/* * Copyright (c) 2012 Jan Vesely * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup libdrv * @{ */ /** @file */ #include #include #include #include #include #include #include #include "audio_pcm_iface.h" #include "ddf/driver.h" typedef enum { IPC_M_AUDIO_PCM_GET_INFO_STR, IPC_M_AUDIO_PCM_QUERY_CAPS, IPC_M_AUDIO_PCM_REGISTER_EVENTS, IPC_M_AUDIO_PCM_UNREGISTER_EVENTS, IPC_M_AUDIO_PCM_TEST_FORMAT, IPC_M_AUDIO_PCM_GET_BUFFER, IPC_M_AUDIO_PCM_RELEASE_BUFFER, IPC_M_AUDIO_PCM_GET_BUFFER_POS, IPC_M_AUDIO_PCM_START_PLAYBACK, IPC_M_AUDIO_PCM_STOP_PLAYBACK, IPC_M_AUDIO_PCM_START_CAPTURE, IPC_M_AUDIO_PCM_STOP_CAPTURE, } audio_pcm_iface_funcs_t; /** * Get human readable capability name. * @param cap audio capability. * @return Valid string */ const char *audio_pcm_cap_str(audio_cap_t cap) { static const char *caps[] = { [AUDIO_CAP_CAPTURE] = "CAPTURE", [AUDIO_CAP_PLAYBACK] = "PLAYBACK", [AUDIO_CAP_MAX_BUFFER] = "MAXIMUM BUFFER SIZE", [AUDIO_CAP_BUFFER_POS] = "KNOWS BUFFER POSITION", [AUDIO_CAP_INTERRUPT] = "FRAGMENT INTERRUPTS", [AUDIO_CAP_INTERRUPT_MIN_FRAMES] = "MINIMUM FRAGMENT SIZE", [AUDIO_CAP_INTERRUPT_MAX_FRAMES] = "MAXIMUM FRAGMENT SIZE", }; if (cap >= ARRAY_SIZE(caps)) return "UNKNOWN CAP"; return caps[cap]; } /** * Get human readable event name. * @param event Audio device event * @return Valid string */ const char *audio_pcm_event_str(pcm_event_t event) { static const char *events[] = { [PCM_EVENT_PLAYBACK_STARTED] = "PLAYBACK STARTED", [PCM_EVENT_CAPTURE_STARTED] = "CAPTURE STARTED", [PCM_EVENT_FRAMES_PLAYED] = "FRAGMENT PLAYED", [PCM_EVENT_FRAMES_CAPTURED] = "FRAGMENT CAPTURED", [PCM_EVENT_PLAYBACK_TERMINATED] = "PLAYBACK TERMINATED", [PCM_EVENT_CAPTURE_TERMINATED] = "CAPTURE TERMINATED", }; if (event >= ARRAY_SIZE(events)) return "UNKNOWN EVENT"; return events[event]; } /* * CLIENT SIDE */ /** * Open audio session with the first registered device. * * @return Pointer to a new audio device session, NULL on failure. */ audio_pcm_sess_t *audio_pcm_open_default(void) { static bool resolved = false; static category_id_t pcm_id = 0; if (!resolved) { const errno_t ret = loc_category_get_id("audio-pcm", &pcm_id, IPC_FLAG_BLOCKING); if (ret != EOK) return NULL; resolved = true; } service_id_t *svcs = NULL; size_t count = 0; const errno_t ret = loc_category_get_svcs(pcm_id, &svcs, &count); if (ret != EOK) return NULL; audio_pcm_sess_t *session = NULL; if (count) session = audio_pcm_open_service(svcs[0]); free(svcs); return session; } /** * Open audio session with device identified by location service string. * * @param name Location service string. * @return Pointer to a new audio device session, NULL on failure. */ audio_pcm_sess_t *audio_pcm_open(const char *name) { service_id_t sid; const errno_t ret = loc_service_get_id(name, &sid, 0); if (ret != EOK) return NULL; return loc_service_connect(sid, INTERFACE_DDF, 0); } /** * Open audio session with device identified by location service id * * @param name Location service id. * @return Pointer to a new audio device session, NULL on failure. */ audio_pcm_sess_t *audio_pcm_open_service(service_id_t id) { return loc_service_connect(id, INTERFACE_DDF, IPC_FLAG_BLOCKING); } /** * Close open audio device session. * * @param name Open audio device session. * * @note Calling this function on already closed or invalid session results * in undefined behavior. */ void audio_pcm_close(audio_pcm_sess_t *sess) { if (sess) async_hangup(sess); } /** * Get a short description string. * * @param sess Audio device session. * @param name Place to store newly allocated string. * * @return Error code. * * @note Caller is responsible for freeing newly allocated memory. */ errno_t audio_pcm_get_info_str(audio_pcm_sess_t *sess, char **name) { if (!name) return EINVAL; async_exch_t *exch = async_exchange_begin(sess); sysarg_t name_size; const errno_t ret = async_req_1_1(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_GET_INFO_STR, &name_size); if (ret == EOK) { char *name_place = calloc(1, name_size); if (!name_place) { /* * Make the other side fail * as it waits for read request */ async_data_read_start(exch, (void *)-1, 0); async_exchange_end(exch); return ENOMEM; } const errno_t ret = async_data_read_start(exch, name_place, name_size); if (ret != EOK) { free(name_place); async_exchange_end(exch); return ret; } *name = name_place; } async_exchange_end(exch); return ret; } /** * Query value of specified capability. * * @param sess Audio device session. * @param cap Audio device capability. * @param[out] val Place to store queried value. * * @return Error code. */ errno_t audio_pcm_query_cap(audio_pcm_sess_t *sess, audio_cap_t cap, sysarg_t *value) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_1(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_QUERY_CAPS, cap, value); async_exchange_end(exch); return ret; } /** * Query current position in device buffer. * * @param sess Audio device session. * @param pos Place to store the result. * * @return Error code. * * Works for both playback and capture. */ errno_t audio_pcm_get_buffer_pos(audio_pcm_sess_t *sess, size_t *pos) { if (!pos) return EINVAL; async_exch_t *exch = async_exchange_begin(sess); sysarg_t value = 0; const errno_t ret = async_req_1_1(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_GET_BUFFER_POS, &value); if (ret == EOK) *pos = value; async_exchange_end(exch); return ret; } /** * Test format parameters for device support. * * @param sess Audio device session. * @param channels Number of channels * @param rate Sampling rate. * @format Sample format. * * @return Error code. * * Works for both playback and capture. This function modifies provided * parameters to the nearest values supported by the device. */ errno_t audio_pcm_test_format(audio_pcm_sess_t *sess, unsigned *channels, unsigned *rate, pcm_sample_format_t *format) { async_exch_t *exch = async_exchange_begin(sess); sysarg_t channels_arg = channels ? *channels : 0; sysarg_t rate_arg = rate ? *rate : 0; sysarg_t format_arg = format ? *format : 0; const errno_t ret = async_req_4_3(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_TEST_FORMAT, channels_arg, rate_arg, format_arg, &channels_arg, &rate_arg, &format_arg); async_exchange_end(exch); /* * All OK or something has changed. Verify that it was not one of the * params we care about */ if ((ret == EOK || ret == ELIMIT) && (!channels || *channels == channels_arg) && (!rate || *rate == rate_arg) && (!format || *format == format_arg)) return EOK; if (channels) *channels = channels_arg; if (rate) *rate = rate_arg; if (format) *format = format_arg; return ret; } /** * Register callback for device generated events. * * @param sess Audio device session. * @param event_rec Event callback function. * @param arg Event callback custom parameter. * * @return Error code. */ errno_t audio_pcm_register_event_callback(audio_pcm_sess_t *sess, async_port_handler_t event_callback, void *arg) { if (!event_callback) return EINVAL; async_exch_t *exch = async_exchange_begin(sess); errno_t ret = async_req_1_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_REGISTER_EVENTS); if (ret == EOK) { port_id_t port; ret = async_create_callback_port(exch, INTERFACE_AUDIO_PCM_CB, 0, 0, event_callback, arg, &port); } async_exchange_end(exch); return ret; } /** * Unregister callback for device generated events. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_unregister_event_callback(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_1_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_UNREGISTER_EVENTS); async_exchange_end(exch); return ret; } /** * Get device accessible playback/capture buffer. * * @param sess Audio device session. * @param buffer Place to store pointer to the buffer. * @param size Place to store buffer size (bytes). * * @return Error code. */ errno_t audio_pcm_get_buffer(audio_pcm_sess_t *sess, void **buffer, size_t *size) { if (!buffer || !size) return EINVAL; async_exch_t *exch = async_exchange_begin(sess); sysarg_t buffer_size = *size; errno_t ret = async_req_2_1(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_GET_BUFFER, (sysarg_t)buffer_size, &buffer_size); if (ret == EOK) { void *dst = NULL; ret = async_share_in_start_0_0(exch, buffer_size, &dst); if (ret != EOK) { async_exchange_end(exch); return ret; } *buffer = dst; *size = buffer_size; } async_exchange_end(exch); return ret; } /** * Release device accessible playback/capture buffer. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_release_buffer(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_1_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_RELEASE_BUFFER); async_exchange_end(exch); return ret; } /** * Start playback on buffer from position 0. * * @param sess Audio device session. * @param frames Size of fragment (in frames). * @param channels Number of channels. * @param sample_rate Sampling rate (for one channel). * @param format Sample format. * * @return Error code. * * Event will be generated after every fragment. Set fragment size to * 0 to turn off event generation. */ errno_t audio_pcm_start_playback_fragment(audio_pcm_sess_t *sess, unsigned frames, unsigned channels, unsigned sample_rate, pcm_sample_format_t format) { if (channels > UINT16_MAX) return EINVAL; assert((format & UINT16_MAX) == format); const sysarg_t packed = (channels << 16) | (format & UINT16_MAX); async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_4_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_START_PLAYBACK, frames, sample_rate, packed); async_exchange_end(exch); return ret; } /** * Stops playback after current fragment. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_last_playback_fragment(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_PLAYBACK, false); async_exchange_end(exch); return ret; } /** * Start playback on buffer from the current position. * * @param sess Audio device session. * @param channels Number of channels. * @param sample_rate Sampling rate (for one channel). * @param format Sample format. * * @return Error code. */ errno_t audio_pcm_start_playback(audio_pcm_sess_t *sess, unsigned channels, unsigned sample_rate, pcm_sample_format_t format) { return audio_pcm_start_playback_fragment( sess, 0, channels, sample_rate, format); } /** * Immediately stops current playback. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_stop_playback_immediate(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_PLAYBACK, true); async_exchange_end(exch); return ret; } /** * Stops playback at the end of the current fragment. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_stop_playback(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_PLAYBACK, false); async_exchange_end(exch); return ret; } /** * Start capture on buffer from the current position. * * @param sess Audio device session. * @param frames Size of fragment (in frames). * @param channels Number of channels. * @param sample_rate Sampling rate (for one channel). * @param format Sample format. * * @return Error code. * * Event will be generated after every fragment. Set fragment size to * 0 to turn off event generation. */ errno_t audio_pcm_start_capture_fragment(audio_pcm_sess_t *sess, unsigned frames, unsigned channels, unsigned sample_rate, pcm_sample_format_t format) { if (channels > UINT16_MAX) return EINVAL; assert((format & UINT16_MAX) == format); const sysarg_t packed = (channels << 16) | (format & UINT16_MAX); async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_4_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_START_CAPTURE, frames, sample_rate, packed); async_exchange_end(exch); return ret; } /** * Start capture on buffer from the current position. * * @param sess Audio device session. * @param channels Number of channels. * @param sample_rate Sampling rate (for one channel). * @param format Sample format. * * @return Error code. */ errno_t audio_pcm_start_capture(audio_pcm_sess_t *sess, unsigned channels, unsigned sample_rate, pcm_sample_format_t format) { return audio_pcm_start_capture_fragment( sess, 0, channels, sample_rate, format); } /** * Stops capture at the end of current fragment. * * Won't work if capture was started with fragment size 0. * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_last_capture_fragment(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_CAPTURE, false); async_exchange_end(exch); return ret; } /** * Immediately stops current capture. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_stop_capture_immediate(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_CAPTURE, true); async_exchange_end(exch); return ret; } /** * Stops capture at the end of the current fragment. * * @param sess Audio device session. * * @return Error code. */ errno_t audio_pcm_stop_capture(audio_pcm_sess_t *sess) { async_exch_t *exch = async_exchange_begin(sess); const errno_t ret = async_req_2_0(exch, DEV_IFACE_ID(AUDIO_PCM_BUFFER_IFACE), IPC_M_AUDIO_PCM_STOP_CAPTURE, false); async_exchange_end(exch); return ret; } /* * SERVER SIDE */ static void remote_audio_pcm_get_info_str(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_query_caps(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_events_register(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_events_unregister(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_get_buffer_pos(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_test_format(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_get_buffer(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_release_buffer(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_start_playback(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_stop_playback(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_start_capture(ddf_fun_t *, void *, ipc_call_t *); static void remote_audio_pcm_stop_capture(ddf_fun_t *, void *, ipc_call_t *); /** Remote audio pcm buffer interface operations. */ static const remote_iface_func_ptr_t remote_audio_pcm_iface_ops[] = { [IPC_M_AUDIO_PCM_GET_INFO_STR] = remote_audio_pcm_get_info_str, [IPC_M_AUDIO_PCM_QUERY_CAPS] = remote_audio_pcm_query_caps, [IPC_M_AUDIO_PCM_REGISTER_EVENTS] = remote_audio_pcm_events_register, [IPC_M_AUDIO_PCM_UNREGISTER_EVENTS] = remote_audio_pcm_events_unregister, [IPC_M_AUDIO_PCM_GET_BUFFER_POS] = remote_audio_pcm_get_buffer_pos, [IPC_M_AUDIO_PCM_TEST_FORMAT] = remote_audio_pcm_test_format, [IPC_M_AUDIO_PCM_GET_BUFFER] = remote_audio_pcm_get_buffer, [IPC_M_AUDIO_PCM_RELEASE_BUFFER] = remote_audio_pcm_release_buffer, [IPC_M_AUDIO_PCM_START_PLAYBACK] = remote_audio_pcm_start_playback, [IPC_M_AUDIO_PCM_STOP_PLAYBACK] = remote_audio_pcm_stop_playback, [IPC_M_AUDIO_PCM_START_CAPTURE] = remote_audio_pcm_start_capture, [IPC_M_AUDIO_PCM_STOP_CAPTURE] = remote_audio_pcm_stop_capture, }; /** Remote audio mixer interface structure. */ const remote_iface_t remote_audio_pcm_iface = { .method_count = ARRAY_SIZE(remote_audio_pcm_iface_ops), .methods = remote_audio_pcm_iface_ops }; void remote_audio_pcm_get_info_str(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; if (!pcm_iface->get_info_str) { async_answer_0(call, ENOTSUP); return; } const char *name = NULL; const errno_t ret = pcm_iface->get_info_str(fun, &name); const size_t name_size = name ? str_size(name) + 1 : 0; async_answer_1(call, ret, name_size); /* Send the string. */ if (ret == EOK && name_size > 0) { ipc_call_t call; size_t size; if (!async_data_read_receive(&call, &size)) { async_answer_0(&call, EPARTY); return; } if (size != name_size) { async_answer_0(&call, ELIMIT); return; } async_data_read_finalize(&call, name, name_size); } } void remote_audio_pcm_query_caps(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const audio_cap_t cap = DEV_IPC_GET_ARG1(*call); if (pcm_iface->query_cap) { const unsigned value = pcm_iface->query_cap(fun, cap); async_answer_1(call, EOK, value); } else { async_answer_0(call, ENOTSUP); } } static void remote_audio_pcm_events_register(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; if (!pcm_iface->get_event_session || !pcm_iface->set_event_session) { async_answer_0(call, ENOTSUP); return; } async_answer_0(call, EOK); ipc_call_t callback_call; async_get_call(&callback_call); async_sess_t *sess = async_callback_receive_start(EXCHANGE_ATOMIC, &callback_call); if (sess == NULL) { ddf_msg(LVL_DEBUG, "Failed to create event callback"); async_answer_0(&callback_call, EAGAIN); return; } const errno_t ret = pcm_iface->set_event_session(fun, sess); if (ret != EOK) { ddf_msg(LVL_DEBUG, "Failed to set event callback."); async_hangup(sess); async_answer_0(&callback_call, ret); return; } async_answer_0(&callback_call, EOK); } static void remote_audio_pcm_events_unregister(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; if (!pcm_iface->get_event_session || !pcm_iface->set_event_session) { async_answer_0(call, ENOTSUP); return; } async_sess_t *sess = pcm_iface->get_event_session(fun); if (sess) { async_hangup(sess); pcm_iface->set_event_session(fun, NULL); } async_answer_0(call, EOK); } void remote_audio_pcm_get_buffer_pos(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; size_t pos = 0; const errno_t ret = pcm_iface->get_buffer_pos ? pcm_iface->get_buffer_pos(fun, &pos) : ENOTSUP; async_answer_1(call, ret, pos); } void remote_audio_pcm_test_format(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; unsigned channels = DEV_IPC_GET_ARG1(*call); unsigned rate = DEV_IPC_GET_ARG2(*call); pcm_sample_format_t format = DEV_IPC_GET_ARG3(*call); const errno_t ret = pcm_iface->test_format ? pcm_iface->test_format(fun, &channels, &rate, &format) : ENOTSUP; async_answer_3(call, ret, channels, rate, format); } void remote_audio_pcm_get_buffer(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; if (!pcm_iface->get_buffer || !pcm_iface->release_buffer) { async_answer_0(call, ENOTSUP); return; } void *buffer = NULL; size_t size = DEV_IPC_GET_ARG1(*call); errno_t ret = pcm_iface->get_buffer(fun, &buffer, &size); async_answer_1(call, ret, size); if (ret != EOK || size == 0) return; /* Share the buffer. */ ipc_call_t share; size_t share_size = 0; ddf_msg(LVL_DEBUG2, "Receiving share request."); if (!async_share_in_receive(&share, &share_size)) { ddf_msg(LVL_DEBUG, "Failed to share pcm buffer."); pcm_iface->release_buffer(fun); async_answer_0(&share, EPARTY); return; } ddf_msg(LVL_DEBUG2, "Checking requested share size."); if (share_size != size) { ddf_msg(LVL_DEBUG, "Incorrect pcm buffer size requested."); pcm_iface->release_buffer(fun); async_answer_0(&share, ELIMIT); return; } ddf_msg(LVL_DEBUG2, "Calling share finalize."); ret = async_share_in_finalize(&share, buffer, AS_AREA_WRITE | AS_AREA_READ); if (ret != EOK) { ddf_msg(LVL_DEBUG, "Failed to share buffer."); pcm_iface->release_buffer(fun); return; } ddf_msg(LVL_DEBUG2, "Buffer shared with size %zu.", share_size); } void remote_audio_pcm_release_buffer(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const errno_t ret = pcm_iface->release_buffer ? pcm_iface->release_buffer(fun) : ENOTSUP; async_answer_0(call, ret); } void remote_audio_pcm_start_playback(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const unsigned frames = DEV_IPC_GET_ARG1(*call); const unsigned rate = DEV_IPC_GET_ARG2(*call); const unsigned channels = (DEV_IPC_GET_ARG3(*call) >> 16) & UINT8_MAX; const pcm_sample_format_t format = DEV_IPC_GET_ARG3(*call) & UINT16_MAX; const errno_t ret = pcm_iface->start_playback ? pcm_iface->start_playback(fun, frames, channels, rate, format) : ENOTSUP; async_answer_0(call, ret); } void remote_audio_pcm_stop_playback(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const bool immediate = DEV_IPC_GET_ARG1(*call); const errno_t ret = pcm_iface->stop_playback ? pcm_iface->stop_playback(fun, immediate) : ENOTSUP; async_answer_0(call, ret); } void remote_audio_pcm_start_capture(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const unsigned frames = DEV_IPC_GET_ARG1(*call); const unsigned rate = DEV_IPC_GET_ARG2(*call); const unsigned channels = (DEV_IPC_GET_ARG3(*call) >> 16) & UINT16_MAX; const pcm_sample_format_t format = DEV_IPC_GET_ARG3(*call) & UINT16_MAX; const errno_t ret = pcm_iface->start_capture ? pcm_iface->start_capture(fun, frames, channels, rate, format) : ENOTSUP; async_answer_0(call, ret); } void remote_audio_pcm_stop_capture(ddf_fun_t *fun, void *iface, ipc_call_t *call) { const audio_pcm_iface_t *pcm_iface = iface; const bool immediate = DEV_IPC_GET_ARG1(*call); const errno_t ret = pcm_iface->stop_capture ? pcm_iface->stop_capture(fun, immediate) : ENOTSUP; async_answer_0(call, ret); } /** * @} */