netsurf/content/hlcache.c

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/*
* Copyright 2009 John-Mark Bell <jmb@netsurf-browser.org>
*
* 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/>.
*/
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/**
* \file
* High-level resource cache implementation.
*/
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include "utils/http.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/ring.h"
#include "utils/utils.h"
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#include "netsurf/misc.h"
#include "netsurf/content.h"
#include "desktop/gui_internal.h"
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#include "content/mimesniff.h"
#include "content/hlcache.h"
// Note, this is *ONLY* so that we can abort cleanly during shutdown of the cache
#include "content/content_protected.h"
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typedef struct hlcache_entry hlcache_entry;
typedef struct hlcache_retrieval_ctx hlcache_retrieval_ctx;
/** High-level cache retrieval context */
struct hlcache_retrieval_ctx {
struct hlcache_retrieval_ctx *r_prev; /**< Previous retrieval context in the ring */
struct hlcache_retrieval_ctx *r_next; /**< Next retrieval context in the ring */
llcache_handle *llcache; /**< Low-level cache handle */
hlcache_handle *handle; /**< High-level handle for object */
uint32_t flags; /**< Retrieval flags */
content_type accepted_types; /**< Accepted types */
hlcache_child_context child; /**< Child context */
bool migrate_target; /**< Whether this context is the migration target */
};
/** High-level cache handle */
struct hlcache_handle {
hlcache_entry *entry; /**< Pointer to cache entry */
hlcache_handle_callback cb; /**< Client callback */
void *pw; /**< Client data */
};
/** Entry in high-level cache */
struct hlcache_entry {
struct content *content; /**< Pointer to associated content */
hlcache_entry *next; /**< Next sibling */
hlcache_entry *prev; /**< Previous sibling */
};
/** Current state of the cache.
*
* Global state of the cache.
*/
struct hlcache_s {
struct hlcache_parameters params;
/** List of cached content objects */
hlcache_entry *content_list;
/** Ring of retrieval contexts */
hlcache_retrieval_ctx *retrieval_ctx_ring;
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/* statistics */
unsigned int hit_count;
unsigned int miss_count;
};
/** high level cache state */
static struct hlcache_s *hlcache = NULL;
/******************************************************************************
* High-level cache internals *
******************************************************************************/
/**
* Attempt to clean the cache
*/
static void hlcache_clean(void *force_clean_flag)
{
hlcache_entry *entry, *next;
bool force_clean = (force_clean_flag != NULL);
for (entry = hlcache->content_list; entry != NULL; entry = next) {
next = entry->next;
if (entry->content == NULL)
continue;
if (content_count_users(entry->content) != 0)
continue;
if (content__get_status(entry->content) == CONTENT_STATUS_LOADING) {
if (force_clean == false)
continue;
NSLOG(netsurf, DEBUG, "Forcing content cleanup during shutdown");
content_abort(entry->content);
content_set_error(entry->content);
}
/** \todo This is over-zealous: all unused contents
* will be immediately destroyed. Ideally, we want to
* purge all unused contents that are using stale
* source data, and enough fresh contents such that
* the cache fits in the configured cache size limit.
