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|
/*
+----------------------------------------------------------------------+
| Zend OPcache |
+----------------------------------------------------------------------+
| Copyright (c) The PHP Group |
+----------------------------------------------------------------------+
| This source file is subject to version 3.01 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available through the world-wide-web at the following url: |
| http://www.php.net/license/3_01.txt |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
| Authors: Andi Gutmans <andi@php.net> |
| Zeev Suraski <zeev@php.net> |
| Stanislav Malyshev <stas@zend.com> |
| Dmitry Stogov <dmitry@php.net> |
+----------------------------------------------------------------------+
*/
#include <errno.h>
#include "ZendAccelerator.h"
#include "zend_shared_alloc.h"
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
#include <fcntl.h>
#ifndef ZEND_WIN32
# include <sys/types.h>
# include <signal.h>
# include <sys/stat.h>
# include <stdio.h>
#endif
#ifdef HAVE_MPROTECT
# include "sys/mman.h"
#endif
#define SEM_FILENAME_PREFIX ".ZendSem."
#define S_H(s) g_shared_alloc_handler->s
/* True globals */
/* old/new mapping. We can use true global even for ZTS because its usage
is wrapped with exclusive lock anyway */
static const zend_shared_memory_handlers *g_shared_alloc_handler = NULL;
static const char *g_shared_model;
/* pointer to globals allocated in SHM and shared across processes */
zend_smm_shared_globals *smm_shared_globals;
#ifndef ZEND_WIN32
#ifdef ZTS
static MUTEX_T zts_lock;
#endif
int lock_file;
static char lockfile_name[MAXPATHLEN];
#endif
static const zend_shared_memory_handler_entry handler_table[] = {
#ifdef USE_MMAP
{ "mmap", &zend_alloc_mmap_handlers },
#endif
#ifdef USE_SHM
{ "shm", &zend_alloc_shm_handlers },
#endif
#ifdef USE_SHM_OPEN
{ "posix", &zend_alloc_posix_handlers },
#endif
#ifdef ZEND_WIN32
{ "win32", &zend_alloc_win32_handlers },
#endif
{ NULL, NULL}
};
#ifndef ZEND_WIN32
void zend_shared_alloc_create_lock(char *lockfile_path)
{
int val;
#ifdef ZTS
zts_lock = tsrm_mutex_alloc();
#endif
snprintf(lockfile_name, sizeof(lockfile_name), "%s/%sXXXXXX", lockfile_path, SEM_FILENAME_PREFIX);
lock_file = mkstemp(lockfile_name);
fchmod(lock_file, 0666);
if (lock_file == -1) {
zend_accel_error(ACCEL_LOG_FATAL, "Unable to create lock file: %s (%d)", strerror(errno), errno);
}
val = fcntl(lock_file, F_GETFD, 0);
val |= FD_CLOEXEC;
fcntl(lock_file, F_SETFD, val);
unlink(lockfile_name);
}
#endif
static void no_memory_bailout(size_t allocate_size, char *error)
{
zend_accel_error(ACCEL_LOG_FATAL, "Unable to allocate shared memory segment of %zu bytes: %s: %s (%d)", allocate_size, error?error:"unknown", strerror(errno), errno );
}
static void copy_shared_segments(void *to, void *from, int count, int size)
{
zend_shared_segment **shared_segments_v = (zend_shared_segment **)to;
void *shared_segments_to_p = ((char *)to + count*(sizeof(void *)));
void *shared_segments_from_p = from;
int i;
for (i = 0; i < count; i++) {
shared_segments_v[i] = shared_segments_to_p;
memcpy(shared_segments_to_p, shared_segments_from_p, size);
shared_segments_to_p = ((char *)shared_segments_to_p + size);
