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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.
*/
#include "httpd.h"
#include "http_log.h"
#include "http_request.h"
#include "http_protocol.h"
#include "http_config.h"
#include "apr.h"
#include "apr_strings.h"
#include "apr_time.h"
#include "apr_shm.h"
#define APR_WANT_STRFUNC
#include "apr_want.h"
#include "ap_socache.h"
#define SHMCB_MAX_SIZE (64 * 1024 * 1024)
/*
* This shared memory based SSL session cache implementation was
* originally written by Geoff Thorpe <geoff geoffthorpe.net> for C2Net
* Europe as a contribution to Ralf Engelschall's mod_ssl project.
*
* Since rewritten by GT to not use alignment-fudging memcpys and reduce
* complexity.
*/
/*
* Header structure - the start of the shared-mem segment
*/
typedef struct {
/* Stats for cache operations */
unsigned long stat_stores;
unsigned long stat_expiries;
unsigned long stat_scrolled;
unsigned long stat_retrieves_hit;
unsigned long stat_retrieves_miss;
unsigned long stat_removes_hit;
unsigned long stat_removes_miss;
/* Number of subcaches */
unsigned int subcache_num;
/* How many indexes each subcache's queue has */
unsigned int index_num;
/* How large each subcache is, including the queue and data */
unsigned int subcache_size;
/* How far into each subcache the data area is (optimisation) */
unsigned int subcache_data_offset;
/* How large the data area in each subcache is (optimisation) */
unsigned int subcache_data_size;
} SHMCBHeader;
/*
* Subcache structure - the start of each subcache, followed by
* indexes then data
*/
typedef struct {
/* The start position and length of the cyclic buffer of indexes */
unsigned int idx_pos, idx_used;
/* Same for the data area */
unsigned int data_pos, data_used;
} SHMCBSubcache;
/*
* Index structure - each subcache has an array of these
*/
typedef struct {
/* absolute time this entry expires */
time_t expires;
/* location within the subcache's data area */
unsigned int data_pos;
/* size (most logic ignores this, we keep it only to minimise memcpy) */
unsigned int data_used;
/* length of the used data which contains the id */
unsigned int id_len;
/* Used to mark explicitly-removed sessions */
unsigned char removed;
} SHMCBIndex;
struct ap_socache_instance_t {
const char *data_file;
apr_size_t shm_size;
apr_shm_t *shm;
SHMCBHeader *header;
};
/* The SHM data segment is of fixed size and stores data as follows.
*
* [ SHMCBHeader | Subcaches ]
*
* The SHMCBHeader header structure stores metadata concerning the
* cache and the contained subcaches.
*
* Subcaches is a hash table of header->subcache_num SHMCBSubcache
* structures. The hash table is indexed by SHMCB_MASK(id). Each
* SHMCBSubcache structure has a fixed size (header->subcache_size),
* which is determined at creation time, and looks like the following:
*
* [ SHMCBSubcache | Indexes | Data ]
*
* Each subcache is prefixed by the SHMCBSubcache structure.
*
* The subcache's "Data" segment is a single cyclic data buffer, of
* total size header->subcache_data_size; data inside is referenced
* using byte offsets. The offset marking the beginning of the cyclic
* buffer is subcache->data_pos the buffer's length is
* subcache->data_used.
*
* "Indexes" is an array of header->index_num SHMCBIndex structures,
* which is used as a cyclic queue; subcache->idx_pos gives the array
* index of the first in use, subcache->idx_used gives the number in
* use. Both ->idx_* values have a range of [0, header->index_num)
*
* Each in-use SHMCBIndex structure represents a single SSL session.
* The ID and data segment are stored consecutively in the subcache's
* cyclic data buffer. The "Data" segment can thus be seen to
* look like this, for example
*
* offset: [ 0 1 2 3 4 5 6 ...
* contents:[ ID1 Data1 ID2 Data2 ID3 ...
*
* where the corresponding indices would look like:
*
* idx1 = { data_pos = 0, data_used = 3, id_len = 1, ...}
* idx2 = { data_pos = 3, data_used = 3, id_len = 1, ...}
* ...
