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shctx.c
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shctx.c
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/*
* shctx.c
*
* Copyright (C) 2011 EXCELIANCE
*
* Author: Emeric Brun - [email protected]
*
*/
#include <sys/mman.h>
#ifdef USE_SYSCALL_FUTEX
#include <unistd.h>
#include <linux/futex.h>
#include <sys/syscall.h>
#else /* USE_SYSCALL_FUTEX */
#include <pthread.h>
#endif /* USE_SYSCALL_FUTEX */
#include "ebtree/ebmbtree.h"
#include "shctx.h"
struct shared_session {
struct ebmb_node key;
unsigned char key_data[SSL_MAX_SSL_SESSION_ID_LENGTH];
long c_date;
int data_len;
unsigned char data[SHSESS_MAX_DATA_LEN];
struct shared_session *p;
struct shared_session *n;
};
struct shared_context {
#ifdef USE_SYSCALL_FUTEX
unsigned int waiters;
#else /* USE_SYSCALL_FUTEX */
pthread_mutex_t mutex;
#endif
struct shared_session active;
struct shared_session free;
};
/* Static shared context */
static struct shared_context *shctx = NULL;
/* Callbacks */
static void (*shared_session_new_cbk)(unsigned char *session, unsigned int session_len, long cdate);
/* Lock functions */
#ifdef USE_SYSCALL_FUTEX
static inline unsigned int xchg(unsigned int *ptr, unsigned int x)
{
__asm volatile("lock xchgl %0,%1"
: "=r" (x), "+m" (*ptr)
: "0" (x)
: "memory");
return x;
}
static inline unsigned int cmpxchg(unsigned int *ptr, unsigned int old, unsigned int new)
{
unsigned int ret;
__asm volatile("lock cmpxchgl %2,%1"
: "=a" (ret), "+m" (*ptr)
: "r" (new), "0" (old)
: "memory");
return ret;
}
static inline unsigned char atomic_inc(unsigned int *ptr)
{
unsigned char ret;
__asm volatile("lock incl %0\n"
"setne %1\n"
: "+m" (*ptr), "=qm" (ret)
:
: "memory");
return ret;
}
static inline unsigned char atomic_dec(unsigned int *ptr)
{
unsigned char ret;
__asm volatile("lock decl %0\n"
"setne %1\n"
: "+m" (*ptr), "=qm" (ret)
:
: "memory");
return ret;
}
static inline void shared_context_lock(void)
{
unsigned int x;
x = cmpxchg(&shctx->waiters, 0, 1);
if (x) {
if (x != 2)
x = xchg(&shctx->waiters, 2);
while (x) {
syscall(SYS_futex, &shctx->waiters, FUTEX_WAIT, 2, NULL, 0, 0);
x = xchg(&shctx->waiters, 2);
}
}
}
static inline void shared_context_unlock(void)
{
if (atomic_dec(&shctx->waiters)) {
shctx->waiters = 0;
syscall(SYS_futex, &shctx->waiters, FUTEX_WAKE, 1, NULL, 0, 0);
}
}
#else /* USE_SYSCALL_FUTEX */
#define shared_context_lock(v) pthread_mutex_lock(&shctx->mutex)
#define shared_context_unlock(v) pthread_mutex_unlock(&shctx->mutex)
#endif
/* List Macros */
#define shsess_unset(s) (s)->n->p = (s)->p; \
(s)->p->n = (s)->n;
#define shsess_set_free(s) shsess_unset(s) \
(s)->p = &shctx->free; \
(s)->n = shctx->free.n; \
shctx->free.n->p = s; \
shctx->free.n = s;
#define shsess_set_active(s) shsess_unset(s) \
(s)->p = &shctx->active; \
(s)->n = shctx->active.n; \
shctx->active.n->p = s; \
shctx->active.n = s;
#define shsess_get_next() (shctx->free.p == shctx->free.n) ? \
shctx->active.p : shctx->free.p;
/* Tree Macros */
#define shsess_tree_delete(s) ebmb_delete(&(s)->key);
#define shsess_tree_insert(s) (struct shared_session *)ebmb_insert(&shctx->active.key.node.branches, \
&(s)->key, SSL_MAX_SSL_SESSION_ID_LENGTH);
#define shsess_tree_lookup(k) (struct shared_session *)ebmb_lookup(&shctx->active.key.node.branches, \
