/* gshell.c - Shell-related utilities * * Copyright 2000 Red Hat, Inc. * g_execvpe implementation based on GNU libc execvp: * Copyright 1991, 92, 95, 96, 97, 98, 99 Free Software Foundation, Inc. * * GLib is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * GLib is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with GLib; see the file COPYING.LIB. If not, write * to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include "config.h" #include #include "glib.h" #include "galias.h" #ifdef _ #warning "FIXME remove gettext hack" #endif #include "glibintl.h" GQuark g_shell_error_quark (void) { return g_quark_from_static_string ("g-shell-error-quark"); } /* Single quotes preserve the literal string exactly. escape * sequences are not allowed; not even \' - if you want a ' * in the quoted text, you have to do something like 'foo'\''bar' * * Double quotes allow $ ` " \ and newline to be escaped with backslash. * Otherwise double quotes preserve things literally. */ static gboolean unquote_string_inplace (gchar* str, gchar** end, GError** err) { gchar* dest; gchar* s; gchar quote_char; g_return_val_if_fail(end != NULL, FALSE); g_return_val_if_fail(err == NULL || *err == NULL, FALSE); g_return_val_if_fail(str != NULL, FALSE); dest = s = str; quote_char = *s; if (!(*s == '"' || *s == '\'')) { if (err) *err = g_error_new(G_SHELL_ERROR, G_SHELL_ERROR_BAD_QUOTING, _("Quoted text doesn't begin with a quotation mark")); *end = str; return FALSE; } /* Skip the initial quote mark */ ++s; if (quote_char == '"') { while (*s) { g_assert(s > dest); /* loop invariant */ switch (*s) { case '"': /* End of the string, return now */ *dest = '\0'; ++s; *end = s; return TRUE; break; case '\\': /* Possible escaped quote or \ */ ++s; switch (*s) { case '"': case '\\': case '`': case '$': case '\n': *dest = *s; ++s; ++dest; break; default: /* not an escaped char */ *dest = '\\'; ++dest; /* ++s already done. */ break; } break; default: *dest = *s; ++dest; ++s; break; } g_assert(s > dest); /* loop invariant */ } } else { while (*s) { g_assert(s > dest); /* loop invariant */ if (*s == '\'') { /* End of the string, return now */ *dest = '\0'; ++s; *end = s; return TRUE; } else { *dest = *s; ++dest; ++s; } g_assert(s > dest); /* loop invariant */ } } /* If we reach here this means the close quote was never encountered */ *dest = '\0'; if (err) *err = g_error_new(G_SHELL_ERROR, G_SHELL_ERROR_BAD_QUOTING, _("Unmatched quotation mark in command line or other shell-quoted text")); *end = s; return FALSE; } /** * g_shell_quote: * @unquoted_string: a literal string * * Quotes a string so that the shell (/bin/sh) will interpret the * quoted string to mean @unquoted_string. If you pass a filename to * the shell, for example, you should first quote it with this * function. The return value must be freed with g_free(). The * quoting style used is undefined (single or double quotes may be * used). * * Return value: quoted string **/ gchar* g_shell_quote (const gchar *unquoted_string) { /* We always use single quotes, because the algorithm is cheesier. * We could use double if we felt like it, that might be more * human-readable. */ const gchar *p; GString *dest; g_return_val_if_fail (unquoted_string != NULL, NULL); dest = g_string_new ("'"); p = unquoted_string; /* could speed this up a lot by appending chunks of text at a * time. */ while (*p) { /* Replace literal ' with a close ', a \', and a open ' */ if (*p == '\'') g_string_append (dest, "'\\''"); else g_string_append_c (dest, *p); ++p; } /* close the quote */ g_string_append_c (dest, '\''); return g_string_free (dest, FALSE); } /** * g_shell_unquote: * @quoted_string: shell-quoted string * @error: error return location or NULL * * Unquotes a string as the shell (/bin/sh) would. Only handles * quotes; if a string contains file globs, arithmetic operators, * variables, backticks, redirections, or other special-to-the-shell * features, the result will be different from the result a real shell * would produce (the variables, backticks, etc. will be passed * through literally instead of being expanded). This function is * guaranteed to succeed if applied to the result of * g_shell_quote(). If it fails, it returns %NULL and sets the * error. The @quoted_string need not actually contain quoted or * escaped text; g_shell_unquote() simply goes through the string and * unquotes/unescapes anything that the shell would. Both single and * double quotes are handled, as are escapes including escaped * newlines. The return value must be freed with g_free(). Possible * errors are in the #G_SHELL_ERROR domain. * * Shell quoting rules are a bit strange. Single quotes preserve the * literal string exactly. escape sequences are not allowed; not even * \' - if you want a ' in the quoted text, you have to do something * like 'foo'\''bar'. Double quotes allow $, `, ", \, and newline to * be escaped with backslash. Otherwise double quotes preserve things * literally. * * Return value: an unquoted string **/ gchar* g_shell_unquote (const gchar *quoted_string, GError **error) { gchar *unquoted; gchar *end; gchar *start; GString *retval; g_return_val_if_fail (quoted_string != NULL, NULL); unquoted = g_strdup (quoted_string); start = unquoted; end = unquoted; retval = g_string_new (NULL); /* The loop allows cases such as * "foo"blah blah'bar'woo foo"baz"la la la\'\''foo' */ while (*start) { /* Append all non-quoted chars, honoring backslash escape */ while (*start && !