shared_segments_from_p = ((char *)shared_segments_from_p + size);
}
}
static int zend_shared_alloc_try(const zend_shared_memory_handler_entry *he, size_t requested_size, zend_shared_segment ***shared_segments_p, int *shared_segments_count, char **error_in)
{
int res;
g_shared_alloc_handler = he->handler;
g_shared_model = he->name;
ZSMMG(shared_segments) = NULL;
ZSMMG(shared_segments_count) = 0;
res = S_H(create_segments)(requested_size, shared_segments_p, shared_segments_count, error_in);
if (res) {
/* this model works! */
return res;
}
if (*shared_segments_p) {
int i;
/* cleanup */
for (i = 0; i < *shared_segments_count; i++) {
if ((*shared_segments_p)[i]->p && (*shared_segments_p)[i]->p != (void *)-1) {
S_H(detach_segment)((*shared_segments_p)[i]);
}
}
free(*shared_segments_p);
*shared_segments_p = NULL;
}
g_shared_alloc_handler = NULL;
return ALLOC_FAILURE;
}
int zend_shared_alloc_startup(size_t requested_size)
{
zend_shared_segment **tmp_shared_segments;
size_t shared_segments_array_size;
zend_smm_shared_globals tmp_shared_globals, *p_tmp_shared_globals;
char *error_in = NULL;
const zend_shared_memory_handler_entry *he;
int res = ALLOC_FAILURE;
/* shared_free must be valid before we call zend_shared_alloc()
* - make it temporarily point to a local variable
*/
smm_shared_globals = &tmp_shared_globals;
ZSMMG(shared_free) = requested_size; /* goes to tmp_shared_globals.shared_free */
#ifndef ZEND_WIN32
zend_shared_alloc_create_lock(ZCG(accel_directives).lockfile_path);
#else
zend_shared_alloc_create_lock();
#endif
if (ZCG(accel_directives).memory_model && ZCG(accel_directives).memory_model[0]) {
char *model = ZCG(accel_directives).memory_model;
/* "cgi" is really "shm"... */
if (strncmp(ZCG(accel_directives).memory_model, "cgi", sizeof("cgi")) == 0) {
model = "shm";
}
for (he = handler_table; he->name; he++) {
if (strcmp(model, he->name) == 0) {
res = zend_shared_alloc_try(he, requested_size, &ZSMMG(shared_segments), &ZSMMG(shared_segments_count), &error_in);
if (res) {
/* this model works! */
}
break;
}
}
}
if (res == FAILED_REATTACHED) {
smm_shared_globals = NULL;
return res;
}
#if ENABLE_FILE_CACHE_FALLBACK
if (ALLOC_FALLBACK == res) {
return ALLOC_FALLBACK;
}
#endif
if (!g_shared_alloc_handler) {
/* try memory handlers in order */
for (he = handler_table; he->name; he++) {
res = zend_shared_alloc_try(he, requested_size, &ZSMMG(shared_segments), &ZSMMG(shared_segments_count), &error_in);
if (res) {
/* this model works! */
break;
}
}
}
if (!g_shared_alloc_handler) {
no_memory_bailout(requested_size, error_in);
return ALLOC_FAILURE;
}
if (res == SUCCESSFULLY_REATTACHED) {
return res;
}
#if ENABLE_FILE_CACHE_FALLBACK
if (ALLOC_FALLBACK == res) {
return ALLOC_FALLBACK;
}
#endif
shared_segments_array_size = ZSMMG(shared_segments_count) * S_H(segment_type_size)();
/* move shared_segments and shared_free to shared memory */
ZCG(locked) = 1; /* no need to perform a real lock at this point */
p_tmp_shared_globals = (zend_smm_shared_globals *) zend_shared_alloc(sizeof(zend_smm_shared_globals));
if (!p_tmp_shared_globals) {
zend_accel_error(ACCEL_LOG_FATAL, "Insufficient shared memory!");
return ALLOC_FAILURE;
}
memset(p_tmp_shared_globals, 0, sizeof(zend_smm_shared_globals));
