gecko-dev/network/cache/mkmemcac.c

2315 строки
61 KiB
C

/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/* Module to do memory caching; storage and retreival
* very simple hash table based scheme.
*
* designed and originally implemented by Lou Montulli
* modifications/additions by Gagan Saksena
*/
/* Please leave outside of ifdef for windows precompiled headers */
#include "rosetta.h"
#include "xp.h"
#ifdef MOZILLA_CLIENT
#include "mkcache.h"
#include "mkselect.h"
#include "netutils.h"
#include "mktcp.h"
#include "glhist.h"
#include "xp_hash.h"
#include "xp_mcom.h"
#include "client.h"
#include "mkgeturl.h"
#include "mkstream.h"
#include "extcache.h"
#include "mkmemcac.h"
#ifndef MODULAR_NETLIB
#include "libimg.h" /* Image Lib public API. */
#else
extern void IL_SetCacheSize(uint32 new_size);
#endif
#include "prclist.h"
#include "prmem.h"
#include "plstr.h"
#include "shist.h"
#include "secnav.h"
#include "timing.h"
#ifdef NU_CACHE
#include "CacheStubs.h"
#endif
/* exported error ints */
extern int MK_OUT_OF_MEMORY;
/* the size of the cache segment output size
*/
#define NET_MEM_CACHE_OUTPUT_SIZE 2048
/* MAX_MEMORY_ALLOC_SIZE is the size of the largest malloc
* used in this module
*
* the NET_Socket_Buffer can never be larger than the
* MAX_MEMORY_ALLOC_SIZE or this will fail
*/
#ifdef XP_WIN16
#define MAX_MEMORY_ALLOC_SIZE 32767 /* MAXINT */
#elif defined(XP_MAC)
#define MAX_MEMORY_ALLOC_SIZE 64*1024
#else
#define MAX_MEMORY_ALLOC_SIZE (((unsigned) (~0) << 1) >> 1) /* MAXINT */
/* @@@@@@@@@ there is currently a limit on PR_Malloc to less than 32 K */
#undef MAX_MEMORY_ALLOC_SIZE
#define MAX_MEMORY_ALLOC_SIZE 32767 /* MAXINT */
#endif
/* this is the minimum size of each of the memory segments used to hold
* the cache object in memory
*/
#ifdef XP_MAC
#define MEMORY_CACHE_SEGMENT_SIZE 64*1024
#else
#define MEMORY_CACHE_SEGMENT_SIZE 2048
#endif
/* !!! structure is typedef'd to net_MemoryCacheObject
* in net.h
*/
struct _net_MemoryCacheObject {
XP_List *list;
net_CacheObject cache_obj;
int external_locks; /* locks set by other modules calling in */
int mem_read_lock; /* the number of current readers */
XP_Bool delete_me; /* set this to delete the object
* once all readers are done
*/
XP_Bool current_page_only; /* this is set when the document
* requested not to be cached.
* When set the document should
* only be served if it's a
* resize or print
*/
XP_Bool completed; /* whether or not we have completed the
* caching of this object. Initialized to
* false, then set to true once the
* complete function is called.
*/
XP_Bool aborted; /* whether or not we have aborted the
* caching of this object.
*/
};
/* structure to hold memory
* segments
*/
typedef struct _net_MemorySegment {
char *segment;
uint32 seg_size;
uint32 in_use;
} net_MemorySegment;
/* the hash table pointer that holds all the memory cache
* objects for quick lookup
*/
PRIVATE XP_HashList * net_MemoryCacheHashList = 0;
/* semaphore counter set when calling any of the list add functions
*/
PRIVATE int net_cache_adding_object=0;
/* a list of all the documents currently in
* memory
*
* The net_MemoryCacheList is used as a delete queue
* and is ordered by last-accessed time.
*/
PRIVATE XP_List *net_MemoryCacheList=0;
PRIVATE uint32 net_MemoryCacheSize=0;
PRIVATE uint32 net_MaxMemoryCacheSize=0;
/* this object is used by the MemCacheConverter.
* MemCacheConverter is a standard netlib stream and uses
* this structure to hold data between invokations of
* the write function and complete or abort.
*/
typedef struct _CacheDataObject {
PRCList links;
NET_StreamClass *next_stream;
net_MemoryCacheObject *memory_copy;
URL_Struct *URL_s;
uint32 computed_content_length;
} CacheDataObject;
/* PRIVATE XXX Mac CodeWarrior bug */ PRCList mem_active_cache_data_objects
= PR_INIT_STATIC_CLIST(&mem_active_cache_data_objects);
/* free a segmented memory copy of an object
* and the included net_cacheObject struct
*/
PRIVATE void
net_FreeMemoryCopy(net_MemoryCacheObject * mem_copy)
{
net_MemorySegment * mem_seg;
PR_ASSERT(mem_copy);
if(!mem_copy)
return;
/* If the stream was aborted while being written, and nobody is
* reading it, then it's ok to delete it now. That is,
* we don't need to check if we want to set delete_me
*/
if (!((mem_copy->mem_read_lock == 0) && mem_copy->aborted))
{
/* if this object is currently being read or written DO NOT delete it.
* It will be deleted by another call to this function
* after it is finished being read.
*/
if (((mem_copy->mem_read_lock > 0) && mem_copy->completed) ||
!mem_copy->completed)
{
TRACEMSG(("Seting delete_me flag on memory cache object"));
mem_copy->delete_me = TRUE;
/* remove it from the hash list so it won't be found
* by NET_GetURLInMemCache
*/
XP_HashListRemoveObject(net_MemoryCacheHashList, mem_copy);
return;
}
}
TRACEMSG(("Freeing memory cache copy"));
/* free and delete the memory segment list
*/
while((mem_seg = (net_MemorySegment *)XP_ListRemoveTopObject(mem_copy->list)) != NULL)
{
/* reduce the global memory cache size
*/
net_MemoryCacheSize -= mem_seg->seg_size;
PR_Free(mem_seg->segment);
PR_Free(mem_seg);
}
XP_ListDestroy(mem_copy->list);
/* Remove it from the hash and delete lists,
* If the object isn't in these lists anymore
* the call will be ignored.
*/
XP_HashListRemoveObject(net_MemoryCacheHashList, mem_copy);
XP_ListRemoveObject(net_MemoryCacheList, mem_copy);
PR_FREEIF(mem_copy->cache_obj.address);
PR_FREEIF(mem_copy->cache_obj.post_data);
PR_FREEIF(mem_copy->cache_obj.post_headers);
PR_FREEIF(mem_copy->cache_obj.content_type);
PR_FREEIF(mem_copy->cache_obj.charset);
PR_FREEIF(mem_copy->cache_obj.content_encoding);
PR_Free(mem_copy);
}
/* removes the last mem object. Returns negative on error,
* otherwise returns the current size of the cache
*/
PRIVATE int32
net_remove_last_memory_cache_object(void)
{
net_MemoryCacheObject * mem_cache_obj;
/* safty valve in case there are no list items
* or if we are in the process of adding an object
*/
if(net_cache_adding_object)
return -1;
mem_cache_obj = (net_MemoryCacheObject *)
XP_ListRemoveEndObject(net_MemoryCacheList);
if(!mem_cache_obj)
return -1;
/* we can't remove it if we have external locks or if it's not completed -
* try removing another one
*/
if(mem_cache_obj->external_locks || !mem_cache_obj->completed)
{
int status = net_remove_last_memory_cache_object(); /* recurse */
/* add the object back in */
XP_ListAddObject(net_MemoryCacheList, mem_cache_obj);
return status;
}
net_FreeMemoryCopy(mem_cache_obj);
return((int32) net_MemoryCacheSize);
}
/* this function free's objects to bring the cache size
* below the size passed in
*/
PRIVATE void
net_ReduceMemoryCacheTo(uint32 size)
{
/* safty valve in case we are in the process of adding an object
*/
if(net_cache_adding_object)
return;
while(net_MemoryCacheSize > size)
{
if(0 > net_remove_last_memory_cache_object())
break;
}
}
/* set the size of the Memory cache.
* Set it to 0 if you want cacheing turned off
* completely
*/
#define HTML_CACHE_MAX_BASE_SIZE 1024l*1024l
#define HTML_CACHE_VARIABLE_GROWTH .05 /* the percentage to add */
PUBLIC void
NET_SetMemoryCacheSize(int32 new_size)
{
int32 image_cache_size;
int32 html_cache_size;
if(new_size <= 0)
{
IL_SetCacheSize(0);
net_ReduceMemoryCacheTo(0);
net_MaxMemoryCacheSize = 0;
return;
}
/* the netlib mem cache is set to .3*new_size
* or 200K + .05 * new_size, whichever is less.
