/**************************************************************************
* rcfile.c -- This file is part of GNU nano. *
* *
* Copyright (C) 2001-2011, 2013-2017 Free Software Foundation, Inc. *
* Copyright (C) 2014 Mike Frysinger *
* Copyright (C) 2014, 2015, 2016 Benno Schulenberg *
* *
* GNU nano is free software: you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published *
* by the Free Software Foundation, either version 3 of the License, *
* or (at your option) any later version. *
* *
* GNU nano 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 General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program. If not, see http://www.gnu.org/licenses/. *
* *
**************************************************************************/
#include "proto.h"
#include <ctype.h>
#include <errno.h>
#include <glob.h>
#include <string.h>
#include <unistd.h>
#ifdef ENABLE_NANORC
#ifndef RCFILE_NAME
#define RCFILE_NAME ".nanorc"
#endif
static const rcoption rcopts[] = {
{"boldtext", BOLD_TEXT},
#ifdef ENABLE_LINENUMBERS
{"linenumbers", LINE_NUMBERS},
#endif
#ifndef DISABLE_JUSTIFY
{"brackets", 0},
#endif
{"const", CONSTANT_SHOW}, /* deprecated form, remove in 2018 */
{"constantshow", CONSTANT_SHOW},
#ifndef DISABLE_WRAPJUSTIFY
{"fill", 0},
#endif
#ifndef DISABLE_HISTORIES
{"historylog", HISTORYLOG},
#endif
{"morespace", MORE_SPACE},
#ifdef ENABLE_MOUSE
{"mouse", USE_MOUSE},
#endif
#ifdef ENABLE_MULTIBUFFER
{"multibuffer", MULTIBUFFER},
#endif
{"nohelp", NO_HELP},
{"nonewlines", NO_NEWLINES},
{"nopauses", NO_PAUSES},
#ifndef DISABLE_WRAPPING
{"nowrap", NO_WRAP},
#endif
#ifndef DISABLE_OPERATINGDIR
{"operatingdir", 0},
#endif
#ifndef DISABLE_HISTORIES
{"poslog", POS_HISTORY}, /* deprecated form, remove in 2018 */
{"positionlog", POS_HISTORY},
#endif
{"preserve", PRESERVE},
#ifndef DISABLE_JUSTIFY
{"punct", 0},
{"quotestr", 0},
#endif
{"quickblank", QUICK_BLANK},
{"rebinddelete", REBIND_DELETE},
{"rebindkeypad", REBIND_KEYPAD},
{"regexp", USE_REGEXP},
#ifndef DISABLE_SPELLER
{"speller", 0},
#endif
{"suspend", SUSPEND},
{"tabsize", 0},
{"tempfile", TEMP_FILE},
{"view", VIEW_MODE},
#ifndef NANO_TINY
{"allow_insecure_backup", INSECURE_BACKUP},
{"atblanks", AT_BLANKS},
{"autoindent", AUTOINDENT},
{"backup", BACKUP_FILE},
{"backupdir", 0},
{"backwards", BACKWARDS_SEARCH},
{"casesensitive", CASE_SENSITIVE},
{"cut", CUT_FROM_CURSOR}, /* deprecated form, remove in 2020 */
{"cutfromcursor", CUT_FROM_CURSOR},
{"justifytrim", JUSTIFY_TRIM},
{"locking", LOCKING},
{"matchbrackets", 0},
{"noconvert", NO_CONVERT},
{"quiet", QUIET},
{"showcursor", SHOW_CURSOR},
{"smarthome", SMART_HOME},
{"smooth", SMOOTH_SCROLL},
{"softwrap", SOFTWRAP},
{"tabstospaces", TABS_TO_SPACES},
{"unix", MAKE_IT_UNIX},
{"whitespace", 0},
{"wordbounds", WORD_BOUNDS},
{"wordchars", 0},
#endif
#ifndef DISABLE_COLOR
{"titlecolor", 0},
{"numbercolor", 0},
{"selectedcolor", 0},
{"statuscolor", 0},
{"keycolor", 0},
{"functioncolor", 0},
#endif
{NULL, 0}
};
static bool errors = FALSE;
/* Whether we got any errors while parsing an rcfile. */
static size_t lineno = 0;
/* If we did, the line number where the last error occurred. */
static char *nanorc = NULL;
/* The path to the rcfile we're parsing. */
#ifndef DISABLE_COLOR
static bool opensyntax = FALSE;
/* Whether we're allowed to add to the last syntax. When a file ends,
* or when a new syntax command is seen, this bool becomes FALSE. */
static syntaxtype *live_syntax;
/* The syntax that is currently being parsed. */
static colortype *lastcolor = NULL;
/* The end of the color list for the current syntax. */
#endif
/* We have an error in some part of the rcfile. Print the error message
* on stderr, and then make the user hit Enter to continue starting
* nano. */
void rcfile_error(const char *msg, ...)
