#include "hw/device.h" #include "hw/buffer.h" #include "hw/buffer_list.h" #include "hw/links.h" #define N_FDS 50 void _update_paused(link_t *all_links) { int n = 0; for (n = 0; all_links[n].capture; n++); for (int i = n; i-- > 0; ) { link_t *link = &all_links[i]; if (!link->capture->capture_list->streaming) { continue; } bool paused = true; if (link->callbacks.check_streaming && link->callbacks.check_streaming()) { paused = false; } for (int j = 0; link->sinks[j]; j++) { buffer_list_t *sink = link->sinks[j]; if (!sink->streaming) { continue; } if (sink->device->paused) { continue; } int count_enqueued = buffer_list_count_enqueued(sink); if (count_enqueued < sink->nbufs) { paused = false; } } link->capture->paused = paused; if (link->capture->output_device) { link->capture->output_device->paused = paused; } } } int _build_fds(link_t *all_links, struct pollfd *fds, link_t **links, buffer_list_t **buf_lists, int max_n) { int n = 0; for (int i = 0; all_links[i].capture; i++) { link_t *link = &all_links[i]; if (!link->capture || !link->capture->capture_list || n >= max_n) { return -EINVAL; } if (!link->capture->capture_list->do_mmap) { continue; } if (!link->capture->capture_list->streaming) { continue; } for (int j = 0; link->sinks[j]; j++) { buffer_list_t *sink = link->sinks[j]; if (n >= max_n) { return -EINVAL; } if (!sink->streaming) { continue; } int count_enqueued = buffer_list_count_enqueued(sink); // Can something be dequeued? if (count_enqueued == 0) { continue; } struct pollfd fd = {sink->device->fd, POLLOUT}; fds[n] = fd; buf_lists[n] = sink; links[n] = link; n++; } if (!link->capture->paused) { struct pollfd fd = {link->capture->fd, POLLIN}; fds[n] = fd; buf_lists[n] = link->capture->capture_list; links[n] = link; n++; } } return n; } int links_step(link_t *all_links, int timeout) { struct pollfd fds[N_FDS] = {0}; link_t *links[N_FDS]; buffer_list_t *buf_lists[N_FDS]; buffer_t *buf; _update_paused(all_links); int n = _build_fds(all_links, fds, links, buf_lists, N_FDS); int ret = poll(fds, n, timeout); if (ret < 0 && errno != EINTR) { return errno; } for (int i = 0; i < n; i++) { buffer_list_t *buf_list = buf_lists[i]; link_t *link = links[i]; E_LOG_DEBUG(buf_list, "pool i=%d revents=%08x streaming=%d enqueued=%d/%d paused=%d", i, fds[i].revents, buf_list->streaming, buffer_list_count_enqueued(buf_list), buf_list->nbufs, link->capture->paused); if (fds[i].revents & POLLIN) { E_LOG_DEBUG(buf_list, "POLLIN"); if (buf = buffer_list_dequeue(buf_list)) { for (int j = 0; link->sinks[j]; j++) { if (link->sinks[j]->device->paused) { continue; } buffer_list_enqueue(link->sinks[j], buf); } if (link->callbacks.on_buffer) { link->callbacks.on_buffer(buf); } buffer_consumed(buf); } } // Dequeue buffers that were processed if (fds[i].revents & POLLOUT) { E_LOG_DEBUG(buf_list, "POLLOUT"); buffer_list_dequeue(buf_list); } if (fds[i].revents & POLLERR) { E_LOG_INFO(buf_list, "Got an error"); return -1; } if (fds[i].revents & ~(POLLIN|POLLOUT|POLLERR)) { E_LOG_DEBUG(buf_list, "POLL%08x", fds[i].revents); } } return 0; } int links_stream(link_t *all_links, bool do_stream) { int n; for (n = 0; all_links[n].capture; n++); for (int i = n; --i >= 0; ) { bool streaming = true; link_t *link = &all_links[i]; if (buffer_list_stream(link->capture->capture_list, streaming) < 0) { E_LOG_ERROR(link->capture, "Failed to start streaming"); } if (device_set_stream(link->capture, streaming) < 0) { E_LOG_ERROR(link->capture, "Failed to start streaming"); } for (int j = 0; link->sinks[j]; j++) { if (buffer_list_stream(link->sinks[j], streaming) < 0) { E_LOG_ERROR(link->sinks[j], "Failed to start streaming"); } } } return 0; error: return -1; } int links_loop(link_t *all_links, bool *running) { *running = true; if (links_stream(all_links, true) < 0) { return -1; } while(*running) { if (links_step(all_links, 1000) < 0) { links_stream(all_links, false); return -1; } } links_stream(all_links, false); return 0; }