system: Linux mars.sprixweb.com 3.10.0-1160.119.1.el7.x86_64 #1 SMP Tue Jun 4 14:43:51 UTC 2024 x86_64
dnl {{{ === program start ========================================
divert(0)
#include <string.h>
#include <stdio.h>
#include "php.h"
#include "zend_extensions.h"
#include "zend_compile.h"
#include "zend_API.h"
#include "zend_ini.h"
/* export: #include "xcache.h" :export */
#include "xcache.h"
/* export: #include "mod_cacher/xc_cache.h" :export */
#include "mod_cacher/xc_cache.h"
/* export: #include "xcache/xc_shm.h" :export */
#include "xcache/xc_shm.h"
/* export: #include "xcache/xc_allocator.h" :export */
#include "xcache/xc_allocator.h"
#include "xcache/xc_const_string.h"
#include "xcache/xc_utils.h"
#include "util/xc_align.h"
#include "xc_processor.h"
#include "xcache_globals.h"
#if defined(HARDENING_PATCH_HASH_PROTECT) && HARDENING_PATCH_HASH_PROTECT
extern unsigned int zend_hash_canary;
#endif
define(`SIZEOF_zend_uint', `sizeof(zend_uint)')
define(`COUNTOF_zend_uint', `1')
define(`SIZEOF_int', `sizeof(int)')
define(`COUNTOF_int', `1')
define(`SIZEOF_zend_function', `sizeof(zend_function)')
define(`COUNTOF_zend_function', `1')
define(`SIZEOF_zval_ptr', `sizeof(zval_ptr)')
define(`COUNTOF_zval_ptr', `1')
define(`SIZEOF_zval_ptr_nullable', `sizeof(zval_ptr_nullable)')
define(`COUNTOF_zval_ptr_nullable', `1')
define(`SIZEOF_zend_trait_alias_ptr', `sizeof(zend_trait_alias)')
define(`COUNTOF_zend_trait_alias_ptr', `1')
define(`SIZEOF_zend_trait_precedence_ptr', `sizeof(zend_trait_precedence)')
define(`COUNTOF_zend_trait_precedence_ptr', `1')
define(`SIZEOF_xc_entry_name_t', `sizeof(xc_entry_name_t)')
define(`COUNTOF_xc_entry_name_t', `1')
define(`SIZEOF_xc_ztstring', `sizeof(xc_ztstring)')
define(`COUNTOF_xc_ztstring', `1')
ifdef(`XCACHE_ENABLE_TEST', `
#undef NDEBUG
#include <assert.h>
m4_errprint(`AUTOCHECK INFO: runtime autocheck Enabled (debug build)')
', `
m4_errprint(`AUTOCHECK INFO: runtime autocheck Disabled (optimized build)')
')
ifdef(`DEBUG_SIZE', `static int xc_totalsize = 0;')
sinclude(builddir`/structinfo.m4')
#ifndef NDEBUG
# undef inline
#define inline
#endif
typedef zval *zval_ptr;
typedef zval *zval_ptr_nullable;
typedef char *xc_ztstring;
#ifdef ZEND_ENGINE_2_4
typedef zend_trait_alias *zend_trait_alias_ptr;
typedef zend_trait_precedence *zend_trait_precedence_ptr;
#endif
#ifdef ZEND_ENGINE_2_3
typedef int last_brk_cont_t;
#else
typedef zend_uint last_brk_cont_t;
#endif
typedef zend_uchar xc_zval_type_t;
typedef int xc_op_type;
typedef zend_uchar xc_opcode;
#ifdef IS_UNICODE
typedef UChar zstr_uchar;
#endif
typedef char zstr_char;
#define MAX_DUP_STR_LEN 256
dnl }}}
/* export: typedef struct _xc_processor_t xc_processor_t; :export {{{ */
struct _xc_processor_t {
char *p;
size_t size;
HashTable strings;
HashTable zvalptrs;
zend_bool reference; /* enable if to deal with reference */
zend_bool have_references;
const xc_entry_php_t *entry_php_src;
const xc_entry_php_t *entry_php_dst;
const xc_entry_data_php_t *php_src;
const xc_entry_data_php_t *php_dst;
xc_shm_t *shm;
xc_allocator_t *allocator;
const zend_class_entry *cache_ce;
