/* * Copyright (C) 1996-2015 The Squid Software Foundation and contributors * * Squid software is distributed under GPLv2+ license and includes * contributions from numerous individuals and organizations. * Please see the COPYING and CONTRIBUTORS files for details. */ /* DEBUG: section 02 Unlink Daemon */ #include "squid.h" #if USE_UNLINKD #include "disk.h" #include "fd.h" #include "fde.h" #include "globals.h" #include "SquidIpc.h" #include "SquidTime.h" #include "StatCounters.h" #include "SwapDir.h" #include "tools.h" #include "xusleep.h" /* This code gets linked to Squid */ static int unlinkd_wfd = -1; static int unlinkd_rfd = -1; static void * hIpc; static pid_t pid; #define UNLINKD_QUEUE_LIMIT 20 void unlinkdUnlink(const char *path) { char buf[MAXPATHLEN]; int l; int bytes_written; static int queuelen = 0; if (unlinkd_wfd < 0) { debug_trap("unlinkdUnlink: unlinkd_wfd < 0"); safeunlink(path, 0); return; } /* * If the queue length is greater than our limit, then we pause * for a small amount of time, hoping that unlinkd has some * feedback for us. Maybe it just needs a slice of the CPU's * time. */ if (queuelen >= UNLINKD_QUEUE_LIMIT) { #if defined(USE_EPOLL) || defined(USE_KQUEUE) || defined(USE_DEVPOLL) /* * DPW 2007-04-23 * We can't use fd_set when using epoll() or kqueue(). In * these cases we block for 10 ms. */ xusleep(10000); #else /* * DPW 2007-04-23 * When we can use select, block for up to 100 ms. */ struct timeval to; fd_set R; FD_ZERO(&R); FD_SET(unlinkd_rfd, &R); to.tv_sec = 0; to.tv_usec = 100000; select(unlinkd_rfd + 1, &R, NULL, NULL, &to); #endif } /* * If there is at least one outstanding unlink request, then * try to read a response. If there's nothing to read we'll * get an EWOULDBLOCK or whatever. If we get a response, then * decrement the queue size by the number of newlines read. */ if (queuelen > 0) { int bytes_read; int i; char rbuf[512]; bytes_read = read(unlinkd_rfd, rbuf, 511); if (bytes_read > 0) { rbuf[bytes_read] = '\0'; for (i = 0; i < bytes_read; ++i) if ('\n' == rbuf[i]) --queuelen; assert(queuelen >= 0); } } l = strlen(path); assert(l < MAXPATHLEN); xstrncpy(buf, path, MAXPATHLEN); buf[l] = '\n'; ++l; bytes_written = write(unlinkd_wfd, buf, l); if (bytes_written < 0) { debugs(2, DBG_IMPORTANT, "unlinkdUnlink: write FD " << unlinkd_wfd << " failed: " << xstrerror()); safeunlink(path, 0); return; } else if (bytes_written != l) { debugs(2, DBG_IMPORTANT, "unlinkdUnlink: FD " << unlinkd_wfd << " only wrote " << bytes_written << " of " << l << " bytes"); safeunlink(path, 0); return; } ++statCounter.unlink.requests; /* * Increment this syscalls counter here, even though the syscall * is executed by the helper process. We try to be consistent * in counting unlink operations. */ ++statCounter.syscalls.disk.unlinks; ++queuelen; } void unlinkdClose(void) #if _SQUID_WINDOWS_ { if (unlinkd_wfd > -1) { debugs(2, DBG_IMPORTANT, "Closing unlinkd pipe on FD " << unlinkd_wfd); shutdown(unlinkd_wfd, SD_BOTH); comm_close(unlinkd_wfd); if (unlinkd_wfd != unlinkd_rfd) comm_close(unlinkd_rfd); unlinkd_wfd = -1; unlinkd_rfd = -1; } if (hIpc) { if (WaitForSingleObject(hIpc, 5000) != WAIT_OBJECT_0) { getCurrentTime(); debugs(2, DBG_IMPORTANT, "unlinkdClose: WARNING: (unlinkd," << pid << "d) didn't exit in 5 seconds"); } CloseHandle(hIpc); } } #else { if (unlinkd_wfd < 0) return; debugs(2, DBG_IMPORTANT, "Closing unlinkd pipe on FD " << unlinkd_wfd); file_close(unlinkd_wfd); if (unlinkd_wfd != unlinkd_rfd) file_close(unlinkd_rfd); unlinkd_wfd = -1; unlinkd_rfd = -1; } #endif bool unlinkdNeeded(void) { // we should start unlinkd if there are any cache_dirs using it for (int i = 0; i < Config.cacheSwap.n_configured; ++i) { const RefCount sd = Config.cacheSwap.swapDirs[i]; if (sd->unlinkdUseful()) return true; } return false; } void unlinkdInit(void) { if (unlinkd_wfd >= 0) return; // unlinkd already started const char *args[2]; Ip::Address localhost; args[0] = "(unlinkd)"; args[1] = NULL; localhost.setLocalhost(); pid = ipcCreate( #if USE_POLL && _SQUID_OSF_ /* pipes and poll() don't get along on DUNIX -DW */ IPC_STREAM, #elif _SQUID_WINDOWS_ /* select() will fail on a pipe */ IPC_TCP_SOCKET, #else /* We currently need to use FIFO.. see below */ IPC_FIFO, #endif Config.Program.unlinkd, args, "unlinkd", localhost, &unlinkd_rfd, &unlinkd_wfd, &hIpc); if (pid < 0) fatal("Failed to create unlinkd subprocess"); xusleep(250000); fd_note(unlinkd_wfd, "squid -> unlinkd"); fd_note(unlinkd_rfd, "unlinkd -> squid"); commUnsetFdTimeout(unlinkd_rfd); commUnsetFdTimeout(unlinkd_wfd); /* * unlinkd_rfd should already be non-blocking because of * ipcCreate. We change unlinkd_wfd to blocking mode because * we never want to lose an unlink request, and we don't have * code to retry if we get EWOULDBLOCK. Unfortunately, we can * do this only for the IPC_FIFO case. */ assert(fd_table[unlinkd_rfd].flags.nonblocking); if (FD_PIPE == fd_table[unlinkd_wfd].type) commUnsetNonBlocking(unlinkd_wfd); debugs(2, DBG_IMPORTANT, "Unlinkd pipe opened on FD " << unlinkd_wfd); #if _SQUID_WINDOWS_ debugs(2, 4, "Unlinkd handle: 0x" << std::hex << hIpc << std::dec << ", PID: " << pid); #endif } #endif /* USE_UNLINKD */