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Direktori : /proc/self/root/opt/cloudlinux/alt-php81/root/usr/include/php/ext/swoole/ext-src/ |
Current File : //proc/self/root/opt/cloudlinux/alt-php81/root/usr/include/php/ext/swoole/ext-src/php_swoole_cxx.h |
/* +----------------------------------------------------------------------+ | Swoole | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the Apache 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.apache.org/licenses/LICENSE-2.0.html | | If you did not receive a copy of the Apache2.0 license and are unable| | to obtain it through the world-wide-web, please send a note to | | license@swoole.com so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Tianfeng Han <mikan.tenny@gmail.com> | +----------------------------------------------------------------------+ */ #pragma once #include "php_swoole_private.h" #include "php_swoole_coroutine.h" #include "swoole_util.h" #include <string> // clang-format off //----------------------------------Swoole known string------------------------------------ #define SW_ZEND_KNOWN_STRINGS(_) \ _(SW_ZEND_STR_TYPE, "type") \ _(SW_ZEND_STR_HOST, "host") \ _(SW_ZEND_STR_PORT, "port") \ _(SW_ZEND_STR_SETTING, "setting") \ _(SW_ZEND_STR_ID, "id") \ _(SW_ZEND_STR_FD, "fd") \ _(SW_ZEND_STR_SOCK, "sock") \ _(SW_ZEND_STR_PIPE, "pipe") \ _(SW_ZEND_STR_HEADERS, "headers") \ _(SW_ZEND_STR_SET_COOKIE_HEADERS, "set_cookie_headers") \ _(SW_ZEND_STR_REQUEST_METHOD, "requestMethod") \ _(SW_ZEND_STR_REQUEST_HEADERS, "requestHeaders") \ _(SW_ZEND_STR_REQUEST_BODY, "requestBody") \ _(SW_ZEND_STR_UPLOAD_FILES, "uploadFiles") \ _(SW_ZEND_STR_COOKIES, "cookies") \ _(SW_ZEND_STR_DOWNLOAD_FILE, "downloadFile") \ _(SW_ZEND_STR_DOWNLOAD_OFFSET, "downloadOffset") \ _(SW_ZEND_STR_TMPFILES, "tmpfiles") \ _(SW_ZEND_STR_HEADER, "header") \ _(SW_ZEND_STR_COOKIE, "cookie") \ _(SW_ZEND_STR_METHOD, "method") \ _(SW_ZEND_STR_PATH, "path") \ _(SW_ZEND_STR_DATA, "data") \ _(SW_ZEND_STR_PIPELINE, "pipeline") \ _(SW_ZEND_STR_USE_PIPELINE_READ, "usePipelineRead") \ _(SW_ZEND_STR_TRAILER, "trailer") \ _(SW_ZEND_STR_MASTER_PID, "master_pid") \ _(SW_ZEND_STR_CALLBACK, "callback") \ _(SW_ZEND_STR_VALUE, "value") \ _(SW_ZEND_STR_KEY, "key") \ _(SW_ZEND_STR_OPCODE, "opcode") \ _(SW_ZEND_STR_CODE, "code") \ _(SW_ZEND_STR_REASON, "reason") \ _(SW_ZEND_STR_FLAGS, "flags") \ _(SW_ZEND_STR_FINISH, "finish") \ typedef enum sw_zend_known_string_id { #define _SW_ZEND_STR_ID(id, str) id, SW_ZEND_KNOWN_STRINGS(_SW_ZEND_STR_ID) #undef _SW_ZEND_STR_ID SW_ZEND_STR_LAST_KNOWN } sw_zend_known_string_id; // clang-format on #define SW_ZSTR_KNOWN(idx) sw_zend_known_strings[idx] extern zend_string **sw_zend_known_strings; //----------------------------------Swoole known string------------------------------------ #define SW_SET_CLASS_CREATE_WITH_ITS_OWN_HANDLERS(module) \ module##_ce->create_object = [](zend_class_entry *ce) { return sw_zend_create_object(ce, &module##_handlers); } SW_API bool php_swoole_is_enable_coroutine(); SW_API zend_object *php_swoole_create_socket_from_fd(int fd, enum swSocketType type); SW_API bool php_swoole_export_socket(zval *zobject, swoole::coroutine::Socket *_socket); SW_API zend_object *php_swoole_dup_socket(int fd, enum swSocketType type); SW_API void php_swoole_init_socket_object(zval *zobject, swoole::coroutine::Socket *socket); SW_API swoole::coroutine::Socket *php_swoole_get_socket(zval *zobject); #ifdef SW_USE_OPENSSL SW_API bool php_swoole_socket_set_ssl(swoole::coroutine::Socket *sock, zval *zset); #endif SW_API bool php_swoole_socket_set_protocol(swoole::coroutine::Socket *sock, zval *zset); SW_API bool php_swoole_client_set(swoole::coroutine::Socket *cli, zval *zset); SW_API php_stream *php_swoole_create_stream_from_socket(php_socket_t _fd, int