/*------------------------------------------------------------------------- * * common.c * Common support routines for bin/scripts/ * * * Portions Copyright (c) 1996-2018, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/bin/scripts/common.c * *------------------------------------------------------------------------- */ #include "postgres_fe.h" #include #include #include "common.h" #include "fe_utils/connect.h" #include "fe_utils/string_utils.h" static PGcancel *volatile cancelConn = NULL; bool CancelRequested = false; #ifdef WIN32 static CRITICAL_SECTION cancelConnLock; #endif /* * Provide strictly harmonized handling of --help and --version * options. */ void handle_help_version_opts(int argc, char *argv[], const char *fixed_progname, help_handler hlp) { if (argc > 1) { if (strcmp(argv[1], "--help") == 0 || strcmp(argv[1], "-?") == 0) { hlp(get_progname(argv[0])); exit(0); } if (strcmp(argv[1], "--version") == 0 || strcmp(argv[1], "-V") == 0) { printf("%s (PostgreSQL) " PG_VERSION "\n", fixed_progname); exit(0); } } } /* * Make a database connection with the given parameters. * * An interactive password prompt is automatically issued if needed and * allowed by prompt_password. * * If allow_password_reuse is true, we will try to re-use any password * given during previous calls to this routine. (Callers should not pass * allow_password_reuse=true unless reconnecting to the same database+user * as before, else we might create password exposure hazards.) */ PGconn * connectDatabase(const char *dbname, const char *pghost, const char *pgport, const char *pguser, enum trivalue prompt_password, const char *progname, bool echo, bool fail_ok, bool allow_password_reuse) { PGconn *conn; bool new_pass; static bool have_password = false; static char password[100]; if (!allow_password_reuse) have_password = false; if (!have_password && prompt_password == TRI_YES) { simple_prompt("Password: ", password, sizeof(password), false); have_password = true; } /* * Start the connection. Loop until we have a password if requested by * backend. */ do { const char *keywords[7]; const char *values[7]; keywords[0] = "host"; values[0] = pghost; keywords[1] = "port"; values[1] = pgport; keywords[2] = "user"; values[2] = pguser; keywords[3] = "password"; values[3] = have_password ? password : NULL; keywords[4] = "dbname"; values[4] = dbname; keywords[5] = "fallback_application_name"; values[5] = progname; keywords[6] = NULL; values[6] = NULL; new_pass = false; conn = PQconnectdbParams(keywords, values, true); if (!conn) { fprintf(stderr, _("%s: could not connect to database %s: out of memory\n"), progname, dbname); exit(1); } /* * No luck? Trying asking (again) for a password. */ if (PQstatus(conn) == CONNECTION_BAD && PQconnectionNeedsPassword(conn) && prompt_password != TRI_NO) { PQfinish(conn); simple_prompt("Password: ", password, sizeof(password), false); have_password = true; new_pass = true; } } while (new_pass); /* check to see that the backend connection was successfully made */ if (PQstatus(conn) == CONNECTION_BAD) { if (fail_ok) { PQfinish(conn); return NULL; } fprintf(stderr, _("%s: could not connect to database %s: %s"), progname, dbname, PQerrorMessage(conn)); exit(1); } if (PQserverVersion(conn) >= 70300) PQclear(executeQuery(conn, ALWAYS_SECURE_SEARCH_PATH_SQL, progname, echo)); return conn; } /* * Try to connect to the appropriate maintenance database. */ PGconn * connectMaintenanceDatabase(const char *maintenance_db, const char *pghost, const char *pgport, const char *pguser, enum trivalue prompt_password, const char *progname, bool echo) { PGconn *conn; /* If a maintenance database name was specified, just connect to it. */ if (maintenance_db) return connectDatabase(maintenance_db, pghost, pgport, pguser, prompt_password, progname, echo, false, false); /* Otherwise, try postgres first and then template1. */ conn = connectDatabase("postgres", pghost, pgport, pguser, prompt_password, progname, echo, true, false); if (!conn) conn = connectDatabase("template1", pghost, pgport, pguser, prompt_password, progname, echo, false, false); return conn; } /* * Run a query, return the results, exit program on failure. */ PGresult * executeQuery(PGconn *conn, const char *query, const char *progname, bool echo) { PGresult *res; if (echo) printf("%s\n", query); res = PQexec(conn, query); if (!res || PQresultStatus(res) != PGRES_TUPLES_OK) { fprintf(stderr, _("%s: query failed: %s"), progname, PQerrorMessage(conn)); fprintf(stderr, _("%s: query was: %s\n"), progname, query); PQfinish(conn); exit(1); } return res; } /* * As above for a SQL command (which returns nothing). */ void executeCommand(PGconn *conn, const char *query, const char *progname, bool echo) { PGresult *res; if (echo) printf("%s\n", query); res = PQexec(conn, query); if (!res || PQresultStatus(res) != PGRES_COMMAND_OK) { fprintf(stderr, _("%s: query failed: %s"), progname, PQerrorMessage(conn)); fprintf(stderr, _("%s: query was: %s\n"), progname, query); PQfinish(conn); exit(1); } PQclear(res); } /* * As above for a SQL maintenance command (returns command success). * Command is executed with a cancel handler set, so Ctrl-C can * interrupt it. */ bool executeMaintenanceCommand(PGconn *conn, const char *query, bool echo) { PGresult *res; bool r; if (echo) printf("%s\n", query); SetCancelConn(conn); res = PQexec(conn, query); ResetCancelConn(); r = (res && PQresultStatus(res) == PGRES_COMMAND_OK); if (res) PQclear(res); return r; } /* * Split TABLE[(COLUMNS)] into TABLE and [(COLUMNS)] portions. When you * finish using them, pg_free(*table). *columns is a pointer into "spec", * possibly to its NUL terminator. */ static void split_table_columns_spec(const char *spec, int encoding, char **table, const char **columns) { bool inquotes = false; const char *cp = spec; /* * Find the first '(' not identifier-quoted. Based on * dequote_downcase_identifier(). */ while (*cp && (*cp != '(' || inquotes)) { if (*cp == '"') { if (inquotes && cp[1] == '"') cp++; /* pair does not affect quoting */ else inquotes = !inquotes; cp++; } else cp += PQmblen(cp, encoding); } *table = pg_strdup(spec); (*table)[cp - spec] = '\0'; /* no strndup */ *columns = cp; } /* * Break apart TABLE[(COLUMNS)] of "spec". With the reset_val of search_path * in effect, have regclassin() interpret the TABLE portion. Append to "buf" * the qualified name of TABLE, followed by any (COLUMNS). Exit on failure. * We use this to interpret --table=foo under the search path psql would get, * in advance of "ANALYZE public.foo" under the always-secure search path. */ void appendQualifiedRelation(PQExpBuffer buf, const char *spec, PGconn *conn, const char *progname, bool echo) { char *table; const char *columns; PQExpBufferData sql; PGresult *res; int ntups; /* Before 7.3, the concept of qualifying a name did not exist. */ if (PQserverVersion(conn) < 70300) { appendPQExpBufferStr(&sql, spec); return; } split_table_columns_spec(spec, PQclientEncoding(conn), &table, &columns); /* * Query must remain ABSOLUTELY devoid of unqualified names. This would * be unnecessary given a regclassin() variant taking a search_path * argument. */ initPQExpBuffer(&sql); appendPQExpBufferStr(&sql, "SELECT c.relname, ns.nspname\n" " FROM pg_catalog.pg_class c," " pg_catalog.pg_namespace ns\n" " WHERE c.relnamespace OPERATOR(pg_catalog.=) ns.oid\n" " AND c.oid OPERATOR(pg_catalog.