/* * Copyright (c) 2000 Silicon Graphics, Inc. All Rights Reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * Further, this software is distributed without any warranty that it is * free of the rightful claim of any third person regarding infringement * or the like. Any license provided herein, whether implied or * otherwise, applies only to this software file. Patent licenses, if * any, provided herein do not apply to combinations of this program with * other software, or any other product whatsoever. * * You should have received a copy of the GNU General Public License along * with this program; if not, write the Free Software Foundation, Inc., 59 * Temple Place - Suite 330, Boston MA 02111-1307, USA. * * Contact information: Silicon Graphics, Inc., 1600 Amphitheatre Pkwy, * Mountain View, CA 94043, or: * * http://www.sgi.com * * For further information regarding this notice, see: * * http://oss.sgi.com/projects/GenInfo/NoticeExplan/ */ /* * This module contains code for logging writes to files, and for * perusing the resultant logfile. The main intent of all this is * to provide a 'write history' of a file which can be examined to * judge the state of a file (ie. whether it is corrupted or not) based * on the write activity. * * The main abstractions available to the user are the wlog_file, and * the wlog_rec. A wlog_file is a handle encapsulating a write logfile. * It is initialized with the wlog_open() function. This handle is * then passed to the various wlog_xxx() functions to provide transparent * access to the write logfile. * * The wlog_rec datatype is a structure which contains all the information * about a file write. Examples include the file name, offset, length, * pattern, etc. In addition there is a bit which is cleared/set based * on whether or not the write has been confirmed as complete. This * allows the write logfile to contain information on writes which have * been initiated, but not yet completed (as in async io). * * There is also a function to scan a write logfile in reverse order. * * NOTE: For target file analysis based on a write logfile, the * assumption is made that the file being written to is * locked from simultaneous access, so that the order of * write completion is predictable. This is an issue when * more than 1 process is trying to write data to the same * target file simultaneously. * * The history file created is a collection of variable length records * described by scruct wlog_rec_disk in write_log.h. See that module for * the layout of the data on disk. */ #include #include #include #include #include #include #include #include #include "write_log.h" #ifndef BSIZE #ifdef DEV_BSIZE #define BSIZE DEV_BSIZE #else #define BSIZE BBSIZE #endif #endif #ifndef PATH_MAX #define PATH_MAX 255 /*#define PATH_MAX pathconf("/", _PC_PATH_MAX)*/ #endif char Wlog_Error_String[256]; #if __STDC__ static int wlog_rec_pack(struct wlog_rec *wrec, char *buf, int flag); static int wlog_rec_unpack(struct wlog_rec *wrec, char *buf); #else static int wlog_rec_pack(); static int wlog_rec_unpack(); #endif /* * Initialize a write logfile. wfile is a wlog_file structure that has * the w_file field filled in. The rest of the information in the * structure is initialized by the routine. * * The trunc flag is used to indicate whether or not the logfile should * be truncated if it currently exists. If it is non-zero, the file will * be truncated, otherwise it will be appended to. * * The mode argument is the [absolute] mode which the file will be * given if it does not exist. This mode is not affected by your process * umask. */ int wlog_open(wfile, trunc, mode) struct wlog_file *wfile; int trunc; int mode; { int omask, oflags; if (trunc) trunc = O_TRUNC; omask = umask(0); /* * Open 1 file descriptor as O_APPEND */ oflags = O_WRONLY | O_APPEND | O_CREAT | trunc; wfile->w_afd = open(wfile->w_file, oflags, mode); umask(omask); if (wfile->w_afd == -1) { sprintf(Wlog_Error_String, "Could not open write_log - open(%s, %#o, %#o) failed: %s\n", wfile->w_file, oflags, mode, strerror(errno)); return -1; } /* * Open the next fd as a random access descriptor */ oflags = O_RDWR; if ((wfile->w_rfd = open(wfile->w_file, oflags)) == -1) { sprintf(Wlog_Error_String, "Could not open write log - open(%s, %#o) failed: %s\n", wfile->w_file, oflags, strerror(errno)); close(wfile->w_afd); wfile->w_afd = -1; return -1; } return 0; } /* * Release all resources associated with a wlog_file structure allocated * with the wlog_open() call. */ int wlog_close(wfile) struct wlog_file *wfile; { close(wfile->w_afd); close(wfile->w_rfd); return 0; } /* * Write a wlog_rec structure to a write logfile. Offset is used to * control where the record will be written. If offset is < 0, the * record will be appended to the end of the logfile. Otherwise, the * record which exists at the indicated offset will be overlayed. This * is so that we can record writes which are outstanding (with the w_done * bit in wrec cleared), but not completed, and then later update the * logfile when the write request completes (as with async io). When * offset is >= 0, only the fixed length portion of the record is * rewritten. See text in write_log.h for details on the format of an * on-disk record. * * The return value of the function is the byte offset in the logfile * where the record begins. * * Note: It is the callers responsibility to make sure that the offset * parameter 'points' to a valid record location when a record is to be * overlayed. This is guarenteed by saving the return value of a previous * call to wlog_record_write() which wrote the record to be overlayed. * * Note2: The on-disk version of the wlog_rec is MUCH different than * the user version. Don't expect to od the logfile and see data formatted * as it is in the wlog_rec structure. Considerable data packing takes * place before the record is written. */ int wlog_record_write(wfile, wrec, offset) struct wlog_file *wfile; struct wlog_rec *wrec; long offset; { int reclen; char wbuf[WLOG_REC_MAX_SIZE + 2]; /* * If offset is -1, we append the record at the end of file * * Otherwise, we overlay wrec at the file offset indicated and assume * that the caller passed us the correct offset. We do not record the * fname in this case. */ reclen = wlog_rec_pack(wrec, wbuf, (offset < 0)); if (offset < 0) { /* * Since we're writing a complete new record, we must also tack * its length onto the end so that wlog_scan_backward() will work. * Length is asumed to fit into 2 bytes. */ wbuf[reclen] = reclen / 256; wbuf[reclen+1] = reclen % 256; reclen += 2; if (write(wfile->w_afd, wbuf, reclen) == -1) { sprintf(Wlog_Error_String, "Could not write log - write(%s, %s, %d) failed: %s\n", wfile->w_file, wbuf, reclen, strerror(errno)); return -1; } else { offset = lseek(wfile->w_afd, 0, SEEK_CUR) - reclen; if (offset == -1) { sprintf(Wlog_Error_String, "Could not reposition file pointer - lseek(%s, 0, SEEK_CUR) failed: %s\n", wfile->w_file, strerror(errno)); return -1; } } } else { if ((lseek(wfile->w_rfd, offset, SEEK_SET)) == -1) { sprintf(Wlog_Error_String, "Could not reposition file pointer - lseek(%s, %ld, SEEK_SET) failed: %s\n", wfile->w_file, offset, strerror(errno)); return -1; } else { if ((write(wfile->w_rfd, wbuf, reclen)) == -1) { sprintf(Wlog_Error_String, "Could not write log - write(%s, %s, %d) failed: %s\n", wfile->w_file, wbuf, reclen, strerror(errno)); return -1; } } } return offset; } /* * Function to scan a logfile in reverse order. Wfile is a valid * wlog_file structure initialized by wlog_open(). nrecs is the number * of records to scan (all records are scanned if nrecs is 0). func is * a user-supplied function to call for each record found. The function * will be passed a single parameter - a wlog_rec structure . */ int wlog_scan_backward(wfile, nrecs, func, data) struct wlog_file *wfile; int nrecs; int (*func)(); long data; { int fd, leftover, nbytes, offset, recnum, reclen, rval; char buf[BSIZE*32], *bufend, *cp, *bufstart; char albuf[WLOG_REC_MAX_SIZE]; struct wlog_rec wrec; fd = wfile->w_rfd; /* * Move to EOF. offset will always hold the current file offset */ if ((lseek(fd, 0, SEEK_END)) == -1) { sprintf(Wlog_Error_String, "Could not reposition file pointer - lseek(%s, 0, SEEK_END) failed: %s\n", wfile->w_file, strerror(errno)); return -1; } offset = lseek(fd, 0, SEEK_CUR); if ((offset == -1)) { sprintf(Wlog_Error_String, "Could not reposition file pointer - lseek(%s, 0, SEEK_CUR) failed: %s\n", wfile->w_file, strerror(errno)); return -1; } bufend = buf + sizeof(buf); bufstart = buf; recnum = 0; leftover = 0; while ((!nrecs || recnum < nrecs) && offset > 0) { /* * Check for beginning of file - if there aren't enough bytes * remaining to fill buf, adjust