int eDVBRecordFileThread::asyncWrite(int len) { #ifdef SHOW_WRITE_TIME struct timeval starttime; struct timeval now; suseconds_t diff; gettimeofday(&starttime, NULL); #endif m_ts_parser.parseData(m_current_offset, m_buffer, len); #ifdef SHOW_WRITE_TIME gettimeofday(&now, NULL); diff = (1000000 * (now.tv_sec - starttime.tv_sec)) + now.tv_usec - starttime.tv_usec; eDebug("[eFilePushThreadRecorder] m_ts_parser.parseData: %9u us", (unsigned int)diff); gettimeofday(&starttime, NULL); #endif int r = m_current_buffer->start(m_fd_dest, m_current_offset, len, m_buffer); if (r < 0) { eDebug("[eDVBRecordFileThread] aio_write failed: %m"); return r; } m_current_offset += len; #ifdef SHOW_WRITE_TIME gettimeofday(&now, NULL); diff = (1000000 * (now.tv_sec - starttime.tv_sec)) + now.tv_usec - starttime.tv_usec; eDebug("[eFilePushThreadRecorder] aio_write: %9u us", (unsigned int)diff); #endif // Count how many buffers are still "busy". Move backwards from current, // because they can reasonably be expected to finish in that order. AsyncIOvector::iterator i = m_current_buffer; r = i->poll(); int busy_count = 0; while (r > 0) { ++busy_count; if (i == m_aio.begin()) i = m_aio.end(); --i; if (i == m_current_buffer) { eDebug("[eFilePushThreadRecorder] Warning: All write buffers busy"); break; } r = i->poll(); if (r < 0) return r; } ++m_buffer_use_histogram[busy_count]; ++m_current_buffer; if (m_current_buffer == m_aio.end()) m_current_buffer = m_aio.begin(); m_buffer = m_current_buffer->buffer; return len; }
int eDVBRecordStreamThread::writeData(int len) { len = asyncWrite(len); if (len < 0) return len; // Cancel aio on this buffer before returning, streams should not be held up. So we CANCEL // any request that hasn't finished on the second round. int r = m_current_buffer->cancel(m_fd_dest); switch (r) { //case 0: // that's one of these two: case AIO_CANCELED: case AIO_ALLDONE: break; case AIO_NOTCANCELED: eDebug("[eDVBRecordStreamThread] failed to cancel, killing all waiting IO"); aio_cancel(m_fd_dest, NULL); // Poll all open requests, because they are all in error state now. for (AsyncIOvector::iterator it = m_aio.begin(); it != m_aio.end(); ++it) { it->poll(); } break; case -1: eDebug("[eDVBRecordStreamThread] failed: %m"); return r; } // we want to have a consistent state, so wait for completion, just to be sure r = m_current_buffer->wait(); if (r < 0) { eDebug("[eDVBRecordStreamThread] wait failed: %m"); return -1; } return len; }