/* $Id$ */ /************************************************************************** * files.c * * * * Copyright (C) 1999 Chris Allegretta * * This program 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 1, or (at your option) * * any later version. * * * * This program 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, write to the Free Software * * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * * **************************************************************************/ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include "proto.h" #include "nano.h" #ifndef NANO_SMALL #include #define _(string) gettext(string) #else #define _(string) (string) #endif /* Load file into edit buffer - takes data from file struct */ void load_file(int quiet) { current = fileage; #ifdef ENABLE_MULTIBUFFER /* if quiet is zero, add a new entry to the open_files structure, and do duplicate checking; otherwise, update the current entry and don't do duplicate checking (the latter is needed in the case of the alternate spell checker); if a duplicate entry was found, reload the currently open file (it may have been changed during duplicate handling) */ if (quiet != 0) quiet = 1; if (add_open_file(quiet, 1 - quiet) == 2) load_open_file(); #endif wmove(edit, current_y, current_x); } /* What happens when there is no file to open? aiee! */ void new_file(void) { fileage = nmalloc(sizeof(filestruct)); fileage->data = charalloc(1); strcpy(fileage->data, ""); fileage->prev = NULL; fileage->next = NULL; fileage->lineno = 1; filebot = fileage; edittop = fileage; editbot = fileage; current = fileage; totlines = 1; #ifdef ENABLE_MULTIBUFFER /* if there aren't any entries in open_files, create the entry for this new file, and, of course, don't bother checking for duplicates; without this, if nano is started without a filename on the command line, a new file will be created, but it will be given no open_files entry, leading to problems later on */ if (!open_files) add_open_file(0, 0); #endif UNSET(VIEW_MODE); } int read_byte(int fd, char *filename, char *input) { static char buf[BUFSIZ]; static int index = 0; static int size = 0; if (index == size) { index = 0; size = read(fd, buf, BUFSIZ); if (size == -1) { clear(); refresh(); resetty(); endwin(); perror(filename); } if (!size) return 0; } *input = buf[index++]; return 1; } filestruct *read_line(char *buf, filestruct * prev, int *line1ins) { filestruct *fileptr; fileptr = nmalloc(sizeof(filestruct)); fileptr->data = charalloc(strlen(buf) + 2); strcpy(fileptr->data, buf); #ifndef NANO_SMALL /* If it's a DOS file (CRLF), strip out the CR part*/ if (buf[strlen(buf) - 1] == '\r') { fileptr->data[strlen(buf) - 1] = 0; totsize--; } #endif if (*line1ins) { /* Special case, insert with cursor on 1st line. */ fileptr->prev = NULL; fileptr->next = fileage; fileptr->lineno = 1; *line1ins = 0; /* If we're inserting into the first line of the file, then we want to make sure that our edit buffer stays on the first line (and that fileage stays up to date!) */ fileage = fileptr; edittop = fileptr; } else if (fileage == NULL) { fileage = fileptr; fileage->lineno = 1; fileage->next = fileage->prev = NULL; fileptr = filebot = fileage; } else if (prev) { fileptr->prev = prev; fileptr->next = NULL; fileptr->lineno = prev->lineno + 1; prev->next = fileptr; } else { die(_("read_line: not on first line and prev is NULL")); } return fileptr; } int read_file(int fd, char *filename, int quiet) { long size, num_lines = 0, linetemp = 0; char input[2]; /* buffer */ char *buf; long i = 0, bufx = 128; filestruct *fileptr = current, *tmp = NULL; int line1ins = 0; buf = charalloc(bufx); buf[0] = '\0'; if (fileptr != NULL && fileptr->prev != NULL) { fileptr = fileptr->prev; tmp = fileptr; } else if (fileptr != NULL && fileptr->prev == NULL) { tmp = fileage; current = fileage; line1ins = 1; } input[1] = 0; /* Read the entire file into file struct */ while ((size = read_byte(fd, filename, input)) > 0) { linetemp = 0; if (input[0] == '\n') { fileptr = read_line(buf, fileptr, &line1ins); num_lines++; buf[0] = 0; i = 0; #ifndef NANO_SMALL /* If it's a Mac file (no LF just a CR), handle it! */ } else if (i > 0 && buf[i-1] == '\r') { fileptr = read_line(buf, fileptr, &line1ins); num_lines++; buf[0] = input[0]; buf[1] = 0; i = 1; #endif } else { /* Now we allocate a bigger buffer 128 characters at a time. If we allocate a lot of space for one line, we may indeed have to use a buffer this big later on, so we don't decrease it at all. We do free it at the end, though. */ if (i >= bufx - 1) { buf = nrealloc(buf, bufx + 128); bufx += 128; } buf[i] = input[0]; buf[i + 1] = 0; i++; } totsize += size; } /* Did we not get a newline but still have stuff to do? */ if (buf[0]) { fileptr = read_line(buf, fileptr, &line1ins); num_lines++; buf[0] = 0; } /* Did we even GET a file? */ if (totsize == 0 || fileptr == NULL) { new_file(); statusbar(_("Read %d lines"), num_lines); return 1; } if (current != NULL) { fileptr->next = current; current->prev = fileptr; renumber(current); current_x = 0; placewewant = 0; } else if (fileptr->next == NULL) { filebot = fileptr; new_magicline(); totsize--; /* Update the edit buffer */ load_file(quiet); } statusbar(_("Read %d lines"), num_lines); totlines += num_lines; free(buf); close(fd); return 1; } /* Open the file (and decide if it exists) */ int open_file(char *filename, int insert, int quiet) { int fd; struct stat fileinfo; if (!strcmp(filename, "") || stat(filename, &fileinfo) == -1) { if (insert) { if (!quiet) statusbar(_("\"%s\" not found"), filename); return -1; } else { /* We have a new file */ statusbar(_("New File")); new_file(); } } else if ((fd = open(filename, O_RDONLY)) == -1) { if (!quiet) statusbar("%s: %s", strerror(errno), filename); if (!insert) new_file(); return -1; } else { /* File is A-OK */ if (S_ISDIR(fileinfo.st_mode) || S_ISCHR(fileinfo.st_mode) || S_ISBLK(fileinfo.st_mode)) { if (S_ISDIR(fileinfo.st_mode)) statusbar(_("File \"%s\" is a directory"), filename); else /* Don't open character or block files. Sorry, /dev/sndstat! */ statusbar(_("File \"%s\" is a device file"), filename); if (!insert) new_file(); return -1; } if (!quiet) statusbar(_("Reading File")); read_file(fd, filename, quiet); } return 1; } int do_insertfile(int loading_file) { int i; char *realname = NULL; wrap_reset(); #ifndef DISABLE_MOUSE currshortcut = insertfile_list; currslen = INSERTFILE_LIST_LEN; #endif i = statusq(1, insertfile_list, INSERTFILE_LIST_LEN, "", _("File to insert [from ./] ")); if (i != -1) { #ifdef