*/
/* Remove entry from cache */
if (entry->prev == NULL)
hlcache->content_list = entry->next;
else
entry->prev->next = entry->next;
if (entry->next != NULL)
entry->next->prev = entry->prev;
/* Destroy content */
content_destroy(entry->content);
/* Destroy entry */
free(entry);
}
/* Attempt to clean the llcache */
llcache_clean(false);
/* Re-schedule ourselves */
guit->misc->schedule(hlcache->params.bg_clean_time, hlcache_clean, NULL);
}
/**
* Determine if the specified MIME type is acceptable
*
* \param mime_type MIME type to consider
* \param accepted_types Array of acceptable types, or NULL for any
* \param computed_type Pointer to location to receive computed type of object
* \return True if the type is acceptable, false otherwise
*/
static bool hlcache_type_is_acceptable(lwc_string *mime_type,
content_type accepted_types, content_type *computed_type)
{
content_type type;
type = content_factory_type_from_mime_type(mime_type);
*computed_type = type;
return ((accepted_types & type) != 0);
}
/**
* Veneer between content callback API and hlcache callback API
*
* \param c Content to emit message for
* \param msg Message to emit
* \param data Data for message
* \param pw Pointer to private data (hlcache_handle)
*/
static void hlcache_content_callback(struct content *c, content_msg msg,
const union content_msg_data *data, void *pw)
{
hlcache_handle *handle = pw;
nserror error = NSERROR_OK;
hlcache_event event = {
.type = msg,
};
if (data != NULL) {
event.data = *data;
}
if (handle->cb != NULL)
error = handle->cb(handle, &event, handle->pw);
if (error != NSERROR_OK)
NSLOG(netsurf, INFO, "Error in callback: %d", error);
}
/**
* Find a content for the high-level cache handle
*
* \param ctx High-level cache retrieval context
* \param effective_type Effective MIME type of content
* \return NSERROR_OK on success,
* NSERROR_NEED_DATA on success where data is needed,
* appropriate error otherwise
*
* \pre handle::state == HLCACHE_HANDLE_NEW
* \pre Headers must have been received for associated low-level handle
* \post Low-level handle is either released, or associated with new content
* \post High-level handle is registered with content
*/
static nserror hlcache_find_content(hlcache_retrieval_ctx *ctx,
lwc_string *effective_type)
{
hlcache_entry *entry;
hlcache_event event;
nserror error = NSERROR_OK;
/* Search list of cached contents for a suitable one */
for (entry = hlcache->content_list; entry != NULL; entry = entry->next) {
hlcache_handle entry_handle = { entry, NULL, NULL };
const llcache_handle *entry_llcache;
if (entry->content == NULL)
continue;
/* Ignore contents in the error state */
if (content_get_status(&entry_handle) == CONTENT_STATUS_ERROR)
continue;
/* Ensure that content is shareable */
if (content_is_shareable(entry->content) == false)
continue;
/* Ensure that quirks mode is acceptable */
if (content_matches_quirks(entry->content,
ctx->child.quirks) == false)
continue;
/* Ensure that content uses same low-level object as
* low-level handle */
entry_llcache = content_get_llcache_handle(entry->content);
if (llcache_handle_references_same_object(entry_llcache,
ctx->llcache))
break;
}
if (entry == NULL) {
/* No existing entry, so need to create one */
entry = malloc(sizeof(hlcache_entry));
if (entry == NULL)
return NSERROR_NOMEM;
/* Create content using llhandle */
entry->content = content_factory_create_content(ctx->llcache,
ctx->child.charset, ctx->child.quirks,
effective_type);
if (entry->content == NULL) {
free(entry);
return NSERROR_NOMEM;
}
/* Insert into cache */
entry->prev = NULL;
entry->next = hlcache->content_list;
if (hlcache->content_list != NULL)
hlcache->content_list->prev = entry;
hlcache->content_list = entry;
/* Signal to caller that we created a content */
error = NSERROR_NEED_DATA;
hlcache->miss_count++;
} else {
/* Found a suitable content: no longer need low-level handle */
llcache_handle_release(ctx->llcache);
hlcache->hit_count++;
}
/* Associate handle with content */
if (content_add_user(entry->content,
hlcache_content_callback, ctx->handle) == false)
return NSERROR_NOMEM;
/* Associate cache entry with handle */
ctx->handle->entry = entry;
/* Catch handle up with state of content */
if (ctx->handle->cb != NULL) {
content_status status = content_get_status(ctx->handle);
if (status == CONTENT_STATUS_LOADING) {
event.type = CONTENT_MSG_LOADING;
ctx->handle->cb(ctx->handle, &event, ctx->handle->pw);
} else if (status == CONTENT_STATUS_READY) {
event.type = CONTENT_MSG_LOADING;
