/********** This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. (See .) This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA **********/ // "liveMedia" // Copyright (c) 1996-2016 Live Networks, Inc. All rights reserved. // Author Bernhard Feiten // A filter that breaks up an H.263plus video stream into frames. // Based on MPEG4IP/mp4creator/h263.c #include "H263plusVideoStreamParser.hh" #include "H263plusVideoStreamFramer.hh" //#include //#include "GroupsockHelper.hh" H263plusVideoStreamParser::H263plusVideoStreamParser( H263plusVideoStreamFramer* usingSource, FramedSource* inputSource) : StreamParser(inputSource, FramedSource::handleClosure, usingSource, &H263plusVideoStreamFramer::continueReadProcessing, usingSource), fUsingSource(usingSource), fnextTR(0), fcurrentPT(0) { memset(fStates, 0, sizeof(fStates)); memset(&fNextInfo, 0, sizeof(fNextInfo)); memset(&fCurrentInfo, 0, sizeof(fCurrentInfo)); memset(&fMaxBitrateCtx, 0, sizeof(fMaxBitrateCtx)); memset(fNextHeader,0, H263_REQUIRE_HEADER_SIZE_BYTES); } /////////////////////////////////////////////////////////////////////////////// H263plusVideoStreamParser::~H263plusVideoStreamParser() { } /////////////////////////////////////////////////////////////////////////////// void H263plusVideoStreamParser::restoreSavedParserState() { StreamParser::restoreSavedParserState(); fTo = fSavedTo; fNumTruncatedBytes = fSavedNumTruncatedBytes; } /////////////////////////////////////////////////////////////////////////////// void H263plusVideoStreamParser::setParseState() { fSavedTo = fTo; fSavedNumTruncatedBytes = fNumTruncatedBytes; saveParserState(); // Needed for the parsing process in StreamParser } /////////////////////////////////////////////////////////////////////////////// void H263plusVideoStreamParser::registerReadInterest( unsigned char* to, unsigned maxSize) { fStartOfFrame = fTo = fSavedTo = to; fLimit = to + maxSize; fMaxSize = maxSize; fNumTruncatedBytes = fSavedNumTruncatedBytes = 0; } /////////////////////////////////////////////////////////////////////////////// // parse() , derived from H263Creator of MPEG4IP, h263.c unsigned H263plusVideoStreamParser::parse(u_int64_t & currentDuration) { // u_int8_t frameBuffer[H263_BUFFER_SIZE]; // The input buffer // Pointer which tells LoadNextH263Object where to read data to // u_int8_t* pFrameBuffer = fTo + H263_REQUIRE_HEADER_SIZE_BYTES; u_int32_t frameSize; // The current frame size // Pointer to receive address of the header data // u_int8_t* pCurrentHeader;// = pFrameBuffer; // u_int64_t currentDuration; // The current frame's duration u_int8_t trDifference; // The current TR difference // The previous TR difference // u_int8_t prevTrDifference = H263_BASIC_FRAME_RATE; // u_int64_t totalDuration = 0;// Duration accumulator // u_int64_t avgBitrate; // Average bitrate // u_int64_t totalBytes = 0; // Size accumulator try // The get data routines of the class FramedFilter returns an error when { // the buffer is empty. This occurs at the beginning and at the end of the file. fCurrentInfo = fNextInfo; // Parse 1 frame // For the first time, only the first frame's header is returned. // The second time the full first frame is returned frameSize = parseH263Frame(); currentDuration = 0; if ((frameSize > 0)){ // We were able to acquire a frame from the input. // Parse the returned frame header (if any) if (!ParseShortHeader(fTo, &fNextInfo)) { #ifdef DEBUG fprintf(stderr,"H263plusVideoStreamParser: Fatal error\n"); #endif } trDifference = GetTRDifference(fNextInfo.tr, fCurrentInfo.tr); // calculate the current frame duration currentDuration = CalculateDuration(trDifference); // Accumulate the frame's size and duration for avgBitrate calculation //totalDuration += currentDuration; //totalBytes += frameSize; // If needed, recalculate bitrate information // if (h263Bitrates) //GetMaxBitrate(&fMaxBitrateCtx, frameSize, prevTrDifference); //prevTrDifference = trDifference; setParseState(); // Needed for the parsing process in StreamParser } } catch (int /*e*/) { #ifdef DEBUG fprintf(stderr, "H263plusVideoStreamParser::parse() EXCEPTION (This is normal behavior - *not* an error)\n"); #endif frameSize=0; } return