{
va_list ap;
if (ISSET(QUIET))
return;
fprintf(stderr, "\n");
if (lineno > 0) {
errors = TRUE;
fprintf(stderr, _("Error in %s on line %lu: "), nanorc, (unsigned long)lineno);
}
va_start(ap, msg);
vfprintf(stderr, _(msg), ap);
va_end(ap);
fprintf(stderr, "\n");
}
#endif /* ENABLE_NANORC */
#if defined(ENABLE_NANORC) || !defined(DISABLE_HISTORIES)
/* Parse the next word from the string, null-terminate it, and return
* a pointer to the first character after the null terminator. The
* returned pointer will point to '\0' if we hit the end of the line. */
char *parse_next_word(char *ptr)
{
while (!isblank((unsigned char)*ptr) && *ptr != '\0')
ptr++;
if (*ptr == '\0')
return ptr;
/* Null-terminate and advance ptr. */
*ptr++ = '\0';
while (isblank((unsigned char)*ptr))
ptr++;
return ptr;
}
#endif /* ENABLE_NANORC || !DISABLE_HISTORIES */
#ifdef ENABLE_NANORC
/* Parse an argument, with optional quotes, after a keyword that takes
* one. If the next word starts with a ", we say that it ends with the
* last " of the line. Otherwise, we interpret it as usual, so that the
* arguments can contain "'s too. */
char *parse_argument(char *ptr)
{
const char *ptr_save = ptr;
char *last_quote = NULL;
assert(ptr != NULL);
if (*ptr != '"')
return parse_next_word(ptr);
do {
ptr++;
if (*ptr == '"')
last_quote = ptr;
} while (*ptr != '\0');
if (last_quote == NULL) {
if (*ptr == '\0')
ptr = NULL;
else
*ptr++ = '\0';
rcfile_error(N_("Argument '%s' has an unterminated \""), ptr_save);
} else {
*last_quote = '\0';
ptr = last_quote + 1;
}
if (ptr != NULL)
while (isblank((unsigned char)*ptr))
ptr++;
return ptr;
}
#ifndef DISABLE_COLOR
/* Pass over the current regex string in the line starting at ptr,
* null-terminate it, and return a pointer to the /next/ word. */
char *parse_next_regex(char *ptr)
{
assert(ptr != NULL);
/* Continue until the end of line, or until a " followed by a
* blank character or the end of line. */
while (*ptr != '\0' && (*ptr != '"' ||
(*(ptr + 1) != '\0' && !isblank((unsigned char)ptr[1]))))
ptr++;
assert(*ptr == '"' || *ptr == '\0');
if (*ptr == '\0') {
rcfile_error(
N_("Regex strings must begin and end with a \" character"));
return NULL;
}
/* Null-terminate and advance ptr. */
*ptr++ = '\0';
while (isblank((unsigned char)*ptr))
ptr++;
return ptr;
}
/* Compile the regular expression regex to see if it's valid. Return
* TRUE if it is, and FALSE otherwise. */
bool nregcomp(const char *regex, int compile_flags)
{
regex_t preg;
const char *r = fixbounds(regex);
int rc = regcomp(&preg, r, compile_flags);
if (rc != 0) {
size_t len = regerror(rc, &preg, NULL, 0);
char *str = charalloc(len);
regerror(rc, &preg, str, len);
rcfile_error(N_("Bad regex \"%s\": %s"), r, str);
free(str);
}
regfree(&preg);
return (rc == 0);
}
/* Parse the next syntax name and its possible extension regexes from the
* line at ptr, and add it to the global linked list of color syntaxes. */
void parse_syntax(char *ptr)
{
char *nameptr;
/* A pointer to what should be the name of the syntax. */
opensyntax = FALSE;
assert(ptr != NULL);
/* Check that the syntax name is not empty. */
if (*ptr == '\0' || (*ptr == '"' &&
(*(ptr + 1) == '\0' || *(ptr + 1) == '"'))) {
rcfile_error(N_("Missing syntax name"));
return;
}
nameptr = ++ptr;
ptr = parse_next_word(ptr);
/* Check that the name starts and ends with a double quote. */
if (*(nameptr - 1) != '\x22' || nameptr[strlen(nameptr) - 1] != '\x22') {
rcfile_error(N_("A syntax name must be quoted"));
return;
}
/* Strip the end quote. */
nameptr[strlen(nameptr) - 1] = '\0';
/* Redefining the "none" syntax is not allowed. */
if (strcmp(nameptr, "none") == 0) {
rcfile_error(N_("The \"none\" syntax is reserved"));
return;
}
/* Initialize a new syntax struct. */
live_syntax = (syntaxtype *)nmalloc(sizeof(syntaxtype));
live_syntax->name = mallocstrcpy(NULL, nameptr);
live_syntax->extensions = NULL;
live_syntax->headers = NULL;
live_syntax->magics = NULL;
