/* * $LynxId: HTAnchor.c,v 1.60 2008/09/18 21:35:24 tom Exp $ * * Hypertext "Anchor" Object HTAnchor.c * ========================== * * An anchor represents a region of a hypertext document which is linked to * another anchor in the same or a different document. * * History * * Nov 1990 Written in Objective-C for the NeXT browser (TBL) * 24-Oct-1991 (JFG), written in C, browser-independent * 21-Nov-1991 (JFG), first complete version * * (c) Copyright CERN 1991 - See Copyright.html */ #define HASH_SIZE 1001 /* Arbitrary prime. Memory/speed tradeoff */ #include #include #include #include #include #include #include #include #include #include #define HASH_TYPE unsigned short #ifdef NOT_DEFINED /* * This is the hashing function used to determine which list in the * adult_table a parent anchor should be put in. This is a * much simpler function than the original used. */ #define HASH_FUNCTION(cp_address) \ ( (HASH_TYPE)strlen(cp_address) *\ (HASH_TYPE)TOUPPER(*cp_address) % HASH_SIZE ) #endif /* NOT_DEFINED */ /* * This is the original function. We'll use it again. - FM */ static HASH_TYPE HASH_FUNCTION(const char *cp_address) { HASH_TYPE hash; const unsigned char *p; for (p = (const unsigned char *) cp_address, hash = 0; *p; p++) hash = (int) (hash * 3 + (*(const unsigned char *) p)) % HASH_SIZE; return (hash); } typedef struct _HyperDoc Hyperdoc; #ifdef VMS struct _HyperDoc { int junk; /* VMS cannot handle pointers to undefined structs */ }; #endif /* VMS */ /* Table of lists of all parents */ static HTList adult_table[HASH_SIZE] = { {NULL, NULL}}; /* Creation Methods * ================ * * Do not use "new" by itself outside this module. In order to enforce * consistency, we insist that you furnish more information about the * anchor you are creating : use newWithParent or newWithAddress. */ static HTParentAnchor0 *HTParentAnchor0_new(const char *address, HASH_TYPE hash) { HTParentAnchor0 *newAnchor = typecalloc(HTParentAnchor0); if (newAnchor == NULL) outofmem(__FILE__, "HTParentAnchor0_new"); newAnchor->parent = newAnchor; /* self */ StrAllocCopy(newAnchor->address, address); newAnchor->adult_hash = hash; return (newAnchor); } static HTParentAnchor *HTParentAnchor_new(HTParentAnchor0 *parent) { HTParentAnchor *newAnchor = typecalloc(HTParentAnchor); if (newAnchor == NULL) outofmem(__FILE__, "HTParentAnchor_new"); newAnchor->parent = parent; /* cross reference */ parent->info = newAnchor; /* cross reference */ newAnchor->address = parent->address; /* copy pointer */ newAnchor->isISMAPScript = FALSE; /* Lynx appends ?0,0 if TRUE. - FM */ newAnchor->isHEAD = FALSE; /* HEAD request if TRUE. - FM */ newAnchor->safe = FALSE; /* Safe. - FM */ newAnchor->no_cache = FALSE; /* no-cache? - FM */ newAnchor->inBASE = FALSE; /* duplicated from HTML.c/h */ newAnchor->content_length = 0; /* Content-Length. - FM */ return (newAnchor); } static HTChildAnchor *HTChildAnchor_new(HTParentAnchor0 *parent) { HTChildAnchor *p = typecalloc(HTChildAnchor); if (p == NULL) outofmem(__FILE__, "HTChildAnchor_new"); p->parent = parent; /* parent reference */ return p; } static HTChildAnchor *HText_pool_ChildAnchor_new(HTParentAnchor *parent) { HTChildAnchor *p = (HTChildAnchor *) HText_pool_calloc((HText *) (parent->document), sizeof(HTChildAnchor)); if (p == NULL) outofmem(__FILE__, "HText_pool_ChildAnchor_new"); p->parent = parent->parent; /* parent reference */ return p; } #ifdef CASE_INSENSITIVE_ANCHORS /* Case insensitive string comparison */ #define HT_EQUIV(a,b) (TOUPPER(a) == TOUPPER(b)) #else /* Case sensitive string comparison */ #define HT_EQUIV(a,b) ((a) == (b)) #endif /* Null-terminated string comparison * --------------------------------- * On entry, * s Points to one string, null terminated * t points to the other. * On exit, * returns YES if the strings are equivalent * NO if they differ. */ static BOOL HTSEquivalent(const char *s, const char *t) { if (s && t) { /* Make sure they point to something */ for (; *s && *t; s++, t++) { if (!HT_EQUIV(*s, *t)) { return (NO); } } return (HT_EQUIV(*s, *t)); } else { return (s == t); /* Two NULLs are equivalent, aren't they ? */ } } /* Binary string comparison * ------------------------ * On entry, * s Points to one bstring * t points to the other. * On exit, * returns YES if the strings are equivalent * NO if they differ. */ static BOOL HTBEquivalent(const bstring *s, const bstring *t) { if (s && t && BStrLen(s) == BStrLen(t)) { int j; int len = BStrLen(s); for (j = 0; j < len; ++j) { if (!HT_EQUIV(BStrData(s)[j], BStrData(t)[j])) { return (NO); } } return (YES); } else { return (s == t); /* Two NULLs are equivalent, aren't they ? */ } } /* * Three-way compare function */ static int compare_anchors(void *l, void *r) { const char *a = ((HTChildAnchor *) l)->tag; const char *b = ((HTChildAnchor *) r)->tag; /* both tags are not NULL */ #ifdef CASE_INSENSITIVE_ANCHORS return strcasecomp(a, b); /* Case insensitive */ #else return strcmp(a, b); /* Case sensitive - FM */ #endif /* CASE_INSENSITIVE_ANCHORS */ } /* Create new or find old sub-anchor * --------------------------------- * * This one is for a named child. * The parent anchor must already exist. */ static HTChildAnchor *HTAnchor_findNamedChild(HTParentAnchor0 *parent, const char *tag) { HTChildAnchor *child; if (parent && tag && *tag) { /* TBL */ if (parent->children) { /* * Parent has children. Search them. */ HTChildAnchor sample; sample.tag = (char *) tag; /* for compare_anchors() only */ child = (HTChildAnchor *) HTBTree_search(parent->children, &sample); if (child != NULL) { CTRACE((tfp, "Child anchor %p of parent %p with name `%s' already exists.\n", (void *) child, (void *) parent, tag)); return (child); } } else { /* parent doesn't have any children yet : create family */ parent->children = HTBTree_new(compare_anchors); } child = HTChildAnchor_new(parent); CTRACE((tfp, "HTAnchor: New Anchor %p named `%s' is child of %p\n", (void *) child, NonNull(tag), (void *) child->parent)); StrAllocCopy(child->tag, tag); /* should be set before HTBTree_add */ HTBTree_add(parent->children, child); return (child); } else { CTRACE((tfp, "HTAnchor_findNamedChild called with NULL parent.\n")); return (NULL); } } /* * This one is for a new unnamed child being edited into an existing * document. The parent anchor and the document must already exist. * (Just add new unnamed child). */ static HTChildAnchor *HTAnchor_addChild(HTParentAnchor *parent) { HTChildAnchor *child; if (!parent) { CTRACE((tfp, "HTAnchor_addChild called with NULL parent.\n")); return (NULL); } child = HText_pool_ChildAnchor_new(parent); CTRACE((tfp, "HTAnchor: New unnamed Anchor %p is child of %p\n", (void *) child, (void *) child->parent)); child->tag = 0; HTList_linkObject(&parent->children_notag, child, &child->_add_children_notag); return (child); } static HTParentAnchor0 *HTAnchor_findAddress_in_adult_table(const DocAddress *newdoc); static BOOL HTAnchor_link(HTChildAnchor *child, HTAnchor * destination, HTLinkType *type); /* Create or find a child anchor with a possible link * -------------------------------------------------- * * Create new anchor with a given parent and possibly * a name, and possibly a link to a _relatively_ named anchor. * (Code originally in ParseHTML.h) */ HTChildAnchor *HTAnchor_findChildAndLink(HTParentAnchor *parent, /* May not be 0 */ const char *tag, /* May be "" or 0 */ const char *href, /* May be "" or 0 */ HTLinkType *ltype) /* May be 0 */ { HTChildAnchor *child; CTRACE((tfp, "Entered HTAnchor_findChildAndLink: tag=`%s',%s href=`%s'\n", NonNull(tag), (ltype == HTInternalLink) ? " (internal link)" : "", NonNull(href))); if (tag && *tag) { child = HTAnchor_findNamedChild(parent->parent, tag); } else { child = HTAnchor_addChild(parent); } if (href && *href) { const char *fragment = NULL; HTParentAnchor0 *dest; if (ltype == HTInternalLink && *href == '#') { dest = parent->parent; } else { const char *relative_to = ((parent->inBASE && *href != '#') ? parent->content_base : parent->address); DocAddress