/* * Copyright (C) 1996-2017 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 06 Disk I/O Routines */ #include "squid.h" #include "comm/Loops.h" #include "disk.h" #include "fd.h" #include "fde.h" #include "globals.h" #include "Mem.h" #include "MemBuf.h" #include "profiler/Profiler.h" #include "StatCounters.h" #include static PF diskHandleRead; static PF diskHandleWrite; #if _SQUID_WINDOWS_ || _SQUID_OS2_ static int diskWriteIsComplete(int fd) { return fd_table[fd].disk.write_q ? 0 : 1; } #endif void disk_init(void) { (void) 0; } /* hack needed on SunStudio to avoid linkage convention mismatch */ static void cxx_xfree(void *ptr) { xfree(ptr); } /* * opens a disk file specified by 'path'. This function always * blocks! There is no callback. */ int file_open(const char *path, int mode) { int fd; PROF_start(file_open); if (FILE_MODE(mode) == O_WRONLY) mode |= O_APPEND; errno = 0; fd = open(path, mode, 0644); ++ statCounter.syscalls.disk.opens; if (fd < 0) { debugs(50, 3, "file_open: error opening file " << path << ": " << xstrerror()); fd = DISK_ERROR; } else { debugs(6, 5, "file_open: FD " << fd); commSetCloseOnExec(fd); fd_open(fd, FD_FILE, path); } PROF_stop(file_open); return fd; } /* close a disk file. */ void file_close(int fd) { fde *F = &fd_table[fd]; PF *read_callback; PROF_start(file_close); assert(fd >= 0); assert(F->flags.open); if ((read_callback = F->read_handler)) { F->read_handler = NULL; read_callback(-1, F->read_data); } if (F->flags.write_daemon) { #if _SQUID_WINDOWS_ || _SQUID_OS2_ /* * on some operating systems, you can not delete or rename * open files, so we won't allow delayed close. */ while (!diskWriteIsComplete(fd)) diskHandleWrite(fd, NULL); #else F->flags.close_request = true; debugs(6, 2, "file_close: FD " << fd << ", delaying close"); PROF_stop(file_close); return; #endif } /* * Assert there is no write callback. Otherwise we might be * leaking write state data by closing the descriptor */ assert(F->write_handler == NULL); #if CALL_FSYNC_BEFORE_CLOSE fsync(fd); #endif close(fd); debugs(6, F->flags.close_request ? 2 : 5, "file_close: FD " << fd << " really closing\n"); fd_close(fd); ++ statCounter.syscalls.disk.closes; PROF_stop(file_close); } /* * This function has the purpose of combining multiple writes. This is * to facilitate the ASYNC_IO option since it can only guarantee 1 * write to a file per trip around the comm.c select() loop. That's bad * because more than 1 write can be made to the access.log file per * trip, and so this code is purely designed to help batch multiple * sequential writes to the access.log file. Squid will never issue * multiple writes for any other file type during 1 trip around the * select() loop. --SLF */ static void diskCombineWrites(_fde_disk *fdd) { /* * We need to combine multiple write requests on an FD's write * queue But only if we don't need to seek() in between them, ugh! * XXX This currently ignores any seeks (file_offset) */ if (fdd->write_q != NULL && fdd->write_q->next != NULL) { int len = 0; for (dwrite_q *q = fdd->write_q; q != NULL; q = q->next) len += q->len - q->buf_offset; dwrite_q *wq = (dwrite_q *)memAllocate(MEM_DWRITE_Q); wq->buf = (char *)xmalloc(len); wq->len = 0; wq->buf_offset = 0; wq->next = NULL; wq->free_func = cxx_xfree; while (fdd->write_q != NULL) { dwrite_q *q = fdd->write_q; len = q->len - q->buf_offset; memcpy(wq->buf + wq->len, q->buf + q->buf_offset, len); wq->len += len; fdd->write_q = q->next; if (q->free_func) q->free_func(q->buf); memFree(q, MEM_DWRITE_Q); }; fdd->write_q_tail = wq; fdd->write_q = wq; } } /* write handler */ static void diskHandleWrite(int fd, void *notused) { int len = 0; fde *F = &fd_table[fd]; _fde_disk *fdd = &F->disk; dwrite_q *q = fdd->write_q; int status = DISK_OK; bool do_close; if (NULL == q) return; PROF_start(diskHandleWrite); debugs(6, 3, "diskHandleWrite: FD " << fd); F->flags.write_daemon = false; assert(fdd->write_q != NULL); assert(fdd->write_q->len > fdd->write_q->buf_offset); debugs(6, 3, "diskHandleWrite: FD " << fd << " writing " << (fdd->write_q->len - fdd->write_q->buf_offset) << " bytes at " << fdd->write_q->file_offset); errno = 0; if (fdd->write_q->file_offset != -1) lseek(fd, fdd->write_q->file_offset, SEEK_SET); /* XXX ignore return? */ len = FD_WRITE_METHOD(fd, fdd->write_q->buf + fdd->write_q->buf_offset, fdd->write_q->len - fdd->write_q->buf_offset); debugs(6, 3, "diskHandleWrite: FD " << fd << " len = " << len); ++ statCounter.syscalls.disk.writes; fd_bytes(fd, len, FD_WRITE); if (len < 0) { if (!ignoreErrno(errno)) { status = errno == ENOSPC ? DISK_NO_SPACE_LEFT : DISK_ERROR; debugs(50, DBG_IMPORTANT, "diskHandleWrite: FD " << fd << ": disk write error: " << xstrerror()); /* * If there is no write callback, then this file is * most likely something important like a log file, or * an interprocess pipe. Its not a swapfile. We feel * that a write failure on a log file is rather important, * and Squid doesn't otherwise deal with this condition. * So to get the administrators attention, we exit with * a fatal message. */ if (fdd->wrt_handle == NULL) fatal("Write failure -- check your disk space and cache.log"); /* * If there is a write failure, then we notify the * upper layer via the callback, at the end of this * function. Meanwhile, flush all pending buffers * here. Let the upper layer decide how to handle the * failure. This will prevent experiencing multiple, * repeated write failures for the same FD because of * the queued data. */ do { fdd->write_q = q->next; if (q->free_func) q->free_func(q->buf); if (q) { memFree(q, MEM_DWRITE_Q); q = NULL; } } while ((q = fdd->write_q)); } len = 0; } if (q != NULL) { /* q might become NULL from write failure above */ q->buf_offset += len; if (q->buf_offset > q->len) debugs(50, DBG_IMPORTANT, "diskHandleWriteComplete: q->buf_offset > q->len (" << q << "," << (int) q->buf_offset << ", " << q->len << ", " << len << " FD " << fd << ")"); assert(q->buf_offset <= q->len); if (q->buf_offset == q->len) { /* complete write */ fdd->write_q = q->next; if (q->free_func) q->free_func(q->buf); if (q) { memFree(q, MEM_DWRITE_Q); q = NULL; } } } if (fdd->write_q == NULL) { /* no more data */ fdd->write_q_tail = NULL; } else { /* another block is queued */ diskCombineWrites(fdd); Comm::SetSelect(fd, COMM_SELECT_WRITE, diskHandleWrite, NULL, 0); F->flags.write_daemon = true; } do_close = F->flags.close_request; if (fdd->wrt_handle) { DWCB *callback = fdd->wrt_handle; void *cbdata; fdd->wrt_handle = NULL; if (cbdataReferenceValidDone(fdd->wrt_handle_data, &cbdata)) { callback(fd, status, len, cbdata); /* * NOTE, this callback can close the FD, so we must * not touch 'F', 'fdd', etc. after this. */ PROF_stop(diskHandleWrite); return; /* XXX But what about close_request??? */ } } if (do_close) file_close(fd); PROF_stop(diskHandleWrite); } /* write block to a file */ /* write back queue. Only one writer at a time. */ /* call a handle when writing is complete. */ void file_write(int fd, off_t file_offset, void const *ptr_to_buf, int len, DWCB * handle, void *handle_data, FREE * free_func) { dwrite_q *wq = NULL; fde *F = &fd_table[fd]; PROF_start(file_write); assert(fd >= 0); assert(F->flags.open); /* if we got here. Caller is eligible to write. */ wq = (dwrite_q *)memAllocate(MEM_DWRITE_Q); wq->file_offset = file_offset; wq->buf = (char *)ptr_to_buf; wq->len = len; wq->buf_offset = 0; wq->next = NULL; wq->free_func = free_func; if (!F->disk.wrt_handle_data) { F->disk.wrt_handle = handle; F->disk.wrt_handle_data = cbdataReference(handle_data); } else { /* Detect if there is multiple concurrent users of this fd.. we only support one callback */ assert(F->disk.wrt_handle_data == handle_data && F->disk.wrt_handle == handle); } /* add to queue */ if (F->disk.write_q == NULL) { /* empty queue */ F->disk.write_q = F->disk.write_q_tail = wq; } else { F->disk.write_q_tail->next = wq; F->disk.write_q_tail = wq; } if (!F->flags.write_daemon) { diskHandleWrite(fd, NULL); } PROF_stop(file_write); } /* * a wrapper around file_write to allow for MemBuf to be file_written * in a snap */ void file_write_mbuf(int fd, off_t off, MemBuf mb, DWCB * handler, void *handler_data) { file_write(fd, off, mb.buf, mb.size, handler, handler_data, mb.freeFunc()); } /* Read from FD */ static void diskHandleRead(int fd, void *data) { dread_ctrl *ctrl_dat = (dread_ctrl *)data; fde *F = &fd_table[fd]; int len; int rc = DISK_OK; /* * FD < 0 indicates premature close; we just have to free * the state data. */ if (fd < 0) { memFree(ctrl_dat, MEM_DREAD_CTRL); return; } PROF_start(diskHandleRead); #if WRITES_MAINTAIN_DISK_OFFSET if (F->disk.offset != ctrl_dat->offset) { #else { #endif debugs(6, 3, "diskHandleRead: FD " << fd << " seeking to offset " << ctrl_dat->offset); lseek(fd, ctrl_dat->offset, SEEK_SET); /* XXX ignore return? */ ++ statCounter.syscalls.disk.seeks; F->disk.offset = ctrl_dat->offset; } errno = 0; len = FD_READ_METHOD(fd, ctrl_dat->buf, ctrl_dat->req_len); if (len > 0) F->disk.offset += len; ++ statCounter.syscalls.disk.reads; fd_bytes(fd, len, FD_READ); if (len < 0) { if (ignoreErrno(errno)) { Comm::SetSelect(fd, COMM_SELECT_READ, diskHandleRead, ctrl_dat, 0); PROF_stop(diskHandleRead); return; } debugs(50, DBG_IMPORTANT, "diskHandleRead: FD " << fd << ": " << xstrerror()); len = 0; rc = DISK_ERROR; } else if (len == 0) { rc = DISK_EOF; } if (cbdataReferenceValid(ctrl_dat->client_data)) ctrl_dat->handler(fd, ctrl_dat->buf, len, rc, ctrl_dat->client_data); cbdataReferenceDone(ctrl_dat->client_data); memFree(ctrl_dat, MEM_DREAD_CTRL); PROF_stop(diskHandleRead); } /* start read operation */ /* buffer must be allocated from the caller. * It must have at least req_len space in there. * call handler when a reading is complete. */ void file_read(int fd, char *buf, int req_len, off_t offset, DRCB * handler, void *client_data) { dread_ctrl *ctrl_dat; PROF_start(file_read); assert(fd >= 0); ctrl_dat = (dread_ctrl *)memAllocate(MEM_DREAD_CTRL); ctrl_dat->fd = fd; ctrl_dat->offset = offset; ctrl_dat->req_len = req_len; ctrl_dat->buf = buf; ctrl_dat->end_of_file = 0; ctrl_dat->handler = handler; ctrl_dat->client_data = cbdataReference(client_data); diskHandleRead(fd, ctrl_dat); PROF_stop(file_read); } void safeunlink(const char *s, int quiet) { ++ statCounter.syscalls.disk.unlinks; if (unlink(s) < 0 && !quiet) debugs(50, DBG_IMPORTANT, "safeunlink: Couldn't delete " << s << ": " << xstrerror()); } /* * Same as rename(2) but complains if something goes wrong; * the caller is responsible for handing and explaining the * consequences of errors. */ int xrename(const char *from, const char *to) { debugs(21, 2, "xrename: renaming " << from << " to " << to); #if _SQUID_OS2_ || _SQUID_WINDOWS_ remove(to); #endif if (0 == rename(from, to)) return 0; debugs(21, errno == ENOENT ? 2 : 1, "xrename: Cannot rename " << from << " to " << to << ": " << xstrerror()); return -1; }