freebsd-skq/contrib/serf/buckets/allocator.c
Peter Wemm 937a200089 Introduce svnlite so that we can check out our source code again.
This is actually a fully functional build except:
* All internal shared libraries are static linked to make sure there
  is no interference with ports (and to reduce build time).
* It does not have the python/perl/etc plugin or API support.
* By default, it installs as "svnlite" rather than "svn".
* If WITH_SVN added in make.conf, you get "svn".
* If WITHOUT_SVNLITE is in make.conf, this is completely disabled.

To be absolutely clear, this is not intended for any use other than
checking out freebsd source and committing, like we once did with cvs.

It should be usable for small scale local repositories that don't
need the python/perl plugin architecture.
2013-06-18 02:53:45 +00:00

435 lines
12 KiB
C

/* Copyright 2002-2004 Justin Erenkrantz and Greg Stein
*
* Licensed 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.
*/
#include <stdlib.h>
#include <apr_pools.h>
#include "serf.h"
#include "serf_bucket_util.h"
typedef struct node_header_t {
apr_size_t size;
union {
struct node_header_t *next; /* if size == 0 (freed/inactive) */
/* no data if size == STANDARD_NODE_SIZE */
apr_memnode_t *memnode; /* if size > STANDARD_NODE_SIZE */
} u;
} node_header_t;
/* The size of a node_header_t, properly aligned. Note that (normally)
* this macro will round the size to a multiple of 8 bytes. Keep this in
* mind when altering the node_header_t structure. Also, keep in mind that
* node_header_t is an overhead for every allocation performed through
* the serf_bucket_mem_alloc() function.
*/
#define SIZEOF_NODE_HEADER_T APR_ALIGN_DEFAULT(sizeof(node_header_t))
/* STANDARD_NODE_SIZE is manually set to an allocation size that will
* capture most allocators performed via this API. It must be "large
* enough" to avoid lots of spillage to allocating directly from the
* apr_allocator associated with the bucket allocator. The apr_allocator
* has a minimum size of 8k, which can be expensive if you missed the
* STANDARD_NODE_SIZE by just a few bytes.
*/
/* ### we should define some rules or ways to determine how to derive
* ### a "good" value for this. probably log some stats on allocs, then
* ### analyze them for size "misses". then find the balance point between
* ### wasted space due to min-size allocator, and wasted-space due to
* ### size-spill to the 8k minimum.
*/
#define STANDARD_NODE_SIZE 128
/* When allocating a block of memory from the allocator, we should go for
* an 8k block, minus the overhead that the allocator needs.
*/
#define ALLOC_AMT (8192 - APR_MEMNODE_T_SIZE)
/* Define DEBUG_DOUBLE_FREE if you're interested in debugging double-free
* calls to serf_bucket_mem_free().
*/
#define DEBUG_DOUBLE_FREE
typedef struct {
const serf_bucket_t *bucket;
apr_status_t last;
} read_status_t;
#define TRACK_BUCKET_COUNT 100 /* track N buckets' status */
typedef struct {
int next_index; /* info[] is a ring. next bucket goes at this idx. */
int num_used;
read_status_t info[TRACK_BUCKET_COUNT];
} track_state_t;
struct serf_bucket_alloc_t {
apr_pool_t *pool;
apr_allocator_t *allocator;
int own_allocator;
serf_unfreed_func_t unfreed;
void *unfreed_baton;
apr_uint32_t num_alloc;
node_header_t *freelist; /* free STANDARD_NODE_SIZE blocks */
apr_memnode_t *blocks; /* blocks we allocated for subdividing */
track_state_t *track;
};
/* ==================================================================== */
static apr_status_t allocator_cleanup(void *data)
{
serf_bucket_alloc_t *allocator = data;
/* If we allocated anything, give it back. */
if (allocator->blocks) {
apr_allocator_free(allocator->allocator, allocator->blocks);
}
/* If we allocated our own allocator (?!), destroy it here. */
if (allocator->own_allocator) {
apr_allocator_destroy(allocator->allocator);
}
return APR_SUCCESS;
}
serf_bucket_alloc_t *serf_bucket_allocator_create(
apr_pool_t *pool,
serf_unfreed_func_t unfreed,
void *unfreed_baton)
{
serf_bucket_alloc_t *allocator = apr_pcalloc(pool, sizeof(*allocator));
allocator->pool = pool;
allocator->allocator = apr_pool_allocator_get(pool);
if (allocator->allocator == NULL) {
/* This most likely means pools are running in debug mode, create our
* own allocator to deal with memory ourselves */
apr_allocator_create(&allocator->allocator);
allocator->own_allocator = 1;
}
allocator->unfreed = unfreed;
allocator->unfreed_baton = unfreed_baton;
#ifdef SERF_DEBUG_BUCKET_USE
{
track_state_t *track;
track = allocator->track = apr_palloc(pool, sizeof(*allocator->track));
track->next_index = 0;
track->num_used = 0;
}
#endif
/* NOTE: On a fork/exec, the child won't bother cleaning up memory.
