n", snd_strerror(written)); return written; } } else written = 0; wwo->dwPartialOffset += snd_pcm_frames_to_bytes(wwo->pcm, written); if ( wwo->dwPartialOffset >= lpWaveHdr->dwBufferLength) { /* this will be used to check if the given wave header has been fully played or not... */ wwo->dwPartialOffset = lpWaveHdr->dwBufferLength; /* If we wrote all current wavehdr, skip to the next one */ wodPlayer_PlayPtrNext(wwo); } *frames -= written; wwo->dwWrittenTotal += snd_pcm_frames_to_bytes(wwo->pcm, written); TRACE("dwWrittenTotal=%lu\n", wwo->dwWrittenTotal); return written; } /************************************************************************** * wodPlayer_NotifyCompletions [internal] * * Notifies and remove from queue all wavehdrs which have been played to * the speaker (ie. they have cleared the ALSA buffer). If force is true, * we notify all wavehdrs and remove them all from the queue even if they * are unplayed or part of a loop. */ static DWORD wodPlayer_NotifyCompletions(WINE_WAVEDEV* wwo, BOOL force) { LPWAVEHDR lpWaveHdr; /* Start from lpQueuePtr and keep notifying until: * - we hit an unwritten wavehdr * - we hit the beginning of a running loop * - we hit a wavehdr which hasn't finished playing */ #if 0 while ((lpWaveHdr = wwo->lpQueuePtr) && (force || (lpWaveHdr != wwo->lpPlayPtr && lpWaveHdr != wwo->lpLoopPtr && lpWaveHdr->reserved <= wwo->dwPlayedTotal))) { wwo->lpQueuePtr = lpWaveHdr->lpNext; lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wodNotifyClient(wwo, WOM_DONE, (DWORD)lpWaveHdr, 0); } #else for (;;) { lpWaveHdr = wwo->lpQueuePtr; if (!lpWaveHdr) {TRACE("Empty queue\n"); break;} if (!force) { if (lpWaveHdr == wwo->lpPlayPtr) {TRACE("play %p\n", lpWaveHdr); break;} if (lpWaveHdr == wwo->lpLoopPtr) {TRACE("loop %p\n", lpWaveHdr); break;} if (lpWaveHdr->reserved > wwo->dwPlayedTotal){TRACE("still playing %p (%lu/%lu)\n", lpWaveHdr, lpWaveHdr->reserved, wwo->dwPlayedTotal);break;} } wwo->lpQueuePtr = lpWaveHdr->lpNext; lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wodNotifyClient(wwo, WOM_DONE, (DWORD)lpWaveHdr, 0); } #endif return (lpWaveHdr && lpWaveHdr != wwo->lpPlayPtr && lpWaveHdr != wwo->lpLoopPtr) ? wodPlayer_NotifyWait(wwo, lpWaveHdr) : INFINITE; } /************************************************************************** * wodPlayer_Reset [internal] * * wodPlayer helper. Resets current output stream. */ static void wodPlayer_Reset(WINE_WAVEDEV* wwo) { enum win_wm_message msg; DWORD param; HANDLE ev; int err; TRACE("(%p)\n", wwo); /* flush all possible output */ snd_pcm_drain(wwo->pcm); wodUpdatePlayedTotal(wwo, NULL); /* updates current notify list */ wodPlayer_NotifyCompletions(wwo, FALSE); if ( (err = snd_pcm_drop(wwo->pcm)) < 0) { FIXME("flush: %s\n", snd_strerror(err)); wwo->hThread = 0; wwo->state = WINE_WS_STOPPED; ExitThread(-1); } if ( (err = snd_pcm_prepare(wwo->pcm)) < 0 ) ERR("pcm prepare failed: %s\n", snd_strerror(err)); /* remove any buffer */ wodPlayer_NotifyCompletions(wwo, TRUE); wwo->lpPlayPtr = wwo->lpQueuePtr = wwo->lpLoopPtr = NULL; wwo->state = WINE_WS_STOPPED; wwo->dwPlayedTotal = wwo->dwWrittenTotal = 0; /* Clear partial wavehdr */ wwo->dwPartialOffset = 0; /* remove any existing message in the ring */ EnterCriticalSection(&wwo->msgRing.msg_crst); /* return all pending headers in queue */ while (ALSA_RetrieveRingMessage(&wwo->msgRing, &msg, ¶m, &ev)) { if (msg != WINE_WM_HEADER) { FIXME("shouldn't have headers left\n"); SetEvent(ev); continue; } ((LPWAVEHDR)param)->dwFlags &= ~WHDR_INQUEUE; ((LPWAVEHDR)param)->dwFlags |= WHDR_DONE; wodNotifyClient(wwo, WOM_DONE, param, 0); } RESET_OMR(&wwo->msgRing); LeaveCriticalSection(&wwo->msgRing.msg_crst); } /************************************************************************** * wodPlayer_ProcessMessages [internal] */ static void wodPlayer_ProcessMessages(WINE_WAVEDEV* wwo) { LPWAVEHDR lpWaveHdr; enum win_wm_message msg; DWORD param; HANDLE ev; int err; while (ALSA_RetrieveRingMessage(&wwo->msgRing, &msg, ¶m, &ev)) { TRACE("Received %s %lx\n", getCmdString(msg), param); switch (msg) { case WINE_WM_PAUSING: if ( snd_pcm_state(wwo->pcm) == SND_PCM_STATE_RUNNING ) { err = snd_pcm_pause(wwo->pcm, 1); if ( err < 0 ) ERR("pcm_pause failed: %s\n", snd_strerror(err)); } wwo->state = WINE_WS_PAUSED; SetEvent(ev); break; case WINE_WM_RESTARTING: if (wwo->state == WINE_WS_PAUSED) { if ( snd_pcm_state(wwo->pcm) == SND_PCM_STATE_PAUSED ) { err = snd_pcm_pause(wwo->pcm, 0); if ( err < 0 ) ERR("pcm_pause failed: %s\n", snd_strerror(err)); } wwo->state = WINE_WS_PLAYING; } SetEvent(ev); break; case WINE_WM_HEADER: lpWaveHdr = (LPWAVEHDR)param; /* insert buffer at the end of queue */ { LPWAVEHDR* wh; for (wh = &(wwo->lpQueuePtr); *wh; wh = &((*wh)->lpNext)); *wh = lpWaveHdr; } if (!wwo->lpPlayPtr) wodPlayer_BeginWaveHdr(wwo,lpWaveHdr); if (wwo->state == WINE_WS_STOPPED) wwo->state = WINE_WS_PLAYING; break; case WINE_WM_RESETTING: wodPlayer_Reset(wwo); SetEvent(ev); break; case WINE_WM_UPDATE: wodUpdatePlayedTotal(wwo, NULL); SetEvent(ev); break; case WINE_WM_BREAKLOOP: if (wwo->state == WINE_WS_PLAYING && wwo->lpLoopPtr != NULL) { /* ensure exit at end of current loop */ wwo->dwLoops = 1; } SetEvent(ev); break; case WINE_WM_CLOSING: /* sanity check: this should not happen since the device must have been reset before */ if (wwo->lpQueuePtr || wwo->lpPlayPtr) ERR("out of sync\n"); wwo->hThread = 0; wwo->state = WINE_WS_CLOSED; SetEvent(ev); ExitThread(0); /* shouldn't go here */ default: FIXME("unknown message %d\n", msg); break; } } } /************************************************************************** * wodPlayer_FeedDSP [internal] * Feed as much sound data as we can into the DSP and return the number of * milliseconds before it will be necessary to feed the DSP again. */ static DWORD wodPlayer_FeedDSP(WINE_WAVEDEV* wwo) { DWORD availInQ; wodUpdatePlayedTotal(wwo, NULL); availInQ = snd_pcm_avail_update(wwo->pcm); #if 0 /* input queue empty and output buffer with less than one fragment to play */ if (!wwo->lpPlayPtr && wwo->dwBufferSize < availInQ + wwo->dwFragmentSize) { TRACE("Run out of wavehdr:s...\n"); return INFINITE; } #endif /* no more room... no need to try to feed */ if (availInQ > 0) { /* Feed from partial wavehdr */ if (wwo->lpPlayPtr && wwo->dwPartialOffset != 0) { wodPlayer_WriteMaxFrags(wwo, &availInQ); } /* Feed wavehdrs until we run out of wavehdrs or DSP space */ if (wwo->dwPartialOffset == 0 && wwo->lpPlayPtr) { do { TRACE("Setting time to elapse for %p to %lu\n", wwo->lpPlayPtr, wwo->dwWrittenTotal + wwo->lpPlayPtr->dwBufferLength); /* note the value that dwPlayedTotal will return when this wave finishes playing */ wwo->lpPlayPtr->reserved = wwo->dwWrittenTotal + wwo->lpPlayPtr->dwBufferLength; } while (wodPlayer_WriteMaxFrags(wwo, &availInQ) && wwo->lpPlayPtr && availInQ > 0); } } return wodPlayer_DSPWait(wwo); } /************************************************************************** * wodPlayer [internal] */ static DWORD CALLBACK wodPlayer(LPVOID pmt) { WORD uDevID = (DWORD)pmt; WINE_WAVEDEV* wwo = (WINE_WAVEDEV*)&WOutDev[uDevID]; DWORD dwNextFeedTime = INFINITE; /* Time before DSP needs feeding */ DWORD dwNextNotifyTime = INFINITE; /* Time before next wave completion */ DWORD dwSleepTime; wwo->state = WINE_WS_STOPPED; SetEvent(wwo->hStartUpEvent); for (;;) { /** Wait for the shortest time before an action is required. If there * are no pending actions, wait forever for a command. */ dwSleepTime = min(dwNextFeedTime, dwNextNotifyTime); TRACE("waiting %lums (%lu,%lu)\n", dwSleepTime, dwNextFeedTime, dwNextNotifyTime); WAIT_OMR(&wwo->msgRing, dwSleepTime); wodPlayer_ProcessMessages(wwo); if (wwo->state == WINE_WS_PLAYING) { dwNextFeedTime = wodPlayer_FeedDSP(wwo); dwNextNotifyTime = wodPlayer_NotifyCompletions(wwo, FALSE); if (dwNextFeedTime == INFINITE) { /* FeedDSP ran out of data, but before giving up, */ /* check that a notification didn't give us more */ wodPlayer_ProcessMessages(wwo); if (wwo->lpPlayPtr) { TRACE("recovering\n"); dwNextFeedTime = wodPlayer_FeedDSP(wwo); } } } else { dwNextFeedTime = dwNextNotifyTime = INFINITE; } } } /************************************************************************** * wodGetDevCaps [internal] */ static DWORD wodGetDevCaps(WORD wDevID, LPWAVEOUTCAPSW lpCaps, DWORD dwSize) { TRACE("(%u, %p, %lu);\n", wDevID, lpCaps, dwSize); if (lpCaps == NULL) return MMSYSERR_NOTENABLED; if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } memcpy(lpCaps, &WOutDev[wDevID].outcaps, min(dwSize, sizeof(*lpCaps))); return MMSYSERR_NOERROR; } /************************************************************************** * wodOpen [internal] */ static DWORD wodOpen(WORD wDevID, LPWAVEOPENDESC lpDesc, DWORD dwFlags) { WINE_WAVEDEV* wwo; snd_pcm_t * pcm = NULL; snd_hctl_t * hctl = NULL; snd_pcm_hw_params_t * hw_params = NULL; snd_pcm_sw_params_t * sw_params; snd_pcm_access_t access; snd_pcm_format_t format = -1; unsigned int rate; unsigned int buffer_time = 500000; unsigned int period_time = 10000; snd_pcm_uframes_t buffer_size; snd_pcm_uframes_t period_size; int flags; int err=0; int dir=0; DWORD retcode = 0; snd_pcm_sw_params_alloca(&sw_params); TRACE("(%u, %p, %08lX);\n", wDevID, lpDesc, dwFlags); if (lpDesc == NULL) { WARN("Invalid Parameter !