domain, int type, int protocol STREAMS_DC); SW_API php_stream_ops *php_swoole_get_ori_php_stream_stdio_ops(); SW_API void php_swoole_register_rshutdown_callback(swoole::Callback cb, void *private_data); // timer SW_API bool php_swoole_timer_clear(swoole::TimerNode *tnode); SW_API bool php_swoole_timer_clear_all(); static inline bool php_swoole_is_fatal_error() { if (PG(last_error_message)) { switch (PG(last_error_type)) { case E_ERROR: case E_CORE_ERROR: case E_USER_ERROR: case E_COMPILE_ERROR: return true; default: break; } } return false; } ssize_t php_swoole_length_func(swoole::Protocol *protocol, swoole::network::Socket *_socket, const char *data, uint32_t length); #ifdef SW_HAVE_ZLIB #define php_swoole_websocket_frame_pack php_swoole_websocket_frame_pack_ex #define php_swoole_websocket_frame_object_pack php_swoole_websocket_frame_object_pack_ex #else #define php_swoole_websocket_frame_pack(buffer, zdata, opcode, flags, mask, allow_compress) \ php_swoole_websocket_frame_pack_ex(buffer, zdata, opcode, flags, mask, 0) #define php_swoole_websocket_frame_object_pack(buffer, zdata, mask, allow_compress) \ php_swoole_websocket_frame_object_pack_ex(buffer, zdata, mask, 0) #endif int php_swoole_websocket_frame_pack_ex( swoole::String *buffer, zval *zdata, zend_long opcode, uint8_t flags, zend_bool mask, zend_bool allow_compress); int php_swoole_websocket_frame_object_pack_ex(swoole::String *buffer, zval *zdata, zend_bool mask, zend_bool allow_compress); void php_swoole_websocket_frame_unpack(swoole::String *data, zval *zframe); void php_swoole_websocket_frame_unpack_ex(swoole::String *data, zval *zframe, uchar allow_uncompress); swoole::TaskId php_swoole_task_pack(swoole::EventData *task, zval *data); zval *php_swoole_task_unpack(swoole::EventData *task_result); #ifdef SW_HAVE_ZLIB int php_swoole_zlib_decompress(z_stream *stream, swoole::String *buffer, char *body, int length); #endif const swoole::Allocator *sw_php_allocator(); const swoole::Allocator *sw_zend_string_allocator(); namespace zend { //-----------------------------------namespace begin-------------------------------------------- class String { public: String() { str = nullptr; } String(const char *_str, size_t len) { str = zend_string_init(_str, len, 0); } String(const std::string &_str) { str = zend_string_init(_str.c_str(), _str.length(), 0); } String(zval *v) { str = zval_get_string(v); } String(zend_string *v, bool copy) { if (copy) { str = zend_string_copy(v); } else { str = v; } } String(const String &o) { str = zend_string_copy(o.str); } String(String &&o) { str = o.str; o.str = nullptr; } void operator=(zval *v) { if (str) { zend_string_release(str); } str = zval_get_string(v); } String &operator=(String &&o) { str = o.str; o.str = nullptr; return *this; } String &operator=(const String &o) { str = zend_string_copy(o.str); return *this; } inline char *val() { return ZSTR_VAL(str); } inline size_t len() { return ZSTR_LEN(str); } inline zend_string *get() { return str; } void rtrim() { ZSTR_LEN(str) = swoole::rtrim(val(), len()); } inline const std::string to_std_string() { return std::string(val(), len()); } inline char *dup() { return sw_likely(len() > 0) ? sw_strndup(val(), len()) : nullptr; } inline char *edup() { return sw_likely(len() > 0) ? estrndup(val(), len()) : nullptr; } inline void release() { if (str) { zend_string_release(str); str = nullptr; } } ~String() { release(); } private: zend_string *str; }; class KeyValue { public: zend_ulong index; zend_string *key; zval zvalue; KeyValue(zend_ulong _index, zend_string *_key, zval *_zvalue) { index = _index; key = _key ? zend_string_copy(_key) : nullptr; ZVAL_DEREF(_zvalue); zvalue = *_zvalue; Z_TRY_ADDREF(zvalue); } inline void add_to(zval *zarray) { HashTable *ht = Z_ARRVAL_P(zarray); zval *dest_elem = !key ? zend_hash_index_update(ht, index, &zvalue) : zend_hash_update(ht, key, &zvalue); Z_TRY_ADDREF_P(dest_elem); } ~KeyValue() { if (key) { zend_string_release(key); } zval_ptr_dtor(&zvalue); } }; class ArrayIterator { public: ArrayIterator(Bucket *p) { _ptr = p; _key = _ptr->key; _val = &_ptr->val; _index = _ptr->h; pe = p; } ArrayIterator(Bucket *p, Bucket *_pe) { _ptr = p; _key = _ptr->key; _val = &_ptr->val; _index = _ptr->h; pe = _pe; skipUndefBucket(); } void operator++(int i) { ++_ptr; skipUndefBucket(); } bool operator!