void ValidatorOne ( const void * pData , const void * pContext )
{
// Validate the string data here.
_RPT2 ( _CRT_WARN ,
" Validator called with : %s : 0x%08X\n" ,
pData , pContext ) ;
}
HRESULT ParseText( const wchar_t* text, ITypeEnv* typeEnv, NameTable* strTable, IEEDParsedExpr*& expr )
{
if ( (text == NULL) || (typeEnv == NULL) || (strTable == NULL) )
return E_INVALIDARG;
Scanner scanner( text, wcslen( text ), strTable );
Parser parser( &scanner, typeEnv );
RefPtr<Expression> e;
try
{
scanner.NextToken();
e = parser.ParseExpression();
if ( scanner.GetToken().Code != TOKeof )
return E_MAGOEE_SYNTAX_ERROR;
}
catch ( int errCode )
{
UNREFERENCED_PARAMETER( errCode );
_RPT2( _CRT_WARN, "Failed to parse, error %d. Text=\"%ls\".\n", errCode, text );
return E_MAGOEE_SYNTAX_ERROR;
}
expr = new EEDParsedExpr( e, strTable, typeEnv );
if ( expr == NULL )
return E_OUTOFMEMORY;
expr->AddRef();
return S_OK;
}
bool isRenderer(IBaseFilter* filt)
{
if (!filt) return false;
IEnumPins* pinList;
int nrOutput = 0;
int nrInput = 0;
IPin* pin = NULL;
if (FAILED(filt->EnumPins(&pinList))) return false;
pinList->Reset();
while (pinList->Next(1, &pin, NULL) == S_OK)
{
if (getPinInfo(pin).dir == PINDIR_OUTPUT) nrOutput++;
else nrInput++;
pin->Release();
}
pinList->Release();
#ifdef _DEBUG
FILTER_INFO info;
filt->QueryFilterInfo(&info);
char str[100];
WideCharToMultiByte( CP_ACP, 0, info.achName, -1, str, 100, NULL, NULL );
_RPT0(_CRT_WARN,str);
_RPT2(_CRT_WARN," %d %d\n", nrOutput, nrInput);
#endif
return nrOutput == 0 && nrInput == 1; // the only filters that have no outputs are renderers
}
void __stdcall TCPClient::GetAudio(void* buf, __int64 start, __int64 count, IScriptEnvironment* env) {
if (!vi.HasAudio())
return ;
ClientRequestAudio a;
memset(&a, 0 , sizeof(ClientRequestAudio));
a.start = start;
a.count = count;
a.bytes = (int)vi.BytesFromAudioSamples(count);
client->SendRequest(CLIENT_REQUEST_AUDIO, &a, sizeof(ClientRequestAudio));
client->GetReply();
if (client->reply->last_reply_type != SERVER_SENDING_AUDIO) {
if (client->reply->last_reply_type == INTERNAL_DISCONNECTED)
env->ThrowError("TCPClient: Disconnected from server");
env->ThrowError("TCPClient: Did not recieve expected packet (SERVER_SENDING_AUDIO)");
return ;
}
ServerAudioInfo* ai = (ServerAudioInfo *)client->reply->last_reply;
switch (ai->compression) {
case ServerAudioInfo::COMPRESSION_NONE:
break;
default:
env->ThrowError("TCPClient: Unknown compression.");
}
_RPT2(0, "TCPClient: Got %d of %d bytes of audio (GetAudio)\n", ai->data_size, a.bytes);
memcpy(buf, client->reply->last_reply + sizeof(ServerAudioInfo), ai->data_size);
}
HRESULT audioSource::FillBuffer(IMediaSample *pMediaSample)
{
_RPT2(_CRT_WARN,"FillBuffer %d %d\n",currentFrame,nr);
long lDataLen = pMediaSample->GetSize();;
{
CAutoLock cAutoLockShared(&m_cSharedState);
if (currentFrame >= nr || times[currentFrame]*10000000 > m_rtStop)
{
_RPT0(_CRT_WARN,"a stopping\n");
done=1;
if (stopGraph) return S_FALSE;
else {
pMediaSample->SetActualDataLength(0);
REFERENCE_TIME rtStart, rtStop;
rtStart = times[currentFrame-1]*10000000;
rtStop = m_rtStop;
pMediaSample->SetTime(&rtStart, &rtStop);
_RPT0(_CRT_WARN,"a Sleeping \n");
Sleep(1000);
return NOERROR;
}
}
double* dData = (double*)frames[currentFrame];
if (subtype == MEDIASUBTYPE_PCM)
{
short *pData;
pMediaSample->GetPointer((BYTE**)&pData);
for (int i=lens[currentFrame]*nrChannels-1;i>=0;i--) pData[i] = min((1<<15)-1,dData[i]*(1<<15));
} else { // FLOAT format
float *pData;
pMediaSample->GetPointer((BYTE**)&pData);
for (int i=lens[currentFrame]*nrChannels-1;i>=0;i--) pData[i] = dData[i];
}
REFERENCE_TIME rtStart, rtStop;
rtStart = times[currentFrame]*10000000;
rtStop = rtStart + lens[currentFrame]/(rate*10000000.0);
pMediaSample->SetActualDataLength(lens[currentFrame]*wordSize);
_RPT4(_CRT_WARN,"a SetTime %d %d %d %d\n",(int)(rtStart>>32),(int)rtStart,(int)(rtStop>>32),(int)rtStop);
pMediaSample->SetTime(&rtStart, &rtStop);
currentFrame++;
}
pMediaSample->SetSyncPoint(TRUE);
return NOERROR;
}
void watchGlobal()
{
for (int i = 0; i < blocksnum; i++)
if (blocks[i] != NULL)
{
_RPT2(_CRT_WARN, "Memory leak %d at %8X\n", i, blocks[i]);
}
}
// The dumper and validator for the structure allocations
void DumperTwo ( const void * pData )
{
_RPT2 ( _CRT_WARN ,
" Data is Name : %s\n"
" Rank : %s\n" ,
((SimpleStruct*)pData)->szName ,
((SimpleStruct*)pData)->szRank ) ;
}
// Copy data from the memory bitmap into a buffer
void
vncDesktop::CopyToBuffer(const rfb::Rect &rect, BYTE *destbuff, UINT destbuffsize)
{
// Finish drawing anything in this thread
// Wish we could do this for the whole system - maybe we should
// do something with LockWindowUpdate here.
GdiFlush();
// Are we being asked to blit from the DIBsection to itself?
if (destbuff == m_DIBbits) {
// Yes. Ignore the request!
return;
}
int y_inv;
BYTE * destbuffpos;
// Calculate the scanline-ordered y position to copy from
y_inv = m_scrinfo.framebufferHeight-rect.tl.y-(rect.br.y-rect.tl.y);
// Calculate where in the output buffer to put the data
destbuffpos = destbuff + (m_bytesPerRow * rect.tl.y);
// Set the number of bytes for GetDIBits to actually write
// NOTE : GetDIBits pads the destination buffer if biSizeImage < no. of bytes required
m_bminfo.bmi.bmiHeader.biSizeImage = (rect.br.y-rect.tl.y) * m_bytesPerRow;
// Get the actual bits from the bitmap into the bit buffer
// If fast (DIBsection) blits are disabled then use the old GetDIBits technique
if (m_DIBbits == NULL) {
if (GetDIBits(m_hmemdc, m_membitmap, y_inv,
(rect.br.y-rect.tl.y), destbuffpos,
&m_bminfo.bmi, DIB_RGB_COLORS) == 0)
{
_RPT1(_CRT_WARN, "vncDesktop : [1] GetDIBits failed! %d\n", GetLastError());
_RPT3(_CRT_WARN, "vncDesktop : thread = %d, DC = %d, bitmap = %d\n", omni_thread::self(), m_hmemdc, m_membitmap);
_RPT2(_CRT_WARN, "vncDesktop : y = %d, height = %d\n", y_inv, (rect.br.y-rect.tl.y));
}
} else {
// Fast blits are enabled. [I have a sneaking suspicion this will never get used, unless
// something weird goes wrong in the code. It's here to keep the function general, though!]
int bytesPerPixel = m_scrinfo.format.bitsPerPixel / 8;
BYTE *srcbuffpos = (BYTE*)m_DIBbits;
srcbuffpos += (m_bytesPerRow * rect.tl.y) + (bytesPerPixel * rect.tl.x);
destbuffpos += bytesPerPixel * rect.tl.x;
int widthBytes = (rect.br.x-rect.tl.x) * bytesPerPixel;
for(int y = rect.tl.y; y < rect.br.y; y++)
{
memcpy(destbuffpos, srcbuffpos, widthBytes);
srcbuffpos += m_bytesPerRow;
destbuffpos += m_bytesPerRow;
}
}
}
void ValidatorTwo ( const void * pData , const void * pContext )
{
// Validate any structures here.
