netsurf/content/content.c
2013-05-28 14:16:10 +01:00

1437 lines
32 KiB
C

/*
* Copyright 2005-2007 James Bursa <bursa@users.sourceforge.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/** \file
* Content handling (implementation).
*
* This implementation is based on the ::handler_map array, which maps
* ::content_type to the functions which implement that type.
*/
#include <assert.h>
#include <inttypes.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <time.h>
#include "utils/config.h"
#include "content/content_protected.h"
#include "content/hlcache.h"
#include "css/css.h"
#include "image/bitmap.h"
#include "desktop/browser.h"
#include "utils/nsoption.h"
#include "render/html.h"
#include "render/textplain.h"
#include "utils/http.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/utils.h"
#define URL_FMT_SPC "%.140s"
const char * const content_status_name[] = {
"LOADING",
"READY",
"DONE",
"ERROR"
};
static nserror content_llcache_callback(llcache_handle *llcache,
const llcache_event *event, void *pw);
static void content_convert(struct content *c);
/**
* Initialise a new content structure.
*
* \param c Content to initialise
* \param handler Content handler
* \param imime_type MIME type of content
* \param params HTTP parameters
* \param llcache Source data handle
* \param fallback_charset Fallback charset
* \param quirks Quirkiness of content
* \return NSERROR_OK on success, appropriate error otherwise
*/
nserror content__init(struct content *c, const content_handler *handler,
lwc_string *imime_type, const http_parameter *params,
llcache_handle *llcache, const char *fallback_charset,
bool quirks)
{
struct content_user *user_sentinel;
nserror error;
LOG(("url "URL_FMT_SPC" -> %p",
nsurl_access(llcache_handle_get_url(llcache)), c));
user_sentinel = calloc(1, sizeof(struct content_user));
if (user_sentinel == NULL) {
return NSERROR_NOMEM;
}
if (fallback_charset != NULL) {
c->fallback_charset = strdup(fallback_charset);
if (c->fallback_charset == NULL) {
free(user_sentinel);
return NSERROR_NOMEM;
}
}
c->llcache = llcache;
c->mime_type = lwc_string_ref(imime_type);
c->handler = handler;
c->status = CONTENT_STATUS_LOADING;
c->width = 0;
c->height = 0;
c->available_width = 0;
c->quirks = quirks;
c->refresh = 0;
c->time = wallclock();
c->size = 0;
c->title = NULL;
c->active = 0;
user_sentinel->callback = NULL;
user_sentinel->pw = NULL;
user_sentinel->next = NULL;
c->user_list = user_sentinel;
c->sub_status[0] = 0;
c->locked = false;
c->total_size = 0;
c->http_code = 0;
c->error_count = 0;
content_set_status(c, messages_get("Loading"));
/* Finally, claim low-level cache events */
error = llcache_handle_change_callback(llcache,
content_llcache_callback, c);
if (error != NSERROR_OK) {
lwc_string_unref(c->mime_type);
return error;
}
return NSERROR_OK;
}
/**
* Handler for low-level cache events
*
* \param llcache Low-level cache handle
* \param event Event details
* \param pw Pointer to our context
* \return NSERROR_OK on success, appropriate error otherwise
*/
nserror content_llcache_callback(llcache_handle *llcache,
const llcache_event *event, void *pw)
{
struct content *c = pw;
union content_msg_data msg_data;
nserror error = NSERROR_OK;
switch (event->type) {
case LLCACHE_EVENT_HAD_HEADERS:
/* Will never happen: handled in hlcache */
break;
case LLCACHE_EVENT_HAD_DATA:
if (c->handler->process_data != NULL) {
if (c->handler->process_data(c,
(const char *) event->data.data.buf,
event->data.data.len) == false) {
llcache_handle_abort(c->llcache);
c->status = CONTENT_STATUS_ERROR;
/** \todo It's not clear what error this is */
