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|
/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Rules for managing obj->refcount:
* refcount should be incremented when an object is placed in the cache. Insertion
* of an object into the cache and the refcount increment should happen under
* protection of the sconf->lock.
*
* refcount should be decremented when the object is removed from the cache.
* Object should be removed from the cache and the refcount decremented while
* under protection of the sconf->lock.
*
* refcount should be incremented when an object is retrieved from the cache
* by a worker thread. The retrieval/find operation and refcount increment
* should occur under protection of the sconf->lock
*
* refcount can be atomically decremented w/o protection of the sconf->lock
* by worker threads.
*
* Any object whose refcount drops to 0 should be freed/cleaned up. A refcount
* of 0 means the object is not in the cache and no worker threads are accessing
* it.
*/
#define CORE_PRIVATE
#include "mod_cache.h"
#include "cache_pqueue.h"
#include "cache_cache.h"
#include "ap_provider.h"
#include "ap_mpm.h"
#include "apr_thread_mutex.h"
#if APR_HAVE_UNISTD_H
#include <unistd.h>
#endif
#if !APR_HAS_THREADS
#error This module does not currently compile unless you have a thread-capable APR. Sorry!
#endif
module AP_MODULE_DECLARE_DATA mem_cache_module;
typedef enum {
CACHE_TYPE_FILE = 1,
CACHE_TYPE_HEAP,
CACHE_TYPE_MMAP
} cache_type_e;
typedef struct {
char* hdr;
char* val;
} cache_header_tbl_t;
typedef struct mem_cache_object {
cache_type_e type;
apr_ssize_t num_header_out;
apr_ssize_t num_err_header_out;
apr_ssize_t num_subprocess_env;
apr_ssize_t num_notes;
apr_ssize_t num_req_hdrs;
cache_header_tbl_t *header_out;
cache_header_tbl_t *err_header_out;
cache_header_tbl_t *subprocess_env;
cache_header_tbl_t *notes;
cache_header_tbl_t *req_hdrs; /* for Vary negotiation */
apr_size_t m_len;
void *m;
apr_os_file_t fd;
apr_int32_t flags; /* File open flags */
long priority; /**< the priority of this entry */
long total_refs; /**< total number of references this entry has had */
apr_uint32_t pos; /**< the position of this entry in the cache */
} mem_cache_object_t;
typedef struct {
apr_thread_mutex_t *lock;
cache_cache_t *cache_cache;
/* Fields set by config directives */
apr_size_t min_cache_object_size; /* in bytes */
apr_size_t max_cache_object_size; /* in bytes */
apr_size_t max_cache_size; /* in bytes */
apr_size_t max_object_cnt;
cache_pqueue_set_priority cache_remove_algorithm;
/* maximum amount of data to buffer on a streamed response where
* we haven't yet seen EOS */
apr_off_t max_streaming_buffer_size;
} mem_cache_conf;
static mem_cache_conf *sconf;
#define DEFAULT_MAX_CACHE_SIZE 100*1024
#define DEFAULT_MIN_CACHE_OBJECT_SIZE 0
#define DEFAULT_MAX_CACHE_OBJECT_SIZE 10000
#define DEFAULT_MAX_OBJECT_CNT 1009
#define DEFAULT_MAX_STREAMING_BUFFER_SIZE 100000
#define CACHEFILE_LEN 20
/* Forward declarations */
static int remove_entity(cache_handle_t *h);
static apr_status_t store_headers(cache_handle_t *h, request_rec *r, cache_info *i);
static apr_status_t store_body(cache_handle_t *h, request_rec *r, apr_bucket_brigade *b);
static apr_status_t recall_headers(cache_handle_t *h, request_rec *r);
static apr_status_t recall_body(cache_handle_t *h, apr_pool_t *p, apr_bucket_brigade *bb);
static void cleanup_cache_object(cache_object_t *obj);
static long memcache_get_priority(void*a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
return mobj->priority;
}
static void memcache_inc_frequency(void*a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
mobj->total_refs++;
mobj->priority = 0;
}
static void memcache_set_pos(void *a, apr_ssize_t pos)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
apr_atomic_set(&mobj->pos, pos);
}
static apr_ssize_t memcache_get_pos(void *a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
return apr_atomic_read(&mobj->pos);
}
static apr_size_t memcache_cache_get_size(void*a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
return mobj->m_len;
}
/** callback to get the key of a item */
static const char* memcache_cache_get_key(void*a)
{
cache_object_t *obj = (cache_object_t *)a;
return obj->key;
}
/**
* memcache_cache_free()
* memcache_cache_free is a callback that is only invoked by a thread
* running in cache_insert(). cache_insert() runs under protection
* of sconf->lock. By the time this function has been entered, the cache_object
* has been ejected from the cache. decrement the refcount and if the refcount drops
* to 0, cleanup the cache object.
