/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * mod_autoindex.c: Handles the on-the-fly html index generation * * Rob McCool * 3/23/93 * * Adapted to Apache by rst. * * Version sort added by Martin Pool . */ #include "apr_strings.h" #include "apr_fnmatch.h" #include "apr_strings.h" #include "apr_lib.h" #define APR_WANT_STRFUNC #include "apr_want.h" #include "ap_config.h" #include "httpd.h" #include "http_config.h" #include "http_core.h" #include "http_request.h" #include "http_protocol.h" #include "http_log.h" #include "http_main.h" #include "util_script.h" #include "mod_core.h" module AP_MODULE_DECLARE_DATA autoindex_module; /**************************************************************** * * Handling configuration directives... */ #define NO_OPTIONS (1 << 0) /* Indexing options */ #define ICONS_ARE_LINKS (1 << 1) #define SCAN_HTML_TITLES (1 << 2) #define SUPPRESS_ICON (1 << 3) #define SUPPRESS_LAST_MOD (1 << 4) #define SUPPRESS_SIZE (1 << 5) #define SUPPRESS_DESC (1 << 6) #define SUPPRESS_PREAMBLE (1 << 7) #define SUPPRESS_COLSORT (1 << 8) #define SUPPRESS_RULES (1 << 9) #define FOLDERS_FIRST (1 << 10) #define VERSION_SORT (1 << 11) #define TRACK_MODIFIED (1 << 12) #define FANCY_INDEXING (1 << 13) #define TABLE_INDEXING (1 << 14) #define IGNORE_CLIENT (1 << 15) #define IGNORE_CASE (1 << 16) #define EMIT_XHTML (1 << 17) #define K_NOADJUST 0 #define K_ADJUST 1 #define K_UNSET 2 /* * Define keys for sorting. */ #define K_NAME 'N' /* Sort by file name (default) */ #define K_LAST_MOD 'M' /* Last modification date */ #define K_SIZE 'S' /* Size (absolute, not as displayed) */ #define K_DESC 'D' /* Description */ #define K_VALID "NMSD" /* String containing _all_ valid K_ opts */ #define D_ASCENDING 'A' #define D_DESCENDING 'D' #define D_VALID "AD" /* String containing _all_ valid D_ opts */ /* * These are the dimensions of the default icons supplied with Apache. */ #define DEFAULT_ICON_WIDTH 20 #define DEFAULT_ICON_HEIGHT 22 /* * Other default dimensions. */ #define DEFAULT_NAME_WIDTH 23 #define DEFAULT_DESC_WIDTH 23 struct item { char *type; char *apply_to; char *apply_path; char *data; }; typedef struct ai_desc_t { char *pattern; char *description; int full_path; int wildcards; } ai_desc_t; typedef struct autoindex_config_struct { char *default_icon; apr_int32_t opts; apr_int32_t incremented_opts; apr_int32_t decremented_opts; int name_width; int name_adjust; int desc_width; int desc_adjust; int icon_width; int icon_height; char default_keyid; char default_direction; apr_array_header_t *icon_list; apr_array_header_t *alt_list; apr_array_header_t *desc_list; apr_array_header_t *ign_list; apr_array_header_t *hdr_list; apr_array_header_t *rdme_list; char *ctype; char *charset; } autoindex_config_rec; static char c_by_encoding, c_by_type, c_by_path; #define BY_ENCODING &c_by_encoding #define BY_TYPE &c_by_type #define BY_PATH &c_by_path /* * This routine puts the standard HTML header at the top of the index page. * We include the DOCTYPE because we may be using features therefrom (i.e., * HEIGHT and WIDTH attributes on the icons if we're FancyIndexing). */ static void emit_preamble(request_rec *r, int xhtml, const char *title) { ap_rvputs(r, xhtml ? DOCTYPE_XHTML_1_0T : DOCTYPE_HTML_3_2, "\n \n Index of ", title, "\n \n \n", NULL); } static void push_item(apr_array_header_t *arr, char *type, const char *to, const char *path, const char *data) { struct item *p = (struct item *) apr_array_push(arr); if (!to) { to = ""; } if (!path) { path = ""; } p->type = type; p->data = data ? apr_pstrdup(arr->pool, data) : NULL; p->apply_path = apr_pstrcat(arr->pool, path, "*", NULL); if ((type == BY_PATH) && (!ap_is_matchexp(to))) { p->apply_to = apr_pstrcat(arr->pool, "*", to, NULL); } else if (to) { p->apply_to = apr_pstrdup(arr->pool, to); } else { p->apply_to = NULL; } } static const char *add_alt(cmd_parms *cmd, void *d, const char *alt, const char *to) { if (cmd->info == BY_PATH) { if (!strcmp(to, "**DIRECTORY**")) { to = "^^DIRECTORY^^"; } } if (cmd->info == BY_ENCODING) { char *tmp = apr_pstrdup(cmd->pool, to); ap_str_tolower(tmp); to = tmp; } push_item(((autoindex_config_rec *) d)->alt_list, cmd->info, to, cmd->path, alt); return NULL; } static const char *add_icon(cmd_parms *cmd, void *d, const char *icon, const char *to) { char *iconbak = apr_pstrdup(cmd->pool, icon); if (icon[0] == '(') { char *alt; char *cl = strchr(iconbak, ')'); if (cl == NULL) { return "missing closing paren"; } alt = ap_getword_nc(cmd->pool, &iconbak, ','); *cl = '\0'; /* Lose closing paren */ add_alt(cmd, d, &alt[1], to); } if (cmd->info == BY_PATH) { if (!strcmp(to, "**DIRECTORY**")) { to = "^^DIRECTORY^^"; } } if (cmd->info == BY_ENCODING) { char *tmp = apr_pstrdup(cmd->pool, to); ap_str_tolower(tmp); to = tmp; } push_item(((autoindex_config_rec *) d)->icon_list, cmd->info, to, cmd->path, iconbak); return NULL; } /* * Add description text for a filename pattern. If the pattern has * wildcards already (or we need to add them), add leading and * trailing wildcards to it to ensure substring processing. If the * pattern contains a '/' anywhere, force wildcard matching mode, * add a slash to the prefix so that "bar/bletch" won't be matched * by "foobar/bletch", and make a note that there's a delimiter; * the matching routine simplifies to just the actual filename * whenever it can. This allows definitions in parent directories * to be made for files in subordinate ones using relative paths. */ /* * Absent a strcasestr() function, we have to force wildcards on * systems for which "AAA" and "aaa" mean the same file. */ #ifdef CASE_BLIND_FILESYSTEM #define WILDCARDS_REQUIRED 1 #else #define WILDCARDS_REQUIRED 0 #endif static const char *add_desc(cmd_parms *cmd, void *d, const char *desc, const char *to) { autoindex_config_rec *dcfg = (autoindex_config_rec *) d; ai_desc_t *desc_entry; char *prefix = ""; desc_entry = (ai_desc_t *) apr_array_push(dcfg->desc_list); desc_entry->full_path = (ap_strchr_c(to, '/') == NULL) ? 