/// \file dtsc.cpp
/// Holds all code for DDVTECH Stream Container parsing/generation.
#include "dtsc.h"
#include <stdlib.h>
#include <string.h> //for memcmp
#include <arpa/inet.h> //for htonl/ntohl
char DTSC::Magic_Header[] = "DTSC";
char DTSC::Magic_Packet[] = "DTPD";
/// Initializes a DTSC::Stream with only one packet buffer.
DTSC::Stream::Stream(){
datapointertype = DTSC::INVALID;
datapointer = 0;
buffercount = 1;
buffertime = 0;
}
/// Initializes a DTSC::Stream with a minimum of rbuffers packet buffers.
/// The actual buffer count may not at all times be the requested amount.
DTSC::Stream::Stream(unsigned int rbuffers, unsigned int bufferTime){
datapointertype = DTSC::INVALID;
datapointer = 0;
if (rbuffers < 1){
rbuffers = 1;
}
buffercount = rbuffers;
buffertime = bufferTime;
}
/// Returns the time in milliseconds of the last received packet.
/// This is _not_ the time this packet was received, only the stored time.
unsigned int DTSC::Stream::getTime(){
return buffers.front()["time"].asInt();
}
/// Attempts to parse a packet from the given std::string buffer.
/// Returns true if successful, removing the parsed part from the buffer string.
/// Returns false if invalid or not enough data is in the buffer.
/// \arg buffer The std::string buffer to attempt to parse.
bool DTSC::Stream::parsePacket(std::string & buffer){
uint32_t len;
static bool syncing = false;
if (buffer.length() > 8){
if (memcmp(buffer.c_str(), DTSC::Magic_Header, 4) == 0){
len = ntohl(((uint32_t *)buffer.c_str())[1]);
if (buffer.length() < len + 8){
return false;
}
unsigned int i = 0;
metadata = JSON::fromDTMI((unsigned char*)buffer.c_str() + 8, len, i);
metadata.removeMember("moreheader");
buffer.erase(0, len + 8);
if (buffer.length() <= 8){
return false;
}
}
if (memcmp(buffer.c_str(), DTSC::Magic_Packet, 4) == 0){
len = ntohl(((uint32_t *)buffer.c_str())[1]);
if (buffer.length() < len + 8){
return false;
}
buffers.push_front(JSON::Value());
unsigned int i = 0;
buffers.front() = JSON::fromDTMI((unsigned char*)buffer.c_str() + 8, len, i);
datapointertype = INVALID;
if (buffers.front().isMember("data")){
datapointer = &(buffers.front()["data"].strVal);
}else{
datapointer = 0;
}
if (buffers.front().isMember("datatype")){
std::string tmp = buffers.front()["datatype"].asString();
if (tmp == "video"){
datapointertype = VIDEO;
}
if (tmp == "audio"){
datapointertype = AUDIO;
}
if (tmp == "meta"){
datapointertype = META;
}
if (tmp == "pause_marker"){
datapointertype = PAUSEMARK;
}
}
buffer.erase(0, len + 8);
while (buffers.size() > buffercount){
buffers.pop_back();
}
advanceRings();
syncing = false;
return true;
}
#if DEBUG >= 2
if (!syncing){
std::cerr << "Error: Invalid DTMI data detected - re-syncing" << std::endl;
syncing = true;
}
#endif
size_t magic_search = buffer.find(Magic_Packet);
if (magic_search == std::string::npos){
buffer.clear();
}else{
buffer.erase(0, magic_search);
}
}
return false;
}
/// Attempts to parse a packet from the given Socket::Buffer.
/// Returns true if successful, removing the parsed part from the buffer.
/// Returns false if invalid or not enough data is in the buffer.