(*start == '"' || *start == '\'')) { if (*start == '\\') { /* all characters can get escaped by backslash, * except newline, which is removed if it follows * a backslash outside of quotes */ ++start; if (*start) { if (*start != '\n') g_string_append_c (retval, *start); ++start; } } else { g_string_append_c (retval, *start); ++start; } } if (*start) { if (!unquote_string_inplace (start, &end, error)) { goto error; } else { g_string_append (retval, start); start = end; } } } g_free (unquoted); return g_string_free (retval, FALSE); error: g_assert (error == NULL || *error != NULL); g_free (unquoted); g_string_free (retval, TRUE); return NULL; } /* g_parse_argv() does a semi-arbitrary weird subset of the way * the shell parses a command line. We don't do variable expansion, * don't understand that operators are tokens, don't do tilde expansion, * don't do command substitution, no arithmetic expansion, IFS gets ignored, * don't do filename globs, don't remove redirection stuff, etc. * * READ THE UNIX98 SPEC on "Shell Command Language" before changing * the behavior of this code. * * Steps to parsing the argv string: * * - tokenize the string (but since we ignore operators, * our tokenization may diverge from what the shell would do) * note that tokenization ignores the internals of a quoted * word and it always splits on spaces, not on IFS even * if we used IFS. We also ignore "end of input indicator" * (I guess this is control-D?) * * Tokenization steps, from UNIX98 with operator stuff removed, * are: * * 1) "If the current character is backslash, single-quote or * double-quote (\, ' or ") and it is not quoted, it will affect * quoting for subsequent characters up to the end of the quoted * text. The rules for quoting are as described in Quoting * . During token recognition no substitutions will be actually * performed, and the result token will contain exactly the * characters that appear in the input (except for newline * character joining), unmodified, including any embedded or * enclosing quotes or substitution operators, between the quote * mark and the end of the quoted text. The token will not be * delimited by the end of the quoted field." * * 2) "If the current character is an unquoted newline character, * the current token will be delimited." * * 3) "If the current character is an unquoted blank character, any * token containing the previous character is delimited and the * current character will be discarded." * * 4) "If the previous character was part of a word, the current * character will be appended to that word." * * 5) "If the current character is a "#", it and all subsequent * characters up to, but excluding, the next newline character * will be discarded as a comment. The newline character that * ends the line is not considered part of the comment. The * "#" starts a comment only when it is at the beginning of a * token. Since the search for the end-of-comment does not * consider an escaped newline character specially, a comment * cannot be continued to the next line." * * 6) "The current character will be used as the start of a new word." * * * - for each token (word), perform portions of word expansion, namely * field splitting (using default whitespace IFS) and quote * removal. Field splitting may increase the number of words. * Quote removal does not increase the number of words. * * "If the complete expansion appropriate for a word results in an * empty field, that empty field will be deleted from the list of * fields that form the completely expanded command, unless the * original word contained single-quote or double-quote characters." * - UNIX98 spec * * */ static inline void ensure_token (GString **token) { if (*token == NULL) *token = g_string_new (NULL); } static void delimit_token (GString **token, GSList **retval) { if (*token == NULL) return; *retval = g_slist_prepend (*retval, g_string_free (*token, FALSE)); *token = NULL; } static GSList* tokenize_command_line (const gchar *command_line, GError **error) { gchar current_quote; const gchar *p; GString *current_token = NULL; GSList *retval = NULL; gboolean quoted;; current_quote = '\0'; quoted = FALSE; p = command_line; while (*p) { if (current_quote == '\\') { if (*p == '\n') { /* we append nothing; backslash-newline become nothing */ } else { /* we append the backslash and the current char, * to be interpreted later after tokenization */ ensure_token (¤t_token); g_string_append_c (current_token, '\\'); g_string_append_c (current_token, *p); } current_quote = '\0'; } else if (current_quote == '#') { /* Discard up to and including next newline */ while (*p && *p != '\n') ++p; current_quote = '\0'; if (*p == '\0') break; } else if (current_quote) { if (*p == current_quote && /* check that it isn't an escaped double quote */ !