\n"); return MMSYSERR_INVALPARAM; } if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } /* only PCM format is supported so far... */ if (!supportedFormat(lpDesc->lpFormat)) { WARN("Bad format: tag=%04X nChannels=%d nSamplesPerSec=%ld !\n", lpDesc->lpFormat->wFormatTag, lpDesc->lpFormat->nChannels, lpDesc->lpFormat->nSamplesPerSec); return WAVERR_BADFORMAT; } if (dwFlags & WAVE_FORMAT_QUERY) { TRACE("Query format: tag=%04X nChannels=%d nSamplesPerSec=%ld !\n", lpDesc->lpFormat->wFormatTag, lpDesc->lpFormat->nChannels, lpDesc->lpFormat->nSamplesPerSec); return MMSYSERR_NOERROR; } wwo = &WOutDev[wDevID]; if (wwo->pcm != NULL) { WARN("%d already allocated\n", wDevID); return MMSYSERR_ALLOCATED; } if ((dwFlags & WAVE_DIRECTSOUND) && !(wwo->outcaps.dwSupport & WAVECAPS_DIRECTSOUND)) /* not supported, ignore it */ dwFlags &= ~WAVE_DIRECTSOUND; flags = SND_PCM_NONBLOCK; /* FIXME - why is this ifdefed? */ #if 0 if ( dwFlags & WAVE_DIRECTSOUND ) flags |= SND_PCM_ASYNC; #endif if ( (err = snd_pcm_open(&pcm, wwo->pcmname, SND_PCM_STREAM_PLAYBACK, flags)) < 0) { ERR("Error open: %s\n", snd_strerror(err)); return MMSYSERR_NOTENABLED; } if (wwo->ctlname) { err = snd_hctl_open(&hctl, wwo->ctlname, 0); if (err >= 0) { snd_hctl_load(hctl); } else { WARN("Could not open hctl for [%s]: %s\n", wwo->ctlname, snd_strerror(err)); hctl = NULL; } } wwo->wFlags = HIWORD(dwFlags & CALLBACK_TYPEMASK); memcpy(&wwo->waveDesc, lpDesc, sizeof(WAVEOPENDESC)); copy_format(lpDesc->lpFormat, &wwo->format); TRACE("Requested this format: %ldx%dx%d %s\n", wwo->format.Format.nSamplesPerSec, wwo->format.Format.wBitsPerSample, wwo->format.Format.nChannels, getFormat(wwo->format.Format.wFormatTag)); if (wwo->format.Format.wBitsPerSample == 0) { WARN("Resetting zeroed wBitsPerSample\n"); wwo->format.Format.wBitsPerSample = 8 * (wwo->format.Format.nAvgBytesPerSec / wwo->format.Format.nSamplesPerSec) / wwo->format.Format.nChannels; } #define EXIT_ON_ERROR(f,e,txt) do \ { \ int err; \ if ( (err = (f) ) < 0) \ { \ WARN(txt ": %s\n", snd_strerror(err)); \ retcode=e; \ goto errexit; \ } \ } while(0) snd_pcm_hw_params_malloc(&hw_params); if (! hw_params) { retcode = MMSYSERR_NOMEM; goto errexit; } snd_pcm_hw_params_any(pcm, hw_params); access = SND_PCM_ACCESS_MMAP_INTERLEAVED; if ( ( err = snd_pcm_hw_params_set_access(pcm, hw_params, access ) ) < 0) { WARN("mmap not available. switching to standard write.\n"); access = SND_PCM_ACCESS_RW_INTERLEAVED; EXIT_ON_ERROR( snd_pcm_hw_params_set_access(pcm, hw_params, access ), MMSYSERR_INVALPARAM, "unable to set access for playback"); wwo->write = snd_pcm_writei; } else wwo->write = snd_pcm_mmap_writei; if ((err = snd_pcm_hw_params_set_channels(pcm, hw_params, wwo->format.Format.nChannels)) < 0) { WARN("unable to set required channels: %d\n", wwo->format.Format.nChannels); if (dwFlags & WAVE_DIRECTSOUND) { if (wwo->format.Format.nChannels > 2) wwo->format.Format.nChannels = 2; else if (wwo->format.Format.nChannels == 2) wwo->format.Format.nChannels = 1; else if (wwo->format.Format.nChannels == 1) wwo->format.Format.nChannels = 2; /* recalculate block align and bytes per second */ wwo->format.Format.nBlockAlign = (wwo->format.Format.wBitsPerSample * wwo->format.Format.nChannels) / 8; wwo->format.Format.nAvgBytesPerSec = wwo->format.Format.nSamplesPerSec * wwo->format.Format.nBlockAlign; WARN("changed number of channels from %d to %d\n", lpDesc->lpFormat->nChannels, wwo->format.Format.nChannels); } EXIT_ON_ERROR( snd_pcm_hw_params_set_channels(pcm, hw_params, wwo->format.Format.nChannels ), WAVERR_BADFORMAT, "unable to set required channels" ); } if ((wwo->format.Format.wFormatTag == WAVE_FORMAT_PCM) || ((wwo->format.Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE) && IsEqualGUID(&wwo->format.SubFormat, &KSDATAFORMAT_SUBTYPE_PCM))) { format = (wwo->format.Format.wBitsPerSample == 8) ? SND_PCM_FORMAT_U8 : (wwo->format.Format.wBitsPerSample == 16) ? SND_PCM_FORMAT_S16_LE : (wwo->format.Format.wBitsPerSample == 24) ? SND_PCM_FORMAT_S24_LE : (wwo->format.Format.wBitsPerSample == 32) ? SND_PCM_FORMAT_S32_LE : -1; } else if ((wwo->format.Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE) && IsEqualGUID(&wwo->format.SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT)){ format = (wwo->format.Format.wBitsPerSample == 32) ? SND_PCM_FORMAT_FLOAT_LE : -1; } else if (wwo->format.Format.wFormatTag == WAVE_FORMAT_MULAW) { FIXME("unimplemented format: WAVE_FORMAT_MULAW\n"); retcode = WAVERR_BADFORMAT; goto errexit; } else if (wwo->format.Format.wFormatTag == WAVE_FORMAT_ALAW) { FIXME("unimplemented format: WAVE_FORMAT_ALAW\n"); retcode = WAVERR_BADFORMAT; goto errexit; } else if (wwo->format.Format.wFormatTag == WAVE_FORMAT_ADPCM) { FIXME("unimplemented format: WAVE_FORMAT_ADPCM\n"); retcode = WAVERR_BADFORMAT; goto errexit; } else { ERR("invalid format: %0x04x\n", wwo->format.Format.wFormatTag); retcode = WAVERR_BADFORMAT; goto errexit; } if ((err = snd_pcm_hw_params_set_format(pcm, hw_params, format)) < 0) { WARN("unable to set required format: %s\n", snd_pcm_format_name(format)); if (dwFlags & WAVE_DIRECTSOUND) { if ((wwo->format.Format.wFormatTag == WAVE_FORMAT_PCM) || ((wwo->format.Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE) && IsEqualGUID(&wwo->format.SubFormat, & KSDATAFORMAT_SUBTYPE_PCM))) { if (wwo->format.Format.wBitsPerSample != 16) { wwo->format.Format.wBitsPerSample = 16; format = SND_PCM_FORMAT_S16_LE; } else { wwo->format.Format.wBitsPerSample = 8; format = SND_PCM_FORMAT_U8; } /* recalculate block align and bytes per second */ wwo->format.Format.nBlockAlign = (wwo->format.Format.wBitsPerSample * wwo->format.Format.nChannels) / 8; wwo->format.Format.nAvgBytesPerSec = wwo->format.Format.nSamplesPerSec * wwo->format.Format.nBlockAlign; WARN("changed bits per sample from %d to %d\n", lpDesc->lpFormat->wBitsPerSample, wwo->format.Format.wBitsPerSample); } } EXIT_ON_ERROR( snd_pcm_hw_params_set_format(pcm, hw_params, format), WAVERR_BADFORMAT, "unable to set required format" ); } rate = wwo->format.Format.nSamplesPerSec; dir=0; err = snd_pcm_hw_params_set_rate_near(pcm, hw_params, &rate, &dir); if (err < 0) { WARN("Rate %ld Hz not available for playback: %s\n", wwo->format.Format.nSamplesPerSec, snd_strerror(rate)); retcode = WAVERR_BADFORMAT; goto errexit; } if (!NearMatch(rate, wwo->format.Format.nSamplesPerSec)) { if (dwFlags & WAVE_DIRECTSOUND) { WARN("changed sample rate from %ld Hz to %d Hz\n", wwo->format.Format.nSamplesPerSec, rate); wwo->format.Format.nSamplesPerSec = rate; /* recalculate bytes per second */ wwo->format.Format.nAvgBytesPerSec = wwo->format.Format.nSamplesPerSec * wwo->format.Format.nBlockAlign; } else { WARN("Rate doesn't match (requested %ld Hz, got %d Hz)\n", wwo->format.Format.nSamplesPerSec, rate); retcode = WAVERR_BADFORMAT; goto errexit; } } /* give the new format back to direct sound */ if (dwFlags & WAVE_DIRECTSOUND) { lpDesc->lpFormat->wFormatTag = wwo->format.Format.wFormatTag; lpDesc->lpFormat->nChannels = wwo->format.Format.nChannels; lpDesc->lpFormat->nSamplesPerSec = wwo->format.Format.nSamplesPerSec; lpDesc->lpFormat->wBitsPerSample = wwo->format.Format.wBitsPerSample; lpDesc->lpFormat->nBlockAlign = wwo->format.Format.nBlockAlign; lpDesc->lpFormat->nAvgBytesPerSec = wwo->format.Format.nAvgBytesPerSec; } TRACE("Got this format: %ldx%dx%d %s\n", wwo->format.Format.nSamplesPerSec, wwo->format.Format.wBitsPerSample, wwo->format.Format.nChannels, getFormat(wwo->format.Format.wFormatTag)); dir=0; EXIT_ON_ERROR( snd_pcm_hw_params_set_buffer_time_near(pcm, hw_params, &buffer_time, &dir), MMSYSERR_INVALPARAM, "unable to set buffer time"); dir=0; EXIT_ON_ERROR( snd_pcm_hw_params_set_period_time_near(pcm, hw_params, &period_time, &dir), MMSYSERR_INVALPARAM, "unable to set period time"); EXIT_ON_ERROR( snd_pcm_hw_params(pcm, hw_params), MMSYSERR_INVALPARAM, "unable to set hw params for playback"); err = snd_pcm_hw_params_get_period_size(hw_params, &period_size, &dir); err = snd_pcm_hw_params_get_buffer_size(hw_params, &buffer_size); snd_pcm_sw_params_current(pcm, sw_params); EXIT_ON_ERROR( snd_pcm_sw_params_set_start_threshold(pcm, sw_params, dwFlags & WAVE_DIRECTSOUND ? INT_MAX : 1 ), MMSYSERR_ERROR, "unable to set start threshold"); EXIT_ON_ERROR( snd_pcm_sw_params_set_silence_size(pcm, sw_params, 0), MMSYSERR_ERROR, "unable to set silence size"); EXIT_ON_ERROR( snd_pcm_sw_params_set_avail_min(pcm, sw_params, period_size), MMSYSERR_ERROR, "unable to set avail min"); EXIT_ON_ERROR( snd_pcm_sw_params_set_xfer_align(pcm, sw_params, 1), MMSYSERR_ERROR, "unable to set xfer align"); EXIT_ON_ERROR( snd_pcm_sw_params_set_silence_threshold(pcm, sw_params, 0), MMSYSERR_ERROR, "unable to set silence threshold"); EXIT_ON_ERROR( snd_pcm_sw_params_set_xrun_mode(pcm, sw_params, SND_PCM_XRUN_NONE), MMSYSERR_ERROR, "unable to set xrun mode"); EXIT_ON_ERROR( snd_pcm_sw_params(pcm, sw_params), MMSYSERR_ERROR, "unable to set sw params for playback"); #undef EXIT_ON_ERROR snd_pcm_prepare(pcm); if (TRACE_ON(wave)) ALSA_TraceParameters(hw_params, sw_params, FALSE); /* now, we can save all required data for later use... */ wwo->dwBufferSize = snd_pcm_frames_to_bytes(pcm, buffer_size); wwo->lpQueuePtr = wwo->lpPlayPtr = wwo->lpLoopPtr = NULL; wwo->dwPlayedTotal = wwo->dwWrittenTotal = 0; wwo->dwPartialOffset = 0; ALSA_InitRingMessage(&wwo->msgRing); if (!(dwFlags & WAVE_DIRECTSOUND)) { wwo->hStartUpEvent = CreateEventW(NULL, FALSE, FALSE, NULL); wwo->hThread = CreateThread(NULL, 0, wodPlayer, (LPVOID)(DWORD)wDevID, 0, &(wwo->dwThreadID)); if (wwo->hThread) SetThreadPriority(wwo->hThread, THREAD_PRIORITY_TIME_CRITICAL); else { ERR("Thread creation for the wodPlayer failed!\n"); CloseHandle(wwo->hStartUpEvent); retcode = MMSYSERR_NOMEM; goto errexit; } WaitForSingleObject(wwo->hStartUpEvent, INFINITE); CloseHandle(wwo->hStartUpEvent); } else { wwo->hThread = INVALID_HANDLE_VALUE; wwo->dwThreadID = 0; } wwo->hStartUpEvent = INVALID_HANDLE_VALUE; TRACE("handle=%p\n", pcm); TRACE("wBitsPerSample=%u, nAvgBytesPerSec=%lu, nSamplesPerSec=%lu, nChannels=%u nBlockAlign=%u!\n", wwo->format.Format.wBitsPerSample, wwo->format.Format.nAvgBytesPerSec, wwo->format.Format.nSamplesPerSec, wwo->format.Format.nChannels, wwo->format.Format.nBlockAlign); wwo->pcm = pcm; wwo->hctl = hctl; if ( wwo->hw_params ) snd_pcm_hw_params_free(wwo->hw_params); wwo->hw_params = hw_params; return wodNotifyClient(wwo, WOM_OPEN, 0L, 0L); errexit: if (pcm) snd_pcm_close(pcm); if (hctl) { snd_hctl_free(hctl); snd_hctl_close(hctl); } if ( hw_params ) snd_pcm_hw_params_free(hw_params); if (wwo->msgRing.ring_buffer_size > 0) ALSA_DestroyRingMessage(&wwo->msgRing); return retcode; } /************************************************************************** * wodClose [internal] */ static DWORD wodClose(WORD wDevID) { DWORD ret = MMSYSERR_NOERROR; WINE_WAVEDEV* wwo; TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to close already closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } wwo = &WOutDev[wDevID]; if (wwo->lpQueuePtr) { WARN("buffers still playing !\n"); ret = WAVERR_STILLPLAYING; } else { if (wwo->hThread != INVALID_HANDLE_VALUE) { ALSA_AddRingMessage(&wwo->msgRing, WINE_WM_CLOSING, 0, TRUE); } ALSA_DestroyRingMessage(&wwo->msgRing); if (wwo->hw_params) snd_pcm_hw_params_free(wwo->hw_params); wwo->hw_params = NULL; if (wwo->pcm) snd_pcm_close(wwo->pcm); wwo->pcm = NULL; if (wwo->hctl) { snd_hctl_free(wwo->hctl); snd_hctl_close(wwo->hctl); } wwo->hctl = NULL; ret = wodNotifyClient(wwo, WOM_CLOSE, 0L, 0L); } return ret; } /************************************************************************** * wodWrite [internal] * */ static DWORD wodWrite(WORD wDevID, LPWAVEHDR lpWaveHdr, DWORD dwSize) { TRACE("(%u, %p, %08lX);\n", wDevID, lpWaveHdr, dwSize); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to write to closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } if (lpWaveHdr->lpData == NULL || !(lpWaveHdr->dwFlags & WHDR_PREPARED)) return WAVERR_UNPREPARED; if (lpWaveHdr->dwFlags & WHDR_INQUEUE) return WAVERR_STILLPLAYING; lpWaveHdr->dwFlags &= ~WHDR_DONE; lpWaveHdr->dwFlags |= WHDR_INQUEUE; lpWaveHdr->lpNext = 0; ALSA_AddRingMessage(&WOutDev[wDevID].msgRing, WINE_WM_HEADER, (DWORD)lpWaveHdr, FALSE); return MMSYSERR_NOERROR; } /************************************************************************** * wodPause [internal] */ static DWORD wodPause(WORD wDevID) { TRACE("(%u);!\n", wDevID); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to pause closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WOutDev[wDevID].msgRing, WINE_WM_PAUSING, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * wodRestart [internal] */ static DWORD wodRestart(WORD wDevID) { TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to restart closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].state == WINE_WS_PAUSED) { ALSA_AddRingMessage(&WOutDev[wDevID].msgRing, WINE_WM_RESTARTING, 0, TRUE); } /* FIXME: is NotifyClient with WOM_DONE right ? (Comet Busters 1.3.3 needs this notification) */ /* FIXME: Myst crashes with this ... hmm -MM return wodNotifyClient(wwo, WOM_DONE, 0L, 0L); */ return MMSYSERR_NOERROR; } /************************************************************************** * wodReset [internal] */ static DWORD wodReset(WORD wDevID) { TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to reset closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WOutDev[wDevID].msgRing, WINE_WM_RESETTING, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * wodGetPosition [internal] */ static DWORD wodGetPosition(WORD wDevID, LPMMTIME lpTime, DWORD uSize) { WINE_WAVEDEV* wwo; TRACE("(%u, %p, %lu);\n", wDevID, lpTime, uSize); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to get position of closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } if (lpTime == NULL) return MMSYSERR_INVALPARAM; wwo = &WOutDev[wDevID]; ALSA_AddRingMessage(&wwo->msgRing, WINE_WM_UPDATE, 0, TRUE); return bytes_to_mmtime(lpTime, wwo->dwPlayedTotal, &wwo->format); } /************************************************************************** * wodBreakLoop [internal] */ static DWORD wodBreakLoop(WORD wDevID) { TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (WOutDev[wDevID].pcm == NULL) { WARN("Requested to breakloop of closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WOutDev[wDevID].msgRing, WINE_WM_BREAKLOOP, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * wodGetVolume [internal] */ static DWORD wodGetVolume(WORD wDevID, LPDWORD lpdwVol) { WORD wleft, wright; WINE_WAVEDEV* wwo; int min, max; int left, right; DWORD rc; TRACE("(%u, %p);\n", wDevID, lpdwVol); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } if (lpdwVol == NULL) return MMSYSERR_NOTENABLED; wwo = &WOutDev[wDevID]; if (lpdwVol == NULL) return MMSYSERR_NOTENABLED; rc = ALSA_CheckSetVolume(wwo->hctl, &left, &right, &min, &max, NULL, NULL, NULL); if (rc == MMSYSERR_NOERROR) { #define VOLUME_ALSA_TO_WIN(x) ( ( (((x)-min) * 65535) + (max-min)/2 ) /(max-min)) wleft = VOLUME_ALSA_TO_WIN(left); wright = VOLUME_ALSA_TO_WIN(right); #undef VOLUME_ALSA_TO_WIN TRACE("left=%d,right=%d,converted to windows left %d, right %d\n", left, right, wleft, wright); *lpdwVol = MAKELONG( wleft, wright ); } else TRACE("CheckSetVolume failed; rc %ld\n", rc); return rc; } /************************************************************************** * wodSetVolume [internal] */ static DWORD wodSetVolume(WORD wDevID, DWORD dwParam) { WORD wleft, wright; WINE_WAVEDEV* wwo; int min, max; int left, right; DWORD rc; TRACE("(%u, %08lX);\n", wDevID, dwParam); if (wDevID >= ALSA_WodNumDevs) { TRACE("Asked for device %d, but only %ld known!\n", wDevID, ALSA_WodNumDevs); return MMSYSERR_BADDEVICEID; } wwo = &WOutDev[wDevID]; rc = ALSA_CheckSetVolume(wwo->hctl, NULL, NULL, &min, &max, NULL, NULL, NULL); if (rc == MMSYSERR_NOERROR) { wleft = LOWORD(dwParam); wright = HIWORD(dwParam); #define VOLUME_WIN_TO_ALSA(x) ( ( ( ((x) * (max-min)) + 32767) / 65535) + min ) left = VOLUME_WIN_TO_ALSA(wleft); right = VOLUME_WIN_TO_ALSA(wright); #undef VOLUME_WIN_TO_ALSA rc = ALSA_CheckSetVolume(wwo->hctl, NULL, NULL, NULL, NULL, NULL, &left, &right); if (rc == MMSYSERR_NOERROR) TRACE("set volume: wleft=%d, wright=%d, converted to alsa left %d, right %d\n", wleft, wright, left, right); else TRACE("SetVolume failed; rc %ld\n", rc); } return rc; } /************************************************************************** * wodGetNumDevs [internal] */ static DWORD wodGetNumDevs(void) { return ALSA_WodNumDevs; } /************************************************************************** * wodDevInterfaceSize [internal] */ static DWORD wodDevInterfaceSize(UINT wDevID, LPDWORD dwParam1) { TRACE("(%u, %p)\n", wDevID, dwParam1); *dwParam1 = MultiByteToWideChar(CP_ACP, 0, WOutDev[wDevID].interface_name, -1, NULL, 0 ) * sizeof(WCHAR); return MMSYSERR_NOERROR; } /************************************************************************** * wodDevInterface [internal] */ static DWORD wodDevInterface(UINT wDevID, PWCHAR dwParam1, DWORD dwParam2) { if (dwParam2 >= MultiByteToWideChar(CP_ACP, 0, WOutDev[wDevID].interface_name, -1, NULL, 0 ) * sizeof(WCHAR)) { MultiByteToWideChar(CP_ACP, 0, WOutDev[wDevID].interface_name, -1, dwParam1, dwParam2 / sizeof(WCHAR)); return MMSYSERR_NOERROR; } return MMSYSERR_INVALPARAM; } /************************************************************************** * wodMessage (WINEALSA.