ref: aaa8932887e11d0b6b90462a15ba05237ecd306a
dir: /src/waveaudio.c/
/* libSoX device driver: MS-Windows audio (c) 2009 SoX contributors * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "sox_i.h" #include <windows.h> #include <mmsystem.h> /* Larger means more latency (difference between the status line and the audio you hear), * but it means lower chance of stuttering/glitching. 2 buffers is usually enough. Use * 4 if you want to be extra-safe. */ #define num_buffers 4 typedef struct waveaudio_priv_t { /* Handle to the input device (microphone, line in, etc.). NULL if playing. */ HWAVEIN hin; /* Handle to the output device (speakers, line out, etc.). NULL if recording. */ HWAVEOUT hout; /* Event that becomes signaled when a the system has finished processing a buffer. */ HANDLE block_finished_event; /* Data transfer buffers. The lpData member of the first buffer points at * data[buf_len*sample_size*0], the second buffer's lpData points * data[buf_len*sample_size*1], etc. The dwUser field contains the number * of samples of this buffer that have already been processed. */ WAVEHDR headers[num_buffers]; /* The combined data area shared by all transfer buffers. */ char * data; /* The number of samples that can fit into one transfer buffer. */ size_t buf_len; /* Index of the buffer that we're currently processing. For playback, this is the buffer * that will receive the next samples. For recording, this is the buffer from which we'll * be getting the next samples. If no buffers are ready for processing, this is the buffer * that will be the next to become ready. */ unsigned current; /* If there has been an error, this has the Win32 error code. Otherwise, this is 0. */ DWORD error; } priv_t; static void fail(sox_format_t* ft, DWORD code, const char* context) { char message[256]; DWORD formatMessageOk = FormatMessageA( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, code, 0, message, sizeof(message) / sizeof(message[0]), NULL); if (formatMessageOk) lsx_fail_errno(ft, SOX_EOF, "WaveAudio %s failed with code %d: %s", context, (int)code, message); else lsx_fail_errno(ft, SOX_EOF, "WaveAudio %s failed with unrecognized MMSYSERR code %d.", context, (int)code); } static int stop(sox_format_t* ft) { priv_t *priv = (priv_t*)ft->priv; if (priv == NULL) return SOX_EOF; if (priv->hin) { priv->error = waveInReset(priv->hin); priv->error = waveInClose(priv->hin); } if (priv->hout && !priv->error) { while ((priv->error = waveOutClose(priv->hout)) == WAVERR_STILLPLAYING) { WaitForSingleObject(priv->block_finished_event, INFINITE); } } else if (priv->hout) { priv->error = waveOutReset(priv->hout); priv->error = waveOutClose(priv->hout); } if (priv->block_finished_event) CloseHandle(priv->block_finished_event); if (priv->data) free(priv->data); return SOX_SUCCESS; } static int start(sox_format_t* ft) { size_t i; UINT dev; WAVEFORMATEX fmt; int recording = ft->mode == 'r'; priv_t *priv = (priv_t*)ft->priv; if (priv == NULL) return SOX_EOF; /* Handle AUDIODEV device selection: * NULL, blank, or "default" gets you the default device (WAVE_MAPPER = -1). * An integer value gets you the device with that device number, if it exists (counting starts at 0). * A string gets you the device with that name, if it exists. */ if (ft->filename == 0 || ft->filename == 0 || !strcasecmp("default", ft->filename)) { dev = WAVE_MAPPER; } else { WAVEINCAPSA incaps; WAVEOUTCAPSA outcaps; const char *dev_name; char* dev_num_end; dev = strtoul(ft->filename, &dev_num_end, 0); if (dev_num_end[0] == 0) { if (recording) priv->error = waveInGetDevCapsA(dev, &incaps, sizeof(incaps)); else priv->error = waveOutGetDevCapsA(dev, &outcaps, sizeof(outcaps)); if (priv->error) { lsx_fail_errno(ft, ENODEV, "WaveAudio was unable to find the AUDIODEV %s device \"%s\".", recording ? "input" : "output", ft->filename); return SOX_EOF; } } else { UINT dev_count = recording ? waveInGetNumDevs() : waveOutGetNumDevs(); for (dev = -1; dev == WAVE_MAPPER || dev < dev_count; dev++) { if (recording) { priv->error = waveInGetDevCapsA(dev, &incaps, sizeof(incaps)); dev_name = incaps.szPname; } else { priv->error = waveOutGetDevCapsA(dev, &outcaps, sizeof(outcaps)); dev_name = outcaps.szPname; } if (priv->error) { fail(ft, priv->error, recording ? "waveInGetDevCapsA" : "waveOutGetDevCapsA"); return SOX_EOF; } if (!strncasecmp(ft->filename, dev_name, 31)) break; } if (dev == dev_count) { lsx_fail_errno(ft, ENODEV, "WaveAudio was unable to find the AUDIODEV %s device \"%s\".", recording ? "input" : "output", ft->filename); return SOX_EOF; } } } priv->buf_len = sox_globals.bufsiz; priv->data = lsx_malloc(priv->buf_len * sizeof(int16_t) * num_buffers); if (!priv->data) { lsx_fail_errno(ft, SOX_ENOMEM, "Out of memory."); return SOX_EOF; } priv->block_finished_event = CreateEventA(NULL, FALSE, FALSE, NULL); if (!priv->block_finished_event) { priv->error = GetLastError(); fail(ft, priv->error, "CreateEventA"); stop(ft); return SOX_EOF; } /* Allow simulation of 8-bit audio playback. */ ft->signal.precision = ft->signal.precision >= 16 ? 