/*++ Copyright (c) 1999 Microsoft Corporation Module Name: direct.c Abstract: Implements a transport module that works with serial and parallel ports Author: Calin Negreanu (calinn) 14-Apr-2001 Revision History: --*/ // // Includes // #include "pch.h" #include "logmsg.h" #include #define DBG_DIRECT "DIRECT" // // Strings // #define S_TRANSPORT_DAT_FILE TEXT("TRANSDB.DAT") #define S_TRANSPORT_DEST_FILE TEXT("USMT2IMG.DAT") #define S_TRANSPORT_IMG_FILE TEXT("IMG%05X.DAT") #define S_UNCOMPRESSED_FILE TEXT("TEMPFILE.DAT") #define S_DETAILS_PREFIX TEXT("details-") // // Constants // #define TRFLAG_FILE 0x01 #define TRFLAG_MEMORY 0x02 #define COPY_BUFFER_SIZE 32768 #define DIRECTTR_SIG 0x55534D33 //USM2 #define DIRECT_BUFFER_SIZE 1024 // // Macros // // None // // Types // typedef struct { TCHAR TempFile [MAX_PATH]; PCVOID AllocPtr; PCVOID DetailsPtr; HANDLE FileHandle; HANDLE MapHandle; } ALLOCSTATE, *PALLOCSTATE; typedef struct { DWORD Signature; DWORD NumberOfFiles; LONGLONG TotalImageSize; } HEADER1, *PHEADER1; typedef struct { DWORD FileNumber; LONGLONG FileSize; } HEADER2, *PHEADER2; // // Globals // MIG_TRANSPORTSTORAGEID g_DirectCableId; UINT g_DirectCablePlatform; PCTSTR g_DirectCablePath = NULL; PCTSTR g_DirectCableTempPath = NULL; DWORD g_DirectCableBaudRate = 0; MIG_PROGRESSSLICEID g_PersistentSlice; MIG_PROGRESSSLICEID g_DatabaseSlice; UINT g_CompressedTicks; UINT g_CompressedTicked; MIG_PROGRESSSLICEID g_CompressedSlice; UINT g_DownloadTicks; UINT g_DownloadTicked; MIG_PROGRESSSLICEID g_DownloadSlice; UINT g_UncompressTicks; UINT g_UncompressTicked; MIG_PROGRESSSLICEID g_UncompressSlice; LONGLONG g_TotalFiles; LONGLONG g_FilesRead; DWORD g_BaudRate [] = {CBR_256000, CBR_128000, CBR_115200, CBR_57600, CBR_56000, CBR_38400, CBR_19200, CBR_14400, CBR_9600, CBR_4800, CBR_2400, CBR_1200, CBR_600, CBR_300, CBR_110, 0}; DWORD g_StartTicks = 0; // // Macro expansion list // // None // // Private function prototypes // VOID pDCCleanupTempDir ( VOID ); // // Macro expansion definition // // None // // Code // BOOL WINAPI DirectCableTransportInitialize ( PMIG_LOGCALLBACK LogCallback ) { // // Initialize globals // LogReInit (NULL, NULL, NULL, (PLOGCALLBACK) LogCallback); g_DirectCableId = IsmRegisterTransport (S_DIRECT_CABLE_TRANSPORT); return TRUE; } VOID WINAPI DirectCableTransportTerminate ( VOID ) { pDCCleanupTempDir (); if (g_DirectCableTempPath) { FreePathString (g_DirectCableTempPath); g_DirectCableTempPath = NULL; } if (g_DirectCablePath) { FreePathString (g_DirectCablePath); g_DirectCablePath = NULL; } } VOID WINAPI DirectCableTransportEstimateProgressBar ( MIG_PLATFORMTYPEID PlatformTypeId ) { UINT ticks; PMIG_OBJECTCOUNT objectCount; if (PlatformTypeId == PLATFORM_SOURCE) { // // If saving, we know the number of ticks based on the count of the // persistent attribute. // objectCount = IsmGetObjectsStatistics (PLATFORM_SOURCE); if (objectCount) { ticks = objectCount->PersistentObjects; } else { ticks = 0; } g_PersistentSlice = IsmRegisterProgressSlice (ticks, max (1, ticks / 5)); g_DatabaseSlice = IsmRegisterProgressSlice (3, 1); g_CompressedTicks = ticks; g_CompressedSlice = IsmRegisterProgressSlice (g_CompressedTicks, max (1, g_CompressedTicks / 5)); } else { g_DownloadTicked = 0; g_DownloadTicks = 1000; g_DownloadSlice = IsmRegisterProgressSlice (g_DownloadTicks, 180); g_UncompressTicked = 0; g_UncompressTicks = 1000; g_UncompressSlice = IsmRegisterProgressSlice (g_UncompressTicks, 180); } } BOOL WINAPI DirectCableTransportQueryCapabilities ( IN MIG_TRANSPORTSTORAGEID TransportStorageId, OUT PMIG_TRANSPORTTYPE TransportType, OUT PMIG_TRANSPORTCAPABILITIES Capabilities, OUT PCTSTR *FriendlyDescription ) { if (TransportStorageId != g_DirectCableId) { return FALSE; } *TransportType = TRANSPORTTYPE_FULL; *Capabilities = CAPABILITY_COMPRESSED; *FriendlyDescription = TEXT("Direct Cable"); return TRUE; } VOID pDCCleanupTempDir ( VOID ) { if (g_DirectCableTempPath) { FiRemoveAllFilesInTree (g_DirectCableTempPath); } } PCTSTR pDCCreateTemporaryDir ( VOID ) { TCHAR tempFile[MAX_PATH]; if (!IsmGetTempDirectory (tempFile, ARRAYSIZE(tempFile))) { return NULL; } return DuplicatePathString (tempFile, 0); } BOOL WINAPI DirectCableTransportSetStorage ( IN MIG_PLATFORMTYPEID Platform, IN MIG_TRANSPORTSTORAGEID TransportStorageId, IN MIG_TRANSPORTCAPABILITIES RequiredCapabilities, IN PCTSTR StoragePath, OUT PBOOL Valid, OUT PBOOL ImageExists ) { BOOL result = FALSE; PTSTR baudRatePtr = NULL; if (Valid) { *Valid = FALSE; } if (ImageExists) { *ImageExists = FALSE; } if (TransportStorageId == g_DirectCableId) { if ((!RequiredCapabilities) || (RequiredCapabilities == CAPABILITY_COMPRESSED)) { if (g_DirectCablePath) { FreePathString (g_DirectCablePath); g_DirectCablePath = NULL; } g_DirectCablePath = DuplicatePathString (StoragePath, 0); baudRatePtr = _tcschr (g_DirectCablePath, TEXT(':')); if (baudRatePtr) { *baudRatePtr = 0; baudRatePtr ++; g_DirectCableBaudRate = _ttoi (baudRatePtr); } if (Valid) { *Valid = TRUE; } if (ImageExists) { if (Platform == PLATFORM_SOURCE) { *ImageExists = FALSE; } else { *ImageExists = TRUE; } } result = TRUE; } } return result; } PCTSTR pDCBuildDecoratedObject ( IN MIG_OBJECTTYPEID ObjectTypeId, IN ENCODEDSTRHANDLE ObjectName ) { TCHAR prefix[32]; wsprintf (prefix, TEXT("%u"), ObjectTypeId); return JoinPaths (prefix, ObjectName); } VOID pDCDestroyDecoratedObject ( IN PCTSTR String ) { FreePathString (String); } BOOL pDCSaveDetails ( IN PCTSTR DecoratedObject, IN PMIG_DETAILS Details ) { PCTSTR key; BOOL b; if ((!Details) || (!Details->DetailsSize)) { return TRUE; } key = JoinText (S_DETAILS_PREFIX, DecoratedObject); b = (MemDbSetUnorderedBlob (key, 0, Details->DetailsData, Details->DetailsSize) != 0); FreeText (key); return b; } PCTSTR pDCAllocStorageFileName ( VOID ) { static UINT fileIndex = 0; TCHAR buffer [32]; fileIndex ++; wsprintf (buffer, TEXT("%08X.DAT"), fileIndex); return DuplicatePathString (buffer, 0); } BOOL pDCSaveContentInMemory ( IN MIG_OBJECTTYPEID ObjectTypeId, IN ENCODEDSTRHANDLE ObjectName, IN PCTSTR DecoratedObject, IN PMIG_CONTENT ObjectValue ) { BOOL result = FALSE; MemDbSetValue (DecoratedObject, TRFLAG_MEMORY); if (ObjectValue->MemoryContent.ContentBytes && ObjectValue->MemoryContent.ContentSize) { MemDbSetUnorderedBlob ( DecoratedObject, 0, ObjectValue->MemoryContent.ContentBytes, ObjectValue->MemoryContent.ContentSize ); } result = pDCSaveDetails (DecoratedObject, &ObjectValue->Details); return result; } BOOL pDCAddFileToImage ( IN PCTSTR FileName, IN PCTSTR StoredName, IN OUT PCOMPRESS_HANDLE CompressedHandle ) { return CompressAddFileToHandle (FileName, StoredName, CompressedHandle); } BOOL pDCSaveContentInFile ( IN MIG_OBJECTTYPEID ObjectTypeId, IN PCTSTR EncodedFileName, IN PCTSTR DecoratedObject, IN PMIG_CONTENT Content, IN OUT PCOMPRESS_HANDLE CompressedHandle ) { BOOL result = FALSE; PCTSTR destPath = NULL; DWORD attributes = INVALID_ATTRIBUTES; MYASSERT (Content->ContentInFile); if (!Content->ContentInFile) { return FALSE; } // // Use the CopyFile API to move the file from local to storage. // __try { if (Content && (Content->Details.DetailsSize == sizeof (WIN32_FIND_DATAW)) && Content->Details.DetailsData) { attributes = ((PWIN32_FIND_DATAW)Content->Details.DetailsData)->dwFileAttributes; } if ((attributes != INVALID_ATTRIBUTES) && (attributes & FILE_ATTRIBUTE_DIRECTORY)) { // this must be a directory, let's just write the key if (!MemDbSetValue (DecoratedObject, TRFLAG_FILE)) { __leave; } result = TRUE; } else { // // Get a temp file, assemble the src path, copy the file // destPath = pDCAllocStorageFileName (); if (!destPath) { __leave; } if (!pDCAddFileToImage (Content->FileContent.ContentPath, destPath, CompressedHandle)) { __leave; } // // Keep track of where the file went // if (!MemDbSetValue (DecoratedObject, TRFLAG_FILE)) { __leave; } if (!MemDbAddSingleLinkage (DecoratedObject, destPath, 0)) { __leave; } FreePathString (destPath); destPath = NULL; } // // Save details // result = pDCSaveDetails (DecoratedObject, &(Content->Details)); } __finally { if (destPath) { FreePathString (destPath); destPath = NULL; } } return result; } PCTSTR pDCGetImageFile ( IN UINT ImageIdx ) { TCHAR imageFileName [13]; PCTSTR imageFile = NULL; HANDLE imageFileHandle = NULL; wsprintf (imageFileName, S_TRANSPORT_IMG_FILE, ImageIdx); return JoinPaths (g_DirectCableTempPath, imageFileName); } HANDLE pDCOpenAndSetPort ( IN PCTSTR ComPort ) { HANDLE result = INVALID_HANDLE_VALUE; COMMTIMEOUTS commTimeouts; DCB dcb; // let's open the port. If we can't we just exit with error; result = CreateFile (ComPort, GENERIC_READ|GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL); if (result == INVALID_HANDLE_VALUE) { return result; } // we want 3 sec timeout for both read and write commTimeouts.ReadIntervalTimeout = 0; commTimeouts.ReadTotalTimeoutMultiplier = 0; commTimeouts.ReadTotalTimeoutConstant = 3000; commTimeouts.WriteTotalTimeoutMultiplier = 0; commTimeouts.WriteTotalTimeoutConstant = 3000; SetCommTimeouts (result, &commTimeouts); // let's set some comm state data if (GetCommState (result, &dcb)) { dcb.fBinary = 1; dcb.fParity = 1; dcb.ByteSize = 8; dcb.fOutxCtsFlow = 1; dcb.fTXContinueOnXoff = 1; dcb.fRtsControl = 2; dcb.fAbortOnError = 1; dcb.Parity = 0; dcb.BaudRate = g_DirectCableBaudRate?g_DirectCableBaudRate:CBR_115200; if (!SetCommState (result, &dcb)) { CloseHandle (result); result = INVALID_HANDLE_VALUE; return result; } } else { CloseHandle (result); result = INVALID_HANDLE_VALUE; return result; } return result; } #define ACK 0x16 #define NAK 0x15 #define SOH 0x01 #define EOT 0x04 #define BLOCKSIZE 1024 BOOL pDCSendFileToHandle ( IN HANDLE DeviceHandle, IN PCTSTR FileName, IN OUT ULONGLONG *TotalImageWritten, IN ULONGLONG TotalImageSize ) { HANDLE fileHandle = NULL; BOOL result = TRUE; BYTE buffer [4 + BLOCKSIZE]; BYTE signal; BYTE currBlock = 0; DWORD numRead; DWORD numWritten; BOOL repeat = FALSE; UINT index; LONGLONG numerator; LONGLONG divisor; LONGLONG tick; UINT delta; UINT elapsedTicks; UINT estimatedTime; UINT percent, percent100; UINT hour, minute, second; MIG_APPINFO appInfo; PCTSTR statusMsg; PCTSTR argArray[5]; fileHandle = BfOpenReadFile (FileName); if (!fileHandle) { return FALSE; } if (!g_StartTicks) { g_StartTicks = GetTickCount (); } // finally let's start the protocol // We are going to listen for the NAK(15h) signal. // As soon as we get it we are going to send a 4 + BLOCKSIZE bytes block having: // 1 byte - SOH (01H) // 1 byte - block number // 1 byte - FF - block number // BLOCKSIZE bytes of data // 1 byte - checksum - sum of all BLOCKSIZE bytes of data // After the block is sent, we are going to wait for ACK(16h). If we don't get // it after timeout or if we get something else we are going to send the block again. // wait for NAK while ((!ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) || (numRead != 1) || (signal != NAK) ) && (!IsmCheckCancel ()) ); repeat = FALSE; while (TRUE) { if (IsmCheckCancel ()) { result = FALSE; break; } if (!repeat) { // prepare the next block currBlock ++; if (currBlock == 0) { result = TRUE; } buffer [0] = SOH; buffer [1] = currBlock; buffer [2] = 0xFF - currBlock; if (!ReadFile (fileHandle, buffer + 3, BLOCKSIZE, &numRead, NULL) || (numRead == 0) ) { // we are done with data, send the EOT signal signal = EOT; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); break; } if (TotalImageWritten) { *TotalImageWritten += numRead; } // compute the checksum buffer [sizeof (buffer) - 1] = 0; signal = 0; for (index = 0; index < sizeof (buffer) - 1; index ++) { signal += buffer [index]; } buffer [sizeof (buffer) - 1] = signal; } // now send the block to the other side if (!WriteFile (DeviceHandle, buffer, sizeof (buffer), &numWritten, NULL) || (numWritten != sizeof (buffer)) ) { repeat = TRUE; } else { repeat = FALSE; } if (IsmCheckCancel ()) { result = FALSE; break; } if (repeat) { // we could not send the data last time // let's just wait for a NAK for 10 sec and then send it again ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL); } else { // we sent it OK. We need to wait for an ACK to come. If we timeout // or we get something else, we will repeat the block. if (!ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) || (numRead != sizeof (signal)) || (signal != ACK) ) { repeat = TRUE; } if (!repeat) { if (TotalImageWritten) { // now update the progress bar numerator = (LONGLONG) (*TotalImageWritten) * (LONGLONG) g_CompressedTicks; divisor = (LONGLONG) TotalImageSize; if (divisor) { tick = numerator / divisor; } else { tick = 0; } delta = (UINT) tick - g_CompressedTicked; if (delta) { IsmTickProgressBar (g_CompressedSlice, delta); g_CompressedTicked += delta; } // now update the estimated time and % elapsedTicks = GetTickCount () - g_StartTicks; estimatedTime = (UINT)(TotalImageSize * elapsedTicks / (*TotalImageWritten)) - elapsedTicks; percent100 = (UINT)((*TotalImageWritten) * 10000 / TotalImageSize); percent = percent100 / 100; percent100 = percent100 - (percent * 100); if (elapsedTicks > 45000) { // after about 45 seconds // let's send the message to the app hour = estimatedTime / 3600000; minute = estimatedTime / 60000 - hour * 60; second = estimatedTime / 1000 - hour * 3600 - minute * 60; argArray[0] = (PCTSTR) (UINT_PTR) (percent); argArray[1] = (PCTSTR) (UINT_PTR) (percent100); argArray[2] = (PCTSTR) (UINT_PTR) (hour); argArray[3] = (PCTSTR) (UINT_PTR) (minute); argArray[4] = (PCTSTR) (UINT_PTR) (second); statusMsg = ParseMessageID (MSG_TRANSFER_INFO, argArray); if (statusMsg) { ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_CABLETRANS; appInfo.Text = statusMsg; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); FreeStringResource (statusMsg); } } } } } } if (result) { // we are done here. However, let's listen one more timeout for a // potential NAK. If we get it, we'll repeat the EOT signal while (ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) && (numRead == 1) ) { if (signal == NAK) { signal = EOT; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } } } CloseHandle (fileHandle); return result; } BOOL pDCSendFile ( IN PCTSTR ComPort, IN PCTSTR FileName, IN OUT ULONGLONG *TotalImageWritten, IN ULONGLONG TotalImageSize ) { HANDLE deviceHandle = INVALID_HANDLE_VALUE; BOOL result = FALSE; deviceHandle = pDCOpenAndSetPort (ComPort); if ((!deviceHandle) || (deviceHandle == INVALID_HANDLE_VALUE)) { return result; } result = pDCSendFileToHandle (deviceHandle, FileName, TotalImageWritten, TotalImageSize); CloseHandle (deviceHandle); return result; } BOOL pDCSendBlockToHandle ( IN HANDLE DeviceHandle, IN PCBYTE Buffer ) { BOOL result = TRUE; BYTE buffer [4 + BLOCKSIZE]; BYTE signal; BYTE currBlock = 0; DWORD numRead; DWORD numWritten; BOOL repeat = FALSE; UINT index; // let's start the protocol // We are going to listen for the NAK(15h) signal. // As soon as we get it we are going to send a 4 + BLOCKSIZE bytes block having: // 1 byte - SOH (01H) // 1 byte - block number // 1 byte - FF - block number // BLOCKSIZE bytes of data // 1 byte - checksum - sum of all BLOCKSIZE bytes of data // After the block is sent, we are going to wait for ACK(16h). If we don't get // it after timeout or if we get something else we are going to send the block again. // wait for NAK while ((!ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) || (numRead != 1) || (signal != NAK) ) && (!IsmCheckCancel ()) ); repeat = FALSE; while (TRUE) { if (IsmCheckCancel ()) { result = FALSE; break; } if (!repeat) { // prepare the next block currBlock ++; if (currBlock == 0) { result = TRUE; } buffer [0] = SOH; buffer [1] = currBlock; buffer [2] = 0xFF - currBlock; CopyMemory (buffer + 3, Buffer, BLOCKSIZE); // compute the checksum buffer [sizeof (buffer) - 1] = 0; signal = 0; for (index = 0; index < sizeof (buffer) - 1; index ++) { signal += buffer [index]; } buffer [sizeof (buffer) - 1] = signal; } // now send the block to the other side if (!WriteFile (DeviceHandle, buffer, sizeof (buffer), &numWritten, NULL) || (numWritten != sizeof (buffer)) ) { repeat = TRUE; } else { repeat = FALSE; } if (IsmCheckCancel ()) { result = FALSE; break; } if (repeat) { // we could not send the data last time // let's just wait for a NAK for 10 sec and then send it again ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL); } else { // we sent it OK. We need to wait for an ACK to come. If we timeout // or we get something else, we will repeat the block. if (!ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) || (numRead != sizeof (signal)) || (signal != ACK) ) { repeat = TRUE; } else { // we are done with data, send the EOT signal signal = EOT; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); break; } } } if (result) { // we are done here. However, let's listen one more timeout for a // potential NAK. If we get it, we'll repeat the EOT signal while (ReadFile (DeviceHandle, &signal, sizeof (signal), &numRead, NULL) && (numRead == 1) ) { if (signal == NAK) { signal = EOT; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } } } return result; } BOOL pDCSendBlock ( IN PCTSTR ComPort, IN PCBYTE Buffer ) { HANDLE deviceHandle = INVALID_HANDLE_VALUE; BOOL result = FALSE; // Buffer must have BLOCKSIZE size deviceHandle = pDCOpenAndSetPort (ComPort); if ((!deviceHandle) || (deviceHandle == INVALID_HANDLE_VALUE)) { return result; } result = pDCSendBlockToHandle (deviceHandle, Buffer); CloseHandle (deviceHandle); return result; } BOOL pDCReceiveFileFromHandle ( IN HANDLE DeviceHandle, IN PCTSTR FileName, IN LONGLONG FileSize, IN OUT ULONGLONG *TotalImageRead, IN ULONGLONG TotalImageSize ) { HANDLE fileHandle = NULL; BOOL result = TRUE; BYTE buffer [4 + BLOCKSIZE]; BYTE signal; BYTE currBlock = 1; DWORD numRead; DWORD numWritten; BOOL repeat = TRUE; UINT index; LONGLONG numerator; LONGLONG divisor; LONGLONG tick; UINT delta; UINT elapsedTicks; UINT estimatedTime; UINT percent, percent100; UINT hour, minute, second; MIG_APPINFO appInfo; PCTSTR statusMsg; PCTSTR argArray[5]; fileHandle = BfCreateFile (FileName); if (!fileHandle) { return FALSE; } if (!g_StartTicks) { g_StartTicks = GetTickCount (); } // finally let's start the protocol // We are going to send an NAK(15h) signal. // After that we are going to listen for a block. // If we don't get the block in time, or the block is wrong size // or it has a wrong checksum we are going to send a NAK signal, // otherwise we are going to send an ACK signal // One exception. If the block size is 1 and the block is actually the // EOT signal it means we are done. while (TRUE) { if (IsmCheckCancel ()) { result = FALSE; break; } if (repeat) { // send the NAK signal = NAK; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } else { // send the ACK signal = ACK; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } if (IsmCheckCancel ()) { result = FALSE; break; } repeat = TRUE; // let's read the data block if (ReadFile (DeviceHandle, buffer, sizeof (buffer), &numRead, NULL)) { if ((numRead == 1) && (buffer [0] == EOT) ) { // we are done break; } if (numRead == sizeof (buffer)) { // compute the checksum signal = 0; for (index = 0; index < sizeof (buffer) - 1; index ++) { signal += buffer [index]; } if (buffer [sizeof (buffer) - 1] == signal) { repeat = FALSE; // checksum is correct, let's see if this is the right block if (currBlock < buffer [1]) { // this is a major error, the sender is ahead of us, // we have to fail result = FALSE; break; } if (currBlock == buffer [1]) { if (FileSize > BLOCKSIZE) { if ((!WriteFile (fileHandle, buffer + 3, BLOCKSIZE, &numWritten, NULL)) || (numWritten != BLOCKSIZE) ) { // Write failed. Let's get out of here result = FALSE; break; } if (TotalImageRead) { *TotalImageRead += BLOCKSIZE; } FileSize -= BLOCKSIZE; } else { if ((!WriteFile (fileHandle, buffer + 3, (DWORD)FileSize, &numWritten, NULL)) || (numWritten != FileSize) ) { // Write failed. Let's get out of here result = FALSE; break; } if (TotalImageRead) { *TotalImageRead += FileSize; } FileSize = 0; } if (TotalImageRead) { // now update the progress bar numerator = (LONGLONG) (*TotalImageRead) * (LONGLONG) g_DownloadTicks; divisor = (LONGLONG) TotalImageSize; if (divisor) { tick = numerator / divisor; } else { tick = 0; } delta = (UINT) tick - g_DownloadTicked; if (delta) { IsmTickProgressBar (g_DownloadSlice, delta); g_DownloadTicked += delta; } // now update the estimated time and % elapsedTicks = GetTickCount () - g_StartTicks; estimatedTime = (UINT)(TotalImageSize * elapsedTicks / (*TotalImageRead)) - elapsedTicks; percent100 = (UINT)((*TotalImageRead) * 10000 / TotalImageSize); percent = percent100 / 100; percent100 = percent100 - (percent * 100); if (elapsedTicks > 45000) { // after about 45 seconds // let's send the message to the app hour = estimatedTime / 3600000; minute = estimatedTime / 60000 - hour * 60; second = estimatedTime / 1000 - hour * 3600 - minute * 60; argArray[0] = (PCTSTR) (UINT_PTR) (percent); argArray[1] = (PCTSTR) (UINT_PTR) (percent100); argArray[2] = (PCTSTR) (UINT_PTR) (hour); argArray[3] = (PCTSTR) (UINT_PTR) (minute); argArray[4] = (PCTSTR) (UINT_PTR) (second); statusMsg = ParseMessageID (MSG_TRANSFER_INFO, argArray); if (statusMsg) { ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_CABLETRANS; appInfo.Text = statusMsg; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); FreeStringResource (statusMsg); } } } currBlock ++; } } } } } CloseHandle (fileHandle); return result; } BOOL pDCReceiveFile ( IN PCTSTR ComPort, IN PCTSTR FileName, IN LONGLONG FileSize, IN OUT ULONGLONG *TotalImageRead, IN ULONGLONG TotalImageSize ) { HANDLE deviceHandle = INVALID_HANDLE_VALUE; BOOL result = FALSE; deviceHandle = pDCOpenAndSetPort (ComPort); if ((!deviceHandle) || (deviceHandle == INVALID_HANDLE_VALUE)) { return result; } result = pDCReceiveFileFromHandle (deviceHandle, FileName, FileSize, TotalImageRead, TotalImageSize); CloseHandle (deviceHandle); return result; } BOOL pDCReceiveBlockFromHandle ( IN HANDLE DeviceHandle, OUT PBYTE Buffer ) { BOOL result = TRUE; BYTE buffer [4 + BLOCKSIZE]; BYTE signal; BYTE currBlock = 1; DWORD numRead; DWORD numWritten; BOOL repeat = TRUE; UINT index; // finally let's start the protocol // We are going to send an NAK(15h) signal. // After that we are going to listen for a block. // If we don't get the block in time, or the block is wrong size // or it has a wrong checksum we are going to send a NAK