error = NSERROR_NOMEM;
}
}
break;
case LLCACHE_EVENT_DONE:
{
size_t source_size;
(void) llcache_handle_get_source_data(llcache, &source_size);
content_set_status(c, messages_get("Processing"));
msg_data.explicit_status_text = NULL;
content_broadcast(c, CONTENT_MSG_STATUS, msg_data);
content_convert(c);
}
break;
case LLCACHE_EVENT_ERROR:
/** \todo Error page? */
c->status = CONTENT_STATUS_ERROR;
msg_data.error = event->data.msg;
content_broadcast(c, CONTENT_MSG_ERROR, msg_data);
break;
case LLCACHE_EVENT_PROGRESS:
content_set_status(c, event->data.msg);
msg_data.explicit_status_text = NULL;
content_broadcast(c, CONTENT_MSG_STATUS, msg_data);
break;
case LLCACHE_EVENT_REDIRECT:
msg_data.redirect.from = event->data.redirect.from;
msg_data.redirect.to = event->data.redirect.to;
content_broadcast(c, CONTENT_MSG_REDIRECT, msg_data);
break;
}
return error;
}
/**
* Get whether a content can reformat
*
* \param h content to check
* \return whether the content can reformat
*/
bool content_can_reformat(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
if (c == NULL)
return false;
return (c->handler->reformat != NULL);
}
static void content_update_status(struct content *c)
{
if (c->status == CONTENT_STATUS_LOADING ||
c->status == CONTENT_STATUS_READY) {
/* Not done yet */
snprintf(c->status_message, sizeof (c->status_message),
"%s%s%s", messages_get("Fetching"),
c->sub_status ? ", " : " ", c->sub_status);
} else {
unsigned int time = c->time;
snprintf(c->status_message, sizeof (c->status_message),
"%s (%.1fs)", messages_get("Done"),
(float) time / 100);
}
}
/**
* Updates content with new status.
*
* The textual status contained in the content is updated with given string.
*
* \param status_message new textual status
*/
void content_set_status(struct content *c, const char *status_message)
{
size_t len = strlen(status_message);
if (len >= sizeof(c->sub_status)) {
len = sizeof(c->sub_status) - 1;
}
memcpy(c->sub_status, status_message, len);
c->sub_status[len] = '\0';
content_update_status(c);
}
/**
* All data has arrived, convert for display.
*
* Calls the convert function for the content.
*
* - If the conversion succeeds, but there is still some processing required
* (eg. loading images), the content gets status CONTENT_STATUS_READY, and a
* CONTENT_MSG_READY is sent to all users.
* - If the conversion succeeds and is complete, the content gets status
* CONTENT_STATUS_DONE, and CONTENT_MSG_READY then CONTENT_MSG_DONE are sent.
* - If the conversion fails, CONTENT_MSG_ERROR is sent. The content will soon
* be destroyed and must no longer be used.
*/
void content_convert(struct content *c)
{
assert(c);
assert(c->status == CONTENT_STATUS_LOADING ||
c->status == CONTENT_STATUS_ERROR);
if (c->status != CONTENT_STATUS_LOADING)
return;
if (c->locked == true)
return;
LOG(("content "URL_FMT_SPC" (%p)",
nsurl_access(llcache_handle_get_url(c->llcache)), c));
if (c->handler->data_complete != NULL) {
c->locked = true;
if (c->handler->data_complete(c) == false) {
content_set_error(c);
}
/* Conversion to the READY state will unlock the content */
} else {
content_set_ready(c);
content_set_done(c);
}
}
/**
* Put a content in status CONTENT_STATUS_READY and unlock the content.
*/
void content_set_ready(struct content *c)
{
union content_msg_data msg_data;
/* The content must be locked at this point, as it can only
* become READY after conversion. */
assert(c->locked);
c->locked = false;
c->status = CONTENT_STATUS_READY;
content_update_status(c);
content_broadcast(c, CONTENT_MSG_READY, msg_data);
}
/**
* Put a content in status CONTENT_STATUS_DONE.