DEBUG fprintf(stderr, _("filename is %s"), answer); #endif #ifndef DISABLE_TABCOMP realname = real_dir_from_tilde(answer); #else realname = mallocstrcpy(realname, answer); #endif #ifndef DISABLE_BROWSER if (i == NANO_TOFILES_KEY) { char *tmp = do_browse_from(realname); #ifndef DISABLE_MOUSE currshortcut = insertfile_list; currslen = INSERTFILE_LIST_LEN; #endif #ifdef DISABLE_TABCOMP realname = NULL; #endif if (tmp != NULL) realname = mallocstrcpy(realname, tmp); else return do_insertfile(loading_file); } #endif #ifndef DISABLE_OPERATINGDIR if (operating_dir) { if (check_operating_dir(realname, 0)) { statusbar(_("Can't insert file from outside of %s"), operating_dir); return 0; } } #endif #ifdef ENABLE_MULTIBUFFER if (loading_file) { /* update the current entry in the open_files structure; we don't need to check for duplicate entries (the conditions that could create them are taken care of elsewhere) */ add_open_file(1, 0); free_filestruct(current); new_file(); UNSET(MODIFIED); } #endif i = open_file(realname, 1, 0); #ifdef ENABLE_MULTIBUFFER if (loading_file) filename = mallocstrcpy(filename, realname); #endif free(realname); dump_buffer(fileage); #ifdef ENABLE_MULTIBUFFER if (loading_file) load_file(0); else #endif set_modified(); /* Here we want to rebuild the edit window */ fix_editbot(); #ifdef ENABLE_MULTIBUFFER /* If we've loaded another file, update the titlebar's contents */ if (loading_file) { clearok(topwin, FALSE); titlebar(NULL); /* And re-init the shortcut list */ shortcut_init(0); } #endif /* If we've gone off the bottom, recenter; otherwise, just redraw */ if (current->lineno > editbot->lineno) edit_update(current, CENTER); else edit_refresh(); UNSET(KEEP_CUTBUFFER); display_main_list(); return i; } else { statusbar(_("Cancelled")); UNSET(KEEP_CUTBUFFER); display_main_list(); return 0; } } int do_insertfile_void(void) { int result = 0; #ifdef ENABLE_MULTIBUFFER result = do_insertfile(ISSET(MULTIBUFFER)); #else result = do_insertfile(0); #endif display_main_list(); return result; } #ifdef ENABLE_MULTIBUFFER /* * Add/update an entry to the open_files filestruct. If update is * zero, a new entry is created; otherwise, the current entry is updated. * If dup_fix is zero, checking for and handling duplicate entries is not * done; otherwise, it is. Return 0 on success, 1 on error, or 2 on * finding a duplicate entry. */ int add_open_file(int update, int dup_fix) { filestruct *tmp; if (!current || !filename) return 1; /* first, if duplicate checking is allowed, do it */ if (dup_fix) { /* if duplicates were found and handled, we're done */ if (open_file_dup_fix(update)) return 2; } /* if no entries, make the first one */ if (!open_files) { open_files = make_new_node(NULL); /* if open_files->file is NULL at the nrealloc() below, we get a segfault */ open_files->file = open_files; } else if (!update) { /* otherwise, if we're not updating, make a new entry for open_files and splice it in after the current one */ #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif tmp = make_new_node(NULL); splice_node(open_files, tmp, open_files->next); open_files = open_files->next; /* if open_files->file is NULL at the nrealloc() below, we get a segfault */ open_files->file = open_files; } /* save current filename */ open_files->data = mallocstrcpy(open_files->data, filename); /* save the full path location */ open_files->file_path = get_full_path(open_files->data); /* save current total number of lines */ open_files->file_totlines = totlines; /* save current total size */ open_files->file_totsize = totsize; /* save current x-coordinate position */ open_files->file_current_x = current_x; /* save current y-coordinate position */ open_files->file_current_y = current_y; /* save current place we want */ open_files->file_placewewant = placewewant; /* save current line number */ open_files->lineno = current->lineno; /* save current filestruct */ open_files->file = nrealloc(open_files->file, sizeof(filestruct)); while (current->prev) current = current->prev; open_files->file = copy_filestruct(current); do_gotopos(open_files->lineno, open_files->file_current_x, open_files->file_current_y, open_files->file_placewewant); /* save current modification status */ open_files->file_modified = ISSET(MODIFIED); #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif return 0; } /* * Update only the filename and full path stored in the current entry. * Return 0 on success or 1 on error. */ int open_file_change_name(void) { if (!open_files || !filename) return 1; /* save current filename */ open_files->data = mallocstrcpy(open_files->data, filename); /* save the full path location */ open_files->file_path = get_full_path(open_files->data); return 0; } /* * Read the current entry in the open_files structure and set up the * currently open file using that entry's information. Return 0 on * success or 1 on error. */ int load_open_file(void) { if (!open_files) return 1; /* set up the filename, the file buffer, the total number of lines in the file, and the total file size */ filename = mallocstrcpy(filename, open_files->data); fileage = copy_filestruct(open_files->file); current = fileage; totlines = open_files->file_totlines; totsize = open_files->file_totsize; /* restore full file position: line number, x-coordinate, y- coordinate, place we want */ do_gotopos(open_files->lineno, open_files->file_current_x, open_files->file_current_y, open_files->file_placewewant); /* set up modification status and update the titlebar */ if (open_files->file_modified) SET(MODIFIED); else UNSET(MODIFIED); clearok(topwin, FALSE); titlebar(NULL); /* if we're constantly displaying the cursor position, update it */ if (ISSET(CONSTUPDATE)) do_cursorpos(); /* now we're done */ return 0; } /* * Search the open_files structure for an entry with the same value for * the file_path member as the current entry (i. e. a duplicate entry). * If one is found, return a pointer to it; otherwise, return NULL. * * Note: This should only be called inside open_file_dup_fix(). */ filestruct *open_file_dup_search(int update) { filestruct *tmp; char *path; if (!open_files || !filename) return NULL; tmp = open_files; path = get_full_path(filename); /* if there's only one entry, handle it */ if (!tmp->prev && !tmp->next) { if (!strcmp(tmp->file_path, path)) return tmp; } /* otherwise, go to the beginning */ while (tmp->prev) tmp = tmp->prev; /* and search the entries one by one */ while (tmp) { if (!strcmp(tmp->file_path, path)) { if (!update) /* if we're making a new entry and there's an entry