zend_ulong cache_class_index;
const zend_op_array *active_op_array_src;
zend_op_array *active_op_array_dst;
const zend_class_entry *active_class_entry_src;
zend_class_entry *active_class_entry_dst;
zend_uint active_class_index;
zend_uint active_op_array_index;
const xc_op_array_info_t *active_op_array_infos_src;
zend_bool readonly_protection; /* wheather it's present */
IFAUTOCHECK(xc_stack_t allocsizes;)
};
/* }}} */
/* export: typedef struct _xc_dasm_t { const zend_op_array *active_op_array_src; } xc_dasm_t; :export {{{ */
/* }}} */
/* {{{ memsetptr */
IFAUTOCHECK(`dnl
static void *memsetptr(void *mem, void *content, size_t n)
{
void **p = (void **) mem;
void **end = (void **) ((char *) mem + n);
while (p < end - sizeof(content)) {
*p = content;
p += sizeof(content);
}
if (p < end) {
memset(p, -1, end - p);
}
return mem;
}
')
/* }}} */
#ifdef HAVE_XCACHE_DPRINT
static void xc_dprint_indent(int indent) /* {{{ */
{
int i;
for (i = 0; i < indent; i ++) {
fprintf(stderr, " ");
}
}
/* }}} */
static void xc_dprint_str_len(const char *str, int len) /* {{{ */
{
const unsigned char *p = (const unsigned char *) str;
int i;
for (i = 0; i < len; i ++) {
if (p[i] < 32 || p[i] == 127) {
fprintf(stderr, "\\%03o", (unsigned int) p[i]);
}
else {
fputc(p[i], stderr);
}
}
}
/* }}} */
#endif
/* {{{ xc_zstrlen_char */
static inline size_t xc_zstrlen_char(const_zstr s)
{
return strlen(ZSTR_S(s));
}
/* }}} */
#ifdef IS_UNICODE
/* {{{ xc_zstrlen_uchar */
static inline size_t xc_zstrlen_uchar(zstr s)
{
return u_strlen(ZSTR_U(s));
}
/* }}} */
/* {{{ xc_zstrlen */
static inline size_t xc_zstrlen(int type, const_zstr s)
{
return type == IS_UNICODE ? xc_zstrlen_uchar(s) : xc_zstrlen_char(s);
}
/* }}} */
#else
/* {{{ xc_zstrlen */
#define xc_zstrlen(dummy, s) xc_zstrlen_char(s)
/* }}} */
#endif
/* {{{ xc_calc_string_n */
REDEF(`PROCESSOR_TYPE', `calc')
#undef C_RELAYLINE
#define C_RELAYLINE
IFAUTOCHECK(`
#undef C_RELAYLINE
#define C_RELAYLINE , __LINE__
')
static inline void xc_calc_string_n(xc_processor_t *processor, zend_uchar type, const_zstr str, long size IFAUTOCHECK(`, int relayline')) {
pushdef(`__LINE__', `relayline')
size_t realsize = UNISW(size, (type == IS_UNICODE) ? UBYTES(size) : size);
long dummy = 1;
if (realsize > MAX_DUP_STR_LEN) {
ALLOC(, char, realsize)
}
else if (zend_u_hash_add(&processor->strings, type, str, (uint) size, (void *) &dummy, sizeof(dummy), NULL) == SUCCESS) {
/* new string */
ALLOC(, char, realsize)
}
IFAUTOCHECK(`
else {
dnl fprintf(stderr, "dupstr %s\n", ZSTR_S(str));
}
')
popdef(`__LINE__')
}
/* }}} */
/* {{{ xc_store_string_n */
REDEF(`PROCESSOR_TYPE', `store')
static inline zstr xc_store_string_n(xc_processor_t *processor, zend_uchar type, const_zstr str, long size IFAUTOCHECK(`, int relayline')) {
pushdef(`__LINE__', `relayline')
size_t realsize = UNISW(size, (type == IS_UNICODE) ? UBYTES(size) : size);
zstr ret, *pret;
if (realsize > MAX_DUP_STR_LEN) {
ALLOC(ZSTR_V(ret), char, realsize)
memcpy(ZSTR_V(ret), ZSTR_V(str), realsize);
return ret;
}
if (zend_u_hash_find(&processor->strings, type, str, (uint) size, (void **) &pret) == SUCCESS) {
return *pret;
