#include "bitstream.h"
#include "defines.h"
#include "ogg.h"
#include <arpa/inet.h>
#include <iomanip>
#include <sstream>
#include <stdlib.h>
#include <string.h>
namespace OGG{
oggSegment::oggSegment(){
isKeyframe = 0;
frameNumber = 0;
timeStamp = 0;
framesSinceKeyFrame = 0;
}
std::deque<unsigned int> decodeXiphSize(char *data, size_t len){
std::deque<unsigned int> res;
res.push_back(0);
for (unsigned int i = 0; i < len; i++){
*res.rbegin() += data[i];
if (data[i] != 0xFF){res.push_back(0);}
}
if (*res.rbegin() == 0){res.resize(res.size() - 1);}
return res;
}
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(){
framesSeen = 0;
lastKeyFrame = 0;
sampleRate = 0;
firstSample = 0;
pageSequenceNumber = 0;
totalFrames = 0;
memset(data, 0, 282);
}
Page::Page(const Page &rhs){
framesSeen = rhs.framesSeen;
pageSequenceNumber = rhs.pageSequenceNumber;
lastKeyFrame = rhs.lastKeyFrame;
sampleRate = rhs.sampleRate;
firstSample = rhs.firstSample;
totalFrames = rhs.totalFrames;
memcpy(data, rhs.data, 282);
segments = rhs.segments;
}
void Page::operator=(const Page &rhs){
framesSeen = rhs.framesSeen;
pageSequenceNumber = rhs.pageSequenceNumber;
lastKeyFrame = rhs.lastKeyFrame;
firstSample = rhs.firstSample;
sampleRate = rhs.sampleRate;
totalFrames = rhs.totalFrames;
memcpy(data, rhs.data, 282);
segments = rhs.segments;
}
unsigned int Page::calcPayloadSize(){
unsigned int retVal = 0;
for (unsigned int i = 0; i < segments.size(); i++){retVal += segments[i].size();}
return retVal;
}
/// Reads an OGG Page from the source and if valid, removes it from source.
bool Page::read(std::string &newData){
size_t len = newData.size();
size_t total = 0;
segments.clear();
if (newData.size() < 27){return false;}
if (newData.substr(0, 4) != "OggS"){
FAIL_MSG("Invalid Ogg page encountered (magic number wrong: %s) - cannot continue", newData.c_str());
return false;
}
memcpy(data, newData.c_str(), 27); // copying the header, always 27 bytes
if (newData.size() < 27u + getPageSegments()){// check input size
return false;
}
memcpy(data + 27, newData.data() + 27, getPageSegments());
std::deque<unsigned int> segSizes = decodeXiphSize(data + 27, getPageSegments());
for (std::deque<unsigned int>::iterator it = segSizes.begin(); it != segSizes.end(); it++){
total += *it;
}
total += 27;
// return false if the segment is not complete
total += getPageSegments();
if (total >= len){return false;}
newData.erase(0, getPageSegments() + 27);
for (std::deque<unsigned int>::iterator it = segSizes.begin(); it != segSizes.end(); it++){
segments.push_back(std::string(newData.data(), *it));
newData.erase(0, *it);
}
INFO_MSG("Erased %zu bytes from the input", len - newData.size());
return true;
}
bool Page::read(FILE *inFile){
segments.clear();
int oriPos = ftell(inFile);
// INFO_MSG("pos: %d", oriPos);
if (!fread(data, 27, 1, inFile)){
fseek(inFile, oriPos, SEEK_SET);
FAIL_MSG("failed to fread(data, 27, 1, inFile) @ pos %d", oriPos);
return false;
}
if (std::string(data, 4) != "OggS"){
FAIL_MSG("Invalid Ogg page encountered (magic number wrong: %s) - cannot continue bytePos %d", data, oriPos);
