/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "apr.h" #include "apr_lib.h" #include "apr_strings.h" #include "apr_errno.h" #include "apr_file_io.h" #include "apr_file_info.h" #include "apr_general.h" #include "apr_time.h" #include "apr_getopt.h" #include "apr_thread_proc.h" #include "apr_signal.h" #if APR_FILES_AS_SOCKETS #include "apr_poll.h" #endif #if APR_HAVE_STDLIB_H #include #endif #define APR_WANT_STRFUNC #include "apr_want.h" #define BUFSIZE 65536 #define ROTATE_NONE 0 #define ROTATE_NEW 1 #define ROTATE_TIME 2 #define ROTATE_SIZE 3 #define ROTATE_FORCE 4 static const char *const ROTATE_REASONS[] = { "None", "Open a new file", "Time interval expired", "Maximum size reached", "Forced rotation", NULL }; typedef struct rotate_config rotate_config_t; struct rotate_config { unsigned int sRotation; int tRotation; int utc_offset; int use_localtime; int use_strftime; int force_open; int verbose; int echo; char *szLogRoot; int truncate; const char *linkfile; const char *postrotate_prog; #if APR_FILES_AS_SOCKETS int create_empty; #endif int num_files; int create_path; }; typedef struct rotate_status rotate_status_t; /* "adjusted_time_t" is used to store Unix time (seconds since epoch) * which has been adjusted for some timezone fudge factor. It should * be used for storing the return values from get_now(). A typedef is * used since this type is similar to time_t, but different. */ typedef long adjusted_time_t; /* Structure to contain relevant logfile state: fd, pool and * filename. */ struct logfile { apr_pool_t *pool; apr_file_t *fd; char name[APR_PATH_MAX]; }; struct rotate_status { struct logfile current; /* current logfile. */ apr_pool_t *pool; /* top-level pool */ int rotateReason; adjusted_time_t tLogEnd; int nMessCount; int fileNum; }; static rotate_config_t config; static rotate_status_t status; static void usage(const char *argv0, const char *reason) { if (reason) { fprintf(stderr, "%s\n", reason); } fprintf(stderr, #if APR_FILES_AS_SOCKETS "Usage: %s [-v] [-l] [-L linkname] [-p prog] [-f] [-D] [-t] [-e] [-c] [-n number] " #else "Usage: %s [-v] [-l] [-L linkname] [-p prog] [-f] [-D] [-t] [-e] [-n number] " #endif "{|(B|K|M|G)} " "[offset minutes from UTC]\n\n", argv0); #ifdef OS2 fprintf(stderr, "Add this:\n\nTransferLog \"|%s.exe /some/where 86400\"\n\n", argv0); #else fprintf(stderr, "Add this:\n\nTransferLog \"|%s /some/where 86400\"\n\n", argv0); fprintf(stderr, "or \n\nTransferLog \"|%s /some/where 5M\"\n\n", argv0); #endif fprintf(stderr, "to httpd.conf. By default, the generated name will be\n" ".nnnn where nnnn is the system time at which the log\n" "nominally starts (N.B. if using a rotation time, the time will\n" "always be a multiple of the rotation time, so you can synchronize\n" "cron scripts with it). If contains strftime conversion\n" "specifications, those will be used instead. At the end of each\n" "rotation time or when the file size is reached a new log is\n" "started.\n" "\n" "Options:\n" " -v Verbose operation. Messages are written to stderr.\n" " -l Base rotation on local time instead of UTC.\n" " -L path Create hard link from current log to specified path.\n" " -p prog Run specified program after opening a new log file. See below.\n" " -f Force opening of log on program start.\n" " -D Create parent directories of log file.\n" " -t Truncate logfile instead of rotating, tail friendly.\n" " -e Echo log to stdout for further processing.\n" #if APR_FILES_AS_SOCKETS " -c Create log even if it is empty.\n" #endif " -n num Rotate file by adding suffixes '.1', '.2', ..., '.num'.\n" "\n" "The program for '-p' is invoked as \"[prog] []\"\n" "where is the filename of the newly opened logfile, and\n" ", if given, is the filename of the previously used logfile.