/* * server.c * * database server functions * * Copyright (c) 2010-2022, PostgreSQL Global Development Group * src/bin/pg_upgrade/server.c */ #include "postgres_fe.h" #include "common/connect.h" #include "fe_utils/string_utils.h" #include "libpq/pqcomm.h" #include "pg_upgrade.h" static PGconn *get_db_conn(ClusterInfo *cluster, const char *db_name); /* * connectToServer() * * Connects to the desired database on the designated server. * If the connection attempt fails, this function logs an error * message and calls exit() to kill the program. */ PGconn * connectToServer(ClusterInfo *cluster, const char *db_name) { PGconn *conn = get_db_conn(cluster, db_name); if (conn == NULL || PQstatus(conn) != CONNECTION_OK) { pg_log(PG_REPORT, "%s", PQerrorMessage(conn)); if (conn) PQfinish(conn); printf(_("Failure, exiting\n")); exit(1); } PQclear(executeQueryOrDie(conn, ALWAYS_SECURE_SEARCH_PATH_SQL)); return conn; } /* * get_db_conn() * * get database connection, using named database + standard params for cluster * * Caller must check for connection failure! */ static PGconn * get_db_conn(ClusterInfo *cluster, const char *db_name) { PQExpBufferData conn_opts; PGconn *conn; /* Build connection string with proper quoting */ initPQExpBuffer(&conn_opts); appendPQExpBufferStr(&conn_opts, "dbname="); appendConnStrVal(&conn_opts, db_name); appendPQExpBufferStr(&conn_opts, " user="); appendConnStrVal(&conn_opts, os_info.user); appendPQExpBuffer(&conn_opts, " port=%d", cluster->port); if (cluster->sockdir) { appendPQExpBufferStr(&conn_opts, " host="); appendConnStrVal(&conn_opts, cluster->sockdir); } conn = PQconnectdb(conn_opts.data); termPQExpBuffer(&conn_opts); return conn; } /* * cluster_conn_opts() * * Return standard command-line options for connecting to this cluster when * using psql, pg_dump, etc. Ideally this would match what get_db_conn() * sets, but the utilities we need aren't very consistent about the treatment * of database name options, so we leave that out. * * Result is valid until the next call to this function. */ char * cluster_conn_opts(ClusterInfo *cluster) { static PQExpBuffer buf; if (buf == NULL) buf = createPQExpBuffer(); else resetPQExpBuffer(buf); if (cluster->sockdir) { appendPQExpBufferStr(buf, "--host "); appendShellString(buf, cluster->sockdir); appendPQExpBufferChar(buf, ' '); } appendPQExpBuffer(buf, "--port %d --username ", cluster->port); appendShellString(buf, os_info.user); return buf->data; } /* * executeQueryOrDie() * * Formats a query string from the given arguments and executes the * resulting query. If the query fails, this function logs an error * message and calls exit() to kill the program. */ PGresult * executeQueryOrDie(PGconn *conn, const char *fmt,...) { static char query[QUERY_ALLOC]; va_list args; PGresult *result; ExecStatusType status; va_start(args, fmt); vsnprintf(query, sizeof(query), fmt, args); va_end(args); pg_log(PG_VERBOSE, "executing: %s\n", query); result = PQexec(conn, query); status = PQresultStatus(result); if ((status != PGRES_TUPLES_OK) && (status != PGRES_COMMAND_OK)) { pg_log(PG_REPORT, "SQL command failed\n%s\n%s", query, PQerrorMessage(conn)); PQclear(result); PQfinish(conn); printf(_("Failure, exiting\n")); exit(1); } else return result; } /* * get_major_server_version() * * gets the version (in unsigned int form) for the given datadir. Assumes * that datadir is an absolute path to a valid pgdata directory. The version * is retrieved by reading the PG_VERSION file. */ uint32 get_major_server_version(ClusterInfo *cluster) { FILE *version_fd; char ver_filename[MAXPGPATH]; int v1 = 0, v2 = 0; snprintf(ver_filename, sizeof(ver_filename), "%s/PG_VERSION", cluster->pgdata); if ((version_fd = fopen(ver_filename, "r")) == NULL) pg_fatal("could not open version file \"%s\": %m\n", ver_filename); if (fscanf(version_fd, "%63s", cluster->major_version_str) == 0 || sscanf(cluster->major_version_str, "%d.%d", &v1, &v2) < 1) pg_fatal("could not parse version file \"%s\"\n", ver_filename); fclose(version_fd); if (v1 < 10) { /* old style, e.g. 9.6.1 */ return v1 * 10000 + v2 * 100; } else { /* new style, e.g. 10.1 */ return v1 * 10000; } } static void stop_postmaster_atexit(void) { stop_postmaster(true); } bool start_postmaster(ClusterInfo *cluster, bool report_and_exit_on_error) { char cmd[MAXPGPATH * 4 + 1000]; PGconn *conn; bool pg_ctl_return = false; char socket_string[MAXPGPATH + 200]; static bool exit_hook_registered = false; if (!exit_hook_registered) { atexit(stop_postmaster_atexit); exit_hook_registered = true; } socket_string[0] = '\0'; #if defined(HAVE_UNIX_SOCKETS) && !defined(WIN32) /* prevent TCP/IP connections, restrict socket access */ strcat(socket_string, " -c listen_addresses='' -c unix_socket_permissions=0700"); /* Have