#include //for malloc and free #include //for memcpy #include //for htonl and friends #include "mp4.h" #include "json.h" #define Int64 uint64_t /// Contains all MP4 format related code. namespace MP4 { /// Creates a new box, optionally using the indicated pointer for storage. /// If manage is set to true, the pointer will be realloc'ed when the box needs to be resized. /// If the datapointer is NULL, manage is assumed to be true even if explicitly given as false. /// If managed, the pointer will be free'd upon destruction. Box::Box(char * datapointer, bool manage){ data = datapointer; managed = manage; payloadOffset = 8; if (data == 0){ clear(); }else{ data_size = ntohl(((int*)data)[0]); } } /// If managed, this will free the data pointer. Box::~Box(){ if (managed && data != 0){ free(data); data = 0; } } /// Returns the values at byte positions 4 through 7. std::string Box::getType(){ return std::string(data + 4, 4); } /// Returns true if the given 4-byte boxtype is equal to the values at byte positions 4 through 7. bool Box::isType(const char* boxType){ return !memcmp(boxType, data + 4, 4); } /// Reads out a whole box (if possible) from newData, copying to the internal data storage and removing from the input string. /// \returns True on success, false otherwise. bool Box::read(std::string & newData){ if ( !managed){ return false; } if (newData.size() > 4){ payloadOffset = 8; uint64_t size = ntohl(((int*)newData.c_str())[0]); if (size == 1){ if (newData.size() > 16){ size = 0 + ntohl(((int*)newData.c_str())[2]); size <<= 32; size += ntohl(((int*)newData.c_str())[3]); payloadOffset = 16; }else{ return false; } } if (newData.size() >= size){ void * ret = malloc(size); if ( !ret){ return false; } free(data); data = (char*)ret; memcpy(data, newData.c_str(), size); newData.erase(0, size); return true; } } return false; } /// Returns the total boxed size of this box, including the header. uint64_t Box::boxedSize(){ if (payloadOffset == 16){ return ((uint64_t)ntohl(((int*)data)[2]) << 32) + ntohl(((int*)data)[3]); } return ntohl(((int*)data)[0]); } /// Retruns the size of the payload of thix box, excluding the header. /// This value is defined as boxedSize() - 8. uint64_t Box::payloadSize(){ return boxedSize() - payloadOffset; } /// Returns a copy of the data pointer. char * Box::asBox(){ return data; } char * Box::payload(){ return data + payloadOffset; } /// Makes this box managed if it wasn't already, resetting the internal storage to 8 bytes (the minimum). /// If this box wasn't managed, the original data is left intact - otherwise it is free'd. /// If it was somehow impossible to allocate 8 bytes (should never happen), this will cause segfaults later. void Box::clear(){ if (data && managed){ free(data); } managed = true; payloadOffset = 8; data = (char*)malloc(8); if (data){ data_size = 8; ((int*)data)[0] = htonl(data_size); }else{ data_size = 0; } } /// Attempts to typecast this Box to a more specific type and call the toPrettyString() function of that type. /// If this failed, it will print out a message saying pretty-printing is not implemented for . std::string Box::toPrettyString(uint32_t indent){ switch (ntohl( *((int*)(data + 4)))){ //type is at this address case 0x6D666864: return ((MFHD*)this)->toPrettyString(indent); break; case 0x6D6F6F66: return ((MOOF*)this)->toPrettyString(indent); break; case 0x61627374: return ((ABST*)this)->toPrettyString(indent); break; case 0x61667274: return ((AFRT*)this)->toPrettyString(indent); break; case 0x61667261: return ((AFRA*)this)->toPrettyString(indent); break; case 0x61737274: return ((ASRT*)this)->toPrettyString(indent); break; case 0x7472756E: return ((TRUN*)this)->toPrettyString(indent); break; case 0x74726166: return ((TRAF*)this)->toPrettyString(indent); break; case 0x74666864: return ((TFHD*)this)->toPrettyString(indent); break; case 0x61766343: return ((AVCC*)this)->toPrettyString(indent); break; case 0x73647470: return ((SDTP*)this)->toPrettyString(indent); break; case 0x66747970: return ((FTYP*)this)->toPrettyString(indent); break; case 0x6D6F6F76: return ((MOOV*)this)->toPrettyString(indent); break; case 0x6D766578: return ((MVEX*)this)->toPrettyString(indent); break; case 0x74726578: return ((TREX*)this)->toPrettyString(indent); break; case 0x6D667261: return ((MFRA*)this)->toPrettyString(indent); break; case 0x7472616B: return ((TRAK*)this)->toPrettyString(indent); break; case 0x6D646961: return ((MDIA*)this)->toPrettyString(indent); break; case 0x6D696E66: return ((MINF*)this)->toPrettyString(indent); break; case 0x64696E66: return ((DINF*)this)->toPrettyString(indent); break; case 0x6D66726F: return ((MFRO*)this)->toPrettyString(indent); break; case 0x68646C72: return ((HDLR*)this)->toPrettyString(indent); break; case 0x766D6864: return ((VMHD*)this)->toPrettyString(indent); break; case 0x736D6864: return ((SMHD*)this)->toPrettyString(indent); break; case 0x686D6864: return ((HMHD*)this)->toPrettyString(indent); break; case 0x6E6D6864: return ((NMHD*)this)->toPrettyString(indent); break; case 0x6D656864: return ((MEHD*)this)->toPrettyString(indent); break; case 0x7374626C: return ((STBL*)this)->toPrettyString(indent); break; case 0x64726566: return ((DREF*)this)->toPrettyString(indent); break; case 0x75726C20: return ((URL*)this)->toPrettyString(indent); break; case 0x75726E20: return ((URN*)this)->toPrettyString(indent); break; case 0x6D766864: return ((MVHD*)this)->toPrettyString(indent); break; case 0x74667261: return ((TFRA*)this)->toPrettyString(indent); break; case 0x746B6864: return ((TKHD*)this)->toPrettyString(indent); break; case 0x6D646864: return ((MDHD*)this)->toPrettyString(indent); break; case 0x73747473: return ((STTS*)this)->toPrettyString(indent); break; case 0x63747473: return ((CTTS*)this)->toPrettyString(indent); break; case 0x73747363: return ((STSC*)this)->toPrettyString(indent); break; case 0x7374636F: return ((STCO*)this)->toPrettyString(indent); break; case 0x7374737A: return ((STSZ*)this)->toPrettyString(indent); break; case 0x73747364: return ((STSD*)this)->toPrettyString(indent); break; case 0x6D703461: return ((MP4A*)this)->toPrettyString(indent); break; case 0x61616320: return ((AAC*)this)->toPrettyString(indent); break; case 0x61766331: return ((AVC1*)this)->toPrettyString(indent); break; case 0x68323634: return ((H264*)this)->toPrettyString(indent); break; case 0x65647473: return ((EDTS*)this)->toPrettyString(indent); break; case 0x73747373: return ((STSS*)this)->toPrettyString(indent); break; case 0x6D657461: return ((META*)this)->toPrettyString(indent); break; case 0x656C7374: return ((ELST*)this)->toPrettyString(indent); break; case 0x65736473: return ((ESDS*)this)->toPrettyString(indent); break; case 0x75647461: return ((UDTA*)this)->toPrettyString(indent); break; case 0x75756964: return ((UUID*)this)->toPrettyString(indent); break; default: break; } std::string retval = std::string(indent, ' ') + "Unimplemented pretty-printing for box " + std::string(data + 4, 4) + "\n"; /// \todo Implement hexdump for unimplemented boxes? //retval += return retval; } /// Sets the 8 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Fails silently if resizing failed. void Box::setInt8(char newData, size_t index){ index += payloadOffset; if (index >= boxedSize()){ if ( !reserve(index, 0, 1)){ return; } } data[index] = newData; } /// Gets the 8 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Returns zero if resizing failed. char Box::getInt8(size_t index){ index += payloadOffset; if (index >= boxedSize()){ if ( !reserve(index, 0, 1)){ return 0; } setInt8(0, index - payloadOffset); } return data[index]; } /// Sets the 16 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Fails silently if resizing failed. void Box::setInt16(short newData, size_t index){ index += payloadOffset; if (index + 1 >= boxedSize()){ if ( !reserve(index, 0, 2)){ return; } } newData = htons(newData); memcpy(data + index, (char*) &newData, 2); } /// Gets the 16 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Returns zero if resizing failed. short Box::getInt16(size_t index){ index += payloadOffset; if (index + 1 >= boxedSize()){ if ( !reserve(index, 0, 2)){ return 0; } setInt16(0, index - payloadOffset); } short result; memcpy((char*) &result, data + index, 2); return ntohs(result); } /// Sets the 24 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Fails silently if resizing failed. void Box::setInt24(uint32_t newData, size_t index){ index += payloadOffset; if (index + 2 >= boxedSize()){ if ( !reserve(index, 0, 3)){ return; } } data[index] = (newData & 0x00FF0000) >> 16; data[index + 1] = (newData & 0x0000FF00) >> 8; data[index + 2] = (newData & 0x000000FF); } /// Gets the 24 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Returns zero if resizing failed. uint32_t Box::getInt24(size_t index){ index += payloadOffset; if (index + 2 >= boxedSize()){ if ( !reserve(index, 0, 3)){ return 0; } setInt24(0, index - payloadOffset); } uint32_t result = data[index]; result <<= 8; result += data[index + 1]; result <<= 8; result += data[index + 2]; return result; } /// Sets the 32 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Fails silently if resizing failed. void Box::setInt32(uint32_t newData, size_t index){ index += payloadOffset; if (index + 3 >= boxedSize()){ if ( !reserve(index, 0, 4)){ return; } } newData = htonl(newData); memcpy(data + index, (char*) &newData, 4); } /// Gets the 32 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Returns zero if resizing failed. uint32_t Box::getInt32(size_t index){ index += payloadOffset; if (index + 3 >= boxedSize()){ if ( !reserve(index, 0, 4)){ return 0; } setInt32(0, index - payloadOffset); } uint32_t result; memcpy((char*) &result, data + index, 4); return ntohl(result); } /// Sets the 64 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Fails silently if resizing failed. void Box::setInt64(Int64 newData, size_t index){ index += payloadOffset; if (index + 7 >= boxedSize()){ if ( !reserve(index, 0, 8)){ return; } } ((int*)(data + index))[0] = htonl((int)(newData >> 32)); ((int*)(data + index))[1] = htonl((int)(newData & 0xFFFFFFFF)); } /// Gets the 64 bits integer at the given index. /// Attempts to resize the data pointer if the index is out of range. /// Returns zero if resizing failed. Int64 Box::getInt64(size_t index){ index += payloadOffset; if (index + 7 >= boxedSize()){ if ( !reserve(index, 0, 8)){ return 0; } setInt64(0, index - payloadOffset); } Int64 result = ntohl(((int*)(data + index))[0]); result <<= 32; result += ntohl(((int*)(data + index))[1]); return result; } /// Sets the NULL-terminated string at the given index. /// Will attempt to resize if the string doesn't fit. /// Fails silently if resizing failed. void Box::setString(std::string newData, size_t index){ setString((char*)newData.c_str(), newData.size(), index); } /// Sets the NULL-terminated string at the given index. /// Will attempt to resize if the string doesn't fit. /// Fails silently if resizing failed. void Box::setString(char* newData, size_t size, size_t index){ index += payloadOffset; if (index >= boxedSize()){ if ( !reserve(index, 0, 1)){ return; } data[index] = 0; } if (getStringLen(index) != size){ if ( !reserve(index, getStringLen(index) + 1, size + 1)){ return; } } memcpy(data + index, newData, size + 1); } /// Gets the NULL-terminated string at the given index. /// Will attempt to resize if the string is out of range. /// Returns null if resizing failed. char * Box::getString(size_t index){ index += payloadOffset; if (index >= boxedSize()){ if ( !reserve(index, 0, 1)){ return 0; } data[index] = 0; } return data + index; } /// Returns the length of the NULL-terminated string at the given index. /// Returns 0 if out of range. size_t Box::getStringLen(size_t index){ index += payloadOffset; if (index >= boxedSize()){ return 0; } return strlen(data + index); } /// Gets a reference to the box at the given index. /// Do not store or copy this reference, for there will be raptors. /// Will attempt to resize if out of range. /// Returns an 8-byte error box if resizing failed. Box & Box::getBox(size_t index){ static Box retbox; index += payloadOffset; if (index + 8 > boxedSize()){ if ( !reserve(index, 0, 8)){ retbox = Box((char*)"\000\000\000\010erro", false); return retbox; } memcpy(data + index, "\000\000\000\010erro", 8); } retbox = Box(data + index, false); return retbox; } /// Returns the size of the box at the given position. /// Returns undefined values if there is no box at the given position. /// Returns 0 if out of range. size_t Box::getBoxLen(size_t index){ if (index + payloadOffset + 8 > boxedSize()){ return 0; } return getBox(index).boxedSize(); } /// Replaces the existing box at the given