@) */ DWORD WINAPI ALSA_wodMessage(UINT wDevID, UINT wMsg, DWORD dwUser, DWORD dwParam1, DWORD dwParam2) { TRACE("(%u, %s, %08lX, %08lX, %08lX);\n", wDevID, getMessage(wMsg), dwUser, dwParam1, dwParam2); switch (wMsg) { case DRVM_INIT: case DRVM_EXIT: case DRVM_ENABLE: case DRVM_DISABLE: /* FIXME: Pretend this is supported */ return 0; case WODM_OPEN: return wodOpen (wDevID, (LPWAVEOPENDESC)dwParam1, dwParam2); case WODM_CLOSE: return wodClose (wDevID); case WODM_GETDEVCAPS: return wodGetDevCaps (wDevID, (LPWAVEOUTCAPSW)dwParam1, dwParam2); case WODM_GETNUMDEVS: return wodGetNumDevs (); case WODM_GETPITCH: return MMSYSERR_NOTSUPPORTED; case WODM_SETPITCH: return MMSYSERR_NOTSUPPORTED; case WODM_GETPLAYBACKRATE: return MMSYSERR_NOTSUPPORTED; case WODM_SETPLAYBACKRATE: return MMSYSERR_NOTSUPPORTED; case WODM_WRITE: return wodWrite (wDevID, (LPWAVEHDR)dwParam1, dwParam2); case WODM_PAUSE: return wodPause (wDevID); case WODM_GETPOS: return wodGetPosition (wDevID, (LPMMTIME)dwParam1, dwParam2); case WODM_BREAKLOOP: return wodBreakLoop (wDevID); case WODM_PREPARE: return MMSYSERR_NOTSUPPORTED; case WODM_UNPREPARE: return MMSYSERR_NOTSUPPORTED; case WODM_GETVOLUME: return wodGetVolume (wDevID, (LPDWORD)dwParam1); case WODM_SETVOLUME: return wodSetVolume (wDevID, dwParam1); case WODM_RESTART: return wodRestart (wDevID); case WODM_RESET: return wodReset (wDevID); case DRV_QUERYDEVICEINTERFACESIZE: return wodDevInterfaceSize (wDevID, (LPDWORD)dwParam1); case DRV_QUERYDEVICEINTERFACE: return wodDevInterface (wDevID, (PWCHAR)dwParam1, dwParam2); case DRV_QUERYDSOUNDIFACE: return wodDsCreate (wDevID, (PIDSDRIVER*)dwParam1); case DRV_QUERYDSOUNDDESC: return wodDsDesc (wDevID, (PDSDRIVERDESC)dwParam1); default: FIXME("unknown message %d!\n", wMsg); } return MMSYSERR_NOTSUPPORTED; } /*======================================================================* * Low level DSOUND implementation * *======================================================================*/ typedef struct IDsDriverImpl IDsDriverImpl; typedef struct IDsDriverBufferImpl IDsDriverBufferImpl; struct IDsDriverImpl { /* IUnknown fields */ const IDsDriverVtbl *lpVtbl; LONG ref; /* IDsDriverImpl fields */ UINT wDevID; IDsDriverBufferImpl*primary; }; struct IDsDriverBufferImpl { /* IUnknown fields */ const IDsDriverBufferVtbl *lpVtbl; LONG ref; /* IDsDriverBufferImpl fields */ IDsDriverImpl* drv; CRITICAL_SECTION mmap_crst; LPVOID mmap_buffer; DWORD mmap_buflen_bytes; snd_pcm_uframes_t mmap_buflen_frames; snd_pcm_channel_area_t * mmap_areas; snd_async_handler_t * mmap_async_handler; snd_pcm_uframes_t mmap_ppos; /* play position */ /* Do we have a direct hardware buffer - SND_PCM_TYPE_HW? */ int mmap_mode; }; static void DSDB_CheckXRUN(IDsDriverBufferImpl* pdbi) { WINE_WAVEDEV * wwo = &(WOutDev[pdbi->drv->wDevID]); snd_pcm_state_t state = snd_pcm_state(wwo->pcm); if ( state == SND_PCM_STATE_XRUN ) { int err = snd_pcm_prepare(wwo->pcm); TRACE("xrun occurred\n"); if ( err < 0 ) ERR("recovery from xrun failed, prepare failed: %s\n", snd_strerror(err)); } else if ( state == SND_PCM_STATE_SUSPENDED ) { int err = snd_pcm_resume(wwo->pcm); TRACE("recovery from suspension occurred\n"); if (err < 0 && err != -EAGAIN){ err = snd_pcm_prepare(wwo->pcm); if (err < 0) ERR("recovery from suspend failed, prepare failed: %s\n", snd_strerror(err)); } } } static void DSDB_MMAPCopy(IDsDriverBufferImpl* pdbi, int mul) { WINE_WAVEDEV * wwo = &(WOutDev[pdbi->drv->wDevID]); snd_pcm_uframes_t period_size; snd_pcm_sframes_t avail; int err; int dir=0; const snd_pcm_channel_area_t *areas; snd_pcm_uframes_t ofs; snd_pcm_uframes_t frames; snd_pcm_uframes_t wanted; if ( !pdbi->mmap_buffer || !wwo->hw_params || !wwo->pcm) return; err = snd_pcm_hw_params_get_period_size(wwo->hw_params, &period_size, &dir); avail = snd_pcm_avail_update(wwo->pcm); DSDB_CheckXRUN(pdbi); TRACE("avail=%d, mul=%d\n", (int)avail, mul); frames = pdbi->mmap_buflen_frames; EnterCriticalSection(&pdbi->mmap_crst); /* we want to commit the given number of periods, or the whole lot */ wanted = mul == 0 ? frames : period_size * 2; snd_pcm_mmap_begin(wwo->pcm, &areas, &ofs, &frames); if (areas != pdbi->mmap_areas || areas->addr != pdbi->mmap_areas->addr) FIXME("Can't access sound driver's buffer directly.\n"); /* mark our current play position */ pdbi->mmap_ppos = ofs; if (frames > wanted) frames = wanted; err = snd_pcm_mmap_commit(wwo->pcm, ofs, frames); /* Check to make sure we committed all we want to commit. ALSA * only gives a contiguous linear region, so we need to check this * in case we've reached the end of the buffer, in which case we * can wrap around back to the beginning. */ if (frames < wanted) { frames = wanted -= frames; snd_pcm_mmap_begin(wwo->pcm, &areas, &ofs, &frames); snd_pcm_mmap_commit(wwo->pcm, ofs, frames); } LeaveCriticalSection(&pdbi->mmap_crst); } static void DSDB_PCMCallback(snd_async_handler_t *ahandler) { int periods; /* snd_pcm_t * handle = snd_async_handler_get_pcm(ahandler); */ IDsDriverBufferImpl* pdbi = snd_async_handler_get_callback_private(ahandler); TRACE("callback called\n"); /* Commit another block (the entire buffer if it's a direct hw buffer) */ periods = pdbi->mmap_mode == SND_PCM_TYPE_HW ? 0 : 1; DSDB_MMAPCopy(pdbi, periods); } /** * Allocate the memory-mapped buffer for direct sound, and set up the * callback. */ static int DSDB_CreateMMAP(IDsDriverBufferImpl* pdbi) { WINE_WAVEDEV * wwo = &(WOutDev[pdbi->drv->wDevID]); snd_pcm_format_t format; snd_pcm_uframes_t frames; snd_pcm_uframes_t ofs; snd_pcm_uframes_t avail; unsigned int channels; unsigned int bits_per_sample; unsigned int bits_per_frame; int err; err = snd_pcm_hw_params_get_format(wwo->hw_params, &format); err = snd_pcm_hw_params_get_buffer_size(wwo->hw_params, &frames); err = snd_pcm_hw_params_get_channels(wwo->hw_params, &channels); bits_per_sample = snd_pcm_format_physical_width(format); bits_per_frame = bits_per_sample * channels; pdbi->mmap_mode = snd_pcm_type(wwo->pcm); if (pdbi->mmap_mode == SND_PCM_TYPE_HW) { TRACE("mmap'd buffer is a hardware buffer.\n"); } else { TRACE("mmap'd buffer is an ALSA emulation of hardware buffer.\n"); } if (TRACE_ON(wave)) ALSA_TraceParameters(wwo->hw_params, NULL, FALSE); TRACE("format=%s frames=%ld channels=%d bits_per_sample=%d bits_per_frame=%d\n", snd_pcm_format_name(format), frames, channels, bits_per_sample, bits_per_frame); pdbi->mmap_buflen_frames = frames; pdbi->mmap_buflen_bytes = snd_pcm_frames_to_bytes( wwo->pcm, frames ); avail = snd_pcm_avail_update(wwo->pcm); if (avail < 0) { ERR("No buffer is available: %s.", snd_strerror(avail)); return DSERR_GENERIC; } err = snd_pcm_mmap_begin(wwo->pcm, (const snd_pcm_channel_area_t **)&pdbi->mmap_areas, &ofs, &avail); if ( err < 0 ) { ERR("Can't map sound device for direct access: %s\n", snd_strerror(err)); return DSERR_GENERIC; } avail = 0;/* We don't have any data to commit yet */ err = snd_pcm_mmap_commit(wwo->pcm, ofs, avail); if (ofs > 0) err = snd_pcm_rewind(wwo->pcm, ofs); pdbi->mmap_buffer = pdbi->mmap_areas->addr; snd_pcm_format_set_silence(format, pdbi->mmap_buffer, frames ); TRACE("created mmap buffer of %ld frames (%ld bytes) at %p\n", frames, pdbi->mmap_buflen_bytes, pdbi->mmap_buffer); InitializeCriticalSection(&pdbi->mmap_crst); err = snd_async_add_pcm_handler(&pdbi->mmap_async_handler, wwo->pcm, DSDB_PCMCallback, pdbi); if ( err < 0 ) { ERR("add_pcm_handler failed. reason: %s\n", snd_strerror(err)); return DSERR_GENERIC; } return DS_OK; } static void DSDB_DestroyMMAP(IDsDriverBufferImpl* pdbi) { TRACE("mmap buffer %p destroyed\n", pdbi->mmap_buffer); pdbi->mmap_areas = NULL; pdbi->mmap_buffer = NULL; DeleteCriticalSection(&pdbi->mmap_crst); } static HRESULT WINAPI IDsDriverBufferImpl_QueryInterface(PIDSDRIVERBUFFER iface, REFIID riid, LPVOID *ppobj) { /* IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; */ FIXME("(): stub!