* and imagelb uses the rest
*/
if(new_size * .3 < HTML_CACHE_MAX_BASE_SIZE)
{
/* use .3 of new_size */
html_cache_size = (int32) (.3 * new_size);
}
else
{
/* use HTML_CACHE_MAX_BASE_SIZE + .05*new_size */
html_cache_size = HTML_CACHE_MAX_BASE_SIZE +
(int32)(HTML_CACHE_VARIABLE_GROWTH*
(new_size - HTML_CACHE_MAX_BASE_SIZE));
}
image_cache_size = new_size - html_cache_size;
net_MaxMemoryCacheSize = html_cache_size;
net_ReduceMemoryCacheTo((uint32) html_cache_size);
/* set the image cache to be the rest
*/
IL_SetCacheSize(image_cache_size);
return;
}
/* Remove the last memory cache object if one exists
* Returns the total size of the memory cache in bytes
* after performing the operation
*/
PUBLIC int32
NET_RemoveLastMemoryCacheObject()
{
net_remove_last_memory_cache_object();
return(net_MemoryCacheSize);
}
/* returns the number of bytes currently in use by the Memory cache
*/
PUBLIC int32
NET_GetMemoryCacheSize()
{
return(net_MemoryCacheSize);
}
PUBLIC int32
NET_GetMaxMemoryCacheSize()
{
return net_MaxMemoryCacheSize;
}
/* compare entries for the hashing functions
*
* return 0 if match or positive or negative on
* non match
*/
PRIVATE int net_CacheHashComp(net_MemoryCacheObject * obj1,
net_MemoryCacheObject * obj2)
{
int result;
char *hash1;
char *hash2;
char *ques1=0;
char *ques2=0;
char *ques3=0;
char *ques4=0;
if(obj1->cache_obj.method != obj2->cache_obj.method)
return(obj1->cache_obj.method - obj2->cache_obj.method);
/* If this is a "news:" or "snews:" URL, then any search data in the URL
* (the stuff after '?') should be ignored for cache-comparison purposes,
* so that "news:MSGID" and "news:MSGID?headers=all" share the same cache
* file.
*/
if((NET_TO_UPPER(obj1->cache_obj.address[0]) == 'N'
|| NET_TO_UPPER(obj1->cache_obj.address[0]) == 'S')
&& NET_URL_Type(obj1->cache_obj.address) == NEWS_TYPE_URL)
{
ques1 = PL_strchr(obj1->cache_obj.address, '?');
if(ques1)
*ques1 = '\0';
}
if((NET_TO_UPPER(obj2->cache_obj.address[0]) == 'N'
|| NET_TO_UPPER(obj2->cache_obj.address[0]) == 'S')
&& NET_URL_Type(obj2->cache_obj.address) == NEWS_TYPE_URL)
{
ques2 = PL_strchr(obj2->cache_obj.address, '?');
if(ques2)
*ques2 = '\0';
}
/* do the same for IMAP */
if(!PL_strncasecmp(obj1->cache_obj.address,"mailbox://",10))
{
ques3 = PL_strstr(obj1->cache_obj.address, "&part=");
if(ques3)
*ques3 = '\0';
}
if(!PL_strncasecmp(obj2->cache_obj.address,"mailbox://",10))
{
ques4 = PL_strstr(obj2->cache_obj.address, "&part=");
if(ques4)
*ques4 = '\0';
}
/* strip hash symbols because they
* really represent the same
* document
*/
hash1 = PL_strchr(obj1->cache_obj.address, '#');
hash2 = PL_strchr(obj2->cache_obj.address, '#');
if(hash1)
*hash1 = '\0';
if(hash2)
*hash2 = '\0';
result = PL_strcmp(obj1->cache_obj.address, obj2->cache_obj.address);
/* set them back to previous values
*/
if(hash1)
*hash1 = '#';
if(hash2)
*hash2 = '#';
if(ques1)
*ques1 = '?';
if(ques2)
*ques2 = '?';
if(ques3)
*ques3 = '&';
if(ques4)
*ques4 = '&';
if(result != 0)
return(result);
if(!obj1->cache_obj.post_data && !obj2->cache_obj.post_data)
return(0); /* match; no post data on either */
if(obj1->cache_obj.post_data && obj2->cache_obj.post_data)
{
result = PL_strcmp(obj1->cache_obj.post_data,
obj2->cache_obj.post_data);
return(result);
}
else
{ /* one but not the other */
if(obj1->cache_obj.post_data)
return(1);
else
return(-1);
}
return(0); /* match with post data */
}
/* hashing function for url's
*
* This is some magic Jamie gave me...
*/
PRIVATE uint32 net_CacheHashFunc(net_MemoryCacheObject * obj1)
{
unsigned const char *x;
uint32 h = 0;
uint32 g;
XP_Bool news_type_url = FALSE;
XP_Bool imap_type_url = FALSE;
if(!obj1)
return 0;
x = (unsigned const char *) obj1->cache_obj.address;
/* figure out if it's a news type URL */
if((NET_TO_UPPER(obj1->cache_obj.address[0]) == 'N'
|| NET_TO_UPPER(obj1->cache_obj.address[0]) == 'S')
&& NET_URL_Type(obj1->cache_obj.address) == NEWS_TYPE_URL)
news_type_url = TRUE;
/* figure out if it's an IMAP type URL */
else if (NET_TO_UPPER(obj1->cache_obj.address[0]) == 'M' &&
!PL_strncasecmp(obj1->cache_obj.address,"Mailbox://",10))
imap_type_url = TRUE;
/* modify the default String hash function
* to work with URL's
*/
assert(x);
if (!x) return 0;
/* ignore '#' data for all URL's.
* ignore '?' data for news URL's
* ignore '&' data for all IMAP URL's
*/
while (*x != 0 && *x != '#' && (!news_type_url || *x != '?') &&
(!imap_type_url || *x != '&'))
{
h = (h << 4) + *x++;
if ((g = h & 0xf0000000) != 0)
h = (h ^ (g >> 24)) ^ g;
}
return h;
}
/******************************************************************
* Cache Converter Stream input routines
*/
/* is the stream ready for writing?
*/
PRIVATE unsigned int net_MemCacheWriteReady (NET_StreamClass *stream)
{
CacheDataObject *obj=stream->data_object;
if(obj->next_stream)
return((*obj->next_stream->is_write_ready)(obj->next_stream));
else
return(MAX_WRITE_READY);
}
/* stream write function
*
* this function accepts a stream and writes the data
* into memory segments on a segment list.
*/
PRIVATE int net_MemCacheWrite (NET_StreamClass *stream, CONST char* buffer, int32 len)
{
CacheDataObject *obj=stream->data_object;
TRACEMSG(("net_MemCacheWrite called with %ld buffer size", len));
/* if delete_me is set, we don't want to keep writing to the memcache stream.
