Rev 30 | Blame | Compare with Previous | Last modification | View Log | RSS feed
/** 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.*/#ifdef HAVE_CONFIG_H#include "config.h"#endif#include <sys/types.h>#include <netinet/in.h>#include <unistd.h>#include <endian.h>#include <byteswap.h>#include <stdexcept>#if __BYTE_ORDER == __LITTLE_ENDIAN#define htonll(x) bswap_64(x)#define ntohll(x) bswap_64(x)#else#define htonll(x) x#define ntohll(x) x#endifenum TType {T_STOP = 0,T_VOID = 1,T_BOOL = 2,T_BYTE = 3,T_I08 = 3,T_I16 = 6,T_I32 = 8,T_U64 = 9,T_I64 = 10,T_DOUBLE = 4,T_STRING = 11,T_UTF7 = 11,T_STRUCT = 12,T_MAP = 13,T_SET = 14,T_LIST = 15,T_UTF8 = 16,T_UTF16 = 17};const int32_t VERSION_MASK = 0xffff0000;const int32_t VERSION_1 = 0x80010000;const int8_t T_CALL = 1;const int8_t T_REPLY = 2;const int8_t T_EXCEPTION = 3;// tprotocolexceptionconst int INVALID_DATA = 1;const int BAD_VERSION = 4;#include "php.h"#include "zend_interfaces.h"#include "zend_exceptions.h"#include "php_thrift_protocol.h"static function_entry thrift_protocol_functions[] = {PHP_FE(thrift_protocol_write_binary, NULL)PHP_FE(thrift_protocol_read_binary, NULL){NULL, NULL, NULL}} ;zend_module_entry thrift_protocol_module_entry = {STANDARD_MODULE_HEADER,"thrift_protocol",thrift_protocol_functions,NULL,NULL,NULL,NULL,NULL,"1.0",STANDARD_MODULE_PROPERTIES};#ifdef COMPILE_DL_THRIFT_PROTOCOLZEND_GET_MODULE(thrift_protocol)#endifclass PHPExceptionWrapper : public std::exception {public:PHPExceptionWrapper(zval* _ex) throw() : ex(_ex) {snprintf(_what, 40, "PHP exception zval=%p", ex);}const char* what() const throw() { return _what; }~PHPExceptionWrapper() throw() {}operator zval*() const throw() { return const_cast<zval*>(ex); } // Zend API doesn't do 'const'...protected:zval* ex;char _what[40];} ;class PHPTransport {public:zval* protocol() { return p; }zval* transport() { return t; }protected:PHPTransport() {}void construct_with_zval(zval* _p, size_t _buffer_size) {buffer = reinterpret_cast<char*>(emalloc(_buffer_size));buffer_ptr = buffer;buffer_used = 0;buffer_size = _buffer_size;p = _p;// Get the transport for the passed protocolzval gettransport;ZVAL_STRING(&gettransport, "getTransport", 0);MAKE_STD_ZVAL(t);ZVAL_NULL(t);TSRMLS_FETCH();call_user_function(EG(function_table), &p, &gettransport, t, 0, NULL TSRMLS_CC);}~PHPTransport() {efree(buffer);zval_ptr_dtor(&t);}char* buffer;char* buffer_ptr;size_t buffer_used;size_t buffer_size;zval* p;zval* t;};class PHPOutputTransport : public PHPTransport {public:PHPOutputTransport(zval* _p, size_t _buffer_size = 8192) {construct_with_zval(_p, _buffer_size);}~PHPOutputTransport() {flush();directFlush();}void write(const char* data, size_t len) {if ((len + buffer_used) > buffer_size) {flush();}if (len > buffer_size) {directWrite(data, len);} else {memcpy(buffer_ptr, data, len);buffer_used += len;buffer_ptr += len;}}void writeI64(int64_t i) {i = htonll(i);write((const char*)&i, 8);}void writeU32(uint32_t i) {i = htonl(i);write((const char*)&i, 4);}void writeI32(int32_t i) {i = htonl(i);write((const char*)&i, 4);}void writeI16(int16_t