a sockdir? Tell the postmaster. */ if (cluster->sockdir) snprintf(socket_string + strlen(socket_string), sizeof(socket_string) - strlen(socket_string), " -c %s='%s'", (GET_MAJOR_VERSION(cluster->major_version) <= 902) ? "unix_socket_directory" : "unix_socket_directories", cluster->sockdir); #endif /* * Use -b to disable autovacuum. * * Turn off durability requirements to improve object creation speed, and * we only modify the new cluster, so only use it there. If there is a * crash, the new cluster has to be recreated anyway. fsync=off is a big * win on ext4. * * Force vacuum_defer_cleanup_age to 0 on the new cluster, so that * vacuumdb --freeze actually freezes the tuples. */ snprintf(cmd, sizeof(cmd), "\"%s/pg_ctl\" -w -l \"%s/%s\" -D \"%s\" -o \"-p %d -b%s %s%s\" start", cluster->bindir, log_opts.logdir, SERVER_LOG_FILE, cluster->pgconfig, cluster->port, (cluster == &new_cluster) ? " -c synchronous_commit=off -c fsync=off -c full_page_writes=off -c vacuum_defer_cleanup_age=0" : "", cluster->pgopts ? cluster->pgopts : "", socket_string); /* * Don't throw an error right away, let connecting throw the error because * it might supply a reason for the failure. */ pg_ctl_return = exec_prog(SERVER_START_LOG_FILE, /* pass both file names if they differ */ (strcmp(SERVER_LOG_FILE, SERVER_START_LOG_FILE) != 0) ? SERVER_LOG_FILE : NULL, report_and_exit_on_error, false, "%s", cmd); /* Did it fail and we are just testing if the server could be started? */ if (!pg_ctl_return && !report_and_exit_on_error) return false; /* * We set this here to make sure atexit() shuts down the server, but only * if we started the server successfully. We do it before checking for * connectivity in case the server started but there is a connectivity * failure. If pg_ctl did not return success, we will exit below. * * Pre-9.1 servers do not have PQping(), so we could be leaving the server * running if authentication was misconfigured, so someday we might went * to be more aggressive about doing server shutdowns even if pg_ctl * fails, but now (2013-08-14) it seems prudent to be cautious. We don't * want to shutdown a server that might have been accidentally started * during the upgrade. */ if (pg_ctl_return) os_info.running_cluster = cluster; /* * pg_ctl -w might have failed because the server couldn't be started, or * there might have been a connection problem in _checking_ if the server * has started. Therefore, even if pg_ctl failed, we continue and test * for connectivity in case we get a connection reason for the failure. */ if ((conn = get_db_conn(cluster, "template1")) == NULL || PQstatus(conn) != CONNECTION_OK) { pg_log(PG_REPORT, "\n%s", PQerrorMessage(conn)); if (conn) PQfinish(conn); if (cluster == &old_cluster) pg_fatal("could not connect to source postmaster started with the command:\n" "%s\n", cmd); else pg_fatal("could not connect to target postmaster started with the command:\n" "%s\n", cmd); } PQfinish(conn); /* * If pg_ctl failed, and the connection didn't fail, and * report_and_exit_on_error is enabled, fail now. This could happen if * the server was already running. */ if (!pg_ctl_return) { if (cluster == &old_cluster) pg_fatal("pg_ctl failed to start the source server, or connection failed\n"); else pg_fatal("pg_ctl failed to start the target server, or connection failed\n"); } return true; } void stop_postmaster(bool in_atexit) { ClusterInfo *cluster; if (os_info.running_cluster == &old_cluster) cluster = &old_cluster; else if (os_info.running_cluster == &new_cluster) cluster = &new_cluster; else return; /* no cluster running */ exec_prog(SERVER_STOP_LOG_FILE, NULL, !in_atexit, !in_atexit, "\"%s/pg_ctl\" -w -D \"%s\" -o \"%s\" %s stop", cluster->bindir, cluster->pgconfig, cluster->pgopts ? cluster->pgopts : "", in_atexit ? "-m fast" : "-m smart"); os_info.running_cluster = NULL; } /* * check_pghost_envvar() * * Tests that PGHOST does not point to a non-local server */ void check_pghost_envvar(void) { PQconninfoOption *option; PQconninfoOption *start; /* Get valid libpq env vars from the PQconndefaults function */ start = PQconndefaults(); if (!start) pg_fatal("out of memory\n"); for (option = start; option->keyword != NULL; option++) { if (option->envvar && (strcmp(option->envvar, "PGHOST") == 0 || strcmp(option->envvar, "PGHOSTADDR") == 0)) { const char *value = getenv(option->envvar); if (value && strlen(value) > 0 && /* check for 'local' host values */ (strcmp(value, "localhost") != 0 && strcmp(value, "127.0.0.1") != 0 && strcmp(value, "::1") != 0 && !is_unixsock_path(value))) pg_fatal("libpq environment variable %s has a non-local server value: %s\n", option->envvar, value); } } /* Free the memory that libpq allocated on our behalf */ PQconninfoFree(start); }