/// \arg buffer The Socket::Buffer to attempt to parse.
bool DTSC::Stream::parsePacket(Socket::Buffer & buffer){
uint32_t len;
static bool syncing = false;
if (buffer.available(8)){
std::string header_bytes = buffer.copy(8);
if (memcmp(header_bytes.c_str(), DTSC::Magic_Header, 4) == 0){
len = ntohl(((uint32_t *)header_bytes.c_str())[1]);
if ( !buffer.available(len + 8)){
return false;
}
unsigned int i = 0;
std::string wholepacket = buffer.remove(len + 8);
metadata = JSON::fromDTMI((unsigned char*)wholepacket.c_str() + 8, len, i);
metadata.removeMember("moreheader");
if ( !buffer.available(8)){
return false;
}
header_bytes = buffer.copy(8);
}
if (memcmp(header_bytes.c_str(), DTSC::Magic_Packet, 4) == 0){
len = ntohl(((uint32_t *)header_bytes.c_str())[1]);
if ( !buffer.available(len + 8)){
return false;
}
buffers.push_front(JSON::Value());
unsigned int i = 0;
std::string wholepacket = buffer.remove(len + 8);
buffers.front() = JSON::fromDTMI((unsigned char*)wholepacket.c_str() + 8, len, i);
datapointertype = INVALID;
if (buffers.front().isMember("data")){
datapointer = &(buffers.front()["data"].strVal);
}else{
datapointer = 0;
}
if (buffers.front().isMember("datatype")){
std::string tmp = buffers.front()["datatype"].asString();
if (tmp == "video"){
datapointertype = VIDEO;
}
if (tmp == "audio"){
datapointertype = AUDIO;
}
if (tmp == "meta"){
datapointertype = META;
}
if (tmp == "pause_marker"){
datapointertype = PAUSEMARK;
}
}
while (buffers.size() > buffercount){
buffers.pop_back();
}
advanceRings();
syncing = false;
return true;
}
#if DEBUG >= 2
if (!syncing){
std::cerr << "Error: Invalid DTMI data detected - syncing" << std::endl;
syncing = true;
}
#endif
buffer.get().clear();
}
return false;
}
/// Returns a direct pointer to the data attribute of the last received packet, if available.
/// Returns NULL if no valid pointer or packet is available.
std::string & DTSC::Stream::lastData(){
return *datapointer;
}
/// Returns the packet in this buffer number.
/// \arg num Buffer number.
JSON::Value & DTSC::Stream::getPacket(unsigned int num){
return buffers[num];
}
/// Returns the type of the last received packet.
DTSC::datatype DTSC::Stream::lastType(){
return datapointertype;
}
/// Returns true if the current stream contains at least one video track.
bool DTSC::Stream::hasVideo(){
return metadata.isMember("video");
}
/// Returns true if the current stream contains at least one audio track.
bool DTSC::Stream::hasAudio(){
return metadata.isMember("audio");
}
void DTSC::Stream::setBufferTime(unsigned int ms){
buffertime = ms;
}
/// Returns a packed DTSC packet, ready to sent over the network.
std::string & DTSC::Stream::outPacket(unsigned int num){
static std::string emptystring;
if (num >= buffers.size() || !buffers[num].isObject()) return emptystring;
return buffers[num].toNetPacked();
}
/// Returns a packed DTSC header, ready to sent over the network.
std::string & DTSC::Stream::outHeader(){
return metadata.toNetPacked();
}
/// advances all given out and internal Ring classes to point to the new buffer, after one has been added.
/// Also updates the internal keyframes ring, as well as marking rings as starved if they are.
/// Unsets waiting rings, updating them with their new buffer number.
void DTSC::Stream::advanceRings(){
std::deque<DTSC::Ring>::iterator dit;
std::set<DTSC::Ring *>::iterator sit;
if (rings.size()){
for (sit = rings.begin(); sit != rings.end(); sit++){
( *sit)->b++;
if (( *sit)->waiting){
( *sit)->waiting = false;
( *sit)->b = 0;
}
if (( *sit)->starved || (( *sit)->b >= buffers.size())){
( *sit)->starved = true;
( *sit)->b = 0;
}
}
}
if (keyframes.size()){
for (dit = keyframes.begin(); dit != keyframes.end(); dit++){
dit->b++;
}
bool repeat;
do{
repeat = false;
for (dit = keyframes.begin(); dit != keyframes.end(); dit++){
if (dit->b >= buffers.size()){
keyframes.erase(dit);
repeat = true;
break;
}
}
}while (repeat);
}
static int fragNum = 1;
if ((lastType() == VIDEO) && (buffers.front().isMember("keyframe"))){
keyframes.push_front(DTSC::Ring(0));
if ( !buffers.front().isMember("fragnum")){
buffers.front()["fragnum"] = fragNum++;
}
}
unsigned int timeBuffered = 0;
if (keyframes.size() > 1){
//increase buffer size if no keyframes available or too little time available
timeBuffered = buffers[keyframes[0].b]["time"].asInt() - buffers[keyframes[keyframes.size() - 1].b]["time"].asInt();
}
if (buffercount > 1 && (keyframes.size() < 2 || timeBuffered < buffertime)){
buffercount++;
}
}
/// Constructs a new Ring, at the given buffer position.