frameSize; } /////////////////////////////////////////////////////////////////////////////// // parseH263Frame derived from LoadNextH263Object of MPEG4IP // - service routine that reads a single frame from the input file. // It shall fill the input buffer with data up until - and including - the // next start code and shall report back both the number of bytes read and a // pointer to the next start code. The first call to this function shall only // yield a pointer with 0 data bytes and the last call to this function shall // only yield data bytes with a NULL pointer as the next header. // // TODO: This function only supports valid bit streams. Upon error, it fails // without the possibility to recover. A Better idea would be to skip frames // until a parsable frame is read from the file. // // Parameters: // ppNextHeader - output parameter that upon return points to the location // of the next frame's head in the buffer. // This pointer shall be NULL for the last frame read. // Returns the total number of bytes read. // Uses FrameFileSource intantiated by constructor. /////////////////////////////////////////////////////////////////////////////// int H263plusVideoStreamParser::parseH263Frame( ) { char row = 0; u_int8_t * bufferIndex = fTo; // The buffer end which will allow the loop to leave place for // the additionalBytesNeeded u_int8_t * bufferEnd = fTo + fMaxSize - ADDITIONAL_BYTES_NEEDED - 1; memcpy(fTo, fNextHeader, H263_REQUIRE_HEADER_SIZE_BYTES); bufferIndex += H263_REQUIRE_HEADER_SIZE_BYTES; // The state table and the following loop implements a state machine enabling // us to read bytes from the file until (and inclusing) the requested // start code (00 00 8X) is found // Initialize the states array, if it hasn't been initialized yet... if (!fStates[0][0]) { // One 00 was read fStates[0][0] = 1; // Two sequential 0x00 ware read fStates[1][0] = fStates[2][0] = 2; // A full start code was read fStates[2][128] = fStates[2][129] = fStates[2][130] = fStates[2][131] = -1; } // Read data from file into the output buffer until either a start code // is found, or the end of file has been reached. do { *bufferIndex = get1Byte(); } while ((bufferIndex < bufferEnd) && // We have place in the buffer ((row = fStates[(unsigned char)row][*(bufferIndex++)]) != -1)); // Start code was not found if (row != -1) { fprintf(stderr, "%s: Buffer too small (%u)\n", "h263reader:", bufferEnd - fTo + ADDITIONAL_BYTES_NEEDED); return 0; } // Cool ... now we have a start code // Now we just have to read the additionalBytesNeeded getBytes(bufferIndex, ADDITIONAL_BYTES_NEEDED); memcpy(fNextHeader, bufferIndex - H263_STARTCODE_SIZE_BYTES, H263_REQUIRE_HEADER_SIZE_BYTES); int sz = bufferIndex - fTo - H263_STARTCODE_SIZE_BYTES; if (sz == 5) // first frame memcpy(fTo, fTo+H263_REQUIRE_HEADER_SIZE_BYTES, H263_REQUIRE_HEADER_SIZE_BYTES); return sz; } //////////////////////////////////////////////////////////////////////////////// // ParseShortHeader - service routine that accepts a buffer containing a frame // header and extracts relevant codec information from it. // // NOTE: the first bit in the following commnets is 0 (zero). // // 0 1 2 3 // 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ // | PSC (Picture Start Code=22 bits) | (TR=8 bits) | > // |0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0| |1 0> // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ // < (PTYPE=13 bits) | // <. . .|(FMT)|Z|. . . .| // +-+-+-+-+-+-+-+-+-+-+-+ // -> PTYPE.FMT contains a width/height identification // -> PTYPE.Z is 1 for P-Frames, 0 for I-Frames // Note: When FMT is 111, there is an extended PTYPE... // // Inputs: // headerBuffer - pointer to the current header buffer // outputInfoStruct - pointer to the structure receiving the data // Outputs: // This function returns a structure of important codec-specific // information (The Temporal Reference bits, width & height of the current // frame and the sync - or "frame type" - bit. It reports success or // failure to the calling function. //////////////////////////////////////////////////////////////////////////////// bool H263plusVideoStreamParser::ParseShortHeader( u_int8_t *headerBuffer, H263INFO *outputInfoStruct) { u_int8_t fmt = 