/* (c) Magnus Auvinen. See licence.txt in the root of the distribution for more information. */
/* If you are missing that file, acquire a complete release at teeworlds.com. */
#include
#include
#include
#include
#include
#if defined(CONF_VIDEORECORDER)
#include
#endif
#include "compression.h"
#include "demo.h"
#include "memheap.h"
#include "network.h"
#include "snapshot.h"
const double g_aSpeeds[g_DemoSpeeds] = {0.1, 0.25, 0.5, 0.75, 1.0, 1.25, 1.5, 2.0, 3.0, 4.0, 6.0, 8.0, 12.0, 16.0, 20.0, 24.0, 28.0, 32.0, 40.0, 48.0, 56.0, 64.0};
const CUuid SHA256_EXTENSION =
{{0x6b, 0xe6, 0xda, 0x4a, 0xce, 0xbd, 0x38, 0x0c,
0x9b, 0x5b, 0x12, 0x89, 0xc8, 0x42, 0xd7, 0x80}};
static const unsigned char gs_aHeaderMarker[7] = {'T', 'W', 'D', 'E', 'M', 'O', 0};
static const unsigned char gs_CurVersion = 6;
static const unsigned char gs_OldVersion = 3;
static const unsigned char gs_Sha256Version = 6;
static const unsigned char gs_VersionTickCompression = 5; // demo files with this version or higher will use `CHUNKTICKFLAG_TICK_COMPRESSED`
static const int gs_LengthOffset = 152;
static const int gs_NumMarkersOffset = 176;
static const ColorRGBA gs_DemoPrintColor{0.75f, 0.7f, 0.7f, 1.0f};
CDemoRecorder::CDemoRecorder(class CSnapshotDelta *pSnapshotDelta, bool NoMapData)
{
m_File = 0;
m_aCurrentFilename[0] = '\0';
m_pfnFilter = 0;
m_pUser = 0;
m_LastTickMarker = -1;
m_pSnapshotDelta = pSnapshotDelta;
m_NoMapData = NoMapData;
}
// Record
int CDemoRecorder::Start(class IStorage *pStorage, class IConsole *pConsole, const char *pFilename, const char *pNetVersion, const char *pMap, SHA256_DIGEST *pSha256, unsigned Crc, const char *pType, unsigned MapSize, unsigned char *pMapData, IOHANDLE MapFile, DEMOFUNC_FILTER pfnFilter, void *pUser)
{
m_pfnFilter = pfnFilter;
m_pUser = pUser;
m_pMapData = pMapData;
m_pConsole = pConsole;
IOHANDLE DemoFile = pStorage->OpenFile(pFilename, IOFLAG_WRITE, IStorage::TYPE_SAVE);
if(!DemoFile)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "Unable to open '%s' for recording", pFilename);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_recorder", aBuf, gs_DemoPrintColor);
}
return -1;
}
if(m_File)
{
io_close(DemoFile);
return -1;
}
bool CloseMapFile = false;
if(MapFile)
io_seek(MapFile, 0, IOSEEK_START);
char aSha256[SHA256_MAXSTRSIZE];
if(pSha256)
sha256_str(*pSha256, aSha256, sizeof(aSha256));
if(!pMapData && !MapFile)
{
// open mapfile
char aMapFilename[128];
// try the downloaded maps
if(pSha256)
{
str_format(aMapFilename, sizeof(aMapFilename), "downloadedmaps/%s_%s.map", pMap, aSha256);
}
else
{
str_format(aMapFilename, sizeof(aMapFilename), "downloadedmaps/%s_%08x.map", pMap, Crc);
}
MapFile = pStorage->OpenFile(aMapFilename, IOFLAG_READ, IStorage::TYPE_ALL);
if(!MapFile)
{
// try the normal maps folder
str_format(aMapFilename, sizeof(aMapFilename), "maps/%s.map", pMap);
MapFile = pStorage->OpenFile(aMapFilename, IOFLAG_READ, IStorage::TYPE_ALL);
}
if(!MapFile)
{
// search for the map within subfolders
char aBuf[512];
str_format(aMapFilename, sizeof(aMapFilename), "%s.map", pMap);
if(pStorage->FindFile(aMapFilename, "maps", IStorage::TYPE_ALL, aBuf, sizeof(aBuf)))
MapFile = pStorage->OpenFile(aBuf, IOFLAG_READ, IStorage::TYPE_ALL);
}
if(!MapFile)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "Unable to open mapfile '%s'", pMap);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_recorder", aBuf, gs_DemoPrintColor);
}
return -1;
}
CloseMapFile = true;
}
if(m_NoMapData)
MapSize = 0;
else if(MapFile)
MapSize = io_length(MapFile);
// write header
CDemoHeader Header;
mem_zero(&Header, sizeof(Header));
mem_copy(Header.m_aMarker, gs_aHeaderMarker, sizeof(Header.m_aMarker));
Header.m_Version = gs_CurVersion;
str_copy(Header.m_aNetversion, pNetVersion);
str_copy(Header.m_aMapName, pMap);