\n"); return DSERR_UNSUPPORTED; } static ULONG WINAPI IDsDriverBufferImpl_AddRef(PIDSDRIVERBUFFER iface) { IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; ULONG refCount = InterlockedIncrement(&This->ref); TRACE("(%p)->(ref before=%lu)\n",This, refCount - 1); return refCount; } static ULONG WINAPI IDsDriverBufferImpl_Release(PIDSDRIVERBUFFER iface) { IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; ULONG refCount = InterlockedDecrement(&This->ref); TRACE("(%p)->(ref before=%lu)\n",This, refCount + 1); if (refCount) return refCount; if (This == This->drv->primary) This->drv->primary = NULL; DSDB_DestroyMMAP(This); HeapFree(GetProcessHeap(), 0, This); return 0; } static HRESULT WINAPI IDsDriverBufferImpl_Lock(PIDSDRIVERBUFFER iface, LPVOID*ppvAudio1,LPDWORD pdwLen1, LPVOID*ppvAudio2,LPDWORD pdwLen2, DWORD dwWritePosition,DWORD dwWriteLen, DWORD dwFlags) { /* IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; */ TRACE("(%p)\n",iface); return DSERR_UNSUPPORTED; } static HRESULT WINAPI IDsDriverBufferImpl_Unlock(PIDSDRIVERBUFFER iface, LPVOID pvAudio1,DWORD dwLen1, LPVOID pvAudio2,DWORD dwLen2) { /* IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; */ TRACE("(%p)\n",iface); return DSERR_UNSUPPORTED; } static HRESULT WINAPI IDsDriverBufferImpl_SetFormat(PIDSDRIVERBUFFER iface, LPWAVEFORMATEX pwfx) { /* IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; */ TRACE("(%p,%p)\n",iface,pwfx); return DSERR_BUFFERLOST; } static HRESULT WINAPI IDsDriverBufferImpl_SetFrequency(PIDSDRIVERBUFFER iface, DWORD dwFreq) { /* IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; */ TRACE("(%p,%ld): stub\n",iface,dwFreq); return DSERR_UNSUPPORTED; } static HRESULT WINAPI IDsDriverBufferImpl_SetVolumePan(PIDSDRIVERBUFFER iface, PDSVOLUMEPAN pVolPan) { DWORD vol; IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; TRACE("(%p,%p)\n",iface,pVolPan); vol = pVolPan->dwTotalLeftAmpFactor | (pVolPan->dwTotalRightAmpFactor << 16); if (wodSetVolume(This->drv->wDevID, vol) != MMSYSERR_NOERROR) { WARN("wodSetVolume failed\n"); return DSERR_INVALIDPARAM; } return DS_OK; } static HRESULT WINAPI IDsDriverBufferImpl_SetPosition(PIDSDRIVERBUFFER iface, DWORD dwNewPos) { /* IDsDriverImpl *This = (IDsDriverImpl *)iface; */ TRACE("(%p,%ld): stub\n",iface,dwNewPos); return DSERR_UNSUPPORTED; } static HRESULT WINAPI IDsDriverBufferImpl_GetPosition(PIDSDRIVERBUFFER iface, LPDWORD lpdwPlay, LPDWORD lpdwWrite) { IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; WINE_WAVEDEV * wwo = &(WOutDev[This->drv->wDevID]); snd_pcm_uframes_t hw_ptr; snd_pcm_uframes_t period_size; snd_pcm_state_t state; int dir; int err; if (wwo->hw_params == NULL) return DSERR_GENERIC; dir=0; err = snd_pcm_hw_params_get_period_size(wwo->hw_params, &period_size, &dir); if (wwo->pcm == NULL) return DSERR_GENERIC; /** we need to track down buffer underruns */ DSDB_CheckXRUN(This); EnterCriticalSection(&This->mmap_crst); hw_ptr = This->mmap_ppos; state = snd_pcm_state(wwo->pcm); if (state != SND_PCM_STATE_RUNNING) hw_ptr = 0; if (lpdwPlay) *lpdwPlay = snd_pcm_frames_to_bytes(wwo->pcm, hw_ptr) % This->mmap_buflen_bytes; if (lpdwWrite) *lpdwWrite = snd_pcm_frames_to_bytes(wwo->pcm, hw_ptr + period_size * 2) % This->mmap_buflen_bytes; LeaveCriticalSection(&This->mmap_crst); TRACE("hw_ptr=0x%08x, playpos=%ld, writepos=%ld\n", (unsigned int)hw_ptr, lpdwPlay?*lpdwPlay:-1, lpdwWrite?*lpdwWrite:-1); return DS_OK; } static HRESULT WINAPI IDsDriverBufferImpl_Play(PIDSDRIVERBUFFER iface, DWORD dwRes1, DWORD dwRes2, DWORD dwFlags) { IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; WINE_WAVEDEV * wwo = &(WOutDev[This->drv->wDevID]); snd_pcm_state_t state; int err; TRACE("(%p,%lx,%lx,%lx)\n",iface,dwRes1,dwRes2,dwFlags); if (wwo->pcm == NULL) return DSERR_GENERIC; state = snd_pcm_state(wwo->pcm); if ( state == SND_PCM_STATE_SETUP ) { err = snd_pcm_prepare(wwo->pcm); state = snd_pcm_state(wwo->pcm); } if ( state == SND_PCM_STATE_PREPARED ) { /* If we have a direct hardware buffer, we can commit the whole lot * immediately (periods = 0), otherwise we prime the queue with only * 2 periods. * * Why 2? We want a small number so that we don't get ahead of the * DirectSound mixer. But we don't want to ever let the buffer get * completely empty - having 2 periods gives us time to commit another * period when the first expires. * * The potential for buffer underrun is high, but that's the reality * of using a translated buffer (the whole point of DirectSound is * to provide direct access to the hardware). * * A better implementation would use the buffer Lock() and Unlock() * methods to determine how far ahead we can commit, and to rewind if * necessary. */ int periods = This->mmap_mode == SND_PCM_TYPE_HW ? 0 : 2; DSDB_MMAPCopy(This, periods); err = snd_pcm_start(wwo->pcm); } return DS_OK; } static HRESULT WINAPI IDsDriverBufferImpl_Stop(PIDSDRIVERBUFFER iface) { IDsDriverBufferImpl *This = (IDsDriverBufferImpl *)iface; WINE_WAVEDEV * wwo = &(WOutDev[This->drv->wDevID]); int err; DWORD play; DWORD write; TRACE("(%p)\n",iface); if (wwo->pcm == NULL) return DSERR_GENERIC; /* ring buffer wrap up detection */ IDsDriverBufferImpl_GetPosition(iface, &play, &write); if ( play > write) { TRACE("writepos wrapper up\n"); return DS_OK; } if ( ( err = snd_pcm_drop(wwo->pcm)) < 0 ) { ERR("error while stopping pcm: %s\n", snd_strerror(err)); return DSERR_GENERIC; } return DS_OK; } static const IDsDriverBufferVtbl dsdbvt = { IDsDriverBufferImpl_QueryInterface, IDsDriverBufferImpl_AddRef, IDsDriverBufferImpl_Release, IDsDriverBufferImpl_Lock, IDsDriverBufferImpl_Unlock, IDsDriverBufferImpl_SetFormat, IDsDriverBufferImpl_SetFrequency, IDsDriverBufferImpl_SetVolumePan, IDsDriverBufferImpl_SetPosition, IDsDriverBufferImpl_GetPosition, IDsDriverBufferImpl_Play, IDsDriverBufferImpl_Stop }; static HRESULT WINAPI IDsDriverImpl_QueryInterface(PIDSDRIVER iface, REFIID riid, LPVOID *ppobj) { /* IDsDriverImpl *This = (IDsDriverImpl *)iface; */ FIXME("(%p): stub!\n",iface); return DSERR_UNSUPPORTED; } static ULONG WINAPI IDsDriverImpl_AddRef(PIDSDRIVER iface) { IDsDriverImpl *This = (IDsDriverImpl *)iface; ULONG refCount = InterlockedIncrement(&This->ref); TRACE("(%p)->(ref before=%lu)\n",This, refCount - 1); return refCount; } static ULONG WINAPI IDsDriverImpl_Release(PIDSDRIVER iface) { IDsDriverImpl *This = (IDsDriverImpl *)iface; ULONG refCount = InterlockedDecrement(&This->ref); TRACE("(%p)->(ref before=%lu)\n",This, refCount + 1); if (refCount) return refCount; HeapFree(GetProcessHeap(),0,This); return 0; } static HRESULT WINAPI IDsDriverImpl_GetDriverDesc(PIDSDRIVER iface, PDSDRIVERDESC pDesc) { IDsDriverImpl *This = (IDsDriverImpl *)iface; TRACE("(%p,%p)\n",iface,pDesc); memcpy(pDesc, &(WOutDev[This->wDevID].ds_desc), sizeof(DSDRIVERDESC)); pDesc->dwFlags = DSDDESC_DOMMSYSTEMOPEN | DSDDESC_DOMMSYSTEMSETFORMAT | DSDDESC_USESYSTEMMEMORY | DSDDESC_DONTNEEDPRIMARYLOCK; pDesc->dnDevNode = WOutDev[This->wDevID].waveDesc.dnDevNode; pDesc->wVxdId = 0; pDesc->wReserved = 0; pDesc->ulDeviceNum = This->wDevID; pDesc->dwHeapType = DSDHEAP_NOHEAP; pDesc->pvDirectDrawHeap = NULL; pDesc->dwMemStartAddress = 0; pDesc->dwMemEndAddress = 0; pDesc->dwMemAllocExtra = 0; pDesc->pvReserved1 = NULL; pDesc->pvReserved2 = NULL; return DS_OK; } static HRESULT WINAPI IDsDriverImpl_Open(PIDSDRIVER iface) { /* IDsDriverImpl *This = (IDsDriverImpl *)iface; */ TRACE("(%p)\n",iface); return DS_OK; } static HRESULT WINAPI IDsDriverImpl_Close(PIDSDRIVER iface) { /* IDsDriverImpl *This = (IDsDriverImpl *)iface; */ TRACE("(%p)\n",iface); return DS_OK; } static HRESULT WINAPI IDsDriverImpl_GetCaps(PIDSDRIVER iface, PDSDRIVERCAPS pCaps) { IDsDriverImpl *This = (IDsDriverImpl *)iface; TRACE("(%p,%p)\n",iface,pCaps); memcpy(pCaps, &(WOutDev[This->wDevID].ds_caps), sizeof(DSDRIVERCAPS)); return DS_OK; } static HRESULT WINAPI IDsDriverImpl_CreateSoundBuffer(PIDSDRIVER iface, LPWAVEFORMATEX pwfx, DWORD dwFlags, DWORD dwCardAddress, LPDWORD pdwcbBufferSize, LPBYTE *ppbBuffer, LPVOID *ppvObj) { IDsDriverImpl *This = (IDsDriverImpl *)iface; IDsDriverBufferImpl** ippdsdb = (IDsDriverBufferImpl**)ppvObj; int err; TRACE("(%p,%p,%lx,%lx)\n",iface,pwfx,dwFlags,dwCardAddress); /* we only support primary buffers */ if (!