\n" "\n"); exit(1); } /* This function returns the current Unix time (time_t) adjusted for * any configured or derived local time offset. The offset applied is * returned via *offset. */ static adjusted_time_t get_now(rotate_config_t *config, apr_int32_t *offset) { apr_time_t tNow = apr_time_now(); apr_int32_t utc_offset; if (config->use_localtime) { /* Check for our UTC offset before using it, since it might * change if there's a switch between standard and daylight * savings time. */ apr_time_exp_t lt; apr_time_exp_lt(<, tNow); utc_offset = lt.tm_gmtoff; } else { utc_offset = config->utc_offset; } if (offset) *offset = utc_offset; return apr_time_sec(tNow) + utc_offset; } /* * Close a file and destroy the associated pool. */ static void close_logfile(rotate_config_t *config, struct logfile *logfile) { if (config->verbose) { fprintf(stderr, "Closing file %s\n", logfile->name); } apr_file_close(logfile->fd); apr_pool_destroy(logfile->pool); } /* * Dump the configuration parsing result to STDERR. */ static void dumpConfig (rotate_config_t *config) { fprintf(stderr, "Rotation time interval: %12d\n", config->tRotation); fprintf(stderr, "Rotation size interval: %12d\n", config->sRotation); fprintf(stderr, "Rotation time UTC offset: %12d\n", config->utc_offset); fprintf(stderr, "Rotation based on localtime: %12s\n", config->use_localtime ? "yes" : "no"); fprintf(stderr, "Rotation file date pattern: %12s\n", config->use_strftime ? "yes" : "no"); fprintf(stderr, "Rotation file forced open: %12s\n", config->force_open ? "yes" : "no"); fprintf(stderr, "Create parent directories: %12s\n", config->create_path ? "yes" : "no"); fprintf(stderr, "Rotation verbose: %12s\n", config->verbose ? "yes" : "no"); #if APR_FILES_AS_SOCKETS fprintf(stderr, "Rotation create empty logs: %12s\n", config->create_empty ? "yes" : "no"); #endif fprintf(stderr, "Rotation file name: %21s\n", config->szLogRoot); fprintf(stderr, "Post-rotation prog: %21s\n", config->postrotate_prog ? config->postrotate_prog : "not used"); } /* * Check whether we need to rotate. * Possible reasons are: * - No log file open (ROTATE_NEW) * - User forces us to rotate (ROTATE_FORCE) * - Our log file size is already bigger than the * allowed maximum (ROTATE_SIZE) * - The next log time interval expired (ROTATE_TIME) * * When size and time constraints are both given, * it suffices that one of them is fulfilled. */ static void checkRotate(rotate_config_t *config, rotate_status_t *status) { if (status->current.fd == NULL) { status->rotateReason = ROTATE_NEW; } else if (config->sRotation) { apr_finfo_t finfo; apr_off_t current_size = -1; if (apr_file_info_get(&finfo, APR_FINFO_SIZE, status->current.fd) == APR_SUCCESS) { current_size = finfo.size; } if (current_size > config->sRotation) { status->rotateReason = ROTATE_SIZE; } else if (config->tRotation) { if (get_now(config, NULL) >= status->tLogEnd) { status->rotateReason = ROTATE_TIME; } } } else if (config->tRotation) { if (get_now(config, NULL) >= status->tLogEnd) { status->rotateReason = ROTATE_TIME; } } else { fprintf(stderr, "No rotation time or size specified\n"); exit(2); } if (status->rotateReason != ROTATE_NONE && config->verbose) { fprintf(stderr, "File rotation needed, reason: %s\n", ROTATE_REASONS[status->rotateReason]); } } /* * Handle post-rotate processing. */ static void post_rotate(apr_pool_t *pool, struct logfile *newlog, rotate_config_t *config, rotate_status_t *status) { apr_status_t rv; apr_procattr_t *pattr; const char *argv[4]; apr_proc_t proc; /* Handle link file, if configured. */ if (config->linkfile) { apr_file_remove(config->linkfile, newlog->pool); if (config->verbose) { fprintf(stderr, "Linking %s to %s\n", newlog->name, config->linkfile); } rv = apr_file_link(newlog->name, config->linkfile); if (rv != APR_SUCCESS) { char *error = apr_psprintf(pool, "Error linking file %s to %s (%pm)\n", newlog->name, config->linkfile, &rv); fputs(error, stderr); exit(2); } } if (!config->postrotate_prog) { /* Nothing more to do. */ return; } /* Collect any zombies from a previous run, but don't wait. */ while (apr_proc_wait_all_procs(&proc, NULL, NULL, APR_NOWAIT, pool) == APR_CHILD_DONE) /* noop */; if ((rv = apr_procattr_create(&pattr, pool)) != APR_SUCCESS) { char *error = apr_psprintf(pool, "post_rotate: apr_procattr_create failed " \ "for '%s': %pm\n", config->postrotate_prog, &rv); fputs(error, stderr); return; } rv = apr_procattr_error_check_set(pattr, 1); if (rv == APR_SUCCESS) rv = apr_procattr_cmdtype_set(pattr, APR_PROGRAM_ENV); if (rv != APR_SUCCESS) { char *error = apr_psprintf(pool, "post_rotate: could not set up process " \ "attributes for '%s': %pm\n", config->postrotate_prog, &rv); fputs(error, stderr); return; } argv[0] = config->postrotate_prog; argv[1] = newlog->name; if (status->current.fd) { argv[2] = status->current.name; argv[3] = NULL; } else { argv[2] = NULL; } if (config->verbose) fprintf(stderr, "Calling post-rotate program: %s\n", argv[0]); rv = apr_proc_create(&proc, argv[0], argv, NULL, pattr, pool); if (rv != APR_SUCCESS) { char *error = apr_psprintf(pool, "Could not spawn post-rotate process " \ "'%s': %pm\n", config->postrotate_prog, &rv); fputs(error, stderr); return; } } /* After a error, truncate the current file and write out an error * message, which must be contained in message. The process is * terminated on failure. */ static void truncate_and_write_error(rotate_status_t *status, const char *message) { apr_size_t buflen = strlen(message); if (apr_file_trunc(status->current.fd, 0) != APR_SUCCESS) { fprintf(stderr, "Error truncating the file %s\n", status->current.name); exit(2); } if (apr_file_write_full(status->current.fd, message, buflen, NULL) != APR_SUCCESS) { fprintf(stderr, "Error writing error (%s) to the file %s\n", message, status->current.name); exit(2); } } /* * Open a new log file, and if successful * also close the old one. * * The timestamp for the calculation of the file * name of the new log file will be the actual millisecond * timestamp, except when a regular rotation based on a time * interval is configured and the previous interval * is over. Then the timestamp is the starting time * of the actual interval. */ static void doRotate(rotate_config_t *config, rotate_status_t *status) { apr_int32_t offset; adjusted_time_t now, tLogStart; apr_status_t rv; struct logfile newlog; int thisLogNum = -1; /* Retrieve local-time-adjusted-Unix-time. */ now = get_now(config, &offset); status->rotateReason = ROTATE_NONE; if (config->tRotation) { adjusted_time_t tLogEnd; tLogStart = (now / config->tRotation) * config->tRotation; tLogEnd = tLogStart + config->tRotation; /* * Check if rotation was forced and the last rotation * interval is not yet over. Use the value of now instead * of the time interval boundary for the file name then. */ if (tLogStart < status->tLogEnd) { tLogStart = now; } status->tLogEnd = tLogEnd; } else { tLogStart = now; } if (config->use_strftime) { apr_time_t tNow = apr_time_from_sec(tLogStart); apr_time_exp_t e; apr_size_t rs; /* Explode the local-time-adjusted-Unix-time into a struct tm, * first *reversing* local-time-adjustment applied by * get_now() if we are using localtime. */ if (config->use_localtime) apr_time_exp_lt(&e, tNow - apr_time_from_sec(offset)); else apr_time_exp_gmt(&e, tNow); apr_strftime(newlog.name, &rs, sizeof(newlog.name), config->szLogRoot, &e); } else { if (config->truncate) { apr_snprintf(newlog.name, sizeof(newlog.name), "%s", config->szLogRoot); } else if (config->num_files > 0) { if (status->fileNum == -1 || status->fileNum == (config->num_files - 1)) { thisLogNum = 0; apr_snprintf(newlog.name, sizeof(newlog.name), "%s", config->szLogRoot); } else { thisLogNum = status->fileNum + 1; apr_snprintf(newlog.name, sizeof(newlog.name), "%s.%d", config->szLogRoot, thisLogNum); } } else { apr_snprintf(newlog.name, sizeof(newlog.name), "%s.