tmp_shared_segments = zend_shared_alloc(shared_segments_array_size + ZSMMG(shared_segments_count) * sizeof(void *));
if (!tmp_shared_segments) {
zend_accel_error(ACCEL_LOG_FATAL, "Insufficient shared memory!");
return ALLOC_FAILURE;
}
copy_shared_segments(tmp_shared_segments, ZSMMG(shared_segments)[0], ZSMMG(shared_segments_count), S_H(segment_type_size)());
*p_tmp_shared_globals = tmp_shared_globals;
smm_shared_globals = p_tmp_shared_globals;
free(ZSMMG(shared_segments));
ZSMMG(shared_segments) = tmp_shared_segments;
ZSMMG(shared_memory_state).positions = (int *)zend_shared_alloc(sizeof(int) * ZSMMG(shared_segments_count));
if (!ZSMMG(shared_memory_state).positions) {
zend_accel_error(ACCEL_LOG_FATAL, "Insufficient shared memory!");
return ALLOC_FAILURE;
}
ZCG(locked) = 0;
return res;
}
void zend_shared_alloc_shutdown(void)
{
zend_shared_segment **tmp_shared_segments;
zend_shared_segment *shared_segments_buf[16];
size_t shared_segments_array_size;
zend_smm_shared_globals tmp_shared_globals;
int i;
tmp_shared_globals = *smm_shared_globals;
smm_shared_globals = &tmp_shared_globals;
shared_segments_array_size = ZSMMG(shared_segments_count) * (S_H(segment_type_size)() + sizeof(void *));
if (shared_segments_array_size > 16) {
tmp_shared_segments = malloc(shared_segments_array_size);
} else {
tmp_shared_segments = shared_segments_buf;
}
copy_shared_segments(tmp_shared_segments, ZSMMG(shared_segments)[0], ZSMMG(shared_segments_count), S_H(segment_type_size)());
ZSMMG(shared_segments) = tmp_shared_segments;
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
S_H(detach_segment)(ZSMMG(shared_segments)[i]);
}
if (shared_segments_array_size > 16) {
free(ZSMMG(shared_segments));
}
ZSMMG(shared_segments) = NULL;
g_shared_alloc_handler = NULL;
#ifndef ZEND_WIN32
close(lock_file);
# ifdef ZTS
tsrm_mutex_free(zts_lock);
# endif
#endif
}
static size_t zend_shared_alloc_get_largest_free_block(void)
{
int i;
size_t largest_block_size = 0;
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
size_t block_size = ZSMMG(shared_segments)[i]->size - ZSMMG(shared_segments)[i]->pos;
if (block_size>largest_block_size) {
largest_block_size = block_size;
}
}
return largest_block_size;
}
#define MIN_FREE_MEMORY 64*1024
#define SHARED_ALLOC_FAILED() do { \
zend_accel_error(ACCEL_LOG_WARNING, "Not enough free shared space to allocate "ZEND_LONG_FMT" bytes ("ZEND_LONG_FMT" bytes free)", (zend_long)size, (zend_long)ZSMMG(shared_free)); \
if (zend_shared_alloc_get_largest_free_block() < MIN_FREE_MEMORY) { \
ZSMMG(memory_exhausted) = 1; \
} \
} while (0)
void *zend_shared_alloc(size_t size)
{
int i;
unsigned int block_size = ZEND_ALIGNED_SIZE(size);
#if 1
if (!ZCG(locked)) {
zend_accel_error(ACCEL_LOG_ERROR, "Shared memory lock not obtained");
}
#endif
if (block_size > ZSMMG(shared_free)) { /* No hope to find a big-enough block */
SHARED_ALLOC_FAILED();
return NULL;
}
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
if (ZSMMG(shared_segments)[i]->size - ZSMMG(shared_segments)[i]->pos >= block_size) { /* found a valid block */
void *retval = (void *) (((char *) ZSMMG(shared_segments)[i]->p) + ZSMMG(shared_segments)[i]->pos);
ZSMMG(shared_segments)[i]->pos += block_size;