uint_to_bytes_be(Header.m_aMapSize, MapSize);
uint_to_bytes_be(Header.m_aMapCrc, Crc);
str_copy(Header.m_aType, pType);
// Header.m_Length - add this on stop
str_timestamp(Header.m_aTimestamp, sizeof(Header.m_aTimestamp));
io_write(DemoFile, &Header, sizeof(Header));
CTimelineMarkers TimelineMarkers;
mem_zero(&TimelineMarkers, sizeof(TimelineMarkers));
io_write(DemoFile, &TimelineMarkers, sizeof(TimelineMarkers)); // fill this on stop
//Write Sha256
io_write(DemoFile, SHA256_EXTENSION.m_aData, sizeof(SHA256_EXTENSION.m_aData));
io_write(DemoFile, pSha256, sizeof(SHA256_DIGEST));
if(m_NoMapData)
{
}
else if(pMapData)
{
io_write(DemoFile, pMapData, MapSize);
}
else
{
// write map data
while(true)
{
unsigned char aChunk[1024 * 64];
mem_zero(aChunk, sizeof(aChunk));
int Bytes = io_read(MapFile, &aChunk, sizeof(aChunk));
if(Bytes <= 0)
break;
io_write(DemoFile, &aChunk, Bytes);
}
if(CloseMapFile)
io_close(MapFile);
else
io_seek(MapFile, 0, IOSEEK_START);
}
m_LastKeyFrame = -1;
m_LastTickMarker = -1;
m_FirstTick = -1;
m_NumTimelineMarkers = 0;
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "Recording to '%s'", pFilename);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_recorder", aBuf, gs_DemoPrintColor);
}
m_File = DemoFile;
str_copy(m_aCurrentFilename, pFilename);
return 0;
}
/*
Tickmarker
7 = Always set
6 = Keyframe flag
0-5 = Delta tick
Normal
7 = Not set
5-6 = Type
0-4 = Size
*/
enum
{
CHUNKTYPEFLAG_TICKMARKER = 0x80,
CHUNKTICKFLAG_KEYFRAME = 0x40, // only when tickmarker is set
CHUNKTICKFLAG_TICK_COMPRESSED = 0x20, // when we store the tick value in the first chunk
CHUNKMASK_TICK = 0x1f,
CHUNKMASK_TICK_LEGACY = 0x3f,
CHUNKMASK_TYPE = 0x60,
CHUNKMASK_SIZE = 0x1f,
CHUNKTYPE_SNAPSHOT = 1,
CHUNKTYPE_MESSAGE = 2,
CHUNKTYPE_DELTA = 3,
CHUNKFLAG_BIGSIZE = 0x10
};
void CDemoRecorder::WriteTickMarker(int Tick, int Keyframe)
{
if(m_LastTickMarker == -1 || Tick - m_LastTickMarker > CHUNKMASK_TICK || Keyframe)
{
unsigned char aChunk[5];
aChunk[0] = CHUNKTYPEFLAG_TICKMARKER;
uint_to_bytes_be(aChunk + 1, Tick);
if(Keyframe)
aChunk[0] |= CHUNKTICKFLAG_KEYFRAME;
io_write(m_File, aChunk, sizeof(aChunk));
}
else
{
unsigned char aChunk[1];
aChunk[0] = CHUNKTYPEFLAG_TICKMARKER | CHUNKTICKFLAG_TICK_COMPRESSED | (Tick - m_LastTickMarker);
io_write(m_File, aChunk, sizeof(aChunk));
}
m_LastTickMarker = Tick;
if(m_FirstTick < 0)
m_FirstTick = Tick;
}
void CDemoRecorder::Write(int Type, const void *pData, int Size)
{
if(!m_File)
return;
if(Size > 64 * 1024)
return;
/* pad the data with 0 so we get an alignment of 4,
else the compression won't work and miss some bytes */
char aBuffer[64 * 1024];
char aBuffer2[64 * 1024];
mem_copy(aBuffer2, pData, Size);
while(Size & 3)
aBuffer2[Size++] = 0;
Size = CVariableInt::Compress(aBuffer2, Size, aBuffer, sizeof(aBuffer)); // buffer2 -> buffer
if(Size < 0)
return;
Size = CNetBase::Compress(aBuffer, Size, aBuffer2, sizeof(aBuffer2)); // buffer -> buffer2
if(Size < 0)
return;
unsigned char aChunk[3];
aChunk[0] = ((Type & 0x3) << 5);
if(Size < 30)
{
aChunk[0] |= Size;
io_write(m_File, aChunk, 1);
}
else
{
if(Size < 256)
{
aChunk[0] |= 30;
aChunk[1] = Size & 0xff;
io_write(m_File, aChunk, 2);
}
else
{
aChunk[0] |= 31;
aChunk[1] = Size & 0xff;
aChunk[2] = Size >> 8;
io_write(m_File, aChunk, 3);
}
}
io_write(m_File, aBuffer2, Size);
}
void CDemoRecorder::RecordSnapshot(int Tick, const void *pData, int Size)
{
if(m_LastKeyFrame == -1 || (Tick - m_LastKeyFrame) > SERVER_TICK_SPEED * 5)
{
// write full tickmarker
WriteTickMarker(Tick, 1);
// write snapshot
Write(CHUNKTYPE_SNAPSHOT, pData, Size);
m_LastKeyFrame = Tick;
mem_copy(m_aLastSnapshotData, pData, Size);
}
else
{
// create delta, prepend tick
char aDeltaData[CSnapshot::MAX_SIZE + sizeof(int)];
int DeltaSize;
// write tickmarker