*/
if(obj->memory_copy && !obj->memory_copy->delete_me)
{
net_MemorySegment * mem_seg;
char * cur_mem_seg_ptr;
/* compute a content_length as we read data
* to use as a comparison and for URL's that
* don't send a content type
*/
obj->computed_content_length += len;
/* we are always adding to the end one in the list so
* lets get it
*/
mem_seg = (net_MemorySegment *)
XP_ListGetEndObject(obj->memory_copy->list);
PR_ASSERT(mem_seg);
if(mem_seg->in_use+len > mem_seg->seg_size)
{
/* we need a new segment
*/
net_MemorySegment * new_mem_seg = PR_NEW(net_MemorySegment);
uint32 size_left_in_old_buffer = mem_seg->seg_size - mem_seg->in_use;
uint32 size_for_new_buffer = len - size_left_in_old_buffer;
char * new_mem_seg_ptr;
if(!new_mem_seg)
{
net_FreeMemoryCopy(obj->memory_copy);
obj->memory_copy = 0;
goto EndOfMemWrite;
}
/* @@@ the socket buffer can never be larger
* than the MAX_MEMORY_ALLOC_SIZE
*/
if(size_for_new_buffer > MEMORY_CACHE_SEGMENT_SIZE)
{
new_mem_seg->segment = (char*)PR_Malloc(size_for_new_buffer);
new_mem_seg->seg_size = size_for_new_buffer;
}
else
{
new_mem_seg->segment = (char*)PR_Malloc(
MEMORY_CACHE_SEGMENT_SIZE);
new_mem_seg->seg_size = MEMORY_CACHE_SEGMENT_SIZE;
}
if(!new_mem_seg->segment)
{
PR_Free(new_mem_seg);
net_FreeMemoryCopy(obj->memory_copy);
obj->memory_copy = 0;
goto EndOfMemWrite;
}
/* increase the global cache size counter
*/
net_MemoryCacheSize += new_mem_seg->seg_size;
TRACEMSG(("Cache size now: %d", net_MemoryCacheSize));
cur_mem_seg_ptr = mem_seg->segment;
new_mem_seg_ptr = new_mem_seg->segment;
/* fill in what we can to the old buffer
*/
if(size_left_in_old_buffer)
{
memcpy(cur_mem_seg_ptr+mem_seg->in_use,
buffer,
(size_t) size_left_in_old_buffer);
mem_seg->in_use = mem_seg->seg_size; /* seg new size */
}
/* fill in the new buffer
*/
memcpy(new_mem_seg_ptr,
buffer+size_left_in_old_buffer,
(size_t) size_for_new_buffer);
new_mem_seg->in_use = size_for_new_buffer;
net_cache_adding_object++; /* semaphore */
XP_ListAddObjectToEnd(obj->memory_copy->list, new_mem_seg);
net_cache_adding_object--; /* semaphore */
TRACEMSG(("Adding %d to New memory segment %p", len, new_mem_seg));
}
else
{
assert (mem_seg->segment);
cur_mem_seg_ptr = mem_seg->segment;
/* fill in some more into the existing segment
*/
memcpy(cur_mem_seg_ptr + mem_seg->in_use, buffer, (size_t) len);
mem_seg->in_use += len;
TRACEMSG(("Adding %d to existing memory segment %p", len, mem_seg));
}
}
EndOfMemWrite: /* target of a goto from an error above */
if(obj->next_stream)
{
int status=0;
PR_ASSERT (buffer);
PR_ASSERT (len > -1);
status = (*obj->next_stream->put_block)
(obj->next_stream, buffer, len);
/* abort */
if(status < 0)
return(status);
}
return(1);
}
/* complete the stream
*/
PRIVATE void net_MemCacheComplete (NET_StreamClass *stream)
{
CacheDataObject *obj=stream->data_object;
/* refresh these entries in case meta changes them */
if(obj->URL_s && obj->memory_copy)
{
obj->memory_copy->cache_obj.expires = obj->URL_s->expires;
obj->memory_copy->cache_obj.last_modified = obj->URL_s->last_modified;
StrAllocCopy(obj->memory_copy->cache_obj.charset, obj->URL_s->charset);
}
if (obj->memory_copy)
{
/* now it's completed */
obj->memory_copy->completed = TRUE;
/* if the object is zero size or
* if the computed size is different that a given content type,
* zero the last modified date so that it wont get reused
* on a recheck or reload
*/
if(!obj->computed_content_length
|| (obj->memory_copy->cache_obj.content_length
&& obj->memory_copy->cache_obj.content_length
!= obj->computed_content_length
)
)
{
obj->memory_copy->cache_obj.last_modified = 0;
}
/* override the given content_length with the correct
* content length
*/
obj->memory_copy->cache_obj.content_length =
obj->computed_content_length;
/* set current time */
obj->memory_copy->cache_obj.last_accessed = time(NULL);
}
/* loser: */
/* complete the next stream
*/
if(obj->next_stream)
{
(*obj->next_stream->complete)(obj->next_stream);
PR_Free(obj->next_stream);
}
/* finally, check to see if we want to delete this, after going
through all that work just to put it in here. */
if(obj->memory_copy &&
obj->memory_copy->delete_me &&
(obj->memory_copy->mem_read_lock == 0))
{
net_FreeMemoryCopy(obj->memory_copy);
}
/* don't need the data obj any more since this is the end
* of the stream... */
PR_REMOVE_LINK(&obj->links);
PR_Free(obj);
/* this is what keeps the cache from growing without end */
net_ReduceMemoryCacheTo(net_MaxMemoryCacheSize);
return;
}
/* add the object into the cache, even if it hasn't been finished
getting cached. When it's finished, net_MemCacheComplete will
set the obj->memory_copy->comlpleted flag.
*/
PRIVATE void net_MemCacheAddObjectToCache (CacheDataObject * obj)
{
int status;
/* if the hash table doesn't exist yet, initialize it now
*/
if(!net_MemoryCacheHashList)
{
net_MemoryCacheHashList = XP_HashListNew(499,
(XP_HashingFunction) net_CacheHashFunc,
(XP_HashCompFunction) net_CacheHashComp);
if(!net_MemoryCacheHashList)
{
net_FreeMemoryCopy(obj->memory_copy);
goto loser;
return;
}
}
/* if the delete list doesn't exist yet, initialize it now
*/
if(!net_MemoryCacheList)
{
net_MemoryCacheList = XP_ListNew();
if(!net_MemoryCacheList)
{
net_FreeMemoryCopy(obj->memory_copy);
goto loser;
return;
}
}
/* memory copy could have been free'd and clear if an
* error occured in the write, so check to make sure
* it's still around.
*/
if(obj->memory_copy)
{
/* set the completed flag so that we know we're in
* the process of caching this object.
*/
obj->memory_copy->completed = FALSE;
obj->memory_copy->aborted = FALSE;
/* if the document requested not to be cached,
* set the flag to only serve it for reloads and such
*/
if(obj->URL_s && obj->URL_s->dont_cache)
obj->memory_copy->current_page_only = TRUE;
/* add the struct to the delete list */
net_cache_adding_object++; /* semaphore */
XP_ListAddObject(net_MemoryCacheList, obj->memory_copy);
net_cache_adding_object--; /* semaphore */
/* add the struct to the hash list */
net_cache_adding_object++; /* semaphore */
status = XP_HashListAddObject(net_MemoryCacheHashList,
obj->memory_copy);
net_cache_adding_object--; /* semaphore */
/* check for hash collision */
if(status == XP_HASH_DUPLICATE_OBJECT)
{
net_MemoryCacheObject * tmp_obj;
tmp_obj = (net_MemoryCacheObject *)
XP_HashListFindObject(net_MemoryCacheHashList,
obj->memory_copy);
if ((tmp_obj->mem_read_lock == 0) && tmp_obj->completed)
{
/* If there is nobody currently reading or writing the
* duplicate hash entry, then free the old copy.
* This will remove it from the hash list, also.
*/
net_FreeMemoryCopy(tmp_obj);
TRACEMSG(("Found duplicate object in cache. Removing old object"));
/* re add the object
*/
net_cache_adding_object++; /* semaphore */
XP_HashListAddObject(net_MemoryCacheHashList,
obj->memory_copy);
net_cache_adding_object--; /* semaphore */
}
else
{
/* We can't cache this entry, the duplicate is
* currently being read or written. So delete this entry.
*/
net_FreeMemoryCopy(obj->memory_copy);
}
}
}
loser:
return;
}
/* Abort the stream
*
*/
PRIVATE void net_MemCacheAbort (NET_StreamClass *stream, int status)
{
CacheDataObject *obj=stream->data_object;
/* abort the next stream
*/
if(obj->next_stream)
{
(*obj->next_stream->abort)(obj->next_stream, status);
PR_Free(obj->next_stream);
}
/* set the aborted flag so that the object will really be deleted
* if there are no read locks. */
obj->memory_copy->aborted = TRUE;
net_FreeMemoryCopy(obj->memory_copy);
PR_REMOVE_LINK(&obj->links);
PR_Free(obj);
return;
}
/* setup the stream
*/
MODULE_PRIVATE NET_StreamClass *
NET_MemCacheConverter (FO_Present_Types format_out,
void *converter_obj,
URL_Struct *URL_s,
MWContext *window_id)
{
CacheDataObject * data_object=0;
NET_StreamClass * stream=0;
net_MemorySegment * mem_seg=0;
net_MemoryCacheObject *memory_copy=0;
net_MemCacheConverterObject *mem_conv_obj = converter_obj;
TRACEMSG(("Setting up cache stream. Have URL: %s\n", URL_s->address));
TRACEMSG(("Setting up memory cache"));
/* check to see if the object is larger than the
* size of the max memory cache
*
* skip the size check if the must_cache flag is set.
*/
if(!URL_s->must_cache && (uint32)URL_s->content_length >= net_MaxMemoryCacheSize)
goto malloc_failure; /* dont cache this URL */
/* set up the memory caching struct.