ctx->handle->cb(ctx->handle, &event, ctx->handle->pw);
if (ctx->handle->cb != NULL) {
event.type = CONTENT_MSG_READY;
ctx->handle->cb(ctx->handle, &event,
ctx->handle->pw);
}
} else if (status == CONTENT_STATUS_DONE) {
event.type = CONTENT_MSG_LOADING;
ctx->handle->cb(ctx->handle, &event, ctx->handle->pw);
if (ctx->handle->cb != NULL) {
event.type = CONTENT_MSG_READY;
ctx->handle->cb(ctx->handle, &event,
ctx->handle->pw);
}
if (ctx->handle->cb != NULL) {
event.type = CONTENT_MSG_DONE;
ctx->handle->cb(ctx->handle, &event,
ctx->handle->pw);
}
}
}
return error;
}
/**
* Migrate a retrieval context into its final destination content
*
* \param ctx Context to migrate
* \param effective_type The effective MIME type of the content, or NULL
* \return NSERROR_OK on success,
* NSERROR_NEED_DATA on success where data is needed,
* appropriate error otherwise
*/
static nserror hlcache_migrate_ctx(hlcache_retrieval_ctx *ctx,
lwc_string *effective_type)
{
content_type type = CONTENT_NONE;
nserror error = NSERROR_OK;
ctx->migrate_target = true;
if ((effective_type != NULL) &&
hlcache_type_is_acceptable(effective_type,
ctx->accepted_types,
&type)) {
error = hlcache_find_content(ctx, effective_type);
if (error != NSERROR_OK && error != NSERROR_NEED_DATA) {
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_ERROR;
hlevent.data.errordata.errorcode = NSERROR_UNKNOWN;
hlevent.data.errordata.errormsg = messages_get("MiscError");
ctx->handle->cb(ctx->handle, &hlevent,
ctx->handle->pw);
}
llcache_handle_abort(ctx->llcache);
llcache_handle_release(ctx->llcache);
}
} else if (type == CONTENT_NONE &&
(ctx->flags & HLCACHE_RETRIEVE_MAY_DOWNLOAD)) {
/* Unknown type, and we can download, so convert */
llcache_handle_force_stream(ctx->llcache);
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_DOWNLOAD;
hlevent.data.download = ctx->llcache;
ctx->handle->cb(ctx->handle, &hlevent,
ctx->handle->pw);
}
/* Ensure caller knows we need data */
error = NSERROR_NEED_DATA;
} else {
/* Unacceptable type: report error */
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_ERROR;
hlevent.data.errordata.errorcode = NSERROR_UNKNOWN;
hlevent.data.errordata.errormsg = messages_get("UnacceptableType");
ctx->handle->cb(ctx->handle, &hlevent,
ctx->handle->pw);
}
llcache_handle_abort(ctx->llcache);
llcache_handle_release(ctx->llcache);
}
ctx->migrate_target = false;
/* No longer require retrieval context */
RING_REMOVE(hlcache->retrieval_ctx_ring, ctx);
free((char *) ctx->child.charset);
free(ctx);
return error;
}
/**
* Handler for low-level cache events
*
* \param handle Handle for which event is issued
* \param event Event data
* \param pw Pointer to client-specific data
* \return NSERROR_OK on success, appropriate error otherwise
*/
static nserror hlcache_llcache_callback(llcache_handle *handle,
const llcache_event *event, void *pw)
{
hlcache_retrieval_ctx *ctx = pw;
lwc_string *effective_type = NULL;
nserror error;
assert(ctx->llcache == handle);
switch (event->type) {
case LLCACHE_EVENT_GOT_CERTS:
/* Pass them on upward */
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_SSL_CERTS;
hlevent.data.certs.certs = event->data.certs.certs;
hlevent.data.certs.num = event->data.certs.num;
ctx->handle->cb(ctx->handle, &hlevent, ctx->handle->pw);
}
break;
case LLCACHE_EVENT_HAD_HEADERS:
error = mimesniff_compute_effective_type(llcache_handle_get_header(handle, "Content-Type"), NULL, 0,
ctx->flags & HLCACHE_RETRIEVE_SNIFF_TYPE,
ctx->accepted_types == CONTENT_IMAGE,
&effective_type);
if (error == NSERROR_OK || error == NSERROR_NOT_FOUND) {
/* If the sniffer was successful or failed to find
* a Content-Type header when sniffing was
* prohibited, we must migrate the retrieval context. */
error = hlcache_migrate_ctx(ctx, effective_type);
if (effective_type != NULL)
lwc_string_unref(effective_type);
}
/* No need to report that we need data:
* we'll get some anyway if there is any */
if (error == NSERROR_NEED_DATA)
error = NSERROR_OK;
return error;
break;
case LLCACHE_EVENT_HAD_DATA:
error = mimesniff_compute_effective_type(llcache_handle_get_header(handle, "Content-Type"),
event->data.data.buf, event->data.data.len,
ctx->flags & HLCACHE_RETRIEVE_SNIFF_TYPE,
ctx->accepted_types == CONTENT_IMAGE,
&effective_type);
if (error != NSERROR_OK) {
assert(0 && "MIME sniff failed with data");
}
error = hlcache_migrate_ctx(ctx, effective_type);
lwc_string_unref(effective_type);
return error;
break;
case LLCACHE_EVENT_DONE:
/* DONE event before we could determine the effective MIME type.