i) {i = htons(i);write((const char*)&i, 2);}void writeI8(int8_t i) {write((const char*)&i, 1);}void writeString(const char* str, size_t len) {writeU32(len);write(str, len);}void flush() {if (buffer_used) {directWrite(buffer, buffer_used);buffer_ptr = buffer;buffer_used = 0;}}protected:void directFlush() {zval ret;ZVAL_NULL(&ret);zval flushfn;ZVAL_STRING(&flushfn, "flush", 0);TSRMLS_FETCH();call_user_function(EG(function_table), &t, &flushfn, &ret, 0, NULL TSRMLS_CC);zval_dtor(&ret);}void directWrite(const char* data, size_t len) {zval writefn;ZVAL_STRING(&writefn, "write", 0);char* newbuf = (char*)emalloc(buffer_used + 1);memcpy(newbuf, buffer, buffer_used);newbuf[buffer_used] = '\0';zval *args[1];MAKE_STD_ZVAL(args[0]);ZVAL_STRINGL(args[0], newbuf, buffer_used, 0);TSRMLS_FETCH();zval ret;ZVAL_NULL(&ret);call_user_function(EG(function_table), &t, &writefn, &ret, 1, args TSRMLS_CC);zval_ptr_dtor(args);zval_dtor(&ret);if (EG(exception)) {zval* ex = EG(exception);EG(exception) = NULL;throw PHPExceptionWrapper(ex);}}};class PHPInputTransport : public PHPTransport {public:PHPInputTransport(zval* _p, size_t _buffer_size = 8192) {construct_with_zval(_p, _buffer_size);}~PHPInputTransport() {put_back();}void put_back() {if (buffer_used) {zval putbackfn;ZVAL_STRING(&putbackfn, "putBack", 0);char* newbuf = (char*)emalloc(buffer_used + 1);memcpy(newbuf, buffer_ptr, buffer_used);newbuf[buffer_used] = '\0';zval *args[1];MAKE_STD_ZVAL(args[0]);ZVAL_STRINGL(args[0], newbuf, buffer_used, 0);TSRMLS_FETCH();zval ret;ZVAL_NULL(&ret);call_user_function(EG(function_table), &t, &putbackfn, &ret, 1, args TSRMLS_CC);zval_ptr_dtor(args);zval_dtor(&ret);}buffer_used = 0;buffer_ptr = buffer;}void skip(size_t len) {while (len) {size_t chunk_size = MIN(len, buffer_used);if (chunk_size) {buffer_ptr = reinterpret_cast<char*>(buffer_ptr) + chunk_size;buffer_used -= chunk_size;len -= chunk_size;}if (! len) break;refill();}}void readBytes(void* buf, size_t len) {while (len) {size_t chunk_size = MIN(len, buffer_used);if (chunk_size) {memcpy(buf, buffer_ptr, chunk_size);buffer_ptr = reinterpret_cast<char*>(buffer_ptr) + chunk_size;buffer_used -= chunk_size;buf = reinterpret_cast<char*>(buf) + chunk_size;len -= chunk_size;}if (! len) break;refill();}}int8_t readI8() {int8_t c;readBytes(&c, 1);return c;}int16_t readI16() {int16_t c;readBytes(&c, 2);return (int16_t)ntohs(c);}uint32_t readU32() {uint32_t c;readBytes(&c, 4);return (uint32_t)ntohl(c);}int32_t readI32() {int32_t c;readBytes(&c, 4);return (int32_t)ntohl(c);}protected:void refill() {assert(buffer_used == 0);zval retval;ZVAL_NULL(&retval);zval *args[1];MAKE_STD_ZVAL(args[0]);ZVAL_LONG(args[0], buffer_size);TSRMLS_FETCH();zval funcname;ZVAL_STRING(&funcname, "read", 0);call_user_function(EG(function_table), &t, &funcname, &retval, 1, args TSRMLS_CC);zval_ptr_dtor(args);if (EG(exception)) {zval_dtor(&retval);zval* ex = EG(exception);EG(exception) = NULL;throw PHPExceptionWrapper(ex);}buffer_used = Z_STRLEN(retval);memcpy(buffer, Z_STRVAL(retval), buffer_used);zval_dtor(&retval);buffer_ptr = buffer;}};void