*
* malloc the segment first since it's the most likely malloc to fail
*/
mem_seg = PR_NEW(net_MemorySegment);
if(!mem_seg)
return(NULL);
mem_seg->in_use = 0;
if(URL_s->content_length > 0)
{
/* use the content_length if we can since that would be
* the most efficient
*/
if(URL_s->content_length > MAX_MEMORY_ALLOC_SIZE)
{
mem_seg->segment = (char*)PR_Malloc(MAX_MEMORY_ALLOC_SIZE);
mem_seg->seg_size = MAX_MEMORY_ALLOC_SIZE;
}
else
{
/* add 10 just in case it's needed due to a bad content type :) */
mem_seg->segment = (char*)PR_Malloc(URL_s->content_length+10);
mem_seg->seg_size = URL_s->content_length+10;
}
}
else
{
/* this is a case of no content length, use standard size segments */
mem_seg->segment = (char*)PR_Malloc(MEMORY_CACHE_SEGMENT_SIZE);
mem_seg->seg_size = MEMORY_CACHE_SEGMENT_SIZE;
}
if(!mem_seg->segment)
{
PR_Free(mem_seg);
goto malloc_failure; /* skip memory cacheing */
}
/* malloc the main cache holding structure */
memory_copy = PR_NEW(net_MemoryCacheObject);
if(!memory_copy)
{
PR_Free(mem_seg);
PR_Free(mem_seg->segment);
goto malloc_failure; /* skip memory cacheing */
}
memset(memory_copy, 0, sizeof(net_MemoryCacheObject));
memory_copy->list = XP_ListNew();
if(!memory_copy->list)
{
PR_Free(mem_seg);
PR_Free(mem_seg->segment);
PR_Free(memory_copy);
goto malloc_failure; /* skip memory cacheing */
}
/* if we get this far add the object to the size count
* since if we fail anywhere below here it will get
* subtracted by net_FreeMemoryCopy(memory_copy);
*/
net_MemoryCacheSize += mem_seg->seg_size;
/* add the segment malloced above to the segment list */
net_cache_adding_object++; /* semaphore */
XP_ListAddObject(memory_copy->list, mem_seg);
net_cache_adding_object--; /* semaphore */
StrAllocCopy(memory_copy->cache_obj.address, URL_s->address);
memory_copy->cache_obj.method = URL_s->method;
if(URL_s->post_data)
{
memory_copy->cache_obj.post_data_size = URL_s->post_data_size;
StrAllocCopy(memory_copy->cache_obj.post_data, URL_s->post_data);
StrAllocCopy(memory_copy->cache_obj.post_headers, URL_s->post_headers);
}
memory_copy->cache_obj.expires = URL_s->expires;
memory_copy->cache_obj.last_modified = URL_s->last_modified;
memory_copy->cache_obj.content_length = URL_s->content_length;
memory_copy->cache_obj.real_content_length = URL_s->content_length;
memory_copy->cache_obj.is_netsite = URL_s->is_netsite;
StrAllocCopy(memory_copy->cache_obj.content_type, URL_s->content_type);
StrAllocCopy(memory_copy->cache_obj.charset, URL_s->charset);
StrAllocCopy(memory_copy->cache_obj.content_encoding,
URL_s->content_encoding);
/* check for malloc failure on critical fields above */
if(!memory_copy->cache_obj.address || !memory_copy->cache_obj.content_type)
{
net_FreeMemoryCopy(memory_copy);
goto malloc_failure; /* skip memory cacheing */
}
HG83363
/* build the stream object */
stream = PR_NEW(NET_StreamClass);
if(!stream)
{
net_FreeMemoryCopy(memory_copy);
goto malloc_failure; /* skip memory cacheing */
}
/* this structure gets passed back into the write, complete
* and abort stream functions
*/
data_object = PR_NEW(CacheDataObject);
if (!data_object)
{
PR_Free(stream);
net_FreeMemoryCopy(memory_copy);
goto malloc_failure; /* skip memory cacheing */
}
/* init the object */
memset(data_object, 0, sizeof(CacheDataObject));
/* assign the cache object to the stream data object
*/
data_object->memory_copy = memory_copy;
if (mem_conv_obj->dont_hold_URL_s == FALSE)
data_object->URL_s = URL_s;
TRACEMSG(("Returning stream from NET_CacheConverter\n"));
stream->name = "Cache stream";
stream->complete = (MKStreamCompleteFunc) net_MemCacheComplete;
stream->abort = (MKStreamAbortFunc) net_MemCacheAbort;
stream->put_block = (MKStreamWriteFunc) net_MemCacheWrite;
stream->is_write_ready = (MKStreamWriteReadyFunc) net_MemCacheWriteReady;
stream->data_object = data_object; /* document info object */
stream->window_id = window_id;
/* next stream is passed in by the caller but can be null */
data_object->next_stream = mem_conv_obj->next_stream;
PR_APPEND_LINK(&data_object->links, &mem_active_cache_data_objects);
/* add the cache object to the hash list, but don't
* complete it yet
*/
net_MemCacheAddObjectToCache(data_object);
return stream;
malloc_failure: /* target of malloc failure */
TRACEMSG(("NOT Caching this URL"));
/* bypass the whole cache mechanism
*/
if(format_out != FO_CACHE_ONLY)
{
format_out = CLEAR_CACHE_BIT(format_out);
return(mem_conv_obj->next_stream);
}
return(NULL);
}
PRIVATE net_MemoryCacheObject *
net_FindObjectInMemoryCache(URL_Struct *URL_s)
{
net_MemoryCacheObject tmp_cache_obj, *return_obj;
/* fill in the temporary cache object so we can
* use it for searching
*/
memset(&tmp_cache_obj, 0, sizeof(tmp_cache_obj));
tmp_cache_obj.cache_obj.method = URL_s->method;
tmp_cache_obj.cache_obj.address = URL_s->address;
tmp_cache_obj.cache_obj.post_data = URL_s->post_data;
tmp_cache_obj.cache_obj.post_data_size = URL_s->post_data_size;
return_obj = (net_MemoryCacheObject *)
XP_HashListFindObject(net_MemoryCacheHashList, &tmp_cache_obj);
if (return_obj)
return (return_obj);
else
{
/* try unescaping the URL address - MHTML parts are
escaped, and weren't getting picked up in the
cache */
tmp_cache_obj.cache_obj.address = PL_strdup(URL_s->address);
if (tmp_cache_obj.cache_obj.address)
{
/* unescape it */
NET_UnEscape(tmp_cache_obj.cache_obj.address);
if (tmp_cache_obj.cache_obj.address)
{
return_obj = (net_MemoryCacheObject *)
XP_HashListFindObject(net_MemoryCacheHashList, &tmp_cache_obj);
PR_Free(tmp_cache_obj.cache_obj.address);
}
}
return (return_obj);
}
}
/* set or unset a lock on a memory cache object
*/
MODULE_PRIVATE void
NET_ChangeMemCacheLock(URL_Struct *URL_s, PRBool set)
{
net_MemoryCacheObject * found_cache_obj;
/* look up cache struct */
found_cache_obj = net_FindObjectInMemoryCache(URL_s);
if(found_cache_obj && found_cache_obj->completed)
{
PR_ASSERT(found_cache_obj->external_locks >= 0);
if(set)
{
/* increment lock counter */
found_cache_obj->external_locks++;
}
else
{
/* decrement lock counter */
found_cache_obj->external_locks--;
/* PR_ASSERT(found_cache_obj->external_locks >= 0); */
if(found_cache_obj->external_locks < 0)
found_cache_obj->external_locks = 0;
}
}
}
/* remove a URL from the memory cache
*/
MODULE_PRIVATE void
NET_RemoveURLFromMemCache(URL_Struct *URL_s)
{
net_MemoryCacheObject * found_cache_obj;
found_cache_obj = net_FindObjectInMemoryCache(URL_s);
if(found_cache_obj &&
(found_cache_obj->mem_read_lock == 0) &&
found_cache_obj->completed)
net_FreeMemoryCopy(found_cache_obj);
}
/* Returns TRUE if the URL is currently in the
* memory cache and false otherwise.
*/
PUBLIC XP_Bool
NET_IsURLInMemCache(URL_Struct *URL_s)
{
if(net_FindObjectInMemoryCache(URL_s))
return(TRUE);
else
return(FALSE);
}
/* this function looks up a URL in the hash table and
* returns MEMORY_CACHE_TYPE_URL if it's found and
* should be loaded via the memory cache.
*
* It also sets several entries in the passed in URL
* struct including "memory_copy" which is a pointer
* to the found net_MemoryCacheObject struct.