*/
void content_set_done(struct content *c)
{
union content_msg_data msg_data;
c->status = CONTENT_STATUS_DONE;
c->time = wallclock() - c->time;
content_update_status(c);
content_broadcast(c, CONTENT_MSG_DONE, msg_data);
}
/**
* Put a content in status CONTENT_STATUS_ERROR and unlock the content.
*
* \note We expect the caller to broadcast an error report if needed.
*/
void content_set_error(struct content *c)
{
c->locked = false;
c->status = CONTENT_STATUS_ERROR;
}
/**
* Reformat to new size.
*
* Calls the reformat function for the content.
*/
void content_reformat(hlcache_handle *h, bool background,
int width, int height)
{
content__reformat(hlcache_handle_get_content(h), background,
width, height);
}
void content__reformat(struct content *c, bool background,
int width, int height)
{
union content_msg_data data;
assert(c != 0);
assert(c->status == CONTENT_STATUS_READY ||
c->status == CONTENT_STATUS_DONE);
assert(c->locked == false);
LOG(("%p %s", c, nsurl_access(llcache_handle_get_url(c->llcache))));
c->available_width = width;
if (c->handler->reformat != NULL) {
c->locked = true;
c->handler->reformat(c, width, height);
c->locked = false;
data.background = background;
content_broadcast(c, CONTENT_MSG_REFORMAT, data);
}
}
/**
* Destroy and free a content.
*
* Calls the destroy function for the content, and frees the structure.
*/
void content_destroy(struct content *c)
{
struct content_rfc5988_link *link;
assert(c);
LOG(("content %p %s", c,
nsurl_access(llcache_handle_get_url(c->llcache))));
assert(c->locked == false);
if (c->handler->destroy != NULL)
c->handler->destroy(c);
llcache_handle_release(c->llcache);
c->llcache = NULL;
lwc_string_unref(c->mime_type);
/* release metadata links */
link = c->links;
while (link != NULL) {
link = content__free_rfc5988_link(link);
}
/* free the user list */
if (c->user_list != NULL) {
free(c->user_list);
}
/* free the title */
if (c->title != NULL) {
free(c->title);
}
/* free the fallback characterset */
if (c->fallback_charset != NULL) {
free(c->fallback_charset);
}
free(c);
}
/**
* Handle mouse movements in a content window.
*
* \param h Content handle
* \param bw browser window
* \param mouse state of mouse buttons and modifier keys
* \param x coordinate of mouse
* \param y coordinate of mouse
*/
void content_mouse_track(hlcache_handle *h, struct browser_window *bw,
browser_mouse_state mouse, int x, int y)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != NULL);
if (c->handler->mouse_track != NULL) {
c->handler->mouse_track(c, bw, mouse, x, y);
} else {
union content_msg_data msg_data;
msg_data.pointer = BROWSER_POINTER_AUTO;
content_broadcast(c, CONTENT_MSG_POINTER, msg_data);
}
return;
}
/**
* Handle mouse clicks and movements in a content window.
*
* \param h Content handle
* \param bw browser window
* \param mouse state of mouse buttons and modifier keys
* \param x coordinate of mouse
* \param y coordinate of mouse
*
* This function handles both hovering and clicking. It is important that the
* code path is identical (except that hovering doesn't carry out the action),
* so that the status bar reflects exactly what will happen. Having separate
* code paths opens the possibility that an attacker will make the status bar
* show some harmless action where clicking will be harmful.
*/
void content_mouse_action(hlcache_handle *h, struct browser_window *bw,
browser_mouse_state mouse, int x, int y)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != NULL);
if (c->handler->mouse_action != NULL)
c->handler->mouse_action(c, bw, mouse, x, y);
return;
}
/**
* Handle keypresses.