(current_quote == '"' && quoted)) { /* close the quote */ current_quote = '\0'; } /* Everything inside quotes, and the close quote, * gets appended literally. */ ensure_token (¤t_token); g_string_append_c (current_token, *p); } else { switch (*p) { case '\n': delimit_token (¤t_token, &retval); break; case ' ': case '\t': /* If the current token contains the previous char, delimit * the current token. A nonzero length * token should always contain the previous char. */ if (current_token && current_token->len > 0) { delimit_token (¤t_token, &retval); } /* discard all unquoted blanks (don't add them to a token) */ break; /* single/double quotes are appended to the token, * escapes are maybe appended next time through the loop, * comment chars are never appended. */ case '\'': case '"': ensure_token (¤t_token); g_string_append_c (current_token, *p); /* FALL THRU */ case '#': case '\\': current_quote = *p; break; default: /* Combines rules 4) and 6) - if we have a token, append to it, * otherwise create a new token. */ ensure_token (¤t_token); g_string_append_c (current_token, *p); break; } } /* We need to count consecutive backslashes mod 2, * to detect escaped doublequotes. */ if (*p != '\\') quoted = FALSE; else quoted = !quoted; ++p; } delimit_token (¤t_token, &retval); if (current_quote) { if (current_quote == '\\') g_set_error (error, G_SHELL_ERROR, G_SHELL_ERROR_BAD_QUOTING, _("Text ended just after a '\\' character." " (The text was '%s')"), command_line); else g_set_error (error, G_SHELL_ERROR, G_SHELL_ERROR_BAD_QUOTING, _("Text ended before matching quote was found for %c." " (The text was '%s')"), current_quote, command_line); goto error; } if (retval == NULL) { g_set_error (error, G_SHELL_ERROR, G_SHELL_ERROR_EMPTY_STRING, _("Text was empty (or contained only whitespace)")); goto error; } /* we appended backward */ retval = g_slist_reverse (retval); return retval; error: g_assert (error == NULL || *error != NULL); if (retval) { g_slist_foreach (retval, (GFunc)g_free, NULL); g_slist_free (retval); } return NULL; } /** * g_shell_parse_argv: * @command_line: command line to parse * @argcp: return location for number of args * @argvp: return location for array of args * @error: return location for error * * Parses a command line into an argument vector, in much the same way * the shell would, but without many of the expansions the shell would * perform (variable expansion, globs, operators, filename expansion, * etc. are not supported). The results are defined to be the same as * those you would get from a UNIX98 /bin/sh, as long as the input * contains none of the unsupported shell expansions. If the input * does contain such expansions, they are passed through * literally. Possible errors are those from the #G_SHELL_ERROR * domain. Free the returned vector with g_strfreev(). * * Return value: %TRUE on success, %FALSE if error set **/ gboolean g_shell_parse_argv (const gchar *command_line, gint *argcp, gchar ***argvp, GError **error) { /* Code based on poptParseArgvString() from libpopt */ gint argc = 0; gchar **argv = NULL; GSList *tokens = NULL; gint i; GSList *tmp_list; g_return_val_if_fail (command_line != NULL, FALSE); tokens = tokenize_command_line (command_line, error); if (tokens == NULL) return FALSE; /* Because we can't have introduced any new blank space into the * tokens (we didn't do any new expansions), we don't need to * perform field splitting. If we were going to honor IFS or do any * expansions, we would have to do field splitting on each word * here. Also, if we were going to do any expansion we would need to * remove any zero-length words that didn't contain quotes * originally; but since there's no expansion we know all words have * nonzero length, unless they contain quotes. * * So, we simply remove quotes, and don't do any field splitting or * empty word removal, since we know there was no way to introduce * such things. */ argc = g_slist_length (tokens); argv = g_new0 (gchar*, argc + 1); i = 0; tmp_list = tokens; while (tmp_list) { argv[i] = g_shell_unquote (tmp_list->data, error); /* Since we already checked that quotes matched up in the * tokenizer, this shouldn't be possible to reach I guess. */ if (argv[i] == NULL) goto failed; tmp_list = g_slist_next (tmp_list); ++i; } g_slist_foreach (tokens, (GFunc)g_free, NULL); g_slist_free (tokens); if (argcp) *argcp = argc; if (argvp) *argvp = argv; else g_strfreev (argv); return TRUE; failed: g_assert (error == NULL || *error != NULL); g_strfreev (argv); g_slist_foreach (tokens, (GFunc) g_free, NULL); g_slist_free (tokens); return FALSE; } #define __G_SHELL_C__ #include "galiasdef.c"