*/
/* This macro takes a pointer to the header and a zero-based index and returns
* a pointer to the corresponding subcache. */
#define SHMCB_SUBCACHE(pHeader, num) \
(SHMCBSubcache *)(((unsigned char *)(pHeader)) + \
sizeof(SHMCBHeader) + \
(num) * ((pHeader)->subcache_size))
/* This macro takes a pointer to the header and a session id and returns a
* pointer to the corresponding subcache. */
#define SHMCB_MASK(pHeader, id) \
SHMCB_SUBCACHE((pHeader), *(id) & ((pHeader)->subcache_num - 1))
/* This macro takes the same params as the last, generating two outputs for use
* in ap_log_error(...). */
#define SHMCB_MASK_DBG(pHeader, id) \
*(id), (*(id) & ((pHeader)->subcache_num - 1))
/* This macro takes a pointer to a subcache and a zero-based index and returns
* a pointer to the corresponding SHMCBIndex. */
#define SHMCB_INDEX(pSubcache, num) \
((SHMCBIndex *)(((unsigned char *)pSubcache) + \
sizeof(SHMCBSubcache)) + num)
/* This macro takes a pointer to the header and a subcache and returns a
* pointer to the corresponding data area. */
#define SHMCB_DATA(pHeader, pSubcache) \
((unsigned char *)(pSubcache) + (pHeader)->subcache_data_offset)
/*
* Cyclic functions - assists in "wrap-around"/modulo logic
*/
/* Addition modulo 'mod' */
#define SHMCB_CYCLIC_INCREMENT(val,inc,mod) \
(((val) + (inc)) % (mod))
/* Subtraction (or "distance between") modulo 'mod' */
#define SHMCB_CYCLIC_SPACE(val1,val2,mod) \
((val2) >= (val1) ? ((val2) - (val1)) : \
((val2) + (mod) - (val1)))
/* A "normal-to-cyclic" memcpy. */
static void shmcb_cyclic_ntoc_memcpy(unsigned int buf_size, unsigned char *data,
unsigned int dest_offset, const unsigned char *src,
unsigned int src_len)
{
if (dest_offset + src_len < buf_size)
/* It be copied all in one go */
memcpy(data + dest_offset, src, src_len);
else {
/* Copy the two splits */
memcpy(data + dest_offset, src, buf_size - dest_offset);
memcpy(data, src + buf_size - dest_offset,
src_len + dest_offset - buf_size);
}
}
/* A "cyclic-to-normal" memcpy. */
static void shmcb_cyclic_cton_memcpy(unsigned int buf_size, unsigned char *dest,
const unsigned char *data, unsigned int src_offset,
unsigned int src_len)
{
if (src_offset + src_len < buf_size)
/* It be copied all in one go */
memcpy(dest, data + src_offset, src_len);
else {
/* Copy the two splits */
memcpy(dest, data + src_offset, buf_size - src_offset);
memcpy(dest + buf_size - src_offset, data,
src_len + src_offset - buf_size);
}
}
/* A memcmp against a cyclic data buffer. Compares SRC of length
* SRC_LEN against the contents of cyclic buffer DATA (which is of
* size BUF_SIZE), starting at offset DEST_OFFSET. Got that? Good. */
static int shmcb_cyclic_memcmp(unsigned int buf_size, unsigned char *data,
unsigned int dest_offset,
const unsigned char *src,
unsigned int src_len)
{
if (dest_offset + src_len < buf_size)
/* It be compared all in one go */
return memcmp(data + dest_offset, src, src_len);
else {
/* Compare the two splits */
int diff;
diff = memcmp(data + dest_offset, src, buf_size - dest_offset);
if (diff) {
return diff;
}
return memcmp(data, src + buf_size - dest_offset,
src_len + dest_offset - buf_size);
}
}
/* Prototypes for low-level subcache operations */
static void shmcb_subcache_expire(server_rec *, SHMCBHeader *, SHMCBSubcache *);
/* Returns zero on success, non-zero on failure. */
static int shmcb_subcache_store(server_rec *s, SHMCBHeader *header,
SHMCBSubcache *subcache,
unsigned char *data, unsigned int data_len,
const unsigned char *id, unsigned int id_len,
time_t expiry);
/* Returns zero on success, non-zero on failure. */
static int shmcb_subcache_retrieve(server_rec *, SHMCBHeader *, SHMCBSubcache *,
const unsigned char *id, unsigned int idlen,
unsigned char *data, unsigned int *datalen);