*/
static void memcache_cache_free(void*a)
{
cache_object_t *obj = (cache_object_t *)a;
/* Decrement the refcount to account for the object being ejected
* from the cache. If the refcount is 0, free the object.
*/
if (!apr_atomic_dec(&obj->refcount)) {
cleanup_cache_object(obj);
}
}
/*
* functions return a 'negative' score since priority queues
* dequeue the object with the highest value first
*/
static long memcache_lru_algorithm(long queue_clock, void *a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
if (mobj->priority == 0)
mobj->priority = queue_clock - mobj->total_refs;
/*
* a 'proper' LRU function would just be
* mobj->priority = mobj->total_refs;
*/
return mobj->priority;
}
static long memcache_gdsf_algorithm(long queue_clock, void *a)
{
cache_object_t *obj = (cache_object_t *)a;
mem_cache_object_t *mobj = obj->vobj;
if (mobj->priority == 0)
mobj->priority = queue_clock -
(long)(mobj->total_refs*1000 / mobj->m_len);
return mobj->priority;
}
static void cleanup_cache_object(cache_object_t *obj)
{
mem_cache_object_t *mobj = obj->vobj;
/* TODO:
* We desperately need a more efficient way of allocating objects. We're
* making way too many malloc calls to create a fully populated
* cache object...
*/
/* Cleanup the cache_object_t */
if (obj->key) {
free(obj->key);
}
if (obj->info.content_type) {
free(obj->info.content_type);
}
if (obj->info.etag) {
free(obj->info.etag);
}
if (obj->info.lastmods) {
free(obj->info.lastmods);
}
if (obj->info.filename) {
free(obj->info.filename);
}
free(obj);
/* Cleanup the mem_cache_object_t */
if (mobj) {
if (mobj->type == CACHE_TYPE_HEAP && mobj->m) {
free(mobj->m);
}
if (mobj->type == CACHE_TYPE_FILE && mobj->fd) {
#ifdef WIN32
CloseHandle(mobj->fd);
#else
close(mobj->fd);
#endif
}
if (mobj->header_out) {
if (mobj->header_out[0].hdr)
free(mobj->header_out[0].hdr);
free(mobj->header_out);
}
if (mobj->err_header_out) {
if (mobj->err_header_out[0].hdr)
free(mobj->err_header_out[0].hdr);
free(mobj->err_header_out);
}
if (mobj->subprocess_env) {
if (mobj->subprocess_env[0].hdr)
free(mobj->subprocess_env[0].hdr);
free(mobj->subprocess_env);
}
if (mobj->notes) {
if (mobj->notes[0].hdr)
free(mobj->notes[0].hdr);
free(mobj->notes);
}
if (mobj->req_hdrs) {
if (mobj->req_hdrs[0].hdr)
free(mobj->req_hdrs[0].hdr);
free(mobj->req_hdrs);
}
free(mobj);
}
}
static apr_status_t decrement_refcount(void *arg)
{
cache_object_t *obj = (cache_object_t *) arg;
/* If obj->complete is not set, the cache update failed and the
* object needs to be removed from the cache then cleaned up.
* The garbage collector may have ejected the object from the
* cache already, so make sure it is really still in the cache
* before attempting to remove it.