*
* \param h Content handle
* \param key The UCS4 character codepoint
* \return true if key handled, false otherwise
*/
bool content_keypress(struct hlcache_handle *h, uint32_t key)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != NULL);
if (c->handler->keypress != NULL)
return c->handler->keypress(c, key);
return false;
}
/**
* Request a redraw of an area of a content
*
* \param h high-level cache handle
* \param x x co-ord of left edge
* \param y y co-ord of top edge
* \param width Width of rectangle
* \param height Height of rectangle
*/
void content_request_redraw(struct hlcache_handle *h,
int x, int y, int width, int height)
{
content__request_redraw(hlcache_handle_get_content(h),
x, y, width, height);
}
/**
* Request a redraw of an area of a content
*
* \param c Content
* \param x x co-ord of left edge
* \param y y co-ord of top edge
* \param width Width of rectangle
* \param height Height of rectangle
*/
void content__request_redraw(struct content *c,
int x, int y, int width, int height)
{
union content_msg_data data;
if (c == NULL)
return;
data.redraw.x = x;
data.redraw.y = y;
data.redraw.width = width;
data.redraw.height = height;
data.redraw.full_redraw = true;
data.redraw.object = c;
data.redraw.object_x = 0;
data.redraw.object_y = 0;
data.redraw.object_width = c->width;
data.redraw.object_height = c->height;
content_broadcast(c, CONTENT_MSG_REDRAW, data);
}
/**
* Display content on screen with optional tiling.
*
* Calls the redraw_tile function for the content, or emulates it with the
* redraw function if it doesn't exist.
*/
bool content_redraw(hlcache_handle *h, struct content_redraw_data *data,
const struct rect *clip, const struct redraw_context *ctx)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != NULL);
if (c->locked) {
/* not safe to attempt redraw */
return true;
}
/* ensure we have a redrawable content */
if (c->handler->redraw == NULL) {
return true;
}
return c->handler->redraw(c, data, clip, ctx);
}
/**
* Register a user for callbacks.
*
* \param c the content to register
* \param callback the callback function
* \param pw callback private data
* \return true on success, false otherwise on memory exhaustion
*
* The callback will be called when content_broadcast() is
* called with the content.
*/
bool content_add_user(struct content *c,
void (*callback)(struct content *c, content_msg msg,
union content_msg_data data, void *pw),
void *pw)
{
struct content_user *user;
LOG(("content "URL_FMT_SPC" (%p), user %p %p",
nsurl_access(llcache_handle_get_url(c->llcache)),
c, callback, pw));
user = malloc(sizeof(struct content_user));
if (!user)
return false;
user->callback = callback;
user->pw = pw;
user->next = c->user_list->next;
c->user_list->next = user;
return true;
}
/**
* Remove a callback user.
*
* The callback function and pw must be identical to those passed to
* content_add_user().
*/
void content_remove_user(struct content *c,
void (*callback)(struct content *c, content_msg msg,
union content_msg_data data, void *pw),
void *pw)
{
struct content_user *user, *next;
LOG(("content "URL_FMT_SPC" (%p), user %p %p",
nsurl_access(llcache_handle_get_url(c->llcache)), c,
callback, pw));
/* user_list starts with a sentinel */
for (user = c->user_list; user->next != 0 &&
!(user->next->callback == callback &&
user->next->pw == pw); user = user->next)
;
if (user->next == 0) {
LOG(("user not found in list"));
assert(0);
return;
}
next = user->next;
user->next = next->next;
free(next);
}
/**
* Count users for the content.
*/
uint32_t content_count_users(struct content *c)
{
struct content_user *user;
uint32_t counter = 0;
assert(c != NULL);
for (user = c->user_list; user != NULL; user = user->next)
counter += 1;
return counter - 1; /* Subtract 1 for the sentinel */
}
/**
* Determine if quirks mode matches
*
* \param c Content to consider
* \param quirks Quirks mode to match
* \return True if quirks match, false otherwise
*/
bool content_matches_quirks(struct content *c, bool quirks)
{
if (c->handler->matches_quirks == NULL)
return true;
return c->handler->matches_quirks(c, quirks);
}
/**
* Determine if a content is shareable
*
* \param c Content to consider
* \return True if content is shareable, false otherwise
*/
bool content_is_shareable(struct content *c)
{
return c->handler->no_share == false;
}
/**
* Send a message to all users.