return false;
}
if (!fread(data + 27, getPageSegments(), 1, inFile)){
fseek(inFile, oriPos, SEEK_SET);
FAIL_MSG("failed to fread(data + 27, getPageSegments() %d, 1, inFile) @ pos %d", getPageSegments(), oriPos);
return false;
}
std::deque<unsigned int> segSizes = decodeXiphSize(data + 27, getPageSegments());
for (std::deque<unsigned int>::iterator it = segSizes.begin(); it != segSizes.end(); it++){
if (*it){
char *thisSeg = (char *)malloc(*it * sizeof(char));
if (!thisSeg){WARN_MSG("malloc failed");}
if (!fread(thisSeg, *it, 1, inFile)){
WARN_MSG("Unable to read a segment @ pos %d segment size: %d getPageSegments: %d", oriPos,
*it, getPageSegments());
fseek(inFile, oriPos, SEEK_SET);
return false;
}
segments.push_back(std::string(thisSeg, *it));
free(thisSeg);
}else{
segments.push_back(std::string("", 0));
}
}
return true;
}
bool Page::getSegment(unsigned int index, std::string &ret){
if (index >= segments.size()){
ret.clear();
return false;
}
ret = segments[index];
return true;
}
const char *Page::getSegment(unsigned int index){
if (index >= segments.size()){return 0;}
return segments[index].data();
}
unsigned long Page::getSegmentLen(unsigned int index){
if (index >= segments.size()){return 0;}
return segments[index].size();
}
void Page::setMagicNumber(){memcpy(data, "OggS", 4);}
char Page::getVersion(){return data[4];}
void Page::setVersion(char newVal){data[4] = newVal;}
char Page::getHeaderType(){return data[5];}
void Page::setHeaderType(char newVal){data[5] = newVal;}
long long unsigned int Page::getGranulePosition(){return get_64(data + 6);}
void Page::setGranulePosition(long long unsigned int newVal){set_64(data + 6, newVal);}
uint32_t Page::getBitstreamSerialNumber(){
// return ntohl(((long unsigned int*)(data+14))[0]);
return get_32(data + 14);
}
void Page::setBitstreamSerialNumber(uint32_t newVal){set_32(data + 14, newVal);}
long unsigned int Page::getPageSequenceNumber(){return get_32(data + 18);}
void Page::setPageSequenceNumber(long unsigned int newVal){set_32(data + 18, newVal);}
long unsigned int Page::getCRCChecksum(){return get_32(data + 22);}
void Page::setCRCChecksum(long unsigned int newVal){set_32(data + 22, newVal);}
char Page::getPageSegments(){return data[26];}
inline void Page::setPageSegments(char newVal){data[26] = newVal;}
bool Page::verifyChecksum(){
if (getCRCChecksum() == calcChecksum()){// NOTE: calcChecksum is currently not functional (it will always return 0)
return true;
}else{
return false;
}
}
bool Page::possiblyContinued(){
if (getPageSegments() == 255){
if (data[281] == 255){return true;}
}
return false;
}
std::string Page::toPrettyString(size_t indent){
std::stringstream r;
r << std::string(indent, ' ') << "Ogg page" << 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: " << std::hex << std::setw(16)
<< std::setfill('0') << getGranulePosition() << std::dec << 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 Correct: " << verifyChecksum() << std::endl;
// r << " Calced Checksum: " << std::hex << calcChecksum() << std::dec << std::endl;