WriteTickMarker(Tick, 0);
DeltaSize = m_pSnapshotDelta->CreateDelta((CSnapshot *)m_aLastSnapshotData, (CSnapshot *)pData, &aDeltaData);
if(DeltaSize)
{
// record delta
Write(CHUNKTYPE_DELTA, aDeltaData, DeltaSize);
mem_copy(m_aLastSnapshotData, pData, Size);
}
}
}
void CDemoRecorder::RecordMessage(const void *pData, int Size)
{
if(m_pfnFilter)
{
if(m_pfnFilter(pData, Size, m_pUser))
{
return;
}
}
Write(CHUNKTYPE_MESSAGE, pData, Size);
}
int CDemoRecorder::Stop()
{
if(!m_File)
return -1;
// add the demo length to the header
io_seek(m_File, gs_LengthOffset, IOSEEK_START);
unsigned char aLength[4];
int_to_bytes_be(aLength, Length());
io_write(m_File, aLength, sizeof(aLength));
// add the timeline markers to the header
io_seek(m_File, gs_NumMarkersOffset, IOSEEK_START);
unsigned char aNumMarkers[4];
int_to_bytes_be(aNumMarkers, m_NumTimelineMarkers);
io_write(m_File, aNumMarkers, sizeof(aNumMarkers));
for(int i = 0; i < m_NumTimelineMarkers; i++)
{
unsigned char aMarker[4];
int_to_bytes_be(aMarker, m_aTimelineMarkers[i]);
io_write(m_File, aMarker, sizeof(aMarker));
}
io_close(m_File);
m_File = 0;
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_recorder", "Stopped recording", gs_DemoPrintColor);
return 0;
}
void CDemoRecorder::AddDemoMarker()
{
if(m_LastTickMarker < 0)
return;
AddDemoMarker(m_LastTickMarker);
}
void CDemoRecorder::AddDemoMarker(int Tick)
{
dbg_assert(Tick >= 0, "invalid marker tick");
if(m_NumTimelineMarkers >= MAX_TIMELINE_MARKERS)
return;
// not more than 1 marker in a second
if(m_NumTimelineMarkers > 0)
{
int Diff = Tick - m_aTimelineMarkers[m_NumTimelineMarkers - 1];
if(Diff < (float)SERVER_TICK_SPEED)
return;
}
m_aTimelineMarkers[m_NumTimelineMarkers++] = Tick;
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_recorder", "Added timeline marker", gs_DemoPrintColor);
}
CDemoPlayer::CDemoPlayer(class CSnapshotDelta *pSnapshotDelta, TUpdateIntraTimesFunc &&UpdateIntraTimesFunc)
{
Construct(pSnapshotDelta);
m_UpdateIntraTimesFunc = UpdateIntraTimesFunc;
}
CDemoPlayer::CDemoPlayer(class CSnapshotDelta *pSnapshotDelta)
{
Construct(pSnapshotDelta);
}
void CDemoPlayer::Construct(class CSnapshotDelta *pSnapshotDelta)
{
m_File = 0;
m_pKeyFrames = 0;
m_SpeedIndex = 4;
m_pSnapshotDelta = pSnapshotDelta;
m_LastSnapshotDataSize = -1;
}
void CDemoPlayer::SetListener(IListener *pListener)
{
m_pListener = pListener;
}
int CDemoPlayer::ReadChunkHeader(int *pType, int *pSize, int *pTick)
{
*pSize = 0;
*pType = 0;
if(m_File == NULL)
return -1;
unsigned char Chunk = 0;
if(io_read(m_File, &Chunk, sizeof(Chunk)) != sizeof(Chunk))
return -1;
if(Chunk & CHUNKTYPEFLAG_TICKMARKER)
{
// decode tick marker
int Tickdelta_legacy = Chunk & (CHUNKMASK_TICK_LEGACY); // compatibility
*pType = Chunk & (CHUNKTYPEFLAG_TICKMARKER | CHUNKTICKFLAG_KEYFRAME);
if(m_Info.m_Header.m_Version < gs_VersionTickCompression && Tickdelta_legacy != 0)
{
*pTick += Tickdelta_legacy;
}
else if(Chunk & (CHUNKTICKFLAG_TICK_COMPRESSED))
{
int Tickdelta = Chunk & (CHUNKMASK_TICK);
*pTick += Tickdelta;
}
else
{
unsigned char aTickdata[4];
if(io_read(m_File, aTickdata, sizeof(aTickdata)) != sizeof(aTickdata))
return -1;
*pTick = bytes_be_to_int(aTickdata);
}
}
else
{
// decode normal chunk
*pType = (Chunk & CHUNKMASK_TYPE) >> 5;
*pSize = Chunk & CHUNKMASK_SIZE;
if(*pSize == 30)
{
unsigned char aSizedata[1];
if(io_read(m_File, aSizedata, sizeof(aSizedata)) != sizeof(aSizedata))
return -1;
*pSize = aSizedata[0];
}
else if(*pSize == 31)
{
unsigned char aSizedata[2];
if(io_read(m_File, aSizedata, sizeof(aSizedata)) != sizeof(aSizedata))
return -1;
*pSize = (aSizedata[1] << 8) | aSizedata[0];
}
}
return 0;
}
void CDemoPlayer::ScanFile()
{
CHeap Heap;
CKeyFrameSearch *pFirstKey = 0;
CKeyFrameSearch *pCurrentKey = 0;
int ChunkTick = 0;
long StartPos = io_tell(m_File);
