08b2ab22f4
* Include the source location in Closure names This change makes stack traces involving Closures, especially multiple different Closures, much more useful, because it's more easily visible *which* closure was called for a given stack frame. The implementation is similar to that of anonymous classes which already include the file name and line number within their generated classname. * Update scripts/dev/bless_tests.php for closure naming * Adjust existing tests for closure naming * Adjust tests for closure naming that were not caught locally * Drop the namespace from closure names This is redundant with the included filename. * Include filename and line number as separate keys in Closure debug info * Fix test * Fix test * Include the surrounding class and function name in closure names * Fix test * Relax test expecations * Fix tests after merge * NEWS / UPGRADING
Zend Engine
Zend memory manager
General
The goal of the new memory manager (available since PHP 5.2) is to reduce memory allocation overhead and speedup memory management.
Debugging
Normal:
sapi/cli/php -r 'leak();'
Zend MM disabled:
USE_ZEND_ALLOC=0 valgrind --leak-check=full sapi/cli/php -r 'leak();'
Shared extensions
Since PHP 5.3.11 it is possible to prevent shared extensions from unloading so
that valgrind can correctly track the memory leaks in shared extensions. For
this there is the ZEND_DONT_UNLOAD_MODULES environment variable. If set, then
DL_UNLOAD() is skipped during the shutdown of shared extensions.
ZEND_VM
ZEND_VM architecture allows specializing opcode handlers according to
op_type fields and using different execution methods (call threading, switch
threading and direct threading). As a result ZE2 got more than 20% speedup on
raw PHP code execution (with specialized executor and direct threading execution
method). As in most PHP applications raw execution speed isn't the limiting
factor but system calls and database calls are, your mileage with this patch
will vary.
Most parts of the old zend_execute.c go into zend_vm_def.h. Here you can find
opcode handlers and helpers. The typical opcode handler template looks like
this:
ZEND_VM_HANDLER(<OPCODE-NUMBER>, <OPCODE>, <OP1_TYPES>, <OP2_TYPES>)
{
<HANDLER'S CODE>
}
<OPCODE-NUMBER> is a opcode number (0, 1, ...)
<OPCODE> is an opcode name (ZEN_NOP, ZEND_ADD, :)
<OP1_TYPES> and <OP2_TYPES> are masks for allowed operand op_types.
Specializer will generate code only for defined combination of types. You can
use any combination of the following op_types UNUSED, CONST, VAR, TMP and CV
also you can use ANY mask to disable specialization according operand's op_type.
<HANDLER'S CODE> is a handler's code itself. For most handlers it stills the
same as in old zend_execute.c, but now it uses macros to access opcode
operands and some internal executor data.
You can see the conformity of new macros to old code in the following list:
EXECUTE_DATA
execute_data
ZEND_VM_DISPATCH_TO_HANDLER(<OP>)
return <OP>_helper(ZEND_OPCODE_HANDLER_ARGS_PASSTHRU)
ZEND_VM_DISPATCH_TO_HELPER(<NAME>)
return <NAME>(ZEND_OPCODE_HANDLER_ARGS_PASSTHRU)
ZEND_VM_DISPATCH_TO_HELPER_EX(<NAME>,<PARAM>,<VAL>)
return <NAME>(<VAL>, ZEND_OPCODE_HANDLER_ARGS_PASSTHRU)
ZEND_VM_CONTINUE()
return 0
ZEND_VM_NEXT_OPCODE()
NEXT_OPCODE()
ZEND_VM_SET_OPCODE(<TARGET>
SET_OPCODE(<TARGET>
ZEND_VM_INC_OPCODE()
INC_OPCOD()
ZEND_VM_RETURN_FROM_EXECUTE_LOOP()
RETURN_FROM_EXECUTE_LOOP()
ZEND_VM_C_LABEL(<LABEL>):
<LABEL>:
ZEND_VM_C_GOTO(<LABEL>)
goto <LABEL>
OP<X>_TYPE
opline->op<X>.op_type
GET_OP<X>_ZVAL_PTR(<TYPE>)
get_zval_ptr(&opline->op<X>, EX(Ts), &free_op<X>, <TYPE>)
GET_OP<X>_ZVAL_PTR_PTR(<TYPE>)
get_zval_ptr_ptr(&opline->op<X>, EX(Ts), &free_op<X>, <TYPE>)
GET_OP<X>_OBJ_ZVAL_PTR(<TYPE>)
get_obj_zval_ptr(&opline->op<X>, EX(Ts), &free_op<X>, <TYPE>)
GET_OP<X>_OBJ_ZVAL_PTR_PTR(<TYPE>)
get_obj_zval_ptr_ptr(&opline->op<X>, EX(Ts), &free_op<X>, <TYPE>)
IS_OP<X>_TMP_FREE()
IS_TMP_FREE(free_op<X>)
FREE_OP<X>()
FREE_OP(free_op<X>)
FREE_OP<X>_IF_VAR()
FREE_VAR(free_op<X>)
FREE_OP<X>_VAR_PTR()
FREE_VAR_PTR(free_op<X>)
Executor's helpers can be defined without parameters or with one parameter. This is done with the following constructs:
ZEND_VM_HELPER(<HELPER-NAME>, <OP1_TYPES>, <OP2_TYPES>)
{
<HELPER'S CODE>
}
ZEND_VM_HELPER_EX(<HELPER-NAME>, <OP1_TYPES>, <OP2_TYPES>, <PARAM_SPEC>)
{
<HELPER'S CODE>
}
The executors code is generated by the PHP script zend_vm_gen.php. It uses
zend_vm_def.h and zend_vm_execute.skl as input and produces
zend_vm_opcodes.h and zend_vm_execute.h. The first file is a list of opcode
definitions. It is included from zend_compile.h. The second one is an executor
code itself. It is included from zend_execute.c.
zend_vm_gen.php can produce different kind of executors. You can select a
different opcode threading model using --with-vm-kind=CALL|SWITCH|GOTO|HYBRID.
You can disable opcode specialization using --without-specializer.
At last you can debug the executor using the original zend_vm_def.h or the
generated zend_vm_execute.h file. Debugging with the original file requires
the --with-lines option. By default, Zend Engine uses the following
command to generate the executor:
# Default VM kind is HYBRID
php zend_vm_gen.php --with-vm-kind=HYBRID