bufstart. */ if ((unsigned int)offset + leftover < sizeof(buf)) { bufstart = bufend - (offset + leftover); offset = 0; } else { offset -= sizeof(buf) - leftover; } /* * Move to the proper file offset, and read into buf */ if ((lseek(fd, offset, SEEK_SET)) ==-1) { sprintf(Wlog_Error_String, "Could not reposition file pointer - lseek(%s, %d, SEEK_SET) failed: %s\n", wfile->w_file, offset, strerror(errno)); return -1; } nbytes = read(fd, bufstart, bufend - bufstart - leftover); if (nbytes == -1) { sprintf(Wlog_Error_String, "Could not read history file at offset %d - read(%d, %p, %d) failed: %s\n", offset, fd, bufstart, (int)(bufend - bufstart - leftover), strerror(errno)); return -1; } cp = bufend; leftover = 0; while (cp >= bufstart) { /* * If cp-bufstart is not large enough to hold a piece * of record length information, copy remainder to end * of buf and continue reading the file. */ if (cp - bufstart < 2) { leftover = cp - bufstart; memcpy(bufend - leftover, bufstart, leftover); break; } /* * Extract the record length. We must do it this way * instead of casting cp to an int because cp might * not be word aligned. */ reclen = (*(cp-2) * 256) + *(cp -1); /* * If cp-bufstart isn't large enough to hold a * complete record, plus the length information, copy * the leftover bytes to the end of buf and continue * reading. */ if (cp - bufstart < reclen + 2) { leftover = cp - bufstart; memcpy(bufend - leftover, bufstart, leftover); break; } /* * Adjust cp to point at the start of the record. * Copy the record into wbuf so that it is word * aligned and pass the record to the user supplied * function. */ cp -= reclen + 2; memcpy(albuf, cp, reclen); wlog_rec_unpack(&wrec, albuf); /* * Call the user supplied function - * stop if instructed to. */ if ((rval = (*func)(&wrec, data)) == WLOG_STOP_SCAN) { break; } recnum++; if (nrecs && recnum >= nrecs) break; } } return 0; } /* * The following 2 routines are used to pack and unpack the user * visible wlog_rec structure to/from a character buffer which is * stored or read from the write logfile. Any changes to either of * these routines must be reflected in the other. */ static int wlog_rec_pack(wrec, buf, flag) struct wlog_rec *wrec; char *buf; int flag; { char *file, *host, *pattern; struct wlog_rec_disk *wrecd; wrecd = (struct wlog_rec_disk *)buf; wrecd->w_pid = (uint)wrec->w_pid; wrecd->w_offset = (uint)wrec->w_offset; wrecd->w_nbytes = (uint)wrec->w_nbytes; wrecd->w_oflags = (uint)wrec->w_oflags; wrecd->w_done = (uint)wrec->w_done; wrecd->w_async = (uint)wrec->w_async; wrecd->w_pathlen = (wrec->w_pathlen > 0) ? (uint)wrec->w_pathlen : 0; wrecd->w_hostlen = (wrec->w_hostlen > 0) ? (uint)wrec->w_hostlen : 0; wrecd->w_patternlen = (wrec->w_patternlen > 0) ? (uint)wrec->w_patternlen : 0; /* * If flag is true, we should also pack the variable length parts * of the wlog_rec. By default, we only pack the fixed length * parts. */ if (flag) { file = buf + sizeof(struct wlog_rec_disk); host = file + wrecd->w_pathlen; pattern = host + wrecd->w_hostlen; if (wrecd->w_pathlen > 0) memcpy(file, wrec->w_path, wrecd->w_pathlen); if (wrecd->w_hostlen > 0) memcpy(host, wrec->w_host, wrecd->w_hostlen); if (wrecd->w_patternlen > 0) memcpy(pattern, wrec->w_pattern, wrecd->w_patternlen); return (sizeof(struct wlog_rec_disk) + wrecd->w_pathlen + wrecd->w_hostlen + wrecd->w_patternlen); } else { return sizeof(struct wlog_rec_disk); } } static int wlog_rec_unpack(wrec, buf) struct wlog_rec *wrec; char *buf; { char *file, *host, *pattern; struct wlog_rec_disk *wrecd; memset((char *)wrec, 0x00, sizeof(struct wlog_rec)); wrecd = (struct wlog_rec_disk *)buf; wrec->w_pid = wrecd->w_pid; wrec->w_offset = wrecd->w_offset; wrec->w_nbytes = wrecd->w_nbytes; wrec->w_oflags = wrecd->w_oflags; wrec->w_hostlen = wrecd->w_hostlen; wrec->w_pathlen = wrecd->w_pathlen; wrec->w_patternlen = wrecd->w_patternlen; wrec->w_done = wrecd->w_done; wrec->w_async = wrecd->w_async; if (wrec->w_pathlen > 0) { file = buf + sizeof(struct wlog_rec_disk); memcpy(wrec->w_path, file, wrec->w_pathlen); } if (wrec->w_hostlen > 0) { host = buf + sizeof(struct wlog_rec_disk) + wrec->w_pathlen; memcpy(wrec->w_host, host, wrec->w_hostlen); } if (wrec->w_patternlen > 0) { pattern = buf + sizeof(struct wlog_rec_disk) + wrec->w_pathlen + wrec->w_hostlen; memcpy(wrec->w_pattern, pattern, wrec->w_patternlen); } return 0; }