_RPT2 ( _CRT_WARN ,
" Validator called with :\n"
" Data is Name : %s\n"
" Rank : %s\n" ,
((SimpleStruct*)pData)->szName ,
((SimpleStruct*)pData)->szRank ) ;
}
DWORD Distributor::getframes(LPVOID param){
Thread* current_thread=(Thread*)param;
Distributor* _this=current_thread->distributor;
IScriptEnvironment** penv=&_this->_env;
TlsSetValue(TlsIndex,new ScriptEnvironmentTLS());
while(true)
{
WaitForSingleObject(current_thread->begin,INFINITE);
_RPT2(0,"Thread %d generating frame %d\n",GetCurrentThreadId(),current_thread->n);
if(current_thread->endthread)
break;
current_thread->result=_this->child->GetFrame(current_thread->n,*penv);
_RPT2(0,"Thread %d finished generating frame %d\n",GetCurrentThreadId(),current_thread->n);
current_thread->status=Distributor::Thread::idle;
SetEvent(current_thread->done);
}
delete((ScriptEnvironmentTLS*) TlsGetValue(TlsIndex));
ExitThread(0);
return 0;
}
HKEY OpenKey(HKEY basekey, const char* path[], bool writable, bool create) {
HKEY key = basekey;
DWORD flags = KEY_READ;
if (writable) flags |= KEY_WRITE;
if (create) flags |= KEY_CREATE_SUB_KEY;
unsigned int i = 0;
while (path[i]) {
HKEY newkey;
DWORD result, dw;
if (create) {
#ifdef _MSC_VER
_RPT2(_CRT_WARN, "vncHooks : creating %s from %x\n", path[i], key);
#endif
result = RegCreateKeyEx(key, path[i], 0, REG_NONE,
REG_OPTION_NON_VOLATILE, flags, NULL,
&newkey, &dw);
} else {
#ifdef _MSC_VER
_RPT2(_CRT_WARN, "vncHooks : opening %s from %x\n", path[i], key);
#endif
result = RegOpenKeyEx(key, path[i], 0, flags, &newkey);
}
if (key && (key != basekey)) RegCloseKey(key);
key = newkey;
if (result != ERROR_SUCCESS) {
#ifdef _MSC_VER
_RPT2(_CRT_WARN, "vncHooks : failed to open %s(%lu)\n", path[i], result);
#endif
return NULL;
} else {
#ifdef _MSC_VER
_RPT2(_CRT_WARN, "vncHooks : opened %s (%x)\n", path[i], key);
#endif
}
i++;
}
return key;
}
// handle fopen(string path, string mode)
// Open file
// 'mode' may be either one of modes used by fopen() function in libc or one of these values:
// READ_ONLY - open for reading only (the file must exist);
// WRITE_ONLY - open for writing only;
// READ_WRITE - open for both reading and writing (the file must exist);
// APPEND - open for appending (writing data at the end of the file).
static SQInteger FOpen (HSQUIRRELVM)
{
if (numFiles == MAX_OPENED_FILES)
{
PrintError("ERROR: Too many opened files.\n");
sq_pushnull(sqvm);
return 1;
}
// Find first unopened file
unsigned i;
for (i = 0; i < MAX_OPENED_FILES; ++i)
{
if (!files[i])
break;
}
const SQChar *path, *mode;
sq_getstring(sqvm, 2, &path);
sq_getstring(sqvm, 3, &mode);
// Binary file I/O isn't provided to scripts
// FIXME: Wouldn't binary file I/O be useful?
SQChar* c = (SQChar*)strchr(mode, 'b');
if (c)
*c = 0;
#if defined(_MSC_VER) && (_MSC_VER >= 1400)
if (fopen_s(&files[i], ConvPath(path, SQTrue), mode))
files[i] = NULL;
#else
files[i] = fopen(ConvPath(path, SQTrue), mode);
#endif
FILE* res = files[i];
if (res)
{
sq_pushuserpointer(sqvm, res);
++numFiles;
_RPT2(_CRT_WARN, "--- Opened file #%d. %d file(s) are opened.\n", i, numFiles);
}
else
sq_pushnull(sqvm);
return 1;
}
static FARPROC WINAPI
exerb_hook_get_proc_address(HMODULE module, LPCTSTR procname)
{
_RPT2(_CRT_WARN, "exerb_hook_get_proc_address(0x%08X, '%s')\n", module, procname);
static HMODULE kernel32 = ::GetModuleHandle("kernel32.dll");
// FIXME: 序数によるインポートに対応する
if ( module == kernel32 ) {
if ( ::strcmp(procname, "LoadLibraryA") == 0 ) return (FARPROC)::exerb_hook_load_library;
else if ( ::strcmp(procname, "LoadLibraryExA") == 0 ) return (FARPROC)::exerb_hook_load_library_ex;
else if ( ::strcmp(procname, "GetModuleHandleA") == 0 ) return (FARPROC)::exerb_hook_get_module_handle;
else if ( ::strcmp(procname, "GetProcAddress") == 0 ) return (FARPROC)::exerb_hook_get_proc_address;
}
return ::GetProcAddress(module, procname);
}
void memblockinfo_output_memleak()
{
if(!Cmdline_show_mem_usage) return;
if(TotalRam == 0)
return;
if(TotalRam < 0) {
_RPT1(_CRT_WARN, "TotalRam bad value!",TotalRam);
return;
}
_RPT1(_CRT_WARN, "malloc memory leak of %d\n",TotalRam);
// Now if system is compiled register it with the fuller system
#ifdef _REPORT_MEM_LEAKS
int total = 0;
// Find empty slot
for(int f = 0; f < MAX_MEM_POINTERS; f++)
{
if(mem_ptr_list[f].ptr)
{
_RPT3(_CRT_WARN, "Memory leaks: (%s line %d) of %d bytes\n", mem_ptr_list[f].filename, mem_ptr_list[f].line, mem_ptr_list[f].size);
total += mem_ptr_list[f].size;
}
}
Assert(TotalRam == total);
#else
for(int i = 0; i < MAX_MEM_MODULES; i++)
{
// Found the first empty entry, fill it
if(mem_block_list[i].size > 0)
{
// Oh... bad code... making assumsions...
_RPT2(_CRT_WARN, "Possible memory leaks: %s %d\n", mem_block_list[i].filename, mem_block_list[i].size);
}
}
#endif
}
HRESULT audioSource::SetMediaType(const CMediaType *pMediaType)
{
_RPT0(_CRT_WARN,"SetMediaType\n");
CAutoLock cAutoLock(m_pFilter->pStateLock());
if (!pMediaType) return E_INVALIDARG;
subtype=*pMediaType->Subtype();
_RPT1(_CRT_WARN,"SetMediaType %s\n",(subtype == MEDIASUBTYPE_PCM)?"PCM":"FLOAT");
WAVEFORMATEX *fmt = (WAVEFORMATEX*) pMediaType->Format();
wordSize = fmt->nBlockAlign;
HRESULT hr = CSourceStream::SetMediaType(pMediaType);
_RPT2(_CRT_WARN,"SetMediaType hr %d %d\n",hr,FAILED(hr));
return hr;
}
// fclose(handle file)
// Close file
static SQInteger FClose (HSQUIRRELVM)
{
FILE* file;
sq_getuserpointer(sqvm, 2, (SQUserPointer*)&file);
if (file)
{
for (unsigned i = 0; i < MAX_OPENED_FILES; ++i)
{
if (file != files[i])
continue;
fclose(file);
files[i] = NULL;
--numFiles;
_RPT2(_CRT_WARN, "--- Closed file #%d. %d file(s) are still opened.\n", i, numFiles);
break;
}
}
return 0;
}
PVideoFrame Distributor::GetFrameX(int n, int last, IScriptEnvironment* env)
{
PVideoFrame result=0;
int in=-1;//thread number processing the current frame
int inb=-1, inf=-1;
int nmax=n, nmin=n;//Current highest frame number being processed
unsigned int i;
for(i=0;i<nthreads;i++)
{
if(thread[i].n>nmax && abs(thread[i].n - n) < 32)//find highest frame number being processed
nmax=thread[i].n;
if(thread[i].n<nmin && abs(thread[i].n - n) < 32)//find lowest frame number being processed
nmin=thread[i].n;
if (thread[i].n==n-1)
inb=i;
if (thread[i].n==n+1)
inf=i;
if(thread[i].n==n)//if the requested frame is being processed by thread i
if(thread[i].status==Thread::idle){//and it is ready to be used
result=thread[i].result;//assign it to result
}
else //else assign in to the thread number
in=i;
}
_RPT2(0,"Distributor status loop1: result:%x, in:%d,\n",result,in);
if(result==0&&in==-1)//if no current thread is working on the requested frame set in to -2
in=-2;
int diff=last<=n?1:-1;
do
{
int nextframe=(diff<0?nmin:nmax)+diff;
int inneighbour=diff<0?inb:inf;
for(i=0;i<nthreads;++i==in?i++:0)//run though the active threads and skip the thread that works on the requested frame.