ZSMMG(shared_free) -= block_size;
ZEND_ASSERT(((zend_uintptr_t)retval & 0x7) == 0); /* should be 8 byte aligned */
return retval;
}
}
SHARED_ALLOC_FAILED();
return NULL;
}
int zend_shared_memdup_size(void *source, size_t size)
{
void *old_p;
zend_ulong key = (zend_ulong)source;
key = (key >> 3) | (key << ((sizeof(key) * 8) - 3)); /* key = _rotr(key, 3);*/
if ((old_p = zend_hash_index_find_ptr(&ZCG(xlat_table), key)) != NULL) {
/* we already duplicated this pointer */
return 0;
}
zend_hash_index_add_new_ptr(&ZCG(xlat_table), key, source);
return ZEND_ALIGNED_SIZE(size);
}
static zend_always_inline void *_zend_shared_memdup(void *source, size_t size, zend_bool arena, zend_bool get_xlat, zend_bool set_xlat, zend_bool free_source)
{
void *old_p, *retval;
zend_ulong key;
if (get_xlat) {
key = (zend_ulong)source;
key = (key >> 3) | (key << ((sizeof(key) * 8) - 3)); /* key = _rotr(key, 3);*/
if ((old_p = zend_hash_index_find_ptr(&ZCG(xlat_table), key)) != NULL) {
/* we already duplicated this pointer */
return old_p;
}
}
if (arena) {
retval = ZCG(arena_mem);
ZCG(arena_mem) = (void*)(((char*)ZCG(arena_mem)) + ZEND_ALIGNED_SIZE(size));
} else {
retval = ZCG(mem);
ZCG(mem) = (void*)(((char*)ZCG(mem)) + ZEND_ALIGNED_SIZE(size));
}
memcpy(retval, source, size);
if (set_xlat) {
if (!get_xlat) {
key = (zend_ulong)source;
key = (key >> 3) | (key << ((sizeof(key) * 8) - 3)); /* key = _rotr(key, 3);*/
}
zend_hash_index_add_new_ptr(&ZCG(xlat_table), key, retval);
}
if (free_source) {
efree(source);
}
return retval;
}
void *zend_shared_memdup_get_put_free(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 1, 1, 1);
}
void *zend_shared_memdup_put_free(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 0, 1, 1);
}
void *zend_shared_memdup_free(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 0, 0, 1);
}
void *zend_shared_memdup_get_put(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 1, 1, 0);
}
void *zend_shared_memdup_put(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 0, 1, 0);
}
void *zend_shared_memdup(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 0, 0, 0, 0);
}
void *zend_shared_memdup_arena_put(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 1, 0, 1, 0);
}
void *zend_shared_memdup_arena(void *source, size_t size)
{
return _zend_shared_memdup(source, size, 1, 0, 0, 0);
}
void zend_shared_alloc_safe_unlock(void)
{
if (ZCG(locked)) {
zend_shared_alloc_unlock();
}
}
void zend_shared_alloc_lock(void)
{
#ifndef ZEND_WIN32
struct flock mem_write_lock;
mem_write_lock.l_type = F_WRLCK;
mem_write_lock.l_whence = SEEK_SET;
mem_write_lock.l_start = 0;
mem_write_lock.l_len = 1;
#ifdef ZTS
tsrm_mutex_lock(zts_lock);
#endif
#if 0
/* this will happen once per process, and will un-globalize mem_write_lock */
if (mem_write_lock.l_pid == -1) {
mem_write_lock.l_pid = getpid();
}
#endif
while (1) {
if (fcntl(lock_file, F_SETLKW, &mem_write_lock) == -1) {
if (errno == EINTR) {
continue;
}
zend_accel_error(ACCEL_LOG_ERROR, "Cannot create lock - %s (%d)", strerror(errno), errno);
}
break;
}
#else
zend_shared_alloc_lock_win32();
#endif
ZCG(locked) = 1;
}
void zend_shared_alloc_unlock(void)
{
#ifndef ZEND_WIN32
struct flock mem_write_unlock;
mem_write_unlock.l_type = F_UNLCK;
