#define _BSD_SOURCE #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include "model.h" #include "private.h" #include "reader.h" int ipecamera_compute_buffer_size(ipecamera_t *ctx, size_t lines) { const size_t header_size = 8 * sizeof(ipecamera_payload_t); const size_t footer_size = 8 * sizeof(ipecamera_payload_t); size_t line_size, raw_size, padded_blocks; switch (ctx->firmware) { case 4: line_size = IPECAMERA_MAX_CHANNELS * (2 + IPECAMERA_PIXELS_PER_CHANNEL / 3) * sizeof(ipecamera_payload_t); raw_size = header_size + lines * line_size + footer_size; break; default: line_size = (1 + IPECAMERA_PIXELS_PER_CHANNEL) * 32; raw_size = lines * line_size; raw_size *= 16 / ctx->cmosis_outputs; raw_size += header_size + footer_size; } padded_blocks = raw_size / IPECAMERA_DMA_PACKET_LENGTH + ((raw_size % IPECAMERA_DMA_PACKET_LENGTH)?1:0); ctx->cur_raw_size = raw_size; ctx->cur_full_size = padded_blocks * IPECAMERA_DMA_PACKET_LENGTH; #ifdef IPECAMERA_BUG_EXTRA_DATA ctx->cur_full_size += 8; padded_blocks ++; #endif /* IPECAMERA_BUG_EXTRA_DATA */ ctx->cur_padded_size = padded_blocks * IPECAMERA_DMA_PACKET_LENGTH; // printf("%lu %lu %lu\n", ctx->cur_raw_size, ctx->cur_full_size, ctx->cur_padded_size); return 0; } static inline int ipecamera_new_frame(ipecamera_t *ctx) { ctx->frame[ctx->buffer_pos].event.raw_size = ctx->cur_size; if (ctx->cur_size < ctx->cur_raw_size) { ctx->frame[ctx->buffer_pos].event.info.flags |= PCILIB_EVENT_INFO_FLAG_BROKEN; } ctx->buffer_pos = (++ctx->event_id) % ctx->buffer_size; ctx->cur_size = 0; ctx->frame[ctx->buffer_pos].event.info.type = PCILIB_EVENT0; ctx->frame[ctx->buffer_pos].event.info.flags = 0; ctx->frame[ctx->buffer_pos].event.image_ready = 0; if ((ctx->event_id == ctx->autostop.evid)&&(ctx->event_id)) { ctx->run_reader = 0; return 1; } if (pcilib_check_deadline(&ctx->autostop.timestamp, 0)) { ctx->run_reader = 0; return 1; } return 0; } static uint32_t frame_magic[5] = { 0x51111111, 0x52222222, 0x53333333, 0x54444444, 0x55555555 }; static int ipecamera_data_callback(void *user, pcilib_dma_flags_t flags, size_t bufsize, void *buf) { int res; int eof = 0; #ifdef IPECAMERA_BUG_MULTIFRAME_PACKETS size_t real_size; size_t extra_data = 0; #endif /* IPECAMERA_BUG_MULTIFRAME_PACKETS */ ipecamera_t *ctx = (ipecamera_t*)user; #if defined(IPECAMERA_BUG_INCOMPLETE_PACKETS)||defined(IPECAMERA_BUG_MULTIFRAME_PACKETS) static pcilib_event_id_t invalid_frame_id = (pcilib_event_id_t)-1; #endif #ifdef IPECAMERA_DEBUG_RAW_PACKETS char fname[128]; { static unsigned long packet_id = 0; sprintf(fname,"%s/frame%4lu", IPECAMERA_DEBUG_RAW_PACKETS, ctx->event_id); mkdir(fname, 0755); sprintf(fname,"%s/frame%4lu/frame%9lu", IPECAMERA_DEBUG_RAW_PACKETS, ctx->event_id, packet_id); FILE *f = fopen(fname, "w"); if (f) { fwrite(buf, 1, bufsize, f); fclose(f); } sprintf(fname,"%s/frame%4lu/frame%9lu.invalid", IPECAMERA_DEBUG_RAW_PACKETS, ctx->event_id, packet_id++); } #endif /* IPECAMERA_DEBUG_RAW_PACKETS */ if (!ctx->cur_size) { #if defined(IPECAMERA_BUG_INCOMPLETE_PACKETS)||defined(IPECAMERA_BUG_MULTIFRAME_PACKETS) size_t startpos; for (startpos = 0; (startpos + sizeof(frame_magic)) <= bufsize; startpos += sizeof(uint32_t)) { if (!memcmp(buf + startpos, frame_magic, sizeof(frame_magic))) break; } if ((startpos + sizeof(frame_magic)) > bufsize) { #ifdef IPECAMERA_DEBUG_RAW_PACKETS FILE *f = fopen(fname, "w"); if (f) fclose(f); #endif /* IPECAMERA_DEBUG_RAW_PACKETS */ if (invalid_frame_id != ctx->event_id) { // pcilib_warning("No frame magic in DMA packet of %u bytes, current event %lu", bufsize, ctx->event_id); invalid_frame_id = ctx->event_id; } return PCILIB_STREAMING_CONTINUE; } if (startpos) { // pass padding to rawdata callback