}
/* new string */
ALLOC(ZSTR_V(ret), char, realsize)
memcpy(ZSTR_V(ret), ZSTR_V(str), realsize);
zend_u_hash_add(&processor->strings, type, str, (uint) size, (void *) &ret, sizeof(zstr), NULL);
return ret;
popdef(`__LINE__')
}
/* }}} */
/* {{{ xc_get_class_num
* return class_index + 1
*/
static zend_ulong xc_get_class_num(xc_processor_t *processor, zend_class_entry *ce) {
zend_uint i;
const xc_entry_data_php_t *php = processor->php_src;
zend_class_entry *ceptr;
if (processor->cache_ce == ce) {
return processor->cache_class_index + 1;
}
for (i = 0; i < php->classinfo_cnt; i ++) {
ceptr = CestToCePtr(php->classinfos[i].cest);
if (ZCEP_REFCOUNT_PTR(ceptr) == ZCEP_REFCOUNT_PTR(ce)) {
processor->cache_ce = ceptr;
processor->cache_class_index = i;
return i + 1;
}
}
assert(0);
return (zend_ulong) -1;
}
define(`xc_get_class_num', `xc_get_class_numNOTDEFINED')
/* }}} */
/* {{{ xc_get_class */
#ifdef ZEND_ENGINE_2
static zend_class_entry *xc_get_class(xc_processor_t *processor, zend_ulong class_num) {
/* must be parent or currrent class */
assert(class_num <= processor->active_class_index + 1);
return CestToCePtr(processor->php_dst->classinfos[class_num - 1].cest);
}
#endif
define(`xc_get_class', `xc_get_classNOTDEFINED')
/* }}} */
#ifdef ZEND_ENGINE_2
/* fix method on store */
static void xc_fix_method(xc_processor_t *processor, zend_op_array *dst TSRMLS_DC) /* {{{ */
{
zend_function *zf = (zend_function *) dst;
zend_class_entry *ce = processor->active_class_entry_dst;
const zend_class_entry *srcce = processor->active_class_entry_src;
/* Fixing up the default functions for objects here since
* we need to compare with the newly allocated functions
*
* caveat: a sub-class method can have the same name as the
* parent~s constructor and create problems.
*/
if (zf->common.fn_flags & ZEND_ACC_CTOR) {
if (!ce->constructor) {
ce->constructor = zf;
}
}
else if (zf->common.fn_flags & ZEND_ACC_DTOR) {
ce->destructor = zf;
}
else if (zf->common.fn_flags & ZEND_ACC_CLONE) {
ce->clone = zf;
}
else {
pushdef(`SET_IF_SAME_NAMEs', `
SET_IF_SAME_NAME(__get);
SET_IF_SAME_NAME(__set);
#ifdef ZEND_ENGINE_2_1
SET_IF_SAME_NAME(__unset);
SET_IF_SAME_NAME(__isset);
#endif
SET_IF_SAME_NAME(__call);
#ifdef ZEND_CALLSTATIC_FUNC_NAME
SET_IF_SAME_NAME(__callstatic);
#endif
#if defined(ZEND_ENGINE_2_2) || PHP_MAJOR_VERSION >= 6
SET_IF_SAME_NAME(__tostring);
#endif
#if defined(ZEND_ENGINE_2_6)
SET_IF_SAME_NAME(__debugInfo);
#endif
')
#ifdef IS_UNICODE
if (UG(unicode)) {
#define SET_IF_SAME_NAME(member) \
do { \
if (srcce->member && u_strcmp(ZSTR_U(zf->common.function_name), ZSTR_U(srcce->member->common.function_name)) == 0) { \
ce->member = zf; \
} \
} \
while(0)
SET_IF_SAME_NAMEs()
#undef SET_IF_SAME_NAME
}
else
#endif
do {
#define SET_IF_SAME_NAME(member) \
do { \
if (srcce->member && strcmp(ZSTR_S(zf->common.function_name), ZSTR_S(srcce->member->common.function_name)) == 0) { \
ce->member = zf; \
} \
} \
while(0)
SET_IF_SAME_NAMEs()
#undef SET_IF_SAME_NAME
} while (0);
popdef(`SET_IF_SAME_NAMEs')
}
}
/* }}} */
#endif
/* {{{ call op_array ctor handler */
extern zend_bool xc_have_op_array_ctor;