This is just fine... the memory will go away at exec.
NOTE: If the child will NOT perform an exec, then the parent or
the child will need to decide who to clean up any
outstanding connection/buckets (as appropriate). */
apr_pool_cleanup_register(pool, allocator,
allocator_cleanup, apr_pool_cleanup_null);
return allocator;
}
apr_pool_t *serf_bucket_allocator_get_pool(
const serf_bucket_alloc_t *allocator)
{
return allocator->pool;
}
void *serf_bucket_mem_alloc(
serf_bucket_alloc_t *allocator,
apr_size_t size)
{
node_header_t *node;
++allocator->num_alloc;
size += SIZEOF_NODE_HEADER_T;
if (size <= STANDARD_NODE_SIZE) {
if (allocator->freelist) {
/* just pull a node off our freelist */
node = allocator->freelist;
allocator->freelist = node->u.next;
#ifdef DEBUG_DOUBLE_FREE
/* When we free an item, we set its size to zero. Thus, when
* we return it to the caller, we must ensure the size is set
* properly.
*/
node->size = STANDARD_NODE_SIZE;
#endif
}
else {
apr_memnode_t *active = allocator->blocks;
if (active == NULL
|| active->first_avail + STANDARD_NODE_SIZE >= active->endp) {
apr_memnode_t *head = allocator->blocks;
/* ran out of room. grab another block. */
active = apr_allocator_alloc(allocator->allocator, ALLOC_AMT);
/* System couldn't provide us with memory. */
if (active == NULL)
return NULL;
/* link the block into our tracking list */
allocator->blocks = active;
active->next = head;
}
node = (node_header_t *)active->first_avail;
node->size = STANDARD_NODE_SIZE;
active->first_avail += STANDARD_NODE_SIZE;
}
}
else {
apr_memnode_t *memnode = apr_allocator_alloc(allocator->allocator,
size);
if (memnode == NULL)
return NULL;
node = (node_header_t *)memnode->first_avail;
node->u.memnode = memnode;
node->size = size;
}
return ((char *)node) + SIZEOF_NODE_HEADER_T;
}
void *serf_bucket_mem_calloc(
serf_bucket_alloc_t *allocator,
apr_size_t size)
{
void *mem;
mem = serf_bucket_mem_alloc(allocator, size);
if (mem == NULL)
return NULL;
memset(mem, 0, size);
return mem;
}
void serf_bucket_mem_free(
serf_bucket_alloc_t *allocator,
void *block)
{
node_header_t *node;
--allocator->num_alloc;
node = (node_header_t *)((char *)block - SIZEOF_NODE_HEADER_T);
if (node->size == STANDARD_NODE_SIZE) {
/* put the node onto our free list */
node->u.next = allocator->freelist;
allocator->freelist = node;
#ifdef DEBUG_DOUBLE_FREE
/* note that this thing was freed. */
node->size = 0;
}
else if (node->size == 0) {
/* damn thing was freed already. */
abort();
#endif
}
else {
#ifdef DEBUG_DOUBLE_FREE
/* note that this thing was freed. */
node->size = 0;
#endif
/* now free it */
apr_allocator_free(allocator->allocator, node->u.memnode);
}
}
/* ==================================================================== */
#ifdef SERF_DEBUG_BUCKET_USE
static read_status_t *find_read_status(
track_state_t *track,
const serf_bucket_t *bucket,
int create_rs)
{
read_status_t *rs;
if (track->num_used) {
int count = track->num_used;
int idx = track->next_index;
/* Search backwards. In all likelihood, the bucket which just got
* read was read very recently.