live_syntax->linter = NULL;
live_syntax->formatter = NULL;
#ifdef ENABLE_COMMENT
live_syntax->comment = mallocstrcpy(NULL, GENERAL_COMMENT_CHARACTER);
#endif
live_syntax->color = NULL;
lastcolor = NULL;
live_syntax->nmultis = 0;
/* Hook the new syntax in at the top of the list. */
live_syntax->next = syntaxes;
syntaxes = live_syntax;
opensyntax = TRUE;
#ifdef DEBUG
fprintf(stderr, "Starting a new syntax type: \"%s\"\n", nameptr);
#endif
/* The default syntax should have no associated extensions. */
if (strcmp(live_syntax->name, "default") == 0 && *ptr != '\0') {
rcfile_error(
N_("The \"default\" syntax does not accept extensions"));
return;
}
/* If there seem to be extension regexes, pick them up. */
if (*ptr != '\0')
grab_and_store("extension", ptr, &live_syntax->extensions);
}
#endif /* !DISABLE_COLOR */
/* Check whether the given executable function is "universal" (meaning
* any horizontal movement or deletion) and thus is present in almost
* all menus. */
bool is_universal(void (*func)(void))
{
if (func == do_left || func == do_right ||
func == do_home_void || func == do_end_void ||
#ifndef NANO_TINY
func == do_prev_word_void || func == do_next_word_void ||
#endif
func == do_delete || func == do_backspace ||
func == do_cut_text_void || func == do_uncut_text ||
func == do_tab || func == do_enter || func == do_verbatim_input)
return TRUE;
else
return FALSE;
}
/* Bind or unbind a key combo, to or from a function. */
void parse_binding(char *ptr, bool dobind)
{
char *keyptr = NULL, *keycopy = NULL, *funcptr = NULL, *menuptr = NULL;
sc *s, *newsc = NULL;
int menu;
assert(ptr != NULL);
#ifdef DEBUG
fprintf(stderr, "Starting the rebinding code...\n");
#endif
if (*ptr == '\0') {
rcfile_error(N_("Missing key name"));
return;
}
keyptr = ptr;
ptr = parse_next_word(ptr);
keycopy = mallocstrcpy(NULL, keyptr);
if (strlen(keycopy) < 2) {
rcfile_error(N_("Key name is too short"));
goto free_copy;
}
/* Uppercase only the first two or three characters of the key name. */
keycopy[0] = toupper((unsigned char)keycopy[0]);
keycopy[1] = toupper((unsigned char)keycopy[1]);
if (keycopy[0] == 'M' && keycopy[1] == '-') {
if (strlen(keycopy) > 2)
keycopy[2] = toupper((unsigned char)keycopy[2]);
else {
rcfile_error(N_("Key name is too short"));
goto free_copy;
}
}
/* Allow the codes for Insert and Delete to be rebound, but apart
* from those two only Control, Meta and Function sequences. */
if (!strcasecmp(keycopy, "Ins") || !strcasecmp(keycopy, "Del"))
keycopy[1] = tolower((unsigned char)keycopy[1]);
else if (keycopy[0] != '^' && keycopy[0] != 'M' && keycopy[0] != 'F') {
rcfile_error(N_("Key name must begin with \"^\", \"M\", or \"F\""));
goto free_copy;
} else if ((keycopy[0] == 'M' && keycopy[1] != '-') ||
(keycopy[0] == '^' && ((keycopy[1] < 'A' || keycopy[1] > 'z') ||
keycopy[1] == '[' || keycopy[1] == '`' ||
(strlen(keycopy) > 2 && strcmp(keycopy, "^Space") != 0))) ||
(strlen(keycopy) > 3 && strcmp(keycopy, "^Space") != 0 &&
strcmp(keycopy, "M-Space") != 0)) {
rcfile_error(N_("Key name %s is invalid"), keycopy);
goto free_copy;
}
if (dobind) {
funcptr = ptr;
ptr = parse_next_word(ptr);
if (funcptr[0] == '\0') {
rcfile_error(N_("Must specify a function to bind the key to"));
goto free_copy;
}
}
menuptr = ptr;
ptr = parse_next_word(ptr);
if (menuptr[0] == '\0') {
/* TRANSLATORS: Do not translate the word "all". */
rcfile_error(N_("Must specify a menu (or \"all\") in which to bind/unbind the key"));
goto free_copy;
}
if (dobind) {
newsc = strtosc(funcptr);
if (newsc == NULL) {
rcfile_error(N_("Cannot map name \"%s\" to a function"), funcptr);
goto free_copy;
}
}
menu = strtomenu(menuptr);
if (menu < 1) {
rcfile_error(N_("Cannot map name \"%s\" to a menu"), menuptr);
goto free_copy;
}
#ifdef DEBUG
if (dobind)
fprintf(stderr, "newsc address is now %ld, assigned func = %ld, menu = %x\n",
(long)&newsc, (long)newsc->scfunc, menu);
else
fprintf(stderr, "unbinding \"%s\" from menu %x\n", keycopy, menu);