*/
error = mimesniff_compute_effective_type(llcache_handle_get_header(handle, "Content-Type"),
NULL, 0, false, false, &effective_type);
if (error == NSERROR_OK || error == NSERROR_NOT_FOUND) {
error = hlcache_migrate_ctx(ctx, effective_type);
if (effective_type != NULL) {
lwc_string_unref(effective_type);
}
return error;
}
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_ERROR;
hlevent.data.errordata.errorcode = error;
hlevent.data.errordata.errormsg = NULL;
ctx->handle->cb(ctx->handle, &hlevent, ctx->handle->pw);
}
break;
case LLCACHE_EVENT_ERROR:
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_ERROR;
hlevent.data.errordata.errorcode = event->data.error.code;
hlevent.data.errordata.errormsg = event->data.error.msg;
ctx->handle->cb(ctx->handle, &hlevent, ctx->handle->pw);
}
break;
case LLCACHE_EVENT_PROGRESS:
break;
case LLCACHE_EVENT_REDIRECT:
if (ctx->handle->cb != NULL) {
hlcache_event hlevent;
hlevent.type = CONTENT_MSG_REDIRECT;
hlevent.data.redirect.from = event->data.redirect.from;
hlevent.data.redirect.to = event->data.redirect.to;
ctx->handle->cb(ctx->handle, &hlevent, ctx->handle->pw);
}
break;
}
return NSERROR_OK;
}
/******************************************************************************
* Public API *
******************************************************************************/
nserror
hlcache_initialise(const struct hlcache_parameters *hlcache_parameters)
{
nserror ret;
hlcache = calloc(1, sizeof(struct hlcache_s));
if (hlcache == NULL) {
return NSERROR_NOMEM;
}
ret = llcache_initialise(&hlcache_parameters->llcache);
if (ret != NSERROR_OK) {
free(hlcache);
hlcache = NULL;
return ret;
}
hlcache->params = *hlcache_parameters;
/* Schedule the cache cleanup */
guit->misc->schedule(hlcache->params.bg_clean_time, hlcache_clean, NULL);
return NSERROR_OK;
}
/* See hlcache.h for documentation */
void hlcache_stop(void)
{
/* Remove the hlcache_clean schedule */
guit->misc->schedule(-1, hlcache_clean, NULL);
}
/* See hlcache.h for documentation */
void hlcache_finalise(void)
{
uint32_t num_contents, prev_contents;
hlcache_entry *entry;
hlcache_retrieval_ctx *ctx, *next;
/* Obtain initial count of contents remaining */
for (num_contents = 0, entry = hlcache->content_list;
entry != NULL; entry = entry->next) {
num_contents++;
}
NSLOG(netsurf, INFO, "%d contents remain before cache drain",
num_contents);
/* Drain cache */
do {
prev_contents = num_contents;
hlcache_clean(NULL);
for (num_contents = 0, entry = hlcache->content_list;
entry != NULL; entry = entry->next) {
num_contents++;
}
} while (num_contents > 0 && num_contents != prev_contents);
NSLOG(netsurf, INFO, "%d contents remaining after being polite", num_contents);
/* Drain cache again, forcing the matter */
do {
prev_contents = num_contents;
hlcache_clean(&entry); // Any non-NULL pointer will do
for (num_contents = 0, entry = hlcache->content_list;
entry != NULL; entry = entry->next) {
num_contents++;
}
} while (num_contents > 0 && num_contents != prev_contents);
NSLOG(netsurf, INFO, "%d contents remaining:", num_contents);
for (entry = hlcache->content_list; entry != NULL; entry = entry->next) {
hlcache_handle entry_handle = { entry, NULL, NULL };
if (entry->content != NULL) {
NSLOG(netsurf, INFO, " %p : %s (%d users)",
entry,
nsurl_access(hlcache_handle_get_url(&entry_handle)),
content_count_users(entry->content));
} else {