static void xc_zend_extension_op_array_ctor_handler(zend_extension *extension, zend_op_array *op_array TSRMLS_DC)
{
if (extension->op_array_ctor) {
extension->op_array_ctor(op_array);
}
}
/* }}} */
/* {{{ field name checker */
IFAUTOCHECK(`dnl
static int xc_check_names(const char *file, int line, const char *functionName, const char **assert_names, size_t assert_names_count, HashTable *done_names)
{
int errors = 0;
if (assert_names_count) {
size_t i;
Bucket *b;
for (i = 0; i < assert_names_count; ++i) {
if (!zend_u_hash_exists(done_names, IS_STRING, assert_names[i], (uint) strlen(assert_names[i]) + 1)) {
fprintf(stderr
, "Error: missing field at %s `#'%d %s`' : %s\n"
, file, line, functionName
, assert_names[i]
);
++errors;
}
}
for (b = done_names->pListHead; b != NULL; b = b->pListNext) {
int known = 0;
for (i = 0; i < assert_names_count; ++i) {
if (strcmp(assert_names[i], BUCKET_KEY_S(b)) == 0) {
known = 1;
break;
}
}
if (!known) {
fprintf(stderr
, "Error: unknown field at %s `#'%d %s`' : %s\n"
, file, line, functionName
, BUCKET_KEY_S(b)
);
++errors;
}
}
}
return errors;
}
')
/* }}} */
dnl ================ export API
define(`DEFINE_STORE_API', `
/* export: $1 *xc_processor_store_$1(xc_shm_t *shm, xc_allocator_t *allocator, $1 *src TSRMLS_DC); :export {{{ */
$1 *xc_processor_store_$1(xc_shm_t *shm, xc_allocator_t *allocator, $1 *src TSRMLS_DC) {
$1 *dst;
xc_processor_t processor;
memset(&processor, 0, sizeof(processor));
processor.reference = 1;
processor.shm = shm;
processor.allocator = allocator;
IFAUTOCHECK(`xc_stack_init(&processor.allocsizes);')
/* calc size */ {
zend_hash_init(&processor.strings, 0, NULL, NULL, 0);
if (processor.reference) {
zend_hash_init(&processor.zvalptrs, 0, NULL, NULL, 0);
}
processor.size = 0;
/* allocate */
processor.size = ALIGN(processor.size + sizeof(src[0]));
xc_calc_$1(&processor, src TSRMLS_CC);
if (processor.reference) {
zend_hash_destroy(&processor.zvalptrs);
}
zend_hash_destroy(&processor.strings);
}
ifelse(
`$1', `xc_entry_data_php_t', `SRC(`size')',
`', `', SRC(`entry.size')) = processor.size;
ifelse(
`$1', `xc_entry_var_t', `SRC(`have_references') = processor.have_references;',
`$1', `xc_entry_data_php_t', `SRC(`have_references') = processor.have_references;'
)
IFAUTOCHECK(`xc_stack_reverse(&processor.allocsizes);')
/* store {{{ */
{
IFAUTOCHECK(`char *oldp;')
zend_hash_init(&processor.strings, 0, NULL, NULL, 0);
if (processor.reference) {
zend_hash_init(&processor.zvalptrs, 0, NULL, NULL, 0);
}
/* allocator :) */
processor.p = (char *) processor.allocator->vtable->malloc(processor.allocator, processor.size);
if (processor.p == NULL) {
dst = NULL;
goto err_alloc;
}
IFAUTOCHECK(`oldp = processor.p;')
assert(processor.p == (char *) ALIGN(processor.p));
/* allocate */
dst = ($1 *) processor.p;
processor.p = (char *) ALIGN(processor.p + sizeof(dst[0]));
xc_store_$1(&processor, dst, src TSRMLS_CC);
IFAUTOCHECK(` {
size_t unexpected = processor.p - oldp;
size_t expected = processor.size;
if (unexpected != processor.size) {
fprintf(stderr, "unexpected:%lu - expected:%lu = %ld != 0\n", (unsigned long) unexpected, (unsigned long) expected, (long) unexpected - expected);