index by the new box newEntry. /// Will resize if needed, will reserve new space if out of range. void Box::setBox(Box & newEntry, size_t index){ int oldlen = getBoxLen(index); int newlen = newEntry.boxedSize(); if (oldlen != newlen && !reserve(index + payloadOffset, oldlen, newlen)){ return; } memcpy(data + index + payloadOffset, newEntry.asBox(), newlen); } /// Attempts to reserve enough space for wanted bytes of data at given position, where current bytes of data is now reserved. /// This will move any existing data behind the currently reserved space to the proper location after reserving. /// \returns True on success, false otherwise. bool Box::reserve(size_t position, size_t current, size_t wanted){ if (current == wanted){ return true; } if (position > boxedSize()){ wanted += position - boxedSize(); } if (current < wanted){ //make bigger if (boxedSize() + (wanted - current) > data_size){ //realloc if managed, otherwise fail if ( !managed){ return false; } void * ret = realloc(data, boxedSize() + (wanted - current)); if ( !ret){ return false; } data = (char*)ret; memset(data + boxedSize(), 0, wanted - current); //initialize to 0 data_size = boxedSize() + (wanted - current); } } //move data behind, if any if (boxedSize() > (position + current)){ memmove(data + position + wanted, data + position + current, boxedSize() - (position + current)); } //calculate and set new size if (payloadOffset != 16){ int newSize = boxedSize() + (wanted - current); ((int*)data)[0] = htonl(newSize); } return true; } fullBox::fullBox(){ } void fullBox::setVersion(char newVersion){ setInt8(newVersion, 0); } char fullBox::getVersion(){ return getInt8(0); } void fullBox::setFlags(uint32_t newFlags){ setInt24(newFlags, 1); } uint32_t fullBox::getFlags(){ return getInt24(1); } std::string fullBox::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent + 1, ' ') << "Version: " << (int)getVersion() << std::endl; r << std::string(indent + 1, ' ') << "Flags: " << getFlags() << std::endl; return r.str(); } containerBox::containerBox(){ } uint32_t containerBox::getContentCount(){ int res = 0; int tempLoc = 0; while (tempLoc < boxedSize() - 8){ res++; tempLoc += getBoxLen(tempLoc); } return res; } void containerBox::setContent(Box & newContent, uint32_t no){ int tempLoc = 0; int contentCount = getContentCount(); for (int i = 0; i < no; i++){ if (i < contentCount){ tempLoc += getBoxLen(tempLoc); }else{ if ( !reserve(tempLoc, 0, (no - contentCount) * 8)){ return; }; memset(data + tempLoc, 0, (no - contentCount) * 8); tempLoc += (no - contentCount) * 8; break; } } setBox(newContent, tempLoc); } Box & containerBox::getContent(uint32_t no){ static Box ret = Box((char*)"\000\000\000\010erro", false); if (no > getContentCount()){ return ret; } int i = 0; int tempLoc = 0; while (i < no){ tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string containerBox::toPrettyContainerString(uint32_t indent, std::string boxName){ std::stringstream r; r << std::string(indent, ' ') << boxName <<" (" << boxedSize() << ")" << std::endl; Box curBox; int tempLoc = 0; int contentCount = getContentCount(); for (int i = 0; i < contentCount; i++){ curBox = getContent(i); r << curBox.toPrettyString(indent + 1); tempLoc += getBoxLen(tempLoc); } return r.str(); } uint32_t containerFullBox::getContentCount(){ int res = 0; int tempLoc = 4; while (tempLoc < boxedSize() - 8){ res++; tempLoc += getBoxLen(tempLoc); } return res; } void containerFullBox::setContent(Box & newContent, uint32_t no){ int tempLoc = 4; int contentCount = getContentCount(); for (int i = 0; i < no; i++){ if (i < contentCount){ tempLoc += getBoxLen(tempLoc); }else{ if ( !reserve(tempLoc, 0, (no - contentCount) * 8)){ return; }; memset(data + tempLoc, 0, (no - contentCount) * 8); tempLoc += (no - contentCount) * 8; break; } } setBox(newContent, tempLoc); } Box & containerFullBox::getContent(uint32_t no){ static Box ret = Box((char*)"\000\000\000\010erro", false); if (no > getContentCount()){ return ret; } int i = 0; int tempLoc = 4; while (i < no){ tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string containerFullBox::toPrettyCFBString(uint32_t indent, std::string boxName){ std::stringstream r; r << std::string(indent, ' ') << boxName <<" (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); Box curBox; int tempLoc = 4; int contentCount = getContentCount(); for (int i = 0; i < contentCount; i++){ curBox = getContent(i); r << curBox.toPrettyString(indent + 1); tempLoc += getBoxLen(tempLoc); } return r.str(); } ABST::ABST(){ memcpy(data + 4, "abst", 4); setVersion(0); setFlags(0); setBootstrapinfoVersion(0); setProfile(0); setLive(1); setUpdate(0); setTimeScale(1000); setCurrentMediaTime(0); setSmpteTimeCodeOffset(0); std::string empty; setMovieIdentifier(empty); setInt8(0, 30); //set serverentrycount to 0 setInt8(0, 31); //set qualityentrycount to 0 setDrmData(empty); setMetaData(empty); } void ABST::setVersion(char newVersion){ setInt8(newVersion, 0); } char ABST::getVersion(){ return getInt8(0); } void ABST::setFlags(uint32_t newFlags){ setInt24(newFlags, 1); } uint32_t ABST::getFlags(){ return getInt24(1); } void ABST::setBootstrapinfoVersion(uint32_t newVersion){ setInt32(newVersion, 4); } uint32_t ABST::getBootstrapinfoVersion(){ return getInt32(4); } void ABST::setProfile(char newProfile){ //profile = bit 1 and 2 of byte 8. setInt8((getInt8(8) & 0x3F) + ((newProfile & 0x03) << 6), 8); } char ABST::getProfile(){ return (getInt8(8) & 0xC0); } ; void ABST::setLive(bool newLive){ //live = bit 4 of byte 8. setInt8((getInt8(8) & 0xDF) + (newLive ? 0x10 : 0), 8); } bool ABST::getLive(){ return (getInt8(8) & 0x10); } void ABST::setUpdate(bool newUpdate){ //update = bit 5 of byte 8. setInt8((getInt8(8) & 0xEF) + (newUpdate ? 0x08 : 0), 8); } bool ABST::getUpdate(){ return (getInt8(8) & 0x08); } void ABST::setTimeScale(uint32_t newScale){ setInt32(newScale, 9); } uint32_t ABST::getTimeScale(){ return getInt32(9); } void ABST::setCurrentMediaTime(Int64 newTime){ setInt64(newTime, 13); } Int64 ABST::getCurrentMediaTime(){ return getInt64(13); } void ABST::setSmpteTimeCodeOffset(Int64 newTime){ setInt64(newTime, 21); } Int64 ABST::getSmpteTimeCodeOffset(){ return getInt64(21); } void ABST::setMovieIdentifier(std::string & newIdentifier){ setString(newIdentifier, 29); } char* ABST::getMovieIdentifier(){ return getString(29); } uint32_t ABST::getServerEntryCount(){ int countLoc = 29 + getStringLen(29) + 1; return getInt8(countLoc); } void ABST::setServerEntry(std::string & newEntry, uint32_t no){ int countLoc = 29 + getStringLen(29) + 1; int tempLoc = countLoc + 1; //attempt to reach the wanted position int i; for (i = 0; i < getInt8(countLoc) && i < no; ++i){ tempLoc += getStringLen(tempLoc) + 1; } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getInt8(countLoc)){ int amount = no + 1 - getInt8(countLoc); if ( !reserve(payloadOffset + tempLoc, 0, amount)){ return; }; memset(data + payloadOffset + tempLoc, 0, amount); setInt8(no + 1, countLoc); //set new qualityEntryCount tempLoc += no - i; } //now, tempLoc is at position for string number no, and we have at least 1 byte reserved. setString(newEntry, tempLoc); } ///\return Empty string if no > serverEntryCount(), serverEntry[no] otherwise. const char* ABST::getServerEntry(uint32_t no){ if (no + 1 > getServerEntryCount()){ return ""; } int tempLoc = 29 + getStringLen(29) + 1 + 1; //position of first entry for (int i = 0; i < no; i++){ tempLoc += getStringLen(tempLoc) + 1; } return getString(tempLoc); } uint32_t ABST::getQualityEntryCount(){ int countLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ countLoc += getStringLen(countLoc) + 1; } return getInt8(countLoc); } void ABST::setQualityEntry(std::string & newEntry, uint32_t no){ int countLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ countLoc += getStringLen(countLoc) + 1; } int tempLoc = countLoc + 1; //attempt to reach the wanted position int i; for (i = 0; i < getInt8(countLoc) && i < no; ++i){ tempLoc += getStringLen(tempLoc) + 1; } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getInt8(countLoc)){ int amount = no + 1 - getInt8(countLoc); if ( !reserve(payloadOffset + tempLoc, 0, amount)){ return; }; memset(data + payloadOffset + tempLoc, 0, amount); setInt8(no + 1, countLoc); //set new qualityEntryCount tempLoc += no - i; } //now, tempLoc is at position for string number no, and we have at least 1 byte reserved. setString(newEntry, tempLoc); } const char* ABST::getQualityEntry(uint32_t no){ if (no > getQualityEntryCount()){ return ""; } int tempLoc = 29 + getStringLen(29) + 1 + 1; //position of serverentries; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += 1; //first qualityentry for (int i = 0; i < no; i++){ tempLoc += getStringLen(tempLoc) + 1; } return getString(tempLoc); } void ABST::setDrmData(std::string newDrm){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } setString(newDrm, tempLoc); } char* ABST::getDrmData(){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } return getString(tempLoc); } void ABST::setMetaData(std::string newMetaData){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; setString(newMetaData, tempLoc); } char* ABST::getMetaData(){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; return getString(tempLoc); } uint32_t ABST::getSegmentRunTableCount(){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData return getInt8(tempLoc); } void ABST::setSegmentRunTable(ASRT & newSegment, uint32_t no){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData int countLoc = tempLoc; tempLoc++; //skip segmentRuntableCount //attempt to reach the wanted position int i; for (i = 0; i < getInt8(countLoc) && i < no; ++i){ tempLoc += getBoxLen(tempLoc); } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getInt8(countLoc)){ int amount = no + 1 - getInt8(countLoc); if ( !reserve(payloadOffset + tempLoc, 0, amount * 8)){ return; }; //set empty erro boxes as contents for (int j = 0; j < amount; ++j){ memcpy(data + payloadOffset + tempLoc + j * 8, "\000\000\000\010erro", 8); } setInt8(no + 1, countLoc); //set new count tempLoc += (no - i) * 8; } //now, tempLoc is at position for string number no, and we have at least an erro box reserved. setBox(newSegment, tempLoc); } ASRT & ABST::getSegmentRunTable(uint32_t no){ static Box result; if (no > getSegmentRunTableCount()){ static Box res; return (ASRT&)res; } uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData int countLoc = tempLoc; tempLoc++; //segmentRuntableCount for (int i = 0; i < no; ++i){ tempLoc += getBoxLen(tempLoc); } return (ASRT&)getBox(tempLoc); } uint32_t ABST::getFragmentRunTableCount(){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData for (int i = getInt8(tempLoc++); i != 0; --i){ tempLoc += getBoxLen(tempLoc); } return getInt8(tempLoc); } void ABST::setFragmentRunTable(AFRT & newFragment, uint32_t no){ uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData for (int i = getInt8(tempLoc++); i != 0; --i){ tempLoc += getBoxLen(tempLoc); } int countLoc = tempLoc; tempLoc++; //attempt to reach the wanted position int i; for (i = 0; i < getInt8(countLoc) && i < no; ++i){ tempLoc += getBoxLen(tempLoc); } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getInt8(countLoc)){ int amount = no + 1 - getInt8(countLoc); if ( !reserve(payloadOffset + tempLoc, 0, amount * 8)){ return; }; //set empty erro boxes as contents for (int j = 0; j < amount; ++j){ memcpy(data + payloadOffset + tempLoc + j * 8, "\000\000\000\010erro", 8); } setInt8(no + 1, countLoc); //set new count tempLoc += (no - i) * 8; } //now, tempLoc is at position for string number no, and we have at least 1 byte reserved. setBox(newFragment, tempLoc); } AFRT & ABST::getFragmentRunTable(uint32_t no){ static Box result; if (no >= getFragmentRunTableCount()){ static Box res; return (AFRT&)res; } uint32_t tempLoc = 29 + getStringLen(29) + 1 + 1; for (int i = 0; i < getServerEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc++; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } tempLoc += getStringLen(tempLoc) + 1; //DrmData tempLoc += getStringLen(tempLoc) + 1; //MetaData for (int i = getInt8(tempLoc++); i != 0; --i){ tempLoc += getBoxLen(tempLoc); } int countLoc = tempLoc; tempLoc++; for (int i = 0; i < no; i++){ tempLoc += getBoxLen(tempLoc); } return (AFRT&)getBox(tempLoc); } std::string ABST::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[abst] Bootstrap Info (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getVersion() << std::endl; r << std::string(indent + 1, ' ') << "BootstrapinfoVersion " << getBootstrapinfoVersion() << std::endl; r << std::string(indent + 1, ' ') << "Profile " << (int)getProfile() << std::endl; if (getLive()){ r << std::string(indent + 1, ' ') << "Live" << std::endl; }else{ r << std::string(indent + 1, ' ') << "Recorded" << std::endl; } if (getUpdate()){ r << std::string(indent + 1, ' ') << "Update" << std::endl; }else{ r << std::string(indent + 1, ' ') << "Replacement or new table" << std::endl; } r << std::string(indent + 1, ' ') << "Timescale " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "CurrMediaTime " << getCurrentMediaTime() << std::endl; r << std::string(indent + 1, ' ') << "SmpteTimeCodeOffset " << getSmpteTimeCodeOffset() << std::endl; r << std::string(indent + 1, ' ') << "MovieIdentifier " << getMovieIdentifier() << std::endl; r << std::string(indent + 1, ' ') << "ServerEntryTable (" << getServerEntryCount() << ")" << std::endl; for (int i = 0; i < getServerEntryCount(); i++){ r << std::string(indent + 2, ' ') << i << ": " << getServerEntry(i) << std::endl; } r << std::string(indent + 1, ' ') << "QualityEntryTable (" << getQualityEntryCount() << ")" << std::endl; for (int i = 0; i < getQualityEntryCount(); i++){ r << std::string(indent + 2, ' ') << i << ": " << getQualityEntry(i) << std::endl; } r << std::string(indent + 1, ' ') << "DrmData " << getDrmData() << std::endl; r << std::string(indent + 1, ' ') << "MetaData " << getMetaData() << std::endl; r << std::string(indent + 1, ' ') << "SegmentRunTableEntries (" << getSegmentRunTableCount() << ")" << std::endl; for (uint32_t i = 0; i < getSegmentRunTableCount(); i++){ r << ((Box)getSegmentRunTable(i)).toPrettyString(indent + 2); } r << std::string(indent + 1, ' ') + "FragmentRunTableEntries (" << getFragmentRunTableCount() << ")" << std::endl; for (uint32_t i = 0; i < getFragmentRunTableCount(); i++){ r << ((Box)getFragmentRunTable(i)).toPrettyString(indent + 2); } return r.str(); } AFRT::AFRT(){ memcpy(data + 4, "afrt", 4); setVersion(0); setUpdate(0); setTimeScale(1000); } void AFRT::setVersion(char newVersion){ setInt8(newVersion, 0); } uint32_t AFRT::getVersion(){ return getInt8(0); } void AFRT::setUpdate(uint32_t newUpdate){ setInt24(newUpdate, 1); } uint32_t AFRT::getUpdate(){ return getInt24(1); } void AFRT::setTimeScale(uint32_t newScale){ setInt32(newScale, 4); } uint32_t AFRT::getTimeScale(){ return getInt32(4); } uint32_t AFRT::getQualityEntryCount(){ return getInt8(8); } void AFRT::setQualityEntry(std::string & newEntry, uint32_t no){ int countLoc = 8; int tempLoc = countLoc + 1; //attempt to reach the wanted position int i; for (i = 0; i < getQualityEntryCount() && i < no; ++i){ tempLoc += getStringLen(tempLoc) + 1; } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getQualityEntryCount()){ int amount = no + 1 - getQualityEntryCount(); if ( !reserve(payloadOffset + tempLoc, 0, amount)){ return; }; memset(data + payloadOffset + tempLoc, 0, amount); setInt8(no + 1, countLoc); //set new qualityEntryCount tempLoc += no - i; } //now, tempLoc is at position for string number no, and we have at least 1 byte reserved. setString(newEntry, tempLoc); } const char* AFRT::getQualityEntry(uint32_t no){ if (no + 1 > getQualityEntryCount()){ return ""; } int tempLoc = 9; //position of first quality entry for (int i = 0; i < no; i++){ tempLoc += getStringLen(tempLoc) + 1; } return getString(tempLoc); } uint32_t AFRT::getFragmentRunCount(){ int tempLoc = 9; for (int i = 0; i < getQualityEntryCount(); ++i){ tempLoc += getStringLen(tempLoc) + 1; } return getInt32(tempLoc); } void AFRT::setFragmentRun(afrt_runtable newRun, uint32_t no){ int tempLoc = 9; for (int i = 0; i < getQualityEntryCount(); ++i){ tempLoc += getStringLen(tempLoc) + 1; } int countLoc = tempLoc; tempLoc += 4; for (int i = 0; i < no; i++){ if (i + 1 > getInt32(countLoc)){ setInt32(0, tempLoc); setInt64(0, tempLoc + 4); setInt32(1, tempLoc + 12); } if (getInt32(tempLoc + 12) == 0){ tempLoc += 17; }else{ tempLoc += 16; } } setInt32(newRun.firstFragment, tempLoc); setInt64(newRun.firstTimestamp, tempLoc + 4); setInt32(newRun.duration, tempLoc + 12); if (newRun.duration == 0){ setInt8(newRun.discontinuity, tempLoc + 16); } if (getInt32(countLoc) < no + 1){ setInt32(no + 1, countLoc); } } afrt_runtable AFRT::getFragmentRun(uint32_t no){ afrt_runtable res; if (no > getFragmentRunCount()){ return res; } int tempLoc = 9; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } int countLoc = tempLoc; tempLoc += 4; for (int i = 0; i < no; i++){ if (getInt32(tempLoc + 12) == 0){ tempLoc += 17; }else{ tempLoc += 16; } } res.firstFragment = getInt32(tempLoc); res.firstTimestamp = getInt64(tempLoc + 4); res.duration = getInt32(tempLoc + 12); if (res.duration){ res.discontinuity = getInt8(tempLoc + 16); }else{ res.discontinuity = 0; } return res; } std::string AFRT::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[afrt] Fragment Run Table (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getVersion() << std::endl; if (getUpdate()){ r << std::string(indent + 1, ' ') << "Update" << std::endl; }else{ r << std::string(indent + 1, ' ') << "Replacement or new table" << std::endl; } r << std::string(indent + 1, ' ') << "Timescale " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "QualitySegmentUrlModifiers (" << getQualityEntryCount() << ")" << std::endl; for (int i = 0; i < getQualityEntryCount(); i++){ r << std::string(indent + 2, ' ') << i << ": " << getQualityEntry(i) << std::endl; } r << std::string(indent + 1, ' ') << "FragmentRunEntryTable (" << getFragmentRunCount() << ")" << std::endl; for (int i = 0; i < getFragmentRunCount(); i++){ afrt_runtable myRun = getFragmentRun(i); if (myRun.duration){ r << std::string(indent + 2, ' ') << i << ": " << myRun.firstFragment << " is at " << ((double)myRun.firstTimestamp / (double)getTimeScale()) << "s, " << ((double)myRun.duration / (double)getTimeScale()) << "s per fragment." << std::endl; }else{ r << std::string(indent + 2, ' ') << i << ": " << myRun.firstFragment << " is at " << ((double)myRun.firstTimestamp / (double)getTimeScale()) << "s, discontinuity type " << myRun.discontinuity << std::endl; } } return r.str(); } ASRT::ASRT(){ memcpy(data + 4, "asrt", 4); setVersion(0); setUpdate(0); } void ASRT::setVersion(char newVersion){ setInt8(newVersion, 0); } uint32_t ASRT::getVersion(){ return getInt8(0); } void ASRT::setUpdate(uint32_t newUpdate){ setInt24(newUpdate, 1); } uint32_t ASRT::getUpdate(){ return getInt24(1); } uint32_t ASRT::getQualityEntryCount(){ return getInt8(4); } void ASRT::setQualityEntry(std::string & newEntry, uint32_t no){ int countLoc = 4; int tempLoc = countLoc + 1; //attempt to reach the wanted position int i; for (i = 0; i < getQualityEntryCount() && i < no; ++i){ tempLoc += getStringLen(tempLoc) + 1; } //we are now either at the end, or at the right position //let's reserve any unreserved space... if (no + 1 > getQualityEntryCount()){ int amount = no + 1 - getQualityEntryCount(); if ( !reserve(payloadOffset + tempLoc, 0, amount)){ return; }; memset(data + payloadOffset + tempLoc, 0, amount); setInt8(no + 1, countLoc); //set new qualityEntryCount tempLoc += no - i; } //now, tempLoc is at position for string number no, and we have at least 1 byte reserved. setString(newEntry, tempLoc); } const char* ASRT::getQualityEntry(uint32_t no){ if (no > getQualityEntryCount()){ return ""; } int tempLoc = 5; //position of qualityentry count; for (int i = 0; i < no; i++){ tempLoc += getStringLen(tempLoc) + 1; } return getString(tempLoc); } uint32_t ASRT::getSegmentRunEntryCount(){ int tempLoc = 5; //position of qualityentry count; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } return getInt32(tempLoc); } void ASRT::setSegmentRun(uint32_t firstSegment, uint32_t fragmentsPerSegment, uint32_t no){ int tempLoc = 5; //position of qualityentry count; for (int i = 0; i < getQualityEntryCount(); i++){ tempLoc += getStringLen(tempLoc) + 1; } int countLoc = tempLoc; tempLoc += 4 + no * 8; if (no + 1 > getInt32(countLoc)){ setInt32(no + 1, countLoc); //set new qualityEntryCount } setInt32(firstSegment, tempLoc); setInt32(fragmentsPerSegment, tempLoc + 4); } asrt_runtable ASRT::getSegmentRun(uint32_t no){ asrt_runtable res; if (no >= getSegmentRunEntryCount()){ return res; } int tempLoc = 5; //position of qualityentry count; for (int i = 0; i < getQualityEntryCount(); ++i){ tempLoc += getStringLen(tempLoc) + 1; } int countLoc = tempLoc; tempLoc += 4 + 8 * no; res.firstSegment = getInt32(tempLoc); res.fragmentsPerSegment = getInt32(tempLoc + 4); return res; } std::string ASRT::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[asrt] Segment Run Table (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << getVersion() << std::endl; if (getUpdate()){ r << std::string(indent + 1, ' ') << "Update" << std::endl; }else{ r << std::string(indent + 1, ' ') << "Replacement or new table" << std::endl; } r << std::string(indent + 1, ' ') << "QualityEntryTable (" << getQualityEntryCount() << ")" << std::endl; for (int i = 0; i < getQualityEntryCount(); i++){ r << std::string(indent + 2, ' ') << i << ": " << getQualityEntry(i) << std::endl; } r << std::string(indent + 1, ' ') << "SegmentRunEntryTable (" << getSegmentRunEntryCount() << ")" << std::endl; for (int i = 0; i < getSegmentRunEntryCount(); i++){ r << std::string(indent + 2, ' ') << i << ": First=" << getSegmentRun(i).firstSegment << ", FragmentsPerSegment=" << getSegmentRun(i).fragmentsPerSegment << std::endl; } return r.str(); } MFHD::MFHD(){ memcpy(data + 4, "mfhd", 4); setInt32(0, 0); } void MFHD::setSequenceNumber(uint32_t newSequenceNumber){ setInt32(newSequenceNumber, 4); } uint32_t MFHD::getSequenceNumber(){ return getInt32(4); } std::string MFHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[mfhd] Movie Fragment Header (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "SequenceNumber " << getSequenceNumber() << std::endl; return r.str(); } MOOF::MOOF(){ memcpy(data + 4, "moof", 4); } std::string MOOF::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[moof] Movie Fragment Box")); } TRAF::TRAF(){ memcpy(data + 4, "traf", 4); } uint32_t TRAF::getContentCount(){ int res = 0; int tempLoc = 0; while (tempLoc < boxedSize() - 8){ res++; tempLoc += getBoxLen(tempLoc); } return res; } void TRAF::setContent(Box & newContent, uint32_t no){ int tempLoc = 0; int contentCount = getContentCount(); for (int i = 0; i < no; i++){ if (i < contentCount){ tempLoc += getBoxLen(tempLoc); }else{ if ( !reserve(tempLoc, 0, (no - contentCount) * 8)){ return; }; memset(data + tempLoc, 0, (no - contentCount) * 8); tempLoc += (no - contentCount) * 8; break; } } setBox(newContent, tempLoc); } Box & TRAF::getContent(uint32_t no){ static Box ret = Box((char*)"\000\000\000\010erro", false); if (no > getContentCount()){ return ret; } int i = 0; int tempLoc = 0; while (i < no){ tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string TRAF::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[traf] Track Fragment Box (" << boxedSize() << ")" << std::endl; Box curBox; int tempLoc = 0; int contentCount = getContentCount(); for (int i = 0; i < contentCount; i++){ curBox = getContent(i); r << curBox.toPrettyString(indent + 1); tempLoc += curBox.boxedSize(); } return r.str(); } TRUN::TRUN(){ memcpy(data + 4, "trun", 4); } void TRUN::setFlags(uint32_t newFlags){ setInt24(newFlags, 1); } uint32_t TRUN::getFlags(){ return getInt24(1); } void TRUN::setDataOffset(uint32_t newOffset){ if (getFlags() & trundataOffset){ setInt32(newOffset, 8); } } uint32_t TRUN::getDataOffset(){ if (getFlags() & trundataOffset){ return getInt32(8); }else{ return 0; } } void TRUN::setFirstSampleFlags(uint32_t newSampleFlags){ if ( !(getFlags() & trunfirstSampleFlags)){ return; } if (getFlags() & trundataOffset){ setInt32(newSampleFlags, 12); }else{ setInt32(newSampleFlags, 8); } } uint32_t TRUN::getFirstSampleFlags(){ if ( !