binary_deserialize_spec(zval* zthis, PHPInputTransport& transport, HashTable* spec);void binary_serialize_spec(zval* zthis, PHPOutputTransport& transport, HashTable* spec);void binary_serialize(int8_t thrift_typeID, PHPOutputTransport& transport, zval** value, HashTable* fieldspec);void skip_element(long thrift_typeID, PHPInputTransport& transport);// Create a PHP object given a typename and call the ctor, optionally passing up to 2 argumentsvoid createObject(char* obj_typename, zval* return_value, int nargs = 0, zval* arg1 = NULL, zval* arg2 = NULL) {TSRMLS_FETCH();size_t obj_typename_len = strlen(obj_typename);zend_class_entry* ce = zend_fetch_class(obj_typename, obj_typename_len, ZEND_FETCH_CLASS_DEFAULT TSRMLS_CC);if (! ce) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "Class %s does not exist", obj_typename);RETURN_NULL();}object_and_properties_init(return_value, ce, NULL);zend_function* constructor = zend_std_get_constructor(return_value TSRMLS_CC);zval* ctor_rv = NULL;zend_call_method(&return_value, ce, &constructor, NULL, 0, &ctor_rv, nargs, arg1, arg2 TSRMLS_CC);zval_ptr_dtor(&ctor_rv);}void throw_tprotocolexception(char* what, long errorcode) {TSRMLS_FETCH();zval *zwhat, *zerrorcode;MAKE_STD_ZVAL(zwhat);MAKE_STD_ZVAL(zerrorcode);ZVAL_STRING(zwhat, what, 1);ZVAL_LONG(zerrorcode, errorcode);zval* ex;MAKE_STD_ZVAL(ex);createObject("TProtocolException", ex, 2, zwhat, zerrorcode);zval_ptr_dtor(&zwhat);zval_ptr_dtor(&zerrorcode);throw PHPExceptionWrapper(ex);}void binary_deserialize(int8_t thrift_typeID, PHPInputTransport& transport, zval* return_value, HashTable* fieldspec) {zval** val_ptr;Z_TYPE_P(return_value) = IS_NULL; // just in caseswitch (thrift_typeID) {case T_STOP:case T_VOID:RETURN_NULL();return;case T_STRUCT: {if (zend_hash_find(fieldspec, "class", 6, (void**)&val_ptr) != SUCCESS) {throw_tprotocolexception("no class type in spec", INVALID_DATA);skip_element(T_STRUCT, transport);RETURN_NULL();}char* structType = Z_STRVAL_PP(val_ptr);createObject(structType, return_value);if (Z_TYPE_P(return_value) == IS_NULL) {// unable to create class entryskip_element(T_STRUCT, transport);RETURN_NULL();}TSRMLS_FETCH();zval* spec = zend_read_static_property(zend_get_class_entry(return_value TSRMLS_CC), "_TSPEC", 6, false TSRMLS_CC);if (Z_TYPE_P(spec) != IS_ARRAY) {char errbuf[128];snprintf(errbuf, 128, "spec for %s is wrong type: %d\n", structType, Z_TYPE_P(spec));throw_tprotocolexception(errbuf, INVALID_DATA);RETURN_NULL();}binary_deserialize_spec(return_value, transport, Z_ARRVAL_P(spec));return;} break;case T_BOOL: {uint8_t c;transport.readBytes(&c, 1);RETURN_BOOL(c != 0);}//case T_I08: // same numeric value as T_BYTEcase T_BYTE: {uint8_t c;transport.readBytes(&c, 1);RETURN_LONG((int8_t)c);}case T_I16: {uint16_t c;transport.readBytes(&c, 2);RETURN_LONG((int16_t)ntohs(c));}case T_I32: {uint32_t c;transport.readBytes(&c, 4);RETURN_LONG((int32_t)ntohl(c));}case T_U64:case T_I64: {uint64_t c;transport.readBytes(&c, 8);RETURN_LONG((int64_t)ntohll(c));}case T_DOUBLE: {union {uint64_t c;double d;} a;transport.readBytes(&(a.c), 8);a.c = ntohll(a.c);RETURN_DOUBLE(a.d);}//case T_UTF7: // aliases T_STRINGcase T_UTF8:case T_UTF16:case T_STRING: {uint32_t size = transport.readU32();if (size) {char* strbuf = (char*) emalloc(size + 1);transport.readBytes(strbuf, size);strbuf[size] = '\0';ZVAL_STRINGL(return_value, strbuf, size, 0);} else {ZVAL_EMPTY_STRING(return_value);}return;}case T_MAP: { // array of key -> valueuint8_t types[2];transport.readBytes(types, 2);uint32_t size = transport.readU32();array_init(return_value);zend_hash_find(fieldspec, "key", 4, (void**)&val_ptr);HashTable* keyspec = Z_ARRVAL_PP(val_ptr);zend_hash_find(fieldspec, "val", 4, (void**)&val_ptr);HashTable* valspec = Z_ARRVAL_PP(val_ptr);for (uint32_t s = 0; s < size; ++s) {zval *value;MAKE_STD_ZVAL(value);zval* key;MAKE_STD_ZVAL(key);binary_deserialize(types[0], transport, key, keyspec);binary_deserialize(types[1], transport, value, valspec);if (Z_TYPE_P(key) == IS_LONG) {zend_hash_index_update(return_value->value.ht, Z_LVAL_P(key), &value, sizeof(zval *), NULL);}else {if (Z_TYPE_P(key) != IS_STRING) convert_to_string(key);zend_hash_update(return_value->value.ht, Z_STRVAL_P(key), Z_STRLEN_P(key) + 1, &value, sizeof(zval *), NULL);}zval_ptr_dtor(&key);}return; // return_value already populated}case T_LIST: { // array with autogenerated numeric keysint8_t type = transport.readI8();uint32_t size = transport.readU32();zend_hash_find(fieldspec, "elem", 5, (void**)&val_ptr);HashTable* elemspec = Z_ARRVAL_PP(val_ptr);array_init(return_value);for (uint32_t s = 0; s < size; ++s) {zval *value;MAKE_STD_ZVAL(value);binary_deserialize(type, transport, value, elemspec);zend_hash_next_index_insert(return_value->value.ht, &value, sizeof(zval *), NULL);}return;}case T_SET: { // array of key -> TRUEuint8_t type;uint32_t size;transport.readBytes(&type, 1);transport.readBytes(&size, 4);size = ntohl(size);zend_hash_find(fieldspec, "elem", 5, (void**)&val_ptr);HashTable* elemspec = Z_ARRVAL_PP(val_ptr);array_init(return_value);for (uint32_t s = 0; s < size; ++s) {zval* key;zval* value;MAKE_STD_ZVAL(key);MAKE_STD_ZVAL(value);ZVAL_TRUE(value);binary_deserialize(type, transport, key, elemspec);if (Z_TYPE_P(key) == IS_LONG) {zend_hash_index_update(return_value->value.ht, Z_LVAL_P(key), &value, sizeof(zval *), NULL);}else {if (Z_TYPE_P(key) != IS_STRING) convert_to_string(key);zend_hash_update(return_value->value.ht, Z_STRVAL_P(key), Z_STRLEN_P(key) + 1, &value, sizeof(zval *), NULL);}zval_ptr_dtor(&key);}return;}};char errbuf[128];sprintf(errbuf, "Unknown thrift typeID %d", thrift_typeID);throw_tprotocolexception(errbuf, INVALID_DATA);}void skip_element(long thrift_typeID, PHPInputTransport& transport) {switch (thrift_typeID) {case T_STOP:case T_VOID:return;case T_STRUCT:while (true) {int8_t ttype = transport.readI8(); // get field typeif (ttype == T_STOP) break;transport.skip(2); // skip field number, I16skip_element(ttype, transport); // skip field payload}return;case T_BOOL:case T_BYTE:transport.skip(1);return;case T_I16:transport.skip(2);return;case T_I32:transport.skip(4);return;case T_U64:case T_I64:case