{
if(thread[i].status==Thread::idle&&(diff<0?thread[i].n>=n||n-thread[i].n>20:thread[i].n<=n||thread[i].n-n>20)){//if the thread is done processing a frame that lies before the current frame
WaitForSingleObject(thread[i].done,INFINITE); //wait for it to be ready to process the next frame
//(as the thread might stale between setting the idle status and setting the
//done event resulting in the thread signaling done even before beginning working on the frame
thread[i].status=Thread::running;
if(in!=-2) //if a thread is assigned to the requested frame
if(inneighbour==-1)
{
inneighbour=i;
thread[i].n=n+diff;
if(nextframe==n+diff)
nextframe+=diff;
}
else
{
thread[i].n=nextframe; //assign it to the next frame
nextframe+=diff;
}
else{
thread[i].n=n; //else assign it to the requested frame
in=i;
}
_RPT2(0,"Distributor loop2 Thread %d recruted to generate frame %d\n",i,thread[i].n);
SetEvent(thread[i].begin);} //let the thread begin
//NOTE: threads that are done working on a frame that is after the current requested frame is not
//assigned a new frame as the frame will be requested soon. This could be changed as the frame is saved in the cache so it would return quickly.
}
diff=-diff;
}
while(in==-2);
_RPT1(0,"Distributor status loop2: in:%d\n",in);
if(in!=-1)//if the thread creating the requested frame isn't done
{
WaitForSingleObject(thread[in].done,INFINITE); //wait for it to complete processing
SetEvent(thread[in].done); //and signal the thread is done to avoid a deadlock in the loop above
result=thread[in].result;
}
_RPT1(0,"Distributor end status: result:%x\n",result);
return result;
}
void ProcReceiveBuffer(char *pszPacket, int nRecv)
{
int nLen = nRecv;
int nNext = 0;
char szBuff[DATA_BUFSIZE];
char *pszData = &szBuff[0];
_LPTMSGHEADER lpMsgHeader;
if (g_nRemainBuffLen > 0)
memmove(szBuff, g_szRemainBuff, g_nRemainBuffLen);
memmove(&szBuff[g_nRemainBuffLen], pszPacket, nLen + 1);
nLen += g_nRemainBuffLen;
while (nLen >= sizeof(_TMSGHEADER))
{
lpMsgHeader = (_LPTMSGHEADER)pszData;
if (nLen < (int)(sizeof(_TMSGHEADER) + lpMsgHeader->nLength)) break;
if (lpMsgHeader->nCode == 0xAA55AA55)
{
switch (lpMsgHeader->wIdent)
{
case GM_CHECKSERVER:
SendMessage(g_hStatusBar, SB_SETTEXT, MAKEWORD(2, 0), (LPARAM)_TEXT("Activation")); // Received keep alive check code from game server
break;
case GM_SERVERUSERINDEX:
{
CSessionInfo* pSessionInfo = g_UserInfoArray.GetData(lpMsgHeader->wUserGateIndex);
if (pSessionInfo)
pSessionInfo->nServerUserIndex = lpMsgHeader->wUserListIndex;
break;
}
case GM_RECEIVE_OK:
SendSocketMsgS(GM_RECEIVE_OK, 0, 0, 0, 0, NULL);
break;
case GM_DATA:
ProcMakeSocketStr(pszData);
break;
case GM_TEST:
break;
}
pszData += sizeof(_TMSGHEADER) + abs(lpMsgHeader->nLength);
nLen -= sizeof(_TMSGHEADER) + abs(lpMsgHeader->nLength);
}
else
{
pszData++;
nLen--;
}
} // while
if (nLen > 0)
{
memmove(g_szRemainBuff, pszData, nLen);
g_nRemainBuffLen = nLen;
#ifdef _DEBUG
_RPT2(_CRT_WARN, "REMAIN:%d, %s\n", g_nRemainBuffLen, pszData);
#endif
}
else
{
g_nRemainBuffLen = 0;
}
}
DWORD WINAPI ServerWorkerThread(LPVOID CompletionPortID)
{
DWORD dwBytesTransferred;
CServerInfo* pServerInfo;
LPOVERLAPPED lpOverlapped;
DWORD dwFlags;
DWORD dwRecvBytes;
char szBuff[DATA_BUFSIZE];
int nBuffLen;
char *pszFirst, *pszEnd, *pszDivide;
LONG lValid;
WORD w1, w2;
char szCC[32];
int nPos;
while (TRUE)
{
GetQueuedCompletionStatus((HANDLE)CompletionPortID, &dwBytesTransferred, (LPDWORD)&pServerInfo, (LPOVERLAPPED *)&lpOverlapped, INFINITE);
if (g_fTerminated) return 0L;
if (dwBytesTransferred == 0)
{
closesocket(pServerInfo->m_sock);
if (pServerInfo) GlobalFree(pServerInfo);
UpdateStatusBarSession(FALSE);
continue;
}
if (pServerInfo->nOvFlag == OVERLAPPED_RECV)
{
if (pServerInfo->nRemainBuffLen)
{
memmove(szBuff, pServerInfo->RemainBuff, pServerInfo->nRemainBuffLen); // Copy previous remain data in szBuff
memmove(&szBuff[pServerInfo->nRemainBuffLen], pServerInfo->Buffer, dwBytesTransferred + 1); // Append new received data in szBuff
nBuffLen = pServerInfo->nRemainBuffLen + dwBytesTransferred;
pszEnd = &szBuff[0];
}
else
{
pszEnd = &pServerInfo->Buffer[0];
nBuffLen = dwBytesTransferred;
}
while (nBuffLen)
{
if ((pszFirst = (char *)memchr(pszEnd, '#', nBuffLen)) && (pszEnd = (char *)memchr(pszFirst, '!', nBuffLen)))
{
*pszEnd++ = '\0';
if (pszDivide = (char *)memchr(pszFirst, '/', pszEnd - pszFirst))
{
*pszDivide++ = '\0';
_LPTSENDBUFF lpSendUserData = new _TSENDBUFF;
if (lpSendUserData)
{
lpSendUserData->nCertification = AnsiStrToVal(pszFirst + 1);
w1 = lpSendUserData->nCertification ^ 0xAA;
w2 = memlen(pszDivide) - 1;
lValid = MAKELONG(w1, w2);
nPos = fnEncode6BitBufA((unsigned char *)&lValid, szCC, sizeof(LONG), sizeof(szCC));
szCC[nPos] = '\0';
if (memcmp((pszEnd - nPos - 1), szCC, nPos) == 0)
{
fnDecodeMessageA(&lpSendUserData->DefMsg, pszDivide);
*(pszEnd - nPos - 1) = '\0';
if (lpSendUserData->DefMsg.wIdent >= 100 && lpSendUserData->DefMsg.wIdent <= 200)
{
lpSendUserData->pServerInfo = pServerInfo;
switch (lpSendUserData->DefMsg.wIdent)
{
case DB_MAKEITEMRCD2:
{
lpSendUserData->lpbtAddData = new BYTE[sizeof(_TMAKEITEMRCD)];
fnDecode6BitBufA((pszDivide + DEFBLOCKSIZE), (char *)lpSendUserData->lpbtAddData, sizeof(_TMAKEITEMRCD));
lpSendUserData->lpbtAddData2 = NULL;
break;
}
default:
{
nPos = fnDecode6BitBufA((pszDivide + DEFBLOCKSIZE), (char *)&lpSendUserData->HumanLoad, sizeof(lpSendUserData->HumanLoad));
switch (lpSendUserData->DefMsg.wIdent)
{
case DB_MAKEITEMRCD:
{
lpSendUserData->lpbtAddData = new BYTE[sizeof(_TMAKEITEMRCD)];
fnDecode6BitBufA((pszDivide + DEFBLOCKSIZE + 75), (char *)lpSendUserData->lpbtAddData, sizeof(_TMAKEITEMRCD));
lpSendUserData->lpbtAddData2 = NULL;
break;
}
case DB_SAVEHUMANRCD:
{
lpSendUserData->lpbtAddData = new BYTE[sizeof(_THUMANRCD)];
fnDecode6BitBufA((pszDivide + DEFBLOCKSIZE + 75), (char *)lpSendUserData->lpbtAddData, sizeof(_THUMANRCD));
int nRemainLen = (int)(pszEnd - pszFirst) - (DEFBLOCKSIZE + 75 + HUMANRCDBLOCKSIZE);
lpSendUserData->lpbtAddData2 = new BYTE[nRemainLen + 1];
memcpy(lpSendUserData->lpbtAddData2, (pszDivide + DEFBLOCKSIZE + 75 + HUMANRCDBLOCKSIZE), nRemainLen);
lpSendUserData->lpbtAddData2[nRemainLen] = '\0';
break;
}
default:
lpSendUserData->lpbtAddData = NULL;