0; // Extract temporal reference (TR) from the buffer (bits 22-29 inclusive) outputInfoStruct->tr = (headerBuffer[2] << 6) & 0xC0; // 2 LS bits out of the 3rd byte outputInfoStruct->tr |= (headerBuffer[3] >> 2) & 0x3F; // 6 MS bits out of the 4th byte // Extract the FMT part of PTYPE from the buffer (bits 35-37 inclusive) fmt = (headerBuffer[4] >> 2) & 0x07; // bits 3-5 ouf of the 5th byte // If PTYPE is not supported, return a failure notice to the calling function // FIXME: PLUSPTYPE is not supported if (fmt == 0x07) { return false; } // If PTYPE is supported, calculate the current width and height according to // a predefined table if (!GetWidthAndHeight(fmt, &(outputInfoStruct->width), &(outputInfoStruct->height))) { return false; } // Extract the frame-type bit, which is the 9th bit of PTYPE (bit 38) outputInfoStruct->isSyncFrame = !(headerBuffer[4] & 0x02); return true; } //////////////////////////////////////////////////////////////////////////////// // GetMaxBitrate- service routine that accepts frame information and // derives bitrate information from it. This function uses a sliding window // technique to calculate the maximum bitrates in any window of 1 second // inside the file. // The sliding window is implemented with a table of bitrates for the last // second (30 entries - one entry per TR unit). // // Inputs: // ctx - context for this function // frameSize - the size of the current frame in bytes // frameTRDiff - the "duration" of the frame in TR units // Outputs: // This function returns the up-to-date maximum bitrate //////////////////////////////////////////////////////////////////////////////// void H263plusVideoStreamParser::GetMaxBitrate( MaxBitrate_CTX *ctx, u_int32_t frameSize, u_int8_t frameTRDiff) { if (frameTRDiff == 0) return; // Calculate the current frame's bitrate as bits per TR unit (round the result // upwards) u_int32_t frameBitrate = frameSize * 8 / frameTRDiff + 1; // for each TRdiff received, while (frameTRDiff--) { // Subtract the oldest bitrate entry from the current bitrate ctx->windowBitrate -= ctx->bitrateTable[ctx->tableIndex]; // Update the oldest bitrate entry with the current frame's bitrate ctx->bitrateTable[ctx->tableIndex] = frameBitrate; // Add the current frame's bitrate to the current bitrate ctx->windowBitrate += frameBitrate; // Check if we have a new maximum bitrate if (ctx->windowBitrate > ctx->maxBitrate) { ctx->maxBitrate = ctx->windowBitrate; } // Advance the table index // Wrapping around the bitrateTable size ctx->tableIndex = (ctx->tableIndex + 1) % ( sizeof(ctx->bitrateTable) / sizeof(ctx->bitrateTable[0]) ); } } //////////////////////////////////////////////////////////////////////////////// // CalculateDuration - service routine that calculates the current frame's // duration in milli-seconds using it's duration in TR units. // - In order not to accumulate the calculation error, we are using the TR // duration to calculate the current and the next frame's presentation time in // milli-seconds. // // Inputs: trDiff - The current frame's duration in TR units // Return: The current frame's duration in milli-seconds //////////////////////////////////////////////////////////////////////////////// u_int64_t H263plusVideoStreamParser::CalculateDuration(u_int8_t trDiff) { u_int64_t nextPT; // The next frame's presentation time in milli-seconds u_int64_t duration; // The current frame's duration in milli-seconds fnextTR += trDiff; // Calculate the next frame's presentation time, in milli-seconds nextPT = (fnextTR * 1001) / H263_BASIC_FRAME_RATE; // The frame's duration is the difference between the next presentation // time and the current presentation time. duration = nextPT - fcurrentPT; // "Remember" the next presentation time for the next time this function is called fcurrentPT = nextPT; return duration; } //////////////////////////////////////////////////////////////////////////////// bool H263plusVideoStreamParser::GetWidthAndHeight( u_int8_t fmt, u_int16_t *width, u_int16_t *height) { // The 'fmt' corresponds to bits 5-7 of the PTYPE static struct { u_int16_t width; u_int16_t height; } const dimensionsTable[8] = { { 0, 0 }, // 000 - 0 - forbidden, generates an error { 128, 96 }, // 001 - 1 - Sub QCIF { 176, 144 }, // 010 - 2 - QCIF { 352, 288 }, // 011 - 3 - CIF { 704, 576 }, // 100 - 4 - 4CIF { 1409, 1152 }, // 101 - 5 - 16CIF { 0, 0 }, // 110 - 6 - reserved, generates an error { 0, 0 } // 111 - 7 - extended, not supported by profile 0 }; if (fmt > 7) return false; *width = dimensionsTable[fmt].width; *height = dimensionsTable[fmt].height; if (*width == 0) return false; return true; } //////////////////////////////////////////////////////////////////////////////// u_int8_t H263plusVideoStreamParser::GetTRDifference( u_int8_t nextTR, u_int8_t currentTR) { if (currentTR > nextTR) { // Wrap around 255... return nextTR + (256 - currentTR); } else { return nextTR - currentTR; } } //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // this is the h263.c file of MPEG4IP mp4creator /* #include "mp4creator.h" // Default timescale for H.263 (1000ms) #define H263_TIMESCALE 1000 // Default H263 frame rate (30fps) #define H263_BASIC_FRAME_RATE 30 // Minimum number of bytes needed to parse an H263 header #define H263_REQUIRE_HEADER_SIZE_BYTES 5 // Number of bytes the start code requries #define H263_STARTCODE_SIZE_BYTES 3 // This is the input buffer's size. It should contain // 1 frame with the following start code #define H263_BUFFER_SIZE 256 * 1024 // The default max different (in %) betwqeen max and average bitrates #define H263_DEFAULT_CBR_TOLERANCE 10 // The following structure holds information extracted from each frame's header: typedef struct _H263INFO { u_int8_t tr; // Temporal Reference, used in duration calculation u_int16_t width; // Width of the picture u_int16_t height; // Height of the picture bool isSyncFrame; // Frame type (true = I frame = "sync" frame) } H263INFO; // Context for the GetMaxBitrate function typedef struct _MaxBitrate_CTX { u_int32_t bitrateTable[H263_BASIC_FRAME_RATE];// Window of 1 second u_int32_t windowBitrate; // The bitrate of the current window u_int32_t maxBitrate; // The up-to-date maximum bitrate u_int32_t tableIndex; // The next TR unit to update } MaxBitrate_CTX; // Forward declarations: static int LoadNextH263Object( FILE *inputFileHandle, u_int8_t *frameBuffer, u_int32_t *frameBufferSize, u_int32_t additionalBytesNeeded, u_int8_t **ppNextHeader); static bool ParseShortHeader( u_int8_t *headerBuffer, H263INFO *outputInfoStruct); static u_int8_t GetTRDifference(u_int8_t nextTR, u_int8_t currentTR); static void GetMaxBitrate( MaxBitrate_CTX *ctx, u_int32_t frameSize, u_int8_t frameTRDiff); static MP4Duration CalculateDuration(u_int8_t trDiff); static bool GetWidthAndHeight( u_int8_t fmt, u_int16_t *width, u_int16_t *height); static char states[3][256]; / * * H263Creator - Main function * Inputs: * outputFileHandle - The handle of the output file * inputFileHandle - The handle of the input file * Codec-specific parameters: * H263Level - H.263 Level used for this track * H263Profile - H.263 Profile used for this track * H263Bitrates - A Parameter indicating whether the function * should calculate H263 bitrates or not. * cbrTolerance - CBR tolerance indicates when to set the * average bitrate. * Outputs: * This function returns either the track ID of the newly added track upon * success or a predefined value representing an erroneous state. * / MP4TrackId H263Creator(MP4FileHandle outputFileHandle, FILE* inputFileHandle, u_int8_t h263Profile, u_int8_t h263Level, bool h263Bitrates, u_int8_t cbrTolerance) { H263INFO nextInfo; // Holds information about the next frame H263INFO currentInfo;// Holds information about the current frame MaxBitrate_CTX maxBitrateCtx;// Context for the GetMaxBitrate function memset(&nextInfo, 0, sizeof(nextInfo)); memset(¤tInfo, 0, sizeof(currentInfo)); memset(&maxBitrateCtx, 0, sizeof(maxBitrateCtx)); memset(states, 0, sizeof(states)); u_int8_t frameBuffer[H263_BUFFER_SIZE]; // The input buffer // Pointer which tells LoadNextH263Object where to read data to u_int8_t* pFrameBuffer = frameBuffer + H263_REQUIRE_HEADER_SIZE_BYTES; u_int32_t frameSize; // The current frame size // Pointer to receive address of the header data u_int8_t* pCurrentHeader = pFrameBuffer; MP4Duration currentDuration; // The current frame's duration u_int8_t trDifference; // The