*/
MODULE_PRIVATE int
NET_FindURLInMemCache(URL_Struct * URL_s, MWContext *ctxt)
#ifdef NU_CACHE
{
PR_ASSERT(0); /* Should not be getting called */
return 0;
}
#else
{
net_MemoryCacheObject *found_cache_obj;
TRACEMSG(("Checking for URL in cache"));
if(!net_MemoryCacheHashList)
return(0);
found_cache_obj = net_FindObjectInMemoryCache(URL_s);
if(found_cache_obj)
{
TRACEMSG(("mkcache: found URL in memory cache!"));
if(found_cache_obj->current_page_only)
{
History_entry * he = SHIST_GetCurrent(&ctxt->hist);
int hist_num;
/* if the current_page_only flag is set
* then the page should only be
* served if it's the current document loaded
* (i.e. reloads)
*
* @@@ if !he then let it through, this allows the
* doc info window to work
*/
if(he)
{
hist_num = SHIST_GetIndex(&ctxt->hist, he);
/* we can tell if the document being loaded is the
* same as the current document by looking up it's
* index in the history. If they don't match
* then it isn't the current document
*/
if(URL_s->history_num != hist_num)
return 0;
}
}
/* set a pointer to the structure in the URL struct
*/
URL_s->memory_copy = found_cache_obj;
/* copy the contents of the URL struct so that the content type
* and other stuff gets recorded
*/
StrAllocCopy(URL_s->content_type,
found_cache_obj->cache_obj.content_type);
StrAllocCopy(URL_s->charset,
found_cache_obj->cache_obj.charset);
StrAllocCopy(URL_s->content_encoding,
found_cache_obj->cache_obj.content_encoding);
URL_s->content_length = found_cache_obj->cache_obj.content_length;
URL_s->real_content_length = found_cache_obj->cache_obj.content_length;
URL_s->expires = found_cache_obj->cache_obj.expires;
URL_s->last_modified = found_cache_obj->cache_obj.last_modified;
URL_s->is_netsite = found_cache_obj->cache_obj.is_netsite;
HG26557
net_cache_adding_object++; /* semaphore */
/* reorder objects so that the list is in last accessed order */
XP_ListRemoveObject(net_MemoryCacheList, found_cache_obj);
XP_ListAddObject(net_MemoryCacheList, found_cache_obj);
net_cache_adding_object--; /* semaphore */
TIMING_MESSAGE(("cache,%s,in memory", URL_s->address));
TRACEMSG(("Cached copy is valid. returning method"));
return(MEMORY_CACHE_TYPE_URL);
}
TRACEMSG(("URL not found in cache"));
return(0);
}
#endif
/*****************************************************************
* Memory cache output module routine
*
* This set of routines pushes the document in memory up a stream
* created by NET_StreamBuilder
*/
/* used to hold data between invokations of ProcessNet
*/
typedef struct _MemCacheConData {
XP_List *cur_list_ptr;
uint32 bytes_written_in_segment;
NET_StreamClass *stream;
} MemCacheConData;
#define CD_CUR_LIST_PTR connection_data->cur_list_ptr
#define CD_BYTES_WRITTEN_IN_SEGMENT connection_data->bytes_written_in_segment
#define CD_STREAM connection_data->stream
#define CE_URL_S cur_entry->URL_s
#define CE_WINDOW_ID cur_entry->window_id
#define CE_FORMAT_OUT cur_entry->format_out
#define CE_STATUS cur_entry->status
#define CE_BYTES_RECEIVED cur_entry->bytes_received
/* begin the load, This is called from NET_GetURL
*/
#ifdef MOZ_MAIL_NEWS
extern int
net_InitializeNewsFeData (ActiveEntry * cur_entry);
extern int
IMAP_InitializeImapFeData (ActiveEntry * cur_entry);
extern void
IMAP_URLFinished(URL_Struct *URL_s);
#endif /* MOZ_MAIL_NEWS */
PRIVATE int32
net_MemoryCacheLoad (ActiveEntry * cur_entry)
#ifdef NU_CACHE
{
PR_ASSERT(0); /* Should not be getting called */
return 0;
}
#else
{
/* get memory for Connection Data */
MemCacheConData * connection_data = PR_NEW(MemCacheConData);
net_MemorySegment * mem_seg;
uint32 chunk_size;
char *mem_seg_ptr;
char *first_buffer;
TRACEMSG(("Entering NET_MemoryCacheLoad!\n"));
if(!connection_data)
{
CE_URL_S->error_msg = NET_ExplainErrorDetails(MK_OUT_OF_MEMORY);
CE_STATUS = MK_OUT_OF_MEMORY;
return (CE_STATUS);
}
if (!CE_URL_S->memory_copy)
{
/* the memory_copy has been freed before fully
* making it into the cache. In other words, it's
* been aborted. Abort this load then, also.
* We should probably never hit this case, however.
* If we got here, it means we've just found this entry
* in the hash table, which means we have not deleted it
* and we have not set the delete_me flag.
*/
PR_ASSERT(FALSE);
CE_STATUS = MK_OBJECT_NOT_IN_CACHE;
return (CE_STATUS);
}
cur_entry->protocol = MEMORY_CACHE_TYPE_URL;
cur_entry->memory_file = TRUE;
/* point to the first list struct that contains data
*/
CD_CUR_LIST_PTR = CE_URL_S->memory_copy->list->next;
CD_BYTES_WRITTEN_IN_SEGMENT = 0;
/* put a read lock on the data
*/
CE_URL_S->memory_copy->mem_read_lock++;
cur_entry->con_data = connection_data;
cur_entry->local_file = TRUE;
cur_entry->socket = NULL;
NET_SetCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
cur_entry->format_out = CLEAR_CACHE_BIT(cur_entry->format_out);
FE_EnableClicking(CE_WINDOW_ID);
#ifdef MOZ_MAIL_NEWS
if (cur_entry->format_out == FO_PRESENT)
{
if (NET_URL_Type(cur_entry->URL_s->address) == NEWS_TYPE_URL)
{
/* #### DISGUSTING KLUDGE to make cacheing work for news articles. */
cur_entry->status = net_InitializeNewsFeData (cur_entry);
if (cur_entry->status < 0)
{
/* #### what error message? */
return cur_entry->status;
}
}
else if (!PL_strncmp(CE_URL_S->address, "Mailbox://", 10))
{
/* #### DISGUSTING KLUDGE to make cacheing work for imap articles. */
cur_entry->status = IMAP_InitializeImapFeData (cur_entry);
if (cur_entry->status < 0)
{
/* #### what error message? */
return cur_entry->status;
}
}
}
#endif /* MOZ_MAIL_NEWS */
/* open the outgoing stream
*/
CD_STREAM = NET_StreamBuilder(CE_FORMAT_OUT, CE_URL_S, CE_WINDOW_ID);
if(!CD_STREAM)
{
NET_ClearCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
PR_Free(connection_data);
CE_URL_S->error_msg = NET_ExplainErrorDetails(MK_UNABLE_TO_CONVERT);
CE_STATUS = MK_UNABLE_TO_CONVERT;
return (CE_STATUS);
}
if (!CE_URL_S->load_background)
FE_GraphProgressInit(CE_WINDOW_ID, CE_URL_S, CE_URL_S->content_length);
/* process one chunk of the
* cache file so that
* layout can continue
* when images are in the cache
*/
#define FIRST_BUFF_SIZE 1024
if (CE_URL_S->memory_copy->completed)
{
mem_seg = (net_MemorySegment *) CD_CUR_LIST_PTR->object;
mem_seg_ptr = mem_seg->segment;
chunk_size = MIN(FIRST_BUFF_SIZE,
mem_seg->in_use-CD_BYTES_WRITTEN_IN_SEGMENT);
/* malloc this first buffer because we can't use
* the NET_SocketBuffer in calls from NET_GetURL
* because of reentrancy
*/
first_buffer = (char *) PR_Malloc(chunk_size);
if(!first_buffer)
{
PR_Free(connection_data);
CE_URL_S->error_msg = NET_ExplainErrorDetails(MK_OUT_OF_MEMORY);
return(MK_OUT_OF_MEMORY);
}
/* copy the segment because the parser will muck with it
*/
memcpy(first_buffer,
mem_seg_ptr+CD_BYTES_WRITTEN_IN_SEGMENT,
(size_t) chunk_size);
CD_BYTES_WRITTEN_IN_SEGMENT += chunk_size;
CE_STATUS = (*CD_STREAM->put_block)(CD_STREAM,
first_buffer,
chunk_size);
if(CE_STATUS < 0)
{
NET_ClearCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
if (!CE_URL_S->load_background)
FE_GraphProgressDestroy(CE_WINDOW_ID,
CE_URL_S,
CE_URL_S->content_length,
CE_BYTES_RECEIVED);
PR_Free(connection_data);
return (CE_STATUS);
}
CE_BYTES_RECEIVED += chunk_size;
/* check to see if we need to advance the pointer yet.