0 : 1; desc_entry->wildcards = (WILDCARDS_REQUIRED || desc_entry->full_path || apr_fnmatch_test(to)); if (desc_entry->wildcards) { prefix = desc_entry->full_path ? "*/" : "*"; desc_entry->pattern = apr_pstrcat(dcfg->desc_list->pool, prefix, to, "*", NULL); } else { desc_entry->pattern = apr_pstrdup(dcfg->desc_list->pool, to); } desc_entry->description = apr_pstrdup(dcfg->desc_list->pool, desc); return NULL; } static const char *add_ignore(cmd_parms *cmd, void *d, const char *ext) { push_item(((autoindex_config_rec *) d)->ign_list, 0, ext, cmd->path, NULL); return NULL; } static const char *add_header(cmd_parms *cmd, void *d, const char *name) { push_item(((autoindex_config_rec *) d)->hdr_list, 0, NULL, cmd->path, name); return NULL; } static const char *add_readme(cmd_parms *cmd, void *d, const char *name) { push_item(((autoindex_config_rec *) d)->rdme_list, 0, NULL, cmd->path, name); return NULL; } static const char *add_opts(cmd_parms *cmd, void *d, const char *optstr) { char *w; apr_int32_t opts; apr_int32_t opts_add; apr_int32_t opts_remove; char action; autoindex_config_rec *d_cfg = (autoindex_config_rec *) d; opts = d_cfg->opts; opts_add = d_cfg->incremented_opts; opts_remove = d_cfg->decremented_opts; while (optstr[0]) { int option = 0; w = ap_getword_conf(cmd->pool, &optstr); if ((*w == '+') || (*w == '-')) { action = *(w++); } else { action = '\0'; } if (!strcasecmp(w, "FancyIndexing")) { option = FANCY_INDEXING; } else if (!strcasecmp(w, "FoldersFirst")) { option = FOLDERS_FIRST; } else if (!strcasecmp(w, "HTMLTable")) { option = TABLE_INDEXING; } else if (!strcasecmp(w, "IconsAreLinks")) { option = ICONS_ARE_LINKS; } else if (!strcasecmp(w, "IgnoreCase")) { option = IGNORE_CASE; } else if (!strcasecmp(w, "IgnoreClient")) { option = IGNORE_CLIENT; } else if (!strcasecmp(w, "ScanHTMLTitles")) { option = SCAN_HTML_TITLES; } else if (!strcasecmp(w, "SuppressColumnSorting")) { option = SUPPRESS_COLSORT; } else if (!strcasecmp(w, "SuppressDescription")) { option = SUPPRESS_DESC; } else if (!strcasecmp(w, "SuppressHTMLPreamble")) { option = SUPPRESS_PREAMBLE; } else if (!strcasecmp(w, "SuppressIcon")) { option = SUPPRESS_ICON; } else if (!strcasecmp(w, "SuppressLastModified")) { option = SUPPRESS_LAST_MOD; } else if (!strcasecmp(w, "SuppressSize")) { option = SUPPRESS_SIZE; } else if (!strcasecmp(w, "SuppressRules")) { option = SUPPRESS_RULES; } else if (!strcasecmp(w, "TrackModified")) { option = TRACK_MODIFIED; } else if (!strcasecmp(w, "VersionSort")) { option = VERSION_SORT; } else if (!strcasecmp(w, "XHTML")) { option = EMIT_XHTML; } else if (!strcasecmp(w, "None")) { if (action != '\0') { return "Cannot combine '+' or '-' with 'None' keyword"; } opts = NO_OPTIONS; opts_add = 0; opts_remove = 0; } else if (!strcasecmp(w, "IconWidth")) { if (action != '-') { d_cfg->icon_width = DEFAULT_ICON_WIDTH; } else { d_cfg->icon_width = 0; } } else if (!strncasecmp(w, "IconWidth=", 10)) { if (action == '-') { return "Cannot combine '-' with IconWidth=n"; } d_cfg->icon_width = atoi(&w[10]); } else if (!strcasecmp(w, "IconHeight")) { if (action != '-') { d_cfg->icon_height = DEFAULT_ICON_HEIGHT; } else { d_cfg->icon_height = 0; } } else if (!strncasecmp(w, "IconHeight=", 11)) { if (action == '-') { return "Cannot combine '-' with IconHeight=n"; } d_cfg->icon_height = atoi(&w[11]); } else if (!strcasecmp(w, "NameWidth")) { if (action != '-') { return "NameWidth with no value may only appear as " "'-NameWidth'"; } d_cfg->name_width = DEFAULT_NAME_WIDTH; d_cfg->name_adjust = K_NOADJUST; } else if (!strncasecmp(w, "NameWidth=", 10)) { if (action == '-') { return "Cannot combine '-' with NameWidth=n"; } if (w[10] == '*') { d_cfg->name_adjust = K_ADJUST; } else { int width = atoi(&w[10]); if (width && (width < 5)) { return "NameWidth value must be greater than 5"; } d_cfg->name_width = width; d_cfg->name_adjust = K_NOADJUST; } } else if (!strcasecmp(w, "DescriptionWidth")) { if (action != '-') { return "DescriptionWidth with no value may only appear as " "'-DescriptionWidth'"; } d_cfg->desc_width = DEFAULT_DESC_WIDTH; d_cfg->desc_adjust = K_NOADJUST; } else if (!strncasecmp(w, "DescriptionWidth=", 17)) { if (action == '-') { return "Cannot combine '-' with DescriptionWidth=n"; } if (w[17] == '*') { d_cfg->desc_adjust = K_ADJUST; } else { int width = atoi(&w[17]); if (width && (width < 12)) { return "DescriptionWidth value must be greater than 12"; } d_cfg->desc_width = width; d_cfg->desc_adjust = K_NOADJUST; } } else if (!strncasecmp(w, "Type=", 5)) { d_cfg->ctype = apr_pstrdup(cmd->pool, &w[5]); } else if (!strncasecmp(w, "Charset=", 8)) { d_cfg->charset = apr_pstrdup(cmd->pool, &w[8]); } else { return "Invalid directory indexing option"; } if (action == '\0') { opts |= option; opts_add = 0; opts_remove = 0; } else if (action == '+') { opts_add |= option; opts_remove &= ~option; } else { opts_remove |= option; opts_add &= ~option; } } if ((opts & NO_OPTIONS) && (opts & ~NO_OPTIONS)) { return "Cannot combine other IndexOptions keywords with 'None'"; } d_cfg->incremented_opts = opts_add; d_cfg->decremented_opts = opts_remove; d_cfg->opts = opts; return NULL; } static const char *set_default_order(cmd_parms *cmd, void *m, const char *direction, const char *key) { autoindex_config_rec *d_cfg = (autoindex_config_rec *) m; if (!strcasecmp(direction, "Ascending")) { d_cfg->default_direction = D_ASCENDING; } else if (!strcasecmp(direction, "Descending")) { d_cfg->default_direction = D_DESCENDING; } else { return "First keyword must be 'Ascending' or 'Descending'"; } if (!strcasecmp(key, "Name")) { d_cfg->default_keyid = K_NAME; } else if (!strcasecmp(key, "Date")) { d_cfg->default_keyid = K_LAST_MOD; } else if (!strcasecmp(key, "Size")) { d_cfg->default_keyid = K_SIZE; } else if (!strcasecmp(key, "Description")) { d_cfg->default_keyid = K_DESC; } else { return "Second keyword must be 'Name', 'Date', 'Size', or " "'Description'"; } return NULL; } #define DIR_CMD_PERMS OR_INDEXES static const command_rec autoindex_cmds[] = { AP_INIT_ITERATE2("AddIcon", add_icon, BY_PATH, DIR_CMD_PERMS, "an icon URL followed by one or more filenames"), AP_INIT_ITERATE2("AddIconByType", add_icon, BY_TYPE, DIR_CMD_PERMS, "an icon URL followed by one or more MIME types"), AP_INIT_ITERATE2("AddIconByEncoding", add_icon, BY_ENCODING, DIR_CMD_PERMS, "an icon URL followed by one or more content encodings"), AP_INIT_ITERATE2("AddAlt", add_alt, BY_PATH, DIR_CMD_PERMS, "alternate descriptive text followed by one or more " "filenames"), AP_INIT_ITERATE2("AddAltByType", add_alt, BY_TYPE, DIR_CMD_PERMS, "alternate descriptive text followed by one or more MIME " "types"), AP_INIT_ITERATE2("AddAltByEncoding", add_alt, BY_ENCODING, DIR_CMD_PERMS, "alternate descriptive text followed by one or more " "content encodings"), AP_INIT_RAW_ARGS("IndexOptions", add_opts, NULL, DIR_CMD_PERMS, "one or more index options [+|-][]"), AP_INIT_TAKE2("IndexOrderDefault", set_default_order, NULL, DIR_CMD_PERMS, "{Ascending,Descending} {Name,Size,Description,Date}"), AP_INIT_ITERATE("IndexIgnore", add_ignore, NULL, DIR_CMD_PERMS, "one or more file extensions"), AP_INIT_ITERATE2("AddDescription", add_desc, BY_PATH, DIR_CMD_PERMS, "Descriptive text followed by one or more filenames"), AP_INIT_TAKE1("HeaderName", add_header, NULL, DIR_CMD_PERMS, "a