(getFlags() & trunfirstSampleFlags)){ return 0; } if (getFlags() & trundataOffset){ return getInt32(12); }else{ return getInt32(8); } } uint32_t TRUN::getSampleInformationCount(){ return getInt32(4); } void TRUN::setSampleInformation(trunSampleInformation newSample, uint32_t no){ uint32_t flags = getFlags(); uint32_t sampInfoSize = 0; if (flags & trunsampleDuration){ sampInfoSize += 4; } if (flags & trunsampleSize){ sampInfoSize += 4; } if (flags & trunsampleFlags){ sampInfoSize += 4; } if (flags & trunsampleOffsets){ sampInfoSize += 4; } uint32_t offset = 8; if (flags & trundataOffset){ offset += 4; } if (flags & trunfirstSampleFlags){ offset += 4; } uint32_t innerOffset = 0; if (flags & trunsampleDuration){ setInt32(newSample.sampleDuration, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleSize){ setInt32(newSample.sampleSize, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleFlags){ setInt32(newSample.sampleFlags, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleOffsets){ setInt32(newSample.sampleOffset, offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (getSampleInformationCount() < no + 1){ setInt32(no + 1, 4); } } trunSampleInformation TRUN::getSampleInformation(uint32_t no){ trunSampleInformation ret; ret.sampleDuration = 0; ret.sampleSize = 0; ret.sampleFlags = 0; ret.sampleOffset = 0; if (getSampleInformationCount() < no + 1){ return ret; } uint32_t flags = getFlags(); uint32_t sampInfoSize = 0; if (flags & trunsampleDuration){ sampInfoSize += 4; } if (flags & trunsampleSize){ sampInfoSize += 4; } if (flags & trunsampleFlags){ sampInfoSize += 4; } if (flags & trunsampleOffsets){ sampInfoSize += 4; } uint32_t offset = 8; if (flags & trundataOffset){ offset += 4; } if (flags & trunfirstSampleFlags){ offset += 4; } uint32_t innerOffset = 0; if (flags & trunsampleDuration){ ret.sampleDuration = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleSize){ ret.sampleSize = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleFlags){ ret.sampleFlags = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } if (flags & trunsampleOffsets){ ret.sampleOffset = getInt32(offset + no * sampInfoSize + innerOffset); innerOffset += 4; } return ret; } std::string TRUN::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[trun] Track Fragment Run (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getInt8(0) << std::endl; uint32_t flags = getFlags(); r << std::string(indent + 1, ' ') << "Flags"; if (flags & trundataOffset){ r << " dataOffset"; } if (flags & trunfirstSampleFlags){ r << " firstSampleFlags"; } if (flags & trunsampleDuration){ r << " sampleDuration"; } if (flags & trunsampleSize){ r << " sampleSize"; } if (flags & trunsampleFlags){ r << " sampleFlags"; } if (flags & trunsampleOffsets){ r << " sampleOffsets"; } r << std::endl; if (flags & trundataOffset){ r << std::string(indent + 1, ' ') << "Data Offset " << getDataOffset() << std::endl; } if (flags & trundataOffset){ r << std::string(indent + 1, ' ') << "Sample Flags" << prettySampleFlags(getFirstSampleFlags()) << std::endl; } r << std::string(indent + 1, ' ') << "SampleInformation (" << getSampleInformationCount() << "):" << std::endl; for (int i = 0; i < getSampleInformationCount(); ++i){ r << std::string(indent + 2, ' ') << "[" << i << "] "; trunSampleInformation samp = getSampleInformation(i); if (flags & trunsampleDuration){ r << "Duration=" << samp.sampleDuration << " "; } if (flags & trunsampleSize){ r << "Size=" << samp.sampleSize << " "; } if (flags & trunsampleFlags){ r << "Flags=" << prettySampleFlags(samp.sampleFlags) << " "; } if (flags & trunsampleOffsets){ r << "Offset=" << samp.sampleOffset << " "; } r << std::endl; } return r.str(); } std::string prettySampleFlags(uint32_t flag){ std::stringstream r; if (flag & noIPicture){ r << " noIPicture"; } if (flag & isIPicture){ r << " isIPicture"; } if (flag & noDisposable){ r << " noDisposable"; } if (flag & isDisposable){ r << " isDisposable"; } if (flag & isRedundant){ r << " isRedundant"; } if (flag & noRedundant){ r << " noRedundant"; } if (flag & noKeySample){ r << " noKeySample"; }else{ r << " isKeySample"; } return r.str(); } TFHD::TFHD(){ memcpy(data + 4, "tfhd", 4); } void TFHD::setFlags(uint32_t newFlags){ setInt24(newFlags, 1); } uint32_t TFHD::getFlags(){ return getInt24(1); } void TFHD::setTrackID(uint32_t newID){ setInt32(newID, 4); } uint32_t TFHD::getTrackID(){ return getInt32(4); } void TFHD::setBaseDataOffset(uint64_t newOffset){ if (getFlags() & tfhdBaseOffset){ setInt64(newOffset, 8); } } uint64_t TFHD::getBaseDataOffset(){ if (getFlags() & tfhdBaseOffset){ return getInt64(8); }else{ return 0; } } void TFHD::setSampleDescriptionIndex(uint32_t newIndex){ if ( !(getFlags() & tfhdSampleDesc)){ return; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } setInt32(newIndex, offset); } uint32_t TFHD::getSampleDescriptionIndex(){ if ( !(getFlags() & tfhdSampleDesc)){ return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } return getInt32(offset); } void TFHD::setDefaultSampleDuration(uint32_t newDuration){ if ( !(getFlags() & tfhdSampleDura)){ return; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } setInt32(newDuration, offset); } uint32_t TFHD::getDefaultSampleDuration(){ if ( !(getFlags() & tfhdSampleDura)){ return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } return getInt32(offset); } void TFHD::setDefaultSampleSize(uint32_t newSize){ if ( !(getFlags() & tfhdSampleSize)){ return; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } if (getFlags() & tfhdSampleDura){ offset += 4; } setInt32(newSize, offset); } uint32_t TFHD::getDefaultSampleSize(){ if ( !(getFlags() & tfhdSampleSize)){ return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } if (getFlags() & tfhdSampleDura){ offset += 4; } return getInt32(offset); } void TFHD::setDefaultSampleFlags(uint32_t newFlags){ if ( !(getFlags() & tfhdSampleFlag)){ return; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } if (getFlags() & tfhdSampleDura){ offset += 4; } if (getFlags() & tfhdSampleSize){ offset += 4; } setInt32(newFlags, offset); } uint32_t TFHD::getDefaultSampleFlags(){ if ( !(getFlags() & tfhdSampleFlag)){ return 0; } int offset = 8; if (getFlags() & tfhdBaseOffset){ offset += 8; } if (getFlags() & tfhdSampleDesc){ offset += 4; } if (getFlags() & tfhdSampleDura){ offset += 4; } if (getFlags() & tfhdSampleSize){ offset += 4; } return getInt32(offset); } std::string TFHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[tfhd] Track Fragment Header (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << (int)getInt8(0) << std::endl; uint32_t flags = getFlags(); r << std::string(indent + 1, ' ') << "Flags"; if (flags & tfhdBaseOffset){ r << " BaseOffset"; } if (flags & tfhdSampleDesc){ r << " SampleDesc"; } if (flags & tfhdSampleDura){ r << " SampleDura"; } if (flags & tfhdSampleSize){ r << " SampleSize"; } if (flags & tfhdSampleFlag){ r << " SampleFlag"; } if (flags & tfhdNoDuration){ r << " NoDuration"; } r << std::endl; r << std::string(indent + 1, ' ') << "TrackID " << getTrackID() << std::endl; if (flags & tfhdBaseOffset){ r << std::string(indent + 1, ' ') << "Base Offset " << getBaseDataOffset() << std::endl; } if (flags & tfhdSampleDesc){ r << std::string(indent + 1, ' ') << "Sample Description Index " << getSampleDescriptionIndex() << std::endl; } if (flags & tfhdSampleDura){ r << std::string(indent + 1, ' ') << "Default Sample Duration " << getDefaultSampleDuration() << std::endl; } if (flags & tfhdSampleSize){ r << std::string(indent + 1, ' ') << "Default Same Size " << getDefaultSampleSize() << std::endl; } if (flags & tfhdSampleFlag){ r << std::string(indent + 1, ' ') << "Default Sample Flags " << prettySampleFlags(getDefaultSampleFlags()) << std::endl; } return r.str(); } AFRA::AFRA(){ memcpy(data + 4, "afra", 4); setInt32(0, 9); //entrycount = 0 setFlags(0); } void AFRA::setVersion(uint32_t newVersion){ setInt8(newVersion, 0); } uint32_t AFRA::getVersion(){ return getInt8(0); } void AFRA::setFlags(uint32_t newFlags){ setInt24(newFlags, 1); } uint32_t AFRA::getFlags(){ return getInt24(1); } void AFRA::setLongIDs(bool newVal){ if (newVal){ setInt8((getInt8(4) & 0x7F) + 0x80, 4); }else{ setInt8((getInt8(4) & 0x7F), 4); } } bool AFRA::getLongIDs(){ return getInt8(4) & 0x80; } void AFRA::setLongOffsets(bool newVal){ if (newVal){ setInt8((getInt8(4) & 0xBF) + 0x40, 4); }else{ setInt8((getInt8(4) & 0xBF), 4); } } bool AFRA::getLongOffsets(){ return getInt8(4) & 0x40; } void AFRA::setGlobalEntries(bool newVal){ if (newVal){ setInt8((getInt8(4) & 0xDF) + 0x20, 4); }else{ setInt8((getInt8(4) & 0xDF), 4); } } bool AFRA::getGlobalEntries(){ return getInt8(4) & 0x20; } void AFRA::setTimeScale(uint32_t newVal){ setInt32(newVal, 5); } uint32_t AFRA::getTimeScale(){ return getInt32(5); } uint32_t AFRA::getEntryCount(){ return getInt32(9); } void AFRA::setEntry(afraentry newEntry, uint32_t no){ int entrysize = 12; if (getLongOffsets()){ entrysize = 16; } setInt64(newEntry.time, 13 + entrysize * no); if (getLongOffsets()){ setInt64(newEntry.offset, 21 + entrysize * no); }else{ setInt32(newEntry.offset, 21 + entrysize * no); } if (no + 1 > getEntryCount()){ setInt32(no + 1, 9); } } afraentry AFRA::getEntry(uint32_t no){ afraentry ret; int entrysize = 12; if (getLongOffsets()){ entrysize = 16; } ret.time = getInt64(13 + entrysize * no); if (getLongOffsets()){ ret.offset = getInt64(21 + entrysize * no); }else{ ret.offset = getInt32(21 + entrysize * no); } return ret; } uint32_t AFRA::getGlobalEntryCount(){ if ( !getGlobalEntries()){ return 0; } int entrysize = 12; if (getLongOffsets()){ entrysize = 16; } return getInt32(13 + entrysize * getEntryCount()); } void AFRA::setGlobalEntry(globalafraentry newEntry, uint32_t no){ int offset = 13 + 12 * getEntryCount() + 4; if (getLongOffsets()){ offset = 13 + 16 * getEntryCount() + 4; } int entrysize = 20; if (getLongIDs()){ entrysize += 4; } if (getLongOffsets()){ entrysize += 8; } setInt64(newEntry.time, offset + entrysize * no); if (getLongIDs()){ setInt32(newEntry.segment, offset + entrysize * no + 8); setInt32(newEntry.fragment, offset + entrysize * no + 12); }else{ setInt16(newEntry.segment, offset + entrysize * no + 8); setInt16(newEntry.fragment, offset + entrysize * no + 10); } if (getLongOffsets()){ setInt64(newEntry.afraoffset, offset + entrysize * no + entrysize - 16); setInt64(newEntry.offsetfromafra, offset + entrysize * no + entrysize - 8); }else{ setInt32(newEntry.afraoffset, offset + entrysize * no + entrysize - 8); setInt32(newEntry.offsetfromafra, offset + entrysize * no + entrysize - 4); } if (getInt32(offset - 4) < no + 1){ setInt32(no + 1, offset - 4); } } globalafraentry AFRA::getGlobalEntry(uint32_t no){ globalafraentry ret; int offset = 13 + 12 * getEntryCount() + 4; if (getLongOffsets()){ offset = 13 + 16 * getEntryCount() + 4; } int entrysize = 20; if (getLongIDs()){ entrysize += 4; } if (getLongOffsets()){ entrysize += 8; } ret.time = getInt64(offset + entrysize * no); if (getLongIDs()){ ret.segment = getInt32(offset + entrysize * no + 8); ret.fragment = getInt32(offset + entrysize * no + 12); }else{ ret.segment = getInt16(offset + entrysize * no + 8); ret.fragment = getInt16(offset + entrysize * no + 10); } if (getLongOffsets()){ ret.afraoffset = getInt64(offset + entrysize * no + entrysize - 16); ret.offsetfromafra = getInt64(offset + entrysize * no + entrysize - 8); }else{ ret.afraoffset = getInt32(offset + entrysize * no + entrysize - 8); ret.offsetfromafra = getInt32(offset + entrysize * no + entrysize - 4); } return ret; } std::string AFRA::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[afra] Fragment Random Access (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version " << getVersion() << std::endl; r << std::string(indent + 1, ' ') << "Flags " << getFlags() << std::endl; r << std::string(indent + 1, ' ') << "Long IDs " << getLongIDs() << std::endl; r << std::string(indent + 1, ' ') << "Long Offsets " << getLongOffsets() << std::endl; r << std::string(indent + 1, ' ') << "Global Entries " << getGlobalEntries() << std::endl; r << std::string(indent + 1, ' ') << "TimeScale " << getTimeScale() << std::endl; uint32_t count = getEntryCount(); r << std::string(indent + 1, ' ') << "Entries (" << count << ") " << std::endl; for (uint32_t i = 0; i < count; ++i){ afraentry tmpent = getEntry(i); r << std::string(indent + 1, ' ') << i << ": Time " << tmpent.time << ", Offset " << tmpent.offset << std::endl; } if (getGlobalEntries()){ count = getGlobalEntryCount(); r << std::string(indent + 1, ' ') << "Global Entries (" << count << ") " << std::endl; for (uint32_t i = 0; i < count; ++i){ globalafraentry tmpent = getGlobalEntry(i); r << std::string(indent + 1, ' ') << i << ": T " << tmpent.time << ", S" << tmpent.segment << "F" << tmpent.fragment << ", " << tmpent.afraoffset << "/" << tmpent.offsetfromafra << std::endl; } } return r.str(); } AVCC::AVCC(){ memcpy(data + 4, "avcC", 4); setInt8(0xFF, 4); //reserved + 4-bytes NAL length } void AVCC::setVersion(uint32_t newVersion){ setInt8(newVersion, 0); } uint32_t AVCC::getVersion(){ return getInt8(0); } void AVCC::setProfile(uint32_t newProfile){ setInt8(newProfile, 1); } uint32_t AVCC::getProfile(){ return getInt8(1); } void AVCC::setCompatibleProfiles(uint32_t newCompatibleProfiles){ setInt8(newCompatibleProfiles, 2); } uint32_t AVCC::getCompatibleProfiles(){ return getInt8(2); } void AVCC::setLevel(uint32_t newLevel){ setInt8(newLevel, 3); } uint32_t AVCC::getLevel(){ return getInt8(3); } void AVCC::setSPSNumber(uint32_t newSPSNumber){ setInt8(newSPSNumber, 5); } uint32_t AVCC::getSPSNumber(){ return getInt8(5); } void AVCC::setSPS(std::string newSPS){ setInt16(newSPS.size(), 6); for (int i = 0; i < newSPS.size(); i++){ setInt8(newSPS[i], 8 + i); } //not null-terminated } uint32_t AVCC::getSPSLen(){ return getInt16(6); } char* AVCC::getSPS(){ return payload() + 8; } void AVCC::setPPSNumber(uint32_t newPPSNumber){ int offset = 8 + getSPSLen(); setInt8(newPPSNumber, offset); } uint32_t AVCC::getPPSNumber(){ int offset = 8 + getSPSLen(); return getInt8(offset); } void AVCC::setPPS(std::string newPPS){ int offset = 8 + getSPSLen() + 1; setInt16(newPPS.size(), offset); for (int i = 0; i < newPPS.size(); i++){ setInt8(newPPS[i], offset + 2 + i); } //not null-terminated } uint32_t AVCC::getPPSLen(){ int offset = 8 + getSPSLen() + 1; return getInt16(offset); } char* AVCC::getPPS(){ int offset = 8 + getSPSLen() + 3; return payload() + offset; } std::string AVCC::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[avcC] H.264 Init Data (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version: " << getVersion() << std::endl; r << std::string(indent + 1, ' ') << "Profile: " << getProfile() << std::endl; r << std::string(indent + 1, ' ') << "Compatible Profiles: " << getCompatibleProfiles() << std::endl; r << std::string(indent + 1, ' ') << "Level: " << getLevel() << std::endl; r << std::string(indent + 1, ' ') << "SPS Number: " << getSPSNumber() << std::endl; r << std::string(indent + 2, ' ') << getSPSLen() << " of SPS data" << std::endl; r << std::string(indent + 1, ' ') << "PPS Number: " << getPPSNumber() << std::endl; r << std::string(indent + 2, ' ') << getPPSLen() << " of PPS data" << std::endl; return r.str(); } std::string AVCC::asAnnexB(){ std::stringstream r; r << (char)0x00 << (char)0x00 << (char)0x00 << (char)0x01; r.write(getSPS(), getSPSLen()); r << (char)0x00 << (char)0x00 << (char)0x00 << (char)0x01; r.write(getPPS(), getPPSLen()); return r.str(); } void AVCC::setPayload(std::string newPayload){ if ( !reserve(0, payloadSize(), newPayload.size())){ std::cerr << "Cannot allocate enough memory for payload" << std::endl; return; } memcpy((char*)payload(), (char*)newPayload.c_str(), newPayload.size()); } //fullbox, start at 4 ESDS::ESDS(){ memcpy(data + 4, "esds", 4); setESDescriptorType(0x03); setExtendedESDescriptorType(0x808080); setStreamPriority(16); setDecoderConfigDescriptorTag(0x04); setExtendedDecoderConfigDescriptorTag(0x808080); setReservedFlag(true); setDecoderDescriptorTypeTag(0x05); setExtendedDecoderDescriptorTypeTag(0x808080); setSLConfigDescriptorTypeTag(0x06); setSLConfigExtendedDescriptorTypeTag(0x808010); setSLValue(0x02); } char ESDS::getESDescriptorType(){ return getInt8(4); } void ESDS::setESDescriptorType(char newVal){ setInt8(newVal,4); } uint32_t ESDS::getExtendedESDescriptorType(){ return getInt24(5); } //3 bytes void ESDS::setExtendedESDescriptorType(uint32_t newVal){ setInt24(newVal,5); } //3 bytes char ESDS::getESDescriptorTypeLength(){ return getInt8(8); } void ESDS::setESDescriptorTypeLength(char newVal){ setInt8(newVal,8); } //ESID 2 bytes uint16_t ESDS::getESID(){ return getInt16(9); } void ESDS::setESID(uint16_t newVal){ setInt16(newVal, 9); } //stream priority 1 byte char ESDS::getStreamPriority(){ return getInt8(11); } void ESDS::setStreamPriority(char newVal){ setInt8(newVal, 11); } //decoder config descriptor tag 1byte char ESDS::getDecoderConfigDescriptorTag(){ return getInt8(12); } void ESDS::setDecoderConfigDescriptorTag(char newVal){ setInt8(newVal, 12); } //extended decoder config descriptor tag 3 bytes uint32_t ESDS::getExtendedDecoderConfigDescriptorTag(){ return getInt24(13); } //3 bytes void ESDS::setExtendedDecoderConfigDescriptorTag(uint32_t newVal){ setInt24(newVal, 13); } //3 bytes //decoder config descriptor type length char ESDS::getDecoderConfigDescriptorTypeLength(){ return getInt8(16); } void ESDS::setDecoderConfigDescriptorTypeLength(char newVal){ setInt8(newVal, 16); } //Note: tel 8 bytes op bij de volgende functies char ESDS::getByteObjectTypeID(){ return getInt8(17); } void ESDS::setByteObjectTypeID(char newVal){ setInt8(newVal,17); } char ESDS::getStreamType(){ return getInt8(18) >> 2; } //6 bits void ESDS::setStreamType(char newVal){ setInt8(((newVal << 2) & 0xFC) + (getInt8(18) & 0x03), 18); } //6 bits bool ESDS::getUpstreamFlag(){ return (((getInt8(18) >> 1) & 0x01) == 1); } void ESDS::setUpstreamFlag(bool newVal){ setInt8(getStreamType()<<2 + ((uint8_t)newVal << 1) + (uint8_t)getReservedFlag() , 18); } bool ESDS::getReservedFlag(){ return ((getInt8(18) & 0x01) == 1); } void ESDS::setReservedFlag(bool newVal){ setInt8((getInt8(18) & 0xFE) + (int)newVal, 18); } uint32_t ESDS::getBufferSize(){ return getInt24(19); } //3 bytes void ESDS::setBufferSize(uint32_t newVal){ setInt24(newVal,19); } //3 bytes uint32_t ESDS::getMaximumBitRate(){ return getInt32(22); } void ESDS::setMaximumBitRate(uint32_t newVal){ setInt32(newVal,22); } uint32_t ESDS::getAverageBitRate(){ return getInt32(26); } void ESDS::setAverageBitRate(uint32_t newVal){ setInt32(newVal,26); } char ESDS::getDecoderDescriptorTypeTag(){ return getInt8(30); } void ESDS::setDecoderDescriptorTypeTag(char newVal){ setInt8(newVal,30); } uint32_t ESDS::getExtendedDecoderDescriptorTypeTag(){ return getInt24(31); } //3 bytes void ESDS::setExtendedDecoderDescriptorTypeTag(uint32_t newVal){ setInt24(newVal, 31); } //3 bytes char ESDS::getConfigDescriptorTypeLength(){ return getInt8(34); } void ESDS::setConfigDescriptorTypeLength(char newVal){ setInt8(newVal, 34); } std::string ESDS::getESHeaderStartCodes(){ std::string result; for (int i = 0; i < getInt8(34) - 1; i++){ result += getInt8(35 + i); } return result; } void ESDS::setESHeaderStartCodes(std::string newVal){ setConfigDescriptorTypeLength(newVal.size()); for (int i = 0; i < newVal.size(); i++){ setInt8(newVal[i],35+i); } } char ESDS::getSLConfigDescriptorTypeTag(){ return getInt16(34 + getInt8(34)); } void ESDS::setSLConfigDescriptorTypeTag(char newVal){ setInt16(newVal, 34 + getInt8(34)); } uint32_t ESDS::getSLConfigExtendedDescriptorTypeTag(){ return getInt24(36 + getInt8(34)); } //3 bytes void ESDS::setSLConfigExtendedDescriptorTypeTag(uint32_t newVal){ setInt24(newVal, 36 + getInt8(34)); } //3 bytes char ESDS::getSLDescriptorTypeLength(){ return getInt8(39 + getInt8(34)); } void ESDS::setSLDescriptorTypeLength(char newVal){ setInt8(newVal, 39 + getInt8(34)); } char ESDS::getSLValue(){ return getInt8(40 + getInt8(34)); } void ESDS::setSLValue(char newVal){ setInt8(newVal, 40 + getInt8(34)); } std::string ESDS::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[esds] ES Descriptor Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "ESDescriptorType: 0x" << std::hex << (int)getESDescriptorType() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ExtendedESDescriptorType: 0x" << std::hex << (int)getExtendedESDescriptorType() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ESDescriptorTypeLength:" << (int)getESDescriptorTypeLength() << std::endl; r << std::string(indent + 1, ' ') << "ESID: 0x" << std::hex << (int)getESID() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "StreamPriority: 0x" << std::hex << (int)getStreamPriority() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "DecoderConfigDescriptorTag: 0x" << std::hex << (int)getDecoderConfigDescriptorTag() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ExtendedDecoderConfigDescriptorTag: 0x" << std::hex << (int)getExtendedDecoderConfigDescriptorTag() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "DecoderConfigDescriptorTypeLength: " << (int)getDecoderConfigDescriptorTypeLength() << std::endl; r << std::string(indent + 1, ' ') << "ByteObjectTypeID: 0x" << std::hex << (int)getByteObjectTypeID() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "StreamType: 0x" << std::hex << (int)getStreamType() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "UpstreamFlag: 0x" << std::hex << (int)getUpstreamFlag() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "BufferSize: 0x" << std::hex << (int)getBufferSize() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "MaximumBitRate: 0x" << std::hex << (int)getMaximumBitRate() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "AverageBitRate: 0x" << std::hex << (int)getAverageBitRate() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "DecoderDescriptorTypeTag: 0x" << std::hex << (int)getDecoderDescriptorTypeTag() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ExtendedDecoderDescriptorTypeTag: 0x" << std::hex << (int)getExtendedDecoderDescriptorTypeTag() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ConfigDescriptorTypeLength: 0x" << std::hex << (int)getConfigDescriptorTypeLength() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "ESHeaderStartCodes: 0x"; for (unsigned int i = 0; i= getCompatibleBrandsCount()){ return 0; } return getInt32(8 + (index * 4)); } std::string FTYP::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[ftyp] File Type (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "MajorBrand: 0x" << std::hex << getMajorBrand() << std::dec << std::endl; r << std::string(indent + 1, ' ') << "MinorVersion: " << getMinorVersion() << std::endl; r << std::string(indent + 1, ' ') << "CompatibleBrands (" << getCompatibleBrandsCount() << "):" << std::endl; for (int i = 0; i < getCompatibleBrandsCount(); i++){ r << std::string(indent + 2, ' ') << "[" << i << "] CompatibleBrand: 0x" << std::hex << getCompatibleBrands(i) << std::dec << std::endl; } return r.str(); } MOOV::MOOV(){ memcpy(data + 4, "moov", 4); } std::string MOOV::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[moov] Movie Box")); } MVEX::MVEX(){ memcpy(data + 4, "mvex", 4); } std::string MVEX::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[mvex] Movie Extends Header Box")); } TREX::TREX(){ memcpy(data + 4, "trex", 4); } void TREX::setTrackID(uint32_t newTrackID){ setInt32(newTrackID, 0); } uint32_t TREX::getTrackID(){ return getInt32(0); } void TREX::setDefaultSampleDescriptionIndex(uint32_t newDefaultSampleDescriptionIndex){ setInt32(newDefaultSampleDescriptionIndex,4); } uint32_t TREX::getDefaultSampleDescriptionIndex(){ return getInt32(4); } void TREX::setDefaultSampleDuration(uint32_t newDefaultSampleDuration){ setInt32(newDefaultSampleDuration,8); } uint32_t TREX::getDefaultSampleDuration(){ getInt32(8); } void TREX::setDefaultSampleSize(uint32_t newDefaultSampleSize){ setInt32(newDefaultSampleSize,12); } uint32_t TREX::getDefaultSampleSize(){ getInt32(12); } void TREX::setDefaultSampleFlags(uint32_t newDefaultSampleFlags){ setInt32(newDefaultSampleFlags,16); } uint32_t TREX::getDefaultSampleFlags(){ getInt32(16); } std::string TREX::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[trex] Track Extends (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleDescriptionIndex : " << getDefaultSampleDescriptionIndex() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleDuration : " << getDefaultSampleDuration() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleSize : " << getDefaultSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "DefaultSampleFlags : " << getDefaultSampleFlags() << std::endl; return r.str(); } TRAK::TRAK(){ memcpy(data + 4, "trak", 4); } std::string TRAK::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[trak] Track Structure")); } MDIA::MDIA(){ memcpy(data + 4, "mdia", 4); } std::string MDIA::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[mdia] Track Media Structure")); } MINF::MINF(){ memcpy(data + 4, "minf", 4); } std::string MINF::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[minf] Media Information")); } DINF::DINF(){ memcpy(data + 4, "dinf", 4); } std::string DINF::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[dinf] Data Information")); } MFRA::MFRA(){ memcpy(data + 4, "mfra", 4); } std::string MFRA::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[mfra] Movie Fragment Random Acces Box")); } MFRO::MFRO(){ memcpy(data + 4, "mfro", 4); } void MFRO::setSize(uint32_t newSize){ setInt32(newSize,0); } uint32_t MFRO::getSize(){ getInt32(0); } std::string MFRO::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[mfro] Movie Fragment Random Access Offset (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Size: " << getSize() << std::endl; return r.str(); } HDLR::HDLR(){ memcpy(data + 4, "hdlr", 4); setName(""); } void HDLR::setSize(uint32_t newSize){ setInt32(newSize,0); } uint32_t HDLR::getSize(){ return getInt32(0); } void HDLR::setPreDefined(uint32_t newPreDefined){ setInt32(newPreDefined,4); } uint32_t HDLR::getPreDefined(){ return getInt32(4); } void HDLR::setHandlerType(uint32_t newHandlerType){ setInt32(newHandlerType, 8); } uint32_t HDLR::getHandlerType(){ return getInt32(8); } void HDLR::setName(std::string newName){ setString(newName, 24); } std::string HDLR::getName(){ return getString(24); } std::string HDLR::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[hdlr] Handler Reference (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "PreDefined: " << getPreDefined() << std::endl; r << std::string(indent + 1, ' ') << "HandlerType: " << (char)((getHandlerType() & 0xFF000000) >> 24) << (char)((getHandlerType() & 0x00FF0000) >> 16) << (char)((getHandlerType() & 0x0000FF00) >> 8) << (char)(getHandlerType() & 0x000000FF) << std::endl; r << std::string(indent + 1, ' ') << "Name: " << getName() << std::endl; return r.str(); } //Note: next 4 headers inherit from fullBox, start at byte 4. VMHD::VMHD(){ memcpy(data + 4, "vmhd", 4); setGraphicsMode(0); setOpColor(0,0); setOpColor(0,1); setOpColor(0,2); } void VMHD::setGraphicsMode(uint16_t newGraphicsMode){ setInt16(newGraphicsMode,4); } uint16_t VMHD::getGraphicsMode(){ return getInt16(4); } uint32_t VMHD::getOpColorCount(){ return 3; } void VMHD::setOpColor(uint16_t newOpColor, size_t index){ if (index <3){ setInt16(newOpColor, 6 + (2 * index)); } } uint16_t VMHD::getOpColor(size_t index){ if (index < 3){ return getInt16(6 + (index * 2)); }else{ return 0; } } std::string VMHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[vmhd] Video Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "GraphicsMode: " << getGraphicsMode() << std::endl; for (int i = 0; i < getOpColorCount(); i++){ r << std::string(indent + 1, ' ') << "OpColor["< getEntryCount()){ int amount = index + 1 - getEntryCount(); if ( !reserve(payloadOffset + offset, 0, amount * 8)){ return; } for (int j = 0; j < amount; ++j){ memcpy(data + payloadOffset + offset + j * 8, "\000\000\000\010erro", 8); } setInt32(index + 1, 4); offset += (index - i) * 8; } setBox(newDataEntry, offset); } Box & DREF::getDataEntry(size_t index){ uint32_t offset = 8; if (index > getEntryCount()){ static Box res; return (Box &)res; } for (int i=0; i < index; i++){ offset += getBoxLen(offset); } return (Box &)getBox(offset); } std::string DREF::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[dref] Data Reference Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int32_t i = 0; i< getEntryCount(); i++){ r << getDataEntry(i).toPrettyString(indent+1); } return r.str(); } MVHD::MVHD(char v, uint32_t f){ memcpy(data + 4, "mvhd", 4); setVersion(v); setFlags(f); setCreationTime(0); setModificationTime(0); setTimeScale(1000); setDuration(0); setRate(0x00010000); setVolume(0x0100); setMatrix(0x40000000,0); setMatrix(0x00010000,4); setMatrix(0x00010000,8); setTrackID(1); } void MVHD::setCreationTime(uint64_t newCreationTime){ if (getVersion() == 0){ setInt32((uint32_t) newCreationTime, 4); }else{ setInt64(newCreationTime, 4); } } uint64_t MVHD::getCreationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(4); }else{ return getInt64(4); } } void MVHD::setModificationTime(uint64_t newModificationTime){ if (getVersion() == 0){ setInt32((uint32_t) newModificationTime, 8); }else{ setInt64(newModificationTime, 12); } } uint64_t MVHD::getModificationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(8); }else{ return getInt64(12); } } void MVHD::setTimeScale(uint32_t newTimeScale){ if (getVersion() == 0){ setInt32((uint32_t) newTimeScale, 12); }else{ setInt32(newTimeScale, 20); } } uint32_t MVHD::getTimeScale(){ if (getVersion() == 0){ return getInt32(12); }else{ return getInt32(20); } } void MVHD::setDuration(uint64_t newDuration){ if (getVersion() == 0){ setInt32((uint32_t) newDuration, 16); }else{ setInt64(newDuration, 24); } } uint64_t MVHD::getDuration(){ if (getVersion() == 0){ return (uint64_t)getInt32(16); }else{ return getInt64(24); } } void MVHD::setRate(uint32_t newRate){ if (getVersion() == 0){ setInt32( newRate, 20); }else{ setInt32(newRate, 32); } } uint32_t MVHD::getRate(){ if (getVersion() == 0){ return getInt32(20); }else{ return getInt32(32); } } void MVHD::setVolume(uint16_t newVolume){ if (getVersion() == 0){ setInt16(newVolume, 24); }else{ setInt16(newVolume, 36); } } uint16_t MVHD::getVolume(){ if (getVersion() == 0){ return getInt16(24); }else{ return getInt16(36); } } //10 bytes reserverd in between uint32_t MVHD::getMatrixCount(){ return 9; } void MVHD::setMatrix(int32_t newMatrix, size_t index){ int offset = 0; if (getVersion() == 0){ offset = 24 + 2 + 10; }else{ offset = 36 + 2 + 10; } setInt32(newMatrix, offset + index * 4); } int32_t MVHD::getMatrix(size_t index){ int offset = 0; if (getVersion() == 0){ offset = 24 + 2 + 10; }else{ offset = 36 + 2 + 10; } return getInt32(offset + index * 4); } //24 bytes of pre-defined in between void MVHD::setTrackID(uint32_t newTrackID){ if (getVersion() == 0){ setInt32(newTrackID, 86); }else{ setInt32(newTrackID, 98); } } uint32_t MVHD::getTrackID(){ if (getVersion() == 0){ return getInt32(86); }else{ return getInt32(98); } } std::string MVHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[mvhd] Movie Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TimeScale: " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Rate: " << getRate() << std::endl; r << std::string(indent + 1, ' ') << "Volume: " << getVolume() << std::endl; r << std::string(indent + 1, ' ') << "Matrix: "; for (int32_t i = 0; i< getMatrixCount(); i++){ r << getMatrix(i); if (i!=getMatrixCount()-1){ r << ", "; } } r << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; return r.str(); } TFRA::TFRA(){ memcpy(data + 4, "dref", 4); } //note, fullbox starts at byte 4 void TFRA::setTrackID(uint32_t newTrackID){ setInt32(newTrackID, 4); } uint32_t TFRA::getTrackID(){ getInt32(4); } void TFRA::setLengthSizeOfTrafNum(char newVal){ char part = getInt8(11); setInt8(((newVal & 0x03)<<4) + (part & 0xCF),11); } char TFRA::getLengthSizeOfTrafNum(){ return (getInt8(11)>>4) & 0x03; } void TFRA::setLengthSizeOfTrunNum(char newVal){ char part = getInt8(11); setInt8(((newVal & 0x03)<<2) + (part & 0xF3),11); } char TFRA::getLengthSizeOfTrunNum(){ return (getInt8(11)>>2) & 0x03; } void TFRA::setLengthSizeOfSampleNum(char newVal){ char part = getInt8(11); setInt8(((newVal & 0x03)) + (part & 0xFC),11); } char TFRA::getLengthSizeOfSampleNum(){ return (getInt8(11)) & 0x03; } void TFRA::setNumberOfEntry(uint32_t newNumberOfEntry){ setInt32(newNumberOfEntry,12); } uint32_t TFRA::getNumberOfEntry(){ return getInt32(12); } uint32_t TFRA::getTFRAEntrySize(){ int EntrySize= (getVersion()==1 ? 16 : 8); EntrySize += getLengthSizeOfTrafNum()+1; EntrySize += getLengthSizeOfTrunNum()+1; EntrySize += getLengthSizeOfSampleNum()+1; return EntrySize; } void TFRA::setTFRAEntry(TFRAEntry newTFRAEntry, uint32_t no){ if (no + 1 > getNumberOfEntry()){//if a new entry is issued uint32_t offset = 16 + getTFRAEntrySize() * getNumberOfEntry();//start of filler in bytes uint32_t fillsize = (no + 1 - getNumberOfEntry())*getTFRAEntrySize();//filler in bytes if ( !reserve(offset, 0, fillsize)){//filling space return; } setNumberOfEntry(no+1); } uint32_t loc = 16 + no * getTFRAEntrySize(); if (getVersion() == 1){ setInt64(newTFRAEntry.time, loc); setInt64(newTFRAEntry.moofOffset, loc+8); loc += 16; }else{ setInt32(newTFRAEntry.time, loc); setInt32(newTFRAEntry.moofOffset, loc+4); loc += 8; } switch (getLengthSizeOfTrafNum()){ case 0: setInt8(newTFRAEntry.trafNumber, loc); break; case 1: setInt16(newTFRAEntry.trafNumber, loc); break; case 2: setInt24(newTFRAEntry.trafNumber, loc); break; case 3: setInt32(newTFRAEntry.trafNumber, loc); break; } loc += getLengthSizeOfTrafNum() + 1; switch (getLengthSizeOfTrunNum()){ case 0: setInt8(newTFRAEntry.trunNumber, loc); break; case 1: setInt16(newTFRAEntry.trunNumber, loc); break; case 2: setInt24(newTFRAEntry.trunNumber, loc); break; case 3: setInt32(newTFRAEntry.trunNumber, loc); break; } loc += getLengthSizeOfTrunNum() + 1; switch (getLengthSizeOfSampleNum()){ case 0: setInt8(newTFRAEntry.sampleNumber, loc); break; case 1: setInt16(newTFRAEntry.sampleNumber, loc); break; case 2: setInt24(newTFRAEntry.sampleNumber, loc); break; case 3: setInt32(newTFRAEntry.sampleNumber, loc); break; } } TFRAEntry & TFRA::getTFRAEntry(uint32_t no){ static TFRAEntry retval; if (no >= getNumberOfEntry()){ static TFRAEntry inval; return inval; } uint32_t loc = 16 + no * getTFRAEntrySize(); if (getVersion() == 1){ retval.time = getInt64(loc); retval.moofOffset = getInt64(loc + 8); loc += 16; }else{ retval.time = getInt32(loc); retval.moofOffset = getInt32(loc + 4); loc += 8; } switch (getLengthSizeOfTrafNum()){ case 0: retval.trafNumber = getInt8(loc); break; case 1: retval.trafNumber = getInt16(loc); break; case 2: retval.trafNumber = getInt24(loc); break; case 3: retval.trafNumber = getInt32(loc); break; } loc += getLengthSizeOfTrafNum() + 1; switch (getLengthSizeOfTrunNum()){ case 0: retval.trunNumber = getInt8(loc); break; case 1: retval.trunNumber = getInt16(loc); break; case 2: retval.trunNumber = getInt24(loc); break; case 3: retval.trunNumber = getInt32(loc); break; } loc += getLengthSizeOfTrunNum() + 1; switch (getLengthSizeOfSampleNum()){ case 0: retval.sampleNumber = getInt8(loc); break; case 1: retval.sampleNumber = getInt16(loc); break; case 2: retval.sampleNumber = getInt24(loc); break; case 3: retval.sampleNumber = getInt32(loc); break; } return retval; } std::string TFRA::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[tfra] Track Fragment Random Access Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfTrafNum: " << (int)getLengthSizeOfTrafNum() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfTrunNum: " << (int)getLengthSizeOfTrunNum() << std::endl; r << std::string(indent + 1, ' ') << "lengthSizeOfSampleNum: " << (int)getLengthSizeOfSampleNum() << std::endl; r << std::string(indent + 1, ' ') << "NumberOfEntry: " << getNumberOfEntry() << std::endl; for (int i = 0; i < getNumberOfEntry(); i++){ static TFRAEntry temp; temp = getTFRAEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i <<"]:"<< std::endl; r << std::string(indent + 2, ' ') << "Time: " << temp.time << std::endl; r << std::string(indent + 2, ' ') << "MoofOffset: " << temp.moofOffset << std::endl; r << std::string(indent + 2, ' ') << "TrafNumber: " << temp.trafNumber << std::endl; r << std::string(indent + 2, ' ') << "TrunNumber: " << temp.trunNumber << std::endl; r << std::string(indent + 2, ' ') << "SampleNumber: " << temp.sampleNumber << std::endl; } return r.str(); } TKHD::TKHD(char v, uint32_t f){ memcpy(data + 4, "tkhd", 4); setVersion(v); setFlags(f); setCreationTime(0); setModificationTime(0); setTrackID(0); setDuration(0); setLayer(0); setAlternateGroup(0); setVolume(0x0100); setMatrix(0x00010000,0); setMatrix(0x00010000,4); //fills automatically with zero's setMatrix(0x40000000,8); setWidth(0); setHeight(0); } void TKHD::setCreationTime(uint64_t newCreationTime){ if (getVersion() == 0){ setInt32((uint32_t) newCreationTime, 4); }else{ setInt64(newCreationTime, 4); } } uint64_t TKHD::getCreationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(4); }else{ return getInt64(4); } } void TKHD::setModificationTime(uint64_t newModificationTime){ if (getVersion() == 0){ setInt32((uint32_t) newModificationTime, 8); }else{ setInt64(newModificationTime, 12); } } uint64_t TKHD::getModificationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(8); }else{ return getInt64(12); } } void TKHD::setTrackID(uint32_t newTrackID){ if (getVersion() == 0){ setInt32((uint32_t) newTrackID, 12); }else{ setInt32(newTrackID, 20); } } uint32_t TKHD::getTrackID(){ if (getVersion() == 0){ return getInt32(12); }else{ return getInt32(20); } } //note 4 bytes reserved in between void TKHD::setDuration(uint64_t newDuration){ if (getVersion() == 0){ setInt32(newDuration, 20); }else{ setInt64(newDuration, 28); } } uint64_t TKHD::getDuration(){ if (getVersion() == 0){ return (uint64_t)getInt32(20); }else{ return getInt64(28); } } //8 bytes reserved in between void TKHD::setLayer(uint16_t newLayer){ if (getVersion() == 0){ setInt16(newLayer, 32); }else{ setInt16(newLayer, 44); } } uint16_t TKHD::getLayer(){ if (getVersion() == 0){ return getInt16(32); }else{ return getInt16(44); } } void TKHD::setAlternateGroup(uint16_t newAlternateGroup){ if (getVersion() == 0){ setInt16(newAlternateGroup, 34); }else{ setInt16(newAlternateGroup, 46); } } uint16_t TKHD::getAlternateGroup(){ if (getVersion() == 0){ return getInt16(34); }else{ return getInt16(46); } } void TKHD::setVolume(uint16_t newVolume){ if (getVersion() == 0){ setInt16(newVolume, 36); }else{ setInt16(newVolume, 48); } } uint16_t TKHD::getVolume(){ if (getVersion() == 0){ return getInt16(36); }else{ return getInt16(48); } } //2 bytes reserved in between uint32_t TKHD::getMatrixCount(){ return 9; } void TKHD::setMatrix(int32_t newMatrix, size_t index){ int offset = 0; if (getVersion() == 0){ offset = 36 + 2 + 2; }else{ offset = 48 + 2 + 2; } setInt32(newMatrix, offset + index * 4); } int32_t TKHD::getMatrix(size_t index){ int offset = 0; if (getVersion() == 0){ offset = 36 + 2 + 2; }else{ offset = 48 + 2 + 2; } return getInt32(offset + index * 4); } void TKHD::setWidth(uint32_t newWidth){ if (getVersion() == 0){ setInt32(newWidth, 76); }else{ setInt32(newWidth, 88); } } uint32_t TKHD::getWidth(){ if (getVersion() == 0){ return getInt32(76); }else{ return getInt32(88); } } void TKHD::setHeight(uint32_t newHeight){ if (getVersion() == 0){ setInt32(newHeight, 80); }else{ setInt32(newHeight, 92); } } uint32_t TKHD::getHeight(){ if (getVersion() == 0){ return getInt32(80); }else{ return getInt32(92); } } std::string TKHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[tkhd] Track Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TrackID: " << getTrackID() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Layer: " << getLayer() << std::endl; r << std::string(indent + 1, ' ') << "AlternateGroup: " << getAlternateGroup() << std::endl; r << std::string(indent + 1, ' ') << "Volume: " << getVolume() << std::endl; r << std::string(indent + 1, ' ') << "Matrix: "; for (int32_t i = 0; i< getMatrixCount(); i++){ r << getMatrix(i); if (i!