T_DOUBLE:transport.skip(8);return;//case T_UTF7: // aliases T_STRINGcase T_UTF8:case T_UTF16:case T_STRING: {uint32_t len = transport.readU32();transport.skip(len);} return;case T_MAP: {int8_t keytype = transport.readI8();int8_t valtype = transport.readI8();uint32_t size = transport.readU32();for (uint32_t i = 0; i < size; ++i) {skip_element(keytype, transport);skip_element(valtype, transport);}} return;case T_LIST:case T_SET: {int8_t valtype = transport.readI8();uint32_t size = transport.readU32();for (uint32_t i = 0; i < size; ++i) {skip_element(valtype, transport);}} return;};char errbuf[128];sprintf(errbuf, "Unknown thrift typeID %ld", thrift_typeID);throw_tprotocolexception(errbuf, INVALID_DATA);}void binary_serialize_hashtable_key(int8_t keytype, PHPOutputTransport& transport, HashTable* ht, HashPosition& ht_pos) {bool keytype_is_numeric = (!((keytype == T_STRING) || (keytype == T_UTF8) || (keytype == T_UTF16)));char* key;uint key_len;long index = 0;zval* z;MAKE_STD_ZVAL(z);int res = zend_hash_get_current_key_ex(ht, &key, &key_len, (ulong*)&index, 0, &ht_pos);if (keytype_is_numeric) {if (res == HASH_KEY_IS_STRING) {index = strtol(key, NULL, 10);}ZVAL_LONG(z, index);} else {char buf[64];if (res == HASH_KEY_IS_STRING) {key_len -= 1; // skip the null terminator} else {sprintf(buf, "%ld", index);key = buf; key_len = strlen(buf);}ZVAL_STRINGL(z, key, key_len, 1);}binary_serialize(keytype, transport, &z, NULL);zval_ptr_dtor(&z);}inline bool ttype_is_int(int8_t t) {return ((t == T_BYTE) || ((t >= T_I16) && (t <= T_I64)));}inline bool ttypes_are_compatible(int8_t t1, int8_t t2) {// Integer types of different widths are considered compatible;// otherwise the typeID must match.return ((t1 == t2) || (ttype_is_int(t1) && ttype_is_int(t2)));}void binary_deserialize_spec(zval* zthis, PHPInputTransport& transport, HashTable* spec) {// SET and LIST have 'elem' => array('type', [optional] 'class')// MAP has 'val' => array('type', [optiona] 'class')TSRMLS_FETCH();zend_class_entry* ce = zend_get_class_entry(zthis TSRMLS_CC);while (true) {zval** val_ptr = NULL;int8_t ttype = transport.readI8();if (ttype == T_STOP) return;int16_t fieldno = transport.readI16();if (zend_hash_index_find(spec, fieldno, (void**)&val_ptr) == SUCCESS) {HashTable* fieldspec = Z_ARRVAL_PP(val_ptr);// pull the field name// zend hash tables use the null at the end in the length... so strlen(hash key) + 1.zend_hash_find(fieldspec, "var", 4, (void**)&val_ptr);char* varname = Z_STRVAL_PP(val_ptr);// and the typezend_hash_find(fieldspec, "type", 5, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);int8_t expected_ttype = Z_LVAL_PP(val_ptr);if (ttypes_are_compatible(ttype, expected_ttype)) {zval* rv = NULL;MAKE_STD_ZVAL(rv);binary_deserialize(ttype, transport, rv, fieldspec);zend_update_property(ce, zthis, varname, strlen(varname), rv TSRMLS_CC);zval_ptr_dtor(&rv);} else {skip_element(ttype, transport);}} else {skip_element(ttype, transport);}}}void binary_serialize(int8_t thrift_typeID, PHPOutputTransport& transport, zval** value, HashTable* fieldspec) {// At this point the typeID (and field