#include "ogg.h"
#include "defines.h"
#include <string.h>
#include <stdlib.h>
#include <sstream>
#include <arpa/inet.h>
namespace OGG {
inline long long unsigned int get_64(char * data) {
long long unsigned int temp = 0;
for (int i = 7; i >= 0; --i) {
temp <<= 8;
temp += data[i];
}
return temp;
}
inline long unsigned int get_32(char * data) {
long unsigned int temp = 0;
for (int i = 3; i >= 0; --i) {
temp <<= 8;
temp += data[i];
}
return temp;
}
inline void set_64(char * data, long unsigned int val) {
for (int i = 0; i < 8; ++i) {
data[i] = val & 0xFF;
val >>= 8;
}
}
inline void set_32(char * data, long unsigned int val) {
for (int i = 0; i < 4; ++i) {
data[i] = val & 0xFF;
val >>= 8;
}
}
Page::Page() {
data = NULL;
datasize = 0;
dataSum = 0;
}
Page::~Page() {
if (data) {
free(data);
}
}
bool Page::read(std::string & newData) {
segmentTableDeque.clear();
//datasize = 0;
if (newData.size() < 27) {
return false;
}
if (newData.substr(0, 4) != "OggS") {
DEBUG_MSG(DLVL_FAIL, "Invalid Ogg page encountered - cannot continue");
return false;
}
dataSum = 0;
if (!checkDataSize(27)) {
return false;
}
memcpy(data, newData.c_str(), 27);//copying the header, always 27 bytes
if (newData.size() < 27u + getPageSegments()) { //check input size
return false;
}
if (!checkDataSize(27 + getPageSegments())) { //check if size available in memory
return false;
}
memcpy(data + 27, newData.c_str() + 27, getPageSegments());
//copying the first part of the page into data, which tells the size of the page
for (unsigned int i = 0; i < getPageSegments(); i++) {
dataSum += getSegmentTable()[i];
}
if (newData.size() < 27 + getPageSegments() + dataSum) { //check input size
dataSum = 0;
return false;
}
if (!checkDataSize(27 + getPageSegments() + dataSum)) {
dataSum = 0;
return false;
}
memcpy(data + 27 + getPageSegments(), newData.c_str() + 27 + getPageSegments(), dataSum);
newData.erase(0, getPageSize());
return true;
}
bool Page::read(FILE * inFile) {
segmentTableDeque.clear();
int oriPos = ftell(inFile);
dataSum = 0;
if (!checkDataSize(27)) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: memory allocation");
return false;
}
if (!fread(data, 27, 1, inFile)) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: fread");
fseek(inFile, oriPos, SEEK_SET);
return false;
}
if (!checkDataSize(27 + getPageSegments())) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: memory allocation1");
return false;
}
if (!fread(data + 27, getPageSegments(), 1, inFile)) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: fread1");
fseek(inFile, oriPos, SEEK_SET);
return false;
}
for (unsigned int i = 0; i < getPageSegments(); i++) {
dataSum += data[27 + i];
}
if (!checkDataSize(27 + getPageSegments() + dataSum)) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: memory allocation2");
dataSum = 0;
return false;
}
if (!fread(data + 27 + getPageSegments(), dataSum, 1, inFile)) {
DEBUG_MSG(DLVL_WARN, "Unable to read a page: fread2");
fseek(inFile, oriPos, SEEK_SET);
dataSum = 0;
return false;
}
return true;
}
bool Page::getSegment(unsigned int index, char * ret, unsigned int & len) {
if (index > segmentTableDeque.size()) {
ret = NULL;
len = 0;
return false;
}
ret = getFullPayload();
for (unsigned int i = 0; i < index; i++) {
ret += segmentTableDeque[i];
}
len = segmentTableDeque[index];
return true;
}
void Page::setMagicNumber() {
if (checkDataSize(4)) {
memcpy(data, "OggS", 4);
}
}
char Page::getVersion() {
return data[4];
}
void Page::setVersion(char newVal) {
if (checkDataSize(5)) {
data[4] = newVal;
}
}
char Page::getHeaderType() {
return data[5];
}
void Page::setHeaderType(char newVal) {
if (checkDataSize(6)) {
data[5] = newVal;
}
}
long long unsigned int Page::getGranulePosition() {
if (checkDataSize(14)) {
//switching bit order upon return
//return ntohl(((long unsigned*)(data+6))[1]) & ((long long unsigned)((long long unsigned)ntohl(((long unsigned*)(data+6))[0]) << 32));
//long long unsigned int temp;
//temp = ((long unsigned int)(data+6)[0]);
//temp = temp << 32 + ((long unsigned int)(data+6)[1]);
return get_64(data + 6);
}
return 0;
}
void Page::setGranulePosition(long long unsigned int newVal) {
if (checkDataSize(14)) {
set_64(data + 6, newVal);
}
}
long unsigned int Page::getBitstreamSerialNumber() {