=) "); appendStringLiteralConn(&sql, table, conn); appendPQExpBufferStr(&sql, "::pg_catalog.regclass;"); executeCommand(conn, "RESET search_path", progname, echo); /* * One row is a typical result, as is a nonexistent relation ERROR. * regclassin() unconditionally accepts all-digits input as an OID; if no * relation has that OID; this query returns no rows. Catalog corruption * might elicit other row counts. */ res = executeQuery(conn, sql.data, progname, echo); ntups = PQntuples(res); if (ntups != 1) { fprintf(stderr, ngettext("%s: query returned %d row instead of one: %s\n", "%s: query returned %d rows instead of one: %s\n", ntups), progname, ntups, sql.data); PQfinish(conn); exit(1); } appendPQExpBufferStr(buf, fmtQualifiedId(PQserverVersion(conn), PQgetvalue(res, 0, 1), PQgetvalue(res, 0, 0))); appendPQExpBufferStr(buf, columns); PQclear(res); termPQExpBuffer(&sql); pg_free(table); PQclear(executeQuery(conn, ALWAYS_SECURE_SEARCH_PATH_SQL, progname, echo)); } /* * Check yes/no answer in a localized way. 1=yes, 0=no, -1=neither. */ /* translator: abbreviation for "yes" */ #define PG_YESLETTER gettext_noop("y") /* translator: abbreviation for "no" */ #define PG_NOLETTER gettext_noop("n") bool yesno_prompt(const char *question) { char prompt[256]; /*------ translator: This is a question followed by the translated options for "yes" and "no". */ snprintf(prompt, sizeof(prompt), _("%s (%s/%s) "), _(question), _(PG_YESLETTER), _(PG_NOLETTER)); for (;;) { char resp[10]; simple_prompt(prompt, resp, sizeof(resp), true); if (strcmp(resp, _(PG_YESLETTER)) == 0) return true; if (strcmp(resp, _(PG_NOLETTER)) == 0) return false; printf(_("Please answer \"%s\" or \"%s\".\n"), _(PG_YESLETTER), _(PG_NOLETTER)); } } /* * SetCancelConn * * Set cancelConn to point to the current database connection. */ void SetCancelConn(PGconn *conn) { PGcancel *oldCancelConn; #ifdef WIN32 EnterCriticalSection(&cancelConnLock); #endif /* Free the old one if we have one */ oldCancelConn = cancelConn; /* be sure handle_sigint doesn't use pointer while freeing */ cancelConn = NULL; if (oldCancelConn != NULL) PQfreeCancel(oldCancelConn); cancelConn = PQgetCancel(conn); #ifdef WIN32 LeaveCriticalSection(&cancelConnLock); #endif } /* * ResetCancelConn * * Free the current cancel connection, if any, and set to NULL. */ void ResetCancelConn(void) { PGcancel *oldCancelConn; #ifdef WIN32 EnterCriticalSection(&cancelConnLock); #endif oldCancelConn = cancelConn; /* be sure handle_sigint doesn't use pointer while freeing */ cancelConn = NULL; if (oldCancelConn != NULL) PQfreeCancel(oldCancelConn); #ifdef WIN32 LeaveCriticalSection(&cancelConnLock); #endif } #ifndef WIN32 /* * Handle interrupt signals by canceling the current command, if a cancelConn * is set. */ static void handle_sigint(SIGNAL_ARGS) { int save_errno = errno; char errbuf[256]; /* Send QueryCancel if we are processing a database query */ if (cancelConn != NULL) { if (PQcancel(cancelConn, errbuf, sizeof(errbuf))) { CancelRequested = true; fprintf(stderr, _("Cancel request sent\n")); } else fprintf(stderr, _("Could not send cancel request: %s"), errbuf); } else CancelRequested = true; errno = save_errno; /* just in case the write changed it */ } void setup_cancel_handler(void) { pqsignal(SIGINT, handle_sigint); } #else /* WIN32 */ /* * Console control handler for Win32. Note that the control handler will * execute on a *different thread* than the main one, so we need to do * proper locking around those structures. */ static BOOL WINAPI consoleHandler(DWORD dwCtrlType) { char errbuf[256]; if (dwCtrlType == CTRL_C_EVENT || dwCtrlType == CTRL_BREAK_EVENT) { /* Send QueryCancel if we are processing a database query */ EnterCriticalSection(&cancelConnLock); if (cancelConn != NULL) { if (PQcancel(cancelConn, errbuf, sizeof(errbuf))) { fprintf(stderr, _("Cancel request sent\n")); CancelRequested = true; } else fprintf(stderr, _("Could not send cancel request: %s"), errbuf); } else CancelRequested = true; LeaveCriticalSection(&cancelConnLock); return TRUE; } else /* Return FALSE for any signals not being handled */ return FALSE; } void setup_cancel_handler(void) { InitializeCriticalSection(&cancelConnLock); SetConsoleCtrlHandler(consoleHandler, TRUE); } #endif /* WIN32 */