=getMatrixCount()-1){ r << ", "; } } r << std::endl; r << std::string(indent + 1, ' ') << "Width: " << (getWidth() >> 16) << "." << (getWidth() & 0xFFFF) << std::endl; r << std::string(indent + 1, ' ') << "Height: " << (getHeight() >> 16) << "." << (getHeight() & 0xFFFF) << std::endl; return r.str(); } MDHD::MDHD(char v, uint32_t f){ memcpy(data + 4, "mdhd", 4); setVersion(v); setFlags(f); setCreationTime(0); setModificationTime(0); setTimeScale(1000); setDuration(0); setLanguage(0); if (v==0){ setInt16(0,22); }else{ setInt16(0,34); } } void MDHD::setCreationTime(uint64_t newCreationTime){ if (getVersion() == 0){ setInt32((uint32_t) newCreationTime, 4); }else{ setInt64(newCreationTime, 4); } } uint64_t MDHD::getCreationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(4); }else{ return getInt64(4); } } void MDHD::setModificationTime(uint64_t newModificationTime){ if (getVersion() == 0){ setInt32((uint32_t) newModificationTime, 8); }else{ setInt64(newModificationTime, 12); } } uint64_t MDHD::getModificationTime(){ if (getVersion() == 0){ return (uint64_t)getInt32(8); }else{ return getInt64(12); } } void MDHD::setTimeScale(uint32_t newTimeScale){ if (getVersion() == 0){ setInt32((uint32_t) newTimeScale, 12); }else{ setInt32(newTimeScale, 20); } } uint32_t MDHD::getTimeScale(){ if (getVersion() == 0){ return getInt32(12); }else{ return getInt32(20); } } void MDHD::setDuration(uint64_t newDuration){ if (getVersion() == 0){ setInt32((uint32_t) newDuration, 16); }else{ setInt64(newDuration, 24); } } uint64_t MDHD::getDuration(){ if (getVersion() == 0){ return (uint64_t)getInt32(16); }else{ return getInt64(24); } } void MDHD::setLanguage (uint16_t newLanguage){ if (getVersion() == 0){ setInt16(newLanguage & 0x7F, 20); }else{ setInt16(newLanguage & 0x7F, 32); } } uint16_t MDHD::getLanguage(){ if (getVersion() == 0){ return getInt16(20) & 0x7F; }else{ return getInt16(32) & 0x7F; } } std::string MDHD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[mdhd] Media Header Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "CreationTime: " << getCreationTime() << std::endl; r << std::string(indent + 1, ' ') << "ModificationTime: " << getModificationTime() << std::endl; r << std::string(indent + 1, ' ') << "TimeScale: " << getTimeScale() << std::endl; r << std::string(indent + 1, ' ') << "Duration: " << getDuration() << std::endl; r << std::string(indent + 1, ' ') << "Language: 0x" << std::hex << getLanguage() << std::dec<< std::endl; return r.str(); } STTS::STTS(char v, uint32_t f){ memcpy(data + 4, "stts", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STTS::setEntryCount(uint32_t newEntryCount){ setInt32(newEntryCount, 4); } uint32_t STTS::getEntryCount(){ return getInt32(4); } void STTS::setSTTSEntry(STTSEntry newSTTSEntry, uint32_t no){ if(no + 1 > getEntryCount()){ setEntryCount(no + 1); for (int i = getEntryCount(); i < no; i++){ setInt64(0, 8 + (i * 8));//filling up undefined entries of 64 bits } } setInt32(newSTTSEntry.sampleCount, 8 + no * 8); setInt32(newSTTSEntry.sampleDelta, 8 + (no * 8) + 4); } STTSEntry STTS::getSTTSEntry(uint32_t no){ static STTSEntry retval; if (no >= getEntryCount()){ static STTSEntry inval; return inval; } retval.sampleCount = getInt32(8 + (no * 8)); retval.sampleDelta = getInt32(8 + (no * 8) + 4); return retval; } std::string STTS::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stts] Sample Table Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int i = 0; i < getEntryCount(); i++){ static STTSEntry temp; temp = getSTTSEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i <<"]:"<< std::endl; r << std::string(indent + 2, ' ') << "SampleCount: " << temp.sampleCount << std::endl; r << std::string(indent + 2, ' ') << "SampleDelta: " << temp.sampleDelta << std::endl; } return r.str(); } CTTS::CTTS(){ memcpy(data + 4, "ctts", 4); } void CTTS::setEntryCount(uint32_t newEntryCount){ setInt32(newEntryCount, 4); } uint32_t CTTS::getEntryCount(){ return getInt32(4); } void CTTS::setCTTSEntry(CTTSEntry newCTTSEntry, uint32_t no){ if(no + 1 > getEntryCount()){ for (int i = getEntryCount(); i < no; i++){ setInt64(0, 8 + (i * 8));//filling up undefined entries of 64 bits } } setInt32(newCTTSEntry.sampleCount, 8 + no * 8); setInt32(newCTTSEntry.sampleOffset, 8 + (no * 8) + 4); } CTTSEntry CTTS::getCTTSEntry(uint32_t no){ static CTTSEntry retval; if (no >= getEntryCount()){ static CTTSEntry inval; return inval; } retval.sampleCount = getInt32(8 + (no * 8)); retval.sampleOffset = getInt32(8 + (no * 8) + 4); return retval; } std::string CTTS::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stts] Sample Table Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int i = 0; i < getEntryCount(); i++){ static CTTSEntry temp; temp = getCTTSEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i <<"]:"<< std::endl; r << std::string(indent + 2, ' ') << "SampleCount: " << temp.sampleCount << std::endl; r << std::string(indent + 2, ' ') << "SampleOffset: " << temp.sampleOffset << std::endl; } return r.str(); } STSC::STSC(char v, uint32_t f){ memcpy(data + 4, "stsc", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSC::setEntryCount(uint32_t newEntryCount){ setInt32(newEntryCount, 4); } uint32_t STSC::getEntryCount(){ return getInt32(4); } void STSC::setSTSCEntry(STSCEntry newSTSCEntry, uint32_t no){ if(no + 1 > getEntryCount()){ setEntryCount(no+1); for (int i = getEntryCount(); i < no; i++){ setInt64(0, 8 + (i * 12));//filling up undefined entries of 64 bits setInt32(0, 8 + (i * 12) + 8); } } setInt32(newSTSCEntry.firstChunk, 8 + no * 12); setInt32(newSTSCEntry.samplesPerChunk, 8 + (no * 12) + 4); setInt32(newSTSCEntry.sampleDescriptionIndex, 8 + (no * 12) + 8); } STSCEntry STSC::getSTSCEntry(uint32_t no){ static STSCEntry retval; if (no >= getEntryCount()){ static STSCEntry inval; return inval; } retval.firstChunk = getInt32(8 + (no * 12)); retval.samplesPerChunk = getInt32(8 + (no * 12) + 4); retval.sampleDescriptionIndex = getInt32(8 + (no * 12) + 8); return retval; } std::string STSC::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stsc] Sample To Chunk Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int i = 0; i < getEntryCount(); i++){ static STSCEntry temp; temp = getSTSCEntry(i); r << std::string(indent + 1, ' ') << "Entry[" << i <<"]:"<< std::endl; r << std::string(indent + 2, ' ') << "FirstChunk: " << temp.firstChunk << std::endl; r << std::string(indent + 2, ' ') << "SamplesPerChunk: " << temp.samplesPerChunk << std::endl; r << std::string(indent + 2, ' ') << "SampleDescriptionIndex: " << temp.sampleDescriptionIndex << std::endl; } return r.str(); } STCO::STCO(char v, uint32_t f){ memcpy(data + 4, "stco", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STCO::setEntryCount(uint32_t newEntryCount){ setInt32(newEntryCount, 4); } uint32_t STCO::getEntryCount(){ return getInt32(4); } void STCO::setChunkOffset(uint32_t newChunkOffset, uint32_t no){ if (no + 1 > getEntryCount()){ for (int i = getEntryCount(); i < no; i++){ setInt32(0, 8 + i * 4);//filling undefined entries } setEntryCount(no+1); } setInt32(newChunkOffset, 8 + no * 4); } uint32_t STCO::getChunkOffset(uint32_t no){ if (no >= getEntryCount()){ return 0; } return getInt32(8 + no * 4); } std::string STCO::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stco] Chunk Offset Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int i = 0; i < getEntryCount(); i++){ r << std::string(indent + 1, ' ') << "ChunkOffset[" << i <<"]: " << getChunkOffset(i) << std::endl; } return r.str(); } STSZ::STSZ(char v, uint32_t f){ memcpy(data + 4, "stsz", 4); setVersion(v); setFlags(f); setSampleCount(0); } void STSZ::setSampleSize(uint32_t newSampleSize){ setInt32(newSampleSize, 4); } uint32_t STSZ::getSampleSize(){ return getInt32(4); } void STSZ::setSampleCount(uint32_t newSampleCount){ setInt32(newSampleCount, 8); } uint32_t STSZ::getSampleCount(){ return getInt32(8); } void STSZ::setEntrySize(uint32_t newEntrySize, uint32_t no){ if (no + 1 > getSampleCount()){ setSampleCount(no + 1); for (int i = getSampleCount(); i < no; i++){ setInt32(0, 12 + i * 4);//filling undefined entries } } setInt32(newEntrySize, 12 + no * 4); } uint32_t STSZ::getEntrySize(uint32_t no){ if (no >= getSampleCount()){ return 0; } return getInt32(12 + no * 4); } std::string STSZ::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stsz] Sample Size Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "SampleSize: " << getSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "SampleCount: " << getSampleCount() << std::endl; for (int i = 0; i < getSampleCount(); i++){ r << std::string(indent + 1, ' ') << "EntrySize[" << i <<"]: " << getEntrySize(i) << std::endl; } return r.str(); } SampleEntry::SampleEntry(){ memcpy(data + 4, "erro", 4); } void SampleEntry::setDataReferenceIndex(uint16_t newDataReferenceIndex){ setInt16(newDataReferenceIndex, 6); } uint16_t SampleEntry::getDataReferenceIndex(){ return getInt16(6); } std::string SampleEntry::toPrettySampleString(uint32_t indent){ std::stringstream r; r << std::string(indent + 1, ' ') << "DataReferenceIndex: " << getDataReferenceIndex() << std::endl; return r.str(); } CLAP::CLAP(){ memcpy(data + 4, "clap", 4); setHorizOffN(0); setHorizOffD(0); setVertOffN(0); setVertOffD(0); } void CLAP::setCleanApertureWidthN(uint32_t newVal){ setInt32(newVal,0); } uint32_t CLAP::getCleanApertureWidthN(){ return getInt32(0); } void CLAP::setCleanApertureWidthD(uint32_t newVal){ setInt32(newVal,4); } uint32_t CLAP::getCleanApertureWidthD(){ return getInt32(4); } void CLAP::setCleanApertureHeightN(uint32_t newVal){ setInt32(newVal,8); } uint32_t CLAP::getCleanApertureHeightN(){ return getInt32(8); } void CLAP::setCleanApertureHeightD(uint32_t newVal){ setInt32(newVal, 12); } uint32_t CLAP::getCleanApertureHeightD(){ return getInt32(12); } void CLAP::setHorizOffN(uint32_t newVal){ setInt32(newVal, 16); } uint32_t CLAP::getHorizOffN(){ return getInt32(16); } void CLAP::setHorizOffD(uint32_t newVal){ setInt32(newVal, 20); } uint32_t CLAP::getHorizOffD(){ return getInt32(20); } void CLAP::setVertOffN(uint32_t newVal){ setInt32(newVal, 24); } uint32_t CLAP::getVertOffN(){ return getInt32(24); } void CLAP::setVertOffD(uint32_t newVal){ setInt32(newVal, 28); } uint32_t CLAP::getVertOffD(){ return getInt32(32); } std::string CLAP::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[clap] Clean Aperture Box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureWidthN: " << getCleanApertureWidthN() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureWidthD: " << getCleanApertureWidthD() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureHeightN: " << getCleanApertureHeightN() << std::endl; r << std::string(indent + 1, ' ') << "CleanApertureHeightD: " << getCleanApertureHeightD() << std::endl; r << std::string(indent + 1, ' ') << "HorizOffN: " << getHorizOffN() << std::endl; r << std::string(indent + 1, ' ') << "HorizOffD: " << getHorizOffD() << std::endl; r << std::string(indent + 1, ' ') << "VertOffN: " << getVertOffN() << std::endl; r << std::string(indent + 1, ' ') << "VertOffD: " << getVertOffD() << std::endl; return r.str(); } PASP::PASP(){ memcpy(data + 4, "pasp", 4); } void PASP::setHSpacing(uint32_t newVal){ setInt32(newVal, 0); } uint32_t PASP::getHSpacing(){ return getInt32(0); } void PASP::setVSpacing(uint32_t newVal){ setInt32(newVal, 4); } uint32_t PASP::getVSpacing(){ return getInt32(4); } std::string PASP::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[pasp] Pixel Aspect Ratio Box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "HSpacing: " << getHSpacing() << std::endl; r << std::string(indent + 1, ' ') << "VSpacing: " << getVSpacing() << std::endl; return