lpSendUserData->lpbtAddData2 = NULL;
}
break;
}
}
g_DBMsgQ.PushQ((BYTE *)lpSendUserData);
}
else
g_ServerMsgQ.PushQ((BYTE *)lpSendUserData);
}
else
delete lpSendUserData;
}
}
nBuffLen -= (pszEnd - pszFirst);
}
else
break;
} // while
if (pszFirst && nBuffLen)
{
memmove(pServerInfo->RemainBuff, pszFirst, nBuffLen);
pServerInfo->nRemainBuffLen = nBuffLen;
#ifdef _DEBUG
_RPT2(_CRT_WARN, "Remain Packet : %d, %s\n", nBuffLen, pszFirst);
#endif
}
else
pServerInfo->nRemainBuffLen = 0;
// Set next overlapped Process
dwFlags = 0;
ZeroMemory(&(pServerInfo->Overlapped), sizeof(OVERLAPPED));
pServerInfo->DataBuf.len = DATA_BUFSIZE;
pServerInfo->DataBuf.buf = pServerInfo->Buffer;
pServerInfo->nOvFlag = OVERLAPPED_RECV;
if (WSARecv(pServerInfo->m_sock, &(pServerInfo->DataBuf), 1, &dwRecvBytes, &dwFlags, &(pServerInfo->Overlapped), NULL) == SOCKET_ERROR)
{
if (WSAGetLastError() != ERROR_IO_PENDING)
{
InsertLogMsg(_T("WSARecv() failed"));
// CloseSession(pServerInfo);
continue;
}
}
} // if (OVERLAPPED_RECV)
}
return 0;
}
DWORD WINAPI cProxyServer::TsReader(LPVOID pv)
{
stTsReaderArg *pArg = static_cast<stTsReaderArg *>(pv);
IBonDriver *pIBon = pArg->pIBon;
volatile BOOL &StopTsRead = pArg->StopTsRead;
volatile BOOL &ChannelChanged = pArg->ChannelChanged;
DWORD &pos = pArg->pos;
std::list<cProxyServer *> &TsReceiversList = pArg->TsReceiversList;
cCriticalSection &TsLock = pArg->TsLock;
DWORD dwSize, dwRemain, now, before = 0;
float fSignalLevel = 0;
DWORD ret = 300;
const DWORD TsPacketBufSize = g_TsPacketBufSize;
BYTE *pBuf, *pTsBuf = new BYTE[TsPacketBufSize];
#if _DEBUG && DETAILLOG
DWORD Counter = 0;
#endif
// 内部でCOMを使用しているBonDriverに対する対策
HRESULT hr = ::CoInitializeEx(NULL, COINIT_APARTMENTTHREADED | COINIT_DISABLE_OLE1DDE | COINIT_SPEED_OVER_MEMORY);
// TS読み込みループ
while (!StopTsRead)
{
dwSize = dwRemain = 0;
{
LOCK(TsLock);
if ((((now = ::GetTickCount()) - before) >= 1000) || ChannelChanged)
{
fSignalLevel = pIBon->GetSignalLevel();
before = now;
ChannelChanged = FALSE;
}
if (pIBon->GetTsStream(&pBuf, &dwSize, &dwRemain) && (dwSize != 0))
{
if ((pos + dwSize) < TsPacketBufSize)
{
::memcpy(&pTsBuf[pos], pBuf, dwSize);
pos += dwSize;
if (dwRemain == 0)
{
for (std::list<cProxyServer *>::iterator it = TsReceiversList.begin(); it != TsReceiversList.end(); ++it)
(*it)->makePacket(eGetTsStream, pTsBuf, pos, fSignalLevel);
#if _DEBUG && DETAILLOG
_RPT3(_CRT_WARN, "makePacket0() : %u : size[%x] / dwRemain[%d]\n", Counter++, pos, dwRemain);
#endif
pos = 0;
}
}
else
{
DWORD left, dwLen = TsPacketBufSize - pos;
::memcpy(&pTsBuf[pos], pBuf, dwLen);
for (std::list<cProxyServer *>::iterator it = TsReceiversList.begin(); it != TsReceiversList.end(); ++it)
(*it)->makePacket(eGetTsStream, pTsBuf, TsPacketBufSize, fSignalLevel);
#if _DEBUG && DETAILLOG
_RPT3(_CRT_WARN, "makePacket1() : %u : size[%x] / dwRemain[%d]\n", Counter++, TsPacketBufSize, dwRemain);
#endif
left = dwSize - dwLen;
pBuf += dwLen;
while (left >= TsPacketBufSize)
{
for (std::list<cProxyServer *>::iterator it = TsReceiversList.begin(); it != TsReceiversList.end(); ++it)
(*it)->makePacket(eGetTsStream, pBuf, TsPacketBufSize, fSignalLevel);
#if _DEBUG && DETAILLOG
_RPT2(_CRT_WARN, "makePacket2() : %u : size[%x]\n", Counter++, TsPacketBufSize);
#endif
left -= TsPacketBufSize;
pBuf += TsPacketBufSize;
}
if (left != 0)
{
if (dwRemain == 0)
{
for (std::list<cProxyServer *>::iterator it = TsReceiversList.begin(); it != TsReceiversList.end(); ++it)
(*it)->makePacket(eGetTsStream, pBuf, left, fSignalLevel);
#if _DEBUG && DETAILLOG
_RPT3(_CRT_WARN, "makePacket3() : %u : size[%x] / dwRemain[%d]\n", Counter++, left, dwRemain);
#endif
left = 0;
}
else
::memcpy(pTsBuf, pBuf, left);
}
pos = left;
}
}
}
if (dwRemain == 0)
::Sleep(WAIT_TIME);
}
if (SUCCEEDED(hr))
::CoUninitialize();
delete[] pTsBuf;
return ret;
}
HRESULT CbRoot::SetBaseHwInfo()
{
CComPtr<IProp> prop;
char tmpString[512];
// we expect the ini file to be in the same directory as the application,
// namely, this DLL. It's the only way to find the file if it's not
// in the windows subdirectory
if (GetModuleFileName(_Module.GetModuleInstance(), tmpString, 512)==0)
return E_FAIL;
// replace .dll with .ini
strrchr(tmpString, '.' )[1]='\0';
strcat(tmpString,"ini");
_iniFileName=tmpString;
cbGetBoardName(_BoardNum,tmpString);
ATLTRACE2(MCC_UL_CALL,3,"cbGetBoardName(_BoardNum = %i, tmpString); result tmpString = %s\n",_BoardNum,tmpString);
_boardName=tmpString;
_iniSection=_boardName;
CBI_CHECK(cbGetConfig(BOARDINFO, _BoardNum, 0, BIBOARDTYPE, &_BoardType));
ATLTRACE2(MCC_UL_CALL,3,"cbGetConfig (BOARDINFO,_BoardNum = %d,0,BIBOARDTYPE, &_BoardType); result: _BoardType=%d\n",_BoardNum,_BoardType);
long id=GetFromIni(_T("ID"),0L);
if (id==0)
{
_engine->WarningMessage(CComBSTR("Board not found in mwmcc.ini file. Board is not supported but may work."));
}
// Check to see if this is a DEMO-BOARD (code 45)
else if (_BoardType == 45)
{
// Geck 224706: When people create a DEMO-BOARD device, they probably didn't mean to.
// Give them a warning to indicate that they might want to recosider this.
_engine->WarningMessage(CComBSTR("The ID value selected is associated with Measurement Computing's virtual DEMO-BOARD. This virtual software device provides simulated data for demo purposes. Use a different ID if this was not your intent."));
}
else if (id!=_BoardType)
{
_engine->WarningMessage(CComBSTR("BoardType from Ini file does not match that returned from universal libray."));
_RPT2(_CRT_WARN,"BoardType from ini file is %d board type from unilib is %d\n",id,_BoardType);
}
// device Id
wchar_t Str[80];
swprintf(Str, L"%d", _BoardNum);
DEBUG_HRESULT(_DaqHwInfo->put_MemberValue(CComBSTR(L"id"), CComVariant(Str)));
DEBUG_HRESULT(_DaqHwInfo->put_MemberValue(CComBSTR(L"adaptorname"), CComVariant(L"mcc")));
DEBUG_HRESULT(_DaqHwInfo->put_MemberValue(CComBSTR(L"vendordriverdescription"),
CComVariant(L"Measurement Computing Universal Library")));
// Get the UL Revision numbers
float DllRevNum, DriverRevNum;
cbGetRevision (&DllRevNum, &DriverRevNum);
ATLTRACE2(MCC_UL_CALL,3,"cbGetRevision (&DllRevNum,&DriverRevNum); result: DllRevNum=%d,DriverRevNum=%d\n",DllRevNum,DriverRevNum);
// Make a call to get the decimal (.xxx) value of the minor revision number.