/// \arg v Position for buffer.
DTSC::Ring::Ring(unsigned int v){
b = v;
waiting = false;
starved = false;
updated = false;
playCount = 0;
}
/// Requests a new Ring, which will be created and added to the internal Ring list.
/// This Ring will be kept updated so it always points to valid data or has the starved boolean set.
/// Don't forget to call dropRing() for all requested Ring classes that are no longer neccessary!
DTSC::Ring * DTSC::Stream::getRing(){
DTSC::Ring * tmp;
if (keyframes.size() == 0){
tmp = new DTSC::Ring(0);
}else{
tmp = new DTSC::Ring(keyframes[0].b);
}
rings.insert(tmp);
return tmp;
}
/// Deletes a given out Ring class from memory and internal Ring list.
/// Checks for NULL pointers and invalid pointers, silently discarding them.
void DTSC::Stream::dropRing(DTSC::Ring * ptr){
if (rings.find(ptr) != rings.end()){
rings.erase(ptr);
delete ptr;
}
}
/// Updates the headers for a live stream, keeping track of all available
/// keyframes and their media times. The function MAY NOT be run at any other
/// time than right after receiving a new keyframe, or there'll be raptors.
void DTSC::Stream::updateHeaders(){
if (keyframes.size() > 2){
if (buffers[keyframes[0].b]["time"].asInt() < buffers[keyframes[keyframes.size() - 1].b]["time"].asInt()){
std::cerr << "Detected new video - resetting all buffers and metadata - hold on, this ride might get bumpy!" << std::endl;
keyframes.clear();
buffers.clear();
std::set<DTSC::Ring *>::iterator sit;
if ( !rings.size()){
return;
}
for (sit = rings.begin(); sit != rings.end(); sit++){
( *sit)->updated = true;
( *sit)->b = 0;
( *sit)->starved = true;
}
metadata.removeMember("keytime");
metadata.removeMember("keynum");
metadata.removeMember("keylen");
metadata.removeMember("frags");
metadata.removeMember("lastms");
metadata.removeMember("missed_frags");
return;
}
metadata["keytime"].shrink(keyframes.size() - 2);
metadata["keynum"].shrink(keyframes.size() - 2);
metadata["keylen"].shrink(keyframes.size() - 2);
metadata["keytime"].append(buffers[keyframes[1].b]["time"].asInt());
metadata["keynum"].append(buffers[keyframes[1].b]["fragnum"].asInt());
metadata["keylen"].append(buffers[keyframes[0].b]["time"].asInt() - buffers[keyframes[1].b]["time"].asInt());
long long int firstFragNo = -1;
metadata["frags"].null();
long long int currFrag = -1;
for (unsigned int i = 1; i < metadata["keytime"].size(); i++){
if (metadata["keytime"][i].asInt() / 10000 > currFrag){
currFrag = metadata["keytime"][i].asInt() / 10000;
long long int fragLen = 1;
long long int fragDur = metadata["keylen"][i].asInt();
for (unsigned int j = i + 1; j < metadata["keytime"].size(); j++){
if (metadata["keytime"][j].asInt() / 10000 > currFrag){
if (firstFragNo == -1){
firstFragNo = currFrag;
}
JSON::Value thisFrag;
thisFrag["num"] = metadata["keynum"][i];
thisFrag["len"] = fragLen;
thisFrag["dur"] = fragDur;
metadata["frags"].append(thisFrag);
break;
}
fragLen++;
fragDur += metadata["keylen"][j].asInt();
}
}
}
metadata["missed_frags"] = firstFragNo;
metadata["lastms"] = buffers[keyframes[0].b]["time"].asInt();
metadata["buffer_window"] = (long long int)buffertime;
metadata["live"] = true;
metadata.toPacked();
updateRingHeaders();
}
}
void DTSC::Stream::updateRingHeaders(){
std::set<DTSC::Ring *>::iterator sit;
if ( !rings.size()){
return;
}
for (sit = rings.begin(); sit != rings.end(); sit++){
( *sit)->updated = true;
}
}
/// Returns 0 if seeking is possible, -1 if the wanted frame is too old, 1 if the wanted frame is too new.