NSLOG(netsurf, INFO, " %p", entry);
}
}
/* Clean up retrieval contexts */
if (hlcache->retrieval_ctx_ring != NULL) {
ctx = hlcache->retrieval_ctx_ring;
do {
next = ctx->r_next;
if (ctx->llcache != NULL)
llcache_handle_release(ctx->llcache);
if (ctx->handle != NULL)
free(ctx->handle);
if (ctx->child.charset != NULL)
free((char *) ctx->child.charset);
free(ctx);
ctx = next;
} while (ctx != hlcache->retrieval_ctx_ring);
hlcache->retrieval_ctx_ring = NULL;
}
NSLOG(netsurf, INFO, "hit/miss %d/%d", hlcache->hit_count,
hlcache->miss_count);
/* De-schedule ourselves */
guit->misc->schedule(-1, hlcache_clean, NULL);
free(hlcache);
hlcache = NULL;
NSLOG(netsurf, INFO, "Finalising low-level cache");
llcache_finalise();
}
/* See hlcache.h for documentation */
nserror hlcache_handle_retrieve(nsurl *url, uint32_t flags,
nsurl *referer, llcache_post_data *post,
hlcache_handle_callback cb, void *pw,
hlcache_child_context *child,
content_type accepted_types, hlcache_handle **result)
{
hlcache_retrieval_ctx *ctx;
nserror error;
assert(cb != NULL);
ctx = calloc(1, sizeof(hlcache_retrieval_ctx));
if (ctx == NULL) {
return NSERROR_NOMEM;
}
ctx->handle = calloc(1, sizeof(hlcache_handle));
if (ctx->handle == NULL) {
free(ctx);
return NSERROR_NOMEM;
}
if (child != NULL) {
if (child->charset != NULL) {
ctx->child.charset = strdup(child->charset);
if (ctx->child.charset == NULL) {
free(ctx->handle);
free(ctx);
return NSERROR_NOMEM;
}
}
ctx->child.quirks = child->quirks;
}
ctx->flags = flags;
ctx->accepted_types = accepted_types;
ctx->handle->cb = cb;
ctx->handle->pw = pw;
error = llcache_handle_retrieve(url, flags, referer, post,
hlcache_llcache_callback, ctx,
&ctx->llcache);
if (error != NSERROR_OK) {
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/* error retrieving handle so free context and return error */
free((char *) ctx->child.charset);
free(ctx->handle);
free(ctx);
} else {
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/* successfully started fetch so add new context to list */
RING_INSERT(hlcache->retrieval_ctx_ring, ctx);
*result = ctx->handle;
}
return error;
}
/* See hlcache.h for documentation */
nserror hlcache_handle_release(hlcache_handle *handle)
{
if (handle->entry != NULL) {
content_remove_user(handle->entry->content,
hlcache_content_callback, handle);
} else {
RING_ITERATE_START(struct hlcache_retrieval_ctx,
hlcache->retrieval_ctx_ring,
ictx) {
if (ictx->handle == handle &&
ictx->migrate_target == false) {
/* This is the nascent context for us,
* so abort the fetch */
llcache_handle_abort(ictx->llcache);
llcache_handle_release(ictx->llcache);
/* Remove us from the ring */
RING_REMOVE(hlcache->retrieval_ctx_ring, ictx);
/* Throw us away */
free((char *) ictx->child.charset);
free(ictx);
/* And stop */
RING_ITERATE_STOP(hlcache->retrieval_ctx_ring,
ictx);
}
} RING_ITERATE_END(hlcache->retrieval_ctx_ring, ictx);
}
handle->cb = NULL;
handle->pw = NULL;
free(handle);
return NSERROR_OK;
}
/* See hlcache.h for documentation */
struct content *hlcache_handle_get_content(const hlcache_handle *handle)
{
if ((handle != NULL) && (handle->entry != NULL)) {
return handle->entry->content;
}
return NULL;
}
/* See hlcache.h for documentation */
nserror hlcache_handle_abort(hlcache_handle *handle)
{
struct hlcache_entry *entry = handle->entry;
struct content *c;
if (entry == NULL) {
/* This handle is not yet associated with a cache entry.