parsed_doc; parsed_doc.address = HTParse(href, relative_to, PARSE_ALL_WITHOUT_ANCHOR); parsed_doc.post_data = NULL; parsed_doc.post_content_type = NULL; if (ltype && parent->post_data && ltype == HTInternalLink) { /* for internal links, find a destination with the same post data if the source of the link has post data. - kw Example: LYNXIMGMAP: */ parsed_doc.post_data = parent->post_data; parsed_doc.post_content_type = parent->post_content_type; } parsed_doc.bookmark = NULL; parsed_doc.isHEAD = FALSE; parsed_doc.safe = FALSE; dest = HTAnchor_findAddress_in_adult_table(&parsed_doc); FREE(parsed_doc.address); } /* * [from HTAnchor_findAddress()] * If the address represents a sub-anchor, we load its parent (above), * then we create a named child anchor within that parent. */ fragment = (*href == '#') ? href + 1 : HTParseAnchor(href); if (*fragment) dest = (HTParentAnchor0 *) HTAnchor_findNamedChild(dest, fragment); if (tag && *tag) { if (child->dest) { /* DUPLICATE_ANCHOR_NAME_WORKAROUND - kw */ CTRACE((tfp, "*** Duplicate ChildAnchor %p named `%s'", (void *) child, tag)); if ((HTAnchor *) dest != child->dest || ltype != child->type) { CTRACE((tfp, ", different dest %p or type, creating unnamed child\n", (void *) child->dest)); child = HTAnchor_addChild(parent); } } } HTAnchor_link(child, (HTAnchor *) dest, ltype); } return child; } /* Create new or find old parent anchor * ------------------------------------ * * Me one is for a reference which is found in a document, and might * not be already loaded. * Note: You are not guaranteed a new anchor -- you might get an old one, * like with fonts. */ HTParentAnchor *HTAnchor_findAddress(const DocAddress *newdoc) { /* Anchor tag specified ? */ const char *tag = HTParseAnchor(newdoc->address); CTRACE((tfp, "Entered HTAnchor_findAddress\n")); /* * If the address represents a sub-anchor, we load its parent, then we * create a named child anchor within that parent. */ if (*tag) { DocAddress parsed_doc; HTParentAnchor0 *foundParent; HTChildAnchor *foundAnchor; parsed_doc.address = HTParse(newdoc->address, "", PARSE_ALL_WITHOUT_ANCHOR); parsed_doc.post_data = newdoc->post_data; parsed_doc.post_content_type = newdoc->post_content_type; parsed_doc.bookmark = newdoc->bookmark; parsed_doc.isHEAD = newdoc->isHEAD; parsed_doc.safe = newdoc->safe; foundParent = HTAnchor_findAddress_in_adult_table(&parsed_doc); foundAnchor = HTAnchor_findNamedChild(foundParent, tag); FREE(parsed_doc.address); return HTAnchor_parent((HTAnchor *) foundParent); } return HTAnchor_parent((HTAnchor *) HTAnchor_findAddress_in_adult_table(newdoc)); } /* The address has no anchor tag, for sure. */ static HTParentAnchor0 *HTAnchor_findAddress_in_adult_table(const DocAddress *newdoc) { /* * Check whether we have this node. */ HASH_TYPE hash; HTList *adults; HTList *grownups; HTParentAnchor0 *foundAnchor; BOOL need_extra_info = (newdoc->post_data || newdoc->post_content_type || newdoc->bookmark || newdoc->isHEAD || newdoc->safe); /* * We need not free adult_table[] atexit - it should be perfectly empty * after free'ing all HText's. (There is an error if it is not empty at * exit). -LP */ /* * Select list from hash table, */ hash = HASH_FUNCTION(newdoc->address); adults = &(adult_table[hash]); /* * Search list for anchor. */ grownups = adults; while (NULL != (foundAnchor = (HTParentAnchor0 *) HTList_nextObject(grownups))) { if (HTSEquivalent(foundAnchor->address, newdoc->address) && ((!foundAnchor->info && !need_extra_info) || (foundAnchor->info && HTBEquivalent(foundAnchor->info->post_data, newdoc->post_data) && foundAnchor->info->isHEAD == newdoc->isHEAD))) { CTRACE((tfp, "Anchor %p with address `%s' already exists.