*/
void content_broadcast(struct content *c, content_msg msg,
union content_msg_data data)
{
struct content_user *user, *next;
assert(c);
// LOG(("%p %s -> %d", c, c->url, msg));
for (user = c->user_list->next; user != 0; user = next) {
next = user->next; /* user may be destroyed during callback */
if (user->callback != 0)
user->callback(c, msg, data, user->pw);
}
}
/* exported interface documented in content_protected.h */
void content_broadcast_errorcode(struct content *c, nserror errorcode)
{
struct content_user *user, *next;
union content_msg_data data;
assert(c);
data.errorcode = errorcode;
for (user = c->user_list->next; user != 0; user = next) {
next = user->next; /* user may be destroyed during callback */
if (user->callback != 0)
user->callback(c, CONTENT_MSG_ERRORCODE, data, user->pw);
}
}
/**
* A window containing the content has been opened.
*
* \param c content that has been opened
* \param bw browser window containing the content
* \param page content of type CONTENT_HTML containing c, or 0 if not an
* object within a page
* \param params object parameters, or 0 if not an object
*
* Calls the open function for the content.
*/
void content_open(hlcache_handle *h, struct browser_window *bw,
struct content *page, struct object_params *params)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
LOG(("content %p %s", c,
nsurl_access(llcache_handle_get_url(c->llcache))));
if (c->handler->open != NULL)
c->handler->open(c, bw, page, params);
}
/**
* The window containing the content has been closed.
*
* Calls the close function for the content.
*/
void content_close(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
LOG(("content %p %s", c,
nsurl_access(llcache_handle_get_url(c->llcache))));
if (c->handler->close != NULL)
c->handler->close(c);
}
/**
* Tell a content that any selection it has, or one of its objects has, must be
* cleared.
*/
void content_clear_selection(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->get_selection != NULL)
c->handler->clear_selection(c);
}
/**
* Get a text selection from a content. Ownership is passed to the caller,
* who must free() it.
*/
char * content_get_selection(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->get_selection != NULL)
return c->handler->get_selection(c);
else
return NULL;
}
void content_get_contextual_content(struct hlcache_handle *h,
int x, int y, struct contextual_content *data)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->get_contextual_content != NULL) {
c->handler->get_contextual_content(c, x, y, data);
return;
} else {
data->object = h;
return;
}
}
bool content_scroll_at_point(struct hlcache_handle *h,
int x, int y, int scrx, int scry)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->scroll_at_point != NULL)
return c->handler->scroll_at_point(c, x, y, scrx, scry);
return false;
}
bool content_drop_file_at_point(struct hlcache_handle *h,
int x, int y, char *file)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->drop_file_at_point != NULL)
return c->handler->drop_file_at_point(c, x, y, file);
return false;
}
void content_search(struct hlcache_handle *h,
struct gui_search_callbacks *gui_callbacks, void *gui_data,
search_flags_t flags, const char *string)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->search != NULL)
c->handler->search(c, gui_callbacks, gui_data, flags, string);
}
void content_search_clear(struct hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->search_clear != NULL)
c->handler->search_clear(c);
}
void content_debug_dump(struct hlcache_handle *h, FILE *f)
{
struct content *c = hlcache_handle_get_content(h);
assert(c != 0);
if (c->handler->debug_dump != NULL)
c->handler->debug_dump(c, f);
}
void content_add_error(struct content *c, const char *token,
unsigned int line)
{
}
bool content__set_title(struct content *c, const char *title)
{
char *new_title = strdup(title);
