#include #include #include #include #include "ufodecode.h" #include "ufodecode-private.h" #include "config.h" #ifdef HAVE_SSE #include #endif #define IPECAMERA_NUM_CHANNELS 16 /**< Number of channels per row */ #define IPECAMERA_PIXELS_PER_CHANNEL 128 /**< Number of pixels per channel */ #define IPECAMERA_WIDTH (IPECAMERA_NUM_CHANNELS * IPECAMERA_PIXELS_PER_CHANNEL) /**< Total pixel width of row */ /** * Check if value matches expected input. */ #define CHECK_VALUE(value, expected) \ if (value != expected) { \ fprintf(stderr, "<%s:%i> 0x%x != 0x%x\n", __FILE__, __LINE__, value, expected); \ err = 1; \ } /** * Check that flag evaluates to non-zero. */ #define CHECK_FLAG(flag, check, ...) \ if (!(check)) { \ fprintf(stderr, "<%s:%i> Unexpected value 0x%x of " flag "\n", __FILE__, __LINE__, __VA_ARGS__); \ err = 1; \ } /** * \brief Setup a new decoder instance * * \param height Number of rows that are expected in the data stream * \param raw The data stream from the camera or NULL if set later with * ufo_decoder_set_raw_data. * \param num_bytes Size of the data stream buffer in bytes * * \return A new decoder instance that can be used to iterate over the frames * using ufo_decoder_get_next_frame. */ ufo_decoder ufo_decoder_new(uint32_t height, uint32_t width, uint32_t *raw, size_t num_bytes) { if (width%IPECAMERA_PIXELS_PER_CHANNEL) return NULL; ufo_decoder decoder = malloc(sizeof(struct ufo_decoder_t)); if (decoder == NULL) return NULL; decoder->width = width; decoder->height = height; ufo_decoder_set_raw_data(decoder, raw, num_bytes); return decoder; } /** * \brief Release decoder instance * * \param decoder An ufo_decoder instance */ void ufo_decoder_free(ufo_decoder decoder) { free(decoder); } /** * \brief Set raw data stream * * \param decoder An ufo_decoder instance * \param raw Raw data stream * \param num_bytes Size of data stream buffer in bytes */ void ufo_decoder_set_raw_data(ufo_decoder decoder, uint32_t *raw, size_t num_bytes) { decoder->raw = raw; decoder->num_bytes = num_bytes; decoder->current_pos = 0; } static int ufo_decode_frame_channels(ufo_decoder decoder, uint16_t *pixel_buffer, uint16_t *cmask, uint32_t *raw, size_t num_words, size_t *offset) { static int channel_order[IPECAMERA_NUM_CHANNELS] = { 15, 13, 14, 12, 10, 8, 11, 7, 9, 6, 5, 2, 4, 3, 0, 1 }; static int channel_size = (2 + IPECAMERA_PIXELS_PER_CHANNEL / 3); int info; int num_rows = decoder->height; int num_cols = decoder->width; size_t c; const size_t cpl = (num_cols / IPECAMERA_PIXELS_PER_CHANNEL); const size_t cpi = num_rows * cpl; int row = 0; int channel = 0; int pixels = 0; int pos = 0; uint32_t data; const int bytes = channel_size - 1; #ifdef HAVE_SSE __m128i mask = _mm_set_epi32(0x3FF, 0x3FF, 0x3FF, 0x3FF); __m128i packed; __m128i tmp1, tmp2; uint32_t result[4] __attribute__ ((aligned (16))) = {0}; #endif if (cpi * channel_size > num_words) { #ifdef DEBUG fprintf(stderr, "Not enough data to decode frame, expected %lu bytes, but received %lu\n", cpi * channel_size * sizeof(uint32_t), num_words * sizeof(uint32_t)); #endif return EILSEQ; } for (c = 0; c < cpi; c++) { info = raw[0]; row = (info >> 4) & 0x7FF; channel = info & 0x0F; pixels = (info >> 20) & 0xFF; #ifdef DEBUG int