r << std::string(indent + 2, ' ') << "Checksum: " << getCRCChecksum() << std::endl;
r << std::string(indent + 2, ' ') << (int)getPageSegments() << " segments:" << std::endl;
r << std::string(indent + 3, ' ');
for (unsigned int i = 0; i < segments.size(); i++){r << " " << segments[i].size();}
r << std::endl;
return r.str();
}
inline unsigned int crc32(unsigned int crc, const char *data, size_t len){
static const unsigned int table[256] ={
0x00000000U, 0x04C11DB7U, 0x09823B6EU, 0x0D4326D9U, 0x130476DCU, 0x17C56B6BU, 0x1A864DB2U,
0x1E475005U, 0x2608EDB8U, 0x22C9F00FU, 0x2F8AD6D6U, 0x2B4BCB61U, 0x350C9B64U, 0x31CD86D3U,
0x3C8EA00AU, 0x384FBDBDU, 0x4C11DB70U, 0x48D0C6C7U, 0x4593E01EU, 0x4152FDA9U, 0x5F15ADACU,
0x5BD4B01BU, 0x569796C2U, 0x52568B75U, 0x6A1936C8U, 0x6ED82B7FU, 0x639B0DA6U, 0x675A1011U,
0x791D4014U, 0x7DDC5DA3U, 0x709F7B7AU, 0x745E66CDU, 0x9823B6E0U, 0x9CE2AB57U, 0x91A18D8EU,
0x95609039U, 0x8B27C03CU, 0x8FE6DD8BU, 0x82A5FB52U, 0x8664E6E5U, 0xBE2B5B58U, 0xBAEA46EFU,
0xB7A96036U, 0xB3687D81U, 0xAD2F2D84U, 0xA9EE3033U, 0xA4AD16EAU, 0xA06C0B5DU, 0xD4326D90U,
0xD0F37027U, 0xDDB056FEU, 0xD9714B49U, 0xC7361B4CU, 0xC3F706FBU, 0xCEB42022U, 0xCA753D95U,
0xF23A8028U, 0xF6FB9D9FU, 0xFBB8BB46U, 0xFF79A6F1U, 0xE13EF6F4U, 0xE5FFEB43U, 0xE8BCCD9AU,
0xEC7DD02DU, 0x34867077U, 0x30476DC0U, 0x3D044B19U, 0x39C556AEU, 0x278206ABU, 0x23431B1CU,
0x2E003DC5U, 0x2AC12072U, 0x128E9DCFU, 0x164F8078U, 0x1B0CA6A1U, 0x1FCDBB16U, 0x018AEB13U,
0x054BF6A4U, 0x0808D07DU, 0x0CC9CDCAU, 0x7897AB07U, 0x7C56B6B0U, 0x71159069U, 0x75D48DDEU,
0x6B93DDDBU, 0x6F52C06CU, 0x6211E6B5U, 0x66D0FB02U, 0x5E9F46BFU, 0x5A5E5B08U, 0x571D7DD1U,
0x53DC6066U, 0x4D9B3063U, 0x495A2DD4U, 0x44190B0DU, 0x40D816BAU, 0xACA5C697U, 0xA864DB20U,
0xA527FDF9U, 0xA1E6E04EU, 0xBFA1B04BU, 0xBB60ADFCU, 0xB6238B25U, 0xB2E29692U, 0x8AAD2B2FU,
0x8E6C3698U, 0x832F1041U, 0x87EE0DF6U, 0x99A95DF3U, 0x9D684044U, 0x902B669DU, 0x94EA7B2AU,
0xE0B41DE7U, 0xE4750050U, 0xE9362689U, 0xEDF73B3EU, 0xF3B06B3BU, 0xF771768CU, 0xFA325055U,
0xFEF34DE2U, 0xC6BCF05FU, 0xC27DEDE8U, 0xCF3ECB31U, 0xCBFFD686U, 0xD5B88683U, 0xD1799B34U,
0xDC3ABDEDU, 0xD8FBA05AU, 0x690CE0EEU, 0x6DCDFD59U, 0x608EDB80U, 0x644FC637U, 0x7A089632U,
0x7EC98B85U, 0x738AAD5CU, 0x774BB0EBU, 0x4F040D56U, 0x4BC510E1U, 0x46863638U, 0x42472B8FU,
0x5C007B8AU, 0x58C1663DU, 0x558240E4U, 0x51435D53U, 0x251D3B9EU, 0x21DC2629U, 0x2C9F00F0U,
0x285E1D47U, 0x36194D42U, 0x32D850F5U, 0x3F9B762CU, 0x3B5A6B9BU, 0x0315D626U, 0x07D4CB91U,
0x0A97ED48U, 0x0E56F0FFU, 0x1011A0FAU, 0x14D0BD4DU, 0x19939B94U, 0x1D528623U, 0xF12F560EU,
0xF5EE4BB9U, 0xF8AD6D60U, 0xFC6C70D7U, 0xE22B20D2U, 0xE6EA3D65U, 0xEBA91BBCU, 0xEF68060BU,
0xD727BBB6U, 0xD3E6A601U, 0xDEA580D8U, 0xDA649D6FU, 0xC423CD6AU, 0xC0E2D0DDU, 0xCDA1F604U,
0xC960EBB3U, 0xBD3E8D7EU, 0xB9FF90C9U, 0xB4BCB610U, 0xB07DABA7U, 0xAE3AFBA2U, 0xAAFBE615U,
0xA7B8C0CCU, 0xA379DD7BU, 0x9B3660C6U, 0x9FF77D71U, 0x92B45BA8U, 0x9675461FU, 0x8832161AU,
0x8CF30BADU, 0x81B02D74U, 0x857130C3U, 0x5D8A9099U, 0x594B8D2EU, 0x5408ABF7U, 0x50C9B640U,
0x4E8EE645U, 0x4A4FFBF2U, 0x470CDD2BU, 0x43CDC09CU, 0x7B827D21U, 0x7F436096U, 0x7200464FU,