* should hardly ever happen here since the first buffer
* is so small
*/
if(CD_BYTES_WRITTEN_IN_SEGMENT >= mem_seg->in_use)
{
CD_CUR_LIST_PTR = CD_CUR_LIST_PTR->next;
CD_BYTES_WRITTEN_IN_SEGMENT = 0;
}
PR_Free(first_buffer);
}
else
{
CE_STATUS = 0;
}
return(CE_STATUS);
}
#endif /* NU_CACHE */
/* called repeatedly from NET_ProcessNet to push all the
* data up the stream
*/
PRIVATE int32
net_ProcessMemoryCache (ActiveEntry * cur_entry)
#ifdef NU_CACHE
{
PR_ASSERT(0); /* Should not be getting called */
return 0;
}
#else
{
MemCacheConData * connection_data = (MemCacheConData *)cur_entry->con_data;
net_MemorySegment * mem_seg;
uint32 chunk_size;
uint32 buffer_size;
char *mem_seg_ptr;
if (!CE_URL_S->memory_copy)
{
/* the memory_copy has been freed before fully
* making it into the cache. In other words, it's
* been aborted. Abort this load then, also,
* since it's a concurrent load.
* We know that CE_URL_S->memory_copy will be NULL
* if it's been removed, because we have a read lock
* on the entry, and that will cause the delete_me
* flag to be set, rather than just deleting the
* object initially. We catch the delete_me flag
* here, and set CE_URL_S->memory_copy to NULL.
*/
CE_STATUS = MK_OBJECT_NOT_IN_CACHE;
return (CE_STATUS);
}
/* wait until the object has been fully inserted into
* the cache.
*/
if (!CE_URL_S->memory_copy->completed &&
!(CE_URL_S->memory_copy->delete_me &&
CE_URL_S->memory_copy->aborted))
{
/* normal case - we are still waiting for it to complete */
return 0;
}
if(!CD_CUR_LIST_PTR ||
(CE_URL_S->memory_copy->aborted &&
CE_URL_S->memory_copy->delete_me))
{
/* when CD_CUR_LIST_PTR turns NULL we are at the end
* of the document. Finish up the stream and exit.
*
* If the entry is aborted and the delete_me flag is set,
* the stream was aborted in the middle of being written.
* If we are here, then it's simultaneously being read also.
* So, finish up.
*/
/* complete the stream
*/
(*CD_STREAM->complete)(CD_STREAM);
/* free the stream
*/
PR_Free(CD_STREAM);
/* remove the read lock
*/
CE_URL_S->memory_copy->mem_read_lock--;
/* check to see if we should delete this memory cached object
*
* delete_me is set by FreeMemoryCacheObject when it tried
* to free it but couldn't because of read locks on the
* object
*/
if(CE_URL_S->memory_copy->delete_me &&
CE_URL_S->memory_copy->mem_read_lock == 0)
{
net_FreeMemoryCopy(CE_URL_S->memory_copy);
CE_URL_S->memory_copy = 0;
}
/* PR_Free the structs used by this protocol module
*/
PR_Free(connection_data);
/* set the status to success */
if (CE_URL_S->memory_copy && CE_URL_S->memory_copy->completed)
CE_STATUS = MK_DATA_LOADED;
else
CE_STATUS = MK_OBJECT_NOT_IN_CACHE;
/* clear the CallNetlibAllTheTime if there are no
* other readers
*/
NET_ClearCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
if (!CE_URL_S->load_background)
FE_GraphProgressDestroy(CE_WINDOW_ID,
CE_URL_S,
CE_URL_S->content_length,
CE_BYTES_RECEIVED);
#ifdef MOZ_MAIL_NEWS
if (!PL_strncmp(CE_URL_S->address, "Mailbox://", 10))
/* #### DISGUSTING KLUDGE to make cacheing work for imap articles. */
IMAP_URLFinished(CE_URL_S);
#endif
/* Tell ProcessNet that we are all done */
return(-1);
}
/* CD_CUR_LIST_PTR is pointing to the most current
* memory segment list object
*/
mem_seg = (net_MemorySegment *) CD_CUR_LIST_PTR->object;
TRACEMSG(("ProcessMemoryCache: printing segment %p",mem_seg));
mem_seg_ptr = mem_seg->segment;
/* write out at least part of the buffer
*/
buffer_size = (*CD_STREAM->is_write_ready)(CD_STREAM);
buffer_size = MIN(buffer_size, (unsigned int) NET_Socket_Buffer_Size);
/* make it ??? at the most
* when coming out of the cache
*/
buffer_size = MIN(buffer_size, NET_MEM_CACHE_OUTPUT_SIZE);
chunk_size = MIN(buffer_size, mem_seg->in_use-CD_BYTES_WRITTEN_IN_SEGMENT);
/* copy the segment because the parser will muck with it
*/
memcpy(NET_Socket_Buffer,
mem_seg_ptr+CD_BYTES_WRITTEN_IN_SEGMENT,
(size_t) chunk_size);
/* remember how much of this segment we have written */
CD_BYTES_WRITTEN_IN_SEGMENT += chunk_size;
CE_STATUS = (*CD_STREAM->put_block)(CD_STREAM,
NET_Socket_Buffer,
chunk_size);
CE_BYTES_RECEIVED += chunk_size;
/* check to see if we need to advance the pointer yet
*/
if(CD_BYTES_WRITTEN_IN_SEGMENT >= mem_seg->in_use)
{
CD_CUR_LIST_PTR = CD_CUR_LIST_PTR->next;
CD_BYTES_WRITTEN_IN_SEGMENT = 0;
}
if (!CE_URL_S->load_background)
FE_GraphProgress(CE_WINDOW_ID, CE_URL_S, CE_BYTES_RECEIVED,
chunk_size, CE_URL_S->content_length);
if(CE_STATUS < 0)
{
NET_ClearCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
(*CD_STREAM->abort)(CD_STREAM, CE_STATUS);
}
return(CE_STATUS);
}
#endif /* NU_CACHE */
/* called by functions in mkgeturl to interrupt the loading of
* an object. (Usually a user interrupt)
*/
PRIVATE int32
net_InterruptMemoryCache (ActiveEntry * cur_entry)
#ifdef NU_CACHE
{
PR_ASSERT(0); /* Should not be getting called */
return 0;
}
#else
{
MemCacheConData * connection_data = (MemCacheConData *)cur_entry->con_data;
/* abort and free the outgoing stream
*/
(*CD_STREAM->abort)(CD_STREAM, MK_INTERRUPTED);
PR_Free(CD_STREAM);
if (!CE_URL_S->memory_copy)
{
/* the memory_copy has been freed before fully
* making it into the cache. In other words, it's
* been aborted. Abort this load then, also,
* since it's a concurrent load.