//return ntohl(((long unsigned int*)(data+14))[0]);
return get_32(data + 14);
}
void Page::setBitstreamSerialNumber(long unsigned int newVal) {
if (checkDataSize(18)) {
//((long unsigned *)(data+14))[0] = htonl(newVal);
set_32(data + 14, newVal);
}
}
long unsigned int Page::getPageSequenceNumber() {
return get_32(data + 18);
}
void Page::setPageSequenceNumber(long unsigned int newVal) {
if (checkDataSize(22)) {
//((long unsigned *)(data+18))[0] = htonl(newVal);
set_32(data + 18, newVal);
}
}
long unsigned int Page::getCRCChecksum() {
//return ntohl(((long unsigned int*)(data+22))[0]);
return get_32(data + 22);
}
void Page::setCRCChecksum(long unsigned int newVal) {
if (checkDataSize(26)) {
set_32(data + 22, newVal);
}
}
char Page::getPageSegments() {
return data[26];
}
inline void Page::setPageSegments(char newVal) {
if (checkDataSize(26)) {
data[26] = newVal;
}
}
char * Page::getSegmentTable() {
return data + 27;
}
std::deque<unsigned int> & Page::getSegmentTableDeque() {
if (!segmentTableDeque.size()) {
unsigned int temp = 0;
for (unsigned int i = 0; i < getPageSegments(); i++) {
temp += getSegmentTable()[i];
if (getSegmentTable()[i] < 255) {
segmentTableDeque.push_back(temp);
temp = 0;
}
}
if (temp != 0) {
segmentTableDeque.push_back(temp);
}
}
return segmentTableDeque;
}
static void STerrMSG() {
DEBUG_MSG(DLVL_ERROR, "Segment too big, create a continue page");
}
bool Page::setSegmentTable(std::vector<unsigned int> layout) {
dataSum = 0;
for (unsigned int i = 0; i < layout.size(); i++) {
dataSum += layout[i];
}
unsigned int place = 0;
char table[256];
for (unsigned int i = 0; i < layout.size(); i++) {
int amount = (layout[i] / 255) + 1;
if (i == layout.size() - 1 && place + amount > (255 + (layout[i] % 255 == 0))) {
STerrMSG();
return false;
}
memset(table + place, 255, amount - 1);
table[place + amount - 1] = layout[i] % 255;
place += amount;
}
//Don't send element 256, even if it was filled.
if (place > 255) {
place = 255;
}
setPageSegments(place);
setSegmentTable(table, place);
return true;
}
void Page::setSegmentTable(char * newVal, unsigned int length) {
if (checkDataSize(27 + length)) {
memcpy(data + 27, newVal, length);
}
}
unsigned long int Page::getPageSize() {
return 27 + getPageSegments() + dataSum;
}
char * Page::getPage() {
return data;
}
char * Page::getFullPayload() {
return data + 27 + getPageSegments();
}
void Page::setInternalCodec(std::string myCodec) {
codec = myCodec;
}
std::string Page::toPrettyString(size_t indent) {
std::stringstream r;
r << std::string(indent, ' ') << "Ogg page (" << getPageSize() << ")" << std::endl;
r << std::string(indent + 2, ' ') << "Version: " << (int)getVersion() << std::endl;
r << std::string(indent + 2, ' ') << "Header type:";
if (!getHeaderType()) {
r << " Normal";
} else {
if (getHeaderType() & Continued) {
r << " Continued";
}
if (getHeaderType() & BeginOfStream) {
r << " BeginOfStream";
}
if (getHeaderType() & EndOfStream) {
r << " EndOfStream";
}
}
r << " (" << (int)getHeaderType() << ")" << std::endl;
r << std::string(indent + 2, ' ') << "Granule position: " << getGranulePosition() << std::endl;
r << std::string(indent + 2, ' ') << "Bitstream number: " << getBitstreamSerialNumber() << std::endl;
r << std::string(indent + 2, ' ') << "Sequence number: " << getPageSequenceNumber() << std::endl;
r << std::string(indent + 2, ' ') << "Checksum: " << std::hex << getCRCChecksum() << std::dec << std::endl;
//r << " Calced Checksum: " << std::hex << calcChecksum() << std::dec << std::endl;
r << std::string(indent + 2, ' ') << "Payloadsize: " << dataSum << std::endl;
r << std::string(indent + 2, ' ') << (int)getPageSegments() << " segments:" << std::endl;
r << std::string(indent + 3, ' ');
std::deque<unsigned int> temp = getSegmentTableDeque();
for (std::deque<unsigned int>::iterator i = temp.begin(); i != temp.end(); i++) {
r << " " << (*i);
}
r << std::endl;
return r.str();
}
long unsigned int Page::calcChecksum() {
long unsigned int retVal = 0;
long unsigned int oldChecksum = getCRCChecksum();
setCRCChecksum(0);
retVal = checksum::crc32c(0, data, getPageSize());
setCRCChecksum(oldChecksum);
return retVal;
}
inline bool Page::checkDataSize(unsigned int size) {
if (size > datasize) {
void * tmp = realloc(data, size);
if (tmp) {
data = (char *)tmp;
