status_t multi_audio_control(void* cookie, uint32 op, void* arg, size_t len) { switch(op) { case B_MULTI_GET_DESCRIPTION: return get_description(cookie, arg); case B_MULTI_GET_EVENT_INFO: return B_ERROR; case B_MULTI_SET_EVENT_INFO: return B_ERROR; case B_MULTI_GET_EVENT: return B_ERROR; case B_MULTI_GET_ENABLED_CHANNELS: return get_enabled_channels(cookie, arg); case B_MULTI_SET_ENABLED_CHANNELS: return B_OK; case B_MULTI_GET_GLOBAL_FORMAT: return get_global_format(cookie, arg); case B_MULTI_SET_GLOBAL_FORMAT: return set_global_format(cookie, arg); case B_MULTI_GET_CHANNEL_FORMATS: return B_ERROR; case B_MULTI_SET_CHANNEL_FORMATS: return B_ERROR; case B_MULTI_GET_MIX: return B_ERROR; case B_MULTI_SET_MIX: return B_ERROR; case B_MULTI_LIST_MIX_CHANNELS: return list_mix_channels(cookie, arg); case B_MULTI_LIST_MIX_CONTROLS: return list_mix_controls(cookie, arg); case B_MULTI_LIST_MIX_CONNECTIONS: return list_mix_connections(cookie, arg); case B_MULTI_GET_BUFFERS: return get_buffers(cookie, arg); case B_MULTI_SET_BUFFERS: return B_ERROR; case B_MULTI_SET_START_TIME: return B_ERROR; case B_MULTI_BUFFER_EXCHANGE: return buffer_exchange(cookie, arg); case B_MULTI_BUFFER_FORCE_STOP: return buffer_force_stop(cookie); } dprintf("null_audio: %s - unknown op\n" , __func__); return B_BAD_VALUE; }
static status_t multi_audio_control_generic(cookie_type* cookie, uint32 op, void* arg, size_t len) { status_t status; switch (op) { case B_MULTI_GET_DESCRIPTION: { multi_description description; multi_channel_info channels[16]; multi_channel_info* originalChannels; if (user_memcpy(&description, arg, sizeof(multi_description)) != B_OK) return B_BAD_ADDRESS; originalChannels = description.channels; description.channels = channels; if (description.request_channel_count > 16) description.request_channel_count = 16; status = get_description(cookie, &description); if (status != B_OK) return status; description.channels = originalChannels; if (user_memcpy(arg, &description, sizeof(multi_description)) != B_OK) return B_BAD_ADDRESS; return user_memcpy(originalChannels, channels, sizeof(multi_channel_info) * description.request_channel_count); } case B_MULTI_GET_ENABLED_CHANNELS: { multi_channel_enable* data = (multi_channel_enable*)arg; multi_channel_enable enable; uint32 enable_bits; uchar* orig_enable_bits; if (user_memcpy(&enable, data, sizeof(enable)) != B_OK || !IS_USER_ADDRESS(enable.enable_bits)) { return B_BAD_ADDRESS; } orig_enable_bits = enable.enable_bits; enable.enable_bits = (uchar*)&enable_bits; status = get_enabled_channels(cookie, &enable); if (status != B_OK) return status; enable.enable_bits = orig_enable_bits; if (user_memcpy(enable.enable_bits, &enable_bits, sizeof(enable_bits)) < B_OK || user_memcpy(arg, &enable, sizeof(multi_channel_enable)) < B_OK) { return B_BAD_ADDRESS; } return B_OK; } case B_MULTI_SET_ENABLED_CHANNELS: return B_OK; case B_MULTI_GET_GLOBAL_FORMAT: { multi_format_info info; if (user_memcpy(&info, arg, sizeof(multi_format_info)) != B_OK) return B_BAD_ADDRESS; status = get_global_format(cookie, &info); if (status != B_OK) return B_OK; return user_memcpy(arg, &info, sizeof(multi_format_info)); } case B_MULTI_SET_GLOBAL_FORMAT: { multi_format_info info; if (user_memcpy(&info, arg, sizeof(multi_format_info)) != B_OK) return B_BAD_ADDRESS; status = set_global_format(cookie, &info); if (status != B_OK) return B_OK; return user_memcpy(arg, &info, sizeof(multi_format_info)); } case B_MULTI_LIST_MIX_CHANNELS: return list_mix_channels(cookie, (multi_mix_channel_info*)arg); case B_MULTI_LIST_MIX_CONTROLS: { multi_mix_control_info info; multi_mix_control* original_controls; size_t allocSize; multi_mix_control *controls; if (user_memcpy(&info, arg, sizeof(multi_mix_control_info)) != B_OK) return B_BAD_ADDRESS; original_controls = info.controls; allocSize = sizeof(multi_mix_control) * info.control_count; controls = (multi_mix_control *)malloc(allocSize); if (controls == NULL) return B_NO_MEMORY; if (!IS_USER_ADDRESS(info.controls) || user_memcpy(controls, info.controls, allocSize) < B_OK) { free(controls); return B_BAD_ADDRESS; } info.controls = controls; status = list_mix_controls(cookie, &info); if (status != B_OK) { free(controls); return status; } info.controls = original_controls; status = user_memcpy(info.controls, controls, allocSize); if (status == B_OK) status = user_memcpy(arg, &info, sizeof(multi_mix_control_info)); if (status != B_OK) status = B_BAD_ADDRESS; free(controls); return status; } case B_MULTI_LIST_MIX_CONNECTIONS: return list_mix_connections(cookie, (multi_mix_connection_info*)arg); case B_MULTI_GET_MIX: { multi_mix_value_info info; multi_mix_value* original_values; size_t allocSize; multi_mix_value *values; if (user_memcpy(&info, arg, sizeof(multi_mix_value_info)) != B_OK) return B_BAD_ADDRESS; original_values = info.values; allocSize = sizeof(multi_mix_value) * info.item_count; values = (multi_mix_value *)malloc(allocSize); if (values == NULL) return B_NO_MEMORY; if (!IS_USER_ADDRESS(info.values) || user_memcpy(values, info.values, allocSize) < B_OK) { free(values); return B_BAD_ADDRESS; } info.values = values; status = get_mix(cookie, &info); if (status != B_OK) { free(values); return status; } info.values = original_values; status = user_memcpy(info.values, values, allocSize); if (status == B_OK) status = user_memcpy(arg, &info, sizeof(multi_mix_value_info)); if (status != B_OK) status = B_BAD_ADDRESS; free(values); return status; } case B_MULTI_SET_MIX: { multi_mix_value_info info; multi_mix_value* original_values; size_t allocSize; multi_mix_value *values; if (user_memcpy(&info, arg, sizeof(multi_mix_value_info)) != B_OK) return B_BAD_ADDRESS; original_values = info.values; allocSize = sizeof(multi_mix_value) * info.item_count; values = (multi_mix_value *)malloc(allocSize); if (values == NULL) return B_NO_MEMORY; if (!IS_USER_ADDRESS(info.values) || user_memcpy(values, info.values, allocSize) < B_OK) { free(values); return B_BAD_ADDRESS; } info.values = values; status = set_mix(cookie, &info); if (status != B_OK) { free(values); return status; } info.values = original_values; status = user_memcpy(info.values, values, allocSize); if (status == B_OK) status = user_memcpy(arg, &info, sizeof(multi_mix_value_info)); if (status != B_OK) status = B_BAD_ADDRESS; free(values); return status; } case B_MULTI_GET_BUFFERS: { multi_buffer_list list; if (user_memcpy(&list, arg, sizeof(multi_buffer_list)) != B_OK) return B_BAD_ADDRESS; { buffer_desc **original_playback_descs = list.playback_buffers; buffer_desc **original_record_descs = list.record_buffers; buffer_desc *playback_descs[list.request_playback_buffers]; buffer_desc *record_descs[list.request_record_buffers]; if (!IS_USER_ADDRESS(list.playback_buffers) || user_memcpy(playback_descs, list.playback_buffers, sizeof(buffer_desc*) * list.request_playback_buffers) < B_OK || !IS_USER_ADDRESS(list.record_buffers) || user_memcpy(record_descs, list.record_buffers, sizeof(buffer_desc*) * list.request_record_buffers) < B_OK) { return B_BAD_ADDRESS; } list.playback_buffers = playback_descs; list.record_buffers = record_descs; status = get_buffers(cookie, &list); if (status != B_OK) return status; list.playback_buffers = original_playback_descs; list.record_buffers = original_record_descs; if (user_memcpy(arg, &list, sizeof(multi_buffer_list)) < B_OK || user_memcpy(original_playback_descs, playback_descs, sizeof(buffer_desc*) * list.request_playback_buffers) < B_OK || user_memcpy(original_record_descs, record_descs, sizeof(buffer_desc*) * list.request_record_buffers) < B_OK) { status = B_BAD_ADDRESS; } } return status; } case B_MULTI_BUFFER_EXCHANGE: return buffer_exchange(cookie, (multi_buffer_info*)arg); case B_MULTI_BUFFER_FORCE_STOP: return buffer_force_stop(cookie); case B_MULTI_GET_EVENT_INFO: case B_MULTI_SET_EVENT_INFO: case B_MULTI_GET_EVENT: case B_MULTI_GET_CHANNEL_FORMATS: case B_MULTI_SET_CHANNEL_FORMATS: case B_MULTI_SET_BUFFERS: case B_MULTI_SET_START_TIME: return B_ERROR; } return B_BAD_VALUE; }