*/
CE_STATUS = MK_OBJECT_NOT_IN_CACHE;
return (CE_STATUS);
}
/* remove the read lock
*/
CE_URL_S->memory_copy->mem_read_lock--;
/* check to see if we should delete this memory cached object
*/
if(CE_URL_S->memory_copy->delete_me &&
CE_URL_S->memory_copy->mem_read_lock == 0)
{
net_FreeMemoryCopy(CE_URL_S->memory_copy);
CE_URL_S->memory_copy = 0;
}
/* PR_Free the structs
*/
PR_Free(connection_data);
CE_STATUS = MK_INTERRUPTED;
NET_ClearCallNetlibAllTheTime(CE_WINDOW_ID, "mkmemcac");
return(CE_STATUS);
}
#endif
/* create an HTML stream and push a bunch of HTML about
* the memory cache
*/
MODULE_PRIVATE void
NET_DisplayMemCacheInfoAsHTML(ActiveEntry * cur_entry)
{
char *buffer = (char*)PR_Malloc(2048);
char *address;
char *escaped;
NET_StreamClass * stream;
net_CacheObject * cache_obj;
net_MemoryCacheObject * mem_cache_obj;
XP_Bool long_form = FALSE;
int32 number_in_memory_cache;
XP_List *list_ptr;
int i;
if(!buffer)
{
cur_entry->status = MK_UNABLE_TO_CONVERT;
return;
}
if(PL_strcasestr(cur_entry->URL_s->address, "?long"))
long_form = TRUE;
else if(PL_strcasestr(cur_entry->URL_s->address, "?traceon"))
#ifdef NU_CACHE
CacheTrace_Enable(TRUE);
#else
NET_CacheTraceOn = TRUE;
#endif
else if(PL_strcasestr(cur_entry->URL_s->address, "?traceoff"))
#ifdef NU_CACHE
CacheTrace_Enable(FALSE);
#else
NET_CacheTraceOn = FALSE;
#endif
StrAllocCopy(cur_entry->URL_s->content_type, TEXT_HTML);
cur_entry->format_out = CLEAR_CACHE_BIT(cur_entry->format_out);
stream = NET_StreamBuilder(cur_entry->format_out,
cur_entry->URL_s,
cur_entry->window_id);
if(!stream)
{
cur_entry->status = MK_UNABLE_TO_CONVERT;
PR_Free(buffer);
return;
}
/* define a macro to push a string up the stream
* and handle errors
*/
#define PUT_PART(part) \
cur_entry->status = (*stream->put_block)(stream, \
part ? part : "Unknown", \
part ? PL_strlen(part) : 7); \
if(cur_entry->status < 0) \
goto END;
if(!net_MemoryCacheList)
{
PL_strcpy(buffer, "There are no objects in the memory cache");
PUT_PART(buffer);
goto END;
}
number_in_memory_cache = XP_ListCount(net_MemoryCacheList);
/* add the header info */
sprintf(buffer,
"<TITLE>Information about the Netscape memory cache</TITLE>\n"
"<h2>Memory Cache statistics</h2>\n"
"<TABLE>\n"
"<TR>\n"
"<TD ALIGN=RIGHT><b>Maximum size:</TD>\n"
"<TD>%ld</TD>\n"
"</TR>\n"
"<TR>\n"
"<TD ALIGN=RIGHT><b>Current size:</TD>\n"
"<TD>%ld</TD>\n"
"</TR>\n"
"<TR>\n"
"<TD ALIGN=RIGHT><b>Number of files in cache:</TD>\n"
"<TD>%ld</TD>\n"
"</TR>\n"
"<TR>\n"
"<TD ALIGN=RIGHT><b>Average cache file size:</TD>\n"
"<TD>%ld</TD>\n"
"</TR>\n"
"</TABLE>\n"
"<HR>",
net_MaxMemoryCacheSize,
net_MemoryCacheSize,
number_in_memory_cache,
number_in_memory_cache ? net_MemoryCacheSize/number_in_memory_cache : 0);
PUT_PART(buffer);
/* define some macros to help us output HTML tables
*/
#if 0
#define TABLE_TOP(arg1) \
sprintf(buffer, \
"<TR><TD ALIGN=RIGHT><b>%s</TD>\n" \
"<TD>", arg1); \
PUT_PART(buffer);
#define TABLE_BOTTOM \
sprintf(buffer, \
"</TD></TR>"); \
PUT_PART(buffer);
#else
#define TABLE_TOP(arg1) \
PL_strcpy(buffer, "<tt>"); \
for(i=PL_strlen(arg1); i < 16; i++) \
PL_strcat(buffer, "&nbsp;"); \
PL_strcat(buffer, arg1); \
PL_strcat(buffer, " </tt>"); \
PUT_PART(buffer);
#define TABLE_BOTTOM \
PL_strcpy(buffer, "<BR>\n"); \
PUT_PART(buffer);
#endif
list_ptr = net_MemoryCacheList;
while((mem_cache_obj = (net_MemoryCacheObject *) XP_ListNextObject(list_ptr)) != NULL)
{
cache_obj = &mem_cache_obj->cache_obj;
address = PL_strdup(mem_cache_obj->cache_obj.address);
/* put the URL out there */
TABLE_TOP("URL:");
PL_strcpy(buffer, "<A TARGET=Internal_URL_Info HREF=\"about:");
PUT_PART(buffer);
escaped = NET_EscapeDoubleQuote(address);
PUT_PART(escaped);
PR_Free(escaped);
XP_STRCPY(buffer, "\">");
PUT_PART(buffer);
escaped = NET_EscapeHTML(address);
PUT_PART(escaped);
PR_Free(address);
PR_Free(escaped);
PL_strcpy(buffer, "</A>");
PUT_PART(buffer);
TABLE_BOTTOM;
TABLE_TOP("Content Length:");
sprintf(buffer, "%lu", cache_obj->content_length);
PUT_PART(buffer);
TABLE_BOTTOM;
TABLE_TOP("Content type:");
PUT_PART(cache_obj->content_type);
TABLE_BOTTOM;
TABLE_TOP("Last Modified:");
if(cache_obj->last_modified)
{
PUT_PART(ctime(&cache_obj->last_modified));
}
else
{
PL_strcpy(buffer, "No date sent");
PUT_PART(buffer);
}
TABLE_BOTTOM;
TABLE_TOP("Expires:");
if(cache_obj->expires)
{
PUT_PART(ctime(&cache_obj->expires));
}
else
{
PL_strcpy(buffer, "No expiration date sent");
PUT_PART(buffer);
}
TABLE_BOTTOM;
TABLE_TOP("Last accessed:");
PUT_PART(ctime(&cache_obj->last_accessed));
TABLE_BOTTOM;
TABLE_TOP("Character set:");
if(cache_obj->charset)
{
PUT_PART(cache_obj->charset);
}
else
{
PL_strcpy(buffer, "iso-8859-1 (default)");
PUT_PART(buffer);
}
TABLE_BOTTOM;
HG27328
PL_strcpy(buffer, "\n<P>\n");
PUT_PART(buffer);
}
END:
PR_Free(buffer);
if(cur_entry->status < 0)
(*stream->abort)(stream, cur_entry->status);
else
(*stream->complete)(stream);
return;
}
/*Accessor for use by Cache Browser */
PUBLIC net_CacheObject*
NET_FirstMemCacheObject(XP_List* list_ptr)
{
if (net_MemoryCacheList)
{
list_ptr = net_MemoryCacheList;
return NET_NextMemCacheObject(list_ptr);
}
else
return 0;
}
/*Accessor for use by Cache Browser */
PUBLIC net_CacheObject*
NET_NextMemCacheObject(XP_List* list_ptr)
{
if (list_ptr)
{
net_MemoryCacheObject * tmp = (net_MemoryCacheObject *) XP_ListNextObject(list_ptr);
if (tmp)
{
return &tmp->cache_obj;
}
}
return 0;
}
#include "libmocha.h"
NET_StreamClass *
net_CloneWysiwygMemCacheEntry(MWContext *window_id, URL_Struct *URL_s,
uint32 nbytes, const char * wysiwyg_url,
const char * base_href)
#ifdef NU_CACHE
{
PR_ASSERT(0);
return NULL;
}
#else
{
net_MemoryCacheObject *memory_copy;
PRCList *link;
CacheDataObject *data_object;
NET_StreamClass *stream;
XP_List *list;
net_MemorySegment *seg;
uint32 len;
if (!(memory_copy = URL_s->memory_copy))
{
/* not hitting the cache -- check whether we're filling it */
for (link = mem_active_cache_data_objects.next;
link != &mem_active_cache_data_objects;
link = link->next)
{
data_object = (CacheDataObject *)link;
if (data_object->URL_s == URL_s &&
(memory_copy = data_object->memory_copy) != NULL)
{
goto found;
}
}
return NULL;
}
found:
stream = LM_WysiwygCacheConverter(window_id, URL_s,
wysiwyg_url, base_href);
if (!stream)
return 0;
list = memory_copy->list;
while (nbytes != 0 &&
(seg = (net_MemorySegment *) XP_ListNextObject(list)) != NULL)
{
len = seg->seg_size;
if (len > nbytes)
len = nbytes;
if (stream->put_block(stream, seg->segment,
(int32)len) < 0)
break;
nbytes -= len;
}
if (nbytes != 0)
{
/* NB: Our caller must clear top_state->mocha_write_stream. */
stream->abort(stream, MK_UNABLE_TO_CONVERT);
PR_Free(stream);
return 0;
}
return stream;
}
#endif
PRIVATE void
net_CleanupMemoryCacheProtocol(void)
{
}
void
NET_InitMemCacProtocol(void)
{
static NET_ProtoImpl mem_cac_proto_impl;
#ifdef NU_CACHE
PR_ASSERT(0);
return;
#endif
mem_cac_proto_impl.init = net_MemoryCacheLoad;