num, if applicable) should've already been written to the output so all we need to do is write the payload.switch (thrift_typeID) {case T_STOP:case T_VOID:return;case T_STRUCT: {TSRMLS_FETCH();if (Z_TYPE_PP(value) != IS_OBJECT) {throw_tprotocolexception("Attempt to send non-object type as a T_STRUCT", INVALID_DATA);}zval* spec = zend_read_static_property(zend_get_class_entry(*value TSRMLS_CC), "_TSPEC", 6, false TSRMLS_CC);if (Z_TYPE_P(spec) != IS_ARRAY) {throw_tprotocolexception("Attempt to send non-Thrift object as a T_STRUCT", INVALID_DATA);}binary_serialize_spec(*value, transport, Z_ARRVAL_P(spec));} return;case T_BOOL:if (Z_TYPE_PP(value) != IS_BOOL) convert_to_boolean(*value);transport.writeI8(Z_BVAL_PP(value) ? 1 : 0);return;case T_BYTE:if (Z_TYPE_PP(value) != IS_LONG) convert_to_long(*value);transport.writeI8(Z_LVAL_PP(value));return;case T_I16:if (Z_TYPE_PP(value) != IS_LONG) convert_to_long(*value);transport.writeI16(Z_LVAL_PP(value));return;case T_I32:if (Z_TYPE_PP(value) != IS_LONG) convert_to_long(*value);transport.writeI32(Z_LVAL_PP(value));return;case T_I64:case T_U64:if (Z_TYPE_PP(value) != IS_LONG) convert_to_long(*value);transport.writeI64(Z_LVAL_PP(value));return;case T_DOUBLE: {union {int64_t c;double d;} a;if (Z_TYPE_PP(value) != IS_DOUBLE) convert_to_double(*value);a.d = Z_DVAL_PP(value);transport.writeI64(a.c);} return;//case T_UTF7:case T_UTF8:case T_UTF16:case T_STRING:if (Z_TYPE_PP(value) != IS_STRING) convert_to_string(*value);transport.writeString(Z_STRVAL_PP(value), Z_STRLEN_PP(value));return;case T_MAP: {if (Z_TYPE_PP(value) != IS_ARRAY) convert_to_array(*value);if (Z_TYPE_PP(value) != IS_ARRAY) {throw_tprotocolexception("Attempt to send an incompatible type as an array (T_MAP)", INVALID_DATA);}HashTable* ht = Z_ARRVAL_PP(value);zval** val_ptr;zend_hash_find(fieldspec, "ktype", 6, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);uint8_t keytype = Z_LVAL_PP(val_ptr);transport.writeI8(keytype);zend_hash_find(fieldspec, "vtype", 6, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);uint8_t valtype = Z_LVAL_PP(val_ptr);transport.writeI8(valtype);zend_hash_find(fieldspec, "val", 4, (void**)&val_ptr);HashTable* valspec = Z_ARRVAL_PP(val_ptr);transport.writeI32(zend_hash_num_elements(ht));HashPosition key_ptr;for (zend_hash_internal_pointer_reset_ex(ht, &key_ptr); zend_hash_get_current_data_ex(ht, (void**)&val_ptr, &key_ptr) == SUCCESS; zend_hash_move_forward_ex(ht, &key_ptr)) {binary_serialize_hashtable_key(keytype, transport, ht, key_ptr);binary_serialize(valtype, transport, val_ptr, valspec);}} return;case T_LIST: {if (Z_TYPE_PP(value) != IS_ARRAY) convert_to_array(*value);if (Z_TYPE_PP(value) != IS_ARRAY) {throw_tprotocolexception("Attempt to send an incompatible type as an array (T_LIST)", INVALID_DATA);}HashTable* ht = Z_ARRVAL_PP(value);zval** val_ptr;zend_hash_find(fieldspec, "etype", 6, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);uint8_t valtype = Z_LVAL_PP(val_ptr);transport.writeI8(valtype);zend_hash_find(fieldspec, "elem", 5, (void**)&val_ptr);HashTable* valspec = Z_ARRVAL_PP(val_ptr);transport.writeI32(zend_hash_num_elements(ht));HashPosition key_ptr;for (zend_hash_internal_pointer_reset_ex(ht, &key_ptr); zend_hash_get_current_data_ex(ht, (void**)&val_ptr, &key_ptr) == SUCCESS; zend_hash_move_forward_ex(ht, &key_ptr)) {binary_serialize(valtype, transport, val_ptr, valspec);}} return;case T_SET: {if (Z_TYPE_PP(value) != IS_ARRAY) convert_to_array(*value);if (Z_TYPE_PP(value) != IS_ARRAY) {throw_tprotocolexception("Attempt to send an incompatible type as an array (T_SET)", INVALID_DATA);}HashTable* ht = Z_ARRVAL_PP(value);zval** val_ptr;zend_hash_find(fieldspec, "etype", 6, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);uint8_t keytype = Z_LVAL_PP(val_ptr);transport.writeI8(keytype);transport.writeI32(zend_hash_num_elements(ht));HashPosition key_ptr;for (zend_hash_internal_pointer_reset_ex(ht, &key_ptr); zend_hash_get_current_data_ex(ht, (void**)&val_ptr, &key_ptr) == SUCCESS; zend_hash_move_forward_ex(ht, &key_ptr)) {binary_serialize_hashtable_key(keytype, transport, ht, key_ptr);}} return;};char errbuf[128];sprintf(errbuf, "Unknown thrift typeID %d", thrift_typeID);throw_tprotocolexception(errbuf, INVALID_DATA);}void binary_serialize_spec(zval* zthis, PHPOutputTransport& transport, HashTable* spec) {HashPosition key_ptr;zval** val_ptr;TSRMLS_FETCH();zend_class_entry* ce = zend_get_class_entry(zthis TSRMLS_CC);for (zend_hash_internal_pointer_reset_ex(spec, &key_ptr); zend_hash_get_current_data_ex(spec, (void**)&val_ptr, &key_ptr) == SUCCESS; zend_hash_move_forward_ex(spec, &key_ptr)) {ulong fieldno;if (zend_hash_get_current_key_ex(spec, NULL, NULL, &fieldno, 0, &key_ptr) != HASH_KEY_IS_LONG) {throw_tprotocolexception("Bad keytype in TSPEC (expected 'long')", INVALID_DATA);return;}HashTable* fieldspec = Z_ARRVAL_PP(val_ptr);// field namezend_hash_find(fieldspec, "var", 4, (void**)&val_ptr);char* varname = Z_STRVAL_PP(val_ptr);// thrift typezend_hash_find(fieldspec, "type", 5, (void**)&val_ptr);if (Z_TYPE_PP(val_ptr) != IS_LONG) convert_to_long(*val_ptr);int8_t ttype = Z_LVAL_PP(val_ptr);zval* prop = zend_read_property(ce, zthis, varname, strlen(varname), false TSRMLS_CC);if (Z_TYPE_P(prop) != IS_NULL) {transport.writeI8(ttype);transport.writeI16(fieldno);binary_serialize(ttype, transport, &prop, fieldspec);}}transport.writeI8(T_STOP); // struct end}// 6 params: $transport $method_name $ttype $request_struct $seqID $strict_writePHP_FUNCTION(thrift_protocol_write_binary) {int argc = ZEND_NUM_ARGS();if (argc < 6) {WRONG_PARAM_COUNT;}zval ***args = (zval***) emalloc(argc * sizeof(zval**));zend_get_parameters_array_ex(argc, args);if (Z_TYPE_PP(args[0]) != IS_OBJECT) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "1st parameter is not an object (transport)");efree(args);RETURN_NULL();}if (Z_TYPE_PP(args[1]) != IS_STRING) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "2nd parameter is not a string (method name)");efree(args);RETURN_NULL();}if (Z_TYPE_PP(args[3]) != IS_OBJECT) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "4th parameter is not an object (request struct)");efree(args);RETURN_NULL();}PHPOutputTransport