m_Info.m_SeekablePoints = 0;
while(true)
{
long CurrentPos = io_tell(m_File);
int ChunkSize, ChunkType;
if(ReadChunkHeader(&ChunkType, &ChunkSize, &ChunkTick))
break;
// read the chunk
if(ChunkType & CHUNKTYPEFLAG_TICKMARKER)
{
if(ChunkType & CHUNKTICKFLAG_KEYFRAME)
{
CKeyFrameSearch *pKey;
// save the position
pKey = (CKeyFrameSearch *)Heap.Allocate(sizeof(CKeyFrameSearch));
pKey->m_Frame.m_Filepos = CurrentPos;
pKey->m_Frame.m_Tick = ChunkTick;
pKey->m_pNext = 0;
if(pCurrentKey)
pCurrentKey->m_pNext = pKey;
if(!pFirstKey)
pFirstKey = pKey;
pCurrentKey = pKey;
m_Info.m_SeekablePoints++;
}
if(m_Info.m_Info.m_FirstTick == -1)
m_Info.m_Info.m_FirstTick = ChunkTick;
m_Info.m_Info.m_LastTick = ChunkTick;
}
else if(ChunkSize)
io_skip(m_File, ChunkSize);
}
// copy all the frames to an array instead for fast access
int i;
m_pKeyFrames = (CKeyFrame *)calloc(maximum(m_Info.m_SeekablePoints, 1), sizeof(CKeyFrame));
for(pCurrentKey = pFirstKey, i = 0; pCurrentKey; pCurrentKey = pCurrentKey->m_pNext, i++)
m_pKeyFrames[i] = pCurrentKey->m_Frame;
// destroy the temporary heap and seek back to the start
io_seek(m_File, StartPos, IOSEEK_START);
}
void CDemoPlayer::DoTick()
{
// update ticks
m_Info.m_PreviousTick = m_Info.m_Info.m_CurrentTick;
m_Info.m_Info.m_CurrentTick = m_Info.m_NextTick;
int ChunkTick = m_Info.m_Info.m_CurrentTick;
int64_t Freq = time_freq();
int64_t CurtickStart = (m_Info.m_Info.m_CurrentTick) * Freq / SERVER_TICK_SPEED;
int64_t PrevtickStart = (m_Info.m_PreviousTick) * Freq / SERVER_TICK_SPEED;
m_Info.m_IntraTick = (m_Info.m_CurrentTime - PrevtickStart) / (float)(CurtickStart - PrevtickStart);
m_Info.m_IntraTickSincePrev = (m_Info.m_CurrentTime - PrevtickStart) / (float)(Freq / SERVER_TICK_SPEED);
m_Info.m_TickTime = (m_Info.m_CurrentTime - PrevtickStart) / (float)Freq;
if(m_UpdateIntraTimesFunc)
m_UpdateIntraTimesFunc();
bool GotSnapshot = false;
while(true)
{
int ChunkType, ChunkSize;
if(ReadChunkHeader(&ChunkType, &ChunkSize, &ChunkTick))
{
// stop on error or eof
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", "end of file");
#if defined(CONF_VIDEORECORDER)
if(IVideo::Current())
Stop();
#endif
if(m_Info.m_PreviousTick == -1)
{
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_player", "empty demo");
Stop();
}
else
Pause();
break;
}
// read the chunk
int DataSize = 0;
static char s_aData[CSnapshot::MAX_SIZE];
if(ChunkSize)
{
static char s_aCompresseddata[CSnapshot::MAX_SIZE];
if(io_read(m_File, s_aCompresseddata, ChunkSize) != (unsigned)ChunkSize)
{
// stop on error or eof
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", "error reading chunk");
Stop();
break;
}
static char s_aDecompressed[CSnapshot::MAX_SIZE];
DataSize = CNetBase::Decompress(s_aCompresseddata, ChunkSize, s_aDecompressed, sizeof(s_aDecompressed));
if(DataSize < 0)
{
// stop on error or eof
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", "error during network decompression");
Stop();
break;
}
DataSize = CVariableInt::Decompress(s_aDecompressed, DataSize, s_aData, sizeof(s_aData));
if(DataSize < 0)
{
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", "error during intpack decompression");
Stop();
break;
}
}
if(ChunkType == CHUNKTYPE_DELTA)
{
// process delta snapshot
static char s_aNewsnap[CSnapshot::MAX_SIZE];
CSnapshot *pNewsnap = (CSnapshot *)s_aNewsnap;
DataSize = m_pSnapshotDelta->UnpackDelta((CSnapshot *)m_aLastSnapshotData, pNewsnap, s_aData, DataSize);
if(DataSize < 0)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "error during unpacking of delta, err=%d", DataSize);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", aBuf);
}
}
else if(!pNewsnap->IsValid(DataSize))
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "snapshot delta invalid. DataSize=%d", DataSize);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", aBuf);