filename"), AP_INIT_TAKE1("ReadmeName", add_readme, NULL, DIR_CMD_PERMS, "a filename"), AP_INIT_RAW_ARGS("FancyIndexing", ap_set_deprecated, NULL, OR_ALL, "The FancyIndexing directive is no longer supported. " "Use IndexOptions FancyIndexing."), AP_INIT_TAKE1("DefaultIcon", ap_set_string_slot, (void *)APR_OFFSETOF(autoindex_config_rec, default_icon), DIR_CMD_PERMS, "an icon URL"), {NULL} }; static void *create_autoindex_config(apr_pool_t *p, char *dummy) { autoindex_config_rec *new = (autoindex_config_rec *) apr_pcalloc(p, sizeof(autoindex_config_rec)); new->icon_width = 0; new->icon_height = 0; new->name_width = DEFAULT_NAME_WIDTH; new->name_adjust = K_UNSET; new->desc_width = DEFAULT_DESC_WIDTH; new->desc_adjust = K_UNSET; new->icon_list = apr_array_make(p, 4, sizeof(struct item)); new->alt_list = apr_array_make(p, 4, sizeof(struct item)); new->desc_list = apr_array_make(p, 4, sizeof(ai_desc_t)); new->ign_list = apr_array_make(p, 4, sizeof(struct item)); new->hdr_list = apr_array_make(p, 4, sizeof(struct item)); new->rdme_list = apr_array_make(p, 4, sizeof(struct item)); new->opts = 0; new->incremented_opts = 0; new->decremented_opts = 0; new->default_keyid = '\0'; new->default_direction = '\0'; return (void *) new; } static void *merge_autoindex_configs(apr_pool_t *p, void *basev, void *addv) { autoindex_config_rec *new; autoindex_config_rec *base = (autoindex_config_rec *) basev; autoindex_config_rec *add = (autoindex_config_rec *) addv; new = (autoindex_config_rec *) apr_pcalloc(p, sizeof(autoindex_config_rec)); new->default_icon = add->default_icon ? add->default_icon : base->default_icon; new->icon_height = add->icon_height ? add->icon_height : base->icon_height; new->icon_width = add->icon_width ? add->icon_width : base->icon_width; new->ctype = add->ctype ? add->ctype : base->ctype; new->charset = add->charset ? add->charset : base->charset; new->alt_list = apr_array_append(p, add->alt_list, base->alt_list); new->ign_list = apr_array_append(p, add->ign_list, base->ign_list); new->hdr_list = apr_array_append(p, add->hdr_list, base->hdr_list); new->desc_list = apr_array_append(p, add->desc_list, base->desc_list); new->icon_list = apr_array_append(p, add->icon_list, base->icon_list); new->rdme_list = apr_array_append(p, add->rdme_list, base->rdme_list); if (add->opts & NO_OPTIONS) { /* * If the current directory says 'no options' then we also * clear any incremental mods from being inheritable further down. */ new->opts = NO_OPTIONS; new->incremented_opts = 0; new->decremented_opts = 0; } else { /* * If there were any nonincremental options selected for * this directory, they dominate and we don't inherit *anything.* * Contrariwise, we *do* inherit if the only settings here are * incremental ones. */ if (add->opts == 0) { new->incremented_opts = (base->incremented_opts | add->incremented_opts) & ~add->decremented_opts; new->decremented_opts = (base->decremented_opts | add->decremented_opts); /* * We may have incremental settings, so make sure we don't * inadvertently inherit an IndexOptions None from above. */ new->opts = (base->opts & ~NO_OPTIONS); } else { /* * There are local nonincremental settings, which clear * all inheritance from above. They *are* the new base settings. */ new->opts = add->opts;; } /* * We're guaranteed that there'll be no overlap between * the add-options and the remove-options. */ new->opts |= new->incremented_opts; new->opts &= ~new->decremented_opts; } /* * Inherit the NameWidth settings if there aren't any specific to * the new location; otherwise we'll end up using the defaults set in the * config-rec creation routine. */ if (add->name_adjust == K_UNSET) { new->name_width = base->name_width; new->name_adjust = base->name_adjust; } else { new->name_width = add->name_width; new->name_adjust = add->name_adjust; } /* * Likewise for DescriptionWidth. */ if (add->desc_adjust == K_UNSET) { new->desc_width = base->desc_width; new->desc_adjust = base->desc_adjust; } else { new->desc_width = add->desc_width; new->desc_adjust = add->desc_adjust; } new->default_keyid = add->default_keyid ? add->default_keyid : base->default_keyid; new->default_direction = add->default_direction ? add->default_direction : base->default_direction; return new; } /**************************************************************** * * Looking things up in config entries... */ /* Structure used to hold entries when we're actually building an index */ struct ent { char *name; char *icon; char *alt; char *desc; apr_off_t size; apr_time_t lm; struct ent *next; int ascending, ignore_case, version_sort; char key; int isdir; }; static char *find_item(request_rec *r, apr_array_header_t *list, int path_only) { const char *content_type = ap_field_noparam(r->pool, r->content_type); const char *content_encoding = r->content_encoding; char *path = r->filename; struct item *items = (struct item *) list->elts; int i; for (i = 0; i < list->nelts; ++i) { struct item *p = &items[i]; /* Special cased for ^^DIRECTORY^^ and ^^BLANKICON^^ */ if ((path[0] == '^') || (!ap_strcmp_match(path, p->apply_path))) { if (!*(p->apply_to)) { return p->data; } else if (p->type == BY_PATH || path[0] == '^') { if (!ap_strcmp_match(path, p->apply_to)) { return p->data; } } else if (!path_only) { if (!content_encoding) { if (p->type == BY_TYPE) { if (content_type && !ap_strcasecmp_match(content_type, p->apply_to)) { return p->data; } } } else { if (p->type == BY_ENCODING) { if (!ap_strcasecmp_match(content_encoding, p->apply_to)) { return p->data; } } } } } } return NULL; } #define find_icon(d,p,t) find_item(p,d->icon_list,t) #define find_alt(d,p,t) find_item(p,d->alt_list,t) #define find_header(d,p) find_item(p,d->hdr_list,0) #define find_readme(d,p) find_item(p,d->rdme_list,0) static char *find_default_item(char *bogus_name, apr_array_header_t *list) { request_rec r; /* Bleah. I tried to clean up find_item, and it lead to this bit * of ugliness. Note that the fields initialized are precisely * those that find_item looks at... */ r.filename = bogus_name; r.content_type = r.content_encoding = NULL; return find_item(&r, list, 1); } #define find_default_icon(d,n) find_default_item(n, d->icon_list) #define find_default_alt(d,n) find_default_item(n, d->alt_list) /* * Look through the list of pattern/description pairs and return the first one * if any) that matches the filename in the request. If multiple patterns * match, only the first one is used; since the order in the array is the * same as the order in which directives were processed, earlier matching * directives will dominate. */ #ifdef CASE_BLIND_FILESYSTEM #define MATCH_FLAGS