/* Database file handling routines. * * (C) 2003 Anope Team * Contact us at info@anope.org * * Please read COPYING and README for furhter details. * * Based on the original code of Epona by Lara. * Based on the original code of Services by Andy Church. * * $Id: datafiles.c 863 2005-08-29 14:19:39Z geniusdex $ * */ #include "services.h" #include "datafiles.h" #include static int curday = 0; /*************************************************************************/ /*************************************************************************/ /* Return the version number on the file. Return 0 if there is no version * number or the number doesn't make sense (i.e. less than 1 or greater * than FILE_VERSION). */ int get_file_version(dbFILE * f) { FILE *fp = f->fp; int version = fgetc(fp) << 24 | fgetc(fp) << 16 | fgetc(fp) << 8 | fgetc(fp); if (ferror(fp)) { #ifndef NOT_MAIN log_perror("Error reading version number on %s", f->filename); #endif return 0; } else if (feof(fp)) { #ifndef NOT_MAIN alog("Error reading version number on %s: End of file detected", f->filename); #endif return 0; } else if (version < 1) { #ifndef NOT_MAIN alog("Invalid version number (%d) on %s", version, f->filename); #endif return 0; } return version; } /*************************************************************************/ /* Write the current version number to the file. Return 0 on error, 1 on * success. */ int write_file_version(dbFILE * f, uint32 version) { FILE *fp = f->fp; if (fputc(version >> 24 & 0xFF, fp) < 0 || fputc(version >> 16 & 0xFF, fp) < 0 || fputc(version >> 8 & 0xFF, fp) < 0 || fputc(version & 0xFF, fp) < 0) { #ifndef NOT_MAIN log_perror("Error writing version number on %s", f->filename); #endif return 0; } return 1; } /*************************************************************************/ /*************************************************************************/ static dbFILE *open_db_read(const char *service, const char *filename) { dbFILE *f; FILE *fp; f = scalloc(sizeof(*f), 1); if (!f) { #ifndef NOT_MAIN log_perror("Can't read %s database %s", service, filename); #endif return NULL; } strscpy(f->filename, filename, sizeof(f->filename)); f->mode = 'r'; fp = fopen(f->filename, "rb"); if (!fp) { int errno_save = errno; #ifndef NOT_MAIN if (errno != ENOENT) log_perror("Can't read %s database %s", service, f->filename); #endif free(f); errno = errno_save; return NULL; } f->fp = fp; f->backupfp = NULL; return f; } /*************************************************************************/ static dbFILE *open_db_write(const char *service, const char *filename, uint32 version) { dbFILE *f; int fd; f = scalloc(sizeof(*f), 1); if (!f) { #ifndef NOT_MAIN log_perror("Can't read %s database %s", service, filename); #endif return NULL; } strscpy(f->filename, filename, sizeof(f->filename)); filename = f->filename; f->mode = 'w'; *f->backupname = 0; snprintf(f->backupname, sizeof(f->backupname), "%s.save", filename); if (!*f->backupname || strcmp(f->backupname, filename) == 0) { int errno_save = errno; #ifndef NOT_MAIN alog("Opening %s database %s for write: Filename too long", service, filename); #endif free(f); errno = errno_save; return NULL; } unlink(f->backupname); f->backupfp = fopen(filename, "rb"); if (rename(filename, f->backupname) < 0 && errno != ENOENT) { int errno_save = errno; #ifndef NOT_MAIN static int walloped = 0; if (!walloped) { walloped++; wallops(NULL, "Can't back up %s database %s", service, filename); } errno = errno_save; log_perror("Can't back up %s database %s", service, filename); if (!NoBackupOkay) { #endif if (f->backupfp) fclose(f->backupfp); free(f); errno = errno_save; return NULL; #ifndef NOT_MAIN } #endif *f->backupname = 0; } unlink(filename); /* Use open() to avoid people sneaking a new file in under us */ fd = open(filename, O_WRONLY | O_CREAT | O_EXCL, 0666); f->fp = fdopen(fd, "wb"); /* will fail and return NULL if fd < 0 */ if (!f->fp || !write_file_version(f, version)) { int errno_save = errno; #ifndef NOT_MAIN static int walloped = 0; if (!walloped) { walloped++; wallops(NULL, "Can't write to %s database %s", service, filename); } errno = errno_save; log_perror("Can't write to %s database %s", service, filename); #endif if (f->fp) { fclose(f->fp); unlink(filename); } if (*f->backupname && rename(f->backupname, filename) < 0) #ifndef NOT_MAIN log_perror("Cannot restore backup copy of %s", filename); #else ; #endif errno = errno_save; return NULL; } return f; } /*************************************************************************/ /* Open a database file for reading (*mode == 'r') or writing (*mode == 'w'). * Return the stream pointer, or NULL on error. When opening for write, it * is an error for rename() to return an error (when backing up the original * file) other than ENOENT, if NO_BACKUP_OKAY is not defined; it is an error * if the version number cannot be written to the file; and it is a fatal * error if opening the file for write fails and the backup was successfully * made but cannot be restored. */ dbFILE *open_db(const char *service, const char *filename, const char *mode, uint32 version) { if (*mode == 'r') { return open_db_read(service, filename); } else if (*mode == 'w') { return open_db_write(service, filename, version); } else { errno = EINVAL; return NULL; } } /*************************************************************************/ /* Restore the database file to its condition before open_db(). This is * identical to close_db() for files open for reading; however, for files * open for writing, we first attempt to restore any backup file before * closing files. */ void restore_db(dbFILE * f) { int errno_save = errno; if (f->mode == 'w') { int ok = 0; /* Did we manage to restore the old file? */ errno = errno_save = 0; if (*f->backupname && strcmp(f->backupname, f->filename) != 0) { if (rename(f->backupname, f->filename) == 0) ok = 1; } if (!ok && f->backupfp) { char buf[1024]; int i; ok = 1; if (fseek(f->fp, 0, SEEK_SET) < 0) ok = 0; while (ok && (i = fread(buf, 1, sizeof(buf), f->backupfp)) > 0) { if (fwrite(buf, 1, i, f->fp) != i) ok = 0; } if (ok) { fflush(f->fp); ftruncate(fileno(f->fp), ftell(f->fp)); } } #ifndef NOT_MAIN if (!ok && errno > 0) log_perror("Unable to restore backup of %s", f->filename); #endif errno_save = errno; if (f->backupfp) fclose(f->backupfp); if (*f->backupname) unlink(f->backupname); } fclose(f->fp); if (!errno_save) errno_save = errno; free(f); errno = errno_save; } /*************************************************************************/ /* Close a database file. If the file was opened for write, remove the * backup we (may have) created earlier. */ void close_db(dbFILE * f) { if (f->mode == 'w' && *f->backupname && strcmp(f->backupname, f->filename) != 0) { if (f->backupfp) fclose(f->backupfp); unlink(f->backupname); } fclose(f->fp); free(f); } /*************************************************************************/ /*************************************************************************/ /* Read and write 2- and 4-byte quantities, pointers, and strings. All * multibyte values are stored in big-endian order (most significant byte * first). A pointer is stored as a byte, either 0 if NULL or 1 if not, * and read pointers are returned as either (void *)0 or (void *)1. A * string is stored with a 2-byte unsigned length (including the trailing * \0) first; a length of 0 indicates that the string pointer is NULL. * Written strings are truncated silently at 65534 bytes, and are always * null-terminated. * * All routines return -1 on error, 0 otherwise. */ int read_int16(int16 * ret, dbFILE * f) { int c1, c2; c1 = fgetc(f->fp); c2 = fgetc(f->fp); if (c1 == EOF || c2 == EOF) return -1; *ret = c1 << 8 | c2; return 0; } int read_uint16(uint16 * ret, dbFILE * f) { int c1, c2; c1 = fgetc(f->fp); c2 = fgetc(f->fp); if (c1 == EOF || c2 == EOF) return -1; *ret = c1 << 8 | c2; return 0; } int write_int16(uint16 val, dbFILE * f) { if (fputc((val >> 8) & 0xFF, f->fp) == EOF || fputc(val & 0xFF, f->fp) == EOF) return -1; return 0; } int read_int32(int32 * ret, dbFILE * f) { int c1, c2, c3, c4; c1 = fgetc(f->fp); c2 = fgetc(f->fp); c3 = fgetc(f->fp); c4 = fgetc(f->fp); if (c1 == EOF || c2 == EOF || c3 == EOF || c4 == EOF) return -1; *ret = c1 << 24 | c2 << 16 | c3 << 8 | c4; return 0; } int read_uint32(uint32 * ret, dbFILE * f) { int c1, c2, c3, c4; c1 = fgetc(f->fp); c2 = fgetc(f->fp); c3 = fgetc(f->fp); c4 = fgetc(f->fp); if (c1 == EOF || c2 == EOF || c3 == EOF || c4 == EOF) return -1; *ret = c1 << 24 | c2 << 16 | c3 << 8 | c4; return 0; } int write_int32(uint32 val, dbFILE * f) { if (fputc((val >> 24) & 0xFF, f->fp) == EOF) return -1; if (fputc((val >> 16) & 0xFF, f->fp) == EOF) return -1; if (fputc((val >> 8) & 0xFF, f->fp) == EOF) return -1; if (fputc((val) & 0xFF, f->fp) == EOF) return -1; return 0; } int read_ptr(void **ret, dbFILE * f) { int c; c = fgetc(f->fp); if (c == EOF) return -1; *ret = (c ? (void *) 1 : (void *) 0); return 0; } int write_ptr(const void *ptr, dbFILE * f) { if (fputc(ptr ? 1 : 0, f->fp) == EOF) return -1; return 0; } int read_string(char **ret, dbFILE * f) { char *s; uint16 len; if (read_uint16(&len, f) < 0) return -1; if (len == 0) { *ret = NULL; return 0; } s = scalloc(len, 1); if (len != fread(s, 1, len, f->fp)) { free(s); return -1; } *ret = s; return 0; } int write_string(const char *s, dbFILE * f) { uint32 len; if (!s) return write_int16(0, f); len = strlen(s); if (len > 65534) len = 65534; if (write_int16((uint16) (len + 1), f) < 0) return -1; if (len > 0 && fwrite(s, 1, len, f->fp) != len) return -1; if (fputc(0, f->fp) == EOF) return -1; return 0; } /*************************************************************************/ /*************************************************************************/ /* Renames a database */ static void rename_database(char *name, char *ext) { char destpath[PATH_MAX]; snprintf(destpath, sizeof(destpath), "backups/%s.%s", name, ext); if (rename(name, destpath) != 0) { alog("Backup of %s failed.", name); wallops(s_OperServ, "WARNING! Backup of %s failed.", name); } } /*************************************************************************/ /* Removes old databases */ static void remove_backups(void) { char ext[9]; char path[PATH_MAX]; time_t t; struct tm tm; time(&t); t -= (60 * 60 * 24 * KeepBackups); tm = *localtime(&t); strftime(ext, sizeof(ext), "%Y%m%d", &tm); snprintf(path, sizeof(path), "backups/%s.%s", NickDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", BotDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", ChanDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", OperDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", NewsDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", ExceptionDBName, ext); unlink(path); snprintf(path, sizeof(path), "backups/%s.%s", HostDBName, ext); unlink(path); } /*************************************************************************/ /* Handles database backups. */ void backup_databases(void) { time_t t; struct tm tm; if (!KeepBackups) return; time(&t); tm = *localtime(&t); if (!curday) { curday = tm.tm_yday; return; } if (curday != tm.tm_yday) { char ext[9]; alog("Backing up databases"); remove_backups(); curday = tm.tm_yday; strftime(ext, sizeof(ext), "%Y%m%d", &tm); if (!skeleton) { rename_database(NickDBName, ext); if (s_BotServ) rename_database(BotDBName, ext); rename_database(ChanDBName, ext); if (s_HostServ) rename_database(HostDBName, ext); } rename_database(OperDBName, ext); rename_database(NewsDBName, ext); rename_database(ExceptionDBName, ext); } }