#include "sscs_ipc.h" #ifdef SSCS_WIN32_PLAT_F #include "windows.h" #define XTIER_RPC_PIPE TEXT("\\\\.\\PIPE\\SS_RPC_PIPE") // global int firstReadAfterWrite = 0; #endif /* */ #ifdef SSCS_LINUX_PLAT_F int ipc_unx_create() { int retVal = 0; struct sockaddr_un servAddr; char path[MAX_SOCKET_PATH_LEN]; int sockFd = 0; do { sockFd = socket(AF_UNIX,SOCK_STREAM,0); if( sockFd < 0 ) { retVal = sockFd; break; } memset(&servAddr,0,sizeof(servAddr)); servAddr.sun_family = AF_UNIX; strcpy(servAddr.sun_path,"/tmp/.novellCASA"); retVal = connect(sockFd,(struct sockaddr*)&servAddr, sizeof(servAddr)); if(retVal < 0 ) { DMSG(("Connect fails : %s\n",strerror(errno))); DMSG(("Closing socket : %d\n",sockFd)); close(sockFd); break; } else retVal = sockFd; }while(0); return retVal; } #else void * ipc_win_create() { //#ifdef SSCS_WIN32_PLAT_F // connect to the named Pipe HANDLE hPipe = NULL; int rcode; DWORD mode = PIPE_READMODE_MESSAGE; hPipe = CreateFile( XTIER_RPC_PIPE, GENERIC_READ | GENERIC_WRITE, 0, NULL, //null, OPEN_EXISTING, 0, 0); if (hPipe == INVALID_HANDLE_VALUE) { rcode = GetLastError(); return 0; } return hPipe; } #endif #ifdef SSCS_LINUX_PLAT_F int ipc_unx_write(int fd, Byte *pData, int bytes) { int retVal = write(fd,pData,bytes); if( retVal < 0 ) { DMSG(("Write returns error : %d - %s\n",retVal, strerror(errno))); } return retVal; //#endif } #else int ipc_win_write(HANDLE hPipe, LPCVOID lpBuffer, DWORD bytesToWrite) { //#ifdef SSCS_WIN32_PLAT_F BOOL rcode; int icode; DWORD lpBytesWritten = 0; //LPCVOID msgLen = malloc(4); // rcode = WaitNamedPipe( // XTIER_RPC_PIPE, // NMPWAIT_WAIT_FOREVER); // the server expects us to first write the number of bytes in the msg we're about to write. rcode = WriteFile( hPipe, (LPCVOID)&bytesToWrite, 4, &lpBytesWritten, NULL); if (!rcode) { icode = GetLastError(); return 0; } // rcode = WaitNamedPipe( // XTIER_RPC_PIPE, // NMPWAIT_WAIT_FOREVER); rcode = WriteFile( hPipe, lpBuffer, //LPCVOID lpBuffer, bytesToWrite, //DWORD nNumberOfBytesToWrite, &lpBytesWritten, // LPDWORD lpNumberOfBytesWritten, NULL); //LPOVERLAPPED lpOverlapped if (!rcode) { icode = GetLastError(); } firstReadAfterWrite = 1; return lpBytesWritten; } #endif /* * */ #ifdef SSCS_LINUX_PLAT_F int ipc_unx_read(int fd, Byte *pData, int bytes) { int bytesToRead = 0; // Keep track of number of bytes to read int bytesRead = 0; // Number of bytes read int retVal = 0; for(bytesToRead = bytes; bytesToRead;) { bytesRead = read(fd, pData, bytesToRead); if(bytesRead < 0) { return -1; } bytesToRead -= bytesRead; pData += bytesRead; } return bytesRead; } //#endif #else int ipc_win_read(HANDLE hPipe, LPVOID lpBuffer, DWORD numOfBytesToRead) { //#ifdef SSCS_WIN32_PLAT_F BOOL rcode; DWORD numBytesRead = 0; LPVOID pMsgLen = malloc(4); int icode; if (firstReadAfterWrite) { firstReadAfterWrite = 0; // server first sends the number of bytes that gets sent. rcode = ReadFile( hPipe, //HANDLE hFile, pMsgLen, //LPVOID lpBuffer, 4, //numOfBytesToRead, //DWORD nNumberOfBytesToRead, &numBytesRead, //LPDWORD lpNumberOfBytesRead, NULL); //LPOVERLAPPED lpOverlapped if (!rcode) { icode = GetLastError(); return 0; } } rcode = ReadFile( hPipe, //HANDLE hFile, lpBuffer, //LPVOID lpBuffer, numOfBytesToRead, //DWORD nNumberOfBytesToRead, &numBytesRead, //LPDWORD lpNumberOfBytesRead, NULL); //LPOVERLAPPED lpOverlapped if (pMsgLen) free(pMsgLen); return numBytesRead; } #endif #ifdef SSCS_LINUX_PLAT_F int ipc_unx_close(int fd) { return close(fd); } #else int ipc_win_close(HANDLE hPipe) { //#ifdef SSCS_WIN32_PLAT_F BOOL rcode; rcode = DisconnectNamedPipe(hPipe); rcode = CloseHandle(hPipe); return 0; } #endif