/* * psql - the PostgreSQL interactive terminal * * Copyright 2000 by PostgreSQL Global Development Group * * $Header: /cvsroot/pgsql/src/bin/psql/command.c,v 1.19 2000/02/16 13:15:26 momjian Exp $ */ #include "postgres.h" #include "command.h" #include #include #include #ifndef WIN32 #include /* for umask() */ #include /* for umask(), stat() */ #include /* for geteuid(), getpid(), stat() */ #else #include #endif #include "libpq-fe.h" #include "pqexpbuffer.h" #include "common.h" #include "copy.h" #include "describe.h" #include "help.h" #include "input.h" #include "large_obj.h" #include "mainloop.h" #include "print.h" #include "settings.h" #include "variables.h" /* functions for use in this file */ static backslashResult exec_command(const char *cmd, const char *options_string, const char ** continue_parse, PQExpBuffer query_buf); enum option_type { OT_NORMAL, OT_SQLID }; static char * scan_option(char ** string, enum option_type type, char * quote); static char * unescape(const unsigned char *source, size_t len); static bool do_edit(const char *filename_arg, PQExpBuffer query_buf); static bool do_connect(const char *new_dbname, const char *new_user); static bool do_shell(const char *command); /*---------- * HandleSlashCmds: * * Handles all the different commands that start with '\', * ordinarily called by MainLoop(). * * 'line' is the current input line, which should not start with a '\' * but with the actual command name * (that is taken care of by MainLoop) * * 'query_buf' contains the query-so-far, which may be modified by * execution of the backslash command (for example, \r clears it) * query_buf can be NULL if there is no query so far. * * Returns a status code indicating what action is desired, see command.h. *---------- */ backslashResult HandleSlashCmds(const char *line, PQExpBuffer query_buf, const char **end_of_cmd) { backslashResult status = CMD_SKIP_LINE; char *my_line; char *options_string = NULL; size_t blank_loc; const char *continue_parse = NULL; /* tell the mainloop where the * backslash command ended */ #ifdef USE_ASSERT_CHECKING assert(line); assert(end_of_cmd); #endif my_line = xstrdup(line); /* * Find the first whitespace. line[blank_loc] will now * be the whitespace character or the \0 at the end * * Also look for a backslash, so stuff like \p\g works. */ blank_loc = strcspn(my_line, " \t\\"); if (my_line[blank_loc] == '\\') { continue_parse = &my_line[blank_loc]; my_line[blank_loc] = '\0'; } /* do we have an option string? */ else if (my_line[blank_loc] != '\0') { options_string = &my_line[blank_loc + 1]; my_line[blank_loc] = '\0'; } status = exec_command(my_line, options_string, &continue_parse, query_buf); if (status == CMD_UNKNOWN) { /* * If the command was not recognized, try inserting a space after the * first letter and call again. The one letter commands allow arguments * to start immediately after the command, but that is no longer * encouraged. */ char new_cmd[2]; new_cmd[0] = my_line[0]; new_cmd[1] = '\0'; status = exec_command(new_cmd, my_line + 1, &continue_parse, query_buf); if (status != CMD_UNKNOWN && isalpha(new_cmd[0])) psql_error("Warning: this syntax is deprecated\n"); } if (status == CMD_UNKNOWN) { if (pset.cur_cmd_interactive) fprintf(stderr, "Invalid command \\%s. Try \\? for help.\n", my_line); else psql_error("invalid command \\%s\n", my_line); status = CMD_ERROR; } if (continue_parse && *continue_parse && *(continue_parse + 1) == '\\') continue_parse += 2; if (continue_parse) *end_of_cmd = line + (continue_parse - my_line); else *end_of_cmd = line + strlen(line); free(my_line); return status; } static backslashResult exec_command(const char *cmd, const char *options_string, const char ** continue_parse, PQExpBuffer query_buf) { bool success = true; /* indicate here if the command ran ok or * failed */ bool quiet = QUIET(); backslashResult status = CMD_SKIP_LINE; char *string, *string_cpy; /* * The 'string' variable will be overwritten to point to