int DTSC::Stream::canSeekms(unsigned int ms){
if ( !metadata["keytime"].size()){
return 1;
}
if (ms > metadata["keytime"][metadata["keytime"].size() - 1].asInt()){
return 1;
}
if (ms < metadata["keytime"][0u].asInt()){
return -1;
}
return 0;
}
/// Returns 0 if seeking is possible, -1 if the wanted frame is too old, 1 if the wanted frame is too new.
int DTSC::Stream::canSeekFrame(unsigned int frameno){
if ( !metadata["keynum"].size()){
return 1;
}
if (frameno > metadata["keynum"][metadata["keynum"].size() - 1].asInt()){
return 1;
}
if (frameno < metadata["keynum"][0u].asInt()){
return -1;
}
return 0;
}
unsigned int DTSC::Stream::msSeek(unsigned int ms){
if (ms > buffers[keyframes[0u].b]["time"].asInt()){
std::cerr << "Warning: seeking past ingest! (" << ms << "ms > " << buffers[keyframes[0u].b]["time"].asInt() << "ms)" << std::endl;
return keyframes[0u].b;
}
for (std::deque<DTSC::Ring>::iterator it = keyframes.begin(); it != keyframes.end(); it++){
if (buffers[it->b]["time"].asInt() <= ms){
return it->b;
}
}
std::cerr << "Warning: seeking past buffer size! (" << ms << "ms < " << buffers[keyframes[keyframes.size() - 1].b]["time"].asInt() << "ms)" << std::endl;
return keyframes[keyframes.size() - 1].b;
}
unsigned int DTSC::Stream::frameSeek(unsigned int frameno){
if (frameno > buffers[keyframes[0u].b]["fragnum"].asInt()){
std::cerr << "Warning: seeking past ingest! (F" << frameno << " > F" << buffers[keyframes[0u].b]["fragnum"].asInt() << ")" << std::endl;
return keyframes[0u].b;
}
for (std::deque<DTSC::Ring>::iterator it = keyframes.begin(); it != keyframes.end(); it++){
if (buffers[it->b]["fragnum"].asInt() == frameno){
return it->b;
}
}
std::cerr << "Warning: seeking past buffer size! (F" << frameno << " < F" << buffers[keyframes[keyframes.size() - 1].b]["fragnum"].asInt() << ")" << std::endl;
return keyframes[keyframes.size() - 1].b;
}
/// Properly cleans up the object for erasing.
/// Drops all Ring classes that have been given out.
DTSC::Stream::~Stream(){
std::set<DTSC::Ring *>::iterator sit;
for (sit = rings.begin(); sit != rings.end(); sit++){
delete ( *sit);
}
}
/// Open a filename for DTSC reading/writing.
/// If create is true and file does not exist, attempt to create.
DTSC::File::File(std::string filename, bool create){
if (create){
F = fopen(filename.c_str(), "w+b");
//write an empty header
fseek(F, 0, SEEK_SET);
fwrite(DTSC::Magic_Header, 4, 1, F);
memset(buffer, 0, 4);
fwrite(buffer, 4, 1, F); //write 4 zero-bytes
headerSize = 0;
}else{
F = fopen(filename.c_str(), "r+b");
}
if ( !F){
fprintf(stderr, "Could not open file %s\n", filename.c_str());
return;
}
//we now know the first 4 bytes are DTSC::Magic_Header and we have a valid file
fseek(F, 4, SEEK_SET);
if (fread(buffer, 4, 1, F) != 1){
fseek(F, 4, SEEK_SET);
memset(buffer, 0, 4);
fwrite(buffer, 4, 1, F); //write 4 zero-bytes
}else{
uint32_t * ubuffer = (uint32_t *)buffer;
headerSize = ntohl(ubuffer[0]);
}
readHeader(0);
fseek(F, 8 + headerSize, SEEK_SET);
currframe = 0;
//currframe = 1;
//frames[1] = 8 + headerSize;
//msframes[1] = 0;
}
/// Returns the header metadata for this file as JSON::Value.