current TR difference // The previous TR difference u_int8_t prevTrDifference = H263_BASIC_FRAME_RATE; MP4Duration totalDuration = 0;// Duration accumulator MP4Duration avgBitrate; // Average bitrate u_int64_t totalBytes = 0; // Size accumulator MP4TrackId trackId = MP4_INVALID_TRACK_ID; // Our MP4 track bool stay = true; // loop flag while (stay) { currentInfo = nextInfo; memmove(frameBuffer, pCurrentHeader, H263_REQUIRE_HEADER_SIZE_BYTES); frameSize = H263_BUFFER_SIZE - H263_REQUIRE_HEADER_SIZE_BYTES; // Read 1 frame and the next frame's header from the file. // For the first frame, only the first frame's header is returned. // For the last frame, only the last frame's data is returned. if (! LoadNextH263Object(inputFileHandle, pFrameBuffer, &frameSize, H263_REQUIRE_HEADER_SIZE_BYTES - H263_STARTCODE_SIZE_BYTES, &pCurrentHeader)) break; // Fatal error ... if (pCurrentHeader) { // Parse the returned frame header (if any) if (!ParseShortHeader(pCurrentHeader, &nextInfo)) break; // Fatal error trDifference = GetTRDifference(nextInfo.tr, currentInfo.tr); } else { // This is the last frame ... we have to fake the trDifference ... trDifference = 1; // No header data has been read at this iteration, so we have to manually // add the frame's header we read at the previous iteration. // Note that LoadNextH263Object returns the number of bytes read, which // are the current frame's data and the next frame's header frameSize += H263_REQUIRE_HEADER_SIZE_BYTES; // There is no need for the next iteration ... stay = false; } // If this is the first iteration ... if (currentInfo.width == 0) { // If we have more data than just the header if ((frameSize > H263_REQUIRE_HEADER_SIZE_BYTES) || !pCurrentHeader) // Or no header at all break; // Fatal error else continue; // We have only the first frame's header ... } if (trackId == MP4_INVALID_TRACK_ID) { // If a track has not been added yet, add the track to the file. trackId = MP4AddH263VideoTrack(outputFileHandle, H263_TIMESCALE, 0, currentInfo.width, currentInfo.height, h263Level, h263Profile, 0, 0); if (trackId == MP4_INVALID_TRACK_ID) break; // Fatal error } // calculate the current frame duration currentDuration = CalculateDuration(trDifference); // Write the current frame to the file. if (!MP4WriteSample(outputFileHandle, trackId, frameBuffer, frameSize, currentDuration, 0, currentInfo.isSyncFrame)) break; // Fatal error // Accumulate the frame's size and duration for avgBitrate calculation totalDuration += currentDuration; totalBytes += frameSize; // If needed, recalculate bitrate information if (h263Bitrates) GetMaxBitrate(&maxBitrateCtx, frameSize, prevTrDifference); prevTrDifference = trDifference; } // while (stay) // If this is the last frame, if (!stay) { // If needed and possible, update bitrate information in the file if (h263Bitrates && totalDuration) { avgBitrate = (totalBytes * 8 * H263_TIMESCALE) / totalDuration; if (cbrTolerance == 0) cbrTolerance = H263_DEFAULT_CBR_TOLERANCE; // Same as: if (maxBitrate / avgBitrate > (cbrTolerance + 100) / 100.0) if (maxBitrateCtx.maxBitrate * 100 > (cbrTolerance + 100) * avgBitrate) avgBitrate = 0; MP4SetH263Bitrates(outputFileHandle, trackId, avgBitrate, maxBitrateCtx.maxBitrate); } // Return the newly added track ID return trackId; } // If we got to here... something went wrong ... fprintf(stderr, "%s: Could not parse input file, invalid video stream?\n", ProgName); // Upon failure, delete the newly added track if it has been added if (trackId != MP4_INVALID_TRACK_ID) { MP4DeleteTrack(outputFileHandle, trackId); } return MP4_INVALID_TRACK_ID; } / * * LoadNextH263Object - service routine that reads a single frame from the input * file. It shall fill the input buffer with data up until - and including - the * next start code and shall report back both the number of bytes read and a * pointer to the next start code. The first call to this function shall only * yield a pointer with 0 data bytes and the last call to this function shall * only yield data bytes with a NULL pointer as the next header. * * TODO: This function only supports valid bit streams. Upon error, it fails * without the possibility to recover. A Better idea would be to skip frames * until