FNM_CASE_BLIND #else #define MATCH_FLAGS 0 #endif static char *find_desc(autoindex_config_rec *dcfg, const char *filename_full) { int i; ai_desc_t *list = (ai_desc_t *) dcfg->desc_list->elts; const char *filename_only; const char *filename; /* * If the filename includes a path, extract just the name itself * for the simple matches. */ if ((filename_only = ap_strrchr_c(filename_full, '/')) == NULL) { filename_only = filename_full; } else { filename_only++; } for (i = 0; i < dcfg->desc_list->nelts; ++i) { ai_desc_t *tuple = &list[i]; int found; /* * Only use the full-path filename if the pattern contains '/'s. */ filename = (tuple->full_path) ? filename_full : filename_only; /* * Make the comparison using the cheapest method; only do * wildcard checking if we must. */ if (tuple->wildcards) { found = (apr_fnmatch(tuple->pattern, filename, MATCH_FLAGS) == 0); } else { found = (ap_strstr_c(filename, tuple->pattern) != NULL); } if (found) { return tuple->description; } } return NULL; } static int ignore_entry(autoindex_config_rec *d, char *path) { apr_array_header_t *list = d->ign_list; struct item *items = (struct item *) list->elts; char *tt; int i; if ((tt = strrchr(path, '/')) == NULL) { tt = path; } else { tt++; } for (i = 0; i < list->nelts; ++i) { struct item *p = &items[i]; char *ap; if ((ap = strrchr(p->apply_to, '/')) == NULL) { ap = p->apply_to; } else { ap++; } #ifndef CASE_BLIND_FILESYSTEM if (!ap_strcmp_match(path, p->apply_path) && !ap_strcmp_match(tt, ap)) { return 1; } #else /* !CASE_BLIND_FILESYSTEM */ /* * On some platforms, the match must be case-blind. This is really * a factor of the filesystem involved, but we can't detect that * reliably - so we have to granularise at the OS level. */ if (!ap_strcasecmp_match(path, p->apply_path) && !ap_strcasecmp_match(tt, ap)) { return 1; } #endif /* !CASE_BLIND_FILESYSTEM */ } return 0; } /***************************************************************** * * Actually generating output */ /* * Elements of the emitted document: * Preamble * Emitted unless SUPPRESS_PREAMBLE is set AND ap_run_sub_req * succeeds for the (content_type == text/html) header file. * Header file * Emitted if found (and able). * H1 tag line * Emitted if a header file is NOT emitted. * Directory stuff * Always emitted. * HR * Emitted if FANCY_INDEXING is set. * Readme file * Emitted if found (and able). * ServerSig * Emitted if ServerSignature is not Off AND a readme file * is NOT emitted. * Postamble * Emitted unless SUPPRESS_PREAMBLE is set AND ap_run_sub_req * succeeds for the (content_type == text/html) readme file. */ /* * emit a plain text file */ static void do_emit_plain(request_rec *r, apr_file_t *f) { char buf[AP_IOBUFSIZE + 1]; int ch; apr_size_t i, c, n; apr_status_t rv; ap_rputs("
\n", r);
    while (!apr_file_eof(f)) {
        do {
            n = sizeof(char) * AP_IOBUFSIZE;
            rv = apr_file_read(f, buf, &n);
        } while (APR_STATUS_IS_EINTR(rv));
        if (n == 0 || rv != APR_SUCCESS) {
            /* ###: better error here? */
            break;
        }
        buf[n] = '\0';
        c = 0;
        while (c < n) {
            for (i = c; i < n; i++) {
                if (buf[i] == '<' || buf[i] == '>' || buf[i] == '&') {
                    break;
                }
            }
            ch = buf[i];
            buf[i] = '\0';
            ap_rputs(&buf[c], r);
            if (ch == '<') {
                ap_rputs("<", r);
            }
            else if (ch == '>') {
                ap_rputs(">", r);
            }
            else if (ch == '&') {
                ap_rputs("&", r);
            }
            c = i + 1;
        }
    }
    ap_rputs("
\n", r); } /* * Handle the preamble through the H1 tag line, inclusive. Locate * the file with a subrequests. Process text/html documents by actually * running the subrequest; text/xxx documents get copied verbatim, * and any other content type is ignored. This means that a non-text * document (such as HEADER.gif) might get multiviewed as the result * instead of a text document, meaning nothing will be displayed, but * oh well. */ static void emit_head(request_rec *r, char *header_fname, int suppress_amble, int emit_xhtml, char *title) { apr_table_t *hdrs = r->headers_in; apr_file_t *f = NULL; request_rec *rr = NULL; int emit_amble = 1; int emit_H1 = 1; const char *r_accept; const char *r_accept_enc; /* * If there's a header file, send a subrequest to look for it. If it's * found and html do the subrequest, otherwise handle it */ r_accept = apr_table_get(hdrs, "Accept"); r_accept_enc = apr_table_get(hdrs, "Accept-Encoding"); apr_table_setn(hdrs, "Accept", "text/html, text/plain"); apr_table_unset(hdrs, "Accept-Encoding"); if ((header_fname != NULL) && r->args) { header_fname = apr_pstrcat(r->pool, header_fname, "?", r->args, NULL); } if ((header_fname != NULL) && (rr = ap_sub_req_lookup_uri(header_fname, r, r->output_filters)) && (rr->status == HTTP_OK) && (rr->filename != NULL) && (rr->finfo.filetype == APR_REG)) { /* * Check for the two specific cases we allow: text/html and * text/anything-else. The former is allowed to be processed for * SSIs. */ if (rr->content_type != NULL) { if (!strcasecmp(ap_field_noparam(r->pool, rr->content_type), "text/html")) { ap_filter_t *f; /* Hope everything will work... */ emit_amble = 0; emit_H1 = 0; if (! suppress_amble) { emit_preamble(r, emit_xhtml, title); } /* This is a hack, but I can't find any better way to do this. * The problem is that we have already created the sub-request, * but we just inserted the OLD_WRITE filter, and the * sub-request needs to pass its data through the OLD_WRITE * filter, or things go horribly wrong (missing data, data in * the wrong order, etc). To fix it, if you create a * sub-request and then insert the OLD_WRITE filter before you * run the request, you need to make sure that the sub-request * data goes through the OLD_WRITE filter. Just steal this * code. The long-term solution is to remove the ap_r* * functions. */ for (f=rr->output_filters; f->frec != ap_subreq_core_filter_handle; f = f->next); f->next = r->output_filters; /* * If there's a problem running the subrequest, display the * preamble if we didn't do it before -- the header file * didn't get displayed. */ if (ap_run_sub_req(rr) != OK) { /* It didn't work */ emit_amble = suppress_amble; emit_H1 = 1; } } else if (!strncasecmp("text/", rr->content_type, 5)) { /* * If we can open the file, prefix it with the preamble * regardless; since we'll be sending a
 block around
                 * the file's contents, any HTML header it had won't end up
                 * where it belongs.