(dwFlags & DSBCAPS_PRIMARYBUFFER)) return DSERR_UNSUPPORTED; if (This->primary) return DSERR_ALLOCATED; if (dwFlags & (DSBCAPS_CTRLFREQUENCY | DSBCAPS_CTRLPAN)) return DSERR_CONTROLUNAVAIL; *ippdsdb = HeapAlloc(GetProcessHeap(),0,sizeof(IDsDriverBufferImpl)); if (*ippdsdb == NULL) return DSERR_OUTOFMEMORY; (*ippdsdb)->lpVtbl = &dsdbvt; (*ippdsdb)->ref = 1; (*ippdsdb)->drv = This; err = DSDB_CreateMMAP((*ippdsdb)); if ( err != DS_OK ) { HeapFree(GetProcessHeap(), 0, *ippdsdb); *ippdsdb = NULL; return err; } *ppbBuffer = (*ippdsdb)->mmap_buffer; *pdwcbBufferSize = (*ippdsdb)->mmap_buflen_bytes; This->primary = *ippdsdb; /* buffer is ready to go */ TRACE("buffer created at %p\n", *ippdsdb); return DS_OK; } static HRESULT WINAPI IDsDriverImpl_DuplicateSoundBuffer(PIDSDRIVER iface, PIDSDRIVERBUFFER pBuffer, LPVOID *ppvObj) { /* IDsDriverImpl *This = (IDsDriverImpl *)iface; */ TRACE("(%p,%p): stub\n",iface,pBuffer); return DSERR_INVALIDCALL; } static const IDsDriverVtbl dsdvt = { IDsDriverImpl_QueryInterface, IDsDriverImpl_AddRef, IDsDriverImpl_Release, IDsDriverImpl_GetDriverDesc, IDsDriverImpl_Open, IDsDriverImpl_Close, IDsDriverImpl_GetCaps, IDsDriverImpl_CreateSoundBuffer, IDsDriverImpl_DuplicateSoundBuffer }; static DWORD wodDsCreate(UINT wDevID, PIDSDRIVER* drv) { IDsDriverImpl** idrv = (IDsDriverImpl**)drv; TRACE("driver created\n"); /* the HAL isn't much better than the HEL if we can't do mmap() */ if (!(WOutDev[wDevID].outcaps.dwSupport & WAVECAPS_DIRECTSOUND)) { ERR("DirectSound flag not set\n"); MESSAGE("This sound card's driver does not support direct access\n"); MESSAGE("The (slower) DirectSound HEL mode will be used instead.\n"); return MMSYSERR_NOTSUPPORTED; } *idrv = HeapAlloc(GetProcessHeap(),0,sizeof(IDsDriverImpl)); if (!*idrv) return MMSYSERR_NOMEM; (*idrv)->lpVtbl = &dsdvt; (*idrv)->ref = 1; (*idrv)->wDevID = wDevID; (*idrv)->primary = NULL; return MMSYSERR_NOERROR; } static DWORD wodDsDesc(UINT wDevID, PDSDRIVERDESC desc) { memcpy(desc, &(WOutDev[wDevID].ds_desc), sizeof(DSDRIVERDESC)); return MMSYSERR_NOERROR; } /*======================================================================* * Low level WAVE IN implementation * *======================================================================*/ /************************************************************************** * widNotifyClient [internal] */ static DWORD widNotifyClient(WINE_WAVEDEV* wwi, WORD wMsg, DWORD dwParam1, DWORD dwParam2) { TRACE("wMsg = 0x%04x dwParm1 = %04lX dwParam2 = %04lX\n", wMsg, dwParam1, dwParam2); switch (wMsg) { case WIM_OPEN: case WIM_CLOSE: case WIM_DATA: if (wwi->wFlags != DCB_NULL && !DriverCallback(wwi->waveDesc.dwCallback, wwi->wFlags, (HDRVR)wwi->waveDesc.hWave, wMsg, wwi->waveDesc.dwInstance, dwParam1, dwParam2)) { WARN("can't notify client !\n"); return MMSYSERR_ERROR; } break; default: FIXME("Unknown callback message %u\n", wMsg); return MMSYSERR_INVALPARAM; } return MMSYSERR_NOERROR; } /************************************************************************** * widGetDevCaps [internal] */ static DWORD widGetDevCaps(WORD wDevID, LPWAVEOUTCAPSW lpCaps, DWORD dwSize) { TRACE("(%u, %p, %lu);\n", wDevID, lpCaps, dwSize); if (lpCaps == NULL) return MMSYSERR_NOTENABLED; if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } memcpy(lpCaps, &WInDev[wDevID].incaps, min(dwSize, sizeof(*lpCaps))); return MMSYSERR_NOERROR; } /************************************************************************** * widRecorder_ReadHeaders [internal] */ static void widRecorder_ReadHeaders(WINE_WAVEDEV * wwi) { enum win_wm_message tmp_msg; DWORD tmp_param; HANDLE tmp_ev; WAVEHDR* lpWaveHdr; while (ALSA_RetrieveRingMessage(&wwi->msgRing, &tmp_msg, &tmp_param, &tmp_ev)) { if (tmp_msg == WINE_WM_HEADER) { LPWAVEHDR* wh; lpWaveHdr = (LPWAVEHDR)tmp_param; lpWaveHdr->lpNext = 0; if (wwi->lpQueuePtr == 0) wwi->lpQueuePtr = lpWaveHdr; else { for (wh = &(wwi->lpQueuePtr); *wh; wh = &((*wh)->lpNext)); *wh = lpWaveHdr; } } else { ERR("should only have headers left\n"); } } } /************************************************************************** * widRecorder [internal] */ static DWORD CALLBACK widRecorder(LPVOID pmt) { WORD uDevID = (DWORD)pmt; WINE_WAVEDEV* wwi = (WINE_WAVEDEV*)&WInDev[uDevID]; WAVEHDR* lpWaveHdr; DWORD dwSleepTime; DWORD bytesRead; LPVOID buffer = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, wwi->dwPeriodSize); char *pOffset = buffer; enum win_wm_message msg; DWORD param; HANDLE ev; DWORD frames_per_period; wwi->state = WINE_WS_STOPPED; wwi->dwTotalRecorded = 0; wwi->lpQueuePtr = NULL; SetEvent(wwi->hStartUpEvent); /* make sleep time to be # of ms to output a period */ dwSleepTime = (1024/*wwi-dwPeriodSize => overrun!*/ * 1000) / wwi->format.Format.nAvgBytesPerSec; frames_per_period = snd_pcm_bytes_to_frames(wwi->pcm, wwi->dwPeriodSize); TRACE("sleeptime=%ld ms\n", dwSleepTime); for (;;) { /* wait for dwSleepTime or an event in thread's queue */ /* FIXME: could improve wait time depending on queue state, * ie, number of queued fragments */ if (wwi->lpQueuePtr != NULL && wwi->state == WINE_WS_PLAYING) { int periods; DWORD frames; DWORD bytes; DWORD read; lpWaveHdr = wwi->lpQueuePtr; /* read all the fragments accumulated so far */ frames = snd_pcm_avail_update(wwi->pcm); bytes = snd_pcm_frames_to_bytes(wwi->pcm, frames); TRACE("frames = %ld bytes = %ld\n", frames, bytes); periods = bytes / wwi->dwPeriodSize; while ((periods > 0) && (wwi->lpQueuePtr)) { periods--; bytes = wwi->dwPeriodSize; TRACE("bytes = %ld\n",bytes); if (lpWaveHdr->dwBufferLength - lpWaveHdr->dwBytesRecorded >= wwi->dwPeriodSize) { /* directly read fragment in wavehdr */ read = wwi->read(wwi->pcm, lpWaveHdr->lpData + lpWaveHdr->dwBytesRecorded, frames_per_period); bytesRead = snd_pcm_frames_to_bytes(wwi->pcm, read); TRACE("bytesRead=%ld (direct)\n", bytesRead); if (bytesRead != (DWORD) -1) { /* update number of bytes recorded in current buffer and by this device */ lpWaveHdr->dwBytesRecorded += bytesRead; wwi->dwTotalRecorded += bytesRead; /* buffer is full. notify client */ if (lpWaveHdr->dwBytesRecorded == lpWaveHdr->dwBufferLength) { /* must copy the value of next waveHdr, because we have no idea of what * will be done with the content of lpWaveHdr in callback */ LPWAVEHDR lpNext = lpWaveHdr->lpNext; lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wwi->lpQueuePtr = lpNext; widNotifyClient(wwi, WIM_DATA, (DWORD)lpWaveHdr, 0); lpWaveHdr = lpNext; } } else { TRACE("read(%s, %p, %ld) failed (%s)\n", wwi->pcmname, lpWaveHdr->lpData + lpWaveHdr->dwBytesRecorded, frames_per_period, strerror(errno)); } } else { /* read the fragment in a local buffer */ read = wwi->read(wwi->pcm, buffer, frames_per_period); bytesRead = snd_pcm_frames_to_bytes(wwi->pcm, read); pOffset = buffer; TRACE("bytesRead=%ld (local)\n", bytesRead); if (bytesRead == (DWORD) -1) { TRACE("read(%s, %p, %ld) failed (%s)\n", wwi->pcmname, buffer, frames_per_period, strerror(errno)); continue; } /* copy data in client buffers */ while (bytesRead != (DWORD) -1 && bytesRead > 0) { DWORD dwToCopy = min (bytesRead, lpWaveHdr->dwBufferLength - lpWaveHdr->dwBytesRecorded); memcpy(lpWaveHdr->lpData + lpWaveHdr->dwBytesRecorded, pOffset, dwToCopy); /* update number of bytes recorded in current buffer and by this device */ lpWaveHdr->dwBytesRecorded += dwToCopy; wwi->dwTotalRecorded += dwToCopy; bytesRead -= dwToCopy; pOffset += dwToCopy; /* client buffer is full. notify client */ if (lpWaveHdr->dwBytesRecorded == lpWaveHdr->dwBufferLength) { /* must copy the value of next waveHdr, because we have no idea of what * will be done with the content of lpWaveHdr in callback */ LPWAVEHDR lpNext = lpWaveHdr->lpNext; TRACE("lpNext=%p\n", lpNext); lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wwi->lpQueuePtr = lpNext; widNotifyClient(wwi, WIM_DATA, (DWORD)lpWaveHdr, 0); lpWaveHdr = lpNext; if (!lpNext && bytesRead) { /* before we give up, check for more header messages */ while (ALSA_PeekRingMessage(&wwi->msgRing, &msg, ¶m, &ev)) { if (msg == WINE_WM_HEADER) { LPWAVEHDR hdr; ALSA_RetrieveRingMessage(&wwi->msgRing, &msg, ¶m, &ev); hdr = ((LPWAVEHDR)param); TRACE("msg = %s, hdr = %p, ev = %p\n", getCmdString(msg), hdr, ev); hdr->lpNext = 0; if (lpWaveHdr == 0) { /* new head of queue */ wwi->lpQueuePtr = lpWaveHdr = hdr; } else { /* insert buffer at the end of queue */ LPWAVEHDR* wh; for (wh = &(wwi->lpQueuePtr); *wh; wh = &((*wh)->lpNext)); *wh = hdr; } } else break; } if (lpWaveHdr == 0) { /* no more buffer to copy data to, but we did read more. * what hasn't been copied will be dropped */ WARN("buffer under run! %lu bytes dropped.