with the same full path, we've found a duplicate */ return tmp; else { /* if we're updating an existing entry and there's an entry with the same full path that isn't the current entry, we've found a duplicate */ if (tmp != open_files) return tmp; } } /* go to the next entry */ tmp = tmp->next; } return NULL; } /* * Search for duplicate entries in the open_files structure using * open_file_dup_search(), and, if one is found, handle it properly. * Return 0 if no duplicates were found, and 1 otherwise. */ int open_file_dup_fix(int update) { filestruct *tmp = open_file_dup_search(update); if (!tmp) return 0; /* if there's only one entry, handle it */ if (!tmp->prev && !tmp->next) return 1; /* otherwise, if we're not updating, the user's trying to load a duplicate; switch to the original instead */ if (!update) { open_files = tmp; return 1; } /* if we are updating, the filename's been changed via a save; it's thus more recent than the original, so remove the original */ else { unlink_node(tmp); free_filestruct(tmp->file); free(tmp->file_path); delete_node(tmp); } return 0; } /* * Open the previous entry in the open_files structure. If closing_file * is zero, update the current entry before switching from it. * Otherwise, we are about to close that entry, so don't bother doing so. * Return 0 on success and 1 on error. */ int open_prevfile(int closing_file) { if (!open_files) return 1; /* if we're not about to close the current entry, update it before doing anything; since we're only switching, we don't need to check for duplicate entries */ if (!closing_file) add_open_file(1, 0); if (!open_files->prev && !open_files->next) { /* only one file open */ if (!closing_file) statusbar(_("No more open files")); return 1; } if (open_files->prev) { open_files = open_files->prev; #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif } else if (open_files->next) { /* if we're at the beginning, wrap around to the end */ while (open_files->next) open_files = open_files->next; #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif } load_open_file(); #ifdef DEBUG dump_buffer(current); #endif return 0; } /* * Open the next entry in the open_files structure. If closing_file is * zero, update the current entry before switching from it. Otherwise, we * are about to close that entry, so don't bother doing so. Return 0 on * success and 1 on error. */ int open_nextfile(int closing_file) { if (!open_files) return 1; /* if we're not about to close the current entry, update it before doing anything; since we're only switching, we don't need to check for duplicate entries */ if (!closing_file) add_open_file(1, 0); if (!open_files->prev && !open_files->next) { /* only one file open */ if (!closing_file) statusbar(_("No more open files")); return 1; } if (open_files->next) { open_files = open_files->next; #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif } else if (open_files->prev) { /* if we're at the end, wrap around to the beginning */ while (open_files->prev) { open_files = open_files->prev; #ifdef DEBUG fprintf(stderr, _("filename is %s"), open_files->data); #endif } } load_open_file(); #ifdef DEBUG dump_buffer(current); #endif return 0; } /* * Delete an entry from the open_files filestruct. After deletion of an * entry, the next or previous entry is opened, whichever is found first. * Return 0 on success or 1 on error. */ int close_open_file(void) { filestruct *tmp; if (!open_files) return 1; tmp = open_files; if (open_nextfile(1)) { if (open_prevfile(1)) return 1; } unlink_node(tmp); free_filestruct(tmp->file); free(tmp->file_path); delete_node(tmp); shortcut_init(0); display_main_list(); return 0; } #endif #if defined (ENABLE_MULTIBUFFER) || !defined (DISABLE_OPERATINGDIR) /* * When passed "[relative path]" or "[relative path][filename]" in * origpath, return "[full path]" or "[full path][filename]" on success, * or NULL on error. This is still done if the file doesn't exist but * the relative path does (since the file could exist in memory but not * yet on disk); it is not done if the relative path doesn't exist (since * the first call to chdir() will fail then). */ char *get_full_path(char *origpath) { char *newpath = NULL, *last_slash, *d_here, *d_there, *d_there_file, tmp; int path_only, last_slash_index; struct stat fileinfo; /* first, get the current directory, and tack a slash onto the end of it, unless it turns out to be "/", in which case leave it alone */ #ifdef PATH_MAX d_here = getcwd(NULL, PATH_MAX + 1); #else d_here = getcwd(NULL, 0); #endif if (d_here) { align(&d_here); if (strcmp(d_here, "/")) { d_here = nrealloc(d_here, strlen(d_here) + 2); strcat(d_here, "/"); } /* stat origpath; if stat() fails, assume that origpath refers to a new file that hasn't been saved to disk yet (i. e. set path_only to 0); if stat() succeeds, set path_only to 0 if origpath doesn't refer to a directory, or to 1 if it does */ path_only = stat(origpath, &fileinfo); if (path_only == -1) path_only = 0; else { if (S_ISDIR(fileinfo.st_mode)) path_only = 1; else path_only = 0; } /* save the value of origpath in both d_there and d_there_file */ d_there = charalloc(strlen(origpath) + 1); d_there_file = charalloc(strlen(origpath) + 1); strcpy(d_there, origpath); strcpy(d_there_file, origpath); /* if we have a path but no filename, tack slashes onto the ends of both d_there and d_there_file, if they don't end in slashes already */ if (path_only) { tmp = d_there[strlen(d_there) - 1]; if (tmp != '/') { d_there = nrealloc(d_there, strlen(d_there) + 2); strcat(d_there, "/"); d_there_file = nrealloc(d_there_file, strlen(d_there_file) + 2); strcat(d_there_file, "/"); } } /* search for the last slash in d_there */ last_slash = strrchr(d_there, '/'); /* if we didn't find one, copy d_here into d_there; all data is then set up */ if (!last_slash) { d_there = nrealloc(d_there, strlen(d_here) + 1); strcpy(d_there, d_here); } else { /* otherwise, remove all non-path elements from d_there (i. e. everything after the last slash) */ last_slash_index = strlen(d_there) - strlen(last_slash); null_at(d_there, last_slash_index + 1); /* and remove all non-file elements from d_there_file (i. e. everything before and including the last slash); if we have a path but no filename, don't do anything */ if (!path_only) { last_slash = strrchr(d_there_file, '/'); last_slash++; strcpy(d_there_file, last_slash); align(&d_there_file); } /* now go to the path specified in d_there */ if (chdir(d_there) != -1) { /* get the full pathname, and save it back in d_there, tacking a slash on the end