/* Returns zero on success, non-zero on failure. */
static int shmcb_subcache_remove(server_rec *, SHMCBHeader *, SHMCBSubcache *,
const unsigned char *, unsigned int);
/*
* High-Level "handlers" as per ssl_scache.c
* subcache internals are deferred to shmcb_subcache_*** functions lower down
*/
static const char *socache_shmcb_create(ap_socache_instance_t **context,
const char *arg,
apr_pool_t *tmp, apr_pool_t *p)
{
ap_socache_instance_t *ctx;
char *path, *cp, *cp2;
/* Allocate the context. */
*context = ctx = apr_pcalloc(p, sizeof *ctx);
ctx->data_file = path = ap_server_root_relative(p, arg);
ctx->shm_size = 1024*512; /* 512KB */
cp = strchr(path, '(');
if (cp) {
*cp++ = '\0';
if (!(cp2 = strchr(cp, ')'))) {
return "Invalid argument: no closing parenthesis";
}
*cp2 = '\0';
ctx->shm_size = atoi(cp);
if (ctx->shm_size < 8192) {
return "Invalid argument: size has to be >= 8192 bytes";
}
if (ctx->shm_size >= SHMCB_MAX_SIZE) {
return apr_psprintf(tmp,
"Invalid argument: size has "
"to be < %d bytes on this platform",
SHMCB_MAX_SIZE);
}
}
return NULL;
}
static apr_status_t socache_shmcb_init(ap_socache_instance_t *ctx,
const char *namespace,
const struct ap_socache_hints *hints,
server_rec *s, apr_pool_t *p)
{
void *shm_segment;
apr_size_t shm_segsize;
apr_status_t rv;
SHMCBHeader *header;
unsigned int num_subcache, num_idx, loop;
apr_size_t avg_obj_size, avg_id_len;
/* Create shared memory segment */
if (ctx->data_file == NULL) {
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s,
"SSLSessionCache required");
return APR_EINVAL;
}
/* Use anonymous shm by default, fall back on name-based. */
rv = apr_shm_create(&ctx->shm, ctx->shm_size, NULL, p);
if (APR_STATUS_IS_ENOTIMPL(rv)) {
/* For a name-based segment, remove it first in case of a
* previous unclean shutdown. */
apr_shm_remove(ctx->data_file, p);
rv = apr_shm_create(&ctx->shm, ctx->shm_size, ctx->data_file, p);
}
if (rv != APR_SUCCESS) {
ap_log_error(APLOG_MARK, APLOG_ERR, rv, s,
"could not allocate shared memory for shmcb "
"session cache");
return rv;
}
shm_segment = apr_shm_baseaddr_get(ctx->shm);
shm_segsize = apr_shm_size_get(ctx->shm);
if (shm_segsize < (5 * sizeof(SHMCBHeader))) {
/* the segment is ridiculously small, bail out */
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s,
"shared memory segment too small");
return APR_ENOSPC;
}
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"shmcb_init allocated %" APR_SIZE_T_FMT
" bytes of shared memory",
shm_segsize);
/* Discount the header */
shm_segsize -= sizeof(SHMCBHeader);
/* Select index size based on average object size hints, if given. */
avg_obj_size = hints && hints->avg_obj_size ? hints->avg_obj_size : 150;
avg_id_len = hints && hints->avg_id_len ? hints->avg_id_len : 30;
num_idx = (shm_segsize) / (avg_obj_size + avg_id_len);
num_subcache = 256;
while ((num_idx / num_subcache) < (2 * num_subcache))
num_subcache /= 2;
num_idx /= num_subcache;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"for %" APR_SIZE_T_FMT " bytes (%" APR_SIZE_T_FMT
" including header), recommending %u subcaches, "
"%u indexes each", shm_segsize,
shm_segsize + sizeof(SHMCBHeader), num_subcache, num_idx);
if (num_idx < 5) {
/* we're still too small, bail out */
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s,
"shared memory segment too small");
return APR_ENOSPC;
}
/* OK, we're sorted */
ctx->header = header = shm_segment;
header->stat_stores = 0;
header->stat_expiries = 0;
header->stat_scrolled = 0;
header->stat_retrieves_hit = 0;
header->stat_retrieves_miss = 0;
header->stat_removes_hit = 0;
header->stat_removes_miss = 0;
header->subcache_num = num_subcache;
/* Convert the subcache size (in bytes) to a value that is suitable for
* structure alignment on the host platform, by rounding down if necessary.