(k), SSL_MAX_SSL_SESSION_ID_LENGTH);
/* Other Macros */
#define shsess_set_key(s,k,l) { memcpy((s)->key_data, (k), (l)); \
if ((l) < SSL_MAX_SSL_SESSION_ID_LENGTH) \
memset((s)->key_data+(l), 0, SSL_MAX_SSL_SESSION_ID_LENGTH-(l)); };
/* SSL context callbacks */
/* SSL callback used on new session creation */
int shctx_new_cb(SSL *ssl, SSL_SESSION *sess) {
(void)ssl;
struct shared_session *shsess;
unsigned char *data,*p;
unsigned int data_len;
unsigned char encsess[SHSESS_MAX_ENCODED_LEN];
/* check if session reserved size in aligned buffer is large enougth for the ASN1 encode session */
data_len=i2d_SSL_SESSION(sess, NULL);
if(data_len > SHSESS_MAX_DATA_LEN)
return 1;
/* process ASN1 session encoding before the lock: lower cost */
p = data = encsess+SSL_MAX_SSL_SESSION_ID_LENGTH;
i2d_SSL_SESSION(sess, &p);
shared_context_lock();
shsess = shsess_get_next();
shsess_tree_delete(shsess);
shsess_set_key(shsess, sess->session_id, sess->session_id_length);
/* it returns the already existing node or current node if none, never returns null */
shsess = shsess_tree_insert(shsess);
/* store ASN1 encoded session into cache */
shsess->data_len = data_len;
memcpy(shsess->data, data, data_len);
/* store creation date */
shsess->c_date = SSL_SESSION_get_time(sess);
shsess_set_active(shsess);
shared_context_unlock();
if (shared_session_new_cbk) { /* if user level callback is set */
/* copy sessionid padded with 0 into the sessionid + data aligned buffer */
memcpy(encsess, sess->session_id, sess->session_id_length);
if (sess->session_id_length < SSL_MAX_SSL_SESSION_ID_LENGTH)
memset(encsess+sess->session_id_length, 0, SSL_MAX_SSL_SESSION_ID_LENGTH-sess->session_id_length);
shared_session_new_cbk(encsess, SSL_MAX_SSL_SESSION_ID_LENGTH+data_len, SSL_SESSION_get_time(sess));
}
return 0; /* do not increment session reference count */
}
/* SSL callback used on lookup an existing session cause none found in internal cache */
SSL_SESSION *shctx_get_cb(SSL *ssl, unsigned char *key, int key_len, int *do_copy) {
(void)ssl;
struct shared_session *shsess;
unsigned char data[SHSESS_MAX_DATA_LEN], *p;
unsigned char tmpkey[SSL_MAX_SSL_SESSION_ID_LENGTH];
unsigned int data_len;
long cdate;
SSL_SESSION *sess;
/* allow the session to be freed automatically by openssl */
*do_copy = 0;
/* tree key is zeros padded sessionid */
if ( key_len < SSL_MAX_SSL_SESSION_ID_LENGTH ) {
memcpy(tmpkey, key, key_len);
memset(tmpkey+key_len, 0, SSL_MAX_SSL_SESSION_ID_LENGTH-key_len);
key = tmpkey;
}
/* lock cache */
shared_context_lock();
/* lookup for session */
shsess = shsess_tree_lookup(key);
if(!shsess) {
/* no session found: unlock cache and exit */
shared_context_unlock();
return NULL;
}
/* backup creation date to reset in session after ASN1 decode */
cdate = shsess->c_date;
/* copy ASN1 session data to decode outside the lock */
data_len = shsess->data_len;
memcpy(data, shsess->data, shsess->data_len);
shsess_set_active(shsess);
shared_context_unlock();
/* decode ASN1 session */
p = data;
sess = d2i_SSL_SESSION(NULL, (const unsigned char **)&p, data_len);
/* reset creation date */
if (sess)
SSL_SESSION_set_time(sess, cdate);
return sess;
}
/* SSL callback used to signal session is no more used in internal cache */
void shctx_remove_cb(SSL_CTX *ctx, SSL_SESSION *sess) {
(void)ctx;
struct shared_session *shsess;