                 */
                if (apr_file_open(&f, rr->filename, APR_READ,
                                  APR_OS_DEFAULT, r->pool) == APR_SUCCESS) {
                    emit_preamble(r, emit_xhtml, title);
                    emit_amble = 0;
                    do_emit_plain(r, f);
                    apr_file_close(f);
                    emit_H1 = 0;
                }
            }
        }
    }

    if (r_accept) {
        apr_table_setn(hdrs, "Accept", r_accept);
    }
    else {
        apr_table_unset(hdrs, "Accept");
    }

    if (r_accept_enc) {
        apr_table_setn(hdrs, "Accept-Encoding", r_accept_enc);
    }

    if (emit_amble) {
        emit_preamble(r, emit_xhtml, title);
    }
    if (emit_H1) {
        ap_rvputs(r, "

Index of ", title, "

\n", NULL); } if (rr != NULL) { ap_destroy_sub_req(rr); } } /* * Handle the Readme file through the postamble, inclusive. Locate * the file with a subrequests. Process text/html documents by actually * running the subrequest; text/xxx documents get copied verbatim, * and any other content type is ignored. This means that a non-text * document (such as FOOTER.gif) might get multiviewed as the result * instead of a text document, meaning nothing will be displayed, but * oh well. */ static void emit_tail(request_rec *r, char *readme_fname, int suppress_amble) { apr_file_t *f = NULL; request_rec *rr = NULL; int suppress_post = 0; int suppress_sig = 0; /* * If there's a readme file, send a subrequest to look for it. If it's * found and a text file, handle it -- otherwise fall through and * pretend there's nothing there. */ if ((readme_fname != NULL) && (rr = ap_sub_req_lookup_uri(readme_fname, r, r->output_filters)) && (rr->status == HTTP_OK) && (rr->filename != NULL) && rr->finfo.filetype == APR_REG) { /* * Check for the two specific cases we allow: text/html and * text/anything-else. The former is allowed to be processed for * SSIs. */ if (rr->content_type != NULL) { if (!strcasecmp(ap_field_noparam(r->pool, rr->content_type), "text/html")) { ap_filter_t *f; for (f=rr->output_filters; f->frec != ap_subreq_core_filter_handle; f = f->next); f->next = r->output_filters; if (ap_run_sub_req(rr) == OK) { /* worked... */ suppress_sig = 1; suppress_post = suppress_amble; } } else if (!strncasecmp("text/", rr->content_type, 5)) { /* * If we can open the file, suppress the signature. */ if (apr_file_open(&f, rr->filename, APR_READ, APR_OS_DEFAULT, r->pool) == APR_SUCCESS) { do_emit_plain(r, f); apr_file_close(f); suppress_sig = 1; } } } } if (!suppress_sig) { ap_rputs(ap_psignature("", r), r); } if (!suppress_post) { ap_rputs("\n", r); } if (rr != NULL) { ap_destroy_sub_req(rr); } } static char *find_title(request_rec *r) { char titlebuf[MAX_STRING_LEN], *find = ""; apr_file_t *thefile = NULL; int x, y, p; apr_size_t n; if (r->status != HTTP_OK) { return NULL; } if ((r->content_type != NULL) && (!strcasecmp(ap_field_noparam(r->pool, r->content_type), "text/html") || !strcmp(r->content_type, INCLUDES_MAGIC_TYPE)) && !r->content_encoding) { if (apr_file_open(&thefile, r->filename, APR_READ, APR_OS_DEFAULT, r->pool) != APR_SUCCESS) { return NULL; } n = sizeof(char) * (MAX_STRING_LEN - 1); apr_file_read(thefile, titlebuf, &n); if (n <= 0) { apr_file_close(thefile); return NULL; } titlebuf[n] = '\0'; for (x = 0, p = 0; titlebuf[x]; x++) { if (apr_tolower(titlebuf[x]) == find[p]) { if (!find[++p]) { if ((p = ap_ind(&titlebuf[++x], '<')) != -1) { titlebuf[x + p] = '\0'; } /* Scan for line breaks for Tanmoy's secretary */ for (y = x; titlebuf[y]; y++) { if ((titlebuf[y] == CR) || (titlebuf[y] == LF)) { if (y == x) { x++; } else { titlebuf[y] = ' '; } } } apr_file_close(thefile); return apr_pstrdup(r->pool, &titlebuf[x]); } } else { p = 0; } } apr_file_close(thefile); } return NULL; } static struct ent *make_parent_entry(apr_int32_t autoindex_opts, autoindex_config_rec *d, request_rec *r, char keyid, char direction) { struct ent *p = (struct ent *) apr_pcalloc(r->pool, sizeof(struct ent)); char *testpath; /* * p->name is now the true parent URI. * testpath is a crafted lie, so that the syntax '/some/..' * (or simply '..')be used to describe 'up' from '/some/' * when processeing IndexIgnore, and Icon|Alt|Desc configs. */ /* The output has always been to the parent. Don't make ourself * our own parent (worthless cyclical reference). */ if (!(p->name = ap_make_full_path(r->pool, r->uri, "../"))) { return (NULL); } ap_getparents(p->name); if (!*p->name) { return (NULL); } /* IndexIgnore has always compared "/thispath/.." */ testpath = ap_make_full_path(r->pool, r->filename, ".."); if (ignore_entry(d, testpath)) { return (NULL); } p->size = -1; p->lm = -1; p->key = apr_toupper(keyid); p->ascending = (apr_toupper(direction) == D_ASCENDING); p->version_sort = autoindex_opts & VERSION_SORT; if (autoindex_opts & FANCY_INDEXING) { if (!(p->icon = find_default_icon(d, testpath))) { p->icon = find_default_icon(d, "^^DIRECTORY^^"); } if (!(p->alt = find_default_alt(d, testpath))) { if (!(p->alt = find_default_alt(d, "^^DIRECTORY^^"))) { p->alt = "DIR"; } } p->desc = find_desc(d, testpath); } return p; } static struct ent *make_autoindex_entry(const apr_finfo_t *dirent, int autoindex_opts, autoindex_config_rec *d, request_rec *r, char keyid, char direction, const char *pattern) { request_rec *rr; struct ent *p; /* Dot is ignored, Parent is handled by make_parent_entry() */ if ((dirent->name[0] == '.') && (!dirent->name[1] || ((dirent->name[1] == '.') && !dirent->name[2]))) return (NULL); #ifndef CASE_BLIND_FILESYSTEM if (pattern && (apr_fnmatch(pattern, dirent->name, FNM_NOESCAPE | FNM_PERIOD) != APR_SUCCESS)) return (NULL); #else /* !CASE_BLIND_FILESYSTEM */ /* * On some platforms, the match must be case-blind. This is really * a factor of the filesystem involved, but we can't detect that * reliably - so we have to granularise at the OS level. */ if (pattern && (apr_fnmatch(pattern, dirent->name, FNM_NOESCAPE | FNM_PERIOD | FNM_CASE_BLIND) != APR_SUCCESS)) return (NULL); #endif /* !CASE_BLIND_FILESYSTEM */ if (ignore_entry(d, ap_make_full_path(r->pool, r->filename, dirent->name))) { return (NULL); } if (!(rr = ap_sub_req_lookup_dirent(dirent, r, AP_SUBREQ_NO_ARGS, NULL))) { return (NULL); } if ((rr->finfo.filetype != APR_DIR && rr->finfo.filetype != APR_REG) || !(rr->status == OK || ap_is_HTTP_SUCCESS(rr->status) || ap_is_HTTP_REDIRECT(rr->status))) { ap_destroy_sub_req(rr); return (NULL); } p = (struct ent *) apr_pcalloc(r->pool, sizeof(struct ent)); if (dirent->filetype == APR_DIR) { p->name = apr_pstrcat(r->pool, dirent->name, "/", NULL); } else { p->name = apr_pstrdup(r->pool, dirent->name); } p->size = -1; p->icon = NULL; p->alt = NULL; p->desc = NULL; p->lm = -1; p->isdir = 0; p->key = apr_toupper(keyid); p->ascending = (apr_toupper(direction) == D_ASCENDING); p->version_sort = !!