}
}
else
{
if(m_pListener)
m_pListener->OnDemoPlayerSnapshot(s_aNewsnap, DataSize);
m_LastSnapshotDataSize = DataSize;
mem_copy(m_aLastSnapshotData, s_aNewsnap, DataSize);
GotSnapshot = true;
}
}
else if(ChunkType == CHUNKTYPE_SNAPSHOT)
{
// process full snapshot
CSnapshot *pSnap = (CSnapshot *)s_aData;
if(!pSnap->IsValid(DataSize))
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "snapshot invalid. DataSize=%d", DataSize);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", aBuf);
}
}
else
{
GotSnapshot = true;
m_LastSnapshotDataSize = DataSize;
mem_copy(m_aLastSnapshotData, s_aData, DataSize);
if(m_pListener)
m_pListener->OnDemoPlayerSnapshot(s_aData, DataSize);
}
}
else
{
// if there were no snapshots in this tick, replay the last one
if(!GotSnapshot && m_pListener && m_LastSnapshotDataSize != -1)
{
GotSnapshot = true;
m_pListener->OnDemoPlayerSnapshot(m_aLastSnapshotData, m_LastSnapshotDataSize);
}
// check the remaining types
if(ChunkType & CHUNKTYPEFLAG_TICKMARKER)
{
m_Info.m_NextTick = ChunkTick;
break;
}
else if(ChunkType == CHUNKTYPE_MESSAGE)
{
if(m_pListener)
m_pListener->OnDemoPlayerMessage(s_aData, DataSize);
}
}
}
}
void CDemoPlayer::Pause()
{
m_Info.m_Info.m_Paused = true;
#if defined(CONF_VIDEORECORDER)
if(IVideo::Current() && g_Config.m_ClVideoPauseWithDemo)
IVideo::Current()->Pause(true);
#endif
}
void CDemoPlayer::Unpause()
{
m_Info.m_Info.m_Paused = false;
#if defined(CONF_VIDEORECORDER)
if(IVideo::Current() && g_Config.m_ClVideoPauseWithDemo)
IVideo::Current()->Pause(false);
#endif
}
int CDemoPlayer::Load(class IStorage *pStorage, class IConsole *pConsole, const char *pFilename, int StorageType)
{
m_pConsole = pConsole;
m_File = pStorage->OpenFile(pFilename, IOFLAG_READ, StorageType);
if(!m_File)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "could not open '%s'", pFilename);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_player", aBuf);
}
return -1;
}
// store the filename
str_copy(m_aFilename, pFilename);
// clear the playback info
mem_zero(&m_Info, sizeof(m_Info));
m_Info.m_Info.m_FirstTick = -1;
m_Info.m_Info.m_LastTick = -1;
m_Info.m_NextTick = -1;
m_Info.m_Info.m_CurrentTick = -1;
m_Info.m_PreviousTick = -1;
m_Info.m_Info.m_Speed = 1;
m_SpeedIndex = 4;
m_LastSnapshotDataSize = -1;
// read the header
io_read(m_File, &m_Info.m_Header, sizeof(m_Info.m_Header));
if(mem_comp(m_Info.m_Header.m_aMarker, gs_aHeaderMarker, sizeof(gs_aHeaderMarker)) != 0)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "'%s' is not a demo file", pFilename);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_player", aBuf);
}
io_close(m_File);
m_File = 0;
return -1;
}
if(m_Info.m_Header.m_Version < gs_OldVersion)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "demo version %d is not supported", m_Info.m_Header.m_Version);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_player", aBuf);
}
io_close(m_File);
m_File = 0;
return -1;
}
else if(m_Info.m_Header.m_Version > gs_OldVersion)
io_read(m_File, &m_Info.m_TimelineMarkers, sizeof(m_Info.m_TimelineMarkers));
SHA256_DIGEST Sha256 = SHA256_ZEROED;
if(m_Info.m_Header.m_Version >= gs_Sha256Version)
{
CUuid ExtensionUuid = {};
io_read(m_File, &ExtensionUuid.m_aData, sizeof(ExtensionUuid.m_aData));
if(ExtensionUuid == SHA256_EXTENSION)
{
io_read(m_File, &Sha256, sizeof(SHA256_DIGEST)); // need a safe read
}
else
{
// This hopes whatever happened during the version increment didn't add something here
dbg_msg("demo", "demo version incremented, but not by ddnet");
io_seek(m_File, -(int)sizeof(ExtensionUuid.m_aData), IOSEEK_CUR);
}
}
// get demo type
if(!str_comp(m_Info.m_Header.m_aType, "client"))
m_DemoType = DEMOTYPE_CLIENT;
else if(!str_comp(m_Info.m_Header.m_aType, "server"))
