/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * db_log.cc * * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #ifdef TDRPC #include #endif #include #include "db_headers.h" #include "db_log.h" #include "nisdb_mt.h" static void delete_log_entry(db_log_entry *lentry) { db_query *q; entry_object *obj; if (lentry) { if ((q = lentry->get_query())) { delete q; } if ((obj = lentry->get_object())) { free_entry(obj); } delete lentry; } } /* * Execute given function 'func' on log. * function takes as arguments: pointer to log entry, character pointer to * another argument, and pointer to an integer, which is used as a counter. * 'func' should increment this value for each successful application. * The log is traversed until either 'func' returns FALSE, or when the log * is exhausted. The second argument to 'execute_on_log' is passed as the * second argument to 'func'. The third argument, 'clean' determines whether * the log entry is deleted after the function has been applied. * Returns the number of times that 'func' incremented its third argument. */ int db_log::execute_on_log(bool_t (*func) (db_log_entry *, char *, int *), char* arg, bool_t clean) { db_log_entry *j; int count = 0; bool_t done = FALSE; WRITELOCK(this, 0, "w db_log::execute_on_log"); if (open() == TRUE) { // open log while (!done) { j = get(); if (j == NULL) break; if ((*func)(j, arg, &count) == FALSE) done = TRUE; if (clean) delete_log_entry(j); } sync_log(); close(); } WRITEUNLOCK(this, count, "wu db_log::execute_on_log"); return (count); } static bool_t print_log_entry(db_log_entry *j, char * /* dummy */, int *count) { j->print(); ++ *count; return (TRUE); } /* Print contents of log file to stdout */ int db_log::print() { return (execute_on_log(&(print_log_entry), NULL)); } /* Make copy of current log to log pointed to by 'f'. */ int db_log::copy(db_log *f) { db_log_entry *j; int l, ret = 0; WRITELOCK(f, -1, "w f db_log::copy"); if ((l = acqnonexcl()) != 0) { WRITEUNLOCK(f, l, "wu f db_log::copy"); return (l); } for (;;) { j = get(); if (j == NULL) break; if (f->append(j) < 0) { WARNING_M( "db_log::copy: could not append to log file: "); ret = -1; break; } delete_log_entry(j); } if ((l = relnonexcl()) != 0) { ret = l; } WRITEUNLOCK(f, ret, "wu f db_log::copy"); return (ret); } /* Rewinds current log */ int db_log::rewind() { return (fseek(file, 0L, 0)); } /* * Return the next element in current log; return NULL if end of log or error. * Log must have been opened for READ. */ db_log_entry *db_log::get() { db_log_entry *j; READLOCK(this, NULL, "r db_log::get"); if (mode != PICKLE_READ) { READUNLOCK(this, NULL, "ru db_log::get"); return (NULL); } j = new db_log_entry; if (j == NULL) { READUNLOCK(this, NULL, "ru db_log::get"); return (NULL); } if (xdr_db_log_entry(&(xdr), j) == FALSE) { delete_log_entry (j); /* WARNING("Could not sucessfully finish reading log"); */ READUNLOCK(this, NULL, "ru db_log::get"); return (NULL); } if (! j->sane()) { WARNING("truncated log entry found"); delete_log_entry(j); j = NULL; } READUNLOCK(this, j, "ru db_log::get"); return (j); } /* Append given log entry to log. */ int db_log::append(db_log_entry *j) { int status; WRITELOCK(this, -1, "w db_log::append"); if (mode != PICKLE_APPEND) { WRITEUNLOCK(this, -1, "wu db_log::append"); return (-1); } /* xdr returns TRUE if successful, FALSE otherwise */ status = ((xdr_db_log_entry(&(xdr), j)) ? 