#endif
if (dobind) {
subnfunc *f;
int mask = 0;
/* Tally up the menus where the function exists. */
for (f = allfuncs; f != NULL; f = f->next)
if (f->scfunc == newsc->scfunc)
mask = mask | f->menus;
#ifndef NANO_TINY
/* Handle the special case of the toggles. */
if (newsc->scfunc == do_toggle_void)
mask = MMAIN;
#endif
/* Now limit the given menu to those where the function exists. */
if (is_universal(newsc->scfunc))
menu = menu & MMOST;
else
menu = menu & mask;
if (!menu) {
rcfile_error(N_("Function '%s' does not exist in menu '%s'"), funcptr, menuptr);
free(newsc);
goto free_copy;
}
newsc->menus = menu;
assign_keyinfo(newsc, keycopy, 0);
/* Do not allow rebinding a frequent escape-sequence starter: Esc [. */
if (newsc->meta && newsc->keycode == 91) {
rcfile_error(N_("Sorry, keystroke \"%s\" may not be rebound"), newsc->keystr);
free(newsc);
goto free_copy;
}
#ifdef DEBUG
fprintf(stderr, "s->keystr = \"%s\"\n", newsc->keystr);
fprintf(stderr, "s->keycode = \"%d\"\n", newsc->keycode);
#endif
}
/* Now find and delete any existing same shortcut in the menu(s). */
for (s = sclist; s != NULL; s = s->next) {
if ((s->menus & menu) && !strcmp(s->keystr, keycopy)) {
#ifdef DEBUG
fprintf(stderr, "deleting entry from among menus %x\n", s->menus);
#endif
s->menus &= ~menu;
}
}
if (dobind) {
#ifndef NANO_TINY
/* If this is a toggle, copy its sequence number. */
if (newsc->scfunc == do_toggle_void) {
for (s = sclist; s != NULL; s = s->next)
if (s->scfunc == do_toggle_void && s->toggle == newsc->toggle)
newsc->ordinal = s->ordinal;
} else
newsc->ordinal = 0;
#endif
/* Add the new shortcut at the start of the list. */
newsc->next = sclist;
sclist = newsc;
return;
}
free_copy:
free(keycopy);
}
/* Verify that the given file is not a folder nor a device. */
bool is_good_file(char *file)
{
struct stat rcinfo;
/* If the thing exists, it may not be a directory nor a device. */
if (stat(file, &rcinfo) != -1 && (S_ISDIR(rcinfo.st_mode) ||
S_ISCHR(rcinfo.st_mode) || S_ISBLK(rcinfo.st_mode))) {
rcfile_error(S_ISDIR(rcinfo.st_mode) ? _("\"%s\" is a directory") :
_("\"%s\" is a device file"), file);
return FALSE;
} else
return TRUE;
}
#ifndef DISABLE_COLOR
/* Read and parse one included syntax file. */
static void parse_one_include(char *file)
{
FILE *rcstream;
/* Don't open directories, character files, or block files. */
if (!is_good_file(file))
return;
/* Open the included syntax file. */
rcstream = fopen(file, "rb");
if (rcstream == NULL) {
rcfile_error(_("Error reading %s: %s"), file, strerror(errno));
return;
}
/* Use the name and line number position of the included syntax file
* while parsing it, so we can know where any errors in it are. */
nanorc = file;
lineno = 0;
#ifdef DEBUG
fprintf(stderr, "Parsing file \"%s\"\n", file);
#endif
parse_rcfile(rcstream, TRUE);
}
/* Expand globs in the passed name, and parse the resultant files. */
void parse_includes(char *ptr)
{
char *option, *nanorc_save = nanorc, *expanded;
size_t lineno_save = lineno, i;
glob_t files;
option = ptr;
if (*option == '"')
option++;
ptr = parse_argument(ptr);
/* Expand tildes first, then the globs. */
expanded = real_dir_from_tilde(option);
if (glob(expanded, GLOB_ERR|GLOB_NOSORT, NULL, &files) == 0) {
for (i = 0; i < files.gl_pathc; ++i)
parse_one_include(files.gl_pathv[i]);
} else
rcfile_error(_("Error expanding %s: %s"), option, strerror(errno));
globfree(&files);
free(expanded);
/* We're done with the included file(s). Restore the original
* filename and line number position. */
nanorc = nanorc_save;
lineno = lineno_save;
}
/* Return the short value corresponding to the color named in colorname,
* and set bright to TRUE if that color is bright. */
short color_to_short(const char *colorname, bool *bright)
{
if (strncasecmp(colorname, "bright", 6) == 0) {
*bright = TRUE;
colorname += 6;
}
if (strcasecmp(colorname, "green") == 0)
return COLOR_GREEN;
else if (strcasecmp(colorname, "red") == 0)
