/* * $Id: ipc_win32.c,v 1.3 2006/09/09 15:41:45 serassio Exp $ * * DEBUG: section 54 Windows Interprocess Communication * AUTHOR: Andrey Shorin * AUTHOR: Guido Serassio * * SQUID Web Proxy Cache http://www.squid-cache.org/ * ---------------------------------------------------------- * * Squid is the result of efforts by numerous individuals from * the Internet community; see the CONTRIBUTORS file for full * details. Many organizations have provided support for Squid's * development; see the SPONSORS file for full details. Squid is * Copyrighted (C) 2001 by the Regents of the University of * California; see the COPYRIGHT file for full details. Squid * incorporates software developed and/or copyrighted by other * sources; see the CREDITS file for full details. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA. * */ #include "squid.h" #ifndef _MSWSOCK_ #include #endif #include struct ipc_params { int type; int crfd; int cwfd; struct sockaddr_in PS; const char *prog; char **args; }; struct thread_params { int type; int rfd; int send_fd; const char *prog; pid_t pid; }; static unsigned int __stdcall ipc_thread_1(void *params); static unsigned int __stdcall ipc_thread_2(void *params); static const char *ok_string = "OK\n"; static const char *err_string = "ERR\n"; static const char *shutdown_string = "$shutdown\n"; static const char *hello_string = "hi there\n"; #define HELLO_BUF_SZ 32 static char hello_buf[HELLO_BUF_SZ]; static int ipcCloseAllFD(int prfd, int pwfd, int crfd, int cwfd) { if (prfd >= 0) comm_close(prfd); if (prfd != pwfd) if (pwfd >= 0) comm_close(pwfd); if (crfd >= 0) comm_close(crfd); if (crfd != cwfd) if (cwfd >= 0) comm_close(cwfd); return -1; } pid_t ipcCreate(int type, const char *prog, const char *const args[], const char *name, int *rfd, int *wfd, void **hIpc) { unsigned long thread; struct ipc_params params; int opt; int optlen = sizeof(opt); DWORD ecode = 0; pid_t pid; struct sockaddr_in CS; struct sockaddr_in PS; int crfd = -1; int prfd = -1; int cwfd = -1; int pwfd = -1; socklen_t len; int x; requirePathnameExists(name, prog); if (rfd) *rfd = -1; if (wfd) *wfd = -1; if (hIpc) *hIpc = NULL; if (WIN32_OS_version != _WIN_OS_WINNT) { getsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE, (char *) &opt, &optlen); opt = opt & ~(SO_SYNCHRONOUS_NONALERT | SO_SYNCHRONOUS_ALERT); setsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE, (char *) &opt, sizeof(opt)); } if (type == IPC_TCP_SOCKET) { crfd = cwfd = comm_open(SOCK_STREAM, IPPROTO_TCP, local_addr, 0, COMM_NOCLOEXEC, name); prfd = pwfd = comm_open(SOCK_STREAM, IPPROTO_TCP, /* protocol */ local_addr, 0, /* port */ 0, /* blocking */ name); } else if (type == IPC_UDP_SOCKET) { crfd = cwfd = comm_open(SOCK_DGRAM, IPPROTO_UDP, local_addr, 0, COMM_NOCLOEXEC, name); prfd = pwfd = comm_open(SOCK_DGRAM, IPPROTO_UDP, local_addr, 0, 0, name); } else if (type == IPC_FIFO) { debug(54, 0) ("ipcCreate: %s: use IPC_TCP_SOCKET instead of IP_FIFO on Windows\n", prog); assert(0); } else { assert(IPC_NONE); } debug(54, 3) ("ipcCreate: prfd FD %d\n", prfd); debug(54, 3) ("ipcCreate: pwfd FD %d\n", pwfd); debug(54, 3) ("ipcCreate: crfd FD %d\n", crfd); debug(54, 3) ("ipcCreate: cwfd FD %d\n", cwfd); if (WIN32_OS_version != _WIN_OS_WINNT) { getsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE, (char *) &opt, &optlen); opt = opt | SO_SYNCHRONOUS_NONALERT; setsockopt(INVALID_SOCKET, SOL_SOCKET, SO_OPENTYPE, (char *) &opt, optlen); } if (crfd < 0) { debug(54, 0) ("ipcCreate: Failed to create child FD.