16 : 8; fmt.wFormatTag = WAVE_FORMAT_PCM; fmt.nChannels = ft->signal.channels; fmt.nSamplesPerSec = (DWORD)ft->signal.rate; fmt.nAvgBytesPerSec = fmt.nSamplesPerSec * sizeof(int16_t); fmt.nBlockAlign = fmt.nChannels*sizeof(int16_t); fmt.wBitsPerSample = sizeof(int16_t)*8; fmt.cbSize = 0; if (recording) priv->error = waveInOpen(&priv->hin, dev, &fmt, (DWORD_PTR)priv->block_finished_event, 0, CALLBACK_EVENT); else priv->error = waveOutOpen(&priv->hout, dev, &fmt, (DWORD_PTR)priv->block_finished_event, 0, CALLBACK_EVENT); if (priv->error != MMSYSERR_NOERROR) { fail(ft, priv->error, recording ? "waveInOpen" : "waveOutOpen"); stop(ft); return SOX_EOF; } for (i = 0; i < num_buffers; i++) { priv->headers[i].lpData = priv->data + priv->buf_len * sizeof(int16_t) * i; priv->headers[i].dwBufferLength = priv->buf_len * sizeof(int16_t); if (recording) priv->error = waveInPrepareHeader(priv->hin, &priv->headers[i], sizeof(priv->headers[i])); else priv->error = waveOutPrepareHeader(priv->hout, &priv->headers[i], sizeof(priv->headers[i])); if (priv->error != MMSYSERR_NOERROR) { fail(ft, priv->error, recording ? "waveInPrepareHeader" : "waveOutPrepareHeader"); stop(ft); return SOX_EOF; } if (recording) { priv->error = waveInAddBuffer(priv->hin, &priv->headers[i], sizeof(priv->headers[i])); if (priv->error != MMSYSERR_NOERROR) { fail(ft, priv->error, "waveInAddBuffer"); stop(ft); return SOX_EOF; } } } if (recording) { priv->error = waveInStart(priv->hin); if (priv->error != MMSYSERR_NOERROR) { fail(ft, priv->error, "waveInStart"); stop(ft); return SOX_EOF; } } return SOX_SUCCESS; } static size_t read(sox_format_t * ft, sox_sample_t* buf, size_t len) { size_t copied = 0; priv_t *priv = (priv_t*)ft->priv; if (priv == NULL) return SOX_EOF; while (!priv->error && copied < len) { LPWAVEHDR header = &priv->headers[priv->current]; if (0 == (header->dwFlags & WHDR_INQUEUE) || 0 != (header->dwFlags & WHDR_DONE)) { size_t length = header->dwBytesRecorded / sizeof(int16_t); size_t ready = min(len - copied, length - header->dwUser); size_t i; for (i = 0; i < ready; ++i) { buf[copied++] = SOX_SIGNED_16BIT_TO_SAMPLE(((int16_t *)header->lpData)[header->dwUser++], dummy); } if (header->dwUser == length) { priv->error = waveInAddBuffer(priv->hin, header, sizeof(*header)); priv->current = (priv->current + 1) % num_buffers; priv->headers[priv->current].dwUser = 0; if (priv->error) { fail(ft, priv->error, "waveInAddBuffer"); copied = 0; } } } else { WaitForSingleObject(priv->block_finished_event, INFINITE); } } return copied; } static size_t write(sox_format_t * ft, const sox_sample_t* buf, size_t len) { unsigned clips = 0; size_t copied = 0; priv_t *priv = (priv_t*)ft->priv; if (priv == NULL) return SOX_EOF; while (!priv->error && copied < len) { LPWAVEHDR header = &priv->headers[priv->current]; if (0 == (header->dwFlags & WHDR_INQUEUE) || 0 != (header->dwFlags & WHDR_DONE)) { size_t ready = min(len - copied, priv->buf_len - header->dwUser); size_t i; if (ft->signal.precision != 8) { /* Normal case: Play with 16-bit resolution. */ for (i = 0; i < ready; ++i) { SOX_SAMPLE_LOCALS; ((int16_t *)header->lpData)[header->dwUser++] = SOX_SAMPLE_TO_SIGNED_16BIT(buf[copied++], clips); } } else { /* Special case: Simulate 8-bit audio playback. */ for (i = 0; i < ready; ++i) { SOX_SAMPLE_LOCALS; ((int16_t *)header->lpData)[header->dwUser++] = SOX_SAMPLE_TO_SIGNED_8BIT(buf[copied++], clips) << 8; } } header->dwBufferLength = header->dwUser * sizeof(int16_t); priv->error = waveOutWrite(priv->hout, header, sizeof(*header)); priv->current = (priv->current + 1) % num_buffers; priv->headers[priv->current].dwUser = 0; if (priv->error) { fail(ft, priv->error, "waveOutWrite"); copied = 0; } } else { WaitForSingleObject(priv->block_finished_event, INFINITE); } } return copied; } LSX_FORMAT_HANDLER(waveaudio) { static const char * const names[] = {"waveaudio", NULL}; static unsigned const write_encodings[] = { SOX_ENCODING_SIGN2, 16, 0, SOX_ENCODING_SIGN2, 8, 0, 0}; static sox_format_handler_t const handler = {SOX_LIB_VERSION_CODE, "Windows Multimedia Audio", names, SOX_FILE_DEVICE | SOX_FILE_NOSTDIO, start, read, stop, start, write, stop, NULL, write_encodings, NULL, sizeof(priv_t) }; return &handler; }