*/
if (!obj->complete) {
cache_object_t *tobj = NULL;
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
tobj = cache_find(sconf->cache_cache, obj->key);
if (tobj == obj) {
cache_remove(sconf->cache_cache, obj);
apr_atomic_dec(&obj->refcount);
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
}
/* If the refcount drops to 0, cleanup the cache object */
if (!apr_atomic_dec(&obj->refcount)) {
cleanup_cache_object(obj);
}
return APR_SUCCESS;
}
static apr_status_t cleanup_cache_mem(void *sconfv)
{
cache_object_t *obj;
mem_cache_conf *co = (mem_cache_conf*) sconfv;
if (!co) {
return APR_SUCCESS;
}
if (!co->cache_cache) {
return APR_SUCCESS;
}
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
obj = cache_pop(co->cache_cache);
while (obj) {
/* Iterate over the cache and clean up each unreferenced entry */
if (!apr_atomic_dec(&obj->refcount)) {
cleanup_cache_object(obj);
}
obj = cache_pop(co->cache_cache);
}
/* Cache is empty, free the cache table */
cache_free(co->cache_cache);
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
return APR_SUCCESS;
}
/*
* TODO: enable directives to be overridden in various containers
*/
static void *create_cache_config(apr_pool_t *p, server_rec *s)
{
sconf = apr_pcalloc(p, sizeof(mem_cache_conf));
sconf->min_cache_object_size = DEFAULT_MIN_CACHE_OBJECT_SIZE;
sconf->max_cache_object_size = DEFAULT_MAX_CACHE_OBJECT_SIZE;
/* Number of objects in the cache */
sconf->max_object_cnt = DEFAULT_MAX_OBJECT_CNT;
/* Size of the cache in bytes */
sconf->max_cache_size = DEFAULT_MAX_CACHE_SIZE;
sconf->cache_cache = NULL;
sconf->cache_remove_algorithm = memcache_gdsf_algorithm;
sconf->max_streaming_buffer_size = DEFAULT_MAX_STREAMING_BUFFER_SIZE;
return sconf;
}
static int create_entity(cache_handle_t *h, cache_type_e type_e,
request_rec *r, const char *key, apr_off_t len)
{
cache_object_t *obj, *tmp_obj;
mem_cache_object_t *mobj;
apr_size_t key_len;
if (len == -1) {
/* Caching a streaming response. Assume the response is
* less than or equal to max_streaming_buffer_size. We will
* correct all the cache size counters in store_body once
* we know exactly know how much we are caching.
*/
len = sconf->max_streaming_buffer_size;
}
/* Note: cache_insert() will automatically garbage collect
* objects from the cache if the max_cache_size threshold is
* exceeded. This means mod_mem_cache does not need to implement
* max_cache_size checks.
*/
if (len < sconf->min_cache_object_size ||
len > sconf->max_cache_object_size) {
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, r->server,
"mem_cache: URL %s failed the size check and will not be cached.",
key);
return DECLINED;
}
if (type_e == CACHE_TYPE_FILE) {
/* CACHE_TYPE_FILE is only valid for local content handled by the
* default handler. Need a better way to check if the file is
* local or not.
*/
if (!r->filename) {
return DECLINED;
}
}
/* Allocate and initialize cache_object_t */
obj = calloc(1, sizeof(*obj));
if (!obj) {
return DECLINED;
}
key_len = strlen(key) + 1;
obj->key = malloc(key_len);
if (!obj->key) {
cleanup_cache_object(obj);
return DECLINED;
}
memcpy(obj->key, key, key_len);
/* Safe cast: We tested < sconf->max_cache_object_size above */
obj->info.len = (apr_size_t)len;
/* Allocate and init mem_cache_object_t */
mobj = calloc(1, sizeof(*mobj));
if (!mobj) {
cleanup_cache_object(obj);
return DECLINED;
}
/* Finish initing the cache object */
apr_atomic_set(&obj->refcount, 1);
mobj->total_refs = 1;
obj->complete = 0;
obj->vobj = mobj;
/* Safe cast: We tested < sconf->max_cache_object_size above */
mobj->m_len = (apr_size_t)len;
mobj->type = type_e;
/* Place the cache_object_t into the hash table.
* Note: Perhaps we should wait to put the object in the
* hash table when the object is complete? I add the object here to
* avoid multiple threads attempting to cache the same content only
* to discover at the very end that only one of them will succeed.
* Furthermore, adding the cache object to the table at the end could
* open up a subtle but easy to exploit DoS hole: someone could request
* a very large file with multiple requests. Better to detect this here
* rather than after the cache object has been completely built and
* initialized...
* XXX Need a way to insert into the cache w/o such coarse grained locking
*/
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
tmp_obj = (cache_object_t *) cache_find(sconf->cache_cache, key);
if (!tmp_obj) {
cache_insert(sconf->cache_cache, obj);
/* Add a refcount to account for the reference by the
* hashtable in the cache. Refcount should be 2 now, one
* for this thread, and one for the cache.
*/
apr_atomic_inc(&obj->refcount);
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
if (tmp_obj) {
/* This thread collided with another thread loading the same object
* into the cache at the same time. Defer to the other thread which
* is further along.