if we have a path but no filename; if the saving fails, get out */ free(d_there); #ifdef PATH_MAX d_there = getcwd(NULL, PATH_MAX + 1); #else d_there = getcwd(NULL, 0); #endif align(&d_there); if (d_there) { /* add a slash to d_there, unless it's "/", in which case we don't need it */ if (strcmp(d_there, "/")) { d_there = nrealloc(d_there, strlen(d_there) + 2); strcat(d_there, "/"); } } else return NULL; } /* finally, go back to where we were before, d_here (no error checking is done on this chdir(), because we can do nothing if it fails) */ chdir(d_here); } /* all data is set up; fill in newpath */ /* if we have a path and a filename, newpath = d_there + d_there_file; otherwise, newpath = d_there */ if (!path_only) { newpath = charalloc(strlen(d_there) + strlen(d_there_file) + 1); strcpy(newpath, d_there); strcat(newpath, d_there_file); } else { newpath = charalloc(strlen(d_there) + 1); strcpy(newpath, d_there); } /* finally, clean up */ free(d_there_file); free(d_there); free(d_here); } return newpath; } #endif /* ENABLE_MULTIBUFFER || !DISABLE_OPERATINGDIR */ #ifndef DISABLE_OPERATINGDIR /* * Check to see if we're inside the operating directory. Return 0 if we * are, or 1 otherwise. If allow_tabcomp is nonzero, allow incomplete * names that would be matches for the operating directory, so that tab * completion will work. */ int check_operating_dir(char *currpath, int allow_tabcomp) { /* this is static so that we only need to get it the first time this function is called; also, a relative operating directory path will only be handled properly if this is done */ static char *full_operating_dir = NULL; char *fullpath, *whereami1, *whereami2 = NULL; /* if no operating directory is set, don't bother doing anything */ if (!operating_dir) return 0; /* if the operating directory is "/", that's the same as having no operating directory, so discard it and get out */ if (!strcmp(operating_dir, "/")) { operating_dir = NULL; return 0; } /* get the full operating (if we don't have it already) and current directories, and then search the current for the operating (for normal usage) and the operating for the current (for tab completion, if we're allowing it); if the current directory's path doesn't exist, assume we're outside the operating directory */ if (!full_operating_dir) { full_operating_dir = get_full_path(operating_dir); /* if get_full_path() failed, discard the operating directory */ if (!full_operating_dir) { operating_dir = NULL; return 0; } /* if the full operating directory is "/", that's the same as having no operating directory, so discard it and get out */ if (!strcmp(full_operating_dir, "/")) { free(full_operating_dir); operating_dir = NULL; return 0; } } fullpath = get_full_path(currpath); if (!fullpath) return 1; whereami1 = strstr(fullpath, full_operating_dir); if (allow_tabcomp) whereami2 = strstr(full_operating_dir, fullpath); /* if both searches failed, we're outside the operating directory */ if (!whereami1 && !whereami2) return 1; /* check the search results; if the full operating directory path is not at the beginning of the full current path (for normal usage) and vice versa (for tab completion, if we're allowing it), we're outside the operating directory */ if (whereami1 != fullpath && whereami2 != full_operating_dir) return 1; /* otherwise, we're still inside it */ return 0; } #endif /* * Write a file out. If tmp is nonzero, we set the umask to 0600, * we don't set the global variable filename to its name, and don't * print out how many lines we wrote on the statusbar. * * tmp means we are writing a tmp file in a secure fashion. We use * it when spell checking or dumping the file on an error. * * append means, not surprisingly, whether we are appending instead * of overwriting. * * nonamechange means don't change the current filename, it is ignored * if tmp == 1. */ int write_file(char *name, int tmp, int append, int nonamechange) { long size, lineswritten = 0; static char *buf = NULL; filestruct *fileptr; int fd, mask = 0, realexists, anyexists; struct stat st, lst; static char *realname = NULL; if (!strcmp(name, "")) { statusbar(_("Cancelled")); return -1; } titlebar(NULL); fileptr = fileage; if (realname != NULL) free(realname); if (buf != NULL) free(buf); #ifndef DISABLE_TABCOMP realname = real_dir_from_tilde(name); #else realname = mallocstrcpy(realname, name); #endif #ifndef DISABLE_OPERATINGDIR if (!tmp && operating_dir) { /* if we're writing a temporary file, we're going outside the operating directory, so skip the operating directory test */ if (check_operating_dir(realname, 0)) { statusbar(_("Can't write outside of %s"), operating_dir); return -1; } } #endif /* Save the state of file at the end of the symlink (if there is one) */ realexists = stat(realname, &st); /* Stat the link itself for the check... */ anyexists = lstat(realname, &lst); /* New case: if the file exists, just give up */ if (tmp && anyexists != -1) return -1; /* NOTE: If you change this statement, you MUST CHANGE the if statement below (that says: if (realexists == -1 || tmp || (!ISSET(FOLLOW_SYMLINKS) && S_ISLNK(lst.st_mode))) { to reflect whether or not to link/unlink/rename the file */ else if (ISSET(FOLLOW_SYMLINKS) || !S_ISLNK(lst.st_mode) || tmp) { /* Use O_EXCL if tmp == 1. This is now copied from joe, because wiggy says so *shrug*. */ if (append) fd = open(realname, O_WRONLY | O_APPEND, (S_IRUSR|S_IWUSR)); else if (tmp) fd = open(realname, O_WRONLY | O_CREAT | O_EXCL, (S_IRUSR|S_IWUSR)); else fd = open(realname, O_WRONLY | O_CREAT | O_TRUNC, (S_IRUSR|S_IWUSR)); /* First, just give up if we couldn't even open the file */ if (fd == -1) { if (!tmp && ISSET(TEMP_OPT)) { UNSET(TEMP_OPT); return do_writeout(filename, 1, 0); } statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } } /* Don't follow symlink. Create new file. */ else { buf = charalloc(strlen(realname) + 8); strncpy(buf, realname, strlen(realname)+1); strcat(buf, ".XXXXXX"); if ((fd = mkstemp(buf)) == -1) { if (ISSET(TEMP_OPT)) { UNSET(TEMP_OPT); return do_writeout(filename, 1, 0); } statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } } dump_buffer(fileage); while (fileptr != NULL && fileptr->next != NULL) { /* Next line is so we discount the "magic line" */ if (filebot == fileptr && fileptr->data[0] == '\0') break; size = write(fd, fileptr->data, strlen(fileptr->data)); if (size == -1) { statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } else { #ifdef DEBUG fprintf(stderr, _("Wrote >%s\n"), fileptr->data); #endif } #ifndef NANO_SMALL if (ISSET(DOS_FILE) || ISSET(MAC_FILE)) write(fd, "\r", 1); if (!ISSET(MAC_FILE)) #endif write(fd, "\n", 1); fileptr = fileptr->next; lineswritten++; } if (fileptr != NULL) { size = write(fd, fileptr->data, strlen(fileptr->data)); if (size == -1) { statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } else if (size > 0) { #ifndef NANO_SMALL if (ISSET(DOS_FILE) || ISSET(MAC_FILE)) { size = write(fd, "\r", 1); lineswritten++; if (size == -1) { statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } } if (!ISSET(MAC_FILE)) #endif { size = write(fd, "\n", 1); lineswritten++; if (size == -1) { statusbar(_("Could not open file for writing: %s"), strerror(errno)); return -1; } } } } if (close(fd) == -1) { statusbar(_("Could not close %s: %s"), realname, strerror(errno)); unlink(buf); return -1; } if (realexists == -1 || tmp || (!ISSET(FOLLOW_SYMLINKS) && S_ISLNK(lst.st_mode))) { /* Use default umask as file permissions if file is a new file. */ mask = umask(0); umask(mask); if (tmp) /* We don't want anyone reading our temporary file! */ mask = 0600; else mask = 0666 & ~mask; } else /* Use permissions from file we are overwriting. */ mask = st.st_mode; if (!tmp && (!ISSET(FOLLOW_SYMLINKS) && S_ISLNK(lst.st_mode))) { if (unlink(realname) == -1) { if (errno != ENOENT) { statusbar(_("Could not open %s for writing: %s"), realname, strerror(errno)); unlink(buf); return -1; } } if (link(buf, realname) != -1) unlink(buf); else if (errno != EPERM) { statusbar(_("Could not open %s for writing: %s"), name, strerror(errno)); unlink(buf); return -1; } else if (rename(buf, realname) == -1) { /* Try a rename?? */ statusbar(_("Could not open %s for writing: %s"), realname, strerror(errno)); unlink(buf); return -1; } } if (chmod(realname, mask) == -1) statusbar(_("Could not set permissions %o on %s: %s"), mask, realname, strerror(errno)); if (!tmp) { if (!nonamechange) filename = mallocstrcpy(filename, realname); statusbar(_("Wrote %d lines"), lineswritten); UNSET(MODIFIED); titlebar(NULL); } return 1; } int do_writeout(char *path, int exiting, int append) { int i = 0; #ifdef NANO_EXTRA static int did_cred = 0; #endif #ifndef DISABLE_MOUSE currshortcut = writefile_list; currslen = WRITEFILE_LIST_LEN; #endif answer = mallocstrcpy(answer, path); if ((exiting) && (ISSET(TEMP_OPT))) { if (filename[0]) { i = write_file(answer, 0, 0, 0); display_main_list(); return i; } else { UNSET(TEMP_OPT); do_exit(); /* They cancelled, abort quit */ return -1; } } while (1) { #ifndef NANO_SMALL if (ISSET(MARK_ISSET) && !exiting) i = statusq(1, writefile_list, WRITEFILE_LIST_LEN, "", _("%s Selection to File"), append ? _("Append") : _("Write")); else #endif i = statusq(1, writefile_list, WRITEFILE_LIST_LEN, answer, _("File Name to %s"), append ? _("Append") : _("Write")); if (i != -1) { #ifndef DISABLE_BROWSER if (i == NANO_TOFILES_KEY) { char *tmp = do_browse_from(answer); #ifndef DISABLE_MOUSE currshortcut = writefile_list; currslen = WRITEFILE_LIST_LEN; #endif if (tmp != NULL) { answer = mallocstrcpy(answer, tmp); } else return do_writeout(answer, exiting, append); } else #endif if (i == NANO_APPEND_KEY) return(do_writeout(answer, exiting, 1 - append)); #ifdef DEBUG fprintf(stderr, _("filename is %s"), answer); #endif #ifdef NANO_EXTRA if (exiting && !ISSET(TEMP_OPT) && !strcasecmp(answer, "zzy") && !did_cred) { do_credits(); did_cred = 1; return -1; } #endif if (!append && strcmp(answer, filename)) { struct stat st; if (!stat(answer, &st)) { i = do_yesno(0, 0, _("File exists, OVERWRITE ?")); if (!i || (i == -1)) continue; } } #ifndef NANO_SMALL /* Here's where we allow the selected text to be written to a separate file. */ if (ISSET(MARK_ISSET) && !exiting) { filestruct *fileagebak = fileage; filestruct *filebotbak = filebot; filestruct *cutback = cutbuffer; int oldmod = 0; cutbuffer = NULL; /* Okay, since write_file changes the filename, back it up */ if (ISSET(MODIFIED)) oldmod = 1; /* Now, non-destructively add the marked text to the cutbuffer, and write the file out using the cutbuffer ;) */ if (current->lineno <= mark_beginbuf->lineno) cut_marked_segment(current, current_x, mark_beginbuf, mark_beginx, 0); else cut_marked_segment(mark_beginbuf, mark_beginx, current, current_x, 0); fileage = cutbuffer; for (filebot = cutbuffer; filebot->next != NULL; filebot = filebot->next) ; i = write_file(answer, 0, append, 1); /* Now restore everything */ fileage = fileagebak; filebot = filebotbak; cutbuffer = cutback; if (oldmod) set_modified(); } else #endif i = write_file(answer, 0, append, 0); #ifdef ENABLE_MULTIBUFFER /* if we're not about to exit, update the current entry in the open_files structure */ if (!exiting) { /* first, if the filename was changed during the save, update the filename and full path stored in the current entry, and then update the current entry, checking for duplicate entries */ if (strcmp(open_files->data, filename)) { open_file_change_name(); add_open_file(1, 1); } else { /* otherwise, just update the current entry without checking for duplicate entries */ add_open_file(1, 0); } } #endif display_main_list(); return i; } else { statusbar(_("Cancelled")); display_main_list(); return 0; } } } int do_writeout_void(void) { return do_writeout(filename, 0, 0); } #ifndef DISABLE_TABCOMP /* Return a malloc()ed string containing the actual directory, used * to convert ~user and ~/ notation... */ char *real_dir_from_tilde(char *buf) { char *dirtmp = NULL, *find_user = NULL; int i = 1; struct passwd *userdata; /* set a default value for dirtmp, in the case user home dir not found */ dirtmp = mallocstrcpy(dirtmp, buf); if (buf[0] == '~') { if (buf[1] == 0 || buf[1] == '/') { if (getenv("HOME") != NULL) { free(dirtmp); dirtmp = charalloc(strlen(buf) + 2 + strlen(getenv("HOME"))); sprintf(dirtmp, "%s%s", getenv("HOME"), &buf[1]); } } else { /* Figure how how much of the str we need to compare */ for (i = 1; buf[i] != '/' && buf[i] != 0; i++) ; find_user = mallocstrcpy(find_user, &buf[1]); find_user[i - 1] = 0; for (userdata = getpwent(); userdata != NULL && strcmp(userdata->pw_name, find_user); userdata = getpwent()); free(find_user); if (userdata != NULL) { /* User found */ free(dirtmp); dirtmp = charalloc(strlen(buf) + 2 + strlen(userdata->pw_dir)); sprintf(dirtmp, "%s%s", userdata->pw_dir, &buf[i]); } endpwent(); } } return dirtmp; } /* Tack a slash onto the string we're completing if it's a directory */ int append_slash_if_dir(char *buf, int *lastWasTab, int *place) { char *dirptr; struct stat fileinfo; int ret = 0; dirptr = real_dir_from_tilde(buf); if (stat(dirptr, &fileinfo) == -1) ret = 0; else if (S_ISDIR(fileinfo.st_mode)) { strncat(buf, "/", 1); *place += 1; /* now we start over again with # of tabs so far */ *lastWasTab = 0; ret = 1; } if (dirptr != buf) free(dirptr); return ret; } /* * These functions (username_tab_completion, cwd_tab_completion, and * input_tab were taken from busybox 0.46 (cmdedit.c). Here is the notice * from that file: * * Termios command line History and Editting, originally * intended for NetBSD sh (ash) * Copyright (c) 1999 * Main code: Adam Rogoyski * Etc: Dave Cinege * Majorly adjusted/re-written for busybox: * Erik Andersen * * You may use this code as you wish, so long as the original author(s) * are attributed in any redistributions of the source code. * This code is 'as is' with no warranty. * This code may safely be consumed by a BSD or GPL license. */ char **username_tab_completion(char *buf, int *num_matches) { char **matches = (char **) NULL; char *matchline = NULL; struct passwd *userdata; *num_matches = 0; matches = nmalloc(BUFSIZ * sizeof(char *)); strcat(buf, "*"); while ((userdata = getpwent()) != NULL) { if (check_wildcard_match(userdata->pw_name, &buf[1]) == TRUE) { /* Cool, found a match. Add it to the list * This makes a lot more sense to me (Chris) this way... */ #ifndef DISABLE_OPERATINGDIR /* ...unless the match exists outside the operating directory, in which case just go to the next match */ if (operating_dir) { if (check_operating_dir(userdata->pw_dir, 1)) continue; } #endif matchline = charalloc(strlen(userdata->pw_name) + 2); sprintf(matchline, "~%s", userdata->pw_name); matches[*num_matches] = matchline; ++*num_matches; /* If there's no more room, bail out */ if (*num_matches == BUFSIZ) break; } } endpwent(); return (matches); } /* This was originally called exe_n_cwd_tab_completion, but we're not worried about executables, only filenames :> */ char **cwd_tab_completion(char *buf, int *num_matches) { char *dirName, *dirtmp = NULL, *tmp = NULL, *tmp2 = NULL; char **matches = (char **) NULL; DIR *dir; struct dirent *next; matches = nmalloc(BUFSIZ * sizeof(char *)); /* Stick a wildcard onto the buf, for later use */ strcat(buf, "*"); /* Okie, if there's a / in the buffer, strip out the directory part */ if (strcmp(buf, "") && strstr(buf, "/")) { dirName = charalloc(strlen(buf) + 1); tmp = buf + strlen(buf); while (*tmp != '/' && tmp != buf) tmp--; tmp++; strncpy(dirName, buf, tmp - buf + 1); dirName[tmp - buf] = 0; } else { #ifdef PATH_MAX if ((dirName = getcwd(NULL, PATH_MAX+1)) == NULL) #else /* The better, but apparently segfault-causing way */ if ((dirName = getcwd(NULL, 0)) == NULL) #endif /* PATH_MAX */ return matches; else tmp = buf; } #ifdef DEBUG fprintf(stderr, "\nDir = %s\n", dirName); fprintf(stderr, "\nbuf = %s\n", buf); fprintf(stderr, "\ntmp = %s\n", tmp); #endif dirtmp = real_dir_from_tilde(dirName); free(dirName); dirName = dirtmp; #ifdef DEBUG fprintf(stderr, "\nDir = %s\n", dirName); fprintf(stderr, "\nbuf = %s\n", buf); fprintf(stderr, "\ntmp = %s\n", tmp); #endif dir = opendir(dirName); if (!dir) { /* Don't print an error, just shut up and return */ *num_matches = 0; beep(); return (matches); } while ((next = readdir(dir)) != NULL) { #ifdef DEBUG fprintf(stderr, "Comparing \'%s\'\n", next->d_name); #endif /* See if this matches */ if (check_wildcard_match(next->d_name, tmp) == TRUE) { /* Cool, found a match. Add it to the list * This makes a lot more sense to me (Chris) this way... */ #ifndef DISABLE_OPERATINGDIR /* ...unless the match exists outside the operating directory, in which case just go to the next match; to properly do operating directory checking, we have to add the directory name to the beginning of the proposed match before we check it */ if (operating_dir) { tmp2 = charalloc(strlen(dirName) + strlen(next->d_name) + 2); strcpy(tmp2, dirName); strcat(tmp2, "/"); strcat(tmp2, next->d_name); if (check_operating_dir(tmp2, 1)) { free(tmp2); continue; } free(tmp2); } #endif tmp2 = NULL; tmp2 = charalloc(strlen(next->d_name) + 1); strcpy(tmp2, next->d_name); matches[*num_matches] = tmp2; ++*num_matches; /* If there's no more room, bail out */ if (*num_matches == BUFSIZ) break; } } return (matches); } /* This function now has an arg which refers to how much the * statusbar (place) should be advanced, i.e. the new cursor pos. */ char *input_tab(char *buf, int place, int *lastWasTab, int *newplace) { /* Do TAB completion */ static int num_matches = 0, match_matches = 0; static char **matches = (char **) NULL; int pos = place, i = 0, col = 0, editline = 0; int longestname = 0, is_dir = 0; char *foo; if (*lastWasTab == FALSE) { char *tmp, *copyto, *matchBuf; *lastWasTab = 1; /* Make a local copy of the string -- up to the position of the cursor */ matchBuf = (char *) nmalloc((strlen(buf) + 2) * sizeof(char)); memset(matchBuf, '\0', (strlen(buf) + 2)); strncpy(matchBuf, buf, place); tmp = matchBuf; /* skip any leading white space */ while (*tmp && isspace((int) *tmp)) ++tmp; /* Free up any memory already allocated */ if (matches != NULL) { for (i = i; i < num_matches; i++) free(matches[i]); free(matches); matches = (char **) NULL; num_matches = 0; } /* If the word starts with `~' and there is no slash in the word, * then try completing this word as a username. */ /* FIXME -- this check is broken! */ if (*tmp == '~' && !strchr(tmp, '/')) matches = username_tab_completion(tmp, &num_matches); /* Try to match everything in the current working directory that * matches. */ if (!matches) matches = cwd_tab_completion(tmp, &num_matches); /* Don't leak memory */ free(matchBuf); #ifdef DEBUG fprintf(stderr, "%d matches found...