* This assumes that sizeof(unsigned long) provides an appropriate
* alignment unit. */
header->subcache_size = ((size_t)(shm_segsize / num_subcache) &
~(size_t)(sizeof(unsigned long) - 1));
header->subcache_data_offset = sizeof(SHMCBSubcache) +
num_idx * sizeof(SHMCBIndex);
header->subcache_data_size = header->subcache_size -
header->subcache_data_offset;
header->index_num = num_idx;
/* Output trace info */
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"shmcb_init_memory choices follow");
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"subcache_num = %u", header->subcache_num);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"subcache_size = %u", header->subcache_size);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"subcache_data_offset = %u", header->subcache_data_offset);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"subcache_data_size = %u", header->subcache_data_size);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"index_num = %u", header->index_num);
/* The header is done, make the caches empty */
for (loop = 0; loop < header->subcache_num; loop++) {
SHMCBSubcache *subcache = SHMCB_SUBCACHE(header, loop);
subcache->idx_pos = subcache->idx_used = 0;
subcache->data_pos = subcache->data_used = 0;
}
ap_log_error(APLOG_MARK, APLOG_INFO, 0, s,
"Shared memory session cache initialised");
/* Success ... */
return APR_SUCCESS;
}
static void socache_shmcb_kill(ap_socache_instance_t *ctx, server_rec *s)
{
if (ctx && ctx->shm) {
apr_shm_destroy(ctx->shm);
ctx->shm = NULL;
}
}
static apr_status_t socache_shmcb_store(ap_socache_instance_t *ctx,
server_rec *s,
const unsigned char *id, unsigned int idlen,
time_t timeout,
unsigned char *encoded,
unsigned int len_encoded)
{
SHMCBHeader *header = ctx->header;
SHMCBSubcache *subcache = SHMCB_MASK(header, id);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"socache_shmcb_store (0x%02x -> subcache %d)",
SHMCB_MASK_DBG(header, id));
if (idlen < 4) {
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s, "unusably short session_id provided "
"(%u bytes)", idlen);
return APR_EINVAL;
}
if (shmcb_subcache_store(s, header, subcache, encoded,
len_encoded, id, idlen, timeout)) {
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s,
"can't store a session!");
return APR_ENOSPC;
}
header->stat_stores++;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"leaving socache_shmcb_store successfully");
return APR_SUCCESS;
}
static apr_status_t socache_shmcb_retrieve(ap_socache_instance_t *ctx,
server_rec *s,
const unsigned char *id, unsigned int idlen,
unsigned char *dest, unsigned int *destlen,
apr_pool_t *p)
{
SHMCBHeader *header = ctx->header;
SHMCBSubcache *subcache = SHMCB_MASK(header, id);
int rv;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"socache_shmcb_retrieve (0x%02x -> subcache %d)",
SHMCB_MASK_DBG(header, id));
/* Get the session corresponding to the session_id, if it exists. */
rv = shmcb_subcache_retrieve(s, header, subcache, id, idlen,
dest, destlen);
if (rv == 0)
header->stat_retrieves_hit++;
else
header->stat_retrieves_miss++;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"leaving socache_shmcb_retrieve successfully");
return rv == 0 ? APR_SUCCESS : APR_EGENERAL;
}
static void socache_shmcb_remove(ap_socache_instance_t *ctx, server_rec *s,
const unsigned char *id, unsigned int idlen,
apr_pool_t *p)
{
SHMCBHeader *header = ctx->header;