m_DemoType = DEMOTYPE_SERVER;
else
m_DemoType = DEMOTYPE_INVALID;
// read map
unsigned MapSize = bytes_be_to_uint(m_Info.m_Header.m_aMapSize);
// check if we already have the map
// TODO: improve map checking (maps folder, check crc)
unsigned Crc = bytes_be_to_uint(m_Info.m_Header.m_aMapCrc);
// save byte offset of map for later use
m_MapOffset = io_tell(m_File);
io_skip(m_File, MapSize);
// store map information
m_MapInfo.m_Crc = Crc;
m_MapInfo.m_Sha256 = Sha256;
m_MapInfo.m_Size = MapSize;
str_copy(m_MapInfo.m_aName, m_Info.m_Header.m_aMapName);
if(m_Info.m_Header.m_Version > gs_OldVersion)
{
// get timeline markers
int Num = bytes_be_to_int(m_Info.m_TimelineMarkers.m_aNumTimelineMarkers);
m_Info.m_Info.m_NumTimelineMarkers = clamp(Num, 0, MAX_TIMELINE_MARKERS);
for(int i = 0; i < m_Info.m_Info.m_NumTimelineMarkers; i++)
{
m_Info.m_Info.m_aTimelineMarkers[i] = bytes_be_to_int(m_Info.m_TimelineMarkers.m_aTimelineMarkers[i]);
}
}
// scan the file for interesting points
ScanFile();
// reset slice markers
g_Config.m_ClDemoSliceBegin = -1;
g_Config.m_ClDemoSliceEnd = -1;
// ready for playback
return 0;
}
unsigned char *CDemoPlayer::GetMapData(class IStorage *pStorage)
{
if(!m_MapInfo.m_Size)
return 0;
long CurSeek = io_tell(m_File);
// get map data
io_seek(m_File, m_MapOffset, IOSEEK_START);
unsigned char *pMapData = (unsigned char *)malloc(m_MapInfo.m_Size);
io_read(m_File, pMapData, m_MapInfo.m_Size);
io_seek(m_File, CurSeek, IOSEEK_START);
return pMapData;
}
bool CDemoPlayer::ExtractMap(class IStorage *pStorage)
{
unsigned char *pMapData = GetMapData(pStorage);
if(!pMapData)
return false;
// handle sha256
SHA256_DIGEST Sha256 = SHA256_ZEROED;
if(m_Info.m_Header.m_Version >= gs_Sha256Version)
Sha256 = m_MapInfo.m_Sha256;
else
{
Sha256 = sha256(pMapData, m_MapInfo.m_Size);
m_MapInfo.m_Sha256 = Sha256;
}
// construct name
char aSha[SHA256_MAXSTRSIZE], aMapFilename[128];
sha256_str(Sha256, aSha, sizeof(aSha));
str_format(aMapFilename, sizeof(aMapFilename), "downloadedmaps/%s_%s.map", m_Info.m_Header.m_aMapName, aSha);
// save map
IOHANDLE MapFile = pStorage->OpenFile(aMapFilename, IOFLAG_WRITE, IStorage::TYPE_SAVE);
if(!MapFile)
return false;
io_write(MapFile, pMapData, m_MapInfo.m_Size);
io_close(MapFile);
// free data
free(pMapData);
return true;
}
int64_t CDemoPlayer::Time()
{
#if defined(CONF_VIDEORECORDER)
static bool s_Recording = false;
if(IVideo::Current())
{
if(!s_Recording)
{
s_Recording = true;
m_Info.m_LastUpdate = IVideo::Time();
}
return IVideo::Time();
}
else
{
int64_t Now = time_get();
if(s_Recording)
{
s_Recording = false;
m_Info.m_LastUpdate = Now;
}
return Now;
}
#else
return time_get();
#endif
}
int CDemoPlayer::Play()
{
// fill in previous and next tick
while(m_Info.m_PreviousTick == -1 && IsPlaying())
DoTick();
// set start info
m_Info.m_CurrentTime = m_Info.m_PreviousTick * time_freq() / SERVER_TICK_SPEED;
m_Info.m_LastUpdate = Time();
return 0;
}
int CDemoPlayer::SeekPercent(float Percent)
{
int WantedTick = m_Info.m_Info.m_FirstTick + round_truncate((m_Info.m_Info.m_LastTick - m_Info.m_Info.m_FirstTick) * Percent);
return SetPos(WantedTick);
}
int CDemoPlayer::SeekTime(float Seconds)
{
int WantedTick = m_Info.m_Info.m_CurrentTick + round_truncate(Seconds * (float)SERVER_TICK_SPEED);
return SetPos(WantedTick);
}
int CDemoPlayer::SeekTick(ETickOffset TickOffset)
{
int WantedTick;
switch(TickOffset)
{
case TICK_CURRENT:
WantedTick = m_Info.m_Info.m_CurrentTick;
break;
case TICK_PREVIOUS:
WantedTick = m_Info.m_PreviousTick;
break;
case TICK_NEXT:
WantedTick = m_Info.m_NextTick;
break;
default:
dbg_assert(false, "Invalid TickOffset");
WantedTick = -1;
break;
}
// +1 because SetPos will seek until the given tick is the next tick that
// will be played back, whereas we want the wanted tick to be played now.