0x76C15BF8U, 0x68860BFDU, 0x6C47164AU, 0x61043093U, 0x65C52D24U, 0x119B4BE9U, 0x155A565EU,
0x18197087U, 0x1CD86D30U, 0x029F3D35U, 0x065E2082U, 0x0B1D065BU, 0x0FDC1BECU, 0x3793A651U,
0x3352BBE6U, 0x3E119D3FU, 0x3AD08088U, 0x2497D08DU, 0x2056CD3AU, 0x2D15EBE3U, 0x29D4F654U,
0xC5A92679U, 0xC1683BCEU, 0xCC2B1D17U, 0xC8EA00A0U, 0xD6AD50A5U, 0xD26C4D12U, 0xDF2F6BCBU,
0xDBEE767CU, 0xE3A1CBC1U, 0xE760D676U, 0xEA23F0AFU, 0xEEE2ED18U, 0xF0A5BD1DU, 0xF464A0AAU,
0xF9278673U, 0xFDE69BC4U, 0x89B8FD09U, 0x8D79E0BEU, 0x803AC667U, 0x84FBDBD0U, 0x9ABC8BD5U,
0x9E7D9662U, 0x933EB0BBU, 0x97FFAD0CU, 0xAFB010B1U, 0xAB710D06U, 0xA6322BDFU, 0xA2F33668U,
0xBCB4666DU, 0xB8757BDAU, 0xB5365D03U, 0xB1F740B4U,
};
while (len > 0){
crc = table[*data ^ ((crc >> 24) & 0xff)] ^ (crc << 8);
data++;
len--;
}
return crc;
}
long unsigned int Page::calcChecksum(){// implement in sending out page, probably delete this -- probably don't delete this because this function appears to be in use
long unsigned int retVal = 0;
/*
long unsigned int oldChecksum = getCRCChecksum();
std::string fullPayload;
for (int i = 0; i < segments.size(); i++){
fullPayload += segments[i];
}
setCRCChecksum (0);
retVal = crc32(
crc32(0, data, 27 + getPageSegments()),//checksum over pageheader
fullPayload.data(),
fullPayload.size()
);//checksum over content
setCRCChecksum (oldChecksum);
*/
return retVal;
}
int Page::getPayloadSize(){
size_t res = 0;
for (unsigned int i = 0; i < segments.size(); i++){res += segments[i].size();}
return res;
}
const std::deque<std::string> &Page::getAllSegments(){return segments;}
void Page::prepareNext(bool continueMe){
clear(0, -1, getBitstreamSerialNumber(), getPageSequenceNumber() + 1);
if (continueMe){// noting that the page will be continued
setHeaderType(OGG::Continued);
}
}
void Page::clear(char HeaderType, long long unsigned int GranPos, long unsigned int BSN, long unsigned int PSN){
memset(data, 0, 27);
setMagicNumber();
setVersion();
setHeaderType(HeaderType);
setGranulePosition(GranPos);
setBitstreamSerialNumber(BSN);
setPageSequenceNumber(PSN);
}
unsigned int Page::addSegment(const std::string &payload){// returns added bytes
segments.push_back(payload);
return payload.size();
}
unsigned int Page::addSegment(const char *content, unsigned int length){
segments.push_back(std::string(content, length));
return length;
}
unsigned int Page::overFlow(){// returns the amount of bytes that don't fit in this page from the segments;
unsigned int retVal = 0;
unsigned int curSegNum = 0; // the current segment number we are looking at
unsigned int segAmount = 0;
for (unsigned int i = 0; i < segments.size(); i++){
segAmount = (segments[i].size() / 255) + 1;
if (segAmount + curSegNum > 255){
retVal += ((segAmount - (255 - curSegNum + 1)) * 255) +
(segments[i].size() % 255); // calculate the extra bytes that overflow
curSegNum = 255; // making sure the segment numbers are at maximum
}else{
curSegNum += segAmount;
}
}
return retVal;
}
void Page::vorbisStuff(){
Utils::bitstreamLSBF packet;
packet.append(oggSegments.rbegin()->dataString); // this is a heavy operation, it needs to be optimised //todo?