SHMCBSubcache *subcache = SHMCB_MASK(header, id);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"socache_shmcb_remove (0x%02x -> subcache %d)",
SHMCB_MASK_DBG(header, id));
if (idlen < 4) {
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s, "unusably short session_id provided "
"(%u bytes)", idlen);
return;
}
if (shmcb_subcache_remove(s, header, subcache, id, idlen))
header->stat_removes_hit++;
else
header->stat_removes_miss++;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"leaving socache_shmcb_remove successfully");
}
static void socache_shmcb_status(ap_socache_instance_t *ctx,
request_rec *r, int flags)
{
server_rec *s = r->server;
SHMCBHeader *header = ctx->header;
unsigned int loop, total = 0, cache_total = 0, non_empty_subcaches = 0;
time_t idx_expiry, min_expiry = 0, max_expiry = 0, average_expiry = 0;
time_t now = time(NULL);
double expiry_total = 0;
int index_pct, cache_pct;
ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, "inside shmcb_status");
/* Perform the iteration inside the mutex to avoid corruption or invalid
* pointer arithmetic. The rest of our logic uses read-only header data so
* doesn't need the lock. */
/* Iterate over the subcaches */
for (loop = 0; loop < header->subcache_num; loop++) {
SHMCBSubcache *subcache = SHMCB_SUBCACHE(header, loop);
shmcb_subcache_expire(s, header, subcache);
total += subcache->idx_used;
cache_total += subcache->data_used;
if (subcache->idx_used) {
SHMCBIndex *idx = SHMCB_INDEX(subcache, subcache->idx_pos);
non_empty_subcaches++;
idx_expiry = idx->expires;
expiry_total += (double)idx_expiry;
max_expiry = ((idx_expiry > max_expiry) ? idx_expiry : max_expiry);
if (!min_expiry)
min_expiry = idx_expiry;
else
min_expiry = ((idx_expiry < min_expiry) ? idx_expiry : min_expiry);
}
}
index_pct = (100 * total) / (header->index_num *
header->subcache_num);
cache_pct = (100 * cache_total) / (header->subcache_data_size *
header->subcache_num);
/* Generate HTML */
ap_rprintf(r, "cache type: <b>SHMCB</b>, shared memory: <b>%" APR_SIZE_T_FMT "</b> "
"bytes, current sessions: <b>%d</b><br>",
ctx->shm_size, total);
ap_rprintf(r, "subcaches: <b>%d</b>, indexes per subcache: <b>%d</b><br>",
header->subcache_num, header->index_num);
if (non_empty_subcaches) {
average_expiry = (time_t)(expiry_total / (double)non_empty_subcaches);
ap_rprintf(r, "time left on oldest entries' SSL sessions: ");
if (now < average_expiry)
ap_rprintf(r, "avg: <b>%d</b> seconds, (range: %d...%d)<br>",
(int)(average_expiry - now),
(int)(min_expiry - now),
(int)(max_expiry - now));
else
ap_rprintf(r, "expiry_threshold: <b>Calculation error!</b><br>");
}
ap_rprintf(r, "index usage: <b>%d%%</b>, cache usage: <b>%d%%</b><br>",
index_pct, cache_pct);
ap_rprintf(r, "total sessions stored since starting: <b>%lu</b><br>",
header->stat_stores);
ap_rprintf(r, "total sessions expired since starting: <b>%lu</b><br>",
header->stat_expiries);
ap_rprintf(r, "total (pre-expiry) sessions scrolled out of the cache: "
"<b>%lu</b><br>", header->stat_scrolled);
ap_rprintf(r, "total retrieves since starting: <b>%lu</b> hit, "
"<b>%lu</b> miss<br>", header->stat_retrieves_hit,
header->stat_retrieves_miss);
ap_rprintf(r, "total removes since starting: <b>%lu</b> hit, "
"<b>%lu</b> miss<br>", header->stat_removes_hit,
header->stat_removes_miss);
ap_log_rerror(APLOG_MARK, APLOG_DEBUG, 0, r, "leaving shmcb_status");
}
/*
* Subcache-level cache operations
*/
static void shmcb_subcache_expire(server_rec *s, SHMCBHeader *header,
SHMCBSubcache *subcache)