if (new_title == NULL)
return false;
if (c->title != NULL)
free(c->title);
c->title = new_title;
return true;
}
struct content_rfc5988_link *
content_find_rfc5988_link(hlcache_handle *h, lwc_string *rel)
{
struct content *c = hlcache_handle_get_content(h);
struct content_rfc5988_link *link = c->links;
bool rel_match = false;
while (link != NULL) {
if (lwc_string_caseless_isequal(link->rel, rel,
&rel_match) == lwc_error_ok && rel_match) {
break;
}
link = link->next;
}
return link;
}
struct content_rfc5988_link *
content__free_rfc5988_link(struct content_rfc5988_link *link)
{
struct content_rfc5988_link *next;
next = link->next;
lwc_string_unref(link->rel);
nsurl_unref(link->href);
if (link->hreflang != NULL) {
lwc_string_unref(link->hreflang);
}
if (link->type != NULL) {
lwc_string_unref(link->type);
}
if (link->media != NULL) {
lwc_string_unref(link->media);
}
if (link->sizes != NULL) {
lwc_string_unref(link->sizes);
}
free(link);
return next;
}
bool content__add_rfc5988_link(struct content *c,
const struct content_rfc5988_link *link)
{
struct content_rfc5988_link *newlink;
union content_msg_data msg_data;
/* a link relation must be present for it to be a link */
if (link->rel == NULL) {
return false;
}
/* a link href must be present for it to be a link */
if (link->href == NULL) {
return false;
}
newlink = calloc(1, sizeof(struct content_rfc5988_link));
if (newlink == NULL) {
return false;
}
/* copy values */
newlink->rel = lwc_string_ref(link->rel);
newlink->href = nsurl_ref(link->href);
if (link->hreflang != NULL) {
newlink->hreflang = lwc_string_ref(link->hreflang);
}
if (link->type != NULL) {
newlink->type = lwc_string_ref(link->type);
}
if (link->media != NULL) {
newlink->media = lwc_string_ref(link->media);
}
if (link->sizes != NULL) {
newlink->sizes = lwc_string_ref(link->sizes);
}
/* add to metadata link to list */
newlink->next = c->links;
c->links = newlink;
/* broadcast the data */
msg_data.rfc5988_link = newlink;
content_broadcast(c, CONTENT_MSG_LINK, msg_data);
return true;
}
/**
* Retrieve computed type of content
*
* \param c Content to retrieve type of
* \return Computed content type
*/
content_type content_get_type(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
if (c == NULL)
return CONTENT_NONE;
return c->handler->type();
}
/**
* Retrieve mime-type of content
*
* \param c Content to retrieve mime-type of
* \return Pointer to referenced mime-type, or NULL if not found.
*/
lwc_string *content_get_mime_type(hlcache_handle *h)
{
return content__get_mime_type(hlcache_handle_get_content(h));
}
lwc_string *content__get_mime_type(struct content *c)
{
if (c == NULL)
return NULL;
return lwc_string_ref(c->mime_type);
}
/**
* Retrieve URL associated with content
*
* \param c Content to retrieve URL from
* \return Pointer to URL, or NULL if not found.
*/
nsurl *content_get_url(struct content *c)
{
if (c == NULL)
return NULL;
return llcache_handle_get_url(c->llcache);
}
/**
* Retrieve title associated with content
*
* \param c Content to retrieve title from
* \return Pointer to title, or NULL if not found.
*/
const char *content_get_title(hlcache_handle *h)
{
return content__get_title(hlcache_handle_get_content(h));
}
const char *content__get_title(struct content *c)
{
if (c == NULL)
return NULL;
return c->title != NULL ? c->title :
nsurl_access(llcache_handle_get_url(c->llcache));
}
/**
* Retrieve status of content
*
* \param c Content to retrieve status of
* \return Content status
*/
content_status content_get_status(hlcache_handle *h)
{
return content__get_status(hlcache_handle_get_content(h));
}
content_status content__get_status(struct content *c)
{
if (c == NULL)
return CONTENT_STATUS_ERROR;
return c->status;
}
/**
* Retrieve status message associated with content
*
* \param c Content to retrieve status message from
* \return Pointer to status message, or NULL if not found.
