//---------------------------------------------------------------------------- // // DbgRpc transports. // // Copyright (C) Microsoft Corporation, 2000-2001. // //---------------------------------------------------------------------------- #include "pch.hpp" // Crypto hashing requires a crypto provider to be available // (this may not always be the case on Win9x or NT4) so just go with Base64. #define HashPassword(Password, Buffer) Base64HashPassword(Password, Buffer) #ifndef NT_NATIVE BOOL CryptoHashPassword(PCSTR Password, PUCHAR Buffer) { BOOL Status = FALSE; HCRYPTPROV Prov; HCRYPTHASH Hash; ULONG HashSize; if (!CryptAcquireContext(&Prov, NULL, MS_DEF_PROV, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT)) { goto EH_Fail; } if (!CryptCreateHash(Prov, CALG_MD5, NULL, 0, &Hash)) { goto EH_Prov; } if (!CryptHashData(Hash, (PBYTE)Password, strlen(Password), 0)) { goto EH_Hash; } ZeroMemory(Buffer, MAX_PASSWORD_BUFFER); HashSize = MAX_PASSWORD_BUFFER; if (!CryptGetHashParam(Hash, HP_HASHVAL, Buffer, &HashSize, 0)) { goto EH_Hash; } Status = TRUE; EH_Hash: CryptDestroyHash(Hash); EH_Prov: CryptReleaseContext(Prov, 0); EH_Fail: if (!Status) { DRPC_ERR(("Unable to hash password, %d\n", GetLastError())); } return Status; } #endif // #ifndef NT_NATIVE UCHAR g_Base64Table[64] = { 'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P', 'Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d','e','f', 'g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v', 'w','x','y','z','0','1','2','3','4','5','6','7','8','9','+','/' }; BOOL Base64HashPassword(PCSTR Password, PUCHAR Buffer) { ULONG Len = strlen(Password); if ((Len * 4 + 2) / 3 > MAX_PASSWORD_BUFFER) { DRPC_ERR(("Unable to hash password\n")); return FALSE; } ZeroMemory(Buffer, MAX_PASSWORD_BUFFER); ULONG Collect; while (Len >= 3) { // // Collect three characters and turn them // into four output bytes. // Collect = *Password++; Collect = (Collect << 8) | *Password++; Collect = (Collect << 8) | *Password++; *Buffer++ = g_Base64Table[(Collect >> 18) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 12) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 6) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 0) & 0x3f]; Len -= 3; } switch(Len) { case 2: Collect = *Password++; Collect = (Collect << 8) | *Password++; Collect <<= 8; *Buffer++ = g_Base64Table[(Collect >> 18) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 12) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 6) & 0x3f]; *Buffer++ = '='; break; case 1: Collect = *Password++; Collect <<= 16; *Buffer++ = g_Base64Table[(Collect >> 18) & 0x3f]; *Buffer++ = g_Base64Table[(Collect >> 12) & 0x3f]; *Buffer++ = '='; *Buffer++ = '='; break; } return TRUE; } //---------------------------------------------------------------------------- // // DbgRpcTransport. // //---------------------------------------------------------------------------- PCSTR g_DbgRpcTransportNames[TRANS_COUNT] = { "tcp", "npipe", "ssl", "spipe", "1394", "com", }; DbgRpcTransport::~DbgRpcTransport(void) { // Nothing to do. } ULONG DbgRpcTransport::GetNumberParameters(void) { return 2; } void DbgRpcTransport::GetParameter(ULONG Index, PSTR Name, PSTR Value) { switch(Index) { case 0: if (m_ServerName[0]) { strcpy(Name, "Server"); strcpy(Value, m_ServerName); } break; case 1: if (m_PasswordGiven) { strcpy(Name, "Password"); strcpy(Value, "*"); } break; } } void DbgRpcTransport::ResetParameters(void) { m_PasswordGiven = FALSE; m_ServerName[0] = 0; } BOOL DbgRpcTransport::SetParameter(PCSTR Name, PCSTR Value) { if (!_stricmp(Name, "Password")) { if (Value == NULL) { DbgRpcError("Remoting password was not specified correctly\n"); return FALSE; } if (!HashPassword(Value, m_HashedPassword)) { return FALSE; } m_PasswordGiven = TRUE; } else { return FALSE; } return TRUE; } void DbgRpcTransport::CloneData(DbgRpcTransport* Trans) { strcpy(Trans->m_ServerName, m_ServerName); Trans->m_PasswordGiven = m_PasswordGiven; memcpy(Trans->m_HashedPassword, m_HashedPassword, sizeof(m_HashedPassword)); } //---------------------------------------------------------------------------- // // DbgRpcTcpTransport. // //---------------------------------------------------------------------------- #ifndef NT_NATIVE DbgRpcTcpTransport::~DbgRpcTcpTransport(void) { if (m_Sock != INVALID_SOCKET) { shutdown(m_Sock, 2); closesocket(m_Sock); m_Sock = INVALID_SOCKET; } if (m_OlRead.hEvent != NULL) { WSACloseEvent(m_OlRead.hEvent); ZeroMemory(&m_OlRead, sizeof(m_OlRead)); } if (m_OlWrite.hEvent != NULL) { WSACloseEvent(m_OlWrite.hEvent); ZeroMemory(&m_OlWrite, sizeof(m_OlWrite)); } } ULONG DbgRpcTcpTransport::GetNumberParameters(void) { return 1 + DbgRpcTransport::GetNumberParameters(); } void DbgRpcTcpTransport::GetParameter(ULONG Index, PSTR Name, PSTR Value) { switch(Index) { case 0: if (m_Addr.sin_port) { strcpy(Name, "Port"); sprintf(Value, "%d", ntohs(m_Addr.sin_port)); if (m_TopPort) { sprintf(Value + strlen(Value), ":%d", m_TopPort); } } break; default: DbgRpcTransport::GetParameter(Index - 1, Name, Value); break; } } void DbgRpcTcpTransport::ResetParameters(void) { ZeroMemory(&m_Addr, sizeof(m_Addr)); m_Addr.sin_family = AF_INET; m_Addr.sin_addr.s_addr = INADDR_ANY; m_TopPort = 0; DbgRpcTransport::ResetParameters(); } BOOL DbgRpcTcpTransport::SetParameter(PCSTR Name, PCSTR Value) { if (!