// Add this to the major revision number (y.xxx)
DllRevNum += GetDriverMinorRevision();
CComVariant var = DllRevNum;
var.ChangeType(VT_BSTR);
DEBUG_HRESULT( _DaqHwInfo->put_MemberValue(CComBSTR(L"vendordriverversion"), var));
DEBUG_HRESULT(_DaqHwInfo->put_MemberValue(CComBSTR(L"devicename"),variant_t(_boardName)));
return S_OK;
}
void ProcReceiveBuffer(char *pszPacket, int nRecv)
{
int nBuffLen = nRecv;
char szBuff[DATA_BUFSIZE];
char *pszFirst, *pszEnd = &szBuff[0], *pszDevide;
_TDEFAULTMESSAGE DefMsg;
_TDEFAULTMESSAGE SendDefMsg;
int nCertification;
WORD w1, w2;
LONG lValid;
int nPos;
char szCC[32];
char szEncodeMsg[256];
CReadyUserInfo *pReadUserInfo;
CUserInfo *pUserInfo;
_TCLIENTITEMRCD tClientItemRcd;
if (g_nRemainBuffLen)
memmove(szBuff, g_szRemainBuff, g_nRemainBuffLen);
memmove(&szBuff[g_nRemainBuffLen], pszPacket, nBuffLen + 1);
nBuffLen += g_nRemainBuffLen;
while (nBuffLen)
{
if ((pszFirst = (char *)memchr(pszEnd, '#', nBuffLen)) && (pszEnd = (char *)memchr(pszFirst, '!', nBuffLen)))
{
*pszEnd++ = '\0';
if (pszDevide = (char *)memchr(pszFirst, '/', pszEnd - pszFirst))
{
*pszDevide++ = '\0';
nCertification = AnsiStrToVal(pszFirst + 1);
w1 = nCertification ^ 0xAA;
w2 = memlen(pszDevide) - 1;
lValid = MAKELONG(w1, w2);
nPos = fnEncode6BitBufA((unsigned char *)&lValid, szCC, sizeof(LONG), sizeof(szCC));
szCC[nPos] = '\0';
if (memcmp((pszEnd - nPos - 1), szCC, nPos) == 0)
{
fnDecodeMessageA(&DefMsg, pszDevide);
*(pszEnd - nPos - 1) = '\0';
switch (DefMsg.wIdent)
{
case DBR_LOADHUMANRCD2:
{
CReadyUserInfo2* pReadyUserInfo2 = new CReadyUserInfo2;
pReadyUserInfo2->m_dwReadyStartTime = GetTickCount();
pReadyUserInfo2->m_nNumOfGenItem = HIBYTE(DefMsg.wParam);
pReadyUserInfo2->m_nNumOfMagic = DefMsg.wSeries;
pReadyUserInfo2->m_nNumOfItem = LOBYTE(DefMsg.wParam);
fnDecode6BitBufA((pszDevide + DEFBLOCKSIZE), (char *)&pReadyUserInfo2->m_THumanRcd, sizeof(_THUMANRCD));
memmove(pReadyUserInfo2->pszData, pszDevide + DEFBLOCKSIZE + HUMANRCDBLOCKSIZE, memlen(pszDevide + DEFBLOCKSIZE + HUMANRCDBLOCKSIZE));
g_xReadyUserInfoList2.AddNewNode(pReadyUserInfo2);
break;
}
case DBR_LOADHUMANRCD:
{
pReadUserInfo = (CReadyUserInfo *)DefMsg.nRecog;
nPos = fnDecode6BitBufA((pszDevide + DEFBLOCKSIZE), (char *)&pReadUserInfo->m_pUserInfo->m_THumanRcd, sizeof(_THUMANRCD));
char *pszData;
pszData = (pszDevide + DEFBLOCKSIZE + HUMANRCDBLOCKSIZE);
if (HIBYTE(DefMsg.wParam)) // Decode General Item
{
pReadUserInfo->m_pUserInfo->m_nNumOfGenItems = HIBYTE(DefMsg.wParam);
_TGENITEMRCD GenItemRcd;
char szVal[5];
for (int i = 0; i < HIBYTE(DefMsg.wParam); i++)
{
_LPTGENERALITEMRCD lptGenItemRcd = new _TGENERALITEMRCD;
if (lptGenItemRcd)
{
fnDecode6BitBufA(pszData, (char *)&GenItemRcd, sizeof(_TGENITEMRCD));
memcpy(lptGenItemRcd->szMakeIndex, GenItemRcd.szItem, 12);
ZeroMemory(szVal, sizeof(szVal));
memcpy(szVal, &lptGenItemRcd->szMakeIndex[1], 3);
lptGenItemRcd->nStdIndex = AnsiStrToVal(szVal);
memcpy(szVal, &lptGenItemRcd->szMakeIndex[4], 4);
lptGenItemRcd->nDura = AnsiStrToVal(szVal);
memcpy(szVal, &lptGenItemRcd->szMakeIndex[8], 4);
lptGenItemRcd->nDuraMax = AnsiStrToVal(szVal);
pReadUserInfo->m_pUserInfo->m_lpTGenItemRcd.AddNewNode(lptGenItemRcd);
pszData += GENITEMRCDBLOCKSIZE;
}
}
}
if (DefMsg.wSeries) // Decode Magic
{
pReadUserInfo->m_pUserInfo->m_nNumOfMagics = DefMsg.wSeries;
for (int i = 0; i < DefMsg.wSeries; i++)
{
_LPTHUMANMAGICRCD lpHumanMagicRcd = new _THUMANMAGICRCD;
if (lpHumanMagicRcd)
{
fnDecode6BitBufA(pszData, (char *)lpHumanMagicRcd, sizeof(_THUMANMAGICRCD));
pReadUserInfo->m_pUserInfo->m_lpTMagicRcd.AddNewNode(lpHumanMagicRcd);
pszData += MAGICRCDBLOCKSIZE;
//#ifdef _DEBUG
// _RPT3(_CRT_WARN, "%d - %d - %d\n", lpHumanMagicRcd->btLevel, lpHumanMagicRcd->btUseKey, lpHumanMagicRcd->nCurrTrain);
//#endif
}
}
}
if (LOBYTE(DefMsg.wParam)) // Decode Item
{
pReadUserInfo->m_pUserInfo->m_nNumOfItems = LOBYTE(DefMsg.wParam);
// pReadUserInfo->m_pUserInfo->m_lpTItemRcd = (_LPTUSERITEMRCD)GlobalAlloc(GPTR, sizeof(_TUSERITEMRCD) * DefMsg.wParam);
for (int i = 0; i < LOBYTE(DefMsg.wParam); i++)
{
_LPTUSERITEMRCD lpTItemRcd = new _TUSERITEMRCD;
if (lpTItemRcd)
{
fnDecode6BitBufA(pszData, (char *)lpTItemRcd, sizeof(_TUSERITEMRCD));
pReadUserInfo->m_pUserInfo->m_lpTItemRcd.AddNewNode(lpTItemRcd);
pszData += ITEMRCDBLOCKSIZE;
}
}
}
if (DefMsg.wTag) // Decode Horse
{
if (!pReadUserInfo->m_pUserInfo->m_lpTHorseRcd)
pReadUserInfo->m_pUserInfo->m_lpTHorseRcd = new _THORSERCD;
fnDecode6BitBufA(pszData, (char *)pReadUserInfo->m_pUserInfo->m_lpTHorseRcd, sizeof(_THORSERCD));
}
if (pReadUserInfo->m_pUserInfo->m_pxPlayerObject)
{
pReadUserInfo->m_pUserInfo->m_pxPlayerObject->MakeFeature();
pReadUserInfo->m_pUserInfo->m_pxPlayerObject->Initialize();
pReadUserInfo->m_pUserInfo->m_pxPlayerObject->m_fIsAlive = TRUE;
pReadUserInfo->m_pUserInfo->m_btCurrentMode = USERMODE_PLAYGAME;
}
break;
}
case DBR_MAKEITEMRCD:
{
pUserInfo = (CUserInfo *)DefMsg.nRecog;
_LPTUSERITEMRCD lpTItemRcd = new _TUSERITEMRCD;
if (lpTItemRcd)
{
nPos = fnDecode6BitBufA((pszDevide + DEFBLOCKSIZE), (char *)lpTItemRcd, sizeof(_TUSERITEMRCD));
pUserInfo->m_lpTItemRcd.AddNewNode(lpTItemRcd);
fnMakeDefMessage(&SendDefMsg, SM_ADDITEM, (int)pUserInfo->m_pxPlayerObject, 0, 0, 1);
if (lpTItemRcd->szMakeIndex[0] != 'G')
{
g_pStdItemSpecial[lpTItemRcd->nStdIndex].GetStandardItem(&tClientItemRcd);
g_pStdItemSpecial[lpTItemRcd->nStdIndex].GetUpgradeStdItem(&tClientItemRcd, lpTItemRcd);
}
memcpy(tClientItemRcd.szMakeIndex, lpTItemRcd->szMakeIndex, 12);
tClientItemRcd.nDura = lpTItemRcd->nDura;
tClientItemRcd.nDuraMax = lpTItemRcd->nDuraMax;
nPos = fnEncode6BitBufA((unsigned char *)&tClientItemRcd, szEncodeMsg, sizeof(_TCLIENTITEMRCD), sizeof(szEncodeMsg));
szEncodeMsg[nPos] = '\0';
pUserInfo->m_pxPlayerObject->SendSocket(&SendDefMsg, szEncodeMsg);
}
break;
}
case DBR_MAKEITEMRCD2:
{
CPlayerObject* pPlayerObject = (CPlayerObject *)DefMsg.nRecog;
pUserInfo = pPlayerObject->m_pUserInfo;
_LPTUSERITEMRCD lpTItemRcd = new _TUSERITEMRCD;
if (lpTItemRcd)
{
nPos = fnDecode6BitBufA((pszDevide + DEFBLOCKSIZE), (char *)lpTItemRcd, sizeof(_TUSERITEMRCD));