*/
const char *content_get_status_message(hlcache_handle *h)
{
return content__get_status_message(hlcache_handle_get_content(h));
}
const char *content__get_status_message(struct content *c)
{
if (c == NULL)
return NULL;
return c->status_message;
}
/**
* Retrieve width of content
*
* \param c Content to retrieve width of
* \return Content width
*/
int content_get_width(hlcache_handle *h)
{
return content__get_width(hlcache_handle_get_content(h));
}
int content__get_width(struct content *c)
{
if (c == NULL)
return 0;
return c->width;
}
/**
* Retrieve height of content
*
* \param c Content to retrieve height of
* \return Content height
*/
int content_get_height(hlcache_handle *h)
{
return content__get_height(hlcache_handle_get_content(h));
}
int content__get_height(struct content *c)
{
if (c == NULL)
return 0;
return c->height;
}
/**
* Retrieve available width of content
*
* \param c Content to retrieve available width of
* \return Available width of content
*/
int content_get_available_width(hlcache_handle *h)
{
return content__get_available_width(hlcache_handle_get_content(h));
}
int content__get_available_width(struct content *c)
{
if (c == NULL)
return 0;
return c->available_width;
}
/**
* Retrieve source of content
*
* \param c Content to retrieve source of
* \param size Pointer to location to receive byte size of source
* \return Pointer to source data
*/
const char *content_get_source_data(hlcache_handle *h, unsigned long *size)
{
return content__get_source_data(hlcache_handle_get_content(h), size);
}
const char *content__get_source_data(struct content *c, unsigned long *size)
{
const uint8_t *data;
size_t len;
assert(size != NULL);
if (c == NULL)
return NULL;
data = llcache_handle_get_source_data(c->llcache, &len);
*size = (unsigned long) len;
return (const char *) data;
}
/**
* Invalidate content reuse data: causes subsequent requests for content URL
* to query server to determine if content can be reused. This is required
* behaviour for forced reloads etc.
*
* \param c Content to invalidate
*/
void content_invalidate_reuse_data(hlcache_handle *h)
{
content__invalidate_reuse_data(hlcache_handle_get_content(h));
}
void content__invalidate_reuse_data(struct content *c)
{
if (c == NULL || c->llcache == NULL)
return;
/* Invalidate low-level cache data */
llcache_handle_invalidate_cache_data(c->llcache);
}
/**
* Retrieve the refresh URL for a content
*
* \param c Content to retrieve refresh URL from
* \return Pointer to URL, or NULL if none
*/
nsurl *content_get_refresh_url(hlcache_handle *h)
{
return content__get_refresh_url(hlcache_handle_get_content(h));
}
nsurl *content__get_refresh_url(struct content *c)
{
if (c == NULL)
return NULL;
return c->refresh;
}
/**
* Retrieve the bitmap contained in an image content
*
* \param c Content to retrieve bitmap from
* \return Pointer to bitmap, or NULL if none.
*/
struct bitmap *content_get_bitmap(hlcache_handle *h)
{
return content__get_bitmap(hlcache_handle_get_content(h));
}
struct bitmap *content__get_bitmap(struct content *c)
{
struct bitmap *bitmap = NULL;
if ((c != NULL) &&
(c->handler != NULL) &&
(c->handler->type != NULL) &&
(c->handler->type() == CONTENT_IMAGE) &&
(c->handler->get_internal != NULL) ) {
bitmap = c->handler->get_internal(c, NULL);
}
return bitmap;
}
/**
* Determine if a content is opaque from handle
*
* \param h high level cache handle to retrieve opacity from.
* \return false if the content is not opaque or information is not
* known else true.
