source-engine/replay/sv_commands.cpp

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2020-04-22 16:56:21 +00:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
//=======================================================================================//
#include "replaysystem.h"
#include "sv_sessionrecorder.h"
#include "utlbuffer.h"
#include "sessioninfoheader.h"
#include "sv_fileservercleanup.h"
#include "sv_publishtest.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
//----------------------------------------------------------------------------------------
#define ENSURE_DEDICATED() if ( !g_pEngine->IsDedicated() ) return;
//----------------------------------------------------------------------------------------
CON_COMMAND( replay_record, "Starts Replay demo recording." )
{
ENSURE_DEDICATED();
SV_GetSessionRecorder()->StartRecording();
}
//----------------------------------------------------------------------------------------
CON_COMMAND( replay_stoprecord, "Stop Replay demo recording." )
{
ENSURE_DEDICATED();
g_pReplay->SV_EndRecordingSession();
}
//----------------------------------------------------------------------------------------
CON_COMMAND( replay_docleanup, "Deletes stale session data from the fileserver. \"replay_docleanup force\" will remove all replay session data." )
{
ENSURE_DEDICATED();
bool bForceCleanAll = false;
if ( args.ArgC() == 2 )
{
if ( !V_stricmp( args[1], "force" ) )
{
bForceCleanAll = true;
}
else
{
ConMsg( "\n ** ERROR: '%s' is not a valid paramter - use 'force' to force clean all replay session data.\n\n", args[1] );
return;
}
}
if ( !SV_DoFileserverCleanup( bForceCleanAll, g_pBlockSpewer ) )
{
Msg( "No demos were deleted.\n" );
}
}
//----------------------------------------------------------------------------------------
CON_COMMAND_F( replay_dopublishtest, "Do a replay publish test using the current setup.", FCVAR_DONTRECORD )
{
ENSURE_DEDICATED();
g_pBlockSpewer->PrintBlockStart();
SV_DoTestPublish();
g_pBlockSpewer->PrintBlockEnd();
}
//----------------------------------------------------------------------------------------
void PrintSessionInfo( const char *pFilename )
{
CUtlBuffer buf;
if ( !g_pFullFileSystem->ReadFile( pFilename, NULL, buf ) )
{
Msg( "Failed to read file, \"%s\"\n", pFilename );
return;
}
int nFileSize = buf.TellPut();
SessionInfoHeader_t header;
if ( !ReadSessionInfoHeader( buf.Base(), nFileSize, header ) )
{
Msg( "Failed to read header information.\n" );
return;
}
char szDigestStr[33];
V_binarytohex( header.m_aHash, sizeof( header.m_aHash ), szDigestStr, sizeof( szDigestStr ) );
Msg( "\n\theader:\n" );
Msg( "\n" );
Msg( "\t%27s: %u\n", "version", header.m_uVersion );
Msg( "\t%27s: %s\n", "session name", header.m_szSessionName );
Msg( "\t%27s: %s\n", "currently recording?", header.m_bRecording ? "yes" : "no" );
Msg( "\t%27s: %i\n", "# blocks", header.m_nNumBlocks );
Msg( "\t%27s: %s\n", "compressor", GetCompressorNameSafe( header.m_nCompressorType ) );
Msg( "\t%27s: %s\n", "md5 digest", szDigestStr );
Msg( "\t%27s: %u bytes\n", "payload size (compressed)", header.m_uPayloadSize );
Msg( "\t%27s: %u bytes\n", "payload size (uncompressed)", header.m_uPayloadSizeUC );
Msg( "\n" );
const uint8 *pPayload = (uint8 *)buf.Base() + sizeof( SessionInfoHeader_t );
uint32 uUncompressedPayloadSize = header.m_uPayloadSizeUC;
if ( !g_pEngine->MD5_HashBuffer( header.m_aHash, (const uint8 *)pPayload, header.m_uPayloadSize, NULL ) )
{
Msg( "Data validation failed.\n" );
return;
}
const uint8 *pUncompressedPayload;
bool bFreeUncompressedPayload = true;
if ( header.m_nCompressorType == COMPRESSORTYPE_INVALID )
{
// The payload is already uncompressed - don't free, since this buffer was allocated by the CUtlBuffer "buf"
pUncompressedPayload = pPayload;
bFreeUncompressedPayload = false;
}
else
{
if ( uUncompressedPayloadSize != header.m_uPayloadSizeUC )
{
Msg( "Decompressed to a different size (%u) than specified by header (%u)\n", uUncompressedPayloadSize, header.m_uPayloadSizeUC );
return;
}
ICompressor *pCompressor = CreateCompressor( header.m_nCompressorType );
if ( !pCompressor )
{
Msg( "Failed to create compressor.\n" );
return;
}
pUncompressedPayload = new uint8[ uUncompressedPayloadSize ];
if ( !pUncompressedPayload )
{
Msg( "Failed to allocate uncompressed payload.\n" );
delete [] pCompressor;
return;
}
pCompressor->Decompress( (char *)pUncompressedPayload, &uUncompressedPayloadSize, (const char *)pPayload, header.m_uPayloadSize );
delete pCompressor;
}
if ( uUncompressedPayloadSize <= MIN_SESSION_INFO_PAYLOAD_SIZE )
{
Msg( "Uncompressed payload not large enough to read a single block.\n" );
}
else
{
RecordingSessionBlockSpec_t DummyBlock;
CUtlBuffer bufPayload( pUncompressedPayload, uUncompressedPayloadSize, CUtlBuffer::READ_ONLY );
Msg( "\n\tblocks:\n\n" );
Msg( "\t index status MD5 compressor size (uncompressed) size (compressed)\n" );
bool bBlockReadFailed = false;
for ( int i = 0; i < header.m_nNumBlocks; ++i )
{
// Attempt to read the current block from the buffer
bufPayload.Get( &DummyBlock, sizeof( DummyBlock ) );
if ( !bufPayload.IsValid() )
{
bBlockReadFailed = true;
break;
}
V_binarytohex( DummyBlock.m_aHash, sizeof( DummyBlock.m_aHash ), szDigestStr, sizeof( szDigestStr ) );
Msg( "\t %5i", DummyBlock.m_iReconstruction );
Msg( "%20s", CBaseRecordingSessionBlock::GetRemoteStatusStringSafe( (CBaseRecordingSessionBlock::RemoteStatus_t)DummyBlock.m_uRemoteStatus ) );
Msg( "%35s", szDigestStr );
Msg( "%8s", GetCompressorNameSafe( (CompressorType_t)DummyBlock.m_nCompressorType ) );
Msg( "%20u", DummyBlock.m_uFileSize );
Msg( "%20u", DummyBlock.m_uUncompressedSize );
Msg( "\n" );
}
}
Msg( "\n" );
if ( bFreeUncompressedPayload )
{
delete [] pUncompressedPayload;
}
}
CON_COMMAND_F( replay_printsessioninfo, "Print session info", FCVAR_DONTRECORD )
{
ENSURE_DEDICATED();
if ( args.ArgC() != 2 )
{
Msg( "Usage: replay_printsessioninfo <full path and filename>\n" );
return;
}
PrintSessionInfo( args[1] );
}
//----------------------------------------------------------------------------------------