(autoindex_opts & VERSION_SORT); p->ignore_case = !!(autoindex_opts & IGNORE_CASE); if (autoindex_opts & (FANCY_INDEXING | TABLE_INDEXING)) { p->lm = rr->finfo.mtime; if (dirent->filetype == APR_DIR) { if (autoindex_opts & FOLDERS_FIRST) { p->isdir = 1; } rr->filename = ap_make_dirstr_parent (rr->pool, rr->filename); /* omit the trailing slash (1.3 compat) */ rr->filename[strlen(rr->filename) - 1] = '\0'; if (!(p->icon = find_icon(d, rr, 1))) { p->icon = find_default_icon(d, "^^DIRECTORY^^"); } if (!(p->alt = find_alt(d, rr, 1))) { if (!(p->alt = find_default_alt(d, "^^DIRECTORY^^"))) { p->alt = "DIR"; } } } else { p->icon = find_icon(d, rr, 0); p->alt = find_alt(d, rr, 0); p->size = rr->finfo.size; } p->desc = find_desc(d, rr->filename); if ((!p->desc) && (autoindex_opts & SCAN_HTML_TITLES)) { p->desc = apr_pstrdup(r->pool, find_title(rr)); } } ap_destroy_sub_req(rr); /* * We don't need to take any special action for the file size key. * If we did, it would go here. */ if (keyid == K_LAST_MOD) { if (p->lm < 0) { p->lm = 0; } } return (p); } static char *terminate_description(autoindex_config_rec *d, char *desc, apr_int32_t autoindex_opts, int desc_width) { int maxsize = desc_width; register int x; /* * If there's no DescriptionWidth in effect, default to the old * behaviour of adjusting the description size depending upon * what else is being displayed. Otherwise, stick with the * setting. */ if (d->desc_adjust == K_UNSET) { if (autoindex_opts & SUPPRESS_ICON) { maxsize += 6; } if (autoindex_opts & SUPPRESS_LAST_MOD) { maxsize += 19; } if (autoindex_opts & SUPPRESS_SIZE) { maxsize += 7; } } for (x = 0; desc[x] && ((maxsize > 0) || (desc[x] == '<')); x++) { if (desc[x] == '<') { while (desc[x] != '>') { if (!desc[x]) { maxsize = 0; break; } ++x; } } else if (desc[x] == '&') { /* entities like ä count as one character */ --maxsize; for ( ; desc[x] != ';'; ++x) { if (desc[x] == '\0') { maxsize = 0; break; } } } else { --maxsize; } } if (!maxsize && desc[x] != '\0') { desc[x - 1] = '>'; /* Grump. */ desc[x] = '\0'; /* Double Grump! */ } return desc; } /* * Emit the anchor for the specified field. If a field is the key for the * current request, the link changes its meaning to reverse the order when * selected again. Non-active fields always start in ascending order. */ static void emit_link(request_rec *r, const char *anchor, char column, char curkey, char curdirection, const char *colargs, int nosort) { if (!nosort) { char qvalue[9]; qvalue[0] = '?'; qvalue[1] = 'C'; qvalue[2] = '='; qvalue[3] = column; qvalue[4] = ';'; qvalue[5] = 'O'; qvalue[6] = '='; /* reverse? */ qvalue[7] = ((curkey == column) && (curdirection == D_ASCENDING)) ? D_DESCENDING : D_ASCENDING; qvalue[8] = '\0'; ap_rvputs(r, "<a href=\"", qvalue, colargs ? colargs : "", "\">", anchor, "</a>", NULL); } else { ap_rputs(anchor, r); } } static void output_directories(struct ent **ar, int n, autoindex_config_rec *d, request_rec *r, apr_int32_t autoindex_opts, char keyid, char direction, const char *colargs) { int x; apr_size_t rv; char *name = r->uri; char *tp; int static_columns = !!(autoindex_opts & SUPPRESS_COLSORT); apr_pool_t *scratch; int name_width; int desc_width; char *name_scratch; char *pad_scratch; char *breakrow = ""; apr_pool_create(&scratch, r->pool); if (name[0] == '\0') { name = "/"; } name_width = d->name_width; desc_width = d->desc_width; if ((autoindex_opts & (FANCY_INDEXING | TABLE_INDEXING)) == FANCY_INDEXING) { if (d->name_adjust == K_ADJUST) { for (x = 0; x < n; x++) { int t = strlen(ar[x]->name); if (t > name_width) { name_width = t; } } } if (d->desc_adjust == K_ADJUST) { for (x = 0; x < n; x++) { if (ar[x]->desc != NULL) { int t = strlen(ar[x]->desc); if (t > desc_width) { desc_width = t; } } } } } name_scratch = apr_palloc(r->pool, name_width + 1); pad_scratch = apr_palloc(r->pool, name_width + 1); memset(pad_scratch, ' ', name_width); pad_scratch[name_width] = '\0'; if (autoindex_opts & TABLE_INDEXING) { int cols = 1; ap_rputs("<table><tr>", r); if (!(autoindex_opts & SUPPRESS_ICON)) { ap_rputs("<th>", r); if ((tp = find_default_icon(d, "^^BLANKICON^^"))) { ap_rvputs(r, "<img src=\"", ap_escape_html(scratch, tp), "\" alt=\"[ICO]\"", NULL); if (d->icon_width) { ap_rprintf(r, " width=\"%d\"", d->icon_width); } if (d->icon_height) { ap_rprintf(r, " height=\"%d\"", d->icon_height); } if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs("></th>", r); } else { ap_rputs(" </th>", r); } ++cols; } ap_rputs("<th>", r); emit_link(r, "Name", K_NAME, keyid, direction, colargs, static_columns); if (!(autoindex_opts & SUPPRESS_LAST_MOD)) { ap_rputs("</th><th>", r); emit_link(r, "Last modified", K_LAST_MOD, keyid, direction, colargs, static_columns); ++cols; } if (!(autoindex_opts & SUPPRESS_SIZE)) { ap_rputs("</th><th>", r); emit_link(r, "Size", K_SIZE, keyid, direction, colargs, static_columns); ++cols; } if (!(autoindex_opts & SUPPRESS_DESC)) { ap_rputs("</th><th>", r); emit_link(r, "Description", K_DESC, keyid, direction, colargs, static_columns); ++cols; } if (!(autoindex_opts & SUPPRESS_RULES)) { breakrow = apr_psprintf(r->pool, "<tr><th colspan=\"%d\">" "<hr%s></th></tr>\n", cols, (autoindex_opts & EMIT_XHTML) ? " /" : ""); } ap_rvputs(r, "</th></tr>", breakrow, NULL); } else if (autoindex_opts & FANCY_INDEXING) { ap_rputs("<pre>", r); if (!(autoindex_opts & SUPPRESS_ICON)) { if ((tp = find_default_icon(d, "^^BLANKICON^^"))) { ap_rvputs(r, "<img src=\"", ap_escape_html(scratch, tp), "\" alt=\"Icon \"", NULL); if (d->icon_width) { ap_rprintf(r, " width=\"%d\"", d->icon_width); } if (d->icon_height) { ap_rprintf(r, " height=\"%d\"", d->icon_height); } if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs("> ", r); } else { ap_rputs(" ", r); } } emit_link(r, "Name", K_NAME, keyid, direction, colargs, static_columns); ap_rputs(pad_scratch + 4, r); /* * Emit the guaranteed-at-least-one-space-between-columns byte. */ ap_rputs(" ", r); if (!(autoindex_opts & SUPPRESS_LAST_MOD)) { emit_link(r, "Last modified", K_LAST_MOD, keyid, direction, colargs, static_columns); ap_rputs(" ", r); } if (!(autoindex_opts & SUPPRESS_SIZE)) { emit_link(r, "Size", K_SIZE, keyid, direction, colargs, static_columns); ap_rputs(" ", r); } if (!(autoindex_opts & SUPPRESS_DESC)) { emit_link(r, "Description", K_DESC, keyid, direction, colargs, static_columns); } if (!(autoindex_opts & SUPPRESS_RULES)) { ap_rputs("<hr", r); if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs(">", r); } else { ap_rputc('\n', r); } } else { ap_rputs("<ul>", r); } for (x = 0; x < n; x++) { char *anchor, *t, *t2; int nwidth; apr_pool_clear(scratch); t = ar[x]->name; anchor = ap_escape_html(scratch, ap_os_escape_path(scratch, t, 0)); if (!x && t[0] == '/') { t2 = "Parent Directory"; } else { t2 = t; } if (autoindex_opts & TABLE_INDEXING) { ap_rputs("<tr>", r); if (!