a parsable frame is read from the file. * * Parameters: * inputFileHandle - The handle of the input file * frameBuffer - buffer where to place read data * frameBufferSize - in/out parameter indicating the size of the buffer on * entry and the number of bytes copied to the buffer upon * return * additionalBytesNeeded - indicates how many additional bytes are to be read * from the next frame's header (over the 3 bytes that * are already read). * NOTE: This number MUST be > 0 * ppNextHeader - output parameter that upon return points to the location * of the next frame's head in the buffer * Outputs: * This function returns two pieces of information: * 1. The total number of bytes read. * 2. A Pointer to the header of the next frame. This pointer shall be NULL * for the last frame read. * / static int LoadNextH263Object( FILE *inputFileHandle, u_int8_t *frameBuffer, u_int32_t *frameBufferSize, u_int32_t additionalBytesNeeded, u_int8_t **ppNextHeader) { // This table and the following loop implements a state machine enabling // us to read bytes from the file untill (and inclusing) the requested // start code (00 00 8X) is found char row = 0; u_int8_t *bufferStart = frameBuffer; // The buffer end which will allow the loop to leave place for // the additionalBytesNeeded u_int8_t *bufferEnd = frameBuffer + *frameBufferSize - additionalBytesNeeded - 1; // Initialize the states array, if it hasn't been initialized yet... if (!states[0][0]) { // One 00 was read states[0][0] = 1; // Two sequential 0x00 ware read states[1][0] = states[2][0] = 2; // A full start code was read states[2][128] = states[2][129] = states[2][130] = states[2][131] = -1; } // Read data from file into the output buffer until either a start code // is found, or the end of file has been reached. do { if (fread(frameBuffer, 1, 1, inputFileHandle) != 1){ // EOF or other error before we got a start code *ppNextHeader = NULL; *frameBufferSize = frameBuffer - bufferStart; return 1; } } while ((frameBuffer < bufferEnd) && // We have place in the buffer ((row = states[row][*(frameBuffer++)]) != -1)); // Start code was not found if (row != -1) { fprintf(stderr, "%s: Buffer too small (%u)\n", ProgName, bufferEnd - bufferStart + additionalBytesNeeded); return 0; } // Cool ... now we have a start code *ppNextHeader = frameBuffer - H263_STARTCODE_SIZE_BYTES; *frameBufferSize = frameBuffer - bufferStart + additionalBytesNeeded; // Now we just have to read the additionalBytesNeeded if(fread(frameBuffer, additionalBytesNeeded, 1, inputFileHandle) != 1) { /// We got a start code but can't read additionalBytesNeeded ... that's a fatal error fprintf(stderr, "%s: Invalid H263 bitstream\n", ProgName); return 0; } return 1; } / * * ParseShortHeader - service routine that accepts a buffer containing a frame * header and extracts relevant codec information from it. * * NOTE: the first bit in the following commnets is 0 (zero). * * * 0 1 2 3 * 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | PSC (Picture Start Code=22 bits) | (TR=8 bits) | > * |0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0| |1 0> * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * < (PTYPE=13 bits) | * <. . .|(FMT)|Z|. . . .| * +-+-+-+-+-+-+-+-+-+-+-+ * -> PTYPE.FMT contains a width/height identification * -> PTYPE.Z is 1 for P-Frames, 0 for I-Frames * Note: When FMT is 111, there is an extended PTYPE... * * Inputs: * headerBuffer - pointer to the current header buffer * outputInfoStruct - pointer to the structure receiving the data * Outputs: * This function returns a structure of important codec-specific * information (The Temporal Reference bits, width & height of the current * frame and the sync - or "frame type" - bit. It reports success or * failure to the calling function. * / static bool ParseShortHeader( u_int8_t *headerBuffer, H263INFO *outputInfoStruct) { u_int8_t fmt = 0; // Extract temporal reference (TR) from the buffer (bits 22-29 inclusive) outputInfoStruct->tr = (headerBuffer[2] << 6) & 0xC0; // 2 LS bits out of the 3rd byte outputInfoStruct->tr |= (headerBuffer[3] >> 2) & 0x3F; // 6 MS bits out of the 4th byte // Extract the FMT part of PTYPE from the buffer (bits 35-37 inclusive) fmt = (headerBuffer[4] >> 2) & 0x07; // bits 3-5 ouf of the 5th byte // If PTYPE is not supported, return a failure notice to the calling function // FIXME: PLUSPTYPE is not supported if (fmt == 0x07) { return false; } // If PTYPE is supported, calculate the current width and height according to // a predefined table if (!GetWidthAndHeight(fmt, &(outputInfoStruct->width), &(outputInfoStruct->height))) { return false; } // Extract the frame-type bit, which is the 9th bit of PTYPE (bit 38) outputInfoStruct->isSyncFrame = !