0 : -1); if (status < 0) { WARNING("db_log: could not write log entry"); } else { syncstate++; } WRITEUNLOCK(this, status, "wu db_log::append"); return (status); } int copy_log_file(char *oldname, char *newname) { int from, to, ret = 0; ssize_t size, w, b; char buf[8192]; if ((from = open(oldname, O_RDONLY, 0666)) < 0) { if (errno == ENOENT) { return (0); } else { return (errno); } } if ((to = open(newname, O_WRONLY|O_CREAT|O_TRUNC, 0660)) < 0) { ret = errno; (void) close(from); return (ret); } while ((size = read(from, buf, sizeof (buf))) > 0) { b = 0; while (size > 0) { w = write(to, &buf[b], size); if (w < 0) { size == -1; break; } size -= w; b += w; } if (size != 0) { ret = errno; break; } } (void) close(from); if (ret != 0) { errno = ret; WARNING_M("db_log: error copying log file") (void) close(to); return (ret); } if (fsync(to) != 0) { ret = errno; WARNING_M("db_log: error syncing log file"); } (void) close(to); return (ret); } /* * Return value is expected to be the usual C convention of non-zero * for success, 0 for failure. */ int db_log::sync_log() { int status, err; WRITELOCK(this, -1, "w db_log::sync_log"); status = fflush(file); if (status < 0) { WARNING("db_log: could not flush log entry to disk"); WRITEUNLOCK(this, status, "wu db_log::sync_log"); return (status); } status = fsync(fileno(file)); if (status < 0) { WARNING("db_log: could not sync log entry to disk"); } else if (tmplog != 0) { if (syncstate == 0) { /* Log already stable; nothing to do */ err = 0; } else if ((err = copy_log_file(tmplog, stablelog)) == 0) { if (rename(stablelog, oldlog) != 0) { WARNING_M("db_log: could not mv stable log"); } else { syncstate = 0; } } else { errno = err; WARNING_M("db_log: could not stabilize log"); } status = (err == 0); } else { /* * Successful sync of file, but no tmplog to sync * so we make sure we return 'success'. */ status = 1; } WRITEUNLOCK(this, status, "wu db_log::sync_log"); return (status); } int db_log::close() { int ret; WRITELOCK(this, -1, "w db_log::close"); if (mode != PICKLE_READ && oldlog != 0) { if (syncstate != 0) { WARNING("db_log: closing unstable tmp log"); } filename = oldlog; oldlog = 0; } ret = pickle_file::close(); if (tmplog != 0) { (void) unlink(tmplog); delete tmplog; tmplog = 0; } if (stablelog != 0) { delete stablelog; stablelog = 0; } WRITEUNLOCK(this, ret, "wu db_log::close"); return (ret); } bool_t db_log::open(void) { int len, cpstat; bool_t ret; WRITELOCK(this, FALSE, "w db_log::open"); if (mode == PICKLE_READ || (!copylog)) { ret = pickle_file::open(); WRITEUNLOCK(this, ret, "wu db_log::open"); return (ret); } len = strlen(filename); tmplog = new char[len + sizeof (".tmp")]; if (tmplog == 0) { WARNING("db_log: could not allocate tmp log name"); ret = pickle_file::open(); WRITEUNLOCK(this, ret, "wu db_log::open"); return (ret); } stablelog = new char[len + sizeof (".stable")]; if (stablelog == 0) { WARNING("db_log: could not allocate stable log name"); delete tmplog; tmplog = 0; ret = pickle_file::open(); WRITEUNLOCK(this, ret, "wu db_log::open"); return (ret); } sprintf(tmplog, "%s.tmp", filename); sprintf(stablelog, "%s.stable", filename); if ((cpstat = copy_log_file(filename, tmplog)) == 0) { oldlog = filename; filename = tmplog; } else { syslog(LOG_WARNING, "db_log: Error copying \"%s\" to \"%s\": %s", filename, tmplog, strerror(cpstat)); delete tmplog; tmplog = 0; delete stablelog; stablelog = 0; } ret = pickle_file::open(); WRITEUNLOCK(this, ret, "wu db_log::open"); return (ret); }