\n", bytesRead); wwi->lpQueuePtr = NULL; break; } } } } } } } WAIT_OMR(&wwi->msgRing, dwSleepTime); while (ALSA_RetrieveRingMessage(&wwi->msgRing, &msg, ¶m, &ev)) { TRACE("msg=%s param=0x%lx\n", getCmdString(msg), param); switch (msg) { case WINE_WM_PAUSING: wwi->state = WINE_WS_PAUSED; /*FIXME("Device should stop recording\n");*/ SetEvent(ev); break; case WINE_WM_STARTING: wwi->state = WINE_WS_PLAYING; snd_pcm_start(wwi->pcm); SetEvent(ev); break; case WINE_WM_HEADER: lpWaveHdr = (LPWAVEHDR)param; lpWaveHdr->lpNext = 0; /* insert buffer at the end of queue */ { LPWAVEHDR* wh; for (wh = &(wwi->lpQueuePtr); *wh; wh = &((*wh)->lpNext)); *wh = lpWaveHdr; } break; case WINE_WM_STOPPING: if (wwi->state != WINE_WS_STOPPED) { snd_pcm_drain(wwi->pcm); /* read any headers in queue */ widRecorder_ReadHeaders(wwi); /* return current buffer to app */ lpWaveHdr = wwi->lpQueuePtr; if (lpWaveHdr) { LPWAVEHDR lpNext = lpWaveHdr->lpNext; TRACE("stop %p %p\n", lpWaveHdr, lpWaveHdr->lpNext); lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wwi->lpQueuePtr = lpNext; widNotifyClient(wwi, WIM_DATA, (DWORD)lpWaveHdr, 0); } } wwi->state = WINE_WS_STOPPED; SetEvent(ev); break; case WINE_WM_RESETTING: if (wwi->state != WINE_WS_STOPPED) { snd_pcm_drain(wwi->pcm); } wwi->state = WINE_WS_STOPPED; wwi->dwTotalRecorded = 0; /* read any headers in queue */ widRecorder_ReadHeaders(wwi); /* return all buffers to the app */ for (lpWaveHdr = wwi->lpQueuePtr; lpWaveHdr; lpWaveHdr = lpWaveHdr->lpNext) { TRACE("reset %p %p\n", lpWaveHdr, lpWaveHdr->lpNext); lpWaveHdr->dwFlags &= ~WHDR_INQUEUE; lpWaveHdr->dwFlags |= WHDR_DONE; wwi->lpQueuePtr = lpWaveHdr->lpNext; widNotifyClient(wwi, WIM_DATA, (DWORD)lpWaveHdr, 0); } wwi->lpQueuePtr = NULL; SetEvent(ev); break; case WINE_WM_CLOSING: wwi->hThread = 0; wwi->state = WINE_WS_CLOSED; SetEvent(ev); HeapFree(GetProcessHeap(), 0, buffer); ExitThread(0); /* shouldn't go here */ case WINE_WM_UPDATE: SetEvent(ev); break; default: FIXME("unknown message %d\n", msg); break; } } } ExitThread(0); /* just for not generating compilation warnings... should never be executed */ return 0; } /************************************************************************** * widOpen [internal] */ static DWORD widOpen(WORD wDevID, LPWAVEOPENDESC lpDesc, DWORD dwFlags) { WINE_WAVEDEV* wwi; snd_pcm_hw_params_t * hw_params; snd_pcm_sw_params_t * sw_params; snd_pcm_access_t access; snd_pcm_format_t format; unsigned int rate; unsigned int buffer_time = 500000; unsigned int period_time = 10000; snd_pcm_uframes_t buffer_size; snd_pcm_uframes_t period_size; int flags; snd_pcm_t * pcm; int err; int dir; snd_pcm_hw_params_alloca(&hw_params); snd_pcm_sw_params_alloca(&sw_params); /* JPW TODO - review this code */ TRACE("(%u, %p, %08lX);\n", wDevID, lpDesc, dwFlags); if (lpDesc == NULL) { WARN("Invalid Parameter !\n"); return MMSYSERR_INVALPARAM; } if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } /* only PCM format is supported so far... */ if (!supportedFormat(lpDesc->lpFormat)) { WARN("Bad format: tag=%04X nChannels=%d nSamplesPerSec=%ld !\n", lpDesc->lpFormat->wFormatTag, lpDesc->lpFormat->nChannels, lpDesc->lpFormat->nSamplesPerSec); return WAVERR_BADFORMAT; } if (dwFlags & WAVE_FORMAT_QUERY) { TRACE("Query format: tag=%04X nChannels=%d nSamplesPerSec=%ld !\n", lpDesc->lpFormat->wFormatTag, lpDesc->lpFormat->nChannels, lpDesc->lpFormat->nSamplesPerSec); return MMSYSERR_NOERROR; } wwi = &WInDev[wDevID]; if (wwi->pcm != NULL) { WARN("already allocated\n"); return MMSYSERR_ALLOCATED; } if ((dwFlags & WAVE_DIRECTSOUND) && !(wwi->dwSupport & WAVECAPS_DIRECTSOUND)) /* not supported, ignore it */ dwFlags &= ~WAVE_DIRECTSOUND; wwi->pcm = 0; flags = SND_PCM_NONBLOCK; #if 0 if ( dwFlags & WAVE_DIRECTSOUND ) flags |= SND_PCM_ASYNC; #endif if ( (err=snd_pcm_open(&pcm, wwi->pcmname, SND_PCM_STREAM_CAPTURE, flags)) < 0 ) { ERR("Error open: %s\n", snd_strerror(err)); return MMSYSERR_NOTENABLED; } wwi->wFlags = HIWORD(dwFlags & CALLBACK_TYPEMASK); memcpy(&wwi->waveDesc, lpDesc, sizeof(WAVEOPENDESC)); copy_format(lpDesc->lpFormat, &wwi->format); if (wwi->format.Format.wBitsPerSample == 0) { WARN("Resetting zeroed wBitsPerSample\n"); wwi->format.Format.wBitsPerSample = 8 * (wwi->format.Format.nAvgBytesPerSec / wwi->format.Format.nSamplesPerSec) / wwi->format.Format.nChannels; } snd_pcm_hw_params_any(pcm, hw_params); #define EXIT_ON_ERROR(f,e,txt) do \ { \ int err; \ if ( (err = (f) ) < 0) \ { \ WARN(txt ": %s\n", snd_strerror(err)); \ snd_pcm_close(pcm); \ return e; \ } \ } while(0) access = SND_PCM_ACCESS_MMAP_INTERLEAVED; if ( ( err = snd_pcm_hw_params_set_access(pcm, hw_params, access ) ) < 0) { WARN("mmap not available. switching to standard write.\n"); access = SND_PCM_ACCESS_RW_INTERLEAVED; EXIT_ON_ERROR( snd_pcm_hw_params_set_access(pcm, hw_params, access ), MMSYSERR_INVALPARAM, "unable to set access for playback"); wwi->read = snd_pcm_readi; } else wwi->read = snd_pcm_mmap_readi; EXIT_ON_ERROR( snd_pcm_hw_params_set_channels(pcm, hw_params, wwi->format.Format.nChannels), WAVERR_BADFORMAT, "unable to set required channels"); if ((wwi->format.Format.wFormatTag == WAVE_FORMAT_PCM) || ((wwi->format.Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE) && IsEqualGUID(&wwi->format.SubFormat, &KSDATAFORMAT_SUBTYPE_PCM))) { format = (wwi->format.Format.wBitsPerSample == 8) ? SND_PCM_FORMAT_U8 : (wwi->format.Format.wBitsPerSample == 16) ? SND_PCM_FORMAT_S16_LE : (wwi->format.Format.wBitsPerSample == 24) ? SND_PCM_FORMAT_S24_LE : (wwi->format.Format.wBitsPerSample == 32) ? SND_PCM_FORMAT_S32_LE : -1; } else if ((wwi->format.Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE) && IsEqualGUID(&wwi->format.SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT)){ format = (wwi->format.Format.wBitsPerSample == 32) ? SND_PCM_FORMAT_FLOAT_LE : -1; } else if (wwi->format.Format.wFormatTag == WAVE_FORMAT_MULAW) { FIXME("unimplemented format: WAVE_FORMAT_MULAW\n"); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } else if (wwi->format.Format.wFormatTag == WAVE_FORMAT_ALAW) { FIXME("unimplemented format: WAVE_FORMAT_ALAW\n"); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } else if (wwi->format.Format.wFormatTag == WAVE_FORMAT_ADPCM) { FIXME("unimplemented format: WAVE_FORMAT_ADPCM\n"); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } else { ERR("invalid format: %0x04x\n", wwi->format.Format.wFormatTag); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } EXIT_ON_ERROR( snd_pcm_hw_params_set_format(pcm, hw_params, format), WAVERR_BADFORMAT, "unable to set required format"); rate = wwi->format.Format.nSamplesPerSec; dir = 0; err = snd_pcm_hw_params_set_rate_near(pcm, hw_params, &rate, &dir); if (err < 0) { WARN("Rate %ld Hz not available for playback: %s\n", wwi->format.Format.nSamplesPerSec, snd_strerror(rate)); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } if (!NearMatch(rate, wwi->format.Format.nSamplesPerSec)) { WARN("Rate doesn't match (requested %ld Hz, got %d Hz)\n", wwi->format.Format.nSamplesPerSec, rate); snd_pcm_close(pcm); return WAVERR_BADFORMAT; } dir=0; EXIT_ON_ERROR( snd_pcm_hw_params_set_buffer_time_near(pcm, hw_params, &buffer_time, &dir), MMSYSERR_INVALPARAM, "unable to set buffer time"); dir=0; EXIT_ON_ERROR( snd_pcm_hw_params_set_period_time_near(pcm, hw_params, &period_time, &dir), MMSYSERR_INVALPARAM, "unable to set period time"); EXIT_ON_ERROR( snd_pcm_hw_params(pcm, hw_params), MMSYSERR_INVALPARAM, "unable to set hw params for playback"); dir=0; err = snd_pcm_hw_params_get_period_size(hw_params, &period_size, &dir); err = snd_pcm_hw_params_get_buffer_size(hw_params, &buffer_size); snd_pcm_sw_params_current(pcm, sw_params); EXIT_ON_ERROR( snd_pcm_sw_params_set_start_threshold(pcm, sw_params, dwFlags & WAVE_DIRECTSOUND ? INT_MAX : 1 ), MMSYSERR_ERROR, "unable to set start threshold"); EXIT_ON_ERROR( snd_pcm_sw_params_set_silence_size(pcm, sw_params, 0), MMSYSERR_ERROR, "unable to set silence size"); EXIT_ON_ERROR( snd_pcm_sw_params_set_avail_min(pcm, sw_params, period_size), MMSYSERR_ERROR, "unable to set avail min"); EXIT_ON_ERROR( snd_pcm_sw_params_set_xfer_align(pcm, sw_params, 1), MMSYSERR_ERROR, "unable to set xfer align"); EXIT_ON_ERROR( snd_pcm_sw_params_set_silence_threshold(pcm, sw_params, 0), MMSYSERR_ERROR, "unable to set silence threshold"); EXIT_ON_ERROR( snd_pcm_sw_params(pcm, sw_params), MMSYSERR_ERROR, "unable to set sw params for playback"); #undef EXIT_ON_ERROR snd_pcm_prepare(pcm); if (TRACE_ON(wave)) ALSA_TraceParameters(hw_params, sw_params, FALSE); /* now, we can save all required data for later use... */ if ( wwi->hw_params ) snd_pcm_hw_params_free(wwi->hw_params); snd_pcm_hw_params_malloc(&(wwi->hw_params)); snd_pcm_hw_params_copy(wwi->hw_params, hw_params); wwi->dwBufferSize = snd_pcm_frames_to_bytes(pcm, buffer_size); wwi->lpQueuePtr = wwi->lpPlayPtr = wwi->lpLoopPtr = NULL; wwi->pcm = pcm; ALSA_InitRingMessage(&wwi->msgRing); wwi->dwPeriodSize = period_size; /*if (wwi->dwFragmentSize % wwi->format.Format.nBlockAlign) ERR("Fragment doesn't contain an integral number of data blocks\n"); */ TRACE("dwPeriodSize=%lu\n", wwi->dwPeriodSize); TRACE("wBitsPerSample=%u, nAvgBytesPerSec=%lu, nSamplesPerSec=%lu, nChannels=%u nBlockAlign=%u!