abort();
}
}')
err_alloc:
if (processor.reference) {
zend_hash_destroy(&processor.zvalptrs);
}
zend_hash_destroy(&processor.strings);
}
/* }}} */
IFAUTOCHECK(`xc_stack_destroy(&processor.allocsizes);')
return dst;
}
/* }}} */
')
DEFINE_STORE_API(`xc_entry_var_t')
DEFINE_STORE_API(`xc_entry_php_t')
DEFINE_STORE_API(`xc_entry_data_php_t')
/* export: xc_entry_php_t *xc_processor_restore_xc_entry_php_t(xc_entry_php_t *dst, const xc_entry_php_t *src TSRMLS_DC); :export {{{ */
xc_entry_php_t *xc_processor_restore_xc_entry_php_t(xc_entry_php_t *dst, const xc_entry_php_t *src TSRMLS_DC) {
xc_processor_t processor;
memset(&processor, 0, sizeof(processor));
xc_restore_xc_entry_php_t(&processor, dst, src TSRMLS_CC);
return dst;
}
/* }}} */
/* export: xc_entry_data_php_t *xc_processor_restore_xc_entry_data_php_t(const xc_entry_php_t *entry_php, xc_entry_data_php_t *dst, const xc_entry_data_php_t *src, zend_bool readonly_protection TSRMLS_DC); :export {{{ */
xc_entry_data_php_t *xc_processor_restore_xc_entry_data_php_t(const xc_entry_php_t *entry_php, xc_entry_data_php_t *dst, const xc_entry_data_php_t *src, zend_bool readonly_protection TSRMLS_DC) {
xc_processor_t processor;
memset(&processor, 0, sizeof(processor));
processor.readonly_protection = readonly_protection;
/* this function is used for php data only */
if (SRC(`have_references')) {
processor.reference = 1;
}
processor.entry_php_src = entry_php;
if (processor.reference) {
zend_hash_init(&processor.zvalptrs, 0, NULL, NULL, 0);
}
xc_restore_xc_entry_data_php_t(&processor, dst, src TSRMLS_CC);
if (processor.reference) {
zend_hash_destroy(&processor.zvalptrs);
}
return dst;
}
/* }}} */
/* export: xc_entry_var_t *xc_processor_restore_xc_entry_var_t(xc_entry_var_t *dst, const xc_entry_var_t *src TSRMLS_DC); :export {{{ */
xc_entry_var_t *xc_processor_restore_xc_entry_var_t(xc_entry_var_t *dst, const xc_entry_var_t *src TSRMLS_DC) {
xc_processor_t processor;
memset(&processor, 0, sizeof(processor));
xc_restore_xc_entry_var_t(&processor, dst, src TSRMLS_CC);
return dst;
}
/* }}} */
/* export: zval *xc_processor_restore_zval(zval *dst, const zval *src, zend_bool have_references TSRMLS_DC); :export {{{ */
zval *xc_processor_restore_zval(zval *dst, const zval *src, zend_bool have_references TSRMLS_DC) {
xc_processor_t processor;
memset(&processor, 0, sizeof(processor));
processor.reference = have_references;
if (processor.reference) {
zend_hash_init(&processor.zvalptrs, 0, NULL, NULL, 0);
dnl fprintf(stderr, "mark[%p] = %p\n", src, dst);
zend_hash_add(&processor.zvalptrs, (char *)src, sizeof(src), (void*)&dst, sizeof(dst), NULL);
}
xc_restore_zval(&processor, dst, src TSRMLS_CC);
if (processor.reference) {
zend_hash_destroy(&processor.zvalptrs);
}
return dst;
}
/* }}} */
/* export: void xc_dprint(xc_entry_php_t *src, int indent TSRMLS_DC); :export {{{ */
#ifdef HAVE_XCACHE_DPRINT
void xc_dprint(xc_entry_php_t *src, int indent TSRMLS_DC) {
IFDPRINT(`INDENT()`'fprintf(stderr, "xc_entry_php_t:src");')
xc_dprint_xc_entry_php_t(src, indent TSRMLS_CC);
}
#endif
/* }}} */