err = 0; int header = (info >> 30) & 0x03; // 2 bits const int bpp = (info >> 16) & 0x0F; // 4 bits CHECK_FLAG("raw header magick", header == 2, header); CHECK_FLAG("pixel size, only 10 bits are supported", bpp == 10, bpp); CHECK_FLAG("channel, limited by %i output channels", channel < IPECAMERA_NUM_CHANNELS, channel, IPECAMERA_NUM_CHANNELS); #endif if ((row > num_rows)||(channel > cpl)||(pixels>IPECAMERA_PIXELS_PER_CHANNEL)) return EILSEQ; if (cmask) cmask[row] |= (1<> 20) & 0x3FF; pixel_buffer[base++] = (data >> 10) & 0x3FF; pixel_buffer[base++] = data & 0x3FF; data = raw[42]; pixel_buffer[base++] = (data >> 20) & 0x3FF; pixel_buffer[base++] = (data >> 10) & 0x3FF; pixel_buffer[base++] = data & 0x3FF; #else for (int i = 1 ; i < bytes; i++) { data = raw[i]; #ifdef DEBUG header = (data >> 30) & 0x03; CHECK_FLAG("raw data magick", header == 3, header); if (err) return err; #endif pixel_buffer[base++] = (data >> 20) & 0x3FF; pixel_buffer[base++] = (data >> 10) & 0x3FF; pixel_buffer[base++] = data & 0x3FF; } #endif data = raw[bytes]; #ifdef DEBUG header = (data >> 30) & 0x03; CHECK_FLAG("raw data magick", header == 3, header); CHECK_FLAG("raw footer magick", (data & 0x3FF) == 0x55, (data & 0x3FF)); if (err) return err; #endif int ppw = pixels >> 6; for (int j = 0; j < ppw; j++) pixel_buffer[base++] = (data >> (10 * (ppw - j))) & 0x3FF; pos += channel_size; raw += channel_size; } *offset = pos; return 0; } /** * \brief Deinterlace by interpolating between two rows * * \param in Input frame * \param out Destination of interpolated frame * \param width Width of frame in pixels * \param height Height of frame in pixels */ void ufo_deinterlace_interpolate(const uint16_t *in, uint16_t *out, int width, int height) { const size_t row_size_bytes = width * sizeof(uint16_t); for (int row = 0; row < height; row++) { /* Copy one line */ memcpy(out, in + row*width, row_size_bytes); out += width; /* Interpolate between source row and row+1 */ for (int x = 0; x < width; x++) { out[x] = (int) (0.5 * in[row*width + x] + 0.5 * in[(row+1)*width + x]); } out += width; } /* Copy last row */ memcpy(out, in + width * (height - 1), row_size_bytes); } /** * \brief Deinterlace by "weaving" the rows of two frames * * \param in1 First frame * \param in2 Second frame * \param out Destination of weaved frame * \param width Width of frame in pixels * \param height Height of frame in pixels */ void ufo_deinterlace_weave(const uint16_t *in1, const uint16_t *in2, uint16_t *out, int width, int height) { const size_t row_size_bytes = width * sizeof(uint16_t); for (int row = 0; row < height; row++) { memcpy(out, in1 + row*width, row_size_bytes); out += width; memcpy(out, in2 + row*width, row_size_bytes); out += width; } } /** * \brief Decodes frame * * This function tries to decode the supplied data * * \param decoder An ufo_decoder instance * \param raw Raw data stream * \param num_bytes Size of data stream buffer in bytes * \param pixels If pointer with NULL content is passed, a new buffer is * allocated otherwise, this user-supplied buffer is used. * \param frame_number Frame number as reported in the header * \param time_stamp Time stamp of the frame as reported in the header * \paran cmask