*/
cleanup_cache_object(obj);
return DECLINED;
}
apr_pool_cleanup_register(r->pool, obj, decrement_refcount,
apr_pool_cleanup_null);
/* Populate the cache handle */
h->cache_obj = obj;
return OK;
}
static int create_mem_entity(cache_handle_t *h, request_rec *r,
const char *key, apr_off_t len)
{
return create_entity(h, CACHE_TYPE_HEAP, r, key, len);
}
static int create_fd_entity(cache_handle_t *h, request_rec *r,
const char *key, apr_off_t len)
{
return create_entity(h, CACHE_TYPE_FILE, r, key, len);
}
static int open_entity(cache_handle_t *h, request_rec *r, const char *key)
{
cache_object_t *obj;
/* Look up entity keyed to 'url' */
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
obj = (cache_object_t *) cache_find(sconf->cache_cache, key);
if (obj) {
if (obj->complete) {
request_rec *rmain=r, *rtmp;
apr_atomic_inc(&obj->refcount);
/* cache is worried about overall counts, not 'open' ones */
cache_update(sconf->cache_cache, obj);
/* If this is a subrequest, register the cleanup against
* the main request. This will prevent the cache object
* from being cleaned up from under the request after the
* subrequest is destroyed.
*/
rtmp = r;
while (rtmp) {
rmain = rtmp;
rtmp = rmain->main;
}
apr_pool_cleanup_register(rmain->pool, obj, decrement_refcount,
apr_pool_cleanup_null);
}
else {
obj = NULL;
}
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
if (!obj) {
return DECLINED;
}
/* Initialize the cache_handle */
h->cache_obj = obj;
h->req_hdrs = NULL; /* Pick these up in recall_headers() */
return OK;
}
/* remove_entity()
* Notes:
* refcount should be at least 1 upon entry to this function to account
* for this thread's reference to the object. If the refcount is 1, then
* object has been removed from the cache by another thread and this thread
* is the last thread accessing the object.
*/
static int remove_entity(cache_handle_t *h)
{
cache_object_t *obj = h->cache_obj;
cache_object_t *tobj = NULL;
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
/* If the entity is still in the cache, remove it and decrement the
* refcount. If the entity is not in the cache, do nothing. In both cases
* decrement_refcount called by the last thread referencing the object will
* trigger the cleanup.
*/
tobj = cache_find(sconf->cache_cache, obj->key);
if (tobj == obj) {
cache_remove(sconf->cache_cache, obj);
apr_atomic_dec(&obj->refcount);
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
return OK;
}
static apr_status_t serialize_table(cache_header_tbl_t **obj,
apr_ssize_t *nelts,
apr_table_t *table)
{
const apr_array_header_t *elts_arr = apr_table_elts(table);
apr_table_entry_t *elts = (apr_table_entry_t *) elts_arr->elts;
apr_ssize_t i;
apr_size_t len = 0;
apr_size_t idx = 0;
char *buf;
*nelts = elts_arr->nelts;
if (*nelts == 0 ) {
*obj=NULL;
return APR_SUCCESS;
}
*obj = malloc(sizeof(cache_header_tbl_t) * elts_arr->nelts);
if (NULL == *obj) {
return APR_ENOMEM;
}
for (i = 0; i < elts_arr->nelts; ++i) {
len += strlen(elts[i].key);
len += strlen(elts[i].val);
len += 2; /* Extra space for NULL string terminator for key and val */
}
/* Transfer the headers into a contiguous memory block */
buf = malloc(len);
if (!buf) {
*obj = NULL;
return APR_ENOMEM;
}
for (i = 0; i < *nelts; ++i) {
(*obj)[i].hdr = &buf[idx];
len = strlen(elts[i].key) + 1; /* Include NULL terminator */
memcpy(&buf[idx], elts[i].key, len);
idx+=len;
(*obj)[i].val = &buf[idx];
len = strlen(elts[i].val) + 1;
memcpy(&buf[idx], elts[i].val, len);
idx+=len;
}
return APR_SUCCESS;
}
static int unserialize_table( cache_header_tbl_t *ctbl,
int num_headers,
apr_table_t *t )
{
int i;
for (i = 0; i < num_headers; ++i) {
apr_table_addn(t, ctbl[i].hdr, ctbl[i].val);
}
return APR_SUCCESS;
}
/* Define request processing hook handlers */
/* remove_url()
* Notes:
*/
static int remove_url(const char *key)
{
cache_object_t *obj;
int cleanup = 0;
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
obj = cache_find(sconf->cache_cache, key);
if (obj) {
cache_remove(sconf->cache_cache, obj);
/* For performance, cleanup cache object after releasing the lock */
cleanup = !apr_atomic_dec(&obj->refcount);
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
if (cleanup) {
cleanup_cache_object(obj);
}
return OK;
}
static apr_status_t recall_headers(cache_handle_t *h, request_rec *r)
{
int rc;
mem_cache_object_t *mobj = (mem_cache_object_t*) h->cache_obj->vobj;
h->req_hdrs = apr_table_make(r->pool, mobj->num_req_hdrs);
h->resp_hdrs = apr_table_make(r->pool, mobj->num_header_out);
h->resp_err_hdrs = apr_table_make(r->pool, mobj->num_err_header_out);
/* ### FIXME: These two items should not be saved. */
r->subprocess_env = apr_table_make(r->pool, mobj->num_subprocess_env);
r->notes = apr_table_make(r->pool, mobj->num_notes);
rc = unserialize_table(mobj->req_hdrs,
mobj->num_req_hdrs,
h->req_hdrs);
rc = unserialize_table( mobj->header_out,
mobj->num_header_out,
h->resp_hdrs);
rc = unserialize_table( mobj->err_header_out,
mobj->num_err_header_out,
h->resp_err_hdrs);
rc = unserialize_table( mobj->subprocess_env,
mobj->num_subprocess_env,
r->subprocess_env);
rc = unserialize_table( mobj->notes,
mobj->num_notes,
r->notes);
/* Content-Type: header may not be set if content is local since
* CACHE_IN runs before header filters....