_stricmp(Name, "server")) { if (Value == NULL) { DbgRpcError("TCP parameters: " "the server name was not specified correctly\n"); return FALSE; } // Skip leading \\ if they were given. if (Value[0] == '\\' && Value[1] == '\\') { Value += 2; } m_Addr.sin_addr.s_addr = inet_addr(Value); if (m_Addr.sin_addr.s_addr == INADDR_NONE) { struct hostent *Host = gethostbyname(Value); if (Host == NULL) { DbgRpcError("TCP parameters: " "the specified server (%s) does not exist\n", Value); return FALSE; } m_Addr.sin_family = Host->h_addrtype; memcpy(&m_Addr.sin_addr, Host->h_addr, Host->h_length); } strcpy(m_ServerName, Value); } else if (!_stricmp(Name, "port")) { if (Value == NULL) { DbgRpcError("TCP parameters: " "the port number was not specified correctly\n"); return FALSE; } ULONG Port; // Allow a range of ports to be specified if so desired. switch(sscanf(Value, "%i:%i", &Port, &m_TopPort)) { case 0: Port = 0; // Fall through. case 1: m_TopPort = 0; break; } if (Port > 0xffff || m_TopPort > 0xffff) { DbgRpcError("TCP parameters: port numbers are " "limited to 16 bits\n"); return FALSE; } m_Addr.sin_port = htons((USHORT)Port); } else { if (!DbgRpcTransport::SetParameter(Name, Value)) { DbgRpcError("TCP parameters: %s is not a valid parameter\n", Name); return FALSE; } } return TRUE; } DbgRpcTransport* DbgRpcTcpTransport::Clone(void) { DbgRpcTcpTransport* Trans = new DbgRpcTcpTransport; if (Trans != NULL) { DbgRpcTransport::CloneData(Trans); memcpy(&Trans->m_Addr, &m_Addr, sizeof(m_Addr)); Trans->m_TopPort = m_TopPort; } return Trans; } HRESULT DbgRpcTcpTransport::CreateServer(void) { HRESULT Status; // // We must create our sockets overlapped so that // we can control waiting for I/O completion. // If we leave the waiting to Winsock by using // synchronous sockets it uses an alertable wait // which can cause our event notification APCs to // be received in the middle of reading packets. // m_Sock = WSASocket(AF_INET, SOCK_STREAM, 0, NULL, 0, WSA_FLAG_OVERLAPPED); if (m_Sock == INVALID_SOCKET) { Status = WIN32_STATUS(WSAGetLastError()); goto EH_Fail; } for (;;) { if (bind(m_Sock, (struct sockaddr *)&m_Addr, sizeof(m_Addr)) != SOCKET_ERROR) { break; } ULONG Port = ntohs(m_Addr.sin_port); Status = WIN32_STATUS(WSAGetLastError()); if (Status == HRESULT_FROM_WIN32(WSAEADDRINUSE) && m_TopPort > Port) { // The user has given a range of ports and // we haven't checked them all yet, so go // around again. m_Addr.sin_port = htons((USHORT)(Port + 1)); } else { goto EH_Sock; } } // // Retrieve the port actually used in case port // zero was used to let TCP pick a port. // struct sockaddr_in Name; int Len; Len = sizeof(Name); if (getsockname(m_Sock, (struct sockaddr *)&Name, &Len) != 0) { Status = WIN32_STATUS(WSAGetLastError()); goto EH_Sock; } // Copy just the port as we do not want // to update the rest of the address. m_Addr.sin_port = Name.sin_port; // Turn off linger-on-close. int On; On = TRUE; setsockopt(m_Sock, SOL_SOCKET, SO_DONTLINGER, (char *)&On, sizeof(On)); if (listen(m_Sock, SOMAXCONN) == SOCKET_ERROR) { Status = WIN32_STATUS(WSAGetLastError()); goto EH_Sock; } return S_OK; EH_Sock: closesocket(m_Sock); m_Sock = INVALID_SOCKET; EH_Fail: return Status; } HRESULT DbgRpcTcpTransport::AcceptConnection(DbgRpcTransport** ClientTrans, PSTR Identity) { DbgRpcTcpTransport* Trans = new DbgRpcTcpTransport; if (Trans == NULL) { return E_OUTOFMEMORY; } DbgRpcTransport::CloneData(Trans); DRPC(("%X: Waiting to accept connection on socket %p\n", GetCurrentThreadId(), m_Sock)); int AddrLen = sizeof(Trans->m_Addr); Trans->m_Sock = accept(m_Sock, (struct sockaddr *)&Trans->m_Addr, &AddrLen); if (Trans->m_Sock == INVALID_SOCKET) { DRPC(("%X: Accept failed, %X\n", GetCurrentThreadId(), WSAGetLastError())); delete Trans; return HRESULT_FROM_WIN32(WSAGetLastError()); } HRESULT Status = Trans->InitOl(); if (Status != S_OK) { DRPC(("%X: InitOl failed, %X\n", GetCurrentThreadId(), Status)); delete Trans; return Status; } int On = TRUE; setsockopt(Trans->m_Sock, IPPROTO_TCP, TCP_NODELAY, (PSTR)&On, sizeof(On)); DRPC(("%X: Accept connection on socket %p\n", GetCurrentThreadId(), Trans->m_Sock)); *ClientTrans = Trans; if (Trans->m_Addr.sin_family == AF_INET) { strcpy(Identity, "tcp "); struct hostent* Host = #if 0 // This lookup is really slow and doesn't seem to work // very often so just don't bother. gethostbyaddr((PCSTR)&Trans->m_Addr, AddrLen, AF_INET); #else NULL; #endif if (Host != NULL) { strcat(Identity, Host->h_name); strcat(Identity, " "); } sprintf(Identity + strlen(Identity), "%s, port %d", inet_ntoa(Trans->m_Addr.sin_addr), ntohs(m_Addr.sin_port)); } else { sprintf(Identity, "tcp family %d, bytes %d", Trans->m_Addr.sin_family, AddrLen); } return S_OK; } HRESULT DbgRpcTcpTransport::ConnectServer(void) { // // We must create our sockets overlapped so that // we can control waiting for I/O completion. // If we leave the waiting to Winsock by using // synchronous sockets it uses an alertable wait // which can cause our event notification APCs to // be received in the middle of reading packets. // m_Sock = WSASocket(AF_INET, SOCK_STREAM, 0, NULL, 0, WSA_FLAG_OVERLAPPED); if (m_Sock != INVALID_SOCKET) { if (connect(m_Sock, (struct sockaddr *)&m_Addr, sizeof(m_Addr)) == SOCKET_ERROR || InitOl() != S_OK) { closesocket(m_Sock); m_Sock = INVALID_SOCKET; } else { int On = TRUE; setsockopt(m_Sock, IPPROTO_TCP, TCP_NODELAY, (PSTR)&On, sizeof(On)); DRPC(("%X: Connect on socket %p\n", GetCurrentThreadId(), m_Sock)); } } return m_Sock != INVALID_SOCKET ? S_OK : RPC_E_SERVER_DIED; } ULONG DbgRpcTcpTransport::Read(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done; Done = 0; while (Len > 0) { if (!WSAResetEvent(m_OlRead.hEvent)) { break; } WSABUF SockBuf; ULONG SockDone; ULONG SockFlags; SockBuf.buf = (PSTR)Buffer; SockBuf.len = Len; SockFlags = 0; if (WSARecv(m_Sock, &SockBuf, 1, &SockDone, &SockFlags, &m_OlRead, NULL) == SOCKET_ERROR) { if (WSAGetLastError() == WSA_IO_PENDING) { if (!WSAGetOverlappedResult(m_Sock, &m_OlRead, &SockDone, TRUE, &SockFlags)) { break; } } else { break; } } else if (SockDone == 0) { // Socket connection was broken. break; } Buffer = (PVOID)((PUCHAR)Buffer + SockDone); Len -= SockDone; Done += SockDone; } return Done; } ULONG DbgRpcTcpTransport::Write(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done; Done = 0; while (Len > 0) { if (!WSAResetEvent(m_OlWrite.hEvent)) { break; } WSABUF SockBuf; ULONG SockDone; ULONG SockFlags; SockBuf.buf = (PSTR)Buffer; SockBuf.len = Len; SockFlags = 0; if (WSASend(m_Sock, &SockBuf, 1, &SockDone, SockFlags, &m_OlWrite, NULL) == SOCKET_ERROR) { if (WSAGetLastError() == WSA_IO_PENDING) { if (!WSAGetOverlappedResult(m_Sock, &m_OlWrite, &SockDone, TRUE, &SockFlags)) { break; } } else { break; } } Buffer = (PVOID)((PUCHAR)Buffer + SockDone); Len -= SockDone; Done += SockDone; } return Done; } HRESULT DbgRpcTcpTransport::InitOl(void) { m_OlRead.hEvent = WSACreateEvent(); if (m_OlRead.hEvent == NULL) { return HRESULT_FROM_WIN32(WSAGetLastError()); } m_OlWrite.hEvent = WSACreateEvent(); if (m_OlWrite.hEvent == NULL) { WSACloseEvent(m_OlRead.hEvent); m_OlRead.hEvent = NULL; return HRESULT_FROM_WIN32(WSAGetLastError()); } return S_OK; } #endif // #ifndef NT_NATIVE //---------------------------------------------------------------------------- // // DbgRpcNamedPipeTransport. // //---------------------------------------------------------------------------- DbgRpcNamedPipeTransport::~DbgRpcNamedPipeTransport(void) { if (m_Handle != NULL) { CloseHandle(m_Handle); m_Handle = NULL; } if (m_ReadOlap.hEvent != NULL) { CloseHandle(m_ReadOlap.hEvent); } if (m_WriteOlap.hEvent != NULL) { CloseHandle(m_WriteOlap.hEvent); } } ULONG DbgRpcNamedPipeTransport::GetNumberParameters(void) { return 1 + DbgRpcTransport::GetNumberParameters(); } void DbgRpcNamedPipeTransport::GetParameter(ULONG Index, PSTR Name, PSTR Value) { switch(Index) { case 0: if (m_Pipe[0]) { strcpy(Name, "Pipe"); strcpy(Value, m_Pipe); } break; default: DbgRpcTransport::GetParameter(Index - 1, Name, Value); break; } } void DbgRpcNamedPipeTransport::ResetParameters(void) { m_Pipe[0] = 0; m_Handle = NULL; DbgRpcTransport::ResetParameters(); } BOOL DbgRpcNamedPipeTransport::SetParameter(PCSTR Name, PCSTR Value) { if (!_stricmp(Name, "server")) { if (Value == NULL) { DbgRpcError("NPIPE parameters: " "the server name was not specified correctly\n"); return FALSE; } // Skip leading \\ if they were given. if (Value[0] == '\\' && Value[1] == '\\') { Value += 2; } strcpy(m_ServerName, Value); } else if (!_stricmp(Name, "pipe")) { if (Value == NULL) { DbgRpcError("NPIPE parameters: " "the pipe name was not specified correctly\n"); return FALSE; } // Use the value as a printf format string so that // users can create unique names using the process and // thread IDs in their own format. _snprintf(m_Pipe, sizeof(m_Pipe), Value, GetCurrentProcessId(), GetCurrentThreadId()); m_Pipe[sizeof(m_Pipe) - 1] = 0; } else { if (!DbgRpcTransport::SetParameter(Name, Value)) { DbgRpcError("NPIPE parameters: %s is not a valid parameter\n", Name); return FALSE; } } return TRUE; } DbgRpcTransport* DbgRpcNamedPipeTransport::Clone(void) { DbgRpcNamedPipeTransport* Trans = new DbgRpcNamedPipeTransport; if (Trans != NULL) { DbgRpcTransport::CloneData(Trans); strcpy(Trans->m_Pipe, m_Pipe); } return Trans; } HRESULT DbgRpcNamedPipeTransport::CreateServer(void) { HANDLE Pipe; char PipeName[MAX_PARAM_VALUE + 16]; #ifndef NT_NATIVE strcpy(PipeName, "\\\\.\\pipe\\"); #else strcpy(PipeName, "\\Device\\NamedPipe\\"); #endif strcat(PipeName, m_Pipe); // Check and see if this pipe already exists. // This might mess up whoever created the pipe if // there is one but it's better than creating a // duplicate pipe and having clients get messed up. #ifndef NT_NATIVE Pipe = CreateFile(PipeName, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL); #else Pipe = NtNativeCreateFileA(PipeName, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL, FALSE); #endif if (Pipe != INVALID_HANDLE_VALUE) { // Pipe is already in use. DRPC_ERR(("%X: Pipe %s is already in use\n", GetCurrentThreadId(), PipeName)); CloseHandle(Pipe); return HRESULT_FROM_WIN32(ERROR_ALREADY_EXISTS); } return S_OK; } HRESULT DbgRpcNamedPipeTransport::AcceptConnection(DbgRpcTransport** ClientTrans, PSTR Identity) { DbgRpcNamedPipeTransport* Trans = new DbgRpcNamedPipeTransport; if (Trans == NULL) { return E_OUTOFMEMORY; } DbgRpcTransport::CloneData(Trans); char PipeName[MAX_PARAM_VALUE + 16]; #ifndef NT_NATIVE strcpy(PipeName, "\\\\.