{
time_t now = time(NULL);
unsigned int loop = 0;
unsigned int new_idx_pos = subcache->idx_pos;
SHMCBIndex *idx = NULL;
while (loop < subcache->idx_used) {
idx = SHMCB_INDEX(subcache, new_idx_pos);
if (idx->expires > now)
/* it hasn't expired yet, we're done iterating */
break;
loop++;
new_idx_pos = SHMCB_CYCLIC_INCREMENT(new_idx_pos, 1, header->index_num);
}
if (!loop)
/* Nothing to do */
return;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"will be expiring %u sessions", loop);
if (loop == subcache->idx_used) {
/* We're expiring everything, piece of cake */
subcache->idx_used = 0;
subcache->data_used = 0;
} else {
/* There remain other indexes, so we can use idx to adjust 'data' */
unsigned int diff = SHMCB_CYCLIC_SPACE(subcache->data_pos,
idx->data_pos,
header->subcache_data_size);
/* Adjust the indexes */
subcache->idx_used -= loop;
subcache->idx_pos = new_idx_pos;
/* Adjust the data area */
subcache->data_used -= diff;
subcache->data_pos = idx->data_pos;
}
header->stat_expiries += loop;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"we now have %u sessions", subcache->idx_used);
}
static int shmcb_subcache_store(server_rec *s, SHMCBHeader *header,
SHMCBSubcache *subcache,
unsigned char *data, unsigned int data_len,
const unsigned char *id, unsigned int id_len,
time_t expiry)
{
unsigned int data_offset, new_idx, id_offset;
SHMCBIndex *idx;
unsigned int total_len = id_len + data_len;
/* Sanity check the input */
if (total_len > header->subcache_data_size) {
ap_log_error(APLOG_MARK, APLOG_ERR, 0, s,
"inserting session larger (%d) than subcache data area (%d)",
total_len, header->subcache_data_size);
return -1;
}
/* If there are entries to expire, ditch them first. */
shmcb_subcache_expire(s, header, subcache);
/* Loop until there is enough space to insert */
if (header->subcache_data_size - subcache->data_used < total_len
|| subcache->idx_used == header->index_num) {
unsigned int loop = 0;
idx = SHMCB_INDEX(subcache, subcache->idx_pos);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"about to force-expire, subcache: idx_used=%d, "
"data_used=%d", subcache->idx_used, subcache->data_used);
do {
SHMCBIndex *idx2;
/* Adjust the indexes by one */
subcache->idx_pos = SHMCB_CYCLIC_INCREMENT(subcache->idx_pos, 1,
header->index_num);
subcache->idx_used--;
if (!subcache->idx_used) {
/* There's nothing left */
subcache->data_used = 0;
break;
}
/* Adjust the data */
idx2 = SHMCB_INDEX(subcache, subcache->idx_pos);
subcache->data_used -= SHMCB_CYCLIC_SPACE(idx->data_pos, idx2->data_pos,
header->subcache_data_size);
subcache->data_pos = idx2->data_pos;
/* Stats */
header->stat_scrolled++;
/* Loop admin */
idx = idx2;
loop++;
} while (header->subcache_data_size - subcache->data_used < total_len);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"finished force-expire, subcache: idx_used=%d, "
"data_used=%d", subcache->idx_used, subcache->data_used);
}
/* HERE WE ASSUME THAT THE NEW SESSION SHOULD GO ON THE END! I'M NOT
* CHECKING WHETHER IT SHOULD BE GENUINELY "INSERTED" SOMEWHERE.
*
* We either fix that, or find out at a "higher" (read "mod_ssl")
* level whether it is possible to have distinct session caches for
* any attempted tomfoolery to do with different session timeouts.
* Knowing in advance that we can have a cache-wide constant timeout
* would make this stuff *MUCH* more efficient. Mind you, it's very
* efficient right now because I'm ignoring this problem!!!