pUserInfo->m_lpTItemRcd.AddNewNode(lpTItemRcd);
fnMakeDefMessage(&SendDefMsg, SM_ADDITEM, (int)pUserInfo->m_pxPlayerObject, 0, 0, 1);
if (lpTItemRcd->szMakeIndex[0] != 'G')
{
g_pStdItemSpecial[lpTItemRcd->nStdIndex].GetStandardItem(&tClientItemRcd);
g_pStdItemSpecial[lpTItemRcd->nStdIndex].GetUpgradeStdItem(&tClientItemRcd, lpTItemRcd);
}
memcpy(tClientItemRcd.szMakeIndex, lpTItemRcd->szMakeIndex, 12);
tClientItemRcd.nDura = lpTItemRcd->nDura;
tClientItemRcd.nDuraMax = lpTItemRcd->nDuraMax;
nPos = fnEncode6BitBufA((unsigned char *)&tClientItemRcd, szEncodeMsg, sizeof(_TCLIENTITEMRCD), sizeof(szEncodeMsg));
szEncodeMsg[nPos] = '\0';
pUserInfo->m_pxPlayerObject->SendSocket(&SendDefMsg, szEncodeMsg);
}
break;
}
}
}
}
nBuffLen -= (pszEnd - pszFirst);
}
else
break;
} // while
if (pszFirst && (nBuffLen > 0))
{
memmove(g_szRemainBuff, pszFirst, nBuffLen);
g_nRemainBuffLen = nBuffLen;
#ifdef _DEBUG
_RPT2(_CRT_WARN, "ProcReceiveBuffer:%d, %s\n", g_nRemainBuffLen, pszFirst);
#endif
}
else
g_nRemainBuffLen = 0;
}
STDMETHODIMP CAVIFileRemote::Open(LPCSTR szFile, UINT mode, LPCOLESTR lpszFileName) {
HMMIO hmmio = NULL;
MMCKINFO mmiriff, mmi;
MMRESULT mmerr;
HRESULT final = S_OK;
_RPT2(0,"CAVIFileRemote::Open(\"%s\", %08lx)\n", szFile, mode);
if (pafTunnel) {
pafTunnel->Release();
pafTunnel = NULL;
}
if (mode & (OF_CREATE|OF_WRITE)) {
IPersistFile *ppf;
if (FAILED(CoCreateInstance(CLSID_AVIFile, NULL, CLSCTX_INPROC_SERVER, another_IID_IAVIFile, (void **)&pafTunnel)))
return (HRESULT)E_FAIL;
if (FAILED(pafTunnel->QueryInterface(IID_IPersistFile, (void **)&ppf)))
return (HRESULT)E_FAIL;
HRESULT hr = ppf->Load(lpszFileName, mode);
ppf->Release();
return hr;
}
if (!(hmmio = mmioOpen((char *)szFile, NULL, MMIO_READ)))
return E_FAIL;
_RPT0(0,"File opened.\n");
// RIFF <size> VDRM { PATH <remote-path> }
try {
char buf[16];
_RPT0(0,"Checking for Avisynth signature...\n");
if (16==mmioRead(hmmio, buf, 16)) {
buf[9] = 0;
if (!_stricmp(buf, "#avisynth")) {
mmioClose(hmmio, 0);
// Hand it off to the Avisynth handler.
IPersistFile *ppf;
// Okay, it's not one of our files. Now try passing it off
// to the regular AVI handler!
_RPT0(0,"Attempt avisynth tunnel create\n");
if (FAILED(CoCreateInstance(CLSID_Avisynth, NULL, CLSCTX_INPROC_SERVER, another_IID_IAVIFile, (void **)&pafTunnel)))
return (HRESULT)E_FAIL;
_RPT0(0,"Attempt avisynth tunnel query -> IPersistFile\n");
if (FAILED(pafTunnel->QueryInterface(IID_IPersistFile, (void **)&ppf)))
return (HRESULT)E_FAIL;
_RPT0(0,"Attempt avisynth tunnel load\n");
HRESULT hr = ppf->Load(lpszFileName, mode);
ppf->Release();
return hr;
}
}
mmioSeek(hmmio, 0, SEEK_SET);
_RPT0(0,"Attempting to find 'VDRM'...\n");
mmiriff.fccType = 'MRDV';
mmerr = mmioDescend(hmmio, &mmiriff, NULL, MMIO_FINDRIFF);
if (mmerr == MMIOERR_CHUNKNOTFOUND) {
IPersistFile *ppf;
mmioClose(hmmio, 0);
// Okay, it's not one of our files. Now try passing it off
// to the regular AVI handler!
_RPT0(0,"Attempt tunnel create\n");
if (FAILED(CoCreateInstance(CLSID_AVIFile, NULL, CLSCTX_INPROC_SERVER, another_IID_IAVIFile, (void **)&pafTunnel)))
return (HRESULT)E_FAIL;
_RPT0(0,"Attempt tunnel query -> IPersistFile\n");
if (FAILED(pafTunnel->QueryInterface(IID_IPersistFile, (void **)&ppf)))
return (HRESULT)E_FAIL;
_RPT0(0,"Attempt tunnel load\n");
HRESULT hr = ppf->Load(lpszFileName, mode);
ppf->Release();
return hr;
}
else if (mmerr != MMSYSERR_NOERROR) throw (HRESULT)E_FAIL;
_RPT0(0,"Attempting to find 'PATH'...\n");
mmi.ckid = 'HTAP';
mmerr = mmioDescend(hmmio, &mmi, &mmiriff, MMIO_FINDCHUNK);
if (mmerr == MMIOERR_CHUNKNOTFOUND) throw (HRESULT)E_FAIL;
else if (mmerr != MMSYSERR_NOERROR) throw (HRESULT)E_FAIL;
_RPT0(0,"Allocate path memory...\n");
if (!(szPath = new char[mmi.cksize+1]))
throw (HRESULT)E_OUTOFMEMORY;
szPath[mmi.cksize]=0;
_RPT0(0,"Read in path...\n");
if ((LONG)mmi.cksize != mmioRead(hmmio, szPath, mmi.cksize))
throw (HRESULT)E_FAIL;
_RPT1(0,"File parsed, remote-path: [%s]\n", szPath);
// now attempt to open the link
ivdsl = GetDubServerInterface();
if (!ivdsl) throw (HRESULT)E_FAIL;
_RPT0(0,"Have dub server interface.\n");
ivdac = ivdsl->FrameServerConnect(szPath);
if (!ivdac) throw (HRESULT)E_FAIL;
// retrieve streaminfo and format information
_RPT0(0,"Connected to frameserver.\n");
fHasAudio = ivdac->hasAudio();
_RPT0(0,"Reading video stream info...\n");
if (!ivdac->readStreamInfo(&vStreamInfo, FALSE, &vSampleFirst, &vSampleLast))
throw (HRESULT)E_FAIL;
_RPT0(0,"Reading video format length...\n");
if ((vFormatLen = ivdac->readFormat(NULL, FALSE))<=0)
throw (HRESULT)E_FAIL;
_RPT1(0,"Allocating video format (%ld bytes)...\n", vFormatLen);
if (!(vFormat = (BITMAPINFOHEADER *)malloc(vFormatLen)))
throw (HRESULT)E_OUTOFMEMORY;
_RPT0(0,"Reading video format...\n");
if (ivdac->readFormat(vFormat, FALSE)<=0)
throw (HRESULT)E_FAIL;
if (fHasAudio) {
_RPT0(0,"Reading audio stream info...\n");
if (!ivdac->readStreamInfo(&aStreamInfo, TRUE, &aSampleFirst, &aSampleLast))
throw (HRESULT)E_FAIL;
_RPT0(0,"Reading audio format length...\n");
if ((aFormatLen = ivdac->readFormat(NULL, TRUE))<=0)
throw (HRESULT)E_FAIL;
_RPT1(0,"Allocating audio format (%ld bytes)...\n", aFormatLen);
if (!(aFormat = (WAVEFORMATEX *)malloc(aFormatLen)))
throw (HRESULT)E_OUTOFMEMORY;
_RPT0(0,"Reading audio format...\n");
if (ivdac->readFormat(aFormat, TRUE)<=0)
throw (HRESULT)E_FAIL;
}
} catch(HRESULT res) {
_RPT0(0,"*** failed!\n");
final = res;
}
void __stdcall SSRC::GetAudio(void* buf, __int64 start, __int64 count, IScriptEnvironment* env)
{
if (skip_conversion) {
child->GetAudio(buf, start, count, env);
return;
}
count *= vi.AudioChannels(); // This is how SSRC keeps count. We'll do the same
if (start != next_sample) { // Reset on seek
bool skip_restart = false;
if (start > next_sample) { // Don't seek if within 10 sek, but skip
if ((next_sample + input_samples * 10) > start) {
skip_restart = true;
}
}
if (!skip_restart) {
inputReadOffset = MulDiv(start, source_rate, target_rate) - input_samples; // Reset at new read position minus ONE second.