return COLOR_RED;
else if (strcasecmp(colorname, "blue") == 0)
return COLOR_BLUE;
else if (strcasecmp(colorname, "white") == 0)
return COLOR_WHITE;
else if (strcasecmp(colorname, "yellow") == 0)
return COLOR_YELLOW;
else if (strcasecmp(colorname, "cyan") == 0)
return COLOR_CYAN;
else if (strcasecmp(colorname, "magenta") == 0)
return COLOR_MAGENTA;
else if (strcasecmp(colorname, "black") == 0)
return COLOR_BLACK;
rcfile_error(N_("Color \"%s\" not understood.\n"
"Valid colors are \"green\", \"red\", \"blue\",\n"
"\"white\", \"yellow\", \"cyan\", \"magenta\" and\n"
"\"black\", with the optional prefix \"bright\"\n"
"for foreground colors."), colorname);
return -1;
}
/* Parse the color string in the line at ptr, and add it to the current
* file's associated colors. rex_flags are the regex compilation flags
* to use, excluding or including REG_ICASE for case (in)sensitivity. */
void parse_colors(char *ptr, int rex_flags)
{
short fg, bg;
bool bright = FALSE;
char *item;
if (!opensyntax) {
rcfile_error(
N_("A '%s' command requires a preceding 'syntax' command"),
"color");
return;
}
if (*ptr == '\0') {
rcfile_error(N_("Missing color name"));
return;
}
item = ptr;
ptr = parse_next_word(ptr);
if (!parse_color_names(item, &fg, &bg, &bright))
return;
if (*ptr == '\0') {
rcfile_error(N_("Missing regex string after '%s' command"), "color");
return;
}
/* Now for the fun part. Start adding regexes to individual strings
* in the colorstrings array, woo! */
while (ptr != NULL && *ptr != '\0') {
colortype *newcolor = NULL;
/* The container for a color plus its regexes. */
bool goodstart;
/* Whether the start expression was valid. */
bool expectend = FALSE;
/* Whether to expect an end= line. */
if (strncasecmp(ptr, "start=", 6) == 0) {
ptr += 6;
expectend = TRUE;
}
if (*ptr != '"') {
rcfile_error(
N_("Regex strings must begin and end with a \" character"));
ptr = parse_next_regex(ptr);
continue;
}
item = ++ptr;
ptr = parse_next_regex(ptr);
if (ptr == NULL)
break;
if (*item == '\0') {
rcfile_error(N_("Empty regex string"));
goodstart = FALSE;
} else
goodstart = nregcomp(item, rex_flags);
/* If the starting regex is valid, initialize a new color struct,
* and hook it in at the tail of the linked list. */
if (goodstart) {
newcolor = (colortype *)nmalloc(sizeof(colortype));
newcolor->fg = fg;
newcolor->bg = bg;
newcolor->bright = bright;
newcolor->rex_flags = rex_flags;
newcolor->start_regex = mallocstrcpy(NULL, item);
newcolor->start = NULL;
newcolor->end_regex = NULL;
newcolor->end = NULL;
newcolor->next = NULL;
if (lastcolor == NULL)
live_syntax->color = newcolor;
else
lastcolor->next = newcolor;
lastcolor = newcolor;
}
if (!expectend)
continue;
if (ptr == NULL || strncasecmp(ptr, "end=", 4) != 0) {
rcfile_error(N_("\"start=\" requires a corresponding \"end=\""));
return;
}
ptr += 4;
if (*ptr != '"') {
rcfile_error(N_("Regex strings must begin and end with a \" character"));
continue;
}
item = ++ptr;
ptr = parse_next_regex(ptr);
if (ptr == NULL)
break;
if (*item == '\0') {
rcfile_error(N_("Empty regex string"));
continue;
}
/* If the start regex was invalid, skip past the end regex
* to stay in sync. */
if (!goodstart)
continue;
/* If it's valid, save the ending regex string. */
if (nregcomp(item, rex_flags))
newcolor->end_regex = mallocstrcpy(NULL, item);
/* Lame way to skip another static counter. */
newcolor->id = live_syntax->nmultis;
live_syntax->nmultis++;
}
}
/* Parse the color name, or pair of color names, in combostr. */
bool parse_color_names(char *combostr, short *fg, short *bg, bool *bright)
{
char *comma = strchr(combostr, ',');
if (comma != NULL) {
*bg = color_to_short(comma + 1, bright);
if (*bright) {
rcfile_error(N_("A background color cannot be bright"));
return FALSE;
}
*comma = '\0';
} else
*bg = -1;
if (comma != combostr) {
*fg = color_to_short(combostr, bright);
/* If the specified foreground color is bad, ignore the regexes. */