\n"); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } if (pwfd < 0) { debug(54, 0) ("ipcCreate: Failed to create server FD.\n"); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } if (type == IPC_TCP_SOCKET || type == IPC_UDP_SOCKET) { len = sizeof(PS); memset(&PS, '\0', len); if (getsockname(pwfd, (struct sockaddr *) &PS, &len) < 0) { debug(54, 0) ("ipcCreate: getsockname: %s\n", xstrerror()); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } debug(54, 3) ("ipcCreate: FD %d sockaddr %s:%d\n", pwfd, inet_ntoa(PS.sin_addr), ntohs(PS.sin_port)); len = sizeof(CS); memset(&CS, '\0', len); if (getsockname(crfd, (struct sockaddr *) &CS, &len) < 0) { debug(54, 0) ("ipcCreate: getsockname: %s\n", xstrerror()); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } debug(54, 3) ("ipcCreate: FD %d sockaddr %s:%d\n", crfd, inet_ntoa(CS.sin_addr), ntohs(CS.sin_port)); } if (type == IPC_TCP_SOCKET) { if (listen(crfd, 1) < 0) { debug(54, 1) ("ipcCreate: listen FD %d: %s\n", crfd, xstrerror()); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } debug(54, 3) ("ipcCreate: FD %d listening...\n", crfd); } /* flush or else we get dup data if unbuffered_logs is set */ logsFlush(); params.type = type; params.crfd = crfd; params.cwfd = cwfd; params.PS = PS; params.prog = prog; params.args = (char **) args; thread = _beginthreadex(NULL, 0, ipc_thread_1, ¶ms, 0, NULL); if (thread == 0) { debug(54, 1) ("ipcCreate: _beginthread: %s\n", xstrerror()); return ipcCloseAllFD(prfd, pwfd, crfd, cwfd); } if (comm_connect_addr(pwfd, &CS) == COMM_ERROR) { CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } memset(hello_buf, '\0', HELLO_BUF_SZ); x = recv(prfd, hello_buf, HELLO_BUF_SZ - 1, 0); if (x < 0) { debug(54, 0) ("ipcCreate: PARENT: hello read test failed\n"); debug(54, 0) ("--> read: %s\n", xstrerror()); CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } else if (strcmp(hello_buf, hello_string)) { debug(54, 0) ("ipcCreate: PARENT: hello read test failed\n"); debug(54, 0) ("--> read returned %d\n", x); debug(54, 0) ("--> got '%s'\n", rfc1738_escape(hello_buf)); CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } x = send(pwfd, ok_string, strlen(ok_string), 0); if (x < 0) { debug(54, 0) ("ipcCreate: PARENT: OK write test failed\n"); debug(54, 0) ("--> read: %s\n", xstrerror()); CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } memset(hello_buf, '\0', HELLO_BUF_SZ); x = recv(prfd, hello_buf, HELLO_BUF_SZ - 1, 0); if (x < 0) { debug(54, 0) ("ipcCreate: PARENT: OK read test failed\n"); debug(54, 0) ("--> read: %s\n", xstrerror()); CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } else if (!strcmp(hello_buf, err_string)) { debug(54, 0) ("ipcCreate: PARENT: OK read test failed\n"); debug(54, 0) ("--> read returned %d\n", x); debug(54, 0) ("--> got '%s'\n", rfc1738_escape(hello_buf)); CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } hello_buf[x] = '\0'; pid = atol(hello_buf); commSetTimeout(prfd, -1, NULL, NULL); commSetNonBlocking(prfd); commSetNonBlocking(pwfd); commSetCloseOnExec(prfd); commSetCloseOnExec(pwfd); if (rfd) *rfd = prfd; if (wfd) *wfd = pwfd; fd_table[prfd].flags.ipc = 1; fd_table[pwfd].flags.ipc = 1; fd_table[crfd].flags.ipc = 1; fd_table[cwfd].flags.ipc = 1; if (Config.sleep_after_fork) { /* XXX emulation of usleep() */ DWORD sl; sl = Config.sleep_after_fork / 1000; if (sl == 0) sl = 1; Sleep(sl); } if (GetExitCodeThread((HANDLE) thread, &ecode) && ecode == STILL_ACTIVE) { if (hIpc) *hIpc = (HANDLE) thread; return pid; } else { CloseHandle((HANDLE) thread); return ipcCloseAllFD(prfd, pwfd, -1, -1); } } static int ipcSend(int cwfd, const char *buf, int len) { int x; x = send(cwfd, buf, len, 0); if (x < 0) { debug(54, 0) ("sendto FD %d: %s\n", cwfd, xstrerror()); debug(54, 0) ("ipcCreate: CHILD: hello write test failed\n"); } return x; } static unsigned int __stdcall ipc_thread_1(void *in_params) { int t1, t2, t3, retval = -1; int p2c[2] = {-1, -1}; int c2p[2] = {-1, -1}; HANDLE hProcess = NULL, thread = NULL; pid_t pid = -1; struct thread_params thread_params; int x, tmp_s, fd = -1; char *str; #if HAVE_PUTENV char *env_str = NULL; #endif STARTUPINFO si; PROCESS_INFORMATION pi; long F; int prfd_ipc = -1, pwfd_ipc = -1, crfd_ipc = -1, cwfd_ipc = -1; char *prog = NULL, *buf1 = NULL; struct sockaddr_in CS_ipc, PS_ipc; struct ipc_params *params = (struct ipc_params *) in_params; int type = params->type; int crfd = params->crfd; int cwfd = params->cwfd; char **args = params->args; struct sockaddr_in PS = params->PS; buf1 = xcalloc(1, 8192); strcpy(buf1, params->prog); prog = strtok(buf1, w_space); if ((str = strrchr(prog, '/'))) prog = ++str; if ((str = strrchr(prog, '\\'))) prog = ++str; prog = xstrdup(prog); if (type == IPC_TCP_SOCKET) { debug(54, 3) ("ipcCreate: calling accept on FD %d\n", crfd); if ((fd = accept(crfd, NULL, NULL)) < 0) { debug(54, 0) ("ipcCreate: FD %d accept: %s\n", crfd, xstrerror()); goto cleanup; } debug(54, 3) ("ipcCreate: CHILD accepted new FD %d\n", fd); comm_close(crfd); snprintf(buf1, 8191, "%s CHILD socket", prog); fd_open(fd, FD_SOCKET, buf1); fd_table[fd].flags.ipc = 1; cwfd = crfd = fd; } else if (type == IPC_UDP_SOCKET) { if (comm_connect_addr(crfd, &PS) == COMM_ERROR) goto cleanup; } x = send(cwfd, hello_string, strlen(hello_string) + 1, 0); if (x < 0) { debug(54, 0) ("sendto FD %d: %s\n", cwfd, xstrerror()); debug(54, 0) ("ipcCreate: CHILD: hello write test failed\n"); goto cleanup; } #if HAVE_PUTENV env_str = xcalloc((tmp_s = strlen(Config.debugOptions) + 32), 1); snprintf(env_str, tmp_s, "SQUID_DEBUG=%s", Config.debugOptions); putenv(env_str); #endif memset(buf1, '\0', sizeof(buf1)); x = recv(crfd, buf1, 8191, 0); if (x < 0) { debug(54, 0) ("ipcCreate: CHILD: OK read test failed\n"); debug(54, 0) ("--> read: %s\n", xstrerror()); goto cleanup; } else if (strcmp(buf1, ok_string)) { debug(54, 0) ("ipcCreate: CHILD: OK read test failed\n"); debug(54, 0) ("--> read returned %d\n", x); debug(54, 0) ("--> got '%s'\n", rfc1738_escape(hello_buf)); goto cleanup; } /* assign file descriptors to child process */ if (_pipe(p2c, 1024, _O_BINARY | _O_NOINHERIT) < 0) { debug(54, 0) ("ipcCreate: CHILD: pipe: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } if (_pipe(c2p, 1024, _O_BINARY | _O_NOINHERIT) < 0) { debug(54, 0) ("ipcCreate: CHILD: pipe: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } if (type == IPC_UDP_SOCKET) { snprintf(buf1, 8192, "%s(%ld) <-> ipc CHILD socket", prog, -1L); crfd_ipc = cwfd_ipc = comm_open(SOCK_DGRAM, IPPROTO_UDP, local_addr, 0, 0, buf1); if (crfd_ipc < 0) { debug(54, 0) ("ipcCreate: CHILD: Failed to create child FD for %s.\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } snprintf(buf1, 8192, "%s(%ld) <-> ipc PARENT socket", prog, -1L); prfd_ipc = pwfd_ipc = comm_open(SOCK_DGRAM, IPPROTO_UDP, local_addr, 0, 0, buf1); if (pwfd_ipc < 0) { debug(54, 0) ("ipcCreate: CHILD: Failed to create server FD for %s.\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } tmp_s = sizeof(PS_ipc); memset(&PS_ipc, '\0', tmp_s); if (getsockname(pwfd_ipc, (struct sockaddr *) &PS_ipc, &tmp_s) < 0) { debug(54, 0) ("ipcCreate: getsockname: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } debug(54, 3) ("ipcCreate: FD %d sockaddr %s:%d\n", pwfd_ipc, inet_ntoa(PS_ipc.sin_addr), ntohs(PS_ipc.sin_port)); tmp_s = sizeof(CS_ipc); memset(&CS_ipc, '\0', tmp_s); if (getsockname(crfd_ipc, (struct sockaddr *) &CS_ipc, &tmp_s) < 0) { debug(54, 0) ("ipcCreate: getsockname: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } debug(54, 3) ("ipcCreate: FD %d sockaddr %s:%d\n", crfd_ipc, inet_ntoa(CS_ipc.sin_addr), ntohs(CS_ipc.sin_port)); if (comm_connect_addr(pwfd_ipc, &CS_ipc) == COMM_ERROR) { ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } fd = crfd; if (comm_connect_addr(crfd_ipc, &PS_ipc) == COMM_ERROR) { ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } } /* IPC_UDP_SOCKET */ t1 = dup(0); t2 = dup(1); t3 = dup(2); dup2(c2p[0], 0); dup2(p2c[1], 1); dup2(fileno(debug_log), 2); close(c2p[0]); close(p2c[1]); commUnsetNonBlocking(fd); memset(&si, 0, sizeof(STARTUPINFO)); si.cb = sizeof(STARTUPINFO); si.hStdInput = (HANDLE) _get_osfhandle(0); si.hStdOutput = (HANDLE) _get_osfhandle(1); si.hStdError = (HANDLE) _get_osfhandle(2); si.dwFlags = STARTF_USESTDHANDLES; /* Make sure all other valid handles are not inerithable */ for (x = 3; x < Squid_MaxFD; x++) { if ((F = _get_osfhandle(x)) == -1) continue; SetHandleInformation((HANDLE) F, HANDLE_FLAG_INHERIT, 0); } *buf1 = '\0'; strcpy(buf1 + 4096, params->prog); str = strtok(buf1 + 4096, w_space); do { strcat(buf1, str); strcat(buf1, " "); } while ((str = strtok(NULL, w_space))); x = 1; while (args[x]) { strcat(buf1, args[x++]); strcat(buf1, " "); } if (CreateProcess(buf1 + 4096, buf1, NULL, NULL, TRUE, CREATE_NO_WINDOW, NULL, NULL, &si, &pi)) { pid = pi.dwProcessId; hProcess = pi.hProcess; } else { pid = -1; WIN32_maperror(GetLastError()); x = errno; } dup2(t1, 0); dup2(t2, 1); dup2(t3, 2); close(t1); close(t2); close(t3); if (pid == -1) { errno = x; debug(54, 0) ("ipcCreate: CHILD: %s: %s\n", params->prog, xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } if (type == IPC_UDP_SOCKET) { WSAPROTOCOL_INFO wpi; memset(&wpi, 0, sizeof(wpi)); if (SOCKET_ERROR == WSADuplicateSocket(crfd_ipc, pid, &wpi)) { debug(54, 0) ("ipcCreate: CHILD: WSADuplicateSocket: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } x = write(c2p[1], (const char *) &wpi, sizeof(wpi)); if (x < sizeof(wpi)) { debug(54, 0) ("ipcCreate: CHILD: write FD %d: %s\n", c2p[1], xstrerror()); debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } x = read(p2c[0], buf1, 8192); if (x < 0) { debug(54, 0) ("ipcCreate: CHILD: read FD %d: %s\n", p2c[0], xstrerror()); debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } else if (strncmp(buf1, ok_string, strlen(ok_string))) { debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); debug(54, 0) ("--> read returned %d\n", x); buf1[x] = '\0'; debug(54, 0) ("--> got '%s'\n", rfc1738_escape(buf1)); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } x = write(c2p[1], (const char *) &PS_ipc, sizeof(PS_ipc)); if (x < sizeof(PS_ipc)) { debug(54, 0) ("ipcCreate: CHILD: write FD %d: %s\n", c2p[1], xstrerror()); debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } x = read(p2c[0], buf1, 8192); if (x < 0) { debug(54, 0) ("ipcCreate: CHILD: read FD %d: %s\n", p2c[0], xstrerror()); debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } else if (strncmp(buf1, ok_string, strlen(ok_string))) { debug(54, 0) ("ipcCreate: CHILD: %s: socket exchange failed\n", prog); debug(54, 0) ("--> read returned %d\n", x); buf1[x] = '\0'; debug(54, 0) ("--> got '%s'\n", rfc1738_escape(buf1)); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } x = send(pwfd_ipc, ok_string, strlen(ok_string), 0); x = recv(prfd_ipc, buf1 + 200, 8191 - 200, 0); assert((size_t) x == strlen(ok_string) && !strncmp(ok_string, buf1 + 200, strlen(ok_string))); } /* IPC_UDP_SOCKET */ snprintf(buf1, 8191, "%s(%ld) CHILD socket", prog, (long int) pid); fd_note(fd, buf1); if (prfd_ipc != -1) { snprintf(buf1, 8191, "%s(%ld) <-> ipc CHILD socket", prog, (long int) pid); fd_note(crfd_ipc, buf1); snprintf(buf1, 8191, "%s(%ld) <-> ipc PARENT socket", prog, (long int) pid); fd_note(prfd_ipc, buf1); } /* else { IPC_TCP_SOCKET */ /* commSetNoLinger(fd); */ /* } */ thread_params.prog = prog; thread_params.send_fd = cwfd; thread_params.pid = pid; if ((thread_params.type = type) == IPC_TCP_SOCKET) thread_params.rfd = p2c[0]; else thread_params.rfd = prfd_ipc; thread = (HANDLE) _beginthreadex(NULL, 0, ipc_thread_2, &thread_params, 0, NULL); if (!thread) { debug(54, 0) ("ipcCreate: CHILD: _beginthreadex: %s\n", xstrerror()); ipcSend(cwfd, err_string, strlen(err_string)); goto cleanup; } snprintf(buf1, 8191, "%ld\n", (long int) pid); if (-1 == ipcSend(cwfd, buf1, strlen(buf1))) goto cleanup; debug(54, 2) ("ipc(%s,%ld): started successfully\n", prog, (long int) pid); /* cycle */ for (;;) { x = recv(crfd, buf1, 8192, 0); if (x <= 0) { debug(54, 3) ("ipc(%s,%d): %d bytes received from parent. Exiting...