r.str(); } VisualSampleEntry::VisualSampleEntry(){ memcpy(data + 4, "erro", 4); setHorizResolution(0x00480000); setVertResolution(0x00480000); setFrameCount(1); setCompressorName(""); setDepth(0x0018); } void VisualSampleEntry::setCodec(char* newCodec){ memcpy(data + 4, newCodec, 4); } void VisualSampleEntry::setWidth(uint16_t newWidth){ setInt16(newWidth,24); } uint16_t VisualSampleEntry::getWidth(){ return getInt16(24); } void VisualSampleEntry::setHeight(uint16_t newHeight){ setInt16(newHeight, 26); } uint16_t VisualSampleEntry::getHeight(){ return getInt16(26); } void VisualSampleEntry::setHorizResolution (uint32_t newHorizResolution){ setInt32(newHorizResolution, 28); } uint32_t VisualSampleEntry::getHorizResolution(){ return getInt32(28); } void VisualSampleEntry::setVertResolution (uint32_t newVertResolution){ setInt32(newVertResolution,32); } uint32_t VisualSampleEntry::getVertResolution(){ return getInt32(32); } void VisualSampleEntry::setFrameCount(uint16_t newFrameCount){ setInt16(newFrameCount, 40); } uint16_t VisualSampleEntry::getFrameCount(){ return getInt16(40); } void VisualSampleEntry::setCompressorName(std::string newCompressorName){ setString(newCompressorName,42); } std::string VisualSampleEntry::getCompressorName(){ return getString(42); } void VisualSampleEntry::setDepth(uint16_t newDepth){ setInt16(newDepth, 74); } uint16_t VisualSampleEntry::getDepth(){ getInt16(74); } void VisualSampleEntry::setCLAP(Box& clap){ setBox(clap,78); } Box & VisualSampleEntry::getCLAP(){ static Box ret = Box((char*)"\000\000\000\010erro", false); if(payloadSize() <84){//if the EntryBox is not big enough to hold a CLAP/PASP return ret; } return getBox(78); } Box & VisualSampleEntry::getPASP(){ static Box ret = Box((char*)"\000\000\000\010erro", false); if(payloadSize() <84){//if the EntryBox is not big enough to hold a CLAP/PASP return ret; } if (payloadSize() < 78 + getBoxLen(78) + 8){ return ret; }else{ return getBox(78+getBoxLen(78)); } } std::string VisualSampleEntry::toPrettyVisualString(uint32_t indent, std::string name){ std::stringstream r; r << std::string(indent, ' ') << name << " (" << boxedSize() << ")" << std::endl; r << toPrettySampleString(indent); r << std::string(indent + 1, ' ') << "Width: " << getWidth() << std::endl; r << std::string(indent + 1, ' ') << "Height: " << getHeight() << std::endl; r << std::string(indent + 1, ' ') << "HorizResolution: " << getHorizResolution() << std::endl; r << std::string(indent + 1, ' ') << "VertResolution: " << getVertResolution() << std::endl; r << std::string(indent + 1, ' ') << "FrameCount: " << getFrameCount() << std::endl; r << std::string(indent + 1, ' ') << "CompressorName: " << getCompressorName() << std::endl; r << std::string(indent + 1, ' ') << "Depth: " << getDepth() << std::endl; if (!getCLAP().isType("erro")){ r << getCLAP().toPrettyString(indent+1); } if (!getPASP().isType("erro")){ r << getPASP().toPrettyString(indent+1); } return r.str(); } AudioSampleEntry::AudioSampleEntry(){ memcpy(data + 4, "erro", 4); setChannelCount(2); setSampleSize(16); setSampleRate(44100); } void AudioSampleEntry::setCodec(char* newCodec){ memcpy(data + 4, newCodec, 4); } void AudioSampleEntry::setChannelCount(uint16_t newChannelCount){ setInt16(newChannelCount,16); } uint16_t AudioSampleEntry::getChannelCount(){ return getInt16(16); } void AudioSampleEntry::setSampleSize(uint16_t newSampleSize){ setInt16(newSampleSize,18); } uint16_t AudioSampleEntry::getSampleSize(){ return getInt16(18); } void AudioSampleEntry::setPreDefined(uint16_t newPreDefined){ setInt16(newPreDefined,20); } uint16_t AudioSampleEntry::getPreDefined(){ return getInt16(20); } void AudioSampleEntry::setSampleRate(uint32_t newSampleRate){ setInt32(newSampleRate << 16, 24); } uint32_t AudioSampleEntry::getSampleRate(){ return getInt32(24) >> 16; } void AudioSampleEntry::setCodecBox(Box& newBox){ setBox(newBox, 28); } Box & AudioSampleEntry::getCodecBox(){ return getBox(28); } std::string AudioSampleEntry::toPrettyAudioString(uint32_t indent, std::string name){ std::stringstream r; r << std::string(indent, ' ') << name << " (" << boxedSize() << ")" << std::endl; r << toPrettySampleString(indent); r << std::string(indent + 1, ' ') << "ChannelCount: " << getChannelCount() << std::endl; r << std::string(indent + 1, ' ') << "SampleSize: " << getSampleSize() << std::endl; r << std::string(indent + 1, ' ') << "PreDefined: " << getPreDefined() << std::endl; r << std::string(indent + 1, ' ') << "SampleRate: " << getSampleRate() << std::endl; r << getCodecBox().toPrettyString(indent + 1) << std::endl; return r.str(); } MP4A::MP4A(){ memcpy(data + 4, "mp4a", 4); } std::string MP4A::toPrettyString(uint32_t indent){ return toPrettyAudioString(indent, "[mp4a] MPEG-4 Audio"); } AAC::AAC(){ memcpy(data + 4, "aac ", 4); } std::string AAC::toPrettyString(uint32_t indent){ return toPrettyAudioString(indent, "[aac ] Advanced Audio Codec"); } AVC1::AVC1(){ memcpy(data + 4, "avc1", 4); } std::string AVC1::toPrettyString(uint32_t indent){ return toPrettyVisualString(indent, "[avc1] Advanced Video Codec 1"); } H264::H264(){ memcpy(data + 4, "h264", 4); } std::string H264::toPrettyString(uint32_t indent){ return toPrettyVisualString(indent, "[h264] H.264/MPEG-4 AVC"); } STSD::STSD(char v, uint32_t f){ memcpy(data + 4, "stsd", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSD::setEntryCount (uint32_t newEntryCount){ setInt32(newEntryCount, 4); } uint32_t STSD::getEntryCount(){ return getInt32(4); } void STSD::setEntry(Box & newContent, uint32_t no){ int tempLoc = 8; int entryCount = getEntryCount(); for (int i = 0; i < no; i++){ if (i < entryCount){ tempLoc += getBoxLen(tempLoc); }else{ if ( !reserve(tempLoc, 0, (no - entryCount) * 8)){ return; } memset(data + tempLoc, 0, (no - entryCount) * 8); tempLoc += (no - entryCount) * 8; break; } } setBox(newContent, tempLoc); if (getEntryCount() < no+1){ setEntryCount(no+1); } } Box & STSD::getEntry(uint32_t no){ static Box ret = Box((char*)"\000\000\000\010erro", false); if (no > getEntryCount()){ return ret; } int i = 0; int tempLoc = 8; while (i < no){ tempLoc += getBoxLen(tempLoc); i++; } return getBox(tempLoc); } std::string STSD::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stsd] Sample Description Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntrySize: " << getEntryCount() << std::endl; Box curBox; int tempLoc = 0; int contentCount = getEntryCount(); for (int i = 0; i < contentCount; i++){ curBox = getEntry(i); r << curBox.toPrettyString(indent + 1); tempLoc += getBoxLen(tempLoc); } return r.str(); } EDTS::EDTS(){ memcpy(data + 4, "edts", 4); } std::string EDTS::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[edts] Edit Box")); } UDTA::UDTA(){ memcpy(data + 4, "udta", 4); } std::string UDTA::toPrettyString(uint32_t indent){ return toPrettyContainerString(indent, std::string("[udta] User Data Box")); } STSS::STSS(char v, uint32_t f){ memcpy(data + 4, "stss", 4); setVersion(v); setFlags(f); setEntryCount(0); } void STSS::setEntryCount(uint32_t newVal){ setInt32(newVal, 4); } uint32_t STSS::getEntryCount(){ getInt32(4); } void STSS::setSampleNumber(uint32_t newVal, uint32_t index){ if (index >= getEntryCount()){ setEntryCount(index + 1); } setInt32(newVal, 8 + (index * 4)); } uint32_t STSS::getSampleNumber(uint32_t index){ if (index >= getEntryCount()){ return 0; } return getInt32(8 + (index * 4)); } std::string STSS::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[stss] Sync Sample Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "EntryCount: " << getEntryCount() << std::endl; for (int i = 0; i < getEntryCount(); i++){ r << std::string(indent + 1, ' ') << "SampleNumber[" << i <<"] : " << getSampleNumber(i) << std::endl; } return r.str(); } META::META(){ memcpy(data + 4, "meta", 4); } std::string META::toPrettyString(uint32_t indent){ return toPrettyCFBString(indent, "[meta] Meta Box"); } ELST::ELST(){ memcpy(data + 4, "elst", 4); } void ELST::setSegmentDuration(uint64_t newVal){ if (getVersion() == 1){ setInt64(newVal, 4); }else{ setInt32(newVal, 4); } } uint64_t ELST::getSegmentDuration(){ if (getVersion() == 1){ return getInt64(4); }else{ return getInt32(4); } } void ELST::setMediaTime(uint64_t newVal){ if (getVersion() == 1){ setInt64(newVal, 12); }else{ setInt32(newVal, 8); } } uint64_t ELST::getMediaTime(){ if (getVersion() == 1){ return getInt64(12); }else{ return getInt32(8); } } void ELST::setMediaRateInteger(uint16_t newVal){ if (getVersion() == 1){ setInt16(newVal, 20); }else{ setInt16(newVal, 12); } } uint16_t ELST::getMediaRateInteger(){ if (getVersion() == 1){ return getInt16(20); }else{ return getInt16(12); } } void ELST::setMediaRateFraction(uint16_t newVal){ if (getVersion() == 1){ setInt16(newVal, 22); }else{ setInt16(newVal, 14); } } uint16_t ELST::getMediaRateFraction(){ if (getVersion() == 1){ return getInt16(22); }else{ return getInt16(14); } } std::string ELST::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[elst] Edit List Box (" << boxedSize() << ")" << std::endl; r << fullBox::toPrettyString(indent); r << std::string(indent + 1, ' ') << "SegmentDuration: " << getSegmentDuration() << std::endl; r << std::string(indent + 1, ' ') << "MediaTime: " << getMediaTime() << std::endl; r << std::string(indent + 1, ' ') << "MediaRateInteger: " << getMediaRateInteger() << std::endl; r << std::string(indent + 1, ' ') << "MediaRateFraction: " << getMediaRateFraction() << std::endl; return r.str(); } static char c2hex(int c){ if (c >= '0' && c <= '9') return c - '0'; if (c >= 'a' && c <= 'f') return c - 'a' + 10; if (c >= 'A' && c <= 'F') return c - 'A' + 10; return 0; } UUID::UUID(){ memcpy(data + 4, "uuid", 4); setInt64(0, 0); setInt64(0, 8); } std::string UUID::getUUID(){ std::stringstream r; r << std::hex; for (int i = 0; i < 16; ++i){ if (i == 4 || i == 6 || i == 8 || i == 10){ r << "-"; } r << std::setfill('0') << std::setw(2) << std::right << (int)(data[8+i]); } return r.str(); } void UUID::setUUID(const std::string & uuid_string){ //reset UUID to zero for (int i = 0; i < 4; ++i){ ((uint32_t*)(data+8))[i] = 0; } //set the UUID from the string, char by char int i = 0; for (size_t j = 0; j < uuid_string.size(); ++j){ if (uuid_string[j] == '-'){ continue; } data[8+i/2] |= (c2hex(uuid_string[j]) << ((~i & 1) << 2)); ++i; } } void UUID::setUUID(const char * raw_uuid){ memcpy(data+8, raw_uuid, 16); } std::string UUID::toPrettyString(uint32_t indent){ std::string UUID = getUUID(); if (UUID == "d4807ef2-ca39-4695-8e54-26cb9e46a79f"){ return ((UUID_TrackFragmentReference*)this)->toPrettyString(indent); } std::stringstream r; r << std::string(indent, ' ') << "[uuid] Extension box (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "UUID: " << UUID << std::endl; r << std::string(indent + 1, ' ') << "Unknown UUID - ignoring contents." << std::endl; return r.str(); } UUID_TrackFragmentReference::UUID_TrackFragmentReference(){ setUUID((std::string)"d4807ef2-ca39-4695-8e54-26cb9e46a79f"); } void UUID_TrackFragmentReference::setVersion(uint32_t newVersion){ setInt8(newVersion, 16); } uint32_t UUID_TrackFragmentReference::getVersion(){ return getInt8(16); } void UUID_TrackFragmentReference::setFlags(uint32_t newFlags){ setInt24(newFlags, 17); } uint32_t UUID_TrackFragmentReference::getFlags(){ return getInt24(17); } void UUID_TrackFragmentReference::setFragmentCount(uint32_t newCount){ setInt8(newCount, 20); } uint32_t UUID_TrackFragmentReference::getFragmentCount(){ return getInt8(20); } void UUID_TrackFragmentReference::setTime(size_t num, uint64_t newTime){ if (getVersion() == 0){ setInt32(newTime, 21+(num*8)); }else{ setInt64(newTime, 21+(num*16)); } } uint64_t UUID_TrackFragmentReference::getTime(size_t num){ if (getVersion() == 0){ return getInt32(21+(num*8)); }else{ return getInt64(21+(num*16)); } } void UUID_TrackFragmentReference::setDuration(size_t num, uint64_t newDuration){ if (getVersion() == 0){ setInt32(newDuration, 21+(num*8)+4); }else{ setInt64(newDuration, 21+(num*16)+8); } } uint64_t UUID_TrackFragmentReference::getDuration(size_t num){ if (getVersion() == 0){ return getInt32(21+(num*8)+4); }else{ return getInt64(21+(num*16)+8); } } std::string UUID_TrackFragmentReference::toPrettyString(uint32_t indent){ std::stringstream r; r << std::string(indent, ' ') << "[d4807ef2-ca39-4695-8e54-26cb9e46a79f] Track Fragment Reference (" << boxedSize() << ")" << std::endl; r << std::string(indent + 1, ' ') << "Version: " << getVersion() << std::endl; r << std::string(indent + 1, ' ') << "Fragments: " << getFragmentCount() << std::endl; int j = getFragmentCount(); for (int i = 0; i < j; ++i){ r << std::string(indent + 2, ' ') << "[" << i << "] Time = " << getTime(i) << ", Duration = " << getDuration(i) << std::endl; } return r.str(); } }