%010ld", config->szLogRoot, tLogStart); } } apr_pool_create(&newlog.pool, status->pool); if (config->create_path) { char *ptr = strrchr(newlog.name, '/'); if (ptr && ptr > newlog.name) { char *path = apr_pstrmemdup(newlog.pool, newlog.name, ptr - newlog.name); if (config->verbose) { fprintf(stderr, "Creating directory tree %s\n", path); } rv = apr_dir_make_recursive(path, APR_FPROT_OS_DEFAULT, newlog.pool); if (rv != APR_SUCCESS) { char *error = apr_psprintf(newlog.pool, "Could not create directory '%s' (%pm)\n", path, &rv); fputs(error, stderr); exit(2); } } } if (config->verbose) { fprintf(stderr, "Opening file %s\n", newlog.name); } rv = apr_file_open(&newlog.fd, newlog.name, APR_WRITE | APR_CREATE | APR_APPEND | (config->truncate || (config->num_files > 0 && status->current.fd) ? APR_TRUNCATE : 0), APR_OS_DEFAULT, newlog.pool); if (rv == APR_SUCCESS) { /* Handle post-rotate processing. */ post_rotate(newlog.pool, &newlog, config, status); status->fileNum = thisLogNum; /* Close out old (previously 'current') logfile, if any. */ if (status->current.fd) { close_logfile(config, &status->current); } /* New log file is now 'current'. */ status->current = newlog; } else { char *error = apr_psprintf(newlog.pool, "%pm", &rv); char *message; /* Uh-oh. Failed to open the new log file. Try to clear * the previous log file, note the lost log entries, * and keep on truckin'. */ if (status->current.fd == NULL) { fprintf(stderr, "Could not open log file '%s' (%s)\n", newlog.name, error); exit(2); } /* Try to keep this error message constant length * in case it occurs several times. */ message = apr_psprintf(newlog.pool, "Resetting log file due to error opening " "new log file, %10d messages lost: %-25.25s\n", status->nMessCount, error); truncate_and_write_error(status, message); /* Throw away new state; it isn't going to be used. */ apr_pool_destroy(newlog.pool); } status->nMessCount = 0; } /* * Get a size or time param from a string. * Parameter 'last' indicates, whether the * argument is the last commandline argument. * UTC offset is only allowed as a last argument * in order to make is distinguishable from the * rotation interval time. */ static const char *get_time_or_size(rotate_config_t *config, const char *arg, int last) { char *ptr = NULL; /* Byte multiplier */ unsigned int mult = 1; if ((ptr = strchr(arg, 'B')) != NULL) { /* Found KB size */ mult = 1; } else if ((ptr = strchr(arg, 'K')) != NULL) { /* Found KB size */ mult = 1024; } else if ((ptr = strchr(arg, 'M')) != NULL) { /* Found MB size */ mult = 1024 * 1024; } else if ((ptr = strchr(arg, 'G')) != NULL) { /* Found GB size */ mult = 1024 * 1024 * 1024; } if (ptr) { /* rotation based on file size */ if (config->sRotation > 0) { return "Rotation size parameter allowed only once"; } if (*(ptr+1) == '\0') { config->sRotation = atoi(arg) * mult; } if (config->sRotation == 0) { return "Invalid rotation size parameter"; } } else if ((config->sRotation > 0 || config->tRotation > 0) && last) { /* rotation based on elapsed time */ if (config->use_localtime) { return "UTC offset parameter is not valid with -l"; } config->utc_offset = atoi(arg) * 60; } else { /* rotation based on elapsed time */ if (config->tRotation > 0) { return "Rotation time parameter allowed only once"; } config->tRotation = atoi(arg); if (config->tRotation <= 0) { return "Invalid rotation time parameter"; } } return NULL; } int main (int argc, const char * const argv[]) { char buf[BUFSIZE]; apr_size_t nRead, nWrite; apr_file_t *f_stdin; apr_file_t *f_stdout; apr_getopt_t *opt; apr_status_t rv; char c; const char *opt_arg; const char *err = NULL; #if APR_FILES_AS_SOCKETS apr_pollfd_t pollfd = { 0 }; apr_status_t pollret = APR_SUCCESS; long polltimeout; #endif apr_app_initialize(&argc, &argv, NULL); atexit(apr_terminate); memset(&config, 0, sizeof config); memset(&status, 0, sizeof status); status.rotateReason = ROTATE_NONE; apr_pool_create(&status.pool, NULL); apr_getopt_init(&opt, status.pool, argc, argv); #if APR_FILES_AS_SOCKETS while ((rv = apr_getopt(opt, "lL:p:fDtvecn:", &c, &opt_arg)) == APR_SUCCESS) { #else while ((rv = apr_getopt(opt, "lL:p:fDtven:", &c, &opt_arg)) == APR_SUCCESS) { #endif switch (c) { case 'l': config.use_localtime = 