*/
while (count-- > 0) {
if (!idx--) {
/* assert: track->num_used == TRACK_BUCKET_COUNT */
idx = track->num_used - 1;
}
if ((rs = &track->info[idx])->bucket == bucket) {
return rs;
}
}
}
/* Only create a new read_status_t when asked. */
if (!create_rs)
return NULL;
if (track->num_used < TRACK_BUCKET_COUNT) {
/* We're still filling up the ring. */
++track->num_used;
}
rs = &track->info[track->next_index];
rs->bucket = bucket;
rs->last = APR_SUCCESS; /* ### the right initial value? */
if (++track->next_index == TRACK_BUCKET_COUNT)
track->next_index = 0;
return rs;
}
#endif /* SERF_DEBUG_BUCKET_USE */
apr_status_t serf_debug__record_read(
const serf_bucket_t *bucket,
apr_status_t status)
{
#ifndef SERF_DEBUG_BUCKET_USE
return status;
#else
track_state_t *track = bucket->allocator->track;
read_status_t *rs = find_read_status(track, bucket, 1);
/* Validate that the previous status value allowed for another read. */
if (APR_STATUS_IS_EAGAIN(rs->last) /* ### or APR_EOF? */) {
/* Somebody read when they weren't supposed to. Bail. */
abort();
}
/* Save the current status for later. */
rs->last = status;
return status;
#endif
}
void serf_debug__entered_loop(serf_bucket_alloc_t *allocator)
{
#ifdef SERF_DEBUG_BUCKET_USE
track_state_t *track = allocator->track;
read_status_t *rs = &track->info[0];
for ( ; track->num_used; --track->num_used, ++rs ) {
if (rs->last == APR_SUCCESS) {
/* Somebody should have read this bucket again. */
abort();
}
/* ### other status values? */
}
/* num_used was reset. also need to reset the next index. */
track->next_index = 0;
#endif
}
void serf_debug__closed_conn(serf_bucket_alloc_t *allocator)
{
#ifdef SERF_DEBUG_BUCKET_USE
/* Just reset the number used so that we don't examine the info[] */
allocator->track->num_used = 0;
allocator->track->next_index = 0;
#endif
}
void serf_debug__bucket_destroy(const serf_bucket_t *bucket)
{
#ifdef SERF_DEBUG_BUCKET_USE
track_state_t *track = bucket->allocator->track;
read_status_t *rs = find_read_status(track, bucket, 0);
if (rs != NULL && rs->last != APR_EOF) {
/* The bucket was destroyed before it was read to completion. */
/* Special exception for socket buckets. If a connection remains
* open, they are not read to completion.
*/
if (SERF_BUCKET_IS_SOCKET(bucket))
return;
/* Ditto for SSL Decrypt buckets. */
if (SERF_BUCKET_IS_SSL_DECRYPT(bucket))
return;
/* Ditto for SSL Encrypt buckets. */
if (SERF_BUCKET_IS_SSL_ENCRYPT(bucket))
return;
/* Ditto for barrier buckets. */
if (SERF_BUCKET_IS_BARRIER(bucket))
return;
abort();
}
#endif
}
void serf_debug__bucket_alloc_check(
serf_bucket_alloc_t *allocator)
{
#ifdef SERF_DEBUG_BUCKET_USE
if (allocator->num_alloc != 0) {
abort();
}
#endif
}