\n", (void *) foundAnchor, newdoc->address)); return foundAnchor; } } /* * Node not found: create new anchor. */ foundAnchor = HTParentAnchor0_new(newdoc->address, hash); CTRACE((tfp, "New anchor %p has hash %d and address `%s'\n", (void *) foundAnchor, hash, newdoc->address)); if (need_extra_info) { /* rare case, create a big structure */ HTParentAnchor *p = HTParentAnchor_new(foundAnchor); if (newdoc->post_data) BStrCopy(p->post_data, newdoc->post_data); if (newdoc->post_content_type) StrAllocCopy(p->post_content_type, newdoc->post_content_type); if (newdoc->bookmark) StrAllocCopy(p->bookmark, newdoc->bookmark); p->isHEAD = newdoc->isHEAD; p->safe = newdoc->safe; } HTList_linkObject(adults, foundAnchor, &foundAnchor->_add_adult); return foundAnchor; } /* Create new or find old named anchor - simple form * ------------------------------------------------- * * Like HTAnchor_findAddress, but simpler to use for simple cases. * No post data etc. can be supplied. - kw */ HTParentAnchor *HTAnchor_findSimpleAddress(const char *url) { DocAddress urldoc; urldoc.address = (char *) url; /* ignore warning, it IS treated like const - kw */ urldoc.post_data = NULL; urldoc.post_content_type = NULL; urldoc.bookmark = NULL; urldoc.isHEAD = FALSE; urldoc.safe = FALSE; return HTAnchor_findAddress(&urldoc); } /* Link me Anchor to another given one * ------------------------------------- */ static BOOL HTAnchor_link(HTChildAnchor *child, HTAnchor * destination, HTLinkType *type) { if (!(child && destination)) return (NO); /* Can't link to/from non-existing anchor */ CTRACE((tfp, "Linking child %p to anchor %p\n", (void *) child, (void *) destination)); if (child->dest) { CTRACE((tfp, "*** child anchor already has destination, exiting!\n")); return (NO); } child->dest = destination; child->type = type; if (child->parent != destination->parent) /* link only foreign children */ HTList_linkObject(&destination->parent->sources, child, &child->_add_sources); return (YES); /* Success */ } /* Delete an anchor and possibly related things (auto garbage collection) * -------------------------------------------- * * The anchor is only deleted if the corresponding document is not loaded. * All outgoing links from children are deleted, and children are * removed from the sources lists of theirs targets. * We also try to delete the targets whose documents are not loaded. * If this anchor's sources list is empty, we delete it and its children. */ /* * Recursively try to delete destination anchor of this child. * In any event, this will tell destination anchor that we * no longer consider it a destination. */ static void deleteLinks(HTChildAnchor *me) { /* * Unregister me with our destination anchor's parent. */ if (me->dest) { HTParentAnchor0 *parent = me->dest->parent; /* * Start. Set the dest pointer to zero. */ me->dest = NULL; /* * Remove me from the parent's sources so that the parent knows one * less anchor is its dest. */ if ((me->parent != parent) && !HTList_isEmpty(&parent->sources)) { /* * Really should only need to deregister once. */ HTList_unlinkObject(&parent->sources, (void *) me); } /* * Recursive call. Test here to avoid calling overhead. Don't delete * if document is loaded or being loaded. */ if ((me->parent != parent) && !parent->underway && (!parent->info || !parent->info->document)) { HTAnchor_delete(parent); } /* * At this point, we haven't a destination. Set it to be so. Leave * the HTAtom pointed to by type up to other code to handle (reusable, * near static). */ me->type = NULL; } } static void HTParentAnchor_free(HTParentAnchor *me); BOOL HTAnchor_delete(HTParentAnchor0 *me) { /* * Memory leaks fixed. * 05-27-94 Lynx 2-3-1 Garrett Arch Blythe */ HTBTElement *ele; HTChildAnchor *child; /* * Do nothing if nothing to do. */ if (!me) { return (NO); } /* * Don't delete if document is loaded or being loaded. */ if (me->underway || (me->info && me->info->document)) { return (NO); } /* * Mark ourselves busy, so that recursive calls of this function on this * HTParentAnchor0 will not free it from under our feet. - kw */ me->underway = TRUE; { /* * Delete all outgoing links from named children. Do not delete named * children itself (may have incoming links). */ if (me->children) { ele = HTBTree_next(me->children, NULL); while (ele != NULL) { child = (HTChildAnchor *) HTBTree_object(ele); if (child->dest) deleteLinks(child); ele = HTBTree_next(me->children, ele); } } } me->underway = FALSE; /* * There are still incoming links to this one (we are the * destination of another anchor). */ if (!HTList_isEmpty(&me->sources)) { /* * Can't delete parent, still have sources. */ return (NO); } /* * No more incoming and outgoing links : kill everything First, delete * named children. */ if (me->children) { ele = HTBTree_next(me->children, NULL); while (ele != NULL) { child = (HTChildAnchor *) HTBTree_object(ele); FREE(child->tag); FREE(child); ele = HTBTree_next(me->children, ele); } HTBTree_free(me->children); } /* * Delete the ParentAnchor, if any. (Document was already deleted). */ if (me->info) { HTParentAnchor_free(me->info); FREE(me->info); } /* * Remove ourselves from the hash table's list. */ HTList_unlinkObject(&(adult_table[me->adult_hash]), (void *) me); /* * Free the address. */ FREE(me->address); /* * Finally, kill the parent anchor passed in. */ FREE(me); return (YES); } /* * Unnamed children (children_notag) have no sence without HText - delete them * and their links if we are about to free HText. Document currently exists. * Called within HText_free(). */ void HTAnchor_delete_links(HTParentAnchor *me) { HTList *cur; HTChildAnchor *child; /* * Do nothing if nothing to do. */ if (!me || !me->document) { return; } /* * Mark ourselves busy, so that recursive calls on this HTParentAnchor0 * will not free it from under our feet. - kw */ me->parent->underway = TRUE; /* * Delete all outgoing links from unnamed children. */ if (!HTList_isEmpty(&me->children_notag)) { cur = &me->children_notag; while ((child = (HTChildAnchor *) HTList_unlinkLastObject(cur)) != 0) { deleteLinks(child); /* child allocated in HText pool, HText_free() will free it later */ } } me->parent->underway = FALSE; } static void HTParentAnchor_free(HTParentAnchor *me) { /* * Delete the methods list. */ if (me->methods) { /* * Leave what the methods point to up in memory for other code (near * static stuff). */ HTList_delete(me->methods); me->methods = NULL; } /* * Free up all allocated members. */ FREE(me->charset); FREE(me->isIndexAction); FREE(me->isIndexPrompt); FREE(me->title); FREE(me->physical); BStrFree(me->post_data); FREE(me->post_content_type); FREE(me->bookmark); FREE(me->owner); FREE(me->RevTitle); FREE(me->citehost); #ifdef USE_SOURCE_CACHE HTAnchor_clearSourceCache(me); #endif if (me->FileCache) { FILE *fd; if ((fd = fopen(me->FileCache, "r")) != NULL) { fclose(fd); remove(me->FileCache); } FREE(me->FileCache); } FREE(me->SugFname); FREE(me->cache_control); #ifdef EXP_HTTP_HEADERS HTChunkClear(&(me->http_headers)); #endif FREE(me->content_type_params); FREE(me->content_type); FREE(me->content_language); FREE(me->content_encoding); FREE(me->content_base); FREE(me->content_disposition); FREE(me->content_location); FREE(me->content_md5); FREE(me->message_id); FREE(me->subject); FREE(me->date); FREE(me->expires); FREE(me->last_modified); FREE(me->ETag); FREE(me->server); #ifdef USE_COLOR_STYLE FREE(me->style); #endif /* * Original code wanted a way to clean out the HTFormat if no longer needed * (ref count?). I'll leave it alone since those HTAtom objects are a * little harder to know where they are being referenced all at one time. * (near static) */ FREE(me->UCStages); ImageMapList_free(me->imaps); } #ifdef USE_SOURCE_CACHE void HTAnchor_clearSourceCache(HTParentAnchor *me) { /* * Clean up the source cache, if any. */ if (me->source_cache_file) { CTRACE((tfp, "SourceCache: Removing file %s\n", me->source_cache_file)); LYRemoveTemp(me->source_cache_file); FREE(me->source_cache_file); } if (me->source_cache_chunk) { CTRACE((tfp, "SourceCache: Removing memory chunk %p\n", (void *) me->source_cache_chunk)); HTChunkFree(me->source_cache_chunk); me->source_cache_chunk = NULL; } } #endif /* USE_SOURCE_CACHE */ /* Data access functions * --------------------- */ HTParentAnchor *HTAnchor_parent(HTAnchor * me) { if (!me) return NULL; if (me->parent->info) return me->parent->info; /* else: create a new structure */ return HTParentAnchor_new(me->parent); } void HTAnchor_setDocument(HTParentAnchor *me, HyperDoc *doc) { if (me) me->document = doc; } HyperDoc *HTAnchor_document(HTParentAnchor *me) { return (me ? me->document : NULL); } char *HTAnchor_address(HTAnchor * me) { char *addr = NULL; if (me) { if (((HTParentAnchor0 *) me == me->parent) || ((HTParentAnchor *) me == me->parent->info) || !