int curPCMSamples = 0;
long long unsigned int packetType = packet.get(1);
if (packetType == 0){
int tempModes = vorbis::ilog(vorbisModes.size() - 1);
int tempPacket = packet.get(tempModes);
int curBlockFlag = vorbisModes[tempPacket].blockFlag;
curPCMSamples = (1 << blockSize[curBlockFlag]);
if (prevBlockFlag != -1){
if (curBlockFlag == prevBlockFlag){
curPCMSamples /= 2;
}else{
curPCMSamples -= (1 << blockSize[0]) / 4 + (1 << blockSize[1]) / 4;
}
}
prevBlockFlag = curBlockFlag;
}else{
ERROR_MSG("Error, Vorbis packet type !=0 actual type: %llu", packetType);
}
// add to granule position
lastKeyFrame += curPCMSamples;
oggSegments.rbegin()->lastKeyFrameSeen = lastKeyFrame;
}
/// this calculates the granule position for a DTSC packet
long long unsigned int Page::calculateGranule(oggSegment ¤tSegment){
long long unsigned int tempGranule = 0;
if (codec == OGG::THEORA){
tempGranule = (currentSegment.lastKeyFrameSeen << split) | currentSegment.framesSinceKeyFrame;
}else if (codec == OGG::VORBIS){
tempGranule = currentSegment.lastKeyFrameSeen;
}else if (codec == OGG::OPUS){
tempGranule = currentSegment.timeStamp * 48;
}
return tempGranule;
}
bool Page::shouldSend(){
unsigned int totalSegmentSize = 0;
if (!oggSegments.size()){return false;}
if (oggSegments.rbegin()->isKeyframe){return true;}
if (codec == OGG::VORBIS){
if (lastKeyFrame - firstSample >= sampleRate){return true;}
}
for (unsigned int i = 0; i < oggSegments.size(); i++){
totalSegmentSize += (oggSegments[i].dataString.size() / 255) + 1;
}
if (totalSegmentSize >= 255) return true;
return false;
}
///\todo Rewrite this
void Page::sendTo(Socket::Connection &destination, int calcGranule){// combines all data and sends it to socket
if (!oggSegments.size()){
HIGH_MSG("!segments.size()");
return;
}
if (codec == OGG::VORBIS){firstSample = lastKeyFrame;}
int temp = 0;
long unsigned int checksum = 0; // reset checksum
setCRCChecksum(0);
unsigned int numSegments = oggSegments.size();
int tableIndex = 0;
char tableSize = 0;
// char table[255];
char *table = (char *)malloc(255);
unsigned int bytesLeft = 0;
for (unsigned int i = 0; i < numSegments; i++){
// calculate amount of 255 bytes needed to store size (remainder not counted)
temp = (oggSegments[i].dataString.size() / 255);
// if everything still fits in the table
if ((temp + tableIndex + 1) <= 255){
// set the 255 bytes
memset(table + tableIndex, 255, temp);
// increment tableIndex with 255 byte count
tableIndex += temp;
// set the last table entry to the remainder, and increase tableIndex with one
table[tableIndex++] = (oggSegments[i].dataString.size() % 255);
// update tableSize to be equal to tableIndex
tableSize = tableIndex;
bytesLeft = 0;
}else{
// stuff doesn't fit
// set the rest of the table to 255s
memset(table + tableIndex, 255, (255 - tableIndex));
// table size is full table in use
tableSize = 255;
// space left on current page, for this segment: (255-tableIndex)*255
bytesLeft = (255 - tableIndex) * 255;
if (oggSegments[i].dataString.size() == bytesLeft){
bytesLeft = 0; // segment barely fits.
}
break;
}
}
if (calcGranule < -1){
if (numSegments == 1 && bytesLeft){// no segment ends on this page.
granules = -1;
}else{
unsigned int tempIndex = numSegments - 1;
if (bytesLeft != 0){tempIndex = numSegments - 2;}
granules = calculateGranule(oggSegments[tempIndex]);
}
}else{
granules = calcGranule; // force granule
}
setGranulePosition(granules);
checksum = crc32(checksum, data, 22); // calculating the checksum over the first part of the page
checksum = crc32(checksum, &tableSize, 1); // calculating the checksum over the segment Table Size
checksum = crc32(checksum, table, tableSize); // calculating the checksum over the segment Table
DONTEVEN_MSG("numSegments: %d", numSegments);
for (unsigned int i = 0; i < numSegments; i++){
// INFO_MSG("checksum, i: %d", i);
if (bytesLeft != 0 && ((i + 1) == numSegments)){
checksum = crc32(checksum, oggSegments[i].dataString.data(), bytesLeft);
// take only part of this segment
}else{// take the entire segment
checksum = crc32(checksum, oggSegments[i].dataString.data(), oggSegments[i].dataString.size());
}
}
setCRCChecksum(checksum);
destination.SendNow(data, 26);
destination.SendNow(&tableSize, 1);
destination.SendNow(table, tableSize);
for (unsigned int i = 0; i < numSegments; i++){
if (bytesLeft != 0 && ((i + 1) == numSegments)){
destination.SendNow(oggSegments.begin()->dataString.data(), bytesLeft);
oggSegments.begin()->dataString.erase(0, bytesLeft);
setHeaderType(OGG::Continued); // set continuation flag
break;
// for loop WILL exit after this.
}else{
destination.SendNow(oggSegments.begin()->dataString.data(), oggSegments.begin()->dataString.size());
// this segment WILL be deleted
oggSegments.erase(oggSegments.begin());
setHeaderType(OGG::Plain); // not a continuation
}
}
// done sending, assume start of new page.
// inc. page num, write to header
pageSequenceNumber++;
setPageSequenceNumber(pageSequenceNumber);
// granule still requires setting!
free(table);
return;
}
}// namespace OGG