*/
/* Insert the id */
id_offset = SHMCB_CYCLIC_INCREMENT(subcache->data_pos, subcache->data_used,
header->subcache_data_size);
shmcb_cyclic_ntoc_memcpy(header->subcache_data_size,
SHMCB_DATA(header, subcache), id_offset,
id, id_len);
subcache->data_used += id_len;
/* Insert the data */
data_offset = SHMCB_CYCLIC_INCREMENT(subcache->data_pos, subcache->data_used,
header->subcache_data_size);
shmcb_cyclic_ntoc_memcpy(header->subcache_data_size,
SHMCB_DATA(header, subcache), data_offset,
data, data_len);
subcache->data_used += data_len;
/* Insert the index */
new_idx = SHMCB_CYCLIC_INCREMENT(subcache->idx_pos, subcache->idx_used,
header->index_num);
idx = SHMCB_INDEX(subcache, new_idx);
idx->expires = expiry;
idx->data_pos = id_offset;
idx->data_used = total_len;
idx->id_len = id_len;
idx->removed = 0;
subcache->idx_used++;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"insert happened at idx=%d, data=(%u:%u)", new_idx,
id_offset, data_offset);
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"finished insert, subcache: idx_pos/idx_used=%d/%d, "
"data_pos/data_used=%d/%d",
subcache->idx_pos, subcache->idx_used,
subcache->data_pos, subcache->data_used);
return 0;
}
static int shmcb_subcache_retrieve(server_rec *s, SHMCBHeader *header,
SHMCBSubcache *subcache,
const unsigned char *id, unsigned int idlen,
unsigned char *dest, unsigned int *destlen)
{
unsigned int pos;
unsigned int loop = 0;
/* If there are entries to expire, ditch them first. */
shmcb_subcache_expire(s, header, subcache);
pos = subcache->idx_pos;
while (loop < subcache->idx_used) {
SHMCBIndex *idx = SHMCB_INDEX(subcache, pos);
/* Only consider 'idx' if the id matches, and the "removed"
* flag isn't set; check the data length too to avoid a buffer
* overflow in case of corruption, which should be impossible,
* but it's cheap to be safe. */
if (!idx->removed
&& idx->id_len == idlen && (idx->data_used - idx->id_len) < *destlen
&& shmcb_cyclic_memcmp(header->subcache_data_size,
SHMCB_DATA(header, subcache),
idx->data_pos, id, idx->id_len) == 0) {
unsigned int data_offset;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"match at idx=%d, data=%d", pos, idx->data_pos);
/* Find the offset of the data segment, after the id */
data_offset = SHMCB_CYCLIC_INCREMENT(idx->data_pos,
idx->id_len,
header->subcache_data_size);
*destlen = idx->data_used - idx->id_len;
/* Copy out the data */
shmcb_cyclic_cton_memcpy(header->subcache_data_size,
dest, SHMCB_DATA(header, subcache),
data_offset, *destlen);
return 0;
}
/* Increment */
loop++;
pos = SHMCB_CYCLIC_INCREMENT(pos, 1, header->index_num);
}
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"shmcb_subcache_retrieve found no match");
return -1;
}
static int shmcb_subcache_remove(server_rec *s, SHMCBHeader *header,
SHMCBSubcache *subcache,
const unsigned char *id, unsigned int idlen)
{
unsigned int pos;
unsigned int loop = 0;
/* Unlike the others, we don't do an expire-run first. This is to keep
* consistent statistics where a "remove" operation may actually be the
* higher layer spotting an expiry issue prior to us. Our caller is
* handling stats, so a failure return would be inconsistent if the
* intended session was in fact removed by an expiry run. */
pos = subcache->idx_pos;
while (loop < subcache->idx_used) {
SHMCBIndex *idx = SHMCB_INDEX(subcache, pos);
/* Only consider 'idx' if the id matches, and the "removed"
* flag isn't set. */
if (!idx->removed && idx->id_len == idlen
&& shmcb_cyclic_memcmp(header->subcache_data_size,
SHMCB_DATA(header, subcache),
idx->data_pos, id, idx->id_len) == 0) {
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"possible match at idx=%d, data=%d", pos, idx->data_pos);
/* Found the matching session, remove it quietly. */
idx->removed = 1;
ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, s,
"shmcb_subcache_remove removing matching session");
return 0;
}
/* Increment */
loop++;
pos = SHMCB_CYCLIC_INCREMENT(pos, 1, header->index_num);
}
return -1; /* failure */
}
static const ap_socache_provider_t socache_shmcb = {
"shmcb",
AP_SOCACHE_FLAG_NOTMPSAFE,
socache_shmcb_create,
socache_shmcb_init,
socache_shmcb_kill,
socache_shmcb_store,
socache_shmcb_retrieve,
socache_shmcb_remove,
socache_shmcb_status
};
static void register_hooks(apr_pool_t *p)
{
ap_register_provider(p, AP_SOCACHE_PROVIDER_GROUP, "shmcb",
AP_SOCACHE_PROVIDER_VERSION,
&socache_shmcb);
}
module AP_MODULE_DECLARE_DATA socache_shmcb_module = {
STANDARD20_MODULE_STUFF,
NULL, NULL, NULL, NULL, NULL,
register_hooks
};
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