// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2001 Cluster File Systems, Inc. * * Copyright (c) 2014, 2017, Intel Corporation. * */ /* * This file is part of Lustre, http://www.lustre.org/ * * libcfs/libcfs/parser.c * * A command line parser. * */ #include #include #include #include #include #include #include #include #ifdef HAVE_LIBREADLINE # include # include #endif /* HAVE_LIBREADLINE */ #include #include #include #include /* Top level of commands */ static command_t top_level[MAXCMDS]; /* Set to 1 if user types exit or quit */ static int done; /* * Normally, the parser will quit when an error occurs in non-interacive * mode. Setting this to non-zero will force it to keep buggering on. */ static int ignore_errors; static char *skipwhitespace(char *s); static char *skiptowhitespace(char *s); static command_t *find_cmd(char *name, command_t cmds[], char **next); static int process(char *s, char **next, command_t *lookup, command_t **result, char **prev); static int line2args(char *line, char **argv, int maxargs); static int cfs_parser_commands(command_t *cmds); static int cfs_parser_execarg(int argc, char **argv, command_t cmds[]); static int cfs_parser_list_commands(const command_t *cmdlist, int line_len, int col_num); static int cfs_parser_list(int argc, char **argv); static int cfs_parser_help(int argc, char **argv); static int cfs_parser_quit(int argc, char **argv); static int cfs_parser_version(int argc, char **argv); static int cfs_parser_ignore_errors(int argc, char **argv); command_t override_cmdlist[] = { { .pc_name = "quit", .pc_func = cfs_parser_quit, .pc_help = "quit" }, { .pc_name = "exit", .pc_func = cfs_parser_quit, .pc_help = "exit" }, { .pc_name = "help", .pc_func = cfs_parser_help, .pc_help = "provide useful information about a command" }, { .pc_name = "--help", .pc_func = cfs_parser_help, .pc_help = "provide useful information about a command" }, { .pc_name = "version", .pc_func = cfs_parser_version, .pc_help = "show program version" }, { .pc_name = "--version", .pc_func = cfs_parser_version, .pc_help = "show program version" }, { .pc_name = "list-commands", .pc_func = cfs_parser_list, .pc_help = "list available commands" }, { .pc_name = "--list-commands", .pc_func = cfs_parser_list, .pc_help = "list available commands" }, { .pc_name = "--ignore_errors", .pc_func = cfs_parser_ignore_errors, .pc_help = "ignore errors that occur during script processing"}, { .pc_name = "ignore_errors", .pc_func = cfs_parser_ignore_errors, .pc_help = "ignore errors that occur during script processing"}, { .pc_name = 0, .pc_func = NULL, .pc_help = 0 } }; static char *skipwhitespace(char *s) { char *t; int len; len = (int)strlen(s); for (t = s; t <= s + len && isspace(*t); t++) ; return t; } static char *skiptowhitespace(char *s) { char *t; for (t = s; *t && !isspace(*t); t++) ; return t; } static int line2args(char *line, char **argv, int maxargs) { char *arg; int i = 0; arg = strtok(line, " \t"); if (!arg || maxargs < 1) return 0; argv[i++] = arg; while ((arg = strtok(NULL, " \t")) != NULL && i < maxargs) argv[i++] = arg; return i; } /* find a command -- return it if unique otherwise print alternatives */ static command_t *cfs_parser_findargcmd(char *name, command_t cmds[]) { command_t *cmd; for (cmd = cmds; cmd->pc_name; cmd++) { if (strcmp(name, cmd->pc_name) == 0) return cmd; } return NULL; } static int cfs_parser_ignore_errors(int argc, char **argv) { (void) argc; (void) argv; ignore_errors = 1; return 0; } int cfs_parser(int argc, char **argv, command_t cmds[]) { command_t *cmd; int rc = 0; int i = 0; done = 0; for (cmd = override_cmdlist; cmd->pc_name && i < MAXCMDS; cmd++) top_level[i++] = *cmd; for (cmd = cmds; cmd->pc_name && i < MAXCMDS; cmd++) top_level[i++] = *cmd; if (argc > 1) rc = cfs_parser_execarg(argc - 1, argv + 1, cmds); else rc = cfs_parser_commands(cmds); return rc; } static int cfs_parser_execarg(int argc, char **argv, command_t cmds[]) { command_t *cmd; cmd = cfs_parser_findargcmd(argv[0], override_cmdlist); if (!cmd) cmd = cfs_parser_findargcmd(argv[0], cmds); if (cmd && cmd->pc_func) { int rc = cmd->pc_func(argc, argv); if (rc == CMD_HELP) { fprintf(stdout, "%s\n", cmd->pc_help); fflush(stdout); } return rc; } fprintf(stderr, "%s: '%s' is not a valid command. See '%s --list-commands'.