* The implication is that the fetch for the handle has
* not progressed to the point where the entry can be
* created. */
RING_ITERATE_START(struct hlcache_retrieval_ctx,
hlcache->retrieval_ctx_ring,
ictx) {
if (ictx->handle == handle &&
ictx->migrate_target == false) {
/* This is the nascent context for us,
* so abort the fetch */
llcache_handle_abort(ictx->llcache);
llcache_handle_release(ictx->llcache);
/* Remove us from the ring */
RING_REMOVE(hlcache->retrieval_ctx_ring, ictx);
/* Throw us away */
free((char *) ictx->child.charset);
free(ictx);
/* And stop */
RING_ITERATE_STOP(hlcache->retrieval_ctx_ring,
ictx);
}
} RING_ITERATE_END(hlcache->retrieval_ctx_ring, ictx);
return NSERROR_OK;
}
c = entry->content;
if (content_count_users(c) > 1) {
/* We are not the only user of 'c' so clone it. */
struct content *clone = content_clone(c);
if (clone == NULL)
return NSERROR_NOMEM;
entry = calloc(sizeof(struct hlcache_entry), 1);
if (entry == NULL) {
content_destroy(clone);
return NSERROR_NOMEM;
}
if (content_add_user(clone,
hlcache_content_callback, handle) == false) {
content_destroy(clone);
free(entry);
return NSERROR_NOMEM;
}
content_remove_user(c, hlcache_content_callback, handle);
entry->content = clone;
handle->entry = entry;
entry->prev = NULL;
entry->next = hlcache->content_list;
if (hlcache->content_list != NULL)
hlcache->content_list->prev = entry;
hlcache->content_list = entry;
c = clone;
}
return content_abort(c);
}
/* See hlcache.h for documentation */
nserror hlcache_handle_replace_callback(hlcache_handle *handle,
hlcache_handle_callback cb, void *pw)
{
handle->cb = cb;
handle->pw = pw;
return NSERROR_OK;
}
nserror hlcache_handle_clone(hlcache_handle *handle, hlcache_handle **result)
{
*result = NULL;
return NSERROR_CLONE_FAILED;
}
/* See hlcache.h for documentation */
nsurl *hlcache_handle_get_url(const hlcache_handle *handle)
{
nsurl *result = NULL;
assert(handle != NULL);
if (handle->entry != NULL) {
result = content_get_url(handle->entry->content);
} else {
RING_ITERATE_START(struct hlcache_retrieval_ctx,
hlcache->retrieval_ctx_ring,
ictx) {
if (ictx->handle == handle) {
/* This is the nascent context for us */
result = llcache_handle_get_url(ictx->llcache);
/* And stop */
RING_ITERATE_STOP(hlcache->retrieval_ctx_ring,
ictx);
}
} RING_ITERATE_END(hlcache->retrieval_ctx_ring, ictx);
}
return result;
}