\n", wwi->format.Format.wBitsPerSample, wwi->format.Format.nAvgBytesPerSec, wwi->format.Format.nSamplesPerSec, wwi->format.Format.nChannels, wwi->format.Format.nBlockAlign); if (!(dwFlags & WAVE_DIRECTSOUND)) { wwi->hStartUpEvent = CreateEventW(NULL, FALSE, FALSE, NULL); wwi->hThread = CreateThread(NULL, 0, widRecorder, (LPVOID)(DWORD)wDevID, 0, &(wwi->dwThreadID)); if (wwi->hThread) SetThreadPriority(wwi->hThread, THREAD_PRIORITY_TIME_CRITICAL); WaitForSingleObject(wwi->hStartUpEvent, INFINITE); CloseHandle(wwi->hStartUpEvent); } else { wwi->hThread = INVALID_HANDLE_VALUE; wwi->dwThreadID = 0; } wwi->hStartUpEvent = INVALID_HANDLE_VALUE; return widNotifyClient(wwi, WIM_OPEN, 0L, 0L); } /************************************************************************** * widClose [internal] */ static DWORD widClose(WORD wDevID) { DWORD ret = MMSYSERR_NOERROR; WINE_WAVEDEV* wwi; TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].pcm == NULL) { WARN("Requested to close already closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } wwi = &WInDev[wDevID]; if (wwi->lpQueuePtr) { WARN("buffers still playing !\n"); ret = WAVERR_STILLPLAYING; } else { if (wwi->hThread != INVALID_HANDLE_VALUE) { ALSA_AddRingMessage(&wwi->msgRing, WINE_WM_CLOSING, 0, TRUE); } ALSA_DestroyRingMessage(&wwi->msgRing); snd_pcm_hw_params_free(wwi->hw_params); wwi->hw_params = NULL; snd_pcm_close(wwi->pcm); wwi->pcm = NULL; ret = widNotifyClient(wwi, WIM_CLOSE, 0L, 0L); } return ret; } /************************************************************************** * widAddBuffer [internal] * */ static DWORD widAddBuffer(WORD wDevID, LPWAVEHDR lpWaveHdr, DWORD dwSize) { TRACE("(%u, %p, %08lX);\n", wDevID, lpWaveHdr, dwSize); /* first, do the sanity checks... */ if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].pcm == NULL) { WARN("Requested to add buffer to already closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } if (lpWaveHdr->lpData == NULL || !(lpWaveHdr->dwFlags & WHDR_PREPARED)) return WAVERR_UNPREPARED; if (lpWaveHdr->dwFlags & WHDR_INQUEUE) return WAVERR_STILLPLAYING; lpWaveHdr->dwFlags &= ~WHDR_DONE; lpWaveHdr->dwFlags |= WHDR_INQUEUE; lpWaveHdr->lpNext = 0; ALSA_AddRingMessage(&WInDev[wDevID].msgRing, WINE_WM_HEADER, (DWORD)lpWaveHdr, FALSE); return MMSYSERR_NOERROR; } /************************************************************************** * widStart [internal] * */ static DWORD widStart(WORD wDevID, LPWAVEHDR lpWaveHdr, DWORD dwSize) { TRACE("(%u, %p, %08lX);\n", wDevID, lpWaveHdr, dwSize); /* first, do the sanity checks... */ if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].pcm == NULL) { WARN("Requested to start closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WInDev[wDevID].msgRing, WINE_WM_STARTING, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * widStop [internal] * */ static DWORD widStop(WORD wDevID, LPWAVEHDR lpWaveHdr, DWORD dwSize) { TRACE("(%u, %p, %08lX);\n", wDevID, lpWaveHdr, dwSize); /* first, do the sanity checks... */ if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].pcm == NULL) { WARN("Requested to stop closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WInDev[wDevID].msgRing, WINE_WM_STOPPING, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * widReset [internal] */ static DWORD widReset(WORD wDevID) { TRACE("(%u);\n", wDevID); if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].pcm == NULL) { WARN("Requested to reset closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } ALSA_AddRingMessage(&WInDev[wDevID].msgRing, WINE_WM_RESETTING, 0, TRUE); return MMSYSERR_NOERROR; } /************************************************************************** * widGetPosition [internal] */ static DWORD widGetPosition(WORD wDevID, LPMMTIME lpTime, DWORD uSize) { WINE_WAVEDEV* wwi; TRACE("(%u, %p, %lu);\n", wDevID, lpTime, uSize); if (wDevID >= ALSA_WidNumDevs) { TRACE("Requested device %d, but only %ld are known!\n", wDevID, ALSA_WidNumDevs); return MMSYSERR_BADDEVICEID; } if (WInDev[wDevID].state == WINE_WS_CLOSED) { WARN("Requested position of closed device %d!\n", wDevID); return MMSYSERR_BADDEVICEID; } if (lpTime == NULL) { WARN("invalid parameter: lpTime = NULL\n"); return MMSYSERR_INVALPARAM; } wwi = &WInDev[wDevID]; ALSA_AddRingMessage(&wwi->msgRing, WINE_WM_UPDATE, 0, TRUE); return bytes_to_mmtime(lpTime, wwi->dwTotalRecorded, &wwi->format); } /************************************************************************** * widGetNumDevs [internal] */ static DWORD widGetNumDevs(void) { return ALSA_WidNumDevs; } /************************************************************************** * widDevInterfaceSize [internal] */ static DWORD widDevInterfaceSize(UINT wDevID, LPDWORD dwParam1) { TRACE("(%u, %p)\n", wDevID, dwParam1); *dwParam1 = MultiByteToWideChar(CP_ACP, 0, WInDev[wDevID].interface_name, -1, NULL, 0 ) * sizeof(WCHAR); return MMSYSERR_NOERROR; } /************************************************************************** * widDevInterface [internal] */ static DWORD widDevInterface(UINT wDevID, PWCHAR dwParam1, DWORD dwParam2) { if (dwParam2 >= MultiByteToWideChar(CP_ACP, 0, WInDev[wDevID].interface_name, -1, NULL, 0 ) * sizeof(WCHAR)) { MultiByteToWideChar(CP_ACP, 0, WInDev[wDevID].interface_name, -1, dwParam1, dwParam2 / sizeof(WCHAR)); return MMSYSERR_NOERROR; } return MMSYSERR_INVALPARAM; } /************************************************************************** * widDsCreate [internal] */ static DWORD widDsCreate(UINT wDevID, PIDSCDRIVER* drv) { TRACE("(%d,%p)\n",wDevID,drv); /* the HAL isn't much better than the HEL if we can't do mmap() */ FIXME("DirectSoundCapture not implemented\n"); MESSAGE("The (slower) DirectSound HEL mode will be used instead.\n"); return MMSYSERR_NOTSUPPORTED; } /************************************************************************** * widDsDesc [internal] */ static DWORD widDsDesc(UINT wDevID, PDSDRIVERDESC desc) { memcpy(desc, &(WInDev[wDevID].ds_desc), sizeof(DSDRIVERDESC)); return MMSYSERR_NOERROR; } /************************************************************************** * widMessage (WINEALSA.@) */ DWORD WINAPI ALSA_widMessage(UINT wDevID, UINT wMsg, DWORD dwUser, DWORD dwParam1, DWORD dwParam2) { TRACE("(%u, %s, %08lX, %08lX, %08lX);\n", wDevID, getMessage(wMsg), dwUser, dwParam1, dwParam2); switch (wMsg) { case DRVM_INIT: case DRVM_EXIT: case DRVM_ENABLE: case DRVM_DISABLE: /* FIXME: Pretend this is supported */ return 0; case WIDM_OPEN: return widOpen (wDevID, (LPWAVEOPENDESC)dwParam1, dwParam2); case WIDM_CLOSE: return widClose (wDevID); case WIDM_ADDBUFFER: return widAddBuffer (wDevID, (LPWAVEHDR)dwParam1, dwParam2); case WIDM_PREPARE: return MMSYSERR_NOTSUPPORTED; case WIDM_UNPREPARE: return MMSYSERR_NOTSUPPORTED; case WIDM_GETDEVCAPS: return widGetDevCaps (wDevID, (LPWAVEOUTCAPSW)dwParam1, dwParam2); case WIDM_GETNUMDEVS: return widGetNumDevs (); case WIDM_GETPOS: return widGetPosition (wDevID, (LPMMTIME)dwParam1, dwParam2); case WIDM_RESET: return widReset (wDevID); case WIDM_START: return widStart (wDevID, (LPWAVEHDR)dwParam1, dwParam2); case WIDM_STOP: return widStop (wDevID, (LPWAVEHDR)dwParam1, dwParam2); case DRV_QUERYDEVICEINTERFACESIZE: return widDevInterfaceSize (wDevID, (LPDWORD)dwParam1); case DRV_QUERYDEVICEINTERFACE: return widDevInterface (wDevID, (PWCHAR)dwParam1, dwParam2); case DRV_QUERYDSOUNDIFACE: return widDsCreate (wDevID, (PIDSCDRIVER*)dwParam1); case DRV_QUERYDSOUNDDESC: return widDsDesc (wDevID, (PDSDRIVERDESC)dwParam1); default: FIXME("unknown message %d!\n", wMsg); } return MMSYSERR_NOTSUPPORTED; } #else /************************************************************************** * widMessage (WINEALSA.@) */ DWORD WINAPI ALSA_widMessage(WORD wDevID, WORD wMsg, DWORD dwUser, DWORD dwParam1, DWORD dwParam2) { FIXME("(%u, %04X, %08lX, %08lX, %08lX):stub\n", wDevID, wMsg, dwUser, dwParam1, dwParam2); return MMSYSERR_NOTENABLED; } /************************************************************************** * wodMessage (WINEALSA.@) */ DWORD WINAPI ALSA_wodMessage(WORD wDevID, WORD wMsg, DWORD dwUser, DWORD dwParam1, DWORD dwParam2) { FIXME("(%u, %04X, %08lX, %08lX, %08lX):stub\n", wDevID, wMsg, dwUser, dwParam1, dwParam2); return MMSYSERR_NOTENABLED; } #endif /* HAVE_ALSA */