the next token, * hence we need an extra pointer so we can free this at the end. */ if (options_string) string = string_cpy = xstrdup(options_string); else string = string_cpy = NULL; /* \a -- toggle field alignment This makes little sense but we keep it around. */ if (strcmp(cmd, "a") == 0) { if (pset.popt.topt.format != PRINT_ALIGNED) success = do_pset("format", "aligned", &pset.popt, quiet); else success = do_pset("format", "unaligned", &pset.popt, quiet); } /* \C -- override table title (formerly change HTML caption) */ else if (strcmp(cmd, "C") == 0) { char * opt = scan_option(&string, OT_NORMAL, NULL); success = do_pset("title", opt, &pset.popt, quiet); free(opt); } /*---------- * \c or \connect -- connect to new database or as different user * * \c foo bar connect to db "foo" as user "bar" * \c foo [-] connect to db "foo" as current user * \c - bar connect to current db as user "bar" * \c connect to default db as default user *---------- */ else if (strcmp(cmd, "c") == 0 || strcmp(cmd, "connect") == 0) { char *opt1, *opt2; char opt1q, opt2q; opt1 = scan_option(&string, OT_NORMAL, &opt1q); opt2 = scan_option(&string, OT_NORMAL, &opt2q); if (opt2) /* gave username */ success = do_connect(!opt1q && (strcmp(opt1, "-")==0 || strcmp(opt1, "")==0) ? "" : opt1, !opt2q && (strcmp(opt2, "-")==0 || strcmp(opt2, "")==0) ? "" : opt2); else if (opt1) /* gave database name */ success = do_connect(!opt1q && (strcmp(opt1, "-")==0 || strcmp(opt1, "")==0) ? "" : opt1, ""); else /* connect to default db as default user */ success = do_connect(NULL, NULL); free(opt1); free(opt2); } /* \copy */ else if (strcasecmp(cmd, "copy") == 0) { success = do_copy(options_string); if (options_string) string += strlen(string); } /* \copyright */ else if (strcmp(cmd, "copyright") == 0) print_copyright(); /* \d* commands */ else if (cmd[0] == 'd') { char * name; bool show_verbose; name = scan_option(&string, OT_SQLID, NULL); show_verbose = strchr(cmd, '+') ? true : false; switch (cmd[1]) { case '\0': case '+': if (name) success = describeTableDetails(name, show_verbose); else /* standard listing of interesting things */ success = listTables("tvs", NULL, show_verbose); break; case 'a': success = describeAggregates(name); break; case 'd': success = objectDescription(name); break; case 'f': success = describeFunctions(name, show_verbose); break; case 'l': success = do_lo_list(); break; case 'o': success = describeOperators(name); break; case 'p': success = permissionsList(name); break; case 'T': success = describeTypes(name, show_verbose); break; case 't': case 'v': case 'i': case 's': case 'S': if (cmd[1] == 'S' && cmd[2] == '\0') success = listTables("Stvs", NULL, show_verbose); else success = listTables(&cmd[1], name, show_verbose); break; default: status = CMD_UNKNOWN; } free(name); } /* * \e or \edit -- edit the current query buffer (or a file and make it * the query buffer */ else if (strcmp(cmd, "e") == 0 || strcmp(cmd, "edit") == 0) { char * fname; if (!query_buf) { psql_error("no query buffer"); status = CMD_ERROR; } else { fname = scan_option(&string, OT_NORMAL, NULL); status = do_edit(fname, query_buf) ? CMD_NEWEDIT : CMD_ERROR; free(fname); } } /* \echo and \qecho */ else if (strcmp(cmd, "echo") == 0 || strcmp(cmd, "qecho")==0) { char * value; char quoted; bool no_newline = false; bool first = true; FILE * fout; if (strcmp(cmd, "qecho")==0) fout = pset.queryFout; else fout = stdout; while((value = scan_option(&string, OT_NORMAL, "ed))) { if (!quoted && strcmp(value, "-n")==0) no_newline = true; else { if (first) first = false; else fputc(' ', fout); fputs(value, fout); } free(value); } if (!no_newline) fputs("\n", fout); } /* \f -- change field separator */ else if (strcmp(cmd, "f") == 0) { char * fname = scan_option(&string, OT_NORMAL, NULL); success = do_pset("fieldsep", fname, &pset.popt, quiet); free(fname); } /* \g means send query */ else if (strcmp(cmd, "g") == 0) { char * fname = scan_option(&string, OT_NORMAL, NULL); if (!fname) pset.gfname = NULL; else pset.gfname = xstrdup(fname); free(fname); status = CMD_SEND; } /* help */ else if (strcmp(cmd, "h") == 0 || strcmp(cmd, "help") == 0) { helpSQL(options_string ? &options_string[strspn(options_string, " \t")] : NULL); /* set pointer to end of line */ if (string) string += strlen(string); } /* HTML mode */ else if (strcmp(cmd, "H") == 0 || strcmp(cmd, "html") == 0) { if (pset.popt.topt.format != PRINT_HTML) success = do_pset("format", "html", &pset.popt, quiet); else success = do_pset("format", "aligned", &pset.popt, quiet); } /* \i is include file */ else if (strcmp(cmd, "i") == 0 || strcmp(cmd, "include") == 0) { char * fname = scan_option(&string, OT_NORMAL, NULL); if (!fname) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else { success = process_file(fname); free (fname); } } /* \l is list databases */ else if (strcmp(cmd, "l") == 0 || strcmp(cmd, "list") == 0) success = listAllDbs(false); else if (strcmp(cmd, "l+") == 0 || strcmp(cmd, "list+") == 0) success = listAllDbs(true); /* * large object things */ else if (strncmp(cmd, "lo_", 3) == 0) { char *opt1, *opt2; opt1 = scan_option(&string, OT_NORMAL, NULL); opt2 = scan_option(&string, OT_NORMAL, NULL); if (strcmp(cmd + 3, "export") == 0) { if (!opt2) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else success = do_lo_export(opt1, opt2); } else if (strcmp(cmd + 3, "import") == 0) { if (!opt1) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else success = do_lo_import(opt1, opt2); } else if (strcmp(cmd + 3, "list") == 0) success = do_lo_list(); else if (strcmp(cmd + 3, "unlink") == 0) { if (!opt1) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else success = do_lo_unlink(opt1); } else status = CMD_UNKNOWN; free(opt1); free(opt2); } /* \o -- set query output */ else if (strcmp(cmd, "o") == 0 || strcmp(cmd, "out") == 0) { char * fname = scan_option(&string, OT_NORMAL, NULL); success = setQFout(fname); free(fname); } /* \p prints the current query buffer */ else if (strcmp(cmd, "p") == 0 || strcmp(cmd, "print") == 0) { if (query_buf && query_buf->len > 0) puts(query_buf->data); else if (!quiet) puts("Query buffer is empty."); fflush(stdout); } /* \pset -- set printing parameters */ else if (strcmp(cmd, "pset") == 0) { char * opt0 = scan_option(&string, OT_NORMAL, NULL); char * opt1 = scan_option(&string, OT_NORMAL, NULL); if (!opt0) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else success = do_pset(opt0, opt1, &pset.popt, quiet); free(opt0); free(opt1); } /* \q or \quit */ else if (strcmp(cmd, "q") == 0 || strcmp(cmd, "quit") == 0) status = CMD_TERMINATE; /* reset(clear) the buffer */ else if (strcmp(cmd, "r") == 0 || strcmp(cmd, "reset") == 0) { resetPQExpBuffer(query_buf); if (!quiet) puts("Query buffer reset (cleared)."); } /* \s save history in a file or show it on the screen */ else if (strcmp(cmd, "s") == 0) { char *fname = scan_option(&string, OT_NORMAL, NULL); success = saveHistory(fname ? fname : "/dev/tty"); if (success && !quiet && fname) printf("Wrote history to %s.\n", fname); free(fname); } /* \set -- generalized set variable/option command */ else if (strcmp(cmd, "set") == 0) { char * opt0 = scan_option(&string, OT_NORMAL, NULL); if (!opt0) { /* list all variables */ /* * XXX * This is in utter violation of the GetVariable abstraction, but I * have not bothered to do it better. */ struct _variable *ptr; for (ptr = pset.vars; ptr->next; ptr = ptr->next) fprintf(stdout, "%s = '%s'\n", ptr->next->name, ptr->next->value); success = true; } else { /* * Set variable to the concatenation of the arguments. */ char * newval = NULL; char * opt; opt = scan_option(&string, OT_NORMAL, NULL); newval = xstrdup(opt ? opt : ""); free(opt); while ((opt = scan_option(&string, OT_NORMAL, NULL))) { newval = realloc(newval, strlen(newval) + strlen(opt) + 1); if (!newval) { psql_error("out of memory"); exit(EXIT_FAILURE); } strcat(newval, opt); free(opt); } if (!SetVariable(pset.vars, opt0, newval)) { psql_error("\\%s: error\n", cmd); success = false; } free(newval); } free(opt0); } /* \t -- turn off headers and row count */ else if (strcmp(cmd, "t") == 0) success = do_pset("tuples_only", NULL, &pset.popt, quiet); /* \T -- define html attributes */ else if (strcmp(cmd, "T") == 0) { char * value = scan_option(&string, OT_NORMAL, NULL); success = do_pset("tableattr", value, &pset.popt, quiet); free(value); } /* \unset */ else if (strcmp(cmd, "unset") == 0) { char * opt = scan_option(&string, OT_NORMAL, NULL); if (!opt) { psql_error("\\%s: missing required argument", cmd); success = false; } if (!SetVariable(pset.vars, opt, NULL)) { psql_error("\\%s: error\n", cmd); success = false; } free(opt); } /* \w -- write query buffer to file */ else if (strcmp(cmd, "w") == 0 || strcmp(cmd, "write") == 0) { FILE *fd = NULL; bool is_pipe = false; char *fname = NULL; if (!query_buf) { psql_error("no query buffer"); status = CMD_ERROR; } else { fname = scan_option(&string, OT_NORMAL, NULL); if (!fname) { psql_error("\\%s: missing required argument\n", cmd); success = false; } else { if (fname[0] == '|') { is_pipe = true; fd = popen(&fname[1], "w"); } else fd = fopen(fname, "w"); if (!fd) { psql_error("%s: %s\n", fname, strerror(errno)); success = false; } } } if (fd) { int result; if (query_buf && query_buf->len > 0) fprintf(fd, "%s\n", query_buf->data); if (is_pipe) result = pclose(fd); else result = fclose(fd); if (result == EOF) { psql_error("%s: %s\n", fname, strerror(errno)); success = false; } } free(fname); } /* \x -- toggle expanded table representation */ else if (strcmp(cmd, "x") == 0) success = do_pset("expanded", NULL, &pset.popt, quiet); /* \z -- list table rights (grant/revoke) */ else if (strcmp(cmd, "z") == 0) { char * opt = scan_option(&string, OT_SQLID, NULL); success = permissionsList(opt); free(opt); } /* \! -- shell escape */ else if (strcmp(cmd, "!") == 0) { success = do_shell(options_string); /* wind pointer to end of line */ if (string) string += strlen(string); } /* \? -- slash command help */ else if (strcmp(cmd, "?") == 0) slashUsage(); #if 1 /* * These commands don't do anything. I just use them to test the * parser. */ else if (strcmp(cmd, "void") == 0 || strcmp(cmd, "#") == 0) { int i = 0; char *value; fprintf(stderr, "+ optstr = |%s|\n", options_string); while((value = scan_option(&string, OT_NORMAL, NULL))) { fprintf(stderr, "+ opt(%d) = |%s|\n", i++, value); free(value); } } #endif else status = CMD_UNKNOWN; if (!success) status = CMD_ERROR; /* eat the rest of the options string */ while(scan_option(&string, OT_NORMAL, NULL)) ; if (options_string && continue_parse) *continue_parse = options_string + (string - string_cpy); free(string_cpy); return status; } /* * scan_option() */ static char * scan_option(char ** string, enum option_type type, char * quote) { unsigned int pos = 0; char * options_string; char * return_val; if (quote) *quote = 0; if (!string || !(*string)) return NULL; options_string = *string; /* skip leading whitespace */ pos += strspn(options_string+pos, " \t"); switch (options_string[pos]) { /* * Double quoted string */ case '"': { unsigned int jj; unsigned short int bslash_count = 0; /* scan for end of quote */ for (jj = pos+1; options_string[jj]; jj += PQmblen(&options_string[jj], pset.encoding)) { if (options_string[jj] == '"' && bslash_count % 2 == 0) break; if (options_string[jj] == '\\') bslash_count++; else bslash_count=0; } if (options_string[jj] == 0) { psql_error("parse error at end of line\n"); *string = &options_string[jj]; return NULL; } return_val = malloc(jj-pos+2); if (!return_val) { psql_error("out of memory\n"); exit(EXIT_FAILURE); } if (type == OT_NORMAL) { strncpy(return_val, &options_string[pos], jj-pos+1); return_val[jj-pos+1] = '\0'; } /* * If this is expected to be an SQL identifier like option * then we strip out the double quotes */ else if (type == OT_SQLID) { unsigned int k, cc; bslash_count = 0; cc = 0; for (k = pos+1; options_string[k]; k += PQmblen(&options_string[k], pset.encoding)) { if (options_string[k] == '"' && bslash_count % 2 == 0) break; if (options_string[jj] == '\\') bslash_count++; else bslash_count=0; return_val[cc++] = options_string[k]; } return_val[cc] = '\0'; } *string = options_string + jj+1; if (quote) *quote = '"'; return return_val; } /* * A single quote has a psql internal meaning, such as * for delimiting file names, and it also allows for such * escape sequences as \t. */ case '\'': { unsigned int jj; unsigned short int bslash_count = 0; for (jj = pos+1; options_string[jj]; jj += PQmblen(&options_string[jj], pset.encoding)) { if (options_string[jj] == '\'' && bslash_count % 2 == 0) break; if (options_string[jj] == '\\') bslash_count++; else bslash_count=0; } if (options_string[jj] == 0) { psql_error("parse error at end of line\n"); *string = &options_string[jj]; return NULL; } return_val = unescape(&options_string[pos+1], jj-pos-1); *string = &options_string[jj + 1]; if (quote) *quote = '\''; return return_val; } /* * Backticks are for command substitution, like in shells */ case '`': { bool error = false; FILE *fd = NULL; char *file; PQExpBufferData output; char buf[512]; size_t result, len; len = strcspn(options_string + pos + 1, "`"); if (options_string[pos + 1 + len] == 0) { psql_error("parse error at end of line\n"); *string = &options_string[pos + 1 + len]; return NULL; } options_string[pos + 1 + len] = '\0'; file = options_string + pos + 1; fd = popen(file, "r"); if (!fd) { psql_error("%s: %s\n", file, strerror(errno)); error = true; } if (!error) { initPQExpBuffer(&output); do { result = fread(buf, 1, 512, fd); if (ferror(fd)) { psql_error("%s: %s\n", file, strerror(errno)); error = true; break; } appendBinaryPQExpBuffer(&output, buf, result); } while (!feof(fd)); appendPQExpBufferChar(&output, '\0'); if (pclose(fd) == -1) { psql_error("%s: %s\n", file, strerror(errno)); error = true; } } if (!error) { if (output.data[strlen(output.data) - 1] == '\n') output.data[strlen(output.data) - 1] = '\0'; } if (!error) return_val = output.data; else { return_val = xstrdup(""); termPQExpBuffer(&output); } options_string[pos + 1 + len] = '`'; *string = options_string + pos + len + 2; if (quote) *quote = '`'; return return_val; } /* * end of line */ case 0: *string = &options_string[pos]; return NULL; /* * Variable substitution */ case ':': { size_t token_end; const char * value; char save_char; token_end = strcspn(&options_string[pos+1], " \t"); save_char = options_string[pos+token_end+1]; options_string[pos+token_end+1] = '\0'; value = GetVariable(pset.vars, options_string+pos+1); if (!value) value = ""; return_val = xstrdup(value); options_string[pos+token_end+1] = save_char; *string = &options_string[pos + token_end+1]; return return_val; } /* * Next command */ case '\\': *string = options_string + pos; return NULL; break; /* * A normal word */ default: { size_t token_end; char * cp; token_end = strcspn(&options_string[pos], " \t"); return_val = malloc(token_end + 1); if (!return_val) { psql_error("out of memory\n"); exit(EXIT_FAILURE); } strncpy(return_val, &options_string[pos], token_end); return_val[token_end] = 0; if (type == OT_SQLID) for (cp = return_val; *cp; cp += PQmblen(cp, pset.encoding)) if (isascii(*cp)) *cp = tolower(*cp); *string = &options_string[pos+token_end]; return return_val; } } } /* * unescape * * Replaces \n, \t, and the like. * * The return value is malloc()'ed. */ static char * unescape(const unsigned char *source, size_t len) { const unsigned char *p; bool esc = false; /* Last character we saw was the escape * character */ char *destination, *tmp; size_t length; #ifdef USE_ASSERT_CHECKING assert(source); #endif length = Min(len, strlen(source)) + 1; tmp = destination = malloc(length); if (!tmp) { psql_error("out of memory\n"); exit(EXIT_FAILURE); } for (p = source; p-source < len && *p; p += PQmblen(p, pset.encoding)) { if (esc) { char c; switch (*p) { case 'n': c = '\n'; break; case 't': c = '\t'; break; case 'b': c = '\b'; break; case 'r': c = '\r'; break; case 'f': c = '\f'; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': { long int l; char *end; l = strtol(p, &end, 0); c = l; p = end - 1; break; } default: c = *p; } *tmp++ = c; esc = false; } else if (*p == '\\') esc = true; else { *tmp++ = *p; esc = false; } } *tmp = '\0'; return destination; } /* do_connect * -- handler for \connect * * Connects to a database (new_dbname) as a certain user (new_user). * The new user can be NULL. A db name of "-" is the same as the old one. * (That is, the one currently in pset. But pset.db can also be NULL. A NULL * dbname is handled by libpq.) * Returns true if all ok, false if the new connection couldn't be established * but the old one was set back. Otherwise it terminates the program. */ static bool do_connect(const char *new_dbname, const char *new_user) { PGconn *oldconn = pset.db; const char *dbparam = NULL; const char *userparam = NULL; const char *pwparam = NULL; char *prompted_password = NULL; bool need_pass; bool success = false; /* Delete variables (in case we fail before setting them anew) */ SetVariable(pset.vars, "DBNAME", NULL); SetVariable(pset.vars, "USER", NULL); SetVariable(pset.vars, "HOST", NULL); SetVariable(pset.vars, "PORT", NULL); /* If dbname is "" then use old name, else new one (even if NULL) */ if (oldconn && new_dbname && PQdb(oldconn) && strcmp(new_dbname, "") == 0) dbparam = PQdb(oldconn); else dbparam = new_dbname; /* If user is "" then use the old one */ if (new_user && PQuser(oldconn) && strcmp(new_user, "")==0) userparam = PQuser(oldconn); else userparam = new_user; /* need to prompt for password? */ if (pset.getPassword) pwparam = prompted_password = simple_prompt("Password: ", 100, false); /* need to save for * free() */ /* * Use old password if no new one given (if you didn't have an old * one, fine) */ if (!pwparam && oldconn) pwparam = PQpass(oldconn); do { need_pass = false; pset.db = PQsetdbLogin(PQhost(oldconn), PQport(oldconn), NULL, NULL, dbparam, userparam, pwparam); if (PQstatus(pset.db) == CONNECTION_BAD && strcmp(PQerrorMessage(pset.db), "fe_sendauth: no password supplied\n") == 0) { need_pass = true; free(prompted_password); prompted_password = NULL; pwparam = prompted_password = simple_prompt("Password: ", 100, false); } } while (need_pass); free(prompted_password); /* * If connection failed, try at least keep the old one. That's * probably more convenient than just kicking you out of the program. */ if (!pset.db || PQstatus(pset.db) == CONNECTION_BAD) { if (pset.cur_cmd_interactive) { psql_error("%s", PQerrorMessage(pset.db)); PQfinish(pset.db); if (oldconn) { fputs("Previous connection kept\n", stderr); pset.db = oldconn; } else pset.db = NULL; } else { /* we don't want unpredictable things to * happen in scripting mode */ psql_error("\\connect: %s", PQerrorMessage(pset.db)); PQfinish(pset.db); if (oldconn) PQfinish(oldconn); pset.db = NULL; } } else { if (!QUIET()) { if (userparam != new_user) /* no new user */ printf("You are now connected to database %s.\n", dbparam); else if (dbparam != new_dbname) /* no new db */ printf("You are now connected as new user %s.\n", new_user); else /* both new */ printf("You are now connected to database %s as user %s.\n", PQdb(pset.db), PQuser(pset.db)); } if (oldconn) PQfinish(oldconn); success = true; } PQsetNoticeProcessor(pset.db, NoticeProcessor, NULL); pset.encoding = PQclientEncoding(pset.db); /* Update variables */ SetVariable(pset.vars, "DBNAME", PQdb(pset.db)); SetVariable(pset.vars, "USER", PQuser(pset.db)); SetVariable(pset.vars, "HOST", PQhost(pset.db)); SetVariable(pset.vars, "PORT", PQport(pset.db)); pset.issuper = test_superuser(PQuser(pset.db)); return success; } /* * Test if the given user is a database superuser. * (Is used to set up the prompt right.) */ bool test_superuser(const char * username) { PGresult *res; char buf[64 + NAMEDATALEN]; bool answer; if (!username) return false; sprintf(buf, "SELECT usesuper FROM pg_user WHERE usename = '%.