JSON::Value & DTSC::File::getMeta(){
return metadata;
}
/// Returns the header metadata for this file as JSON::Value.
JSON::Value & DTSC::File::getFirstMeta(){
return firstmetadata;
}
/// (Re)writes the given string to the header area if the size is the same as the existing header.
/// Forces a write if force is set to true.
bool DTSC::File::writeHeader(std::string & header, bool force){
if (headerSize != header.size() && !force){
fprintf(stderr, "Could not overwrite header - not equal size\n");
return false;
}
headerSize = header.size();
fseek(F, 8, SEEK_SET);
int ret = fwrite(header.c_str(), headerSize, 1, F);
fseek(F, 8 + headerSize, SEEK_SET);
return (ret == 1);
}
/// Adds the given string as a new header to the end of the file.
/// \returns The positon the header was written at, or 0 on failure.
long long int DTSC::File::addHeader(std::string & header){
fseek(F, 0, SEEK_END);
long long int writePos = ftell(F);
int hSize = htonl(header.size());
int ret = fwrite(DTSC::Magic_Header, 4, 1, F); //write header
if (ret != 1){
return 0;
}
ret = fwrite((void*)( &hSize), 4, 1, F); //write size
if (ret != 1){
return 0;
}
ret = fwrite(header.c_str(), header.size(), 1, F); //write contents
if (ret != 1){
return 0;
}
return writePos; //return position written at
}
/// Reads the header at the given file position.
/// If the packet could not be read for any reason, the reason is printed to stderr.
/// Reading the header means the file position is moved to after the header.
void DTSC::File::readHeader(int pos){
fseek(F, pos, SEEK_SET);
if (fread(buffer, 4, 1, F) != 1){
if (feof(F)){
#if DEBUG >= 4
fprintf(stderr, "End of file reached (H%i)\n", pos);
#endif
}else{
fprintf(stderr, "Could not read header (H%i)\n", pos);
}
strbuffer = "";
metadata.null();
return;
}
if (memcmp(buffer, DTSC::Magic_Header, 4) != 0){
fprintf(stderr, "Invalid header - %.4s != %.4s (H%i)\n", buffer, DTSC::Magic_Header, pos);
strbuffer = "";
metadata.null();
return;
}
if (fread(buffer, 4, 1, F) != 1){
fprintf(stderr, "Could not read size (H%i)\n", pos);
strbuffer = "";
metadata.null();
return;
}
uint32_t * ubuffer = (uint32_t *)buffer;
long packSize = ntohl(ubuffer[0]);
strbuffer.resize(packSize);
if (fread((void*)strbuffer.c_str(), packSize, 1, F) != 1){
fprintf(stderr, "Could not read packet (H%i)\n", pos);
strbuffer = "";
metadata.null();
return;
}
metadata = JSON::fromDTMI(strbuffer);
if (pos == 0){
firstmetadata = metadata;
}
//if there is another header, read it and replace metadata with that one.
if (metadata.isMember("moreheader") && metadata["moreheader"].asInt() > 0){
readHeader(metadata["moreheader"].asInt());
return;
}
if (metadata.isMember("keytime")){
msframes.clear();
for (int i = 0; i < metadata["keytime"].size(); ++i){
msframes[i + 1] = metadata["keytime"][i].asInt();
}
}
if (metadata.isMember("keybpos")){
frames.clear();
for (int i = 0; i < metadata["keybpos"].size(); ++i){
frames[i + 1] = metadata["keybpos"][i].asInt();
}
}
metadata["vod"] = true;
metadata.toPacked();
}
/// Reads the packet available at the current file position.
/// If the packet could not be read for any reason, the reason is printed to stderr.