if (*fg == -1)
return FALSE;
} else
*fg = -1;
return TRUE;
}
/* Read regex strings enclosed in double quotes from the line pointed at
* by ptr, and store them quoteless in the passed storage place. */
void grab_and_store(const char *kind, char *ptr, regexlisttype **storage)
{
regexlisttype *lastthing;
if (!opensyntax) {
rcfile_error(
N_("A '%s' command requires a preceding 'syntax' command"), kind);
return;
}
/* The default syntax doesn't take any file matching stuff. */
if (strcmp(live_syntax->name, "default") == 0 && *ptr != '\0') {
rcfile_error(
N_("The \"default\" syntax does not accept '%s' regexes"), kind);
return;
}
if (*ptr == '\0') {
rcfile_error(N_("Missing regex string after '%s' command"), kind);
return;
}
lastthing = *storage;
/* If there was an earlier command, go to the last of those regexes. */
while (lastthing != NULL && lastthing->next != NULL)
lastthing = lastthing->next;
/* Now gather any valid regexes and add them to the linked list. */
while (*ptr != '\0') {
const char *regexstring;
regexlisttype *newthing;
if (*ptr != '"') {
rcfile_error(
N_("Regex strings must begin and end with a \" character"));
return;
}
regexstring = ++ptr;
ptr = parse_next_regex(ptr);
if (ptr == NULL)
return;
/* If the regex string is malformed, skip it. */
if (!nregcomp(regexstring, NANO_REG_EXTENDED | REG_NOSUB))
continue;
/* Copy the regex into a struct, and hook this in at the end. */
newthing = (regexlisttype *)nmalloc(sizeof(regexlisttype));
newthing->full_regex = mallocstrcpy(NULL, regexstring);
newthing->next = NULL;
if (lastthing == NULL)
*storage = newthing;
else
lastthing->next = newthing;
lastthing = newthing;
}
}
/* Gather and store the string after a comment/linter/formatter command. */
void pick_up_name(const char *kind, char *ptr, char **storage)
{
assert(ptr != NULL);
if (!opensyntax) {
rcfile_error(
N_("A '%s' command requires a preceding 'syntax' command"), kind);
return;
}
if (*ptr == '\0') {
rcfile_error(N_("Missing argument after '%s'"), kind);
return;
}
/* If the argument starts with a quote, find the terminating quote. */
if (*ptr == '"') {
char *look = ++ptr;
look += strlen(ptr);
while (*look != '"') {
if (--look < ptr) {
rcfile_error(N_("Argument of '%s' lacks closing \""), kind);
return;
}
}
*look = '\0';
}
*storage = mallocstrcpy(*storage, ptr);
}
#endif /* !DISABLE_COLOR */
/* Verify that the user has not unmapped every shortcut for a
* function that we consider 'vital' (such as "Exit"). */
static void check_vitals_mapped(void)
{
subnfunc *f;
int v;
#define VITALS 5
void (*vitals[VITALS])(void) = { do_exit, do_exit, do_cancel, do_cancel, do_cancel };
int inmenus[VITALS] = { MMAIN, MHELP, MWHEREIS, MREPLACE, MGOTOLINE };
for (v = 0; v < VITALS; v++) {
for (f = allfuncs; f != NULL; f = f->next) {
if (f->scfunc == vitals[v] && f->menus & inmenus[v]) {
const sc *s = first_sc_for(inmenus[v], f->scfunc);
if (!s) {
fprintf(stderr, _("Fatal error: no keys mapped for function "
"\"%s\". Exiting.\n"), f->desc);
fprintf(stderr, _("If needed, use nano with the -I option "
"to adjust your nanorc settings.\n"));
exit(1);
}
break;
}
}
}
}
/* Parse the rcfile, once it has been opened successfully at rcstream,
* and close it afterwards. If syntax_only is TRUE, allow the file to
* to contain only color syntax commands. */
void parse_rcfile(FILE *rcstream, bool syntax_only)
{
char *buf = NULL;
ssize_t len;
size_t n = 0;
while ((len = getline(&buf, &n, rcstream)) > 0) {
char *ptr, *keyword, *option;
int set = 0;
size_t i;
/* Ignore the newline. */
if (buf[len - 1] == '\n')
buf[len - 1] = '\0';
lineno++;
ptr = buf;
while (isblank((unsigned char)*ptr))
ptr++;
/* If we have a blank line or a comment, skip to the next
* line. */
if (*ptr == '\0' || *ptr == '#')
continue;
/* Otherwise, skip to the next space. */
keyword = ptr;
ptr = parse_next_word(ptr);
#ifndef DISABLE_COLOR
/* Handle extending first... */
if (strcasecmp(keyword, "extendsyntax") == 0) {