\n", program_invocation_short_name, argv[0], program_invocation_short_name); return -1; } /* * Returns the command_t * (NULL if not found) corresponding to a * _partial_ match with the first token in name. It sets *next to * point to the following token. Does not modify *name. */ static command_t *find_cmd(char *name, command_t cmds[], char **next) { int i, len; if (!cmds || !name) return NULL; /* * This sets name to point to the first non-white space character, * and next to the first whitespace after name, len to the length: do * this with strtok */ name = skipwhitespace(name); *next = skiptowhitespace(name); len = (int)(*next - name); if (len == 0) return NULL; for (i = 0; cmds[i].pc_name; i++) { if (strncasecmp(name, cmds[i].pc_name, len) == 0) { *next = skipwhitespace(*next); return &cmds[i]; } } return NULL; } /* * Recursively process a command line string s and find the command * corresponding to it. This can be ambiguous, full, incomplete, * non-existent. */ static int process(char *s, char **next, command_t *lookup, command_t **result, char **prev) { static int depth; *result = find_cmd(s, lookup, next); *prev = s; /* non existent */ if (!*result) return CMD_NONE; /* * found entry: is it ambigous, i.e. not exact command name and * more than one command in the list matches. Note that find_cmd * points to the first ambiguous entry */ if (strncasecmp(s, (*result)->pc_name, strlen((*result)->pc_name))) { char *another_next; int found_another = 0; command_t *another_result = find_cmd(s, (*result) + 1, &another_next); while (another_result) { if (strncasecmp(s, another_result->pc_name, strlen(another_result->pc_name)) == 0) { *result = another_result; *next = another_next; goto got_it; } another_result = find_cmd(s, another_result + 1, &another_next); found_another = 1; /* * In some circumstances, process will fail to find a * suitable command. We want to be able to escape both * the while loop and the recursion. So, track the * number of times we've been here and give up if * things start to get out-of-hand. */ if (depth > 50) return CMD_NONE; depth++; } if (found_another) return CMD_AMBIG; } got_it: /* found a unique command: component or full? */ if ((*result)->pc_func) return CMD_COMPLETE; if (**next == '\0') return CMD_INCOMPLETE; return process(*next, next, (*result)->pc_sub_cmd, result, prev); } #ifdef HAVE_LIBREADLINE static command_t *match_tbl; /* Command completion against this table */ static char *command_generator(const char *text, int state) { static int index, len; char *name; /* Do we have a match table? */ if (!match_tbl) return NULL; /* If this is the first time called on this word, state is 0 */ if (!state) { index = 0; len = (int)strlen(text); } /* Return next name in the command list that paritally matches test */ while ((name = (match_tbl + index)->pc_name)) { index++; if (strncasecmp(name, text, len) == 0) return strdup(name); } /* No more matches */ return NULL; } /* probably called by readline */ static char **command_completion(const char *text, int start, int end) { command_t *table; char *pos; match_tbl = top_level; for (table = find_cmd(rl_line_buffer, match_tbl, &pos); table; table = find_cmd(pos, match_tbl, &pos)) { if (*(pos - 1) == ' ') match_tbl = table->pc_sub_cmd; } return rl_completion_matches(text, command_generator); } #endif /* take a string and execute the function or print help */ static int execute_line(char *line) { command_t *cmd, *ambig; char *prev; char *next, *tmp; char *argv[MAXARGS]; int i; int rc = 0; switch (process(line, &next, top_level, &cmd, &prev)) { case CMD_AMBIG: fprintf(stderr, "Ambiguous command \'%s\'\nOptions: ", line); while ((ambig = find_cmd(prev, cmd, &tmp))) { fprintf(stderr, "%s ", ambig->pc_name); cmd = ambig + 1; } fprintf(stderr, "\n"); break; case CMD_NONE: fprintf(stderr, "No such command. Try --list-commands to see available commands.\n"); break; case CMD_INCOMPLETE: fprintf(stderr, "'%s' incomplete command. Use '%s x' where x is one of:\n", line, line); fprintf(stderr, "\t"); for (i = 0; cmd->pc_sub_cmd[i].pc_name; i++) fprintf(stderr, "%s ", cmd->pc_sub_cmd[i].pc_name); fprintf(stderr, "\n"); break; case CMD_COMPLETE: optind = 0; i = line2args(line, argv, MAXARGS); rc = cmd->pc_func(i, argv); if (rc == CMD_HELP) { fprintf(stdout, "%s\n", cmd->pc_help); fflush(stdout); } break; } return rc; } #ifdef HAVE_LIBREADLINE static void noop_int_fn(int unused) { } static void noop_void_fn(void) { } #endif /* * just in case you're ever in an airplane and discover you * forgot to install readline-dev. :) */ static int init_input(void) { int interactive = isatty(fileno(stdin)); #ifdef HAVE_LIBREADLINE using_history(); stifle_history(HISTORY); if (!interactive) { rl_prep_term_function = noop_int_fn; rl_deprep_term_function = noop_void_fn; } rl_attempted_completion_function = command_completion; rl_completion_entry_function = command_generator; #endif return interactive; } #ifndef HAVE_LIBREADLINE #define add_history(s) static char *readline(char *prompt) { int size = 2048; char *line = malloc(size); char *ptr = line; int c; int eof = 0; if (!line) return NULL; if (prompt) printf("%s", prompt); while (1) { if ((c = fgetc(stdin)) != EOF) { if (c == '\n') goto out; *ptr++ = (char)c; if (ptr - line >= size - 1) { char *tmp; size *= 2; tmp = malloc(size); if (!tmp) goto outfree; memcpy(tmp, line, ptr - line); ptr = tmp + (ptr - line); free(line); line = tmp; } } else { eof = 1; if (ferror(stdin) || feof(stdin)) goto outfree; goto out; } } out: *ptr = 0; if (eof && (strlen(line) == 0)) { free(line); line = NULL; } return line; outfree: free(line); return NULL; } #endif /* this is the command execution machine */ static int cfs_parser_commands(command_t *cmds) { char *line, *s; int rc = 0, save_error = 0; int interactive; interactive = init_input(); while (!done) { line = readline(interactive ? "> " : NULL); if (!line) break; s = skipwhitespace(line); if (*s) { add_history(s); rc = execute_line(s); } /* stop on error if not-interactive */ if (rc != 0 && !interactive) { if (save_error == 0) save_error = rc; if (!ignore_errors) done = 1; } free(line); } if (save_error) rc = save_error; return rc; } static int cfs_parser_help(int argc, char **argv) { char line[1024]; char *next, *prev, *tmp; command_t *result, *ambig; int i; if (argc == 1) { printf("usage: %s [COMMAND] [OPTIONS]... [ARGS]\n", program_invocation_short_name); printf("Without any parameters, interactive mode is invoked\n"); printf("Try '%s help ', or '%s --list-commands' for a list of commands.\n", program_invocation_short_name, program_invocation_short_name); return 0; } /* * Joining command line arguments without space is not critical here * because of this string is used for search a help topic and assume * that only one argument will be (the name of topic). For example: * lst > help ping run * pingrun: Unknown command. */ line[0] = '\0'; for (i = 1; i < argc; i++) { if (strlen(argv[i]) >= sizeof(line) - strlen(line) - 1) return -E2BIG; /* * The function strlcat() cannot be used here because of * this function is used in LNet utils that is not linked * with libcfs.a. */ strncat(line, argv[i], sizeof(line) - strlen(line) - 1); } switch (process(line, &next, top_level, &result, &prev)) { case CMD_COMPLETE: fprintf(stderr, "%s: %s\n", line, result->pc_help); break; case CMD_NONE: fprintf(stderr, "%s: '%s' is not a valid command. See '%s --list-commands'.\n", program_invocation_short_name, line, program_invocation_short_name); break; case CMD_INCOMPLETE: fprintf(stderr, "'%s' incomplete command. Use '%s x' where x is one of:\n", line, line); fprintf(stderr, "\t"); for (i = 0; result->pc_sub_cmd[i].pc_name; i++) fprintf(stderr, "%s ", result->pc_sub_cmd[i].pc_name); fprintf(stderr, "\n"); break; case CMD_AMBIG: fprintf(stderr, "Ambiguous command \'%s\'\nOptions: ", line); while ((ambig = find_cmd(prev, result, &tmp))) { fprintf(stderr, "%s ", ambig->pc_name); result = ambig + 1; } fprintf(stderr, "\n"); break; } return 0; } /** * cfs_parser_list_commands() - Output a list of the supported commands. * @cmdlist: Array of structures describing the commands. * @line_len: Length of output line. * @col_num: The number of commands printed in a single row. * * The commands and subcommands supported by the utility are printed, arranged * into several columns for readability. * * Return: The number of items that were printed. */ static int cfs_parser_list_commands(const command_t *cmdlist, int line_len, int col_num) { int char_max; int count = 0; int col = 0; int nprinted = 0; int offset = 0; char_max = line_len / col_num; for (; cmdlist->pc_name; cmdlist++) { if (!cmdlist->pc_func && !cmdlist->pc_sub_cmd) break; count++; nprinted = fprintf(stdout, "%-*s ", char_max - offset - 1, cmdlist->pc_name); /* * when a column is too wide, save offset so subsequent columns * can be aligned properly */ offset = offset + nprinted - char_max; offset = offset > 0 ? offset : 0; col++; if (col >= col_num) { fprintf(stdout, "\n"); col = 0; offset = 0; } } if (col != 0) fprintf(stdout, "\n"); return count; } static int cfs_parser_quit(int argc, char **argv) { (void) argc; (void) argv; done = 1; return 0; } static int cfs_parser_version(int argc, char **argv) { (void) argc; (void) argv; fprintf(stdout, "%s %s\n", program_invocation_short_name, LUSTRE_VERSION_STRING); return 0; } static int cfs_parser_list(int argc, char **argv) { command_t *cmd; int num_cmds_listed; (void) argc; (void) argv; cmd = top_level; while (cmd->pc_name != NULL) { if (!cmd->pc_func) { /* * print the command category */ printf("\n%s\n", cmd->pc_name); cmd++; } num_cmds_listed = cfs_parser_list_commands(cmd, 80, 4); cmd += num_cmds_listed; } return 0; }