*/
h->content_type = h->cache_obj->info.content_type;
h->status = h->cache_obj->info.status;
return rc;
}
static apr_status_t recall_body(cache_handle_t *h, apr_pool_t *p, apr_bucket_brigade *bb)
{
apr_bucket *b;
mem_cache_object_t *mobj = (mem_cache_object_t*) h->cache_obj->vobj;
if (mobj->type == CACHE_TYPE_FILE) {
/* CACHE_TYPE_FILE */
apr_file_t *file;
apr_os_file_put(&file, &mobj->fd, mobj->flags, p);
b = apr_bucket_file_create(file, 0, mobj->m_len, p, bb->bucket_alloc);
}
else {
/* CACHE_TYPE_HEAP */
b = apr_bucket_immortal_create(mobj->m, mobj->m_len, bb->bucket_alloc);
}
APR_BRIGADE_INSERT_TAIL(bb, b);
b = apr_bucket_eos_create(bb->bucket_alloc);
APR_BRIGADE_INSERT_TAIL(bb, b);
return APR_SUCCESS;
}
static apr_status_t store_headers(cache_handle_t *h, request_rec *r, cache_info *info)
{
cache_object_t *obj = h->cache_obj;
mem_cache_object_t *mobj = (mem_cache_object_t*) obj->vobj;
int rc;
/*
* The cache needs to keep track of the following information:
* - Date, LastMod, Version, ReqTime, RespTime, ContentLength
* - The original request headers (for Vary)
* - The original response headers (for returning with a cached response)
* - The body of the message
*/
rc = serialize_table(&mobj->req_hdrs,
&mobj->num_req_hdrs,
r->headers_in);
if (rc != APR_SUCCESS) {
return rc;
}
/* Precompute how much storage we need to hold the headers */
rc = serialize_table(&mobj->header_out,
&mobj->num_header_out,
ap_cache_cacheable_hdrs_out(r->pool, r->headers_out,
r->server));
if (rc != APR_SUCCESS) {
return rc;
}
rc = serialize_table(&mobj->err_header_out,
&mobj->num_err_header_out,
ap_cache_cacheable_hdrs_out(r->pool,
r->err_headers_out,
r->server));
if (rc != APR_SUCCESS) {
return rc;
}
rc = serialize_table(&mobj->subprocess_env,
&mobj->num_subprocess_env,
r->subprocess_env );
if (rc != APR_SUCCESS) {
return rc;
}
rc = serialize_table(&mobj->notes, &mobj->num_notes, r->notes);
if (rc != APR_SUCCESS) {
return rc;
}
/* Init the info struct */
obj->info.status = info->status;
if (info->date) {
obj->info.date = info->date;
}
if (info->lastmod) {
obj->info.lastmod = info->lastmod;
}
if (info->response_time) {
obj->info.response_time = info->response_time;
}
if (info->request_time) {
obj->info.request_time = info->request_time;
}
if (info->expire) {
obj->info.expire = info->expire;
}
if (info->content_type) {
apr_size_t len = strlen(info->content_type) + 1;
obj->info.content_type = (char*) malloc(len);
if (!obj->info.content_type) {
return APR_ENOMEM;
}
memcpy(obj->info.content_type, info->content_type, len);
}
if (info->etag) {
apr_size_t len = strlen(info->etag) + 1;
obj->info.etag = (char*) malloc(len);
if (!obj->info.etag) {
return APR_ENOMEM;
}
memcpy(obj->info.etag, info->etag, len);
}
if (info->lastmods) {
apr_size_t len = strlen(info->lastmods) + 1;
obj->info.lastmods = (char*) malloc(len);
if (!obj->info.lastmods) {
return APR_ENOMEM;
}
memcpy(obj->info.lastmods, info->lastmods, len);
}
if ( info->filename) {
apr_size_t len = strlen(info->filename) + 1;