syntaxtype *sint;
char *syntaxname = ptr;
ptr = parse_next_word(ptr);
for (sint = syntaxes; sint != NULL; sint = sint->next)
if (!strcmp(sint->name, syntaxname))
break;
if (sint == NULL) {
rcfile_error(N_("Could not find syntax \"%s\" to extend"),
syntaxname);
opensyntax = FALSE;
continue;
}
live_syntax = sint;
opensyntax = TRUE;
/* Refind the tail of the color list for this syntax. */
lastcolor = sint->color;
if (lastcolor != NULL)
while (lastcolor->next != NULL)
lastcolor = lastcolor->next;
keyword = ptr;
ptr = parse_next_word(ptr);
}
/* Try to parse the keyword. */
if (strcasecmp(keyword, "syntax") == 0) {
if (opensyntax && lastcolor == NULL)
rcfile_error(N_("Syntax \"%s\" has no color commands"),
live_syntax->name);
parse_syntax(ptr);
}
else if (strcasecmp(keyword, "header") == 0)
grab_and_store("header", ptr, &live_syntax->headers);
else if (strcasecmp(keyword, "magic") == 0)
#ifdef HAVE_LIBMAGIC
grab_and_store("magic", ptr, &live_syntax->magics);
#else
;
#endif
else if (strcasecmp(keyword, "comment") == 0)
#ifdef ENABLE_COMMENT
pick_up_name("comment", ptr, &live_syntax->comment);
#else
;
#endif
else if (strcasecmp(keyword, "color") == 0)
parse_colors(ptr, NANO_REG_EXTENDED);
else if (strcasecmp(keyword, "icolor") == 0)
parse_colors(ptr, NANO_REG_EXTENDED | REG_ICASE);
else if (strcasecmp(keyword, "linter") == 0)
pick_up_name("linter", ptr, &live_syntax->linter);
else if (strcasecmp(keyword, "formatter") == 0)
#ifndef DISABLE_SPELLER
pick_up_name("formatter", ptr, &live_syntax->formatter);
#else
;
#endif
else if (syntax_only)
rcfile_error(N_("Command \"%s\" not allowed in included file"),
keyword);
else if (strcasecmp(keyword, "include") == 0)
parse_includes(ptr);
else
#endif /* !DISABLE_COLOR */
if (strcasecmp(keyword, "set") == 0)
set = 1;
else if (strcasecmp(keyword, "unset") == 0)
set = -1;
else if (strcasecmp(keyword, "bind") == 0)
parse_binding(ptr, TRUE);
else if (strcasecmp(keyword, "unbind") == 0)
parse_binding(ptr, FALSE);
else
rcfile_error(N_("Command \"%s\" not understood"), keyword);
#ifndef DISABLE_COLOR
/* If a syntax was extended, it stops at the end of the command. */
if (live_syntax != syntaxes)
opensyntax = FALSE;
#endif
if (set == 0)
continue;
if (*ptr == '\0') {
rcfile_error(N_("Missing option"));
continue;
}
option = ptr;
ptr = parse_next_word(ptr);
/* Find the just read name among the existing options. */
for (i = 0; rcopts[i].name != NULL; i++) {
if (strcasecmp(option, rcopts[i].name) == 0)
break;
}
if (rcopts[i].name == NULL) {
rcfile_error(N_("Unknown option \"%s\""), option);
continue;
}
#ifdef DEBUG
fprintf(stderr, " Option name = \"%s\"\n", rcopts[i].name);
fprintf(stderr, " Flag = %ld\n", rcopts[i].flag);
#endif
/* First handle unsetting. */
if (set == -1) {
if (rcopts[i].flag != 0)
UNSET(rcopts[i].flag);
else
rcfile_error(N_("Cannot unset option \"%s\""), rcopts[i].name);
continue;
}
/* If the option has a flag, it doesn't take an argument. */
if (rcopts[i].flag != 0) {
SET(rcopts[i].flag);
continue;
}
/* The option doesn't have a flag, so it takes an argument. */
if (*ptr == '\0') {
rcfile_error(N_("Option \"%s\" requires an argument"),
rcopts[i].name);
continue;
}
option = ptr;
if (*option == '"')
option++;
ptr = parse_argument(ptr);
option = mallocstrcpy(NULL, option);
#ifdef DEBUG
fprintf(stderr, " Option argument = \"%s\"\n", option);
#endif
/* Make sure the option argument is a valid multibyte string. */
if (!is_valid_mbstring(option)) {
rcfile_error(N_("Argument is not a valid multibyte string"));
continue;
}
#ifndef DISABLE_COLOR
if (strcasecmp(rcopts[i].name, "titlecolor") == 0)
specified_color_combo[TITLE_BAR] = option;
else if (strcasecmp(rcopts[i].name, "numbercolor") == 0)
specified_color_combo[LINE_NUMBER] = option;
else if (strcasecmp(rcopts[i].name, "selectedcolor") == 0)
specified_color_combo[SELECTED_TEXT] = option;
else if (strcasecmp(rcopts[i].name, "statuscolor") == 0)
specified_color_combo[STATUS_BAR] = option;