unsigned char tmpkey[SSL_MAX_SSL_SESSION_ID_LENGTH];
unsigned char *key = sess->session_id;
/* tree key is zeros padded sessionid */
if ( sess->session_id_length < SSL_MAX_SSL_SESSION_ID_LENGTH ) {
memcpy(tmpkey, sess->session_id, sess->session_id_length);
memset(tmpkey+sess->session_id_length, 0, SSL_MAX_SSL_SESSION_ID_LENGTH-sess->session_id_length);
key = tmpkey;
}
shared_context_lock();
/* lookup for session */
shsess = shsess_tree_lookup(key);
if ( shsess ) {
shsess_set_free(shsess);
}
/* unlock cache */
shared_context_unlock();
}
/* User level function called to add a session to the cache (remote updates) */
void shctx_sess_add(const unsigned char *encsess, unsigned int len, long cdate) {
struct shared_session *shsess;
/* check buffer is at least padded key long + 1 byte
and data_len not too long */
if ( (len <= SSL_MAX_SSL_SESSION_ID_LENGTH)
|| (len > SHSESS_MAX_DATA_LEN+SSL_MAX_SSL_SESSION_ID_LENGTH) )
return;
shared_context_lock();
shsess = shsess_get_next();
shsess_tree_delete(shsess);
shsess_set_key(shsess, encsess, SSL_MAX_SSL_SESSION_ID_LENGTH);
/* it returns the already existing node or current node if none, never returns null */
shsess = shsess_tree_insert(shsess);
/* store into cache and update earlier on session get events */
if (cdate)
shsess->c_date = (long)cdate;
/* copy ASN1 session data into cache */
shsess->data_len = len-SSL_MAX_SSL_SESSION_ID_LENGTH;
memcpy(shsess->data, encsess+SSL_MAX_SSL_SESSION_ID_LENGTH, shsess->data_len);
shsess_set_active(shsess);
shared_context_unlock();
}
/* Function used to set a callback on new session creation */
void shsess_set_new_cbk(void (*func)(unsigned char *, unsigned int, long)) {
shared_session_new_cbk = func;
}
/* Init shared memory context if not allocated and set SSL context callbacks
* size is the max number of stored session
* Returns: -1 on alloc failure, size if performs context alloc, and 0 if just perform
* callbacks registration */
int shared_context_init(SSL_CTX *ctx, int size)
{
int ret = 0;
if (!shctx) {
int i;
#ifndef USE_SYSCALL_FUTEX
pthread_mutexattr_t attr;
#endif /* USE_SYSCALL_FUTEX */
struct shared_session *prev,*cur;
shctx = (struct shared_context *)mmap(NULL, sizeof(struct shared_context)+(size*sizeof(struct shared_session)),
PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANONYMOUS, -1, 0);
if (!shctx || shctx == MAP_FAILED)
return -1;
#ifdef USE_SYSCALL_FUTEX
shctx->waiters = 0;
#else
pthread_mutexattr_init(&attr);
pthread_mutexattr_setpshared(&attr, PTHREAD_PROCESS_SHARED);
pthread_mutex_init(&shctx->mutex, &attr);
#endif
memset(&shctx->active.key, 0, sizeof(struct ebmb_node));
memset(&shctx->free.key, 0, sizeof(struct ebmb_node));
/* No duplicate authorized in tree: */
shctx->active.key.node.branches.b[1] = (void *)1;
cur = &shctx->active;
cur->n = cur->p = cur;
cur = &shctx->free;
for ( i = 0 ; i < size ; i++) {
prev = cur;
cur = (struct shared_session *)((char *)prev + sizeof(struct shared_session));
prev->n = cur;
cur->p = prev;
}
cur->n = &shctx->free;
shctx->free.p = cur;
ret = size;
}
/* set SSL internal cache size to external cache / 8 + 123 */
SSL_CTX_sess_set_cache_size(ctx, size >> 3 | 0x3ff);
/* Set callbacks */
SSL_CTX_sess_set_new_cb(ctx, shctx_new_cb);
SSL_CTX_sess_set_get_cb(ctx, shctx_get_cb);
SSL_CTX_sess_set_remove_cb(ctx, shctx_remove_cb);
return ret;
}