obj->info.filename = (char*) malloc(len);
if (!obj->info.filename ) {
return APR_ENOMEM;
}
memcpy(obj->info.filename, info->filename, len);
}
return APR_SUCCESS;
}
static apr_status_t store_body(cache_handle_t *h, request_rec *r, apr_bucket_brigade *b)
{
apr_status_t rv;
cache_object_t *obj = h->cache_obj;
cache_object_t *tobj = NULL;
mem_cache_object_t *mobj = (mem_cache_object_t*) obj->vobj;
apr_read_type_e eblock = APR_BLOCK_READ;
apr_bucket *e;
char *cur;
int eos = 0;
if (mobj->type == CACHE_TYPE_FILE) {
apr_file_t *file = NULL;
int fd = 0;
int other = 0;
/* We can cache an open file descriptor if:
* - the brigade contains one and only one file_bucket &&
* - the brigade is complete &&
* - the file_bucket is the last data bucket in the brigade
*/
for (e = APR_BRIGADE_FIRST(b);
e != APR_BRIGADE_SENTINEL(b);
e = APR_BUCKET_NEXT(e))
{
if (APR_BUCKET_IS_EOS(e)) {
eos = 1;
}
else if (APR_BUCKET_IS_FILE(e)) {
apr_bucket_file *a = e->data;
fd++;
file = a->fd;
}
else {
other++;
}
}
if (fd == 1 && !other && eos) {
apr_file_t *tmpfile;
const char *name;
/* Open a new XTHREAD handle to the file */
apr_file_name_get(&name, file);
mobj->flags = ((APR_SENDFILE_ENABLED & apr_file_flags_get(file))
| APR_READ | APR_BINARY | APR_XTHREAD | APR_FILE_NOCLEANUP);
rv = apr_file_open(&tmpfile, name, mobj->flags,
APR_OS_DEFAULT, r->pool);
if (rv != APR_SUCCESS) {
return rv;
}
apr_file_inherit_unset(tmpfile);
apr_os_file_get(&(mobj->fd), tmpfile);
/* Open for business */
ap_log_error(APLOG_MARK, APLOG_INFO, 0, r->server,
"mem_cache: Cached file: %s with key: %s", name, obj->key);
obj->complete = 1;
return APR_SUCCESS;
}
/* Content not suitable for fd caching. Cache in-memory instead. */
mobj->type = CACHE_TYPE_HEAP;
}
/*
* FD cacheing is not enabled or the content was not
* suitable for fd caching.
*/
if (mobj->m == NULL) {
mobj->m = malloc(mobj->m_len);
if (mobj->m == NULL) {
return APR_ENOMEM;
}
obj->count = 0;
}
cur = (char*) mobj->m + obj->count;
/* Iterate accross the brigade and populate the cache storage */
for (e = APR_BRIGADE_FIRST(b);
e != APR_BRIGADE_SENTINEL(b);
e = APR_BUCKET_NEXT(e))
{
const char *s;
apr_size_t len;
if (APR_BUCKET_IS_EOS(e)) {
if (mobj->m_len > obj->count) {
/* Caching a streamed response. Reallocate a buffer of the
* correct size and copy the streamed response into that
* buffer */
char *buf = malloc(obj->count);
if (!buf) {
return APR_ENOMEM;
}
memcpy(buf, mobj->m, obj->count);
free(mobj->m);
mobj->m = buf;
/* Now comes the crufty part... there is no way to tell the
* cache that the size of the object has changed. We need
* to remove the object, update the size and re-add the
* object, all under protection of the lock.
*/
if (sconf->lock) {
apr_thread_mutex_lock(sconf->lock);
}
/* Has the object been ejected from the cache?
*/
tobj = (cache_object_t *) cache_find(sconf->cache_cache, obj->key);
if (tobj == obj) {
/* Object is still in the cache, remove it, update the len field then
* replace it under protection of sconf->lock.