\n", prog, pid, x); break; } buf1[x] = '\0'; if (type == IPC_UDP_SOCKET && !strcmp(buf1, shutdown_string)) { debug(54, 3) ("ipc(%s,%d): request for shutdown received from parent. Exiting...\n", prog, pid); TerminateProcess(hProcess, 0); break; } debug(54, 5) ("ipc(%s,%d): received from parent: %s\n", prog, pid, rfc1738_escape_unescaped(buf1)); if (type == IPC_TCP_SOCKET) x = write(c2p[1], buf1, x); else x = send(pwfd_ipc, buf1, x, 0); if (x <= 0) { debug(54, 3) ("ipc(%s,%d): %d bytes written to %s. Exiting...\n", prog, pid, x, prog); break; } } retval = 0; cleanup: if (c2p[1] != -1) close(c2p[1]); if (fd_table[crfd].flags.open) ipcCloseAllFD(-1, -1, crfd, cwfd); if (prfd_ipc != -1) { send(crfd_ipc, shutdown_string, strlen(shutdown_string), 0); shutdown(crfd_ipc, SD_BOTH); shutdown(prfd_ipc, SD_BOTH); } ipcCloseAllFD(prfd_ipc, pwfd_ipc, crfd_ipc, cwfd_ipc); if (hProcess && WAIT_OBJECT_0 != WaitForSingleObject(hProcess, type == IPC_UDP_SOCKET ? 12000 : 5000)) { getCurrentTime(); debug(54, 0) ("ipc(%s,%d): WARNING: %s didn't exit in %d seconds.\n", prog, pid, prog, type == IPC_UDP_SOCKET ? 12 : 5); } if (thread && WAIT_OBJECT_0 != WaitForSingleObject(thread, 3000)) { getCurrentTime(); debug(54, 0) ("ipc(%s,%d): WARNING: ipc_thread_2 didn't exit in 3 seconds.\n", prog, pid); } getCurrentTime(); if (!retval) debug(54, 2) ("ipc(%s,%d): normal exit\n", prog, pid); if (buf1) xfree(buf1); if (prog) xfree(prog); if (env_str) xfree(env_str); if (thread) CloseHandle(thread); if (hProcess) CloseHandle(hProcess); if (p2c[0] != -1) close(p2c[0]); return retval; } static unsigned int __stdcall ipc_thread_2(void *in_params) { int x; struct thread_params *params = (struct thread_params *) in_params; int type = params->type; int rfd = params->rfd; int send_fd = params->send_fd; char *prog = xstrdup(params->prog); pid_t pid = params->pid; char *buf2 = xcalloc(1, 8192); for (;;) { if (type == IPC_TCP_SOCKET) x = read(rfd, buf2, 8192); else x = recv(rfd, buf2, 8192, 0); if ((x <= 0 && type == IPC_TCP_SOCKET) || (x < 0 && type == IPC_UDP_SOCKET)) { debug(54, 3) ("ipc(%s,%d): %d bytes read from %s. Exiting...\n", prog, pid, x, prog); break; } buf2[x] = '\0'; if (type == IPC_UDP_SOCKET && !strcmp(buf2, shutdown_string)) { debug(54, 3) ("ipc(%s,%d): request for shutdown received. Exiting...\n", prog, pid); break; } if (x >= 2) { if ((buf2[x - 1] == '\n') && (buf2[x - 2] == '\r')) { buf2[x - 2] = '\n'; buf2[x - 1] = '\0'; x--; } } debug(54, 5) ("ipc(%s,%d): received from child : %s\n", prog, pid, rfc1738_escape_unescaped(buf2)); x = send(send_fd, buf2, x, 0); if ((x <= 0 && type == IPC_TCP_SOCKET) || (x < 0 && type == IPC_UDP_SOCKET)) { debug(54, 3) ("ipc(%s,%d): %d bytes sent to parent. Exiting...\n", prog, pid, x); break; } } xfree(prog); xfree(buf2); return 0; }