res = SSRC_create(source_rate, target_rate, vi.AudioChannels(), 2, 1, fast);
_RPT2(0, "SSRC: Resetting position. Next_sample: %d. Start:%d.!\n", (int)next_sample, (int)start);
next_sample = start - target_rate;
}
}
SFLOAT* DestSamples = (SFLOAT*)buf;
int ssrc_samples_tbr = count*sizeof(SFLOAT); // count in bytes
bool buffer_full = false;
if (next_sample < start) { // Skip
int skip_count = (start - next_sample) * vi.AudioChannels();
_RPT1(0,"SSRC: Skipping %u samples", skip_count);
int skip_nsamples = skip_count*sizeof(SFLOAT); // count in bytes
do {
int ssrc_samples_av;
SFLOAT* ssrc_samples = res->GetBuffer(&ssrc_samples_av);
if (ssrc_samples_av < skip_nsamples) { // We don't have enough bytes - feed more.
child->GetAudio(srcbuffer, inputReadOffset, input_samples, env);
inputReadOffset += input_samples;
res->Write(srcbuffer, input_samples * vi.AudioChannels());
} else { // Now we have enough data
res->Read(skip_count);
next_sample += start;
buffer_full = true;
}
} while (!buffer_full);
buffer_full = false;
}
do {
int ssrc_samples_av;
SFLOAT* ssrc_samples = res->GetBuffer(&ssrc_samples_av);
if (ssrc_samples_av < ssrc_samples_tbr) { // We don't have enough bytes - feed more.
child->GetAudio(srcbuffer, inputReadOffset, input_samples, env);
inputReadOffset += input_samples;
res->Write(srcbuffer, input_samples * vi.AudioChannels());
} else { // Now we have enough data
env->BitBlt((BYTE*)buf, 0, (BYTE*)ssrc_samples, 0, ssrc_samples_tbr , 1);
res->Read(count);
buffer_full = true;
}
} while (!buffer_full);
next_sample = start + (count/vi.AudioChannels());
}
void NikonDecompressor::DecompressNikon(ByteStream *metadata, uint32 w, uint32 h, uint32 bitsPS, uint32 offset, uint32 size) {
uint32 v0 = metadata->getByte();
uint32 v1 = metadata->getByte();
uint32 huffSelect = 0;
uint32 split = 0;
int pUp1[2];
int pUp2[2];
mUseBigtable = true;
_RPT2(0, "Nef version v0:%u, v1:%u\n", v0, v1);
if (v0 == 73 || v1 == 88)
metadata->skipBytes(2110);
if (v0 == 70) huffSelect = 2;
if (bitsPS == 14) huffSelect += 3;
pUp1[0] = metadata->getShort();
pUp1[1] = metadata->getShort();
pUp2[0] = metadata->getShort();
pUp2[1] = metadata->getShort();
int _max = 1 << bitsPS & 0x7fff;
uint32 step = 0;
uint32 csize = metadata->getShort();
if (csize > 1)
step = _max / (csize - 1);
if (v0 == 68 && v1 == 32 && step > 0 && !uncorrectedRawValues) {
for (uint32 i = 0; i < csize; i++)
curve[i*step] = metadata->getShort();
for (int i = 0; i < _max; i++)
curve[i] = (curve[i-i%step] * (step - i % step) +
curve[i-i%step+step] * (i % step)) / step;
metadata->setAbsoluteOffset(562);
split = metadata->getShort();
} else if (v0 != 70 && csize <= 0x4001 && !uncorrectedRawValues) {
for (uint32 i = 0; i < csize; i++) {
curve[i] = metadata->getShort();
}
_max = csize;
}
initTable(huffSelect);
mRaw->whitePoint = curve[_max-1];
mRaw->blackLevel = curve[0];
ushort16 top = mRaw->whitePoint;
for (int i = _max; i < 0x8000; i++)
curve[i] = top;
uint32 x, y;
BitPumpMSB bits(mFile->getData(offset), size);
uchar8 *draw = mRaw->getData();
uint32 *dest;
uint32 pitch = mRaw->pitch;
int pLeft1 = 0;
int pLeft2 = 0;
uint32 cw = w / 2;
for (y = 0; y < h; y++) {
if (split && y == split) {
initTable(huffSelect + 1);
}
dest = (uint32*) & draw[y*pitch]; // Adjust destination
pUp1[y&1] += HuffDecodeNikon(bits);
pUp2[y&1] += HuffDecodeNikon(bits);
pLeft1 = pUp1[y&1];
pLeft2 = pUp2[y&1];
dest[0] = curve[clampbits(pLeft1,15)] | ((uint32)curve[clampbits(pLeft2,15)] << 16);
for (x = 1; x < cw; x++) {
bits.checkPos();
pLeft1 += HuffDecodeNikon(bits);
pLeft2 += HuffDecodeNikon(bits);
dest[x] = curve[clampbits(pLeft1,15)] | ((uint32)curve[clampbits(pLeft2,15)] << 16);
}
}
}
STDAPI DllCanUnloadNow() {
_RPT2(0,"DllCanUnloadNow(): CAVIFileRemote %ld, CAVIStreamRemote %ld\n", CAVIFileRemote::gRefCnt, CAVIStreamRemote::gRefCnt);
return (CAVIFileRemote::gRefCnt || CAVIStreamRemote::gRefCnt) ? S_FALSE : S_OK;
}
HRESULT videoSource::FillBuffer(IMediaSample *pMediaSample)
{
_RPT2(_CRT_WARN,"FillBuffer %d %d\n",currentFrame,nr);
BYTE *pData;
long lDataLen = pMediaSample->GetSize();;
pMediaSample->GetPointer(&pData);
if (lDataLen < height*scanwidth*3) return E_INVALIDARG;
{
CAutoLock cAutoLockShared(&m_cSharedState);
if (currentFrame >= nr || times[currentFrame]*10000000 > m_rtStop)
{
_RPT0(_CRT_WARN,"v stopping\n");
done=1;
if (stopGraph) return S_FALSE;
else {
pMediaSample->SetActualDataLength(0);
REFERENCE_TIME rtStart, rtStop;
rtStart = times[currentFrame-1]*10000000;
rtStop = m_rtStop;
pMediaSample->SetTime(&rtStart, &rtStop);
_RPT0(_CRT_WARN,"v Sleeping \n");
Sleep(1000);
return NOERROR;
}
}
//height,width,color => flip color,width, flip height
BYTE* frame = (BYTE*)frames[currentFrame];
for (int c=0; c<3; c++)
{
int c1 = height*width*c;
int c2 = 2-c;
for (int w=0; w<width; w++)
{
int w1 = height*w;
int w2 = 3*w;
for (int h=0; h<height; h++)
{
pData[c2+w2+3*scanwidth*(height-1-h)] = frame[c1+w1+h];
}
}
}
REFERENCE_TIME rtStart, rtStop;
rtStart = times[currentFrame]*10000000;
rtStop = (currentFrame<nr-1)?times[currentFrame+1]*10000000-1:rtStart;
pMediaSample->SetActualDataLength(height*width*3);
_RPT4(_CRT_WARN,"v SetTime %d %d %d %d\n",(int)(rtStart>>32),(int)rtStart,(int)(rtStop>>32),(int)rtStop);
pMediaSample->SetTime(&rtStart, &rtStop);
currentFrame++;
}
pMediaSample->SetSyncPoint(TRUE);
return NOERROR;
}
DWriteContext::DWriteContext() :
mDpiScaleX(1.f),
mDpiScaleY(1.f),
mDrawing(false),
mD2D1Factory(NULL),
mRT(NULL),
mBrush(NULL),
mDWriteFactory(NULL),
mGdiInterop(NULL),
mRenderingParams(NULL),
mTextFormat(NULL),
mLastHFont(NULL),
mFontWeight(DWRITE_FONT_WEIGHT_NORMAL),
mFontStyle(DWRITE_FONT_STYLE_NORMAL),
mTextAntialiasMode(D2D1_TEXT_ANTIALIAS_MODE_DEFAULT)
{
HRESULT hr;
HDC screen = ::GetDC(0);
mDpiScaleX = ::GetDeviceCaps(screen, LOGPIXELSX) / 96.0f;
mDpiScaleY = ::GetDeviceCaps(screen, LOGPIXELSY) / 96.0f;
::ReleaseDC(0, screen);
hr = D2D1CreateFactory(D2D1_FACTORY_TYPE_SINGLE_THREADED,
__uuidof(ID2D1Factory), NULL,
reinterpret_cast<void**>(&mD2D1Factory));
_RPT2(_CRT_WARN, "D2D1CreateFactory: hr=%p p=%p\n", hr, mD2D1Factory);
if (SUCCEEDED(hr))
{
D2D1_RENDER_TARGET_PROPERTIES props = {
D2D1_RENDER_TARGET_TYPE_DEFAULT,