datasize = size;
return true;
} else {
return false;
}
} else {
return true;
}
}
int Page::getPayloadSize() {
return dataSum;
}
bool Page::clear() {
if (!checkDataSize(27)) { //check if size available in memory
return false;
}
memset(data, 0, 27);
dataSum = 0;
codec = "";
setMagicNumber();
segmentTableDeque.clear();
return true;
}
bool Page::setPayload(char * newData, unsigned int length) {
if (!checkDataSize(27 + getPageSegments() + length)) { //check if size available in memory
return false;
}
memcpy(data + 27 + getPageSegments(), newData, length);
return true;
}
void Page::readDTSCVector(std::vector <JSON::Value> DTSCVec, unsigned int serial, unsigned int sequence) {
clear();
setVersion();
if (DTSCVec[0]["OggCont"]) {//if it is a continue page, also for granule=0xFFFFFFFF
setHeaderType(1);//headertype 1 = Continue Page
} else if (DTSCVec[0]["OggEOS"]) {
setHeaderType(4);//headertype 4 = end of stream
} else {
setHeaderType(0);//headertype 0 = normal
}
setGranulePosition(DTSCVec[0]["granule"].asInt());
for (unsigned int i = 1; i < DTSCVec.size(); i++) {
if (DTSCVec[0]["granule"].asInt() != DTSCVec[i]["granule"].asInt()) {
DEBUG_MSG(DLVL_WARN, "Granule inconcistency!! %u != %u", (unsigned int)DTSCVec[0]["granule"].asInt(), (unsigned int)DTSCVec[i]["granule"].asInt());
}
if (DTSCVec[0]["trackid"].asInt() != DTSCVec[i]["trackid"].asInt()) {
DEBUG_MSG(DLVL_WARN, "Track ID inconcistency!! %u != %u", (unsigned int)DTSCVec[0]["trackid"].asInt(), (unsigned int)DTSCVec[i]["trackid"].asInt());
}
}
setBitstreamSerialNumber(serial);
setPageSequenceNumber(sequence);
std::vector<unsigned int> curSegTable;
std::string pageBuffer;
for (unsigned int i = 0; i < DTSCVec.size(); i++) {
curSegTable.push_back(DTSCVec[i]["data"].asString().size());
pageBuffer += DTSCVec[i]["data"].asString();
}
setSegmentTable(curSegTable);
setPayload((char *)pageBuffer.c_str(), pageBuffer.size());
setCRCChecksum(calcChecksum());
}
void headerPages::readDTSCHeader(DTSC::Meta & meta) {
//pages.clear();
parsedPages = "";
Page curOggPage;
srand(Util::getMS()); //randomising with milliseconds from boot
std::vector<unsigned int> curSegTable;
DTSCID2OGGSerial.clear();
DTSCID2seqNum.clear();
//Creating ID headers for theora and vorbis
for (std::map<int, DTSC::Track>::iterator it = meta.tracks.begin(); it != meta.tracks.end(); it ++) {
curOggPage.clear();
curOggPage.setVersion();
curOggPage.setHeaderType(2);//headertype 2 = Begin of Stream
curOggPage.setGranulePosition(0);
DTSCID2OGGSerial[it->second.trackID] = rand() % 0xFFFFFFFE + 1; //initialising on a random not 0 number
curOggPage.setBitstreamSerialNumber(DTSCID2OGGSerial[it->second.trackID]);
DTSCID2seqNum[it->second.trackID] = 0;
curOggPage.setPageSequenceNumber(DTSCID2seqNum[it->second.trackID]++);
curSegTable.clear();
curSegTable.push_back(it->second.idHeader.size());
curOggPage.setSegmentTable(curSegTable);
curOggPage.setPayload((char *)it->second.idHeader.c_str(), it->second.idHeader.size());
curOggPage.setCRCChecksum(curOggPage.calcChecksum());
//std::cout << std::string(curOggPage.getPage(), curOggPage.getPageSize());
//pages.push_back(curOggPage);
parsedPages += std::string(curOggPage.getPage(), curOggPage.getPageSize());
}
//Creating remaining headers for theora and vorbis
//for tracks in header
//create standard page with comment (empty) en setup header(init)
for (std::map<int, DTSC::Track>::iterator it = meta.tracks.begin(); it != meta.tracks.end(); it ++) {
curOggPage.clear();
curOggPage.setVersion();
curOggPage.setHeaderType(0);//headertype 0 = normal
curOggPage.setGranulePosition(0);
curOggPage.setBitstreamSerialNumber(DTSCID2OGGSerial[it->second.trackID]);
curOggPage.setPageSequenceNumber(DTSCID2seqNum[it->second.trackID]++);
curSegTable.clear();
curSegTable.push_back(it->second.commentHeader.size());
curSegTable.push_back(it->second.init.size());
curOggPage.setSegmentTable(curSegTable);
std::string fullHeader = it->second.commentHeader + it->second.init;
curOggPage.setPayload((char *)fullHeader.c_str(), fullHeader.size());
curOggPage.setCRCChecksum(curOggPage.calcChecksum());
//std::cout << std::string(curOggPage.getPage(), curOggPage.getPageSize());
//pages.push_back(curOggPage);
parsedPages += std::string(curOggPage.getPage(), curOggPage.getPageSize());
}
}
}