return SetPos(WantedTick + 1);
}
int CDemoPlayer::SetPos(int WantedTick)
{
if(!m_File)
return -1;
WantedTick = clamp(WantedTick, m_Info.m_Info.m_FirstTick, m_Info.m_Info.m_LastTick);
const int KeyFrameWantedTick = WantedTick - 5; // -5 because we have to have a current tick and previous tick when we do the playback
const float Percent = (KeyFrameWantedTick - m_Info.m_Info.m_FirstTick) / (float)(m_Info.m_Info.m_LastTick - m_Info.m_Info.m_FirstTick);
// get correct key frame
int KeyFrame = clamp((int)(m_Info.m_SeekablePoints * Percent), 0, m_Info.m_SeekablePoints - 1);
while(KeyFrame < m_Info.m_SeekablePoints - 1 && m_pKeyFrames[KeyFrame].m_Tick < KeyFrameWantedTick)
KeyFrame++;
while(KeyFrame > 0 && m_pKeyFrames[KeyFrame].m_Tick > KeyFrameWantedTick)
KeyFrame--;
// seek to the correct key frame
io_seek(m_File, m_pKeyFrames[KeyFrame].m_Filepos, IOSEEK_START);
m_Info.m_NextTick = -1;
m_Info.m_Info.m_CurrentTick = -1;
m_Info.m_PreviousTick = -1;
// playback everything until we hit our tick
while(m_Info.m_NextTick < WantedTick)
DoTick();
Play();
return 0;
}
void CDemoPlayer::SetSpeed(float Speed)
{
m_Info.m_Info.m_Speed = clamp(Speed, 0.f, 256.f);
}
void CDemoPlayer::SetSpeedIndex(int Offset)
{
m_SpeedIndex = clamp(m_SpeedIndex + Offset, 0, (int)(std::size(g_aSpeeds) - 1));
SetSpeed(g_aSpeeds[m_SpeedIndex]);
}
int CDemoPlayer::Update(bool RealTime)
{
int64_t Now = Time();
int64_t Deltatime = Now - m_Info.m_LastUpdate;
m_Info.m_LastUpdate = Now;
if(!IsPlaying())
return 0;
const int64_t Freq = time_freq();
if(!m_Info.m_Info.m_Paused)
{
m_Info.m_CurrentTime += (int64_t)(Deltatime * (double)m_Info.m_Info.m_Speed);
while(!m_Info.m_Info.m_Paused)
{
int64_t CurtickStart = (m_Info.m_Info.m_CurrentTick) * Freq / SERVER_TICK_SPEED;
// break if we are ready
if(RealTime && CurtickStart > m_Info.m_CurrentTime)
break;
// do one more tick
DoTick();
}
}
// update intratick
{
int64_t CurtickStart = (m_Info.m_Info.m_CurrentTick) * Freq / SERVER_TICK_SPEED;
int64_t PrevtickStart = (m_Info.m_PreviousTick) * Freq / SERVER_TICK_SPEED;
m_Info.m_IntraTick = (m_Info.m_CurrentTime - PrevtickStart) / (float)(CurtickStart - PrevtickStart);
m_Info.m_IntraTickSincePrev = (m_Info.m_CurrentTime - PrevtickStart) / (float)(Freq / SERVER_TICK_SPEED);
m_Info.m_TickTime = (m_Info.m_CurrentTime - PrevtickStart) / (float)Freq;
if(m_UpdateIntraTimesFunc)
m_UpdateIntraTimesFunc();
}
if(m_Info.m_Info.m_CurrentTick == m_Info.m_PreviousTick || m_Info.m_Info.m_CurrentTick == m_Info.m_NextTick)
{
if(m_pConsole)
{
char aBuf[256];
str_format(aBuf, sizeof(aBuf), "tick error prev=%d cur=%d next=%d",
m_Info.m_PreviousTick, m_Info.m_Info.m_CurrentTick, m_Info.m_NextTick);
m_pConsole->Print(IConsole::OUTPUT_LEVEL_ADDINFO, "demo_player", aBuf);
}
}
return 0;
}
int CDemoPlayer::Stop()
{
#if defined(CONF_VIDEORECORDER)
if(IVideo::Current())
IVideo::Current()->Stop();
#endif
if(!m_File)
return -1;
if(m_pConsole)
m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "demo_player", "Stopped playback");
io_close(m_File);
m_File = 0;
free(m_pKeyFrames);
m_pKeyFrames = 0;
str_copy(m_aFilename, "");
return 0;
}
void CDemoPlayer::GetDemoName(char *pBuffer, int BufferSize) const
{
const char *pFileName = m_aFilename;
const char *pExtractedName = pFileName;
const char *pEnd = 0;
for(; *pFileName; ++pFileName)
{
if(*pFileName == '/' || *pFileName == '\\')
pExtractedName = pFileName + 1;
else if(*pFileName == '.')