/// Reading the packet means the file position is increased to the next packet.
void DTSC::File::seekNext(){
lastreadpos = ftell(F);
if (fread(buffer, 4, 1, F) != 1){
if (feof(F)){
#if DEBUG >= 4
fprintf(stderr, "End of file reached.\n");
#endif
}else{
fprintf(stderr, "Could not read header\n");
}
strbuffer = "";
jsonbuffer.null();
return;
}
if (memcmp(buffer, DTSC::Magic_Header, 4) == 0){
readHeader(lastreadpos);
jsonbuffer = metadata;
return;
}
if (memcmp(buffer, DTSC::Magic_Packet, 4) != 0){
fprintf(stderr, "Invalid header - %.4s != %.4s\n", buffer, DTSC::Magic_Packet);
strbuffer = "";
jsonbuffer.null();
return;
}
if (fread(buffer, 4, 1, F) != 1){
fprintf(stderr, "Could not read size\n");
strbuffer = "";
jsonbuffer.null();
return;
}
uint32_t * ubuffer = (uint32_t *)buffer;
long packSize = ntohl(ubuffer[0]);
strbuffer.resize(packSize);
if (fread((void*)strbuffer.c_str(), packSize, 1, F) != 1){
fprintf(stderr, "Could not read packet\n");
strbuffer = "";
jsonbuffer.null();
return;
}
jsonbuffer = JSON::fromDTMI(strbuffer);
if (jsonbuffer.isMember("keyframe")){
if (frames[currframe] != lastreadpos){
currframe++;
currtime = jsonbuffer["time"].asInt();
#if DEBUG >= 6
if (frames[currframe] != lastreadpos){
std::cerr << "Found a new frame " << currframe << " @ " << lastreadpos << "b/" << currtime << "ms" << std::endl;
} else{
std::cerr << "Passing frame " << currframe << " @ " << lastreadpos << "b/" << currtime << "ms" << std::endl;
}
#endif
frames[currframe] = lastreadpos;
msframes[currframe] = currtime;
}
}
}
/// Returns the byte positon of the start of the last packet that was read.
long long int DTSC::File::getLastReadPos(){
return lastreadpos;
}
/// Returns the internal buffer of the last read packet in raw binary format.
std::string & DTSC::File::getPacket(){
return strbuffer;
}
/// Returns the internal buffer of the last read packet in JSON format.
JSON::Value & DTSC::File::getJSON(){
return jsonbuffer;
}
/// Attempts to seek to the given frame number within the file.
/// Returns true if successful, false otherwise.
bool DTSC::File::seek_frame(int frameno){
if (frames.count(frameno) > 0){
if (fseek(F, frames[frameno], SEEK_SET) == 0){
#if DEBUG >= 5
std::cerr << "Seek direct from " << currframe << " @ " << frames[currframe] << " to " << frameno << " @ " << frames[frameno] << std::endl;
#endif
currframe = frameno;
return true;
}
}else{
for (int i = frameno; i >= 1; --i){
if (frames.count(i) > 0){
currframe = i;
break;
}
}
if (fseek(F, frames[currframe], SEEK_SET) == 0){
#if DEBUG >= 5
std::cerr << "Seeking from frame " << currframe << " @ " << frames[currframe] << " to " << frameno << std::endl;
#endif
while (currframe < frameno){
seekNext();
if (jsonbuffer.isNull()){
return false;
}
}
seek_frame(frameno);
return true;
}
}
return false;
}
/// Attempts to seek to the given time in ms within the file.
/// Returns true if successful, false otherwise.
bool DTSC::File::seek_time(int ms){
std::map<int, long>::iterator it;
currtime = 0;
currframe = 1;
for (it = msframes.begin(); it != msframes.end(); ++it){
if (it->second > ms){
break;
}
if (it->second > currtime){
currtime = it->second;
currframe = it->first;
}
}
if (fseek(F, frames[currframe], SEEK_SET) == 0){
#if DEBUG >= 5
std::cerr << "Seeking from frame " << currframe << " @ " << msframes[currframe] << "ms to " << ms << "ms" << std::endl;
#endif
while (currtime < ms){
seekNext();
if (jsonbuffer.isNull()){
return false;
}
}
if (currtime > ms){
return seek_frame(currframe - 1);
}
return true;
}
return false;
}
/// Close the file if open
DTSC::File::~File(){
if (F){
fclose(F);
F = 0;
}
}