mem_write_unlock.l_whence = SEEK_SET;
mem_write_unlock.l_start = 0;
mem_write_unlock.l_len = 1;
#endif
ZCG(locked) = 0;
#ifndef ZEND_WIN32
if (fcntl(lock_file, F_SETLK, &mem_write_unlock) == -1) {
zend_accel_error(ACCEL_LOG_ERROR, "Cannot remove lock - %s (%d)", strerror(errno), errno);
}
#ifdef ZTS
tsrm_mutex_unlock(zts_lock);
#endif
#else
zend_shared_alloc_unlock_win32();
#endif
}
void zend_shared_alloc_init_xlat_table(void)
{
/* Prepare translation table */
zend_hash_init(&ZCG(xlat_table), 128, NULL, NULL, 0);
}
void zend_shared_alloc_destroy_xlat_table(void)
{
/* Destroy translation table */
zend_hash_destroy(&ZCG(xlat_table));
}
void zend_shared_alloc_clear_xlat_table(void)
{
zend_hash_clean(&ZCG(xlat_table));
}
uint32_t zend_shared_alloc_checkpoint_xlat_table(void)
{
return ZCG(xlat_table).nNumUsed;
}
void zend_shared_alloc_restore_xlat_table(uint32_t checkpoint)
{
zend_hash_discard(&ZCG(xlat_table), checkpoint);
}
void zend_shared_alloc_register_xlat_entry(const void *old, const void *new)
{
zend_ulong key = (zend_ulong)old;
key = (key >> 3) | (key << ((sizeof(key) * 8) - 3)); /* key = _rotr(key, 3);*/
zend_hash_index_add_new_ptr(&ZCG(xlat_table), key, (void*)new);
}
void *zend_shared_alloc_get_xlat_entry(const void *old)
{
void *retval;
zend_ulong key = (zend_ulong)old;
key = (key >> 3) | (key << ((sizeof(key) * 8) - 3)); /* key = _rotr(key, 3);*/
if ((retval = zend_hash_index_find_ptr(&ZCG(xlat_table), key)) == NULL) {
return NULL;
}
return retval;
}
size_t zend_shared_alloc_get_free_memory(void)
{
return ZSMMG(shared_free);
}
void zend_shared_alloc_save_state(void)
{
int i;
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
ZSMMG(shared_memory_state).positions[i] = ZSMMG(shared_segments)[i]->pos;
}
ZSMMG(shared_memory_state).shared_free = ZSMMG(shared_free);
}
void zend_shared_alloc_restore_state(void)
{
int i;
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
ZSMMG(shared_segments)[i]->pos = ZSMMG(shared_memory_state).positions[i];
}
ZSMMG(shared_free) = ZSMMG(shared_memory_state).shared_free;
ZSMMG(memory_exhausted) = 0;
ZSMMG(wasted_shared_memory) = 0;
}
const char *zend_accel_get_shared_model(void)
{
return g_shared_model;
}
void zend_accel_shared_protect(int mode)
{
#ifdef HAVE_MPROTECT
int i;
if (!smm_shared_globals) {
return;
}
if (mode) {
mode = PROT_READ;
} else {
mode = PROT_READ|PROT_WRITE;
}
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
mprotect(ZSMMG(shared_segments)[i]->p, ZSMMG(shared_segments)[i]->size, mode);
}
#elif defined(ZEND_WIN32)
int i;
if (!smm_shared_globals) {
return;
}
if (mode) {
mode = PAGE_READONLY;
} else {
mode = PAGE_READWRITE;
}
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
DWORD oldProtect;
if (!VirtualProtect(ZSMMG(shared_segments)[i]->p, ZSMMG(shared_segments)[i]->size, mode, &oldProtect)) {
zend_accel_error(ACCEL_LOG_ERROR, "Failed to protect memory");
}
}
#endif
}
int zend_accel_in_shm(void *ptr)
{
int i;
if (!smm_shared_globals) {
return 0;
}
for (i = 0; i < ZSMMG(shared_segments_count); i++) {
if ((char*)ptr >= (char*)ZSMMG(shared_segments)[i]->p &&
(char*)ptr < (char*)ZSMMG(shared_segments)[i]->p + ZSMMG(shared_segments)[i]->size) {
return 1;
}
}
return 0;
}
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