\\pipe\\"); #else strcpy(PipeName, "\\Device\\NamedPipe\\"); #endif strcat(PipeName, m_Pipe); #ifndef NT_NATIVE Trans->m_Handle = CreateNamedPipe(PipeName, PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED, PIPE_WAIT | PIPE_READMODE_BYTE | PIPE_TYPE_BYTE, PIPE_UNLIMITED_INSTANCES, 4096, 4096, INFINITE, &g_AllAccessSecAttr); #else Trans->m_Handle = NtNativeCreateNamedPipeA(PipeName, PIPE_ACCESS_DUPLEX | FILE_FLAG_OVERLAPPED, PIPE_WAIT | PIPE_READMODE_BYTE | PIPE_TYPE_BYTE, PIPE_UNLIMITED_INSTANCES, 4096, 4096, INFINITE, &g_AllAccessSecAttr, FALSE); #endif if (Trans->m_Handle == INVALID_HANDLE_VALUE) { Trans->m_Handle = NULL; delete Trans; return WIN32_LAST_STATUS(); } HRESULT Status; if ((Status = CreateOverlappedPair(&Trans->m_ReadOlap, &Trans->m_WriteOlap)) != S_OK) { delete Trans; return Status; } DRPC(("%X: Waiting to accept connection on pipe %s\n", GetCurrentThreadId(), m_Pipe)); if (!ConnectNamedPipe(Trans->m_Handle, &Trans->m_ReadOlap)) { if (GetLastError() == ERROR_PIPE_CONNECTED) { goto Connected; } else if (GetLastError() == ERROR_IO_PENDING) { DWORD Unused; if (GetOverlappedResult(Trans->m_Handle, &Trans->m_ReadOlap, &Unused, TRUE)) { goto Connected; } } DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } Connected: DRPC(("%X: Accept connection on pipe %s\n", GetCurrentThreadId(), m_Pipe)); *ClientTrans = Trans; _snprintf(Identity, DBGRPC_MAX_IDENTITY, "npipe %s", m_Pipe); Identity[DBGRPC_MAX_IDENTITY - 1] = 0; return S_OK; } HRESULT DbgRpcNamedPipeTransport::ConnectServer(void) { HRESULT Status; char PipeName[2 * MAX_PARAM_VALUE + 16]; sprintf(PipeName, "\\\\%s\\pipe\\%s", m_ServerName, m_Pipe); if ((Status = CreateOverlappedPair(&m_ReadOlap, &m_WriteOlap)) != S_OK) { return Status; } for (;;) { m_Handle = CreateFile(PipeName, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL); if (m_Handle != INVALID_HANDLE_VALUE) { break; } m_Handle = NULL; if (GetLastError() != ERROR_PIPE_BUSY) { return WIN32_LAST_STATUS(); } if (!WaitNamedPipe(PipeName, NMPWAIT_WAIT_FOREVER)) { return WIN32_LAST_STATUS(); } } DRPC(("%X: Connect on pipe %s\n", GetCurrentThreadId(), m_Pipe)); return S_OK; } ULONG DbgRpcNamedPipeTransport::Read(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; ULONG Ret; while (Len > 0) { if (!ReadFile(m_Handle, Buffer, Len, &Ret, &m_ReadOlap)) { if (GetLastError() != ERROR_IO_PENDING || !GetOverlappedResult(m_Handle, &m_ReadOlap, &Ret, TRUE)) { break; } } Buffer = (PVOID)((PUCHAR)Buffer + Ret); Len -= Ret; Done += Ret; } return Done; } ULONG DbgRpcNamedPipeTransport::Write(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; ULONG Ret; while (Len > 0) { if (!WriteFile(m_Handle, Buffer, Len, &Ret, &m_WriteOlap)) { if (GetLastError() != ERROR_IO_PENDING || !GetOverlappedResult(m_Handle, &m_WriteOlap, &Ret, TRUE)) { break; } } Buffer = (PVOID)((PUCHAR)Buffer + Ret); Len -= Ret; Done += Ret; } return Done; } //---------------------------------------------------------------------------- // // DbgRpc1394Transport. // //---------------------------------------------------------------------------- DbgRpc1394Transport::~DbgRpc1394Transport(void) { if (m_Handle != NULL) { CloseHandle(m_Handle); m_Handle = NULL; } } ULONG DbgRpc1394Transport::GetNumberParameters(void) { return 1 + DbgRpcTransport::GetNumberParameters(); } void DbgRpc1394Transport::GetParameter(ULONG Index, PSTR Name, PSTR Value) { switch(Index) { case 0: if (m_AcceptChannel != 0) { strcpy(Name, "Channel"); sprintf(Value, "%d", m_AcceptChannel); } break; default: DbgRpcTransport::GetParameter(Index - 1, Name, Value); break; } } void DbgRpc1394Transport::ResetParameters(void) { m_AcceptChannel = 0; m_StreamChannel = 0; m_Handle = NULL; DbgRpcTransport::ResetParameters(); } BOOL DbgRpc1394Transport::SetParameter(PCSTR Name, PCSTR Value) { if (!_stricmp(Name, "Channel")) { if (Value == NULL) { DbgRpcError("1394 parameters: " "the channel was not specified correctly\n"); return FALSE; } m_AcceptChannel = atol(Value); } else { if (!DbgRpcTransport::SetParameter(Name, Value)) { DbgRpcError("1394 parameters: %s is not a valid parameter\n", Name); return FALSE; } } return TRUE; } DbgRpcTransport* DbgRpc1394Transport::Clone(void) { DbgRpc1394Transport* Trans = new DbgRpc1394Transport; if (Trans != NULL) { DbgRpcTransport::CloneData(Trans); Trans->m_AcceptChannel = m_AcceptChannel; } return Trans; } HRESULT DbgRpc1394Transport::CreateServer(void) { char Name[64]; m_StreamChannel = m_AcceptChannel; return Create1394Channel(m_AcceptChannel, Name, &m_Handle); } #define DBGRPC_1394_CONNECT '4931' struct DbgRpc1394Connect { ULONG Signature; ULONG Flags; ULONG StreamChannel; ULONG Reserved[5]; }; HRESULT DbgRpc1394Transport::AcceptConnection(DbgRpcTransport** ClientTrans, PSTR Identity) { DbgRpc1394Transport* Trans = new DbgRpc1394Transport; if (Trans == NULL) { return E_OUTOFMEMORY; } DbgRpcTransport::CloneData(Trans); DRPC(("%X: Waiting to accept connection on channel %d\n", GetCurrentThreadId(), m_AcceptChannel)); DbgRpc1394Connect Conn, CheckConn; ULONG Done; ZeroMemory(&CheckConn, sizeof(CheckConn)); CheckConn.Signature = DBGRPC_1394_CONNECT; if (!ReadFile(m_Handle, &Conn, sizeof(Conn), &Done, NULL) || Done != sizeof(Conn)) { DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } if (memcmp(&Conn, &CheckConn, sizeof(Conn)) != 0) { DRPC(("%X: Accept information invalid\n", GetCurrentThreadId())); delete Trans; return E_FAIL; } char StreamName[64]; HRESULT Status; Conn.StreamChannel = m_StreamChannel + 1; if ((Status = Open1394Channel(Conn.StreamChannel, StreamName, &Trans->m_Handle)) != S_OK) { DRPC(("%X: Accept failed, 0x%X\n", GetCurrentThreadId(), Status)); delete Trans; return Status; } if (!WriteFile(m_Handle, &Conn, sizeof(Conn), &Done, NULL) || Done != sizeof(Conn)) { DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } Trans->m_AcceptChannel = m_AcceptChannel; Trans->m_StreamChannel = Conn.StreamChannel; m_StreamChannel++; DRPC(("%X: Accept connection on channel %d, route to channel %d\n", GetCurrentThreadId(), m_AcceptChannel, Conn.StreamChannel)); *ClientTrans = Trans; _snprintf(Identity, DBGRPC_MAX_IDENTITY, "1394 %d", m_AcceptChannel); Identity[DBGRPC_MAX_IDENTITY - 1] = 0; return S_OK; } HRESULT DbgRpc1394Transport::ConnectServer(void) { char Name[64]; HRESULT Status; HANDLE Handle; ULONG Done; if ((Status = Create1394Channel(m_AcceptChannel, Name, &Handle)) != S_OK) { return Status; } DbgRpc1394Connect Conn, CheckConn; ZeroMemory(&Conn, sizeof(Conn)); Conn.Signature = DBGRPC_1394_CONNECT; CheckConn = Conn; if (!WriteFile(Handle, &Conn, sizeof(Conn), &Done, NULL) || Done != sizeof(Conn)) { CloseHandle(Handle); return WIN32_LAST_STATUS(); } if (!ReadFile(Handle, &Conn, sizeof(Conn), &Done, NULL) || Done != sizeof(Conn)) { CloseHandle(Handle); return WIN32_LAST_STATUS(); } CloseHandle(Handle); CheckConn.StreamChannel = Conn.StreamChannel; if (memcmp(&Conn, &CheckConn, sizeof(Conn)) != 0) { return E_FAIL; } if ((Status = Open1394Channel(Conn.StreamChannel, Name, &m_Handle)) != S_OK) { return Status; } m_StreamChannel = Conn.StreamChannel; DRPC(("%X: Connect on channel %d, route to channel %d\n", GetCurrentThreadId(), m_AcceptChannel, m_StreamChannel)); return S_OK; } ULONG DbgRpc1394Transport::Read(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; ULONG Ret; while (Len > 0) { if (!ReadFile(m_Handle, Buffer, Len, &Ret, NULL)) { break; } Buffer = (PVOID)((PUCHAR)Buffer + Ret); Len -= Ret; Done += Ret; } return Done; } ULONG DbgRpc1394Transport::Write(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; ULONG Ret; while (Len > 0) { if (!WriteFile(m_Handle, Buffer, Len, &Ret, NULL)) { break; } Buffer = (PVOID)((PUCHAR)Buffer + Ret); Len -= Ret; Done += Ret; } return Done; } //---------------------------------------------------------------------------- // // DbgRpcComTransport. // //---------------------------------------------------------------------------- DbgRpcComTransport::~DbgRpcComTransport(void) { if (m_Handle != NULL) { CloseHandle(m_Handle); } if (m_ReadOlap.hEvent != NULL) { CloseHandle(m_ReadOlap.hEvent); } if (m_WriteOlap.hEvent != NULL) { CloseHandle(m_WriteOlap.hEvent); } } ULONG DbgRpcComTransport::GetNumberParameters(void) { return 3 + DbgRpcTransport::GetNumberParameters(); } void DbgRpcComTransport::GetParameter(ULONG Index, PSTR Name, PSTR Value) { switch(Index) { case 0: if (m_PortName[0]) { strcpy(Name, "Port"); strcpy(Value, m_PortName); } break; case 1: if (m_BaudRate) { strcpy(Name, "Baud"); sprintf(Value, "%d", m_BaudRate); } break; case 2: if (m_AcceptChannel) { strcpy(Name, "Channel"); sprintf(Value, "%d", m_AcceptChannel); } break; default: DbgRpcTransport::GetParameter(Index - 1, Name, Value); break; } } void DbgRpcComTransport::ResetParameters(void) { m_PortName[0] = 0; m_BaudRate = 0; m_AcceptChannel = 0; m_StreamChannel = 0; m_Handle = NULL; DbgRpcTransport::ResetParameters(); } BOOL DbgRpcComTransport::SetParameter(PCSTR Name, PCSTR Value) { if (!_stricmp(Name, "Port")) { if (Value == NULL) { DbgRpcError("COM parameters: " "the port was not specified correctly\n"); return FALSE; } SetComPortName(Value, m_PortName); } else if (!_stricmp(Name, "Baud")) { if (Value == NULL) { DbgRpcError("COM parameters: " "the baud rate was not specified correctly\n"); return FALSE; } m_BaudRate = atol(Value); } else if (!_stricmp(Name, "Channel")) { ULONG ValChan; if (Value == NULL || (ValChan = atol(Value)) > 0xfe) { DbgRpcError("COM parameters: " "the channel was not specified correctly\n"); return FALSE; } m_AcceptChannel = (UCHAR)ValChan; } else { if (!DbgRpcTransport::SetParameter(Name, Value)) { DbgRpcError("COM parameters: %s is not a valid parameter\n", Name); return FALSE; } } return TRUE; } DbgRpcTransport* DbgRpcComTransport::Clone(void) { DbgRpcComTransport* Trans = new DbgRpcComTransport; if (Trans != NULL) { DbgRpcTransport::CloneData(Trans); strcpy(Trans->m_PortName, m_PortName); Trans->m_BaudRate = m_BaudRate; Trans->m_AcceptChannel = m_AcceptChannel; // The serial port can only be opened once so // just dup the handle for the new transport. if (!DuplicateHandle(GetCurrentProcess(), m_Handle, GetCurrentProcess(), &Trans->m_Handle, 0, FALSE, DUPLICATE_SAME_ACCESS)) { delete Trans; Trans = NULL; } } return Trans; } HRESULT DbgRpcComTransport::CreateServer(void) { HRESULT Status; if ((Status = InitializeChannels()) != S_OK) { return Status; } if ((Status = CreateOverlappedPair(&m_ReadOlap, &m_WriteOlap)) != S_OK) { return Status; } m_StreamChannel = m_AcceptChannel; return OpenComPort(m_PortName, m_BaudRate, 