*s'", NAMEDATALEN, username); res = PSQLexec(buf); answer = (PQntuples(res)>0 && PQnfields(res)>0 && !PQgetisnull(res,0,0) && PQgetvalue(res,0,0) && strcmp(PQgetvalue(res,0,0), "t")==0); PQclear(res); return answer; } /* * do_edit -- handler for \e * * If you do not specify a filename, the current query buffer will be copied * into a temporary one. */ static bool editFile(const char *fname) { const char *editorName; char *sys; int result; #ifdef USE_ASSERT_CHECKING assert(fname); #else if (!fname) return false; #endif /* Find an editor to use */ editorName = getenv("PSQL_EDITOR"); if (!editorName) editorName = getenv("EDITOR"); if (!editorName) editorName = getenv("VISUAL"); if (!editorName) editorName = DEFAULT_EDITOR; sys = malloc(strlen(editorName) + strlen(fname) + 32 + 1); if (!sys) return false; sprintf(sys, "exec %s %s", editorName, fname); result = system(sys); if (result == -1) psql_error("could not start editor %s\n", editorName); else if (result == 127) psql_error("could not start /bin/sh\n"); free(sys); return result == 0; } /* call this one */ static bool do_edit(const char *filename_arg, PQExpBuffer query_buf) { char fnametmp[MAXPGPATH]; FILE *stream; const char *fname; bool error = false; #ifndef WIN32 struct stat before, after; #endif if (filename_arg) fname = filename_arg; else { /* make a temp file to edit */ #ifndef WIN32 mode_t oldumask; const char *tmpdirenv = getenv("TMPDIR"); sprintf(fnametmp, "%s/psql.edit.%ld.%ld", tmpdirenv ? tmpdirenv : "/tmp", (long) geteuid(), (long) getpid()); #else GetTempFileName(".", "psql", 0, fnametmp); #endif fname = (const char *) fnametmp; #ifndef WIN32 oldumask = umask(0177); #endif stream = fopen(fname, "w"); #ifndef WIN32 umask(oldumask); #endif if (!stream) { psql_error("couldn't open temp file %s: %s\n", fname, strerror(errno)); error = true; } else { unsigned int ql = query_buf->len; if (ql == 0 || query_buf->data[ql - 1] != '\n') { appendPQExpBufferChar(query_buf, '\n'); ql++; } if (fwrite(query_buf->data, 1, ql, stream) != ql) { psql_error("%s: %s\n", fname, strerror(errno)); fclose(stream); remove(fname); error = true; } else fclose(stream); } } #ifndef WIN32 if (!error && stat(fname, &before) != 0) { psql_error("%s: %s\n", fname, strerror(errno)); error = true; } #endif /* call editor */ if (!error) error = !editFile(fname); #ifndef WIN32 if (!error && stat(fname, &after) != 0) { psql_error("%s: %s\n", fname, strerror(errno)); error = true; } if (!error && before.st_mtime != after.st_mtime) { #else if (!error) { #endif stream = fopen(fname, "r"); if (!stream) { psql_error("%s: %s\n", fname, strerror(errno)); error = true; } else { /* read file back in */ char line[1024]; size_t result; resetPQExpBuffer(query_buf); do { result = fread(line, 1, 1024, stream); if (ferror(stream)) { psql_error("%s: %s\n", fname, strerror(errno)); error = true; break; } appendBinaryPQExpBuffer(query_buf, line, result); } while (!feof(stream)); appendPQExpBufferChar(query_buf, '\0'); fclose(stream); } /* remove temp file */ if (!filename_arg) { if (remove(fname)==-1) { psql_error("%s: %s\n", fname, strerror(errno)); error=true; } } } return !error; } /* * process_file * * Read commands from filename and then them to the main processing loop * Handler for \i, but can be used for other things as well. */ bool process_file(char *filename) { FILE *fd; int result; char *oldfilename; if (!filename) return false; fd = fopen(filename, "r"); if (!fd) { psql_error("%s: %s\n", filename, strerror(errno)); return false; } oldfilename = pset.inputfile; pset.inputfile = filename; result = MainLoop(fd); fclose(fd); pset.inputfile = oldfilename; return (result == EXIT_SUCCESS); } /* * do_pset * */ static const char * _align2string(enum printFormat in) { switch (in) { case PRINT_NOTHING: return "nothing"; break; case PRINT_UNALIGNED: return "unaligned"; break; case