1; break; case 'L': config.linkfile = opt_arg; break; case 'p': config.postrotate_prog = opt_arg; #ifdef SIGCHLD /* Prevent creation of zombies (on modern Unix systems). */ apr_signal(SIGCHLD, SIG_IGN); #endif break; case 'f': config.force_open = 1; break; case 'D': config.create_path = 1; break; case 't': config.truncate = 1; break; case 'v': config.verbose = 1; break; case 'e': config.echo = 1; break; #if APR_FILES_AS_SOCKETS case 'c': config.create_empty = 1; break; #endif case 'n': config.num_files = atoi(opt_arg); status.fileNum = -1; break; } } if (rv != APR_EOF) { usage(argv[0], NULL /* specific error message already issued */ ); } /* * After the initial flags we need 2 to 4 arguments, * the file name, either the rotation interval time or size * or both of them, and optionally the UTC offset. */ if ((argc - opt->ind < 2) || (argc - opt->ind > 4) ) { usage(argv[0], "Incorrect number of arguments"); } rv = apr_filepath_merge(&config.szLogRoot, "", argv[opt->ind++], APR_FILEPATH_TRUENAME, status.pool); if (rv != APR_SUCCESS && rv != APR_EPATHWILD) { usage(argv[0], "Invalid filename given"); } /* Read in the remaining flags, namely time, size and UTC offset. */ for(; opt->ind < argc; opt->ind++) { if ((err = get_time_or_size(&config, argv[opt->ind], opt->ind < argc - 1 ? 0 : 1)) != NULL) { usage(argv[0], err); } } config.use_strftime = (strchr(config.szLogRoot, '%') != NULL); if (config.use_strftime && config.num_files > 0) { fprintf(stderr, "Cannot use -n with %% in filename\n"); exit(1); } if (status.fileNum == -1 && config.num_files < 1) { fprintf(stderr, "Invalid -n argument\n"); exit(1); } if (apr_file_open_stdin(&f_stdin, status.pool) != APR_SUCCESS) { fprintf(stderr, "Unable to open stdin\n"); exit(1); } if (apr_file_open_stdout(&f_stdout, status.pool) != APR_SUCCESS) { fprintf(stderr, "Unable to open stdout\n"); exit(1); } /* * Write out result of config parsing if verbose is set. */ if (config.verbose) { dumpConfig(&config); } #if APR_FILES_AS_SOCKETS if (config.create_empty && config.tRotation) { pollfd.p = status.pool; pollfd.desc_type = APR_POLL_FILE; pollfd.reqevents = APR_POLLIN; pollfd.desc.f = f_stdin; } #endif /* * Immediately open the logfile as we start, if we were forced * to do so via '-f'. */ if (config.force_open) { doRotate(&config, &status); } for (;;) { nRead = sizeof(buf); #if APR_FILES_AS_SOCKETS if (config.create_empty && config.tRotation) { polltimeout = status.tLogEnd ? status.tLogEnd - get_now(&config, NULL) : config.tRotation; if (polltimeout <= 0) { pollret = APR_TIMEUP; } else { pollret = apr_poll(&pollfd, 1, &pollret, apr_time_from_sec(polltimeout)); } } if (pollret == APR_SUCCESS) { rv = apr_file_read(f_stdin, buf, &nRead); if (APR_STATUS_IS_EOF(rv)) { break; } else if (rv != APR_SUCCESS) { exit(3); } } else if (pollret == APR_TIMEUP) { *buf = 0; nRead = 0; } else { fprintf(stderr, "Unable to poll stdin\n"); exit(5); } #else /* APR_FILES_AS_SOCKETS */ rv = apr_file_read(f_stdin, buf, &nRead); if (APR_STATUS_IS_EOF(rv)) { break; } else if (rv != APR_SUCCESS) { exit(3); } #endif /* APR_FILES_AS_SOCKETS */ checkRotate(&config, &status); if (status.rotateReason != ROTATE_NONE) { doRotate(&config, &status); } nWrite = nRead; rv = apr_file_write_full(status.current.fd, buf, nWrite, &nWrite); if (nWrite != nRead) { apr_off_t cur_offset; apr_pool_t *pool; char *error; cur_offset = 0; if (apr_file_seek(status.current.fd, APR_CUR, &cur_offset) != APR_SUCCESS) { cur_offset = -1; } status.nMessCount++; apr_pool_create(&pool, status.pool); error = apr_psprintf(pool, "Error %d writing to log file at offset %" APR_OFF_T_FMT ". %10d messages lost (%pm)\n", rv, cur_offset, status.nMessCount, &rv); truncate_and_write_error(&status, error); apr_pool_destroy(pool); } else { status.nMessCount++; } if (config.echo) { if (apr_file_write_full(f_stdout, buf, nRead, NULL)) { fprintf(stderr, "Unable to write to stdout\n"); exit(4); } } } return 0; /* reached only at stdin EOF. */ }