*/
cache_remove(sconf->cache_cache, obj);
/* For illustration, cache no longer has reference to the object
* so decrement the refcount
* apr_atomic_dec(&obj->refcount);
*/
mobj->m_len = obj->count;
cache_insert(sconf->cache_cache, obj);
/* For illustration, cache now has reference to the object, so
* increment the refcount
* apr_atomic_inc(&obj->refcount);
*/
}
else if (tobj) {
/* Different object with the same key found in the cache. Doing nothing
* here will cause the object refcount to drop to 0 in decrement_refcount
* and the object will be cleaned up.
*/
} else {
/* Object has been ejected from the cache, add it back to the cache */
mobj->m_len = obj->count;
cache_insert(sconf->cache_cache, obj);
apr_atomic_inc(&obj->refcount);
}
if (sconf->lock) {
apr_thread_mutex_unlock(sconf->lock);
}
}
/* Open for business */
ap_log_error(APLOG_MARK, APLOG_INFO, 0, r->server,
"mem_cache: Cached url: %s", obj->key);
obj->complete = 1;
break;
}
rv = apr_bucket_read(e, &s, &len, eblock);
if (rv != APR_SUCCESS) {
return rv;
}
if (len) {
/* Check for buffer overflow */
if ((obj->count + len) > mobj->m_len) {
return APR_ENOMEM;
}
else {
memcpy(cur, s, len);
cur+=len;
obj->count+=len;
}
}
/* This should not fail, but if it does, we are in BIG trouble
* cause we just stomped all over the heap.
*/
AP_DEBUG_ASSERT(obj->count <= mobj->m_len);
}
return APR_SUCCESS;
}
/**
* Configuration and start-up
*/
static int mem_cache_post_config(apr_pool_t *p, apr_pool_t *plog,
apr_pool_t *ptemp, server_rec *s)
{
int threaded_mpm;
/* Sanity check the cache configuration */
if (sconf->min_cache_object_size >= sconf->max_cache_object_size) {
ap_log_error(APLOG_MARK, APLOG_CRIT, 0, s,
"MCacheMaxObjectSize must be greater than MCacheMinObjectSize");
return DONE;
}
if (sconf->max_cache_object_size >= sconf->max_cache_size) {
ap_log_error(APLOG_MARK, APLOG_CRIT, 0, s,
"MCacheSize must be greater than MCacheMaxObjectSize");
return DONE;
}
if (sconf->max_streaming_buffer_size > sconf->max_cache_object_size) {
/* Issue a notice only if something other than the default config
* is being used */
if (sconf->max_streaming_buffer_size != DEFAULT_MAX_STREAMING_BUFFER_SIZE &&
sconf->max_cache_object_size != DEFAULT_MAX_CACHE_OBJECT_SIZE) {
ap_log_error(APLOG_MARK, APLOG_NOTICE, 0, s,
"MCacheMaxStreamingBuffer must be less than or equal to MCacheMaxObjectSize. "
"Resetting MCacheMaxStreamingBuffer to MCacheMaxObjectSize.");
}
sconf->max_streaming_buffer_size = sconf->max_cache_object_size;
}
if (sconf->max_streaming_buffer_size < sconf->min_cache_object_size) {
ap_log_error(APLOG_MARK, APLOG_WARNING, 0, s,
"MCacheMaxStreamingBuffer must be greater than or equal to MCacheMinObjectSize. "
"Resetting MCacheMaxStreamingBuffer to MCacheMinObjectSize.");
sconf->max_streaming_buffer_size = sconf->min_cache_object_size;
}
ap_mpm_query(AP_MPMQ_IS_THREADED, &threaded_mpm);
if (threaded_mpm) {
apr_thread_mutex_create(&sconf->lock, APR_THREAD_MUTEX_DEFAULT, p);
}
sconf->cache_cache = cache_init(sconf->max_object_cnt,
sconf->max_cache_size,
memcache_get_priority,
sconf->cache_remove_algorithm,
memcache_get_pos,
memcache_set_pos,
memcache_inc_frequency,
memcache_cache_get_size,
memcache_cache_get_key,
memcache_cache_free);
apr_pool_cleanup_register(p, sconf, cleanup_cache_mem, apr_pool_cleanup_null);
if (sconf->cache_cache)
return OK;
return -1;
}
static const char
*set_max_cache_size(cmd_parms *parms, void *in_struct_ptr, const char *arg)
{
apr_size_t val;
if (sscanf(arg, "%" APR_SIZE_T_FMT, &val) != 1) {
return "MCacheSize argument must be an integer representing the max cache size in KBytes.";
}
sconf->max_cache_size = val*1024;
return NULL;
}
static const char
*set_min_cache_object_size(cmd_parms *parms, void *in_struct_ptr, const char *arg)