PRINT_ALIGNED: return "aligned"; break; case PRINT_HTML: return "html"; break; case PRINT_LATEX: return "latex"; break; } return "unknown"; } bool do_pset(const char *param, const char *value, printQueryOpt * popt, bool quiet) { size_t vallen = 0; #ifdef USE_ASSERT_CHECKING assert(param); #else if (!param) return false; #endif if (value) vallen = strlen(value); /* set format */ if (strcmp(param, "format") == 0) { if (!value) ; else if (strncasecmp("unaligned", value, vallen) == 0) popt->topt.format = PRINT_UNALIGNED; else if (strncasecmp("aligned", value, vallen) == 0) popt->topt.format = PRINT_ALIGNED; else if (strncasecmp("html", value, vallen) == 0) popt->topt.format = PRINT_HTML; else if (strncasecmp("latex", value, vallen) == 0) popt->topt.format = PRINT_LATEX; else { psql_error("\\pset: allowed formats are unaligned, aligned, html, latex\n"); return false; } if (!quiet) printf("Output format is %s.\n", _align2string(popt->topt.format)); } /* set border style/width */ else if (strcmp(param, "border") == 0) { if (value) popt->topt.border = atoi(value); if (!quiet) printf("Border style is %d.\n", popt->topt.border); } /* set expanded/vertical mode */ else if (strcmp(param, "x") == 0 || strcmp(param, "expanded") == 0 || strcmp(param, "vertical") == 0) { popt->topt.expanded = !popt->topt.expanded; if (!quiet) printf("Expanded display is %s.\n", popt->topt.expanded ? "on" : "off"); } /* null display */ else if (strcmp(param, "null") == 0) { if (value) { free(popt->nullPrint); popt->nullPrint = xstrdup(value); } if (!quiet) printf("Null display is \"%s\".\n", popt->nullPrint ? popt->nullPrint : ""); } /* field separator for unaligned text */ else if (strcmp(param, "fieldsep") == 0) { if (value) { free(popt->topt.fieldSep); popt->topt.fieldSep = xstrdup(value); } if (!quiet) printf("Field separator is '%s'.\n", popt->topt.fieldSep); } /* record separator for unaligned text */ else if (strcmp(param, "recordsep") == 0) { if (value) { free(popt->topt.recordSep); popt->topt.recordSep = xstrdup(value); } if (!quiet) { if (strcmp(popt->topt.recordSep, "\n")==0) printf("Record separator is ."); else printf("Record separator is '%s'.\n", popt->topt.recordSep); } } /* toggle between full and barebones format */ else if (strcmp(param, "t") == 0 || strcmp(param, "tuples_only") == 0) { popt->topt.tuples_only = !popt->topt.tuples_only; if (!quiet) { if (popt->topt.tuples_only) puts("Showing only tuples."); else puts("Tuples only is off."); } } /* set title override */ else if (strcmp(param, "title") == 0) { free(popt->title); if (!value) popt->title = NULL; else popt->title = xstrdup(value); if (!quiet) { if (popt->title) printf("Title is \"%s\".\n", popt->title); else printf("Title is unset.\n"); } } /* set HTML table tag options */ else if (strcmp(param, "T") == 0 || strcmp(param, "tableattr") == 0) { free(popt->topt.tableAttr); if (!value) popt->topt.tableAttr = NULL; else popt->topt.tableAttr = xstrdup(value); if (!quiet) { if (popt->topt.tableAttr) printf("Table attribute is \"%s\".\n", popt->topt.tableAttr); else printf("Table attributes unset.\n"); } } /* toggle use of pager */ else if (strcmp(param, "pager") == 0) { popt->topt.pager = !popt->topt.pager; if (!quiet) { if (popt->topt.pager) puts("Using pager is on."); else puts("Using pager is off."); } } else { psql_error("\\pset: unknown option: %s\n", param); return false; } return true; } #define DEFAULT_SHELL "/bin/sh" static bool do_shell(const char *command) { int result; if (!command) { char *sys; const char *shellName; shellName = getenv("SHELL"); if (shellName == NULL) shellName = DEFAULT_SHELL; sys = malloc(strlen(shellName) + 16); if (!sys) { psql_error("out of memory\n"); if (pset.cur_cmd_interactive) return false; else exit(EXIT_FAILURE); } sprintf(sys, "exec %s", shellName); result = system(sys); free(sys); } else result = system(command); if (result == 127 || result == -1) { psql_error("\\!: failed\n"); return false; } return true; }