pEnd = pFileName;
}
int Length = pEnd > pExtractedName ? minimum(BufferSize, (int)(pEnd - pExtractedName + 1)) : BufferSize;
str_copy(pBuffer, pExtractedName, Length);
}
bool CDemoPlayer::GetDemoInfo(class IStorage *pStorage, const char *pFilename, int StorageType, CDemoHeader *pDemoHeader, CTimelineMarkers *pTimelineMarkers, CMapInfo *pMapInfo) const
{
if(!pDemoHeader || !pTimelineMarkers || !pMapInfo)
return false;
mem_zero(pDemoHeader, sizeof(CDemoHeader));
mem_zero(pTimelineMarkers, sizeof(CTimelineMarkers));
IOHANDLE File = pStorage->OpenFile(pFilename, IOFLAG_READ, StorageType);
if(!File)
return false;
io_read(File, pDemoHeader, sizeof(CDemoHeader));
io_read(File, pTimelineMarkers, sizeof(CTimelineMarkers));
str_copy(pMapInfo->m_aName, pDemoHeader->m_aMapName);
pMapInfo->m_Crc = bytes_be_to_int(pDemoHeader->m_aMapCrc);
SHA256_DIGEST Sha256 = SHA256_ZEROED;
if(pDemoHeader->m_Version >= gs_Sha256Version)
{
CUuid ExtensionUuid = {};
io_read(File, &ExtensionUuid.m_aData, sizeof(ExtensionUuid.m_aData));
if(ExtensionUuid == SHA256_EXTENSION)
{
io_read(File, &Sha256, sizeof(SHA256_DIGEST)); // need a safe read
}
else
{
// This hopes whatever happened during the version increment didn't add something here
dbg_msg("demo", "demo version incremented, but not by ddnet");
io_seek(File, -(int)sizeof(ExtensionUuid.m_aData), IOSEEK_CUR);
}
}
pMapInfo->m_Sha256 = Sha256;
pMapInfo->m_Size = bytes_be_to_int(pDemoHeader->m_aMapSize);
io_close(File);
return !(mem_comp(pDemoHeader->m_aMarker, gs_aHeaderMarker, sizeof(gs_aHeaderMarker)) || pDemoHeader->m_Version < gs_OldVersion);
}
int CDemoPlayer::GetDemoType() const
{
if(m_File)
return m_DemoType;
return DEMOTYPE_INVALID;
}
void CDemoEditor::Init(const char *pNetVersion, class CSnapshotDelta *pSnapshotDelta, class IConsole *pConsole, class IStorage *pStorage)
{
m_pNetVersion = pNetVersion;
m_pSnapshotDelta = pSnapshotDelta;
m_pConsole = pConsole;
m_pStorage = pStorage;
}
void CDemoEditor::Slice(const char *pDemo, const char *pDst, int StartTick, int EndTick, DEMOFUNC_FILTER pfnFilter, void *pUser)
{
class CDemoPlayer DemoPlayer(m_pSnapshotDelta);
class CDemoRecorder DemoRecorder(m_pSnapshotDelta);
m_pDemoPlayer = &DemoPlayer;
m_pDemoRecorder = &DemoRecorder;
m_pDemoPlayer->SetListener(this);
m_SliceFrom = StartTick;
m_SliceTo = EndTick;
m_Stop = false;
if(m_pDemoPlayer->Load(m_pStorage, m_pConsole, pDemo, IStorage::TYPE_ALL_OR_ABSOLUTE) == -1)
return;
const CMapInfo *pMapInfo = m_pDemoPlayer->GetMapInfo();
const CDemoPlayer::CPlaybackInfo *pInfo = m_pDemoPlayer->Info();
SHA256_DIGEST Sha256 = pMapInfo->m_Sha256;
if(pInfo->m_Header.m_Version < gs_Sha256Version)
{
if(m_pDemoPlayer->ExtractMap(m_pStorage))
Sha256 = pMapInfo->m_Sha256;
}
unsigned char *pMapData = m_pDemoPlayer->GetMapData(m_pStorage);
const int Result = m_pDemoRecorder->Start(m_pStorage, m_pConsole, pDst, m_pNetVersion, pMapInfo->m_aName, &Sha256, pMapInfo->m_Crc, "client", pMapInfo->m_Size, pMapData, NULL, pfnFilter, pUser) == -1;
free(pMapData);
if(Result != 0)
return;
m_pDemoPlayer->Play();
while(m_pDemoPlayer->IsPlaying() && !m_Stop)
{
m_pDemoPlayer->Update(false);
if(pInfo->m_Info.m_Paused)
break;
}
// Copy timeline markers to sliced demo
for(int i = 0; i < pInfo->m_Info.m_NumTimelineMarkers; i++)
{
if((m_SliceFrom == -1 || pInfo->m_Info.m_aTimelineMarkers[i] >= m_SliceFrom) && (m_SliceTo == -1 || pInfo->m_Info.m_aTimelineMarkers[i] <= m_SliceTo))
{
m_pDemoRecorder->AddDemoMarker(pInfo->m_Info.m_aTimelineMarkers[i]);
}
}
m_pDemoPlayer->Stop();
m_pDemoRecorder->Stop();
} // NOLINT(clang-analyzer-unix.Malloc)
void CDemoEditor::OnDemoPlayerSnapshot(void *pData, int Size)
{
const CDemoPlayer::CPlaybackInfo *pInfo = m_pDemoPlayer->Info();
if(m_SliceTo != -1 && pInfo->m_Info.m_CurrentTick > m_SliceTo)
m_Stop = true;
else if(m_SliceFrom == -1 || pInfo->m_Info.m_CurrentTick >= m_SliceFrom)
m_pDemoRecorder->RecordSnapshot(pInfo->m_Info.m_CurrentTick, pData, Size);
}
void CDemoEditor::OnDemoPlayerMessage(void *pData, int Size)
{
const CDemoPlayer::CPlaybackInfo *pInfo = m_pDemoPlayer->Info();
if(m_SliceTo != -1 && pInfo->m_Info.m_CurrentTick > m_SliceTo)
m_Stop = true;
else if(m_SliceFrom == -1 || pInfo->m_Info.m_CurrentTick >= m_SliceFrom)
m_pDemoRecorder->RecordMessage(pData, Size);
}