((HTChildAnchor *) me)->tag) { /* it's an adult or no tag */ StrAllocCopy(addr, me->parent->address); } else { /* it's a named child */ HTSprintf0(&addr, "%s#%s", me->parent->address, ((HTChildAnchor *) me)->tag); } } return (addr); } void HTAnchor_setFormat(HTParentAnchor *me, HTFormat form) { if (me) me->format = form; } HTFormat HTAnchor_format(HTParentAnchor *me) { return (me ? me->format : NULL); } void HTAnchor_setIndex(HTParentAnchor *me, const char *address) { if (me) { me->isIndex = YES; StrAllocCopy(me->isIndexAction, address); } } void HTAnchor_setPrompt(HTParentAnchor *me, const char *prompt) { if (me) { StrAllocCopy(me->isIndexPrompt, prompt); } } BOOL HTAnchor_isIndex(HTParentAnchor *me) { return (me ? me->isIndex : NO); } /* Whether Anchor has been designated as an ISMAP link * (normally by presence of an ISMAP attribute on A or IMG) - KW */ BOOL HTAnchor_isISMAPScript(HTAnchor * me) { return ((me && me->parent->info) ? me->parent->info->isISMAPScript : NO); } #if defined(USE_COLOR_STYLE) /* Style handling. */ const char *HTAnchor_style(HTParentAnchor *me) { return (me ? me->style : NULL); } void HTAnchor_setStyle(HTParentAnchor *me, const char *style) { if (me) { StrAllocCopy(me->style, style); } } #endif /* Title handling. */ const char *HTAnchor_title(HTParentAnchor *me) { return (me ? me->title : NULL); } void HTAnchor_setTitle(HTParentAnchor *me, const char *title) { int i; if (me) { if (title) { StrAllocCopy(me->title, title); for (i = 0; me->title[i]; i++) { if (UCH(me->title[i]) == 1 || UCH(me->title[i]) == 2) { me->title[i] = ' '; } } } else { CTRACE((tfp, "HTAnchor_setTitle: New title is NULL! ")); if (me->title) { CTRACE((tfp, "Old title was \"%s\".\n", me->title)); FREE(me->title); } else { CTRACE((tfp, "Old title was NULL.\n")); } } } } void HTAnchor_appendTitle(HTParentAnchor *me, const char *title) { int i; if (me) { StrAllocCat(me->title, title); for (i = 0; me->title[i]; i++) { if (UCH(me->title[i]) == 1 || UCH(me->title[i]) == 2) { me->title[i] = ' '; } } } } /* Bookmark handling. */ const char *HTAnchor_bookmark(HTParentAnchor *me) { return (me ? me->bookmark : NULL); } void HTAnchor_setBookmark(HTParentAnchor *me, const char *bookmark) { if (me) StrAllocCopy(me->bookmark, bookmark); } /* Owner handling. */ const char *HTAnchor_owner(HTParentAnchor *me) { return (me ? me->owner : NULL); } void HTAnchor_setOwner(HTParentAnchor *me, const char *owner) { if (me) { StrAllocCopy(me->owner, owner); } } /* TITLE handling in LINKs with REV="made" or REV="owner". - FM */ const char *HTAnchor_RevTitle(HTParentAnchor *me) { return (me ? me->RevTitle : NULL); } void HTAnchor_setRevTitle(HTParentAnchor *me, const char *title) { int i; if (me) { StrAllocCopy(me->RevTitle, title); for (i = 0; me->RevTitle[i]; i++) { if (UCH(me->RevTitle[i]) == 1 || UCH(me->RevTitle[i]) == 2) { me->RevTitle[i] = ' '; } } } } #ifndef DISABLE_BIBP /* Citehost for bibp links from LINKs with REL="citehost". - RDC */ const char *HTAnchor_citehost(HTParentAnchor *me) { return (me ? me->citehost : NULL); } void HTAnchor_setCitehost(HTParentAnchor *me, const char *citehost) { if (me) { StrAllocCopy(me->citehost, citehost); } } #endif /* !DISABLE_BIBP */ /* Suggested filename handling. - FM * (will be loaded if we had a Content-Disposition * header or META element with filename=name.suffix) */ const char *HTAnchor_SugFname(HTParentAnchor *me) { return (me ? me->SugFname : NULL); } #ifdef EXP_HTTP_HEADERS /* HTTP Headers. */ const char *HTAnchor_http_headers(HTParentAnchor *me) { return (me ? me->http_headers.data : NULL); } #endif /* Content-Type handling (parameter list). */ const char *HTAnchor_content_type_params(HTParentAnchor *me) { return (me ? me->content_type_params : NULL); } /* Content-Encoding handling. - FM * (will be loaded if we had a Content-Encoding * header.) */ const char *HTAnchor_content_encoding(HTParentAnchor *me) { return (me ? me->content_encoding : NULL); } /* Content-Type handling. - FM */ const char *HTAnchor_content_type(HTParentAnchor *me) { return (me ? me->content_type : NULL); } /* Last-Modified header handling. - FM */ const char *HTAnchor_last_modified(HTParentAnchor *me) { return (me ? me->last_modified : NULL); } /* Date header handling. - FM */ const char *HTAnchor_date(HTParentAnchor *me) { return (me ? me->date : NULL); } /* Server header handling. - FM */ const char *HTAnchor_server(HTParentAnchor *me) { return (me ? me->server : NULL); } /* Safe header handling. - FM */ BOOL HTAnchor_safe(HTParentAnchor *me) { return (BOOL) (me ? me->safe : FALSE); } /* Content-Base header handling. - FM */ const char *HTAnchor_content_base(HTParentAnchor *me) { return (me ? me->content_base : NULL); } /* Content-Location header handling. - FM */ const char *HTAnchor_content_location(HTParentAnchor *me) { return (me ? me->content_location : NULL); } /* Message-ID, used for mail replies - kw */ const char *HTAnchor_messageID(HTParentAnchor *me) { return (me ? me->message_id : NULL); } BOOL HTAnchor_setMessageID(HTParentAnchor *me, const char *messageid) { if (!(me && messageid && *messageid)) { return FALSE; } StrAllocCopy(me->message_id, messageid); return TRUE; } /* Subject, used for mail replies - kw */ const char *HTAnchor_subject(HTParentAnchor *me) { return (me ? me->subject : NULL); } BOOL HTAnchor_setSubject(HTParentAnchor *me, const char *subject) { if (!(me && subject && *subject)) { return FALSE; } StrAllocCopy(me->subject, subject); return TRUE; } /* Manipulation of links * --------------------- */ HTAnchor *HTAnchor_followLink(HTChildAnchor *me) { return (me->dest); } HTAnchor *HTAnchor_followTypedLink(HTChildAnchor *me, HTLinkType *type) { if (me->type == type) return (me->dest); return (NULL); /* No link of me type */ } /* Methods List * ------------ */ HTList *HTAnchor_methods(HTParentAnchor *me) { if (!me->methods) { me->methods = HTList_new(); } return (me->methods); } /* Protocol * -------- */ void *HTAnchor_protocol(HTParentAnchor *me) { return (me->protocol); } void HTAnchor_setProtocol(HTParentAnchor *me, void *protocol) { me->protocol = protocol; } /* Physical Address * ---------------- */ char *HTAnchor_physical(HTParentAnchor *me) { return (me->physical); } void HTAnchor_setPhysical(HTParentAnchor *me, char *physical) { if (me) { StrAllocCopy(me->physical, physical); } } /* * We store charset info in the HTParentAnchor object, for several * "stages". (See UCDefs.h) * A stream method is supposed to know what stage in the model it is. * * General model MIME -> parser -> structured -> HText * e.g., text/html * from HTTP: HTMIME.c -> SGML.c -> HTML.c -> GridText.c * text/plain * from file: HTFile.c -> HTPlain.c -> GridText.c * * The lock/set_by is used to lock e.g. a charset set by an explicit * HTTP MIME header against overriding by a HTML META tag - the MIME * header has higher priority. Defaults (from -assume_.. options etc.) * will not override charset explicitly given by server. * * Some advantages of keeping this in the HTAnchor: * - Global variables are bad. * - Can remember a charset given by META tag when toggling to SOURCE view. * - Can remember a charset given by href in another doc. * * We don't modify the HTParentAnchor's charset element * here, that one will only be set when explicitly given. */ LYUCcharset *HTAnchor_getUCInfoStage(HTParentAnchor *me, int which_stage) { if (me && !me->UCStages) { int i; int chndl = UCLYhndl_for_unspec; /* always >= 0 */ UCAnchorInfo *stages = typecalloc(UCAnchorInfo); if (stages == NULL) outofmem(__FILE__, "HTAnchor_getUCInfoStage"); for (i = 0; i < UCT_STAGEMAX; i++) { stages->s[i].C.MIMEname = ""; stages->s[i].LYhndl = -1; } if (me->charset) { chndl = UCGetLYhndl_byMIME(me->charset); if (chndl < 0) chndl = UCLYhndl_for_unrec; if (chndl < 0) /* * UCLYhndl_for_unrec not defined :-( * fallback to UCLYhndl_for_unspec which always valid. */ chndl = UCLYhndl_for_unspec; /* always >= 0 */ } memcpy(&stages->s[UCT_STAGE_MIME].C, &LYCharSet_UC[chndl], sizeof(LYUCcharset)); stages->s[UCT_STAGE_MIME].lock = UCT_SETBY_DEFAULT; stages->s[UCT_STAGE_MIME].LYhndl = chndl; me->UCStages = stages; } if (me) { return (&me->UCStages->s[which_stage].C); } return (NULL); } int HTAnchor_getUCLYhndl(HTParentAnchor *me, int which_stage) { if (me) { if (!me->UCStages) { /* * This will allocate and initialize, if not yet done. */ (void) HTAnchor_getUCInfoStage(me, which_stage); } if (me->UCStages->s[which_stage].lock > UCT_SETBY_NONE) { return (me->UCStages->s[which_stage].LYhndl); } } return (-1); } #ifdef CAN_SWITCH_DISPLAY_CHARSET static void setup_switch_display_charset(HTParentAnchor *me, int h) { if (!Switch_Display_Charset(h, SWITCH_DISPLAY_CHARSET_MAYBE)) return; HTAnchor_setUCInfoStage(me, current_char_set, UCT_STAGE_HTEXT, UCT_SETBY_MIME); /* highest priorty! */ HTAnchor_setUCInfoStage(me, current_char_set, UCT_STAGE_STRUCTURED, UCT_SETBY_MIME); /* highest priorty! */ CTRACE((tfp, "changing UCInfoStage: HTEXT/STRUCTURED stages charset='%s'.\n", LYCharSet_UC[current_char_set].MIMEname)); } #endif LYUCcharset *HTAnchor_setUCInfoStage(HTParentAnchor *me, int LYhndl, int which_stage, int set_by) { if (me) { /* * This will allocate and initialize, if not yet done. */ LYUCcharset *p = HTAnchor_getUCInfoStage(me, which_stage); /* * Can we override? */ if (set_by >= me->UCStages->s[which_stage].lock) { #ifdef CAN_SWITCH_DISPLAY_CHARSET int ohandle = me->UCStages->s[which_stage].LYhndl; #endif me->UCStages->s[which_stage].lock = set_by; me->UCStages->s[which_stage].LYhndl = LYhndl; if (LYhndl >= 0) { memcpy(p, &LYCharSet_UC[LYhndl], sizeof(LYUCcharset)); #ifdef CAN_SWITCH_DISPLAY_CHARSET /* Allow a switch to a more suitable display charset */ if (LYhndl != ohandle && which_stage == UCT_STAGE_PARSER) setup_switch_display_charset(me, LYhndl); #endif } else { p->UChndl = -1; } return (p); } } return (NULL); } LYUCcharset *HTAnchor_resetUCInfoStage(HTParentAnchor *me, int LYhndl, int which_stage, int set_by) { int ohandle; if (!me || !me->UCStages) return (NULL); me->UCStages->s[which_stage].lock = set_by; ohandle = me->UCStages->s[which_stage].LYhndl; me->UCStages->s[which_stage].LYhndl = LYhndl; #ifdef CAN_SWITCH_DISPLAY_CHARSET /* Allow a switch to a more suitable display charset */ if (LYhndl >= 0 && LYhndl != ohandle && which_stage == UCT_STAGE_PARSER) setup_switch_display_charset(me, LYhndl); #endif return (&me->UCStages->s[which_stage].C); } /* * A set_by of (-1) means use the lock value from the from_stage. */ LYUCcharset *HTAnchor_copyUCInfoStage(HTParentAnchor *me, int to_stage, int from_stage, int set_by) { if (me) { /* * This will allocate and initialize, if not yet done. */ LYUCcharset *p_from = HTAnchor_getUCInfoStage(me, from_stage); LYUCcharset *p_to = HTAnchor_getUCInfoStage(me, to_stage); /* * Can we override? */ if (set_by == -1) set_by = me->UCStages->s[from_stage].lock; if (set_by == UCT_SETBY_NONE) set_by = UCT_SETBY_DEFAULT; if (set_by >= me->UCStages->s[to_stage].lock) { #ifdef CAN_SWITCH_DISPLAY_CHARSET int ohandle = me->UCStages->s[to_stage].LYhndl; #endif me->UCStages->s[to_stage].lock = set_by; me->UCStages->s[to_stage].LYhndl = me->UCStages->s[from_stage].LYhndl; #ifdef CAN_SWITCH_DISPLAY_CHARSET /* Allow a switch to a more suitable display charset */ if (me->UCStages->s[to_stage].LYhndl >= 0 && me->UCStages->s[to_stage].LYhndl != ohandle && to_stage == UCT_STAGE_PARSER) setup_switch_display_charset(me, me->UCStages->s[to_stage].LYhndl); #endif if (p_to != p_from) memcpy(p_to, p_from, sizeof(LYUCcharset)); return (p_to); } } return (NULL); }