\n", num_matches); #endif /* Did we find exactly one match? */ switch (num_matches) { case 0: blank_edit(); wrefresh(edit); break; case 1: buf = nrealloc(buf, strlen(buf) + strlen(matches[0]) + 1); if (strcmp(buf, "") && strstr(buf, "/")) { for (tmp = buf + strlen(buf); *tmp != '/' && tmp != buf; tmp--); tmp++; } else tmp = buf; if (!strcmp(tmp, matches[0])) is_dir = append_slash_if_dir(buf, lastWasTab, newplace); if (is_dir) break; copyto = tmp; for (pos = 0; *tmp == matches[0][pos] && pos <= strlen(matches[0]); pos++) tmp++; /* write out the matched name */ strncpy(copyto, matches[0], strlen(matches[0]) + 1); *newplace += strlen(matches[0]) - pos; /* if an exact match is typed in and Tab is pressed, *newplace will now be negative; in that case, make it zero, so that the cursor will stay where it is instead of moving backward */ if (*newplace < 0) *newplace = 0; /* Is it a directory? */ append_slash_if_dir(buf, lastWasTab, newplace); break; default: /* Check to see if all matches share a beginning, and, if so, tack it onto buf and then beep */ if (strcmp(buf, "") && strstr(buf, "/")) { for (tmp = buf + strlen(buf); *tmp != '/' && tmp != buf; tmp--); tmp++; } else tmp = buf; for (pos = 0; *tmp == matches[0][pos] && *tmp != 0 && pos <= strlen(matches[0]); pos++) tmp++; while (1) { match_matches = 0; for (i = 0; i < num_matches; i++) { if (matches[i][pos] == 0) break; else if (matches[i][pos] == matches[0][pos]) match_matches++; } if (match_matches == num_matches && (i == num_matches || matches[i] != 0)) { /* All the matches have the same character at pos+1, so paste it into buf... */ buf = nrealloc(buf, strlen(buf) + 2); strncat(buf, matches[0] + pos, 1); *newplace += 1; pos++; } else { beep(); break; } } break; } } else { /* Ok -- the last char was a TAB. Since they * just hit TAB again, print a list of all the * available choices... */ if (matches && num_matches > 0) { /* Blank the edit window, and print the matches out there */ blank_edit(); wmove(edit, 0, 0); editline = 0; /* Figure out the length of the longest filename */ for (i = 0; i < num_matches; i++) if (strlen(matches[i]) > longestname) longestname = strlen(matches[i]); if (longestname > COLS - 1) longestname = COLS - 1; foo = charalloc(longestname + 5); /* Print the list of matches */ for (i = 0, col = 0; i < num_matches; i++) { /* make each filename shown be the same length as the longest filename, with two spaces at the end */ snprintf(foo, longestname + 1, matches[i]); while (strlen(foo) < longestname) strcat(foo, " "); strcat(foo, " "); /* Disable el cursor */ curs_set(0); /* now, put the match on the screen */ waddnstr(edit, foo, strlen(foo)); col += strlen(foo); /* And if the next match isn't going to fit on the line, move to the next one */ if (col > (COLS - longestname) && matches[i + 1] != NULL) { editline++; wmove(edit, editline, 0); if (editline == editwinrows - 1) { waddstr(edit, _("(more)")); break; } col = 0; } } free(foo); wrefresh(edit); } else beep(); } edit_refresh(); curs_set(1); return buf; } #endif #ifndef DISABLE_BROWSER /* Return the stat of the file pointed to by path */ struct stat filestat(const char *path) { struct stat st; stat(path, &st); return st; } /* Our sort routine for file listings - sort directories before * files, and then alphabetically */ int diralphasort(const void *va, const void *vb) { struct stat file1info, file2info; char *a = *(char **)va, *b = *(char **)vb; int aisdir, bisdir; aisdir = (stat(a, &file1info) != -1) && S_ISDIR(file1info.st_mode); bisdir = (stat(b, &file2info) != -1) && S_ISDIR(file2info.st_mode); if (aisdir && !bisdir) return -1; if (!aisdir && bisdir) return 1; #ifdef HAVE_STRCASECMP return(strcasecmp(a,b)); #else return(strcmp(a,b)); #endif } /* Initialize the browser code, including the list of files in *path */ char **browser_init(char *path, int *longest, int *numents) { DIR *dir; struct dirent *next; char **filelist = (char **) NULL; int i = 0; dir = opendir(path); if (!dir) return NULL; *numents = 0; while ((next = readdir(dir)) != NULL) { if (!strcmp(next->d_name, ".")) continue; (*numents)++; if (strlen(next->d_name) > *longest) *longest = strlen(next->d_name); } rewinddir(dir); *longest += 10; filelist = nmalloc(*numents * sizeof (char *)); while ((next = readdir(dir)) != NULL) { if (!strcmp(next->d_name, ".")) continue; filelist[i] = charalloc(strlen(next->d_name) + strlen(path) + 2); if (!strcmp(path, "/")) snprintf(filelist[i], strlen(next->d_name) + strlen(path) + 1, "%s%s", path, next->d_name); else snprintf(filelist[i], strlen(next->d_name) + strlen(path) + 2, "%s/%s", path, next->d_name); i++; } if (*longest > COLS - 1) *longest = COLS - 1; return filelist; } /* Free our malloc()ed memory */ void free_charptrarray(char **array, int len) { int i; for (i = 0; i < len - 1; i++) free(array[i]); free(array); } /* only print the last part of a path; isn't there a shell command for this? */ char *tail(char *foo) { char *tmp = NULL; tmp = foo + strlen(foo); while (*tmp != '/' && tmp != foo) tmp--; tmp++; return tmp; } /* Strip one dir from the end of a string */ void striponedir(char *foo) { char *tmp = NULL; /* Don't strip the root dir */ if (!strcmp(foo, "/")) return; tmp = foo + strlen(foo); if (*tmp == '/') tmp--; while (*tmp != '/' && tmp != foo) tmp--; if (tmp != foo) *tmp = 0; else *(tmp+1) = 0; return; } /* Our browser function. inpath is the path to start browsing from */ char *do_browser(char *inpath) { struct stat st; char *foo, *retval = NULL; static char *path = NULL; int numents = 0, i = 0, j = 0, kbinput = 0, longest = 0, abort = 0; int col = 0, selected = 0, editline = 0, width = 0, filecols = 0; int lineno = 0, kb; char **filelist = (char **) NULL; #ifndef DISABLE_MOUSE #ifdef NCURSES_MOUSE_VERSION MEVENT mevent; #endif #endif /* If path isn't the same as inpath, we are being passed a new dir as an arg. We free it here so it will be copied from inpath below */ if (path != NULL && strcmp(path, inpath)) { free(path); path = NULL; } /* if path doesn't exist, make it so */ if (path == NULL) path = mallocstrcpy(path, inpath); filelist = browser_init(path, &longest, &numents); foo = charalloc(longest + 8); /* Sort the list by directory first, then alphabetically */ qsort(filelist, numents, sizeof(char *), diralphasort); kb = keypad_on(edit, 1); titlebar(path); bottombars(browser_list, BROWSER_LIST_LEN); curs_set(0); wmove(edit, 0, 0); i = 0; width = 0; filecols = 0; /* Loop invariant: Microsoft sucks. */ do { DIR *test_dir; blank_statusbar_refresh(); #ifndef DISABLE_MOUSE currshortcut = browser_list; currslen = BROWSER_LIST_LEN; #endif editline = 0; col = 0; /* Compute line number we're on now, so we don't divide by zero later */ if (width == 0) lineno = selected; else lineno = selected / width; switch (kbinput) { #ifndef DISABLE_MOUSE #ifdef NCURSES_MOUSE_VERSION case KEY_MOUSE: if (getmouse(&mevent) == ERR) return retval; /* If they clicked in the edit window, they probably clicked on a file */ if (wenclose(edit, mevent.y, mevent.x)) { int selectedbackup = selected; mevent.y -= 2; /* If we're on line 0, don't toy with finding out what page we're on */ if (lineno / editwinrows == 0) selected = mevent.y * width + mevent.x / longest; else selected = (lineno / editwinrows) * editwinrows * width + mevent.y * width + mevent.x / longest; /* If we're off the screen, reset to the last item. If we clicked where we did last time, select this name! */ if (selected > numents - 1) selected = numents - 1; else if (selectedbackup == selected) { ungetch('s'); /* Unget the 'select' key */ break; } } else /* Must be clicking a shortcut */ do_mouse(); break; #endif #endif case NANO_UP_KEY: case KEY_UP: case 'u': if (selected - width >= 0) selected -= width; break; case NANO_BACK_KEY: case KEY_LEFT: case NANO_BACKSPACE_KEY: case 127: case 'l': if (selected > 0) selected--; break; case KEY_DOWN: case NANO_DOWN_KEY: case 'd': if (selected + width <= numents - 1) selected += width; break; case KEY_RIGHT: case NANO_FORWARD_KEY: case 'r': if (selected < numents - 1) selected++; break; case NANO_PREVPAGE_KEY: case NANO_PREVPAGE_FKEY: case KEY_PPAGE: case '-': if (lineno % editwinrows == 0) { if (selected - (editwinrows * width) >= 0) selected -= editwinrows * width; else selected = 0; } else if (selected - (editwinrows + lineno % editwinrows) * width >= 0) selected -= (editwinrows + lineno % editwinrows) * width; else selected = 0; break; case NANO_NEXTPAGE_KEY: case NANO_NEXTPAGE_FKEY: case KEY_NPAGE: case ' ': if (lineno % editwinrows == 0) { if (selected + (editwinrows * width) <= numents - 1) selected += editwinrows * width; else selected = numents - 1; } else if (selected + (editwinrows - lineno % editwinrows) * width <= numents - 1) selected += (editwinrows - lineno % editwinrows) * width; else selected = numents - 1; break; case KEY_ENTER: case NANO_ENTER_KEY: case 's': /* More Pico compatibility */ case 'S': /* You can't cd up from / */ if (!strcmp(filelist[selected], "/..") && !strcmp(path, "/")) { statusbar(_("Can't move up a directory")); break; } path = mallocstrcpy(path, filelist[selected]); #ifndef DISABLE_OPERATINGDIR /* Note: The case of the user's being completely outside the operating directory is handled elsewhere, before this point */ if (operating_dir) { if (check_operating_dir(path, 0)) { statusbar(_("Can't visit parent in restricted mode")); beep(); break; } } #endif st = filestat(path); if (S_ISDIR(st.st_mode)) { if ((test_dir = opendir(path)) == NULL) { /* We can't open this dir for some reason. Complain */ statusbar(_("Can't open \"%s\": %s"), path, strerror(errno)); striponedir(path); align(&path); break; } closedir(test_dir); if (!strcmp("..", tail(path))) { /* They want to go up a level, so strip off .. and the current dir */ striponedir(path); striponedir(path); align(&path); } /* Start over again with the new path value */ return do_browser(path); } else { retval = path; abort = 1; } break; /* Goto a specific directory */ case 'g': /* Pico compatibility */ case 'G': case NANO_GOTO_KEY: curs_set(1); j = statusq(0, gotodir_list, GOTODIR_LIST_LEN, "", _("Goto Directory")); bottombars(browser_list, BROWSER_LIST_LEN); curs_set(0); #ifndef DISABLE_OPERATINGDIR if (operating_dir) { if (check_operating_dir(answer, 0)) { statusbar(_("Can't go outside of %s in restricted mode"), operating_dir); break; } } #endif if (j < 0) { statusbar(_("Goto Cancelled")); break; } if (answer[0] != '/') { char *saveanswer = NULL; saveanswer = mallocstrcpy(saveanswer, answer); answer = realloc(answer, strlen(path) + strlen(saveanswer) + 2); sprintf(answer, "%s/%s", path, saveanswer); free(saveanswer); } if ((test_dir = opendir(answer)) == NULL) { /* We can't open this dir for some reason. Complain */ statusbar(_("Can't open \"%s\": %s"), answer, strerror(errno)); break; } closedir(test_dir); /* Start over again with the new path value */ path = mallocstrcpy(path, answer); return do_browser(path); /* Stuff we want to abort the browser */ case 'q': case 'Q': case 'e': /* Pico compatibility, yeech */ case 'E': case NANO_CANCEL_KEY: case NANO_EXIT_FKEY: abort = 1; break; } if (abort) break; blank_edit(); if (width) i = width * editwinrows * ((selected / width) / editwinrows); else i = 0; wmove(edit, 0, 0); for (j = i; j < numents && editline <= editwinrows - 1; j++) { filecols++; strncpy(foo, tail(filelist[j]), strlen(tail(filelist[j])) + 1); while (strlen(foo) < longest) strcat(foo, " "); col += strlen(foo); /* Put file info in the string also */ /* We use lstat here to detect links; then, if we find a symlink, we examine it via stat() to see if it is a directory or just a file symlink */ lstat(filelist[j], &st); if (S_ISDIR(st.st_mode)) strcpy(foo + longest - 5, "(dir)"); else { if (S_ISLNK(st.st_mode)) { /* Aha! It's a symlink! Now, is it a dir? If so, mark it as such */ st = filestat(filelist[j]); if (S_ISDIR(st.st_mode)) strcpy(foo + longest - 5, "(dir)"); else strcpy(foo + longest - 2, "--"); } else if (st.st_size < (1 << 10)) /* less than 1 K */ sprintf(foo + longest - 7, "%4d B", (int) st.st_size); else if (st.st_size >= (1 << 30)) /* at least 1 gig */ sprintf(foo + longest - 7, "%4d GB", (int) st.st_size >> 30); else if (st.st_size >= (1 << 20)) /* at least 1 meg */ sprintf(foo + longest - 7, "%4d MB", (int) st.st_size >> 20); else /* Its more than 1 k and less than a meg */ sprintf(foo + longest - 7, "%4d KB", (int) st.st_size >> 10); } /* Hilight the currently selected file/dir */ if (j == selected) { #ifdef ENABLE_COLOR color_on(edit, COLOR_STATUSBAR); #else wattron(edit, A_REVERSE); #endif } waddnstr(edit, foo, strlen(foo)); if (j == selected) { #ifdef ENABLE_COLOR color_off(edit, COLOR_STATUSBAR); #else wattroff(edit, A_REVERSE); #endif } /* And add some space between the cols */ waddstr(edit, " "); col += 2; /* And if the next entry isn't going to fit on the line, move to the next one */ if (col > (COLS - longest)) { editline++; wmove(edit, editline, 0); col = 0; if (width == 0) width = filecols; } } wrefresh(edit); } while ((kbinput = wgetch(edit)) != NANO_EXIT_KEY); curs_set(1); blank_edit(); titlebar(NULL); edit_refresh(); kb = keypad_on(edit, kb); /* cleanup */ free_charptrarray(filelist, numents); free(foo); return retval; } /* Browser front end, checks to see if inpath has a dir in it and, if so, starts do_browser from there, else from the current dir */ char *do_browse_from(char *inpath) { struct stat st; char *tmp = NULL; tmp = mallocstrcpy(tmp, inpath); /* If there's no / in the string, we may as well start from . */ if (tmp == NULL || *tmp == '\0' || !strstr(tmp, "/")) { #ifdef PATH_MAX char *from = getcwd(NULL, PATH_MAX+1); #else char *from = getcwd(NULL, 0); #endif /* PATH_MAX */ return do_browser(from ? from : "./"); } /* If the string is a directory, pass do_browser that */ st = filestat(tmp); if (S_ISDIR(st.st_mode)) return do_browser(tmp); /* Okay, there's a dir in there, but not at the end of the string... try stripping it off */ striponedir(tmp); align(&tmp); return do_browser(tmp); } #endif