else if (strcasecmp(rcopts[i].name, "keycolor") == 0)
specified_color_combo[KEY_COMBO] = option;
else if (strcasecmp(rcopts[i].name, "functioncolor") == 0)
specified_color_combo[FUNCTION_TAG] = option;
else
#endif
#ifndef DISABLE_OPERATINGDIR
if (strcasecmp(rcopts[i].name, "operatingdir") == 0)
operating_dir = option;
else
#endif
#ifndef DISABLE_WRAPJUSTIFY
if (strcasecmp(rcopts[i].name, "fill") == 0) {
if (!parse_num(option, &wrap_at)) {
rcfile_error(N_("Requested fill size \"%s\" is invalid"),
option);
wrap_at = -CHARS_FROM_EOL;
} else
UNSET(NO_WRAP);
free(option);
} else
#endif
#ifndef NANO_TINY
if (strcasecmp(rcopts[i].name, "matchbrackets") == 0) {
matchbrackets = option;
if (has_blank_mbchars(matchbrackets)) {
rcfile_error(N_("Non-blank characters required"));
free(matchbrackets);
matchbrackets = NULL;
}
} else if (strcasecmp(rcopts[i].name, "whitespace") == 0) {
whitespace = option;
if (mbstrlen(whitespace) != 2 || strlenpt(whitespace) != 2) {
rcfile_error(N_("Two single-column characters required"));
free(whitespace);
whitespace = NULL;
} else {
whitespace_len[0] = parse_mbchar(whitespace, NULL, NULL);
whitespace_len[1] = parse_mbchar(whitespace +
whitespace_len[0], NULL, NULL);
}
} else
#endif
#ifndef DISABLE_JUSTIFY
if (strcasecmp(rcopts[i].name, "punct") == 0) {
punct = option;
if (has_blank_mbchars(punct)) {
rcfile_error(N_("Non-blank characters required"));
free(punct);
punct = NULL;
}
} else if (strcasecmp(rcopts[i].name, "brackets") == 0) {
brackets = option;
if (has_blank_mbchars(brackets)) {
rcfile_error(N_("Non-blank characters required"));
free(brackets);
brackets = NULL;
}
} else if (strcasecmp(rcopts[i].name, "quotestr") == 0)
quotestr = option;
else
#endif
#ifndef NANO_TINY
if (strcasecmp(rcopts[i].name, "backupdir") == 0)
backup_dir = option;
else
if (strcasecmp(rcopts[i].name, "wordchars") == 0)
word_chars = option;
else
#endif
#ifndef DISABLE_SPELLER
if (strcasecmp(rcopts[i].name, "speller") == 0)
alt_speller = option;
else
#endif
if (strcasecmp(rcopts[i].name, "tabsize") == 0) {
if (!parse_num(option, &tabsize) || tabsize <= 0) {
rcfile_error(N_("Requested tab size \"%s\" is invalid"),
option);
tabsize = -1;
}
free(option);
} else
assert(FALSE);
}
#ifndef DISABLE_COLOR
if (opensyntax && lastcolor == NULL)
rcfile_error(N_("Syntax \"%s\" has no color commands"),
live_syntax->name);
opensyntax = FALSE;
#endif
free(buf);
fclose(rcstream);
lineno = 0;
return;
}
/* Read and interpret one of the two nanorc files. */
void parse_one_nanorc(void)
{
FILE *rcstream;
/* Don't try to open directories nor devices. */
if (!is_good_file(nanorc))
return;
#ifdef DEBUG
fprintf(stderr, "Going to parse file \"%s\"\n", nanorc);
#endif
rcstream = fopen(nanorc, "rb");
/* If opening the file succeeded, parse it. Otherwise, only
* complain if the file actually exists. */
if (rcstream != NULL)
parse_rcfile(rcstream, FALSE);
else if (errno != ENOENT)
rcfile_error(N_("Error reading %s: %s"), nanorc, strerror(errno));
}
/* First read the system-wide rcfile, then the user's rcfile. */
void do_rcfiles(void)
{
nanorc = mallocstrcpy(nanorc, SYSCONFDIR "/nanorc");
/* Process the system-wide nanorc. */
parse_one_nanorc();
/* When configured with --disable-wrapping-as-root, turn wrapping off
* for root, so that only root's .nanorc or --fill can turn it on. */
#ifdef DISABLE_ROOTWRAPPING
if (geteuid() == NANO_ROOT_UID)
SET(NO_WRAP);
#endif
get_homedir();
if (homedir == NULL)
rcfile_error(N_("I can't find my home directory! Wah!"));
else {
nanorc = charealloc(nanorc, strlen(homedir) + strlen(RCFILE_NAME) + 2);
sprintf(nanorc, "%s/%s", homedir, RCFILE_NAME);
/* Process the current user's nanorc. */
parse_one_nanorc();
}
check_vitals_mapped();
free(nanorc);
if (errors && !ISSET(QUIET) && !ISSET(NO_PAUSES)) {
errors = FALSE;
fprintf(stderr, _("\nPress Enter to continue starting nano.\n"));
while (getchar() != '\n')
;
}
}
#endif /* ENABLE_NANORC */