if (ctx->event.params.rawdata.callback) { res = ctx->event.params.rawdata.callback(0, NULL, PCILIB_EVENT_FLAG_RAW_DATA_ONLY, startpos, buf, ctx->event.params.rawdata.user); if (res <= 0) { if (res < 0) return res; ctx->run_reader = 0; } } buf += startpos; bufsize -= startpos; } #endif /* IPECAMERA_BUG_INCOMPLETE_PACKETS */ if ((bufsize >= 8)&&(!memcmp(buf, frame_magic, sizeof(frame_magic)))) { size_t n_lines = ((uint32_t*)buf)[5] & 0x7FF; ipecamera_compute_buffer_size(ctx, n_lines); ctx->frame[ctx->buffer_pos].event.info.seqnum = ((uint32_t*)buf)[6] & 0x1FFFFFF; ctx->frame[ctx->buffer_pos].event.info.offset = (((uint32_t*)buf)[7] & 0xFFFFFF) * 80; gettimeofday(&ctx->frame[ctx->buffer_pos].event.info.timestamp, NULL); } else { // pcilib_warning("Frame magic is not found, ignoring broken data..."); return PCILIB_STREAMING_CONTINUE; } } #ifdef IPECAMERA_BUG_MULTIFRAME_PACKETS // for rawdata_callback with complete padding real_size = bufsize; if (ctx->cur_size + bufsize > ctx->cur_raw_size) { size_t need; for (need = ctx->cur_raw_size - ctx->cur_size; (need + sizeof(frame_magic)) < bufsize; need += sizeof(uint32_t)) { if (!memcmp(buf + need, frame_magic, sizeof(frame_magic))) break; } if ((need + sizeof(frame_magic)) < bufsize) { extra_data = bufsize - need; //bufsize = need; eof = 1; } // just rip of padding bufsize = ctx->cur_raw_size - ctx->cur_size; #ifdef IPECAMERA_DEBUG_RAW_PACKETS sprintf(fname + strlen(fname) - 8, ".partial"); FILE *f = fopen(fname, "w"); if (f) { fwrite(buf, 1, bufsize, f); fclose(f); } #endif /* IPECAMERA_DEBUG_RAW_PACKETS */ } #endif /* IPECAMERA_BUG_MULTIFRAME_PACKETS */ if (ctx->parse_data) { if (ctx->cur_size + bufsize > ctx->full_size) { pcilib_error("Unexpected event data, we are expecting at maximum (%zu) bytes, but (%zu) already read", ctx->full_size, ctx->cur_size + bufsize); return -PCILIB_ERROR_TOOBIG; } if (bufsize) memcpy(ctx->buffer + ctx->buffer_pos * ctx->padded_size + ctx->cur_size, buf, bufsize); } ctx->cur_size += bufsize; // printf("%i: %i %i\n", ctx->buffer_pos, ctx->cur_size, bufsize); if (ctx->cur_size >= ctx->cur_raw_size) { eof = 1; } if (ctx->event.params.rawdata.callback) { res = ctx->event.params.rawdata.callback(ctx->event_id, (pcilib_event_info_t*)(ctx->frame + ctx->buffer_pos), (eof?PCILIB_EVENT_FLAG_EOF:PCILIB_EVENT_FLAGS_DEFAULT), bufsize, buf, ctx->event.params.rawdata.user); if (res <= 0) { if (res < 0) return res; ctx->run_reader = 0; } } if (eof) { if ((ipecamera_new_frame(ctx))||(!ctx->run_reader)) { return PCILIB_STREAMING_STOP; } #ifdef IPECAMERA_BUG_MULTIFRAME_PACKETS if (extra_data) { return ipecamera_data_callback(user, flags, extra_data, buf + (real_size - extra_data)); } #endif /* IPECAMERA_BUG_MULTIFRAME_PACKETS */ } return PCILIB_STREAMING_REQ_FRAGMENT; } void *ipecamera_reader_thread(void *user) { int err; ipecamera_t *ctx = (ipecamera_t*)user; while (ctx->run_reader) { err = pcilib_stream_dma(ctx->event.pcilib, ctx->rdma, 0, 0, PCILIB_DMA_FLAG_MULTIPACKET, IPECAMERA_DMA_TIMEOUT, &ipecamera_data_callback, user); if (err) { if (err == PCILIB_ERROR_TIMEOUT) { if (ctx->cur_size >= ctx->cur_raw_size) ipecamera_new_frame(ctx); #ifdef IPECAMERA_BUG_INCOMPLETE_PACKETS else if (ctx->cur_size > 0) ipecamera_new_frame(ctx); #endif /* IPECAMERA_BUG_INCOMPLETE_PACKETS */ if (pcilib_check_deadline(&ctx->autostop.timestamp, 0)) { ctx->run_reader = 0; break; } usleep(IPECAMERA_NOFRAME_SLEEP); } else pcilib_error("DMA error while reading IPECamera frames, error: %i", err); } //else printf("no error\n"); //usleep(1000); } ctx->run_streamer = 0; // if (ctx->cur_size) // pcilib_error("partialy read frame after stop signal, %zu bytes in the buffer", ctx->cur_size); return NULL; }