{ DXGI_FORMAT_B8G8R8A8_UNORM, D2D1_ALPHA_MODE_IGNORE },
0, 0,
D2D1_RENDER_TARGET_USAGE_NONE,
D2D1_FEATURE_LEVEL_DEFAULT
};
hr = mD2D1Factory->CreateDCRenderTarget(&props, &mRT);
_RPT2(_CRT_WARN, "CreateDCRenderTarget: hr=%p p=%p\n", hr, mRT);
}
if (SUCCEEDED(hr))
{
hr = mRT->CreateSolidColorBrush(
D2D1::ColorF(D2D1::ColorF::Black),
&mBrush);
_RPT2(_CRT_WARN, "CreateSolidColorBrush: hr=%p p=%p\n", hr, mBrush);
}
if (SUCCEEDED(hr))
{
hr = DWriteCreateFactory(
DWRITE_FACTORY_TYPE_SHARED,
__uuidof(IDWriteFactory),
reinterpret_cast<IUnknown**>(&mDWriteFactory));
_RPT2(_CRT_WARN, "DWriteCreateFactory: hr=%p p=%p\n", hr,
mDWriteFactory);
}
if (SUCCEEDED(hr))
{
hr = mDWriteFactory->GetGdiInterop(&mGdiInterop);
_RPT2(_CRT_WARN, "GetGdiInterop: hr=%p p=%p\n", hr, mGdiInterop);
}
if (SUCCEEDED(hr))
{
hr = mDWriteFactory->CreateRenderingParams(&mRenderingParams);
_RPT2(_CRT_WARN, "CreateRenderingParams: hr=%p p=%p\n", hr,
mRenderingParams);
}
}
DWORD ctrlTrainThreadFunc( LPVOID param )
{
SYSTEM_INFO sysInfo;
int numProc;
int i;
DWORD dwTrainThread[32];
HANDLE hTrainThread[32];
TrainThreadParams thrParams[32];
DWORD affMask = 0;
POSITION pos;
CPerson* person;
InitializeCriticalSection( &g_critSect );
g_hevtWakeUpControlThread = CreateEvent( 0, true, false, "WakeUpCtrlTrainThread" );
GetSystemInfo( &sysInfo );
numProc = sysInfo.dwNumberOfProcessors;
numProc = 32;
if( numProc > 32 ) {
CloseHandle( g_hevtWakeUpControlThread );
DeleteCriticalSection( &g_critSect );
hCtrlTrainThread = 0;
return 0;
}
trainParam.frame->DisableItemsForTrain();
if( numProc == 1 )
{
// Single processor code
CHMMDemoDoc* doc = ( (StartTrainParams*)param )->doc;
if( !doc )
return 0;
CFaceBase& base = doc->GetFaceBase();
base.TrainAll( ( (StartTrainParams*)param )->flag );
}
else {
// Multiple processor code
CHMMDemoDoc* doc = ( (StartTrainParams*)param )->doc;
if( !doc )
ExitThread(0);
CFaceBase& base = doc->GetFaceBase();
affMask = 0;
for( i = 0; i < numProc; i ++ )
{
affMask |= ( 1 << i );
}
for( i = 0; i < numProc; i ++ )
{
thrParams[i].threadNum = i;
thrParams[i].working = true;
hTrainThread[i] = CreateThread( NULL, 0, (LPTHREAD_START_ROUTINE)trainFunc, &(thrParams[i]), CREATE_SUSPENDED, &(dwTrainThread[i]) );
thrParams[i].hThread = hTrainThread[i];
thrParams[i].doNext = false;
PRIOR SetThreadPriority( hTrainThread[i], THREAD_PRIORITY_BELOW_NORMAL );
//SetThreadAffinityMask( hTrainThread[i], affMask );
//SetThreadIdealProcessor( hTrainThread[i], (DWORD)i );
}
thrFinishWork = NONE_FINISH_WORK;
ResetEvent( g_hevtWakeUpControlThread );
for( i = 0, pos = base.GetPersonList().GetHeadPosition(); pos; )
{
person = base.GetPersonList().GetNext(pos);
_RPT2( _CRT_WARN, "%s %d\n", "pos = ", (int)pos );
if( (( (StartTrainParams*)param )->flag == TRAIN_UNTRAINED) && person->IsTrained() ) continue;
EnterCriticalSection( &g_critSect );
_RPT1( _CRT_WARN, "Giving execute to thread #%d\n", i );
thrParams[i].person = person;
thrParams[i].doNext = true;
LeaveCriticalSection( &g_critSect );
_RPT1( _CRT_WARN, "Resuming thread #%d\n", i );
ResumeThread( hTrainThread[i] );
i ++;
if( i == numProc ) {
break;
}
}
if( i != numProc ) {
while( i > 0 ) {
WaitForSingleObject( g_hevtWakeUpControlThread, INFINITE );
CHECK_TRAIN_FOR_BREAK( hTrainThread, thrParams, numProc );
_RPT1( _CRT_WARN, "Main thread gets last event from thread #%d\n", thrFinishWork );
EnterCriticalSection( &g_critSect );
ResetEvent( g_hevtWakeUpControlThread );
thrParams[ thrFinishWork ].doNext = false;
_RPT1( _CRT_WARN, "Resuming thread #%d\n", thrFinishWork );
ResumeThread( hTrainThread[ thrFinishWork ] );
thrFinishWork = NONE_FINISH_WORK;
i --;
LeaveCriticalSection( &g_critSect );
}
} // if( i == numProc )
else {
i = base.GetPersonList().GetCount() - numProc;
while( i > 0 ) {
WaitForSingleObject( g_hevtWakeUpControlThread, INFINITE );
CHECK_TRAIN_FOR_BREAK( hTrainThread, thrParams, numProc );
_RPT0( _CRT_WARN, "Main thread gets event\n" );
EnterCriticalSection( &g_critSect );
ResetEvent( g_hevtWakeUpControlThread );
person = base.GetPersonList().GetNext(pos);
_RPT1( _CRT_WARN, "pos = %d\n", (int)pos );
while( pos && person->IsTrained() ) {
if( (( (StartTrainParams*)param )->flag != TRAIN_UNTRAINED) ) {
person = base.GetPersonList().GetNext(pos);
i --;
}
}
if( person ) {
_RPT1( _CRT_WARN, "Giving execute to thread #%d\n", thrFinishWork );
thrParams[ thrFinishWork ].person = person;
thrParams[ thrFinishWork ].doNext = true;
_RPT1( _CRT_WARN, "Resuming thread #%d\n", thrFinishWork );
ResumeThread( hTrainThread[ thrFinishWork ] );
thrFinishWork = NONE_FINISH_WORK;
i --;
}
LeaveCriticalSection( &g_critSect );
_RPT1( _CRT_WARN, "i = %d\n", i );
//WaitForSingleObject( g_hevtWakeUpControlThread, INFINITE );
} // while( i > 0 )
for( i = 0; i < numProc; i ++ ) {
int thrNum;
DWORD resumeRes;
WaitForSingleObject( g_hevtWakeUpControlThread, INFINITE );
CHECK_TRAIN_FOR_BREAK( hTrainThread, thrParams, numProc );
_RPT1( _CRT_WARN, "Main thread gets last event from thread #%d\n", thrFinishWork );
EnterCriticalSection( &g_critSect );
ResetEvent( g_hevtWakeUpControlThread );
thrNum = thrFinishWork;
thrParams[thrNum].doNext = false;
_RPT1( _CRT_WARN, "Resuming thread #%d\n", thrFinishWork );
resumeRes = ResumeThread( hTrainThread[thrNum] );
thrFinishWork = NONE_FINISH_WORK;
LeaveCriticalSection( &g_critSect );
_RPT1( _CRT_WARN, "Waiting for finishing thread #%d\n", thrNum );
while( !resumeRes ) {
resumeRes = ResumeThread( hTrainThread[thrNum] );
}
WaitForSingleObject( hTrainThread[thrNum], INFINITE );
}
} // if( i == numProc ) else
for( i = 0; i < numProc; i ++ )
{
thrParams[i].doNext = false;
if( thrParams[i].working == true ) {
_RPT1( _CRT_WARN, "Resuming thread #%d\n", i );
while( !ResumeThread( hTrainThread[i] ) && thrParams[i].working == true ) {
Sleep(0);
}
_RPT1( _CRT_WARN, "Waiting for finishing thread #%d\n", i );
WaitForSingleObject( hTrainThread[i], INFINITE );
}
}
base.Save();
} // if( numProc == 1 )
_RPT0( _CRT_WARN, "Main thread: All is Ok!\n" );
CloseHandle( g_hevtWakeUpControlThread );
DeleteCriticalSection( &g_critSect );
hCtrlTrainThread = 0;
trainParam.frame->EnableItemsAfterTrain();
return 0;
} // ctrlTrainThreadFunc