(headerBuffer[4] & 0x02); return true; } / * * GetMaxBitrate- service routine that accepts frame information and * derives bitrate information from it. This function uses a sliding window * technique to calculate the maximum bitrates in any window of 1 second * inside the file. * The sliding window is implemented with a table of bitrates for the last * second (30 entries - one entry per TR unit). * * Inputs: * ctx - context for this function * frameSize - the size of the current frame in bytes * frameTRDiff - the "duration" of the frame in TR units * Outputs: * This function returns the up-to-date maximum bitrate * / static void GetMaxBitrate( MaxBitrate_CTX *ctx, u_int32_t frameSize, u_int8_t frameTRDiff) { if (frameTRDiff == 0) return; // Calculate the current frame's bitrate as bits per TR unit (round the result // upwards) u_int32_t frameBitrate = frameSize * 8 / frameTRDiff + 1; // for each TRdiff received, while (frameTRDiff--) { // Subtract the oldest bitrate entry from the current bitrate ctx->windowBitrate -= ctx->bitrateTable[ctx->tableIndex]; // Update the oldest bitrate entry with the current frame's bitrate ctx->bitrateTable[ctx->tableIndex] = frameBitrate; // Add the current frame's bitrate to the current bitrate ctx->windowBitrate += frameBitrate; // Check if we have a new maximum bitrate if (ctx->windowBitrate > ctx->maxBitrate) { ctx->maxBitrate = ctx->windowBitrate; } // Advance the table index ctx->tableIndex = (ctx->tableIndex + 1) % // Wrapping around the bitrateTable size ( sizeof(ctx->bitrateTable) / sizeof(ctx->bitrateTable[0]) ); } } / * * CalculateDuration - service routine that calculates the current frame's * duration in milli-seconds using it's duration in TR units. * - In order not to accumulate the calculation error, we are using the TR * duration to calculate the current and the next frame's presentation time in * milli-seconds. * * Inputs: * trDiff - The current frame's duration in TR units * Outputs: * The current frame's duration in milli-seconds * / static MP4Duration CalculateDuration(u_int8_t trDiff) { static u_int32_t const nextTR = 0; // The next frame's presentation time in TR units static MP4Duration const currentPT = 0; // The current frame's presentation time in milli-seconds MP4Duration nextPT; // The next frame's presentation time in milli-seconds MP4Duration duration; // The current frame's duration in milli-seconds nextTR += trDiff; // Calculate the next frame's presentation time, in milli-seconds nextPT = (nextTR * 1001) / H263_BASIC_FRAME_RATE; // The frame's duration is the difference between the next presentation // time and the current presentation time. duration = nextPT - currentPT; // "Remember" the next presentation time for the next time this function is // called currentPT = nextPT; return duration; } static bool GetWidthAndHeight( u_int8_t fmt, u_int16_t *width, u_int16_t *height) { // The 'fmt' corresponds to bits 5-7 of the PTYPE static struct { u_int16_t width; u_int16_t height; } const dimensionsTable[8] = { { 0, 0 }, // 000 - 0 - forbidden, generates an error { 128, 96 }, // 001 - 1 - Sub QCIF { 176, 144 }, // 010 - 2 - QCIF { 352, 288 }, // 011 - 3 - CIF { 704, 576 }, // 100 - 4 - 4CIF { 1409, 1152 }, // 101 - 5 - 16CIF { 0, 0 }, // 110 - 6 - reserved, generates an error { 0, 0 } // 111 - 7 - extended, not supported by profile 0 }; if (fmt > 7) return false; *width = dimensionsTable[fmt].width; *height = dimensionsTable[fmt].height; if (*width == 0) return false; return true; } static u_int8_t GetTRDifference(u_int8_t nextTR, u_int8_t currentTR) { if (currentTR > nextTR) { // Wrap around 255... return nextTR + (256 - currentTR); } else { return nextTR - currentTR; } } */