Change-mask * * \return number of decoded bytes or 0 in case of error */ size_t ufo_decoder_decode_frame(ufo_decoder decoder, uint32_t *raw, size_t num_bytes, uint16_t *pixels, uint32_t *frame_number, uint32_t *time_stamp, uint16_t *cmask) { int err = 0; size_t pos = 0; size_t advance; const size_t num_words = num_bytes / 4; if ((pixels == NULL)||(num_words < 16)) return 0; #ifdef DEBUG CHECK_VALUE(raw[pos++], 0x51111111); CHECK_VALUE(raw[pos++], 0x52222222); CHECK_VALUE(raw[pos++], 0x53333333); CHECK_VALUE(raw[pos++], 0x54444444); CHECK_VALUE(raw[pos++], 0x55555555); CHECK_VALUE(raw[pos++], 0x56666666); CHECK_VALUE(raw[pos] >> 28, 0x5); *frame_number = raw[pos++] & 0xFFFFFFF; CHECK_VALUE(raw[pos] >> 28, 0x5); *time_stamp = raw[pos++] & 0xFFFFFFF; if (err) return 0; #else *frame_number = raw[pos + 6] & 0xFFFFFFF; *time_stamp = raw[pos + 7] & 0xFFFFFFF; pos += 8; #endif err = ufo_decode_frame_channels(decoder, pixels, cmask, raw + pos, num_words - pos - 8, &advance); if (err) return 0; pos += advance; #ifdef DEBUG CHECK_VALUE(raw[pos++], 0x0AAAAAAA); CHECK_VALUE(raw[pos++], 0x0BBBBBBB); // Statuses of previous! frame is following pos++; // status1 0x840dffff is expected pos++; // status2 0x0f001001 is expected pos++; // status3 0x28000111 explains problems if status2 is wrong /* CHECK_VALUE(raw[pos++], 0x0CCCCCCC); CHECK_VALUE(raw[pos++], 0x0DDDDDDD); CHECK_VALUE(raw[pos++], 0x0EEEEEEE); */ CHECK_VALUE(raw[pos++], 0x0FFFFFFF); CHECK_VALUE(raw[pos++], 0x00000000); CHECK_VALUE(raw[pos++], 0x01111111); if (err) return 0; #else pos += 8; #endif return pos; } /** * \brief Iterate and decode next frame * * This function tries to decode the next frame in the currently set raw data * stream. * * \param decoder An ufo_decoder instance * \param pixels If pointer with NULL content is passed, a new buffer is * allocated otherwise, this user-supplied buffer is used. * \param frame_number Frame number as reported in the header * \param time_stamp Time stamp of the frame as reported in the header * \paran cmask Change-mask * * \return 0 in case of no error, ENOSR if end of stream was reached, ENOMEM if * NULL was passed but no memory could be allocated, EILSEQ if data stream is * corrupt and EFAULT if pixels is a NULL-pointer. */ int ufo_decoder_get_next_frame(ufo_decoder decoder, uint16_t **pixels, uint32_t *frame_number, uint32_t *time_stamp, uint16_t *cmask) { uint32_t *raw = decoder->raw; size_t pos = decoder->current_pos; size_t advance; const size_t num_words = decoder->num_bytes / 4; if (pixels == NULL) return 0; if (pos >= num_words) return ENOSR; if (num_words < 16) return EILSEQ; if (*pixels == NULL) { *pixels = (uint16_t *) malloc(IPECAMERA_WIDTH * decoder->height * sizeof(uint16_t)); if (*pixels == NULL) return ENOMEM; } advance = ufo_decoder_decode_frame(decoder, raw + pos * 4, decoder->num_bytes - pos * 4, *pixels, frame_number, time_stamp, cmask); if (!advance) return EILSEQ; pos += advance; /* if bytes left and we see fill bytes, skip them */ if (((pos + 2) < num_words) && ((raw[pos] == 0x0) && (raw[pos+1] == 0x1111111))) { pos += 2; while ((pos < num_words) && ((raw[pos] == 0x89abcdef) || (raw[pos] == 0x1234567))) pos++; } decoder->current_pos = pos; return 0; }