/** * FreeRDP: A Remote Desktop Protocol Implementation * Audio Input Redirection Virtual Channel - ALSA implementation * * Copyright 2010-2011 Vic Lee * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include "audin_main.h" typedef struct _AudinALSADevice { IAudinDevice iface; char* device_name; UINT32 frames_per_packet; UINT32 target_rate; UINT32 actual_rate; snd_pcm_format_t format; UINT32 target_channels; UINT32 actual_channels; int bytes_per_channel; int wformat; int block_size; FREERDP_DSP_CONTEXT* dsp_context; HANDLE thread; HANDLE stopEvent; BYTE* buffer; int buffer_frames; AudinReceive receive; void* user_data; } AudinALSADevice; static BOOL audin_alsa_set_params(AudinALSADevice* alsa, snd_pcm_t* capture_handle) { int error; snd_pcm_hw_params_t* hw_params; if ((error = snd_pcm_hw_params_malloc(&hw_params)) < 0) { DEBUG_WARN("snd_pcm_hw_params_malloc (%s)", snd_strerror(error)); return FALSE; } snd_pcm_hw_params_any(capture_handle, hw_params); snd_pcm_hw_params_set_access(capture_handle, hw_params, SND_PCM_ACCESS_RW_INTERLEAVED); snd_pcm_hw_params_set_format(capture_handle, hw_params, alsa->format); snd_pcm_hw_params_set_rate_near(capture_handle, hw_params, &alsa->actual_rate, NULL); snd_pcm_hw_params_set_channels_near(capture_handle, hw_params, &alsa->actual_channels); snd_pcm_hw_params(capture_handle, hw_params); snd_pcm_hw_params_free(hw_params); snd_pcm_prepare(capture_handle); if ((alsa->actual_rate != alsa->target_rate) || (alsa->actual_channels != alsa->target_channels)) { DEBUG_DVC("actual rate %d / channel %d is " "different from target rate %d / channel %d, resampling required.", alsa->actual_rate, alsa->actual_channels, alsa->target_rate, alsa->target_channels); } return TRUE; } static BOOL audin_alsa_thread_receive(AudinALSADevice* alsa, BYTE* src, int size) { int frames; int cframes; int ret = 0; int encoded_size; BYTE* encoded_data; int rbytes_per_frame; int tbytes_per_frame; rbytes_per_frame = alsa->actual_channels * alsa->bytes_per_channel; tbytes_per_frame = alsa->target_channels * alsa->bytes_per_channel; if ((alsa->target_rate == alsa->actual_rate) && (alsa->target_channels == alsa->actual_channels)) { frames = size / rbytes_per_frame; } else { alsa->dsp_context->resample(alsa->dsp_context, src, alsa->bytes_per_channel, alsa->actual_channels, alsa->actual_rate, size / rbytes_per_frame, alsa->target_channels, alsa->target_rate); frames = alsa->dsp_context->resampled_frames; DEBUG_DVC("resampled %d frames at %d to %d frames at %d", size / rbytes_per_frame, alsa->actual_rate, frames, alsa->target_rate); size = frames * tbytes_per_frame; src = alsa->dsp_context->resampled_buffer; } while (frames > 0) { if (WaitForSingleObject(alsa->stopEvent, 0) == WAIT_OBJECT_0) break; cframes = alsa->frames_per_packet - alsa->buffer_frames; if (cframes > frames) cframes = frames; CopyMemory(alsa->buffer + alsa->buffer_frames * tbytes_per_frame, src, cframes * tbytes_per_frame); alsa->buffer_frames += cframes; if (alsa->buffer_frames >= alsa->frames_per_packet) { if (alsa->wformat == WAVE_FORMAT_DVI_ADPCM) { alsa->dsp_context->encode_ima_adpcm(alsa->dsp_context, alsa->buffer, alsa->buffer_frames * tbytes_per_frame, alsa->target_channels, alsa->block_size); encoded_data = alsa->dsp_context->adpcm_buffer; encoded_size = alsa->dsp_context->adpcm_size; DEBUG_DVC("encoded %d to %d", alsa->buffer_frames * tbytes_per_frame, encoded_size); } else { encoded_data = alsa->buffer; encoded_size = alsa->buffer_frames * tbytes_per_frame; } if (WaitForSingleObject(alsa->stopEvent, 0) == WAIT_OBJECT_0) { ret = 0; frames = 0; } else { ret = alsa->receive(encoded_data, encoded_size, alsa->user_data); } alsa->buffer_frames = 0; if (!ret) break; } src += cframes * tbytes_per_frame; frames -= cframes; } return ret; } static void* audin_alsa_thread_func(void* arg) { int error; BYTE* buffer; int rbytes_per_frame; int tbytes_per_frame; snd_pcm_t* capture_handle = NULL; AudinALSADevice* alsa = (AudinALSADevice*) arg; DEBUG_DVC("in"); rbytes_per_frame = alsa->actual_channels * alsa->bytes_per_channel; tbytes_per_frame = alsa->target_channels * alsa->bytes_per_channel; alsa->buffer = (BYTE*) malloc(tbytes_per_frame * alsa->frames_per_packet); ZeroMemory(alsa->buffer, tbytes_per_frame * alsa->frames_per_packet); alsa->buffer_frames = 0; buffer = (BYTE*) malloc(rbytes_per_frame * alsa->frames_per_packet); ZeroMemory(buffer, rbytes_per_frame * alsa->frames_per_packet); freerdp_dsp_context_reset_adpcm(alsa->dsp_context); do { if ((error = snd_pcm_open(&capture_handle, alsa->device_name, SND_PCM_STREAM_CAPTURE, 0)) < 0) { DEBUG_WARN("snd_pcm_open (%s)", snd_strerror(error)); break; } if (!audin_alsa_set_params(alsa, capture_handle)) { break; } while (!(WaitForSingleObject(alsa->stopEvent, 0) == WAIT_OBJECT_0)) { error = snd_pcm_readi(capture_handle, buffer, alsa->frames_per_packet); if (error == -EPIPE) { snd_pcm_recover(capture_handle, error, 0); continue; } else if (error < 0) { DEBUG_WARN("snd_pcm_readi (%s)", snd_strerror(error)); break; } if (!audin_alsa_thread_receive(alsa, buffer, error * rbytes_per_frame)) break; } } while (0); free(buffer); free(alsa->buffer); alsa->buffer = NULL; if (capture_handle) snd_pcm_close(capture_handle); SetEvent(alsa->stopEvent); DEBUG_DVC("out"); return NULL; } static void audin_alsa_free(IAudinDevice* device) { AudinALSADevice* alsa = (AudinALSADevice*) device; SetEvent(alsa->stopEvent); freerdp_dsp_context_free(alsa->dsp_context); free(alsa->device_name); free(alsa); } static BOOL audin_alsa_format_supported(IAudinDevice* device, audinFormat* format) { switch (format->wFormatTag) { case WAVE_FORMAT_PCM: if (format->cbSize == 0 && (format->nSamplesPerSec <= 48000) && (format->wBitsPerSample == 8 || format->wBitsPerSample == 16) && (format->nChannels == 1 || format->nChannels == 2)) { return TRUE; } break; case WAVE_FORMAT_DVI_ADPCM: if ((format->nSamplesPerSec <= 48000) && (format->wBitsPerSample == 4) && (format->nChannels == 1 || format->nChannels == 2)) { return TRUE; } break; } return FALSE; } static void audin_alsa_set_format(IAudinDevice* device, audinFormat* format, UINT32 FramesPerPacket) { int bs; AudinALSADevice* alsa = (AudinALSADevice*) device; alsa->target_rate = format->nSamplesPerSec; alsa->actual_rate = format->nSamplesPerSec; alsa->target_channels = format->nChannels; alsa->actual_channels = format->nChannels; switch (format->wFormatTag) { case WAVE_FORMAT_PCM: switch (format->wBitsPerSample) { case 8: alsa->format = SND_PCM_FORMAT_S8; alsa->bytes_per_channel = 1; break; case 16: alsa->format = SND_PCM_FORMAT_S16_LE; alsa->bytes_per_channel = 2; break; } break; case WAVE_FORMAT_DVI_ADPCM: alsa->format = SND_PCM_FORMAT_S16_LE; alsa->bytes_per_channel = 2; bs = (format->nBlockAlign - 4 * format->nChannels) * 4; alsa->frames_per_packet = (alsa->frames_per_packet * format->nChannels * 2 / bs + 1) * bs / (format->nChannels * 2); DEBUG_DVC("aligned FramesPerPacket=%d", alsa->frames_per_packet); break; } alsa->wformat = format->wFormatTag; alsa->block_size = format->nBlockAlign; } static void audin_alsa_open(IAudinDevice* device, AudinReceive receive, void* user_data) { AudinALSADevice* alsa = (AudinALSADevice*) device; DEBUG_DVC(""); alsa->receive = receive; alsa->user_data = user_data; alsa->stopEvent = CreateEvent(NULL, TRUE, FALSE, NULL); alsa->thread = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE) audin_alsa_thread_func, alsa, 0, NULL); } static void audin_alsa_close(IAudinDevice* device) { AudinALSADevice* alsa = (AudinALSADevice*) device; DEBUG_DVC(""); SetEvent(alsa->stopEvent); alsa->receive = NULL; alsa->user_data = NULL; } COMMAND_LINE_ARGUMENT_A audin_alsa_args[] = { { "audio-dev", COMMAND_LINE_VALUE_REQUIRED, "", NULL, NULL, -1, NULL, "audio device name" }, { NULL, 0, NULL, NULL, NULL, -1, NULL, NULL } }; static void audin_alsa_parse_addin_args(AudinALSADevice* device, ADDIN_ARGV* args) { int status; DWORD flags; COMMAND_LINE_ARGUMENT_A* arg; AudinALSADevice* alsa = (AudinALSADevice*) device; flags = COMMAND_LINE_SIGIL_NONE | COMMAND_LINE_SEPARATOR_COLON; status = CommandLineParseArgumentsA(args->argc, (const char**) args->argv, audin_alsa_args, flags, alsa, NULL, NULL); arg = audin_alsa_args; do { if (!(arg->Flags & COMMAND_LINE_VALUE_PRESENT)) continue; CommandLineSwitchStart(arg) CommandLineSwitchCase(arg, "audio-dev") { alsa->device_name = _strdup(arg->Value); } CommandLineSwitchEnd(arg) } while ((arg = CommandLineFindNextArgumentA(arg)) != NULL); } #ifdef STATIC_CHANNELS #define freerdp_audin_client_subsystem_entry alsa_freerdp_audin_client_subsystem_entry #endif int freerdp_audin_client_subsystem_entry(PFREERDP_AUDIN_DEVICE_ENTRY_POINTS pEntryPoints) { ADDIN_ARGV* args; AudinALSADevice* alsa; alsa = (AudinALSADevice*) malloc(sizeof(AudinALSADevice)); ZeroMemory(alsa, sizeof(AudinALSADevice)); alsa->iface.Open = audin_alsa_open; alsa->iface.FormatSupported = audin_alsa_format_supported; alsa->iface.SetFormat = audin_alsa_set_format; alsa->iface.Close = audin_alsa_close; alsa->iface.Free = audin_alsa_free; args = pEntryPoints->args; audin_alsa_parse_addin_args(alsa, args); if (!alsa->device_name) alsa->device_name = _strdup("default"); alsa->frames_per_packet = 128; alsa->target_rate = 22050; alsa->actual_rate = 22050; alsa->format = SND_PCM_FORMAT_S16_LE; alsa->target_channels = 2; alsa->actual_channels = 2; alsa->bytes_per_channel = 2; alsa->dsp_context = freerdp_dsp_context_new(); pEntryPoints->pRegisterAudinDevice(pEntryPoints->plugin, (IAudinDevice*) alsa); return 0; }