transport(*args[0]);const char* method_name = Z_STRVAL_PP(args[1]);convert_to_long(*args[2]);int32_t msgtype = Z_LVAL_PP(args[2]);zval* request_struct = *args[3];convert_to_long(*args[4]);int32_t seqID = Z_LVAL_PP(args[4]);convert_to_boolean(*args[5]);bool strictWrite = Z_BVAL_PP(args[5]);efree(args);args = NULL;try {if (strictWrite) {int32_t version = VERSION_1 | msgtype;transport.writeI32(version);transport.writeString(method_name, strlen(method_name));transport.writeI32(seqID);} else {transport.writeString(method_name, strlen(method_name));transport.writeI8(msgtype);transport.writeI32(seqID);}zval* spec = zend_read_static_property(zend_get_class_entry(request_struct TSRMLS_CC), "_TSPEC", 6, false TSRMLS_CC);if (Z_TYPE_P(spec) != IS_ARRAY) {throw_tprotocolexception("Attempt to send non-Thrift object", INVALID_DATA);}binary_serialize_spec(request_struct, transport, Z_ARRVAL_P(spec));} catch (const PHPExceptionWrapper& ex) {zend_throw_exception_object(ex TSRMLS_CC);RETURN_NULL();}}// 3 params: $transport $response_Typename $strict_readPHP_FUNCTION(thrift_protocol_read_binary) {int argc = ZEND_NUM_ARGS();if (argc < 3) {WRONG_PARAM_COUNT;}zval ***args = (zval***) emalloc(argc * sizeof(zval**));zend_get_parameters_array_ex(argc, args);if (Z_TYPE_PP(args[0]) != IS_OBJECT) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "1st parameter is not an object (transport)");efree(args);RETURN_NULL();}if (Z_TYPE_PP(args[1]) != IS_STRING) {php_error_docref(NULL TSRMLS_CC, E_ERROR, "2nd parameter is not a string (typename of expected response struct)");efree(args);RETURN_NULL();}PHPInputTransport transport(*args[0]);char* obj_typename = Z_STRVAL_PP(args[1]);convert_to_boolean(*args[2]);bool strict_read = Z_BVAL_PP(args[2]);efree(args);args = NULL;try {int8_t messageType = 0;int32_t sz = transport.readI32();if (sz < 0) {// Check for correct version numberint32_t version = sz & VERSION_MASK;if (version != VERSION_1) {throw_tprotocolexception("Bad version identifier", BAD_VERSION);}messageType = (sz & 0x000000ff);int32_t namelen = transport.readI32();// skip the name string and the sequence ID, we don't care about thosetransport.skip(namelen + 4);} else {if (strict_read) {throw_tprotocolexception("No version identifier... old protocol client in strict mode?", BAD_VERSION);} else {// Handle pre-versioned inputtransport.skip(sz); // skip string bodymessageType = transport.readI8();transport.skip(4); // skip sequence number}}if (messageType == T_EXCEPTION) {zval* ex;MAKE_STD_ZVAL(ex);createObject("TApplicationException", ex);zval* spec = zend_read_static_property(zend_get_class_entry(ex TSRMLS_CC), "_TSPEC", 6, false TSRMLS_CC);binary_deserialize_spec(ex, transport, Z_ARRVAL_P(spec));throw PHPExceptionWrapper(ex);}createObject(obj_typename, return_value);zval* spec = zend_read_static_property(zend_get_class_entry(return_value TSRMLS_CC), "_TSPEC", 6, false TSRMLS_CC);binary_deserialize_spec(return_value, transport, Z_ARRVAL_P(spec));} catch (const PHPExceptionWrapper& ex) {zend_throw_exception_object(ex TSRMLS_CC);RETURN_NULL();}}