=(ArrayIterator b) { return b.ptr() != _ptr; } std::string key() { return std::string(_key->val, _key->len); } zend_ulong index() { return _index; } zval *value() { return _val; } Bucket *ptr() { return _ptr; } private: void skipUndefBucket() { while (_ptr != pe) { _val = &_ptr->val; if (_val && Z_TYPE_P(_val) == IS_INDIRECT) { _val = Z_INDIRECT_P(_val); } if (UNEXPECTED(Z_TYPE_P(_val) == IS_UNDEF)) { ++_ptr; continue; } if (_ptr->key) { _key = _ptr->key; _index = 0; } else { _index = _ptr->h; _key = nullptr; } break; } } zval *_val; zend_string *_key; Bucket *_ptr; Bucket *pe; zend_ulong _index; }; class Array { public: zval *arr; Array(zval *_arr) { assert(Z_TYPE_P(_arr) == IS_ARRAY); arr = _arr; } inline size_t count() { return zend_hash_num_elements(Z_ARRVAL_P(arr)); } inline bool set(zend_ulong index, zval *value) { return add_index_zval(arr, index, value) == SUCCESS; } inline bool append(zval *value) { return add_next_index_zval(arr, value) == SUCCESS; } inline bool set(zend_ulong index, zend_resource *res) { zval tmp; ZVAL_RES(&tmp, res); return set(index, &tmp); } ArrayIterator begin() { return ArrayIterator(Z_ARRVAL_P(arr)->arData, Z_ARRVAL_P(arr)->arData + Z_ARRVAL_P(arr)->nNumUsed); } ArrayIterator end() { return ArrayIterator(Z_ARRVAL_P(arr)->arData + Z_ARRVAL_P(arr)->nNumUsed); } }; enum PipeType { PIPE_TYPE_NONE = 0, PIPE_TYPE_STREAM = 1, PIPE_TYPE_DGRAM = 2, }; class Process { public: zend_object *zsocket = nullptr; enum PipeType pipe_type; bool enable_coroutine; Process(enum PipeType pipe_type, bool enable_coroutine) : pipe_type(pipe_type), enable_coroutine(enable_coroutine) {} ~Process() { if (zsocket) { OBJ_RELEASE(zsocket); } } }; namespace function { /* must use this API to call event callbacks to ensure that exceptions are handled correctly */ bool call(zend_fcall_info_cache *fci_cache, uint32_t argc, zval *argv, zval *retval, const bool enable_coroutine); class ReturnValue { public: zval value; ReturnValue() { value = {}; } ~ReturnValue() { zval_dtor(&value); } }; ReturnValue call(const std::string &func_name, int argc, zval *argv); } // namespace function struct Function { zend_fcall_info fci; zend_fcall_info_cache fci_cache; inline bool call(zval *retval, const bool enable_coroutine) { return function::call(&fci_cache, fci.param_count, fci.params, retval, enable_coroutine); } }; bool eval(const std::string &code, const std::string &filename = ""); void known_strings_init(void); void known_strings_dtor(void); void unserialize(zval *return_value, const char *buf, size_t buf_len, HashTable *options); #ifdef SW_USE_JSON void json_decode(zval *return_value, const char *str, size_t str_len, zend_long options, zend_long zend_long); #endif static inline zend_string *fetch_zend_string_by_val(void *val) { return (zend_string *) ((char *) val - XtOffsetOf(zend_string, val)); } static inline void assign_zend_string_by_val(zval *zdata, char *addr, size_t length) { zend_string *zstr = fetch_zend_string_by_val(addr); addr[length] = 0; zstr->len = length; ZVAL_STR(zdata, zstr); } #if PHP_VERSION_ID < 80000 #define ZEND_STR_CONST #else #define ZEND_STR_CONST const #endif //-----------------------------------namespace end-------------------------------------------- } // namespace zend