(autoindex_opts & SUPPRESS_ICON)) { ap_rputs("<td valign=\"top\">", r); if (autoindex_opts & ICONS_ARE_LINKS) { ap_rvputs(r, "<a href=\"", anchor, "\">", NULL); } if ((ar[x]->icon) || d->default_icon) { ap_rvputs(r, "<img src=\"", ap_escape_html(scratch, ar[x]->icon ? ar[x]->icon : d->default_icon), "\" alt=\"[", (ar[x]->alt ? ar[x]->alt : " "), "]\"", NULL); if (d->icon_width) { ap_rprintf(r, " width=\"%d\"", d->icon_width); } if (d->icon_height) { ap_rprintf(r, " height=\"%d\"", d->icon_height); } if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs(">", r); } else { ap_rputs(" ", r); } if (autoindex_opts & ICONS_ARE_LINKS) { ap_rputs("</a></td>", r); } else { ap_rputs("</td>", r); } } if (d->name_adjust == K_ADJUST) { ap_rvputs(r, "<td><a href=\"", anchor, "\">", ap_escape_html(scratch, t2), "</a>", NULL); } else { nwidth = strlen(t2); if (nwidth > name_width) { memcpy(name_scratch, t2, name_width - 3); name_scratch[name_width - 3] = '.'; name_scratch[name_width - 2] = '.'; name_scratch[name_width - 1] = '>'; name_scratch[name_width] = 0; t2 = name_scratch; nwidth = name_width; } ap_rvputs(r, "<td><a href=\"", anchor, "\">", ap_escape_html(scratch, t2), "</a>", pad_scratch + nwidth, NULL); } if (!(autoindex_opts & SUPPRESS_LAST_MOD)) { if (ar[x]->lm != -1) { char time_str[MAX_STRING_LEN]; apr_time_exp_t ts; apr_time_exp_lt(&ts, ar[x]->lm); apr_strftime(time_str, &rv, MAX_STRING_LEN, "</td><td align=\"right\">%d-%b-%Y %H:%M ", &ts); ap_rputs(time_str, r); } else { ap_rputs("</td><td> ", r); } } if (!(autoindex_opts & SUPPRESS_SIZE)) { char buf[5]; ap_rvputs(r, "</td><td align=\"right\">", apr_strfsize(ar[x]->size, buf), NULL); } if (!(autoindex_opts & SUPPRESS_DESC)) { if (ar[x]->desc) { if (d->desc_adjust == K_ADJUST) { ap_rvputs(r, "</td><td>", ar[x]->desc, NULL); } else { ap_rvputs(r, "</td><td>", terminate_description(d, ar[x]->desc, autoindex_opts, desc_width), NULL); } } } else { ap_rputs("</td><td> ", r); } ap_rputs("</td></tr>\n", r); } else if (autoindex_opts & FANCY_INDEXING) { if (!(autoindex_opts & SUPPRESS_ICON)) { if (autoindex_opts & ICONS_ARE_LINKS) { ap_rvputs(r, "<a href=\"", anchor, "\">", NULL); } if ((ar[x]->icon) || d->default_icon) { ap_rvputs(r, "<img src=\"", ap_escape_html(scratch, ar[x]->icon ? ar[x]->icon : d->default_icon), "\" alt=\"[", (ar[x]->alt ? ar[x]->alt : " "), "]\"", NULL); if (d->icon_width) { ap_rprintf(r, " width=\"%d\"", d->icon_width); } if (d->icon_height) { ap_rprintf(r, " height=\"%d\"", d->icon_height); } if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs(">", r); } else { ap_rputs(" ", r); } if (autoindex_opts & ICONS_ARE_LINKS) { ap_rputs("</a> ", r); } else { ap_rputc(' ', r); } } nwidth = strlen(t2); if (nwidth > name_width) { memcpy(name_scratch, t2, name_width - 3); name_scratch[name_width - 3] = '.'; name_scratch[name_width - 2] = '.'; name_scratch[name_width - 1] = '>'; name_scratch[name_width] = 0; t2 = name_scratch; nwidth = name_width; } ap_rvputs(r, "<a href=\"", anchor, "\">", ap_escape_html(scratch, t2), "</a>", pad_scratch + nwidth, NULL); /* * The blank before the storm.. er, before the next field. */ ap_rputs(" ", r); if (!(autoindex_opts & SUPPRESS_LAST_MOD)) { if (ar[x]->lm != -1) { char time_str[MAX_STRING_LEN]; apr_time_exp_t ts; apr_time_exp_lt(&ts, ar[x]->lm); apr_strftime(time_str, &rv, MAX_STRING_LEN, "%d-%b-%Y %H:%M ", &ts); ap_rputs(time_str, r); } else { /*Length="22-Feb-1998 23:42 " (see 4 lines above) */ ap_rputs(" ", r); } } if (!(autoindex_opts & SUPPRESS_SIZE)) { char buf[5]; ap_rputs(apr_strfsize(ar[x]->size, buf), r); ap_rputs(" ", r); } if (!(autoindex_opts & SUPPRESS_DESC)) { if (ar[x]->desc) { ap_rputs(terminate_description(d, ar[x]->desc, autoindex_opts, desc_width), r); } } ap_rputc('\n', r); } else { ap_rvputs(r, "<li><a href=\"", anchor, "\"> ", t2, "</a></li>\n", NULL); } } if (autoindex_opts & TABLE_INDEXING) { ap_rvputs(r, breakrow, "</table>\n", NULL); } else if (autoindex_opts & FANCY_INDEXING) { if (!(autoindex_opts & SUPPRESS_RULES)) { ap_rputs("<hr", r); if (autoindex_opts & EMIT_XHTML) { ap_rputs(" /", r); } ap_rputs("></pre>\n", r); } else { ap_rputs("</pre>\n", r); } } else { ap_rputs("</ul>\n", r); } } /* * Compare two file entries according to the sort criteria. The return * is essentially a signum function value. */ static int dsortf(struct ent **e1, struct ent **e2) { struct ent *c1; struct ent *c2; int result = 0; /* * First, see if either of the entries is for the parent directory. * If so, that *always* sorts lower than anything else. */ if ((*e1)->name[0] == '/') { return -1; } if ((*e2)->name[0] == '/') { return 1; } /* * Now see if one's a directory and one isn't, if we're set * isdir for FOLDERS_FIRST. */ if ((*e1)->isdir != (*e2)->isdir) { return (*e1)->isdir ? -1 : 1; } /* * All of our comparisons will be of the c1 entry against the c2 one, * so assign them appropriately to take care of the ordering. */ if ((*e1)->ascending) { c1 = *e1; c2 = *e2; } else { c1 = *e2; c2 = *e1; } switch (c1->key) { case K_LAST_MOD: if (c1->lm > c2->lm) { return 1; } else if (c1->lm < c2->lm) { return -1; } break; case K_SIZE: if (c1->size > c2->size) { return 1; } else if (c1->size < c2->size) { return -1; } break; case K_DESC: if (c1->version_sort) { result = apr_strnatcmp(c1->desc ? c1->desc : "", c2->desc ? c2->desc : ""); } else { result = strcmp(c1->desc ? c1->desc : "", c2->desc ? c2->desc : ""); } if (result) { return result; } break; } /* names may identical when treated case-insensitively, * so always fall back on strcmp() flavors to put entries * in deterministic order. This means that 'ABC' and 'abc' * will always appear in the same order, rather than * variably between 'ABC abc' and 'abc ABC' order. */ if (c1->version_sort) { if (c1->ignore_case) { result = apr_strnatcasecmp (c1->name, c2->name); } if (!result) { result = apr_strnatcmp(c1->name, c2->name); } } /* The names may be identical in respects other other than * filename case when strnatcmp is used above, so fall back * to strcmp on conflicts so that fn1.01.zzz and fn1.1.zzz * are also sorted in a deterministic order. */ if (!result && c1->ignore_case) { result = strcasecmp (c1->name, c2->name); } if (!result) { result = strcmp (c1->name, c2->name); } return result; } static int index_directory(request_rec *r, autoindex_config_rec *autoindex_conf) { char *title_name = ap_escape_html(r->pool, r->uri); char *title_endp; char *name = r->filename; char *pstring = NULL; apr_finfo_t dirent; apr_dir_t *thedir; apr_status_t status; int num_ent = 0, x; struct ent *head, *p; struct ent **ar = NULL; const char *qstring; apr_int32_t autoindex_opts = autoindex_conf->opts; char keyid; char direction; char *colargs; char *fullpath; apr_size_t dirpathlen; char *ctype = "text/html"; char *charset; if ((status = apr_dir_open(&thedir, name, r->pool)) != APR_SUCCESS) { ap_log_rerror(APLOG_MARK, APLOG_ERR, status, r, "Can't open directory for index: %s", r->filename); return HTTP_FORBIDDEN; } if (autoindex_conf->ctype) { ctype = autoindex_conf->ctype; } if (autoindex_conf->charset) { charset = autoindex_conf->charset; } else { #if APR_HAS_UNICODE_FS charset = "UTF-8"; #else charset = "ISO-8859-1"; #endif } if (*charset) { ap_set_content_type(r, apr_pstrcat(r->pool, ctype, ";charset=", charset, NULL)); } else { ap_set_content_type(r, ctype); } if (autoindex_opts & TRACK_MODIFIED) { ap_update_mtime(r, r->finfo.mtime); ap_set_last_modified(r); ap_set_etag(r); } if (r->header_only) { apr_dir_close(thedir); return 0; } /* * If there is no specific ordering defined for this directory, * default to ascending by filename. */ keyid = autoindex_conf->default_keyid ? autoindex_conf->default_keyid : K_NAME; direction = autoindex_conf->default_direction ? autoindex_conf->default_direction : D_ASCENDING; /* * Figure out what sort of indexing (if any) we're supposed to use. * * If no QUERY_STRING was specified or client query strings have been * explicitly disabled. * If we are ignoring the client, suppress column sorting as well. */ if (autoindex_opts & IGNORE_CLIENT) { qstring = NULL; autoindex_opts |= SUPPRESS_COLSORT; colargs = ""; } else { char fval[5], vval[5], *ppre = "", *epattern = ""; fval[0] = '\0'; vval[0] = '\0'; qstring = r->args; while (qstring && *qstring) { if (qstring[0] == 'C' && qstring[1] == '=' && qstring[2] && strchr(K_VALID, qstring[2]) && (qstring[3] == '&' || qstring[3] == ';' || !qstring[3])) { keyid = qstring[2]; qstring += qstring[3] ? 4 : 3; } else if (qstring[0] == 'O' && qstring[1] == '=' && ((qstring[2] == D_ASCENDING) || (qstring[2] == D_DESCENDING)) && (qstring[3] == '&' || qstring[3] == ';' || !qstring[3])) { direction = qstring[2]; qstring += qstring[3] ? 4 : 3; } else if (qstring[0] == 'F' && qstring[1] == '=' && qstring[2] && strchr("012", qstring[2]) && (qstring[3] == '&' || qstring[3] == ';' || !qstring[3])) { if (qstring[2] == '0') { autoindex_opts &= ~(FANCY_INDEXING | TABLE_INDEXING); } else if (qstring[2] == '1') { autoindex_opts = (autoindex_opts | FANCY_INDEXING) & ~TABLE_INDEXING; } else if (qstring[2] == '2') { autoindex_opts |= FANCY_INDEXING | TABLE_INDEXING; } strcpy(fval, ";F= "); fval[3] = qstring[2]; qstring += qstring[3] ? 4 : 3; } else if (qstring[0] == 'V' && qstring[1] == '=' && (qstring[2] == '0' || qstring[2] == '1') && (qstring[3] == '&' || qstring[3] == ';' || !qstring[3])) { if (qstring[2] == '0') { autoindex_opts &= ~VERSION_SORT; } else if (qstring[2] == '1') { autoindex_opts |= VERSION_SORT; } strcpy(vval, ";V= "); vval[3] = qstring[2]; qstring += qstring[3] ? 4 : 3; } else if (qstring[0] == 'P' && qstring[1] == '=') { const char *eos = qstring += 2; /* for efficiency */ while (*eos && *eos != '&' && *eos != ';') { ++eos; } if (eos == qstring) { pstring = NULL; } else { pstring = apr_pstrndup(r->pool, qstring, eos - qstring); if (ap_unescape_url(pstring) != OK) { /* ignore the pattern, if it's bad. */ pstring = NULL; } else { ppre = ";P="; /* be correct */ epattern = ap_escape_uri(r->pool, pstring); } } if (*eos && *++eos) { qstring = eos; } else { qstring = NULL; } } else { /* Syntax error? Ignore the remainder! */ qstring = NULL; } } colargs = apr_pstrcat(r->pool, fval, vval, ppre, epattern, NULL); } /* Spew HTML preamble */ title_endp = title_name + strlen(title_name) - 1; while (title_endp > title_name && *title_endp == '/') { *title_endp-- = '\0'; } emit_head(r, find_header(autoindex_conf, r), autoindex_opts & SUPPRESS_PREAMBLE, autoindex_opts & EMIT_XHTML, title_name); /* * Since we don't know how many dir. entries there are, put them into a * linked list and then arrayificate them so qsort can use them. */ head = NULL; p = make_parent_entry(autoindex_opts, autoindex_conf, r, keyid, direction); if (p != NULL) { p->next = head; head = p; num_ent++; } fullpath = apr_palloc(r->pool, APR_PATH_MAX); dirpathlen = strlen(name); memcpy(fullpath, name, dirpathlen); do { status = apr_dir_read(&dirent, APR_FINFO_MIN | APR_FINFO_NAME, thedir); if (APR_STATUS_IS_INCOMPLETE(status)) { continue; /* ignore un-stat()able files */ } else if (status != APR_SUCCESS) { break; } /* We want to explode symlinks here. */ if (dirent.filetype == APR_LNK) { const char *savename; apr_finfo_t fi; /* We *must* have FNAME. */ savename = dirent.name; apr_cpystrn(fullpath + dirpathlen, dirent.name, APR_PATH_MAX - dirpathlen); status = apr_stat(&fi, fullpath, dirent.valid & ~(APR_FINFO_NAME), r->pool); if (status != APR_SUCCESS) { /* Something bad happened, skip this file. */ continue; } memcpy(&dirent, &fi, sizeof(fi)); dirent.name = savename; dirent.valid |= APR_FINFO_NAME; } p = make_autoindex_entry(&dirent, autoindex_opts, autoindex_conf, r, keyid, direction, pstring); if (p != NULL) { p->next = head; head = p; num_ent++; } } while (1); if (num_ent > 0) { ar = (struct ent **) apr_palloc(r->pool, num_ent * sizeof(struct ent *)); p = head; x = 0; while (p) { ar[x++] = p; p = p->next; } qsort((void *) ar, num_ent, sizeof(struct ent *), (int (*)(const void *, const void *)) dsortf); } output_directories(ar, num_ent, autoindex_conf, r, autoindex_opts, keyid, direction, colargs); apr_dir_close(thedir); emit_tail(r, find_readme(autoindex_conf, r), autoindex_opts & SUPPRESS_PREAMBLE); return 0; } /* The formal handler... */ static int handle_autoindex(request_rec *r) { autoindex_config_rec *d; int allow_opts; if(strcmp(r->handler,DIR_MAGIC_TYPE)) { return DECLINED; } allow_opts = ap_allow_options(r); d = (autoindex_config_rec *) ap_get_module_config(r->per_dir_config, &autoindex_module); r->allowed |= (AP_METHOD_BIT << M_GET); if (r->method_number != M_GET) { return DECLINED; } /* OK, nothing easy. Trot out the heavy artillery... */ if (allow_opts & OPT_INDEXES) { int errstatus; if ((errstatus = ap_discard_request_body(r)) != OK) { return errstatus; } /* KLUDGE --- make the sub_req lookups happen in the right directory. * Fixing this in the sub_req_lookup functions themselves is difficult, * and would probably break virtual includes... */ if (r->filename[strlen(r->filename) - 1] != '/') { r->filename = apr_pstrcat(r->pool, r->filename, "/", NULL); } return index_directory(r, d); } else { ap_log_rerror(APLOG_MARK, APLOG_ERR, 0, r, "Directory index forbidden by rule: %s", r->filename); return HTTP_FORBIDDEN; } } static void register_hooks(apr_pool_t *p) { ap_hook_handler(handle_autoindex,NULL,NULL,APR_HOOK_MIDDLE); } module AP_MODULE_DECLARE_DATA autoindex_module = { STANDARD20_MODULE_STUFF, create_autoindex_config, /* dir config creater */ merge_autoindex_configs, /* dir merger --- default is to override */ NULL, /* server config */ NULL, /* merge server config */ autoindex_cmds, /* command apr_table_t */ register_hooks /* register hooks */ };