signal, // otherwise we are going to send an ACK signal // One exception. If the block size is 1 and the block is actually the // EOT signal it means we are done. ZeroMemory (Buffer, BLOCKSIZE); while (TRUE) { if (IsmCheckCancel ()) { result = FALSE; break; } if (repeat) { // send the NAK signal = NAK; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } else { // send the ACK signal = ACK; WriteFile (DeviceHandle, &signal, sizeof (signal), &numWritten, NULL); } if (IsmCheckCancel ()) { result = FALSE; break; } repeat = TRUE; // let's read the data block if (ReadFile (DeviceHandle, buffer, sizeof (buffer), &numRead, NULL)) { if ((numRead == 1) && (buffer [0] == EOT) ) { // we are done break; } if (numRead == sizeof (buffer)) { // compute the checksum signal = 0; for (index = 0; index < sizeof (buffer) - 1; index ++) { signal += buffer [index]; } if (buffer [sizeof (buffer) - 1] == signal) { repeat = FALSE; // checksum is correct, let's see if this is the right block if (currBlock < buffer [1]) { // this is a major error, the sender is ahead of us, // we have to fail result = FALSE; break; } if (currBlock == buffer [1]) { CopyMemory (Buffer, buffer + 3, BLOCKSIZE); currBlock ++; } } } } } return result; } BOOL pDCReceiveBlock ( IN PCTSTR ComPort, OUT PBYTE Buffer ) { HANDLE deviceHandle = INVALID_HANDLE_VALUE; BOOL result = FALSE; // Buffer must have BLOCKSIZE size deviceHandle = pDCOpenAndSetPort (ComPort); if ((!deviceHandle) || (deviceHandle == INVALID_HANDLE_VALUE)) { return result; } result = pDCReceiveBlockFromHandle (deviceHandle, Buffer); CloseHandle (deviceHandle); return result; } BOOL pDCWriteAllImages ( VOID ) { MIG_APPINFO appInfo; PHEADER1 header1; PHEADER2 header2; BYTE buffer [BLOCKSIZE]; ULONGLONG totalImageWritten = 0; ULONGLONG totalImageSize = 0; UINT numberOfFiles = 0; UINT imageIdx = 1; ULONGLONG imageSize = 0; PCTSTR imageFile; // let's get the total image size and the total number of bytes imageIdx = 1; while (TRUE) { imageFile = pDCGetImageFile (imageIdx); imageSize = BfGetFileSize (imageFile); if (imageSize == 0) { FreePathString (imageFile); break; } numberOfFiles ++; totalImageSize += imageSize; FreePathString (imageFile); imageIdx ++; } // let's prepare the initial header ZeroMemory (buffer, sizeof (buffer)); header1 = (PHEADER1) buffer; header1->Signature = DIRECTTR_SIG; header1->NumberOfFiles = numberOfFiles; header1->TotalImageSize = totalImageSize; if (!pDCSendBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (!pDCReceiveBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (header1->Signature != DIRECTTR_SIG) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (header1->NumberOfFiles != numberOfFiles) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (header1->TotalImageSize != totalImageSize) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_NETPREPARING; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); imageIdx = 1; while (TRUE) { imageFile = pDCGetImageFile (imageIdx); imageSize = BfGetFileSize (imageFile); if (imageSize == 0) { FreePathString (imageFile); break; } // send info about the current file ZeroMemory (buffer, sizeof (buffer)); header2 = (PHEADER2) buffer; header2->FileNumber = imageIdx; header2->FileSize = imageSize; if (!pDCSendBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (!pDCReceiveBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (header2->FileNumber != imageIdx) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } if (header2->FileSize != imageSize) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } // send the actual file if (!pDCSendFile (g_DirectCablePath, imageFile, &totalImageWritten, totalImageSize)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_DESTINATION)); return FALSE; } FreePathString (imageFile); imageIdx ++; } return TRUE; } BOOL WINAPI DirectCableTransportSaveState ( VOID ) { MIG_APPINFO appInfo; ERRUSER_EXTRADATA extraData; MIG_OBJECTWITHATTRIBUTE_ENUM objEnum; PCTSTR databaseFile = NULL; PCTSTR decoratedObject = NULL; MIG_CONTENT value; PMIG_CONTENT convValue; COMPRESS_HANDLE compressedHandle; INT_PTR appReply; BOOL okSave = FALSE; TRANSCOPY_ERROR transCopyError; #ifdef DEBUG PCTSTR nativeObjectName; #endif BOOL result = FALSE; g_DirectCablePlatform = PLATFORM_SOURCE; __try { ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_PREPARING; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); ZeroMemory (&compressedHandle, sizeof (COMPRESS_HANDLE)); g_DirectCableTempPath = pDCCreateTemporaryDir (); if (!g_DirectCableTempPath) { extraData.Error = ERRUSER_ERROR_CANTCREATETEMPDIR; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } if (!CompressCreateHandle (g_DirectCableTempPath, S_TRANSPORT_IMG_FILE, 1, 0, &compressedHandle)) { extraData.Error = ERRUSER_ERROR_CANTCREATECABFILE; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } // // Enumerate all persistent objects // if (IsmEnumFirstPersistentObject (&objEnum)) { do { // // For each object to be saved, do the appropriate // data copy action // if (IsmCheckCancel()) { __leave; } #ifdef DEBUG nativeObjectName = IsmGetNativeObjectName (objEnum.ObjectTypeId, objEnum.ObjectName); DEBUGMSG ((DBG_DIRECT, "Transporting: %s", nativeObjectName)); IsmReleaseMemory (nativeObjectName); #endif okSave = FALSE; while (!okSave) { if (!IsmAcquireObjectEx ( objEnum.ObjectTypeId, objEnum.ObjectName, &value, CONTENTTYPE_ANY, 0 )) { transCopyError.ObjectType = IsmGetObjectTypeName (objEnum.ObjectTypeId); transCopyError.ObjectName = IsmGetNativeObjectName (objEnum.ObjectTypeId, objEnum.ObjectName); transCopyError.Error = GetLastError (); if (IsmIsNonCriticalObject (objEnum.ObjectTypeId, objEnum.ObjectName)) { appReply = APPRESPONSE_IGNORE; } else { appReply = IsmSendMessageToApp (TRANSPORTMESSAGE_SRC_COPY_ERROR, (ULONG_PTR)&transCopyError); if ((appReply == APPRESPONSE_NONE) || (appReply == APPRESPONSE_FAIL) ) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); IsmAbortPersistentObjectEnum (&objEnum); __leave; } } if (appReply == APPRESPONSE_IGNORE) { LOG ((LOG_WARNING, (PCSTR) MSG_IGNORE_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYWARNING, (ULONG_PTR)(&extraData)); break; } IsmReleaseMemory (transCopyError.ObjectName); continue; } okSave = TRUE; } if (okSave) { #ifdef UNICODE convValue = &value; #else // now let's convert this object content to UNICODE convValue = IsmConvertObjectContentToUnicode (objEnum.ObjectTypeId, objEnum.ObjectName, &value); if (!convValue) { convValue = &value; } #endif decoratedObject = pDCBuildDecoratedObject (objEnum.ObjectTypeId, objEnum.ObjectName); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_COMPRESSING; appInfo.ObjectTypeId = (objEnum.ObjectTypeId & (~PLATFORM_MASK)); appInfo.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); if (convValue->ContentInFile) { okSave = FALSE; while (!okSave) { if (!pDCSaveContentInFile (objEnum.ObjectTypeId, objEnum.ObjectName, decoratedObject, convValue, &compressedHandle)) { if (GetLastError () == ERROR_DISK_FULL) { // we just failed because we don't have enough space on the destination // path. Let's tell that to the user extraData.Error = ERRUSER_ERROR_CANTCREATECABFILE; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } transCopyError.ObjectType = IsmGetObjectTypeName (objEnum.ObjectTypeId); transCopyError.ObjectName = IsmGetNativeObjectName (objEnum.ObjectTypeId, objEnum.ObjectName); transCopyError.Error = GetLastError (); if (IsmIsNonCriticalObject (objEnum.ObjectTypeId, objEnum.ObjectName)) { appReply = APPRESPONSE_IGNORE; } else { appReply = IsmSendMessageToApp (TRANSPORTMESSAGE_SRC_COPY_ERROR, (ULONG_PTR)&transCopyError); if ((appReply == APPRESPONSE_NONE) || (appReply == APPRESPONSE_FAIL) ) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); IsmAbortPersistentObjectEnum (&objEnum); __leave; } } if (appReply == APPRESPONSE_IGNORE) { LOG ((LOG_WARNING, (PCSTR) MSG_IGNORE_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYWARNING, (ULONG_PTR)(&extraData)); break; } IsmReleaseMemory (transCopyError.ObjectName); continue; } okSave = TRUE; } } else { okSave = FALSE; while (!okSave) { if (!pDCSaveContentInMemory (objEnum.ObjectTypeId, objEnum.ObjectName, decoratedObject, convValue)) { if (GetLastError () == ERROR_DISK_FULL) { // we just failed because we don't have enough space on the destination // path. Let's tell that to the user extraData.Error = ERRUSER_ERROR_CANTCREATECABFILE; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } transCopyError.ObjectType = IsmGetObjectTypeName (objEnum.ObjectTypeId); transCopyError.ObjectName = IsmGetNativeObjectName (objEnum.ObjectTypeId, objEnum.ObjectName); transCopyError.Error = GetLastError (); if (IsmIsNonCriticalObject (objEnum.ObjectTypeId, objEnum.ObjectName)) { appReply = APPRESPONSE_IGNORE; } else { appReply = IsmSendMessageToApp (TRANSPORTMESSAGE_SRC_COPY_ERROR, (ULONG_PTR)&transCopyError); if ((appReply == APPRESPONSE_NONE) || (appReply == APPRESPONSE_FAIL) ) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); IsmAbortPersistentObjectEnum (&objEnum); __leave; } } if (appReply == APPRESPONSE_IGNORE) { LOG ((LOG_WARNING, (PCSTR) MSG_IGNORE_COPYSOURCE, transCopyError.ObjectName)); IsmReleaseMemory (transCopyError.ObjectName); extraData.Error = ERRUSER_ERROR_CANTSAVEOBJECT; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = objEnum.ObjectTypeId; extraData.ObjectName = objEnum.ObjectName; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYWARNING, (ULONG_PTR)(&extraData)); break; } IsmReleaseMemory (transCopyError.ObjectName); continue; } okSave = TRUE; } } #ifndef UNICODE if (convValue != (&value)) { IsmFreeConvertedObjectContent (objEnum.ObjectTypeId, convValue); } #endif IsmReleaseObject (&value); pDCDestroyDecoratedObject (decoratedObject); decoratedObject = NULL; } IsmTickProgressBar (g_PersistentSlice, 1); if (IsmCheckCancel()) { __leave; } } while (IsmEnumNextPersistentObject (&objEnum)); IsmAbortPersistentObjectEnum (&objEnum); } if (IsmCheckCancel()) { __leave; } databaseFile = JoinPaths (g_DirectCableTempPath, S_TRANSPORT_DAT_FILE); if (!MemDbSave (databaseFile)) { extraData.Error = ERRUSER_ERROR_CANTSAVEINTERNALDATA; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } IsmTickProgressBar (g_DatabaseSlice, 1); if (IsmCheckCancel()) { __leave; } if (!pDCAddFileToImage (databaseFile, S_TRANSPORT_DAT_FILE, &compressedHandle)) { extraData.Error = ERRUSER_ERROR_CANTSAVEINTERNALDATA; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } IsmTickProgressBar (g_DatabaseSlice, 1); FreePathString (databaseFile); databaseFile = NULL; if (!CompressFlushAndCloseHandle (&compressedHandle)) { extraData.Error = ERRUSER_ERROR_CANTCREATECABFILE; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } IsmTickProgressBar (g_DatabaseSlice, 1); if (IsmCheckCancel()) { __leave; } ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_CONNECTING1; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); if (!pDCWriteAllImages ()) { extraData.Error = ERRUSER_ERROR_CANTFINDDESTINATION; extraData.ErrorArea = ERRUSER_AREA_SAVE; extraData.ObjectTypeId = 0; extraData.ObjectName = NULL; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); __leave; } result = TRUE; } __finally { PushError (); CompressCleanupHandle (&compressedHandle); if (databaseFile) { FreePathString (databaseFile); databaseFile = NULL; } PopError (); } PushError (); pDCCleanupTempDir (); PopError (); return result; } BOOL pDCReadAllImages ( VOID ) { MIG_APPINFO appInfo; PHEADER1 header1; PHEADER2 header2; BYTE buffer [BLOCKSIZE]; ULONGLONG totalImageSize = 0; ULONGLONG totalImageRead = 0; UINT numberOfFiles = 0; UINT imageIdx = 1; ULONGLONG imageSize = 0; PCTSTR imageFile; BOOL wrongVer = FALSE; // Let's get the initial header ZeroMemory (buffer, sizeof (buffer)); if (!pDCReceiveBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } header1 = (PHEADER1) buffer; if (header1->Signature != DIRECTTR_SIG) { wrongVer = TRUE; } header1->Signature = DIRECTTR_SIG; if (!pDCSendBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } if (wrongVer) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } numberOfFiles = header1->NumberOfFiles; totalImageSize = header1->TotalImageSize; ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_NETPREPARING; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); imageIdx = 1; while (imageIdx <= numberOfFiles) { imageFile = pDCGetImageFile (imageIdx); // receive info about the current file ZeroMemory (buffer, sizeof (buffer)); header2 = (PHEADER2) buffer; if (!pDCReceiveBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } if (header2->FileNumber != imageIdx) { wrongVer = TRUE; } header2->FileNumber = imageIdx; if (!pDCSendBlock (g_DirectCablePath, buffer)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } if (wrongVer) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } // receive the actual file if (!pDCReceiveFile (g_DirectCablePath, imageFile, header2->FileSize, &totalImageRead, totalImageSize)) { LOG ((LOG_ERROR, (PCSTR) MSG_CANT_CONNECT_TO_SOURCE)); return FALSE; } FreePathString (imageFile); imageIdx ++; } return TRUE; } PCTSTR pDCGetNewFileName ( IN PCTSTR FileName ) { PCTSTR newFileName = NULL; PTSTR tempPtr1 = NULL; PCTSTR endStr1 = NULL; PCTSTR tempPtr2 = NULL; PCTSTR endStr2 = NULL; INT i; // let's modify the file to extract. The file name will // be split in 2 after the first 5 characters newFileName = DuplicatePathString (FileName, 1); if (!newFileName) { return NULL; } tempPtr1 = (PTSTR) GetFileNameFromPath (newFileName); if (!tempPtr1) { FreePathString (newFileName); return NULL; } endStr1 = GetEndOfString (newFileName); if (!endStr1) { FreePathString (newFileName); return NULL; } tempPtr2 = GetFileNameFromPath (FileName); if (!tempPtr2) { FreePathString (newFileName); return NULL; } endStr2 = GetEndOfString (FileName); if (!endStr2) { FreePathString (newFileName); return NULL; } for (i = 0; i < 5; i ++) { tempPtr1 = _tcsinc (tempPtr1); tempPtr2 = _tcsinc (tempPtr2); } if ((tempPtr1 < endStr1) && (tempPtr2 < endStr2) ) { StringCopy (tempPtr1, TEXT("\\")); tempPtr1 = _tcsinc (tempPtr1); StringCopy (tempPtr1, tempPtr2); } else { FreePathString (newFileName); newFileName = NULL; } return newFileName; } BOOL pDirectCableCallback ( IN PCTSTR FileToExtract, IN LONGLONG FileSize, OUT PBOOL ExtractFile, IN OUT PCTSTR *NewFileName ) { LONGLONG numerator; LONGLONG divisor; LONGLONG tick; UINT delta; if (NewFileName) { *NewFileName = pDCGetNewFileName (FileToExtract); } g_FilesRead ++; // now update the progress bar numerator = (LONGLONG) g_FilesRead * (LONGLONG) g_UncompressTicks; divisor = (LONGLONG) g_TotalFiles; if (divisor) { tick = numerator / divisor; } else { tick = 0; } delta = (UINT) tick - g_UncompressTicked; if (delta) { IsmTickProgressBar (g_UncompressSlice, delta); g_UncompressTicked += delta; } if (ExtractFile) { *ExtractFile = TRUE; } return (!IsmCheckCancel()); } BOOL pDCUnpackAllFiles ( VOID ) { COMPRESS_HANDLE compressedHandle; BOOL result = FALSE; if (CompressOpenHandle (g_DirectCableTempPath, S_TRANSPORT_IMG_FILE, 1, &compressedHandle)) { g_TotalFiles = compressedHandle.FilesStored; if (CompressExtractAllFiles (g_DirectCableTempPath, &compressedHandle, pDirectCableCallback)) { result = TRUE; } CompressCleanupHandle (&compressedHandle); } return result; } BOOL WINAPI DirectCableTransportBeginApply ( VOID ) { MIG_APPINFO appInfo; ERRUSER_EXTRADATA extraData; PCTSTR imageFile = NULL; PCTSTR newImageFile = NULL; BOOL result = FALSE; g_DirectCablePlatform = PLATFORM_DESTINATION; ZeroMemory (&extraData, sizeof (ERRUSER_EXTRADATA)); extraData.Error = ERRUSER_ERROR_UNKNOWN; ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_CONNECTING2; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); __try { g_DirectCableTempPath = pDCCreateTemporaryDir (); if (!g_DirectCableTempPath) { extraData.Error = ERRUSER_ERROR_CANTCREATETEMPDIR; __leave; } if (!pDCReadAllImages ()) { if (GetLastError () == ERROR_DISK_FULL) { extraData.Error = ERRUSER_ERROR_DISKSPACE; } else { extraData.Error = ERRUSER_ERROR_CANTREADIMAGE; } __leave; } ZeroMemory (&appInfo, sizeof (MIG_APPINFO)); appInfo.Phase = MIG_TRANSPORT_PHASE; appInfo.SubPhase = SUBPHASE_UNCOMPRESSING; IsmSendMessageToApp (ISMMESSAGE_APP_INFO, (ULONG_PTR)(&appInfo)); if (!pDCUnpackAllFiles ()) { extraData.Error = ERRUSER_ERROR_CANTUNPACKIMAGE; __leave; } newImageFile = pDCGetNewFileName (S_TRANSPORT_DAT_FILE); imageFile = JoinPaths (g_DirectCableTempPath, newImageFile?newImageFile:S_TRANSPORT_DAT_FILE); if (newImageFile) { FreePathString (newImageFile); newImageFile = NULL; } if (!MemDbLoad (imageFile)) { extraData.Error = ERRUSER_ERROR_CANTREADIMAGE; __leave; } result = TRUE; } __finally { if (imageFile) { FreePathString (imageFile); imageFile = NULL; } } if (!result) { extraData.ErrorArea = ERRUSER_AREA_LOAD; IsmSendMessageToApp (MODULEMESSAGE_DISPLAYERROR, (ULONG_PTR)(&extraData)); } return result; } VOID WINAPI DirectCableTransportEndApply ( VOID ) { MYASSERT (g_DirectCablePlatform == PLATFORM_DESTINATION); pDCCleanupTempDir (); } BOOL WINAPI DirectCableTransportAcquireObject ( IN MIG_OBJECTTYPEID ObjectTypeId, IN MIG_OBJECTSTRINGHANDLE ObjectName, OUT PMIG_CONTENT ObjectContent, CALLER_INITIALIZED IN MIG_CONTENTTYPE ContentType, IN UINT MemoryContentLimit ) { UINT value; PCBYTE memValue; UINT memValueSize; PCTSTR fileValue = NULL; PCTSTR newFileValue = NULL; BOOL valueInFile; KEYHANDLE keyHandle; PALLOCSTATE allocState; PCTSTR detailsKey = NULL; PBYTE details; UINT detailsSize; PCTSTR sourceFile; PCTSTR decoratedObject = NULL; HANDLE fileHandle; BOOL result = FALSE; if (!ObjectContent) { return FALSE; } MYASSERT (g_DirectCablePlatform == PLATFORM_DESTINATION); MYASSERT ((ObjectTypeId & PLATFORM_MASK) == PLATFORM_SOURCE); decoratedObject = pDCBuildDecoratedObject (ObjectTypeId, ObjectName); allocState = (PALLOCSTATE) MemAllocZeroed (sizeof (ALLOCSTATE)); if (MemDbGetValue (decoratedObject, &value)) { if (value == TRFLAG_FILE) { valueInFile = TRUE; keyHandle = MemDbGetSingleLinkage (decoratedObject, 0, 0); if (keyHandle) { fileValue = MemDbGetKeyFromHandle (keyHandle, 0); newFileValue = pDCGetNewFileName (fileValue); result = fileValue != NULL; } else { fileValue = NULL; result = TRUE; } } else if (value == TRFLAG_MEMORY) { valueInFile = FALSE; memValueSize = 0; memValue = MemDbGetUnorderedBlob (decoratedObject, 0, &memValueSize); result = TRUE; } else { LOG ((LOG_ERROR, (PCSTR) MSG_UNSUPPORTED_DATA, value)); SetLastError (ERROR_RESOURCE_NAME_NOT_FOUND); } if (result) { result = FALSE; if (valueInFile) { if ((ContentType == CONTENTTYPE_ANY) || (ContentType == CONTENTTYPE_FILE) || (ContentType == CONTENTTYPE_DETAILS_ONLY) ) { // this is stored as a file and it's wanted as a file ObjectContent->ObjectTypeId = ObjectTypeId; ObjectContent->ContentInFile = TRUE; if (fileValue) { ObjectContent->FileContent.ContentPath = JoinPaths (g_DirectCableTempPath, newFileValue?newFileValue:fileValue); ObjectContent->FileContent.ContentSize = BfGetFileSize (ObjectContent->FileContent.ContentPath); } else { ObjectContent->FileContent.ContentSize = 0; ObjectContent->FileContent.ContentPath = NULL; } result = TRUE; } else { // this is stored as a file and it's wanted as memory ObjectContent->ObjectTypeId = ObjectTypeId; ObjectContent->ContentInFile = FALSE; if (fileValue) { sourceFile = JoinPaths (g_DirectCableTempPath, newFileValue?newFileValue:fileValue); ObjectContent->MemoryContent.ContentSize = (UINT) BfGetFileSize (sourceFile); ObjectContent->MemoryContent.ContentBytes = MapFileIntoMemory ( sourceFile, &allocState->FileHandle, &allocState->MapHandle ); FreePathString (sourceFile); result = (ObjectContent->MemoryContent.ContentBytes != NULL); } else { ObjectContent->MemoryContent.ContentSize = 0; ObjectContent->MemoryContent.ContentBytes = NULL; result = TRUE; } } if (newFileValue) { FreePathString (newFileValue); newFileValue = NULL; } if (fileValue) { MemDbReleaseMemory (fileValue); fileValue = NULL; } } else { if ((ContentType == CONTENTTYPE_ANY) || (ContentType == CONTENTTYPE_MEMORY) || (ContentType == CONTENTTYPE_DETAILS_ONLY) ) { // this is stored as memory and it's wanted as memory ObjectContent->ObjectTypeId = ObjectTypeId; ObjectContent->ContentInFile = FALSE; ObjectContent->MemoryContent.ContentSize = memValueSize; ObjectContent->MemoryContent.ContentBytes = memValue; result = TRUE; } else { // this is stored as memory and it's wanted as a file if (memValue) { if (IsmGetTempFile (allocState->TempFile, ARRAYSIZE(allocState->TempFile))) { fileHandle = BfCreateFile (allocState->TempFile); if (fileHandle) { if (BfWriteFile (fileHandle, memValue, memValueSize)) { ObjectContent->ObjectTypeId = ObjectTypeId; ObjectContent->ContentInFile = TRUE; ObjectContent->FileContent.ContentSize = memValueSize; ObjectContent->FileContent.ContentPath = DuplicatePathString (allocState->TempFile, 0); result = TRUE; } CloseHandle (fileHandle); } } MemDbReleaseMemory (memValue); } else { ObjectContent->ObjectTypeId = ObjectTypeId; ObjectContent->ContentInFile = TRUE; ObjectContent->FileContent.ContentSize = 0; ObjectContent->FileContent.ContentPath = NULL; } } } } } else { SetLastError (ERROR_RESOURCE_NAME_NOT_FOUND); } if (result) { // // Fill the details // detailsKey = JoinText (S_DETAILS_PREFIX, decoratedObject); details = MemDbGetUnorderedBlob (detailsKey, 0, &detailsSize); if (!details) { detailsSize = 0; } allocState->DetailsPtr = details; ObjectContent->Details.DetailsSize = detailsSize; ObjectContent->Details.DetailsData = details; FreeText (detailsKey); ObjectContent->TransHandle = allocState; } if (!result) { FreeAlloc (allocState); } FreePathString (decoratedObject); return result; } BOOL WINAPI DirectCableTransportReleaseObject ( IN OUT PMIG_CONTENT ObjectContent ) { PALLOCSTATE allocState; MYASSERT (g_DirectCablePlatform == PLATFORM_DESTINATION); allocState = (PALLOCSTATE) ObjectContent->TransHandle; if (ObjectContent->ContentInFile) { FreePathString (ObjectContent->FileContent.ContentPath); if (allocState && allocState->TempFile[0]) { DeleteFile (allocState->TempFile); } } else { if (allocState && allocState->FileHandle && allocState->MapHandle) { UnmapFile ( ObjectContent->MemoryContent.ContentBytes, allocState->MapHandle, allocState->FileHandle ); } else { MemDbReleaseMemory (ObjectContent->MemoryContent.ContentBytes); } } if (allocState && allocState->DetailsPtr) { MemDbReleaseMemory (allocState->DetailsPtr); } FreeAlloc (allocState); return TRUE; }