0, &m_Handle, &m_BaudRate); } #define DBGRPC_COM_CONNECT 'mCrD' struct DbgRpcComConnect { ULONG Signature; ULONG Flags; ULONG StreamChannel; ULONG Reserved[5]; }; HRESULT DbgRpcComTransport::AcceptConnection(DbgRpcTransport** ClientTrans, PSTR Identity) { // Check for channel number overflow. if (m_StreamChannel == 0xff) { return E_OUTOFMEMORY; } DbgRpcComTransport* Trans = new DbgRpcComTransport; if (Trans == NULL) { return E_OUTOFMEMORY; } DbgRpcTransport::CloneData(Trans); DRPC(("%X: Waiting to accept connection on port %s baud %d channel %d\n", GetCurrentThreadId(), m_PortName, m_BaudRate, m_AcceptChannel)); DbgRpcComConnect Conn, CheckConn; ZeroMemory(&CheckConn, sizeof(CheckConn)); CheckConn.Signature = DBGRPC_COM_CONNECT; if (ChanRead(m_AcceptChannel, &Conn, sizeof(Conn)) != sizeof(Conn)) { DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } if (memcmp(&Conn, &CheckConn, sizeof(Conn)) != 0) { DRPC(("%X: Accept information invalid\n", GetCurrentThreadId())); delete Trans; return E_FAIL; } Conn.StreamChannel = m_StreamChannel + 1; if (ChanWrite(m_AcceptChannel, &Conn, sizeof(Conn)) != sizeof(Conn)) { DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } // Duplicate the handle so that every transport instance // has its own to close. if (!DuplicateHandle(GetCurrentProcess(), m_Handle, GetCurrentProcess(), &Trans->m_Handle, 0, FALSE, DUPLICATE_SAME_ACCESS)) { DRPC(("%X: Accept failed, %d\n", GetCurrentThreadId(), GetLastError())); delete Trans; return WIN32_LAST_STATUS(); } HRESULT Status; if ((Status = CreateOverlappedPair(&Trans->m_ReadOlap, &Trans->m_WriteOlap)) != S_OK) { DRPC(("%X: Accept failed, 0x%X\n", GetCurrentThreadId(), Status)); delete Trans; return Status; } strcpy(Trans->m_PortName, m_PortName); Trans->m_BaudRate = m_BaudRate; Trans->m_AcceptChannel = m_AcceptChannel; Trans->m_StreamChannel = (UCHAR)Conn.StreamChannel; m_StreamChannel++; DRPC(("%X: Accept connection on channel %d, route to channel %d\n", GetCurrentThreadId(), m_AcceptChannel, Conn.StreamChannel)); *ClientTrans = Trans; _snprintf(Identity, DBGRPC_MAX_IDENTITY, "COM %s@%d chan %d", m_PortName, m_BaudRate, m_AcceptChannel); Identity[DBGRPC_MAX_IDENTITY - 1] = 0; return S_OK; } HRESULT DbgRpcComTransport::ConnectServer(void) { HRESULT Status; if ((Status = InitializeChannels()) != S_OK) { return Status; } if ((Status = CreateOverlappedPair(&m_ReadOlap, &m_WriteOlap)) != S_OK) { return Status; } // If this is a clone it'll already have a handle. // Otherwise this is the first connecting transport // so it needs to really open the COM port. if (m_Handle == NULL) { if ((Status = OpenComPort(m_PortName, m_BaudRate, 0, &m_Handle, &m_BaudRate)) != S_OK) { return Status; } } DbgRpcComConnect Conn, CheckConn; ZeroMemory(&Conn, sizeof(Conn)); Conn.Signature = DBGRPC_COM_CONNECT; CheckConn = Conn; if (ChanWrite(m_AcceptChannel, &Conn, sizeof(Conn)) != sizeof(Conn)) { CloseHandle(m_Handle); m_Handle = NULL; return WIN32_LAST_STATUS(); } if (ChanRead(m_AcceptChannel, &Conn, sizeof(Conn)) != sizeof(Conn)) { CloseHandle(m_Handle); m_Handle = NULL; return WIN32_LAST_STATUS(); } CheckConn.StreamChannel = Conn.StreamChannel; if (memcmp(&Conn, &CheckConn, sizeof(Conn)) != 0) { CloseHandle(m_Handle); m_Handle = NULL; return E_FAIL; } m_StreamChannel = (UCHAR)Conn.StreamChannel; DRPC(("%X: Connect on channel %d, route to channel %d\n", GetCurrentThreadId(), m_AcceptChannel, m_StreamChannel)); return S_OK; } #if 0 #define DCOM(Args) g_NtDllCalls.DbgPrint Args #else #define DCOM(Args) #endif #define DBGRPC_COM_FAILURE 0xffff #define DBGRPC_COM_HEAD_SIG 0xdc #define DBGRPC_COM_TAIL_SIG 0xcd // In order to avoid overflowing the serial port when // used at boot time, restrict the maximum size of // a single chunk of data written. This must be // less than 0xffff. #ifdef NT_NATIVE #define DBGRPC_COM_MAX_CHUNK (16 - sizeof(DbgRpcComStream)) #else #define DBGRPC_COM_MAX_CHUNK 0xfffe #endif struct DbgRpcComStream { UCHAR Signature; UCHAR Channel; USHORT Len; }; struct DbgRpcComQueue { DbgRpcComQueue* Next; PUCHAR Data; UCHAR Channel; USHORT Len; }; BOOL DbgRpcComTransport::s_ChanInitialized; CRITICAL_SECTION DbgRpcComTransport::s_QueueLock; HANDLE DbgRpcComTransport::s_QueueChangedEvent; LONG DbgRpcComTransport::s_PortReadOwned; CRITICAL_SECTION DbgRpcComTransport::s_PortWriteLock; CRITICAL_SECTION DbgRpcComTransport::s_WriteAckLock; HANDLE DbgRpcComTransport::s_WriteAckEvent; DbgRpcComQueue* DbgRpcComTransport::s_QueueHead; DbgRpcComQueue* DbgRpcComTransport::s_QueueTail; ULONG DbgRpcComTransport::Read(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; while (Len > 0) { USHORT Chunk = (USHORT)min(Len, DBGRPC_COM_MAX_CHUNK); USHORT ChunkDone = ChanRead(m_StreamChannel, Buffer, Chunk); Done += ChunkDone; Buffer = (PUCHAR)Buffer + ChunkDone; Len -= ChunkDone; if (ChunkDone < Chunk) { break; } } return Done; } ULONG DbgRpcComTransport::Write(ULONG Seq, PVOID Buffer, ULONG Len) { ULONG Done = 0; while (Len > 0) { USHORT Chunk = (USHORT)min(Len, DBGRPC_COM_MAX_CHUNK); USHORT ChunkDone = ChanWrite(m_StreamChannel, Buffer, Chunk); Done += ChunkDone; Buffer = (PUCHAR)Buffer + ChunkDone; Len -= ChunkDone; if (ChunkDone < Chunk) { break; } } return Done; } USHORT DbgRpcComTransport::ScanQueue(UCHAR Chan, PVOID Buffer, USHORT Len) { USHORT Done = 0; EnterCriticalSection(&s_QueueLock); DbgRpcComQueue* Ent; DbgRpcComQueue* Next; DbgRpcComQueue* Prev; Prev = NULL; for (Ent = s_QueueHead; Ent != NULL && Len > 0; Ent = Next) { Next = Ent->Next; DCOM(("%03X: Queue entry %p->%p %d,%d\n", GetCurrentThreadId(), Ent, Next, Ent->Channel, Ent->Len)); if (Ent->Channel == Chan) { // Found some input for this channel. if (Len < Ent->Len) { DCOM(("%03X: Eat %d, leave %d\n", GetCurrentThreadId(), Len, Ent->Len - Len)); memcpy(Buffer, Ent->Data, Len); Ent->Data += Len; Ent->Len -= Len; Done += Len; Len = 0; } else { DCOM(("%03X: Eat all %d\n", GetCurrentThreadId(), Len)); memcpy(Buffer, Ent->Data, Ent->Len); Buffer = (PVOID)((PUCHAR)Buffer + Ent->Len); Done += Ent->Len; Len -= Ent->Len; // Remove used-up entry from list. if (Prev == NULL) { s_QueueHead = Ent->Next; } else { Prev->Next = Ent->Next; } if (s_QueueTail == Ent) { s_QueueTail = Prev; } free(Ent); continue; } } Prev = Ent; } LeaveCriticalSection(&s_QueueLock); return Done; } USHORT DbgRpcComTransport::ScanPort(UCHAR Chan, PVOID Buffer, USHORT Len, BOOL ScanForAck, UCHAR AckChan) { DbgRpcComStream Stream; ULONG ReadDone; USHORT Ret = 0; if (ScanForAck) { DCOM(("%03X: Waiting to read header (ack chan %d)\n", GetCurrentThreadId(), AckChan)); } else { DCOM(("%03X: Waiting to read header\n", GetCurrentThreadId())); } Rescan: for (;;) { if (!ComPortRead(m_Handle, &Stream, sizeof(Stream), &ReadDone, &m_ReadOlap) || ReadDone != sizeof(Stream)) { return DBGRPC_COM_FAILURE; } // If a write ack came through release the waiting writer. if (Stream.Signature == DBGRPC_COM_TAIL_SIG && Stream.Len == DBGRPC_COM_FAILURE) { DCOM(("%03X: Read write ack for chan %d\n", GetCurrentThreadId(), Stream.Channel)); if (ScanForAck) { if (AckChan == Stream.Channel) { return (USHORT)ReadDone; } else { DCOM(("%03X: Read mismatched write ack, " "read chan %d waiting for chan %d\n", GetCurrentThreadId(), Stream.Channel, AckChan)); return DBGRPC_COM_FAILURE; } } SetEvent(s_WriteAckEvent); } else if (Stream.Signature != DBGRPC_COM_HEAD_SIG || Stream.Len == DBGRPC_COM_FAILURE) { return DBGRPC_COM_FAILURE; } else { break; } } DCOM(("%03X: Read %d,%d\n", GetCurrentThreadId(), Stream.Channel, Stream.Len)); // If the data available is for this channel // read it directly into the buffer. if (!ScanForAck && Stream.Channel == Chan) { Ret = min(Stream.Len, Len); DCOM(("%03X: Read direct body %d\n", GetCurrentThreadId(), Ret)); if (!ComPortRead(m_Handle, Buffer, Ret, &ReadDone, &m_ReadOlap) || ReadDone != Ret) { return DBGRPC_COM_FAILURE; } Stream.Len -= Ret; } // If the data is for another channel or there's // more than we need queue the remainder for // later use. if (Stream.Len > 0) { DbgRpcComQueue* Ent = (DbgRpcComQueue*)malloc(sizeof(*Ent) + Stream.Len); if (Ent == NULL) { return DBGRPC_COM_FAILURE; } Ent->Next = NULL; Ent->Channel = Stream.Channel; Ent->Len = Stream.Len; Ent->Data = (PUCHAR)Ent + sizeof(*Ent); DCOM(("%03X: Read queue body %d\n", GetCurrentThreadId(), Ent->Len)); if (!ComPortRead(m_Handle, Ent->Data, Ent->Len, &ReadDone, &m_ReadOlap) || ReadDone != Ent->Len) { free(Ent); return DBGRPC_COM_FAILURE; } DCOM(("%03X: Queue add %p %d,%d\n", GetCurrentThreadId(), Ent, Ent->Channel, Ent->Len)); EnterCriticalSection(&s_QueueLock); if (s_QueueHead == NULL) { s_QueueHead = Ent; } else { s_QueueTail->Next = Ent; } s_QueueTail = Ent; LeaveCriticalSection(&s_QueueLock); } // // Acknowledge full receipt of the data. // Stream.Signature = DBGRPC_COM_TAIL_SIG; Stream.Channel = Stream.Channel; Stream.Len = DBGRPC_COM_FAILURE; EnterCriticalSection(&s_PortWriteLock); if (!ComPortWrite(m_Handle, &Stream, sizeof(Stream), &ReadDone, &m_ReadOlap)) { ReadDone = 0; } else { DCOM(("%03X: Wrote write ack for chan %d\n", GetCurrentThreadId(), Stream.Channel)); } LeaveCriticalSection(&s_PortWriteLock); if (ReadDone != sizeof(Stream)) { return DBGRPC_COM_FAILURE; } // Don't exit if we're waiting for an ack as // we haven't received it yet. if (ScanForAck) { SetEvent(s_QueueChangedEvent); goto Rescan; } return Ret; } USHORT DbgRpcComTransport::ChanRead(UCHAR Chan, PVOID Buffer, USHORT InLen) { USHORT Done = 0; USHORT Len = InLen; // The virtual channels require that all reads and writes // be complete. A partial read or write will not match // its channel header and will throw everything off. DCOM(("%03X:ChanRead %d,%d\n", GetCurrentThreadId(), Chan, Len)); while (Len > 0) { USHORT Queued; // First check and see if input for this channel // is already present in the queue. Queued = ScanQueue(Chan, Buffer, Len); Done += Queued; Buffer = (PVOID)((PUCHAR)Buffer + Queued); Len -= Queued; if (Queued > 0) { DCOM(("%03X: Scan pass 1 gets %d from queue\n", GetCurrentThreadId(), Queued)); } if (Len == 0) { break; } // // There wasn't enough queued input so try and // read some more from the port. // if (InterlockedExchange(&s_PortReadOwned, TRUE) == TRUE) { // Somebody else owns the port so we can't // read it. Just wait for the queue to change // so we can check for data again. // Set things to wait. ResetEvent(s_QueueChangedEvent); // There's a chance that the queue changed just before // the event was reset and therefore that event set // has been lost. Time out of this wait to ensure // that nothing ever gets hung up indefinitely here. if (WaitForSingleObject(s_QueueChangedEvent, 250) == WAIT_FAILED) { DCOM(("%03X: Change wait failed\n", GetCurrentThreadId())); return 0; } continue; } // We now own the port. The queue may have changed // during the time we were acquiring ownership, though, // so check it again. Queued = ScanQueue(Chan, Buffer, Len); Done += Queued; Buffer = (PVOID)((PUCHAR)Buffer + Queued); Len -= Queued; if (Queued > 0) { DCOM(("%03X: Scan pass 2 gets %d from queue\n", GetCurrentThreadId(), Queued)); } if (Len > 0) { // Still need more input and we're now the // owner of the port, so read. USHORT Port = ScanPort(Chan, Buffer, Len, FALSE, 0); if (Port == DBGRPC_COM_FAILURE) { // Critical error, fail immediately. InterlockedExchange(&s_PortReadOwned, FALSE); SetEvent(s_QueueChangedEvent); DCOM(("%03X: Critical failure\n", GetCurrentThreadId())); return 0; } Done += Port; Buffer = (PVOID)((PUCHAR)Buffer + Port); Len -= Port; if (Port > 0) { DCOM(("%03X: Scan %d from port\n", GetCurrentThreadId(), Port)); } } InterlockedExchange(&s_PortReadOwned, FALSE); SetEvent(s_QueueChangedEvent); } DCOM(("%03X: ChanRead %d,%d returns %d\n", GetCurrentThreadId(), Chan, InLen, Done)); return Done; } USHORT DbgRpcComTransport::ChanWrite(UCHAR Chan, PVOID Buffer, USHORT InLen) { USHORT Len = InLen; DCOM(("%03X:ChanWrite %d,%d\n", GetCurrentThreadId(), Chan, Len)); ULONG Done; DbgRpcComStream Stream; // The virtual channels require that all reads and writes // be complete. A partial read or write will not match // its channel header and will throw everything off. Stream.Signature = DBGRPC_COM_HEAD_SIG; Stream.Channel = Chan; Stream.Len = Len; // The write ack lock restricts things to a single // unacknowledged write. The port write lock // ensures that the multiple pieces of a write // are sequential in the stream. EnterCriticalSection(&s_WriteAckLock); EnterCriticalSection(&s_PortWriteLock); if (!ComPortWrite(m_Handle, &Stream, sizeof(Stream), &Done, &m_WriteOlap) || Done != sizeof(Stream) || !ComPortWrite(m_Handle, Buffer, Len, &Done, &m_WriteOlap) || Done != Len) { Done = 0; } LeaveCriticalSection(&s_PortWriteLock); // // Wait for data ack. This prevents too much data from // being written to the serial port at once by limiting // the amount of outstanding data to a single chunk's worth. // for (;;) { if (InterlockedExchange(&s_PortReadOwned, TRUE) == TRUE) { HANDLE Waits[2]; ULONG Wait; // Somebody else owns the port so wait for their signal. // Also wait for a port ownership change as we may // need to switch to a direct port read. Waits[0] = s_WriteAckEvent; Waits[1] = s_QueueChangedEvent; // Set things to wait. ResetEvent(s_QueueChangedEvent); Wait = WaitForMultipleObjects(2, Waits, FALSE, 250); if (Wait == WAIT_OBJECT_0) { break; } else if (Wait == WAIT_FAILED) { DCOM(("%03X: Write ack wait failed, %d\n", GetCurrentThreadId(), GetLastError())); Done = 0; break; } } else { USHORT AckDone; // We now own the port so directly read the ack. // However, before we do we need to make one last // check and see if somebody else read our ack // in the time leading up to us acquiring port // ownership. if (WaitForSingleObject(s_WriteAckEvent, 0) != WAIT_OBJECT_0) { AckDone = ScanPort(Chan, &Stream, sizeof(Stream), TRUE, Chan); if (AckDone == DBGRPC_COM_FAILURE) { DCOM(("%03X: Failed scan for write ack\n", GetCurrentThreadId())); Done = 0; } } InterlockedExchange(&s_PortReadOwned, FALSE); SetEvent(s_QueueChangedEvent); break; } } LeaveCriticalSection(&s_WriteAckLock); DCOM(("%03X: ChanWrite %d,%d returns %d\n", GetCurrentThreadId(), Chan, InLen, Done)); return (USHORT)Done; } HRESULT DbgRpcComTransport::InitializeChannels(void) { if (s_ChanInitialized) { return S_OK; } if ((s_QueueChangedEvent = CreateEvent(NULL, TRUE, FALSE, NULL)) == NULL) { return WIN32_LAST_STATUS(); } if ((s_WriteAckEvent = CreateEvent(NULL, FALSE, FALSE, NULL)) == NULL) { return WIN32_LAST_STATUS(); } __try { InitializeCriticalSection(&s_QueueLock); InitializeCriticalSection(&s_PortWriteLock); InitializeCriticalSection(&s_WriteAckLock); } __except(EXCEPTION_EXECUTE_HANDLER) { return E_OUTOFMEMORY; } s_ChanInitialized = TRUE; return S_OK; } //---------------------------------------------------------------------------- // // Transport functions. // //---------------------------------------------------------------------------- DbgRpcTransport* DbgRpcNewTransport(ULONG Trans) { switch(Trans) { #ifndef NT_NATIVE case TRANS_TCP: return new DbgRpcTcpTransport; case TRANS_SSL: return new DbgRpcSecureChannelTransport(Trans, TRANS_TCP); case TRANS_SPIPE: return new DbgRpcSecureChannelTransport(Trans, TRANS_NPIPE); #endif case TRANS_NPIPE: return new DbgRpcNamedPipeTransport; case TRANS_1394: return new DbgRpc1394Transport; case TRANS_COM: return new DbgRpcComTransport; default: return NULL; } } DbgRpcTransport* DbgRpcCreateTransport(PCSTR Options) { ULONG Trans = ParameterStringParser:: GetParser(Options, TRANS_COUNT, g_DbgRpcTransportNames); return DbgRpcNewTransport(Trans); } DbgRpcTransport* DbgRpcInitializeTransport(PCSTR Options) { DbgRpcTransport* Trans = DbgRpcCreateTransport(Options); if (Trans != NULL) { // Clean out any old parameter state. Trans->ResetParameters(); if (!Trans->ParseParameters(Options)) { delete Trans; return NULL; } } return Trans; }