mem_cac_proto_impl.process = net_ProcessMemoryCache;
mem_cac_proto_impl.interrupt = net_InterruptMemoryCache;
mem_cac_proto_impl.cleanup = net_CleanupMemoryCacheProtocol;
NET_RegisterProtocolImplementation(&mem_cac_proto_impl, MEMORY_CACHE_TYPE_URL);
}
#ifdef NU_CACHE
typedef struct _NuCacheConData {
void* cache_object;
NET_StreamClass *stream;
} NuCacheConData;
#define FIRST_BUFF_SIZE 1024
PRIVATE int32
net_NuCacheLoad (ActiveEntry * cur_entry)
{
if (cur_entry && cur_entry->URL_s)
{
NuCacheConData* con_data = PR_NEW(NuCacheConData);
void* pObject = cur_entry->URL_s->cache_object;
if (!con_data || !pObject)
{
cur_entry->URL_s->error_msg = NET_ExplainErrorDetails(MK_OUT_OF_MEMORY);
cur_entry->status = MK_OUT_OF_MEMORY;
return cur_entry->status;
}
cur_entry->protocol = NU_CACHE_TYPE_URL;
cur_entry->memory_file = (CacheObject_GetModule(pObject) == 0); /* TODO replace 0 with the enum */
/* CacheObject->SetReadLock(pObject); */
cur_entry->local_file = TRUE; /* Check about this one- TODO */
cur_entry->con_data = con_data;
cur_entry->socket = NULL;
NET_SetCallNetlibAllTheTime(cur_entry->window_id, "nucache");
cur_entry->format_out = CLEAR_CACHE_BIT(cur_entry->format_out);
FE_EnableClicking(cur_entry->window_id);
if (0==cur_entry->format_out)
{
/* This means that this is a CACHE_ONLY request and shouldn't
* be getting read from memory anyway. So mark it as not present in memory
* and return as such. */
cur_entry->status = MK_OBJECT_NOT_IN_CACHE;
return cur_entry->status;
}
/* Build the stream to read data from */
con_data->stream = NET_StreamBuilder(cur_entry->format_out, cur_entry->URL_s, cur_entry->window_id);
if(!con_data->stream)
{
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
PR_DELETE(con_data);
cur_entry->URL_s->error_msg = NET_ExplainErrorDetails(MK_UNABLE_TO_CONVERT);
cur_entry->status = MK_UNABLE_TO_CONVERT;
return cur_entry->status;
}
if (!cur_entry->URL_s->load_background)
FE_GraphProgressInit(cur_entry->window_id, cur_entry->URL_s, cur_entry->URL_s->content_length);
/* Process the first chunk so that images can start loading */
if (!CacheObject_IsPartial(pObject)) /*todo- change this to is Completed */
{
char* firstBuffer = (char*) PR_Malloc(FIRST_BUFF_SIZE);
PRInt32 amountRead = 0;
if (!firstBuffer)
{
PR_DELETE(con_data);
cur_entry->URL_s->error_msg = NET_ExplainErrorDetails(MK_OUT_OF_MEMORY);
return(MK_OUT_OF_MEMORY);
}
amountRead = CacheObject_Read(pObject, firstBuffer, FIRST_BUFF_SIZE);
if (amountRead > 0)
{
cur_entry->status = (*con_data->stream->put_block)(con_data->stream, firstBuffer, amountRead);
if(cur_entry->status < 0)
{
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
if (!cur_entry->URL_s->load_background)
{
FE_GraphProgressDestroy(cur_entry->window_id,
cur_entry->URL_s,
cur_entry->URL_s->content_length,
cur_entry->bytes_received);
}
PR_DELETE(con_data);
return (cur_entry->status);
}
cur_entry->bytes_received += amountRead;
PR_DELETE(firstBuffer);
}
}
else
{
cur_entry->status = 0;
}
}
return cur_entry->status;
}
/* called repeatedly from NET_ProcessNet to push all the
* data up the stream
*/
PRIVATE int32
net_ProcessNuCache (ActiveEntry * cur_entry)
{
if (cur_entry)
{
PRUint32 amountRead;
PRUint32 buffer_size;
NuCacheConData* con_data = (NuCacheConData*) cur_entry->con_data;
void* pObject = cur_entry->URL_s->cache_object;
NET_SetCallNetlibAllTheTime(cur_entry->window_id, "nucache");
if (!pObject)
{
cur_entry->status = MK_OBJECT_NOT_IN_CACHE;
return cur_entry->status;
}
/* Wait for the object to complete */
if (!CacheObject_GetIsCompleted(pObject))
return 0;
#if 0
/* If the object has been aborted or expired */
if ((CACHEOBJECT_ABORTED == CacheObject_GetState(pObject)) ||
(CACHEOBJECT_EXPIRED == CacheObject_GetState(pObject)))
{
(*con_data->stream->complete)(con_data->stream);
PR_Free(con_data->stream);
/* CacheObject->UnsetReadLock(pObject); */
PR_Free(con_data);
cur_entry->status = MK_DATA_LOADED;
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
if (!cur_entry->URL_s->load_background)
FE_GraphProgressDestroy(
cur_entry->window_id,
cur_entry->URL_s,
cur_entry->URL_s->content_length,
cur_entry->bytes_received);
return -1;
}
#endif
/* Get the buffer size that the stream is ready to receive */
buffer_size = (*con_data->stream->is_write_ready)(con_data->stream);
/* Use the minimum from these factors.
* Not sure why we are doing this part. Will look into this later- Gagan
*/
buffer_size = MIN(buffer_size, (unsigned int) NET_Socket_Buffer_Size);
buffer_size = MIN(buffer_size, NET_MEM_CACHE_OUTPUT_SIZE);
amountRead = CacheObject_Read(pObject, NET_Socket_Buffer, buffer_size);
if (amountRead > 0)
{
cur_entry->status = (*con_data->stream->put_block)(con_data->stream, NET_Socket_Buffer, amountRead);
/* Update the progress control */
if (!cur_entry->URL_s->load_background)
FE_GraphProgress(
cur_entry->window_id,
cur_entry->URL_s,
cur_entry->bytes_received,
amountRead,
cur_entry->URL_s->content_length);
if(cur_entry->status < 0)
{
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
if (!cur_entry->URL_s->load_background)
{
FE_GraphProgressDestroy(cur_entry->window_id,
cur_entry->URL_s,
cur_entry->URL_s->content_length,
cur_entry->bytes_received);
}
PR_Free(con_data);
return (cur_entry->status);
}
cur_entry->bytes_received += amountRead;
}
else /* we didn't read anything, must be the end. */
{
(*con_data->stream->complete)(con_data->stream);
PR_Free(con_data->stream);
/* Reset read locks, reset streams, etc. */
CacheObject_Reset(pObject);
PR_Free(con_data);
cur_entry->status = MK_DATA_LOADED;
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
if (!cur_entry->URL_s->load_background)
FE_GraphProgressDestroy(
cur_entry->window_id,
cur_entry->URL_s,
cur_entry->URL_s->content_length,
cur_entry->bytes_received);
return -1;
}
return cur_entry->status;
}
return -1;
}
/* called by functions in mkgeturl to interrupt the loading of
* an object. (Usually a user interrupt)
*/
PRIVATE int32
net_InterruptNuCache (ActiveEntry * cur_entry)
{
if (cur_entry)
{
NuCacheConData* con_data = (NuCacheConData*) cur_entry->con_data;
void* pObject = cur_entry->URL_s->cache_object;
(*con_data->stream->abort)(con_data->stream, MK_INTERRUPTED);
PR_Free(con_data->stream);
/* Reset read locks, reset streams, etc. */
CacheObject_Reset(pObject);
PR_Free(con_data);
NET_ClearCallNetlibAllTheTime(cur_entry->window_id, "nucache");
cur_entry->status = MK_INTERRUPTED;
return cur_entry->status;
}
return -1;
}
PRIVATE void
net_CleanupNuCacheProtocol(void)
{
}
void
NET_InitNuCacheProtocol(void)
{
static NET_ProtoImpl nu_cache_proto_impl;
nu_cache_proto_impl.init = net_NuCacheLoad;
nu_cache_proto_impl.process = net_ProcessNuCache;
nu_cache_proto_impl.interrupt = net_InterruptNuCache;
nu_cache_proto_impl.cleanup = net_CleanupNuCacheProtocol;
NET_RegisterProtocolImplementation(&nu_cache_proto_impl, NU_CACHE_TYPE_URL);
}
#endif /* NU_CACHE */
#endif /* MOZILLA_CLIENT */