*/
bool content_get_opaque(hlcache_handle *h)
{
return content__get_opaque(hlcache_handle_get_content(h));
}
/**
* Determine if a content is opaque
*
* \param c Content to retrieve opacity from
* \return false if the content is not opaque or information is not
* known else true.
*/
bool content__get_opaque(struct content *c)
{
bool opaque = false;
if ((c != NULL) &&
(c->handler != NULL) &&
(c->handler->type != NULL) &&
(c->handler->type() == CONTENT_IMAGE) &&
(c->handler->get_internal != NULL) ) {
struct bitmap *bitmap = NULL;
bitmap = c->handler->get_internal(c, NULL);
if (bitmap != NULL) {
opaque = bitmap_get_opaque(bitmap);
}
}
return opaque;
}
/**
* Retrieve quirkiness of a content
*
* \param h Content to examine
* \return True if content is quirky, false otherwise
*/
bool content_get_quirks(hlcache_handle *h)
{
struct content *c = hlcache_handle_get_content(h);
if (c == NULL)
return false;
return c->quirks;
}
/**
* Return whether a content is currently locked
*
* \param c Content to test
* \return true iff locked, else false
*/
bool content_is_locked(hlcache_handle *h)
{
return content__is_locked(hlcache_handle_get_content(h));
}
bool content__is_locked(struct content *c)
{
return c->locked;
}
/**
* Retrieve the low-level cache handle for a content
*
* \param h Content to retrieve from
* \return Low-level cache handle
*/
const llcache_handle *content_get_llcache_handle(struct content *c)
{
if (c == NULL)
return NULL;
return c->llcache;
}
/**
* Clone a content object in its current state.
*
* \param c Content to clone
* \return Clone of \a c
*/
struct content *content_clone(struct content *c)
{
struct content *nc;
nserror error;
error = c->handler->clone(c, &nc);
if (error != NSERROR_OK)
return NULL;
return nc;
};
/**
* Clone a content's data members
*
* \param c Content to clone
* \param nc Content to populate
* \return NSERROR_OK on success, appropriate error otherwise
*/
nserror content__clone(const struct content *c, struct content *nc)
{
nserror error;
error = llcache_handle_clone(c->llcache, &(nc->llcache));
if (error != NSERROR_OK) {
return error;
}
llcache_handle_change_callback(nc->llcache,
content_llcache_callback, nc);
nc->mime_type = lwc_string_ref(c->mime_type);
nc->handler = c->handler;
nc->status = c->status;
nc->width = c->width;
nc->height = c->height;
nc->available_width = c->available_width;
nc->quirks = c->quirks;
if (c->fallback_charset != NULL) {
nc->fallback_charset = strdup(c->fallback_charset);
if (nc->fallback_charset == NULL) {
return NSERROR_NOMEM;
}
}
if (c->refresh != NULL) {
nc->refresh = nsurl_ref(c->refresh);
if (nc->refresh == NULL) {
return NSERROR_NOMEM;
}
}
nc->time = c->time;
nc->reformat_time = c->reformat_time;
nc->size = c->size;
if (c->title != NULL) {
nc->title = strdup(c->title);
if (nc->title == NULL) {
return NSERROR_NOMEM;
}
}
nc->active = c->active;
nc->user_list = calloc(1, sizeof(struct content_user));
if (nc->user_list == NULL) {
return NSERROR_NOMEM;
}
memcpy(&(nc->status_message), &(c->status_message), 120);
memcpy(&(nc->sub_status), &(c->sub_status), 80);
nc->locked = c->locked;
nc->total_size = c->total_size;
nc->http_code = c->http_code;
return NSERROR_OK;
}
/**
* Abort a content object
*
* \param c The content object to abort
* \return NSERROR_OK on success, otherwise appropriate error
*/
nserror content_abort(struct content *c)
{
LOG(("Aborting %p", c));
if (c->handler->stop != NULL)
c->handler->stop(c);
/* And for now, abort our llcache object */
return llcache_handle_abort(c->llcache);
}