{
apr_size_t val;
if (sscanf(arg, "%" APR_SIZE_T_FMT, &val) != 1) {
return "MCacheMinObjectSize value must be an integer (bytes)";
}
sconf->min_cache_object_size = val;
return NULL;
}
static const char
*set_max_cache_object_size(cmd_parms *parms, void *in_struct_ptr, const char *arg)
{
apr_size_t val;
if (sscanf(arg, "%" APR_SIZE_T_FMT, &val) != 1) {
return "MCacheMaxObjectSize value must be an integer (bytes)";
}
sconf->max_cache_object_size = val;
return NULL;
}
static const char
*set_max_object_count(cmd_parms *parms, void *in_struct_ptr, const char *arg)
{
apr_size_t val;
if (sscanf(arg, "%" APR_SIZE_T_FMT, &val) != 1) {
return "MCacheMaxObjectCount value must be an integer";
}
sconf->max_object_cnt = val;
return NULL;
}
static const char
*set_cache_removal_algorithm(cmd_parms *parms, void *name, const char *arg)
{
if (strcasecmp("LRU", arg)) {
sconf->cache_remove_algorithm = memcache_lru_algorithm;
}
else {
if (strcasecmp("GDSF", arg)) {
sconf->cache_remove_algorithm = memcache_gdsf_algorithm;
}
else {
return "currently implemented algorithms are LRU and GDSF";
}
}
return NULL;
}
static const char *set_max_streaming_buffer(cmd_parms *parms, void *dummy,
const char *arg)
{
#if 0
char *err;
if (apr_strtoff(&sconf->max_streaming_buffer_size, arg, &err, 10) || *err) {
return "MCacheMaxStreamingBuffer value must be a number";
}
#else
sconf->max_streaming_buffer_size = apr_atoi64(arg);
#endif
return NULL;
}
static const command_rec cache_cmds[] =
{
AP_INIT_TAKE1("MCacheSize", set_max_cache_size, NULL, RSRC_CONF,
"The maximum amount of memory used by the cache in KBytes"),
AP_INIT_TAKE1("MCacheMaxObjectCount", set_max_object_count, NULL, RSRC_CONF,
"The maximum number of objects allowed to be placed in the cache"),
AP_INIT_TAKE1("MCacheMinObjectSize", set_min_cache_object_size, NULL, RSRC_CONF,
"The minimum size (in bytes) of an object to be placed in the cache"),
AP_INIT_TAKE1("MCacheMaxObjectSize", set_max_cache_object_size, NULL, RSRC_CONF,
"The maximum size (in bytes) of an object to be placed in the cache"),
AP_INIT_TAKE1("MCacheRemovalAlgorithm", set_cache_removal_algorithm, NULL, RSRC_CONF,
"The algorithm used to remove entries from the cache (default: GDSF)"),
AP_INIT_TAKE1("MCacheMaxStreamingBuffer", set_max_streaming_buffer, NULL, RSRC_CONF,
"Maximum number of bytes of content to buffer for a streamed response"),
{NULL}
};
static const cache_provider cache_mem_provider =
{
&remove_entity,
&store_headers,
&store_body,
&recall_headers,
&recall_body,
&create_mem_entity,
&open_entity,
&remove_url,
};
static const cache_provider cache_fd_provider =
{
&remove_entity,
&store_headers,
&store_body,
&recall_headers,
&recall_body,
&create_fd_entity,
&open_entity,
&remove_url,
};
static void register_hooks(apr_pool_t *p)
{
ap_hook_post_config(mem_cache_post_config, NULL, NULL, APR_HOOK_MIDDLE);
/* cache initializer */
/* cache_hook_init(cache_mem_init, NULL, NULL, APR_HOOK_MIDDLE); */
/*
cache_hook_create_entity(create_entity, NULL, NULL, APR_HOOK_MIDDLE);
cache_hook_open_entity(open_entity, NULL, NULL, APR_HOOK_MIDDLE);
cache_hook_remove_url(remove_url, NULL, NULL, APR_HOOK_MIDDLE);
*/
ap_register_provider(p, CACHE_PROVIDER_GROUP, "mem", "0",
&cache_mem_provider);
ap_register_provider(p, CACHE_PROVIDER_GROUP, "fd", "0",
&cache_fd_provider);
}
module AP_MODULE_DECLARE_DATA mem_cache_module =
{
STANDARD20_MODULE_STUFF,
NULL, /* create per-directory config structure */
NULL, /* merge per-directory config structures */
create_cache_config, /* create per-server config structure */
NULL, /* merge per-server config structures */
cache_cmds, /* command apr_table_t */
register_hooks
};
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