深入剖析php执行原理(4):函数的调用,深入剖析php_PHP教程
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- 2016-07-12 08:50:28946浏览
深入剖析php执行原理(4):函数的调用,深入剖析php
本章开始研究php中函数的调用和执行,先来看函数调用语句是如何被编译的。
我们前面的章节弄明白了函数体会被编译生成哪些zend_op指令,本章会研究函数调用语句会生成哪些zend_op指,等后面的章节再根据这些op指令,来剖析php运行时的细节。
源码依然取自php5.3.29。
函数调用
回顾之前用的php代码示例:
<?<span>php
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;
foo(</span><span>$bar</span>);
在函数编译一章里已经分析过,函数foo最终会编译生成对应的zend_function,存放于函数表(CG(function_table))中。
现在开始看 foo($bar); 一句,这应该是最简单的函数调用语句了。其他还有一些形式更为复杂的函数调用,例如以可变变量作为函数名,例如导入的函数以别名进行调用(涉及到命名空间),再例如以引用作为参数,以表达式作为参数,以函数调用本身作为参数等等。
我们从简单的来入手,弄清楚调用语句的编译过程及产出,对于复杂的一些调用,下文也争取都能谈到一些。
1、语法推导
就 foo($bar); 而言,其主要部分语法树为:
绿色的节点表示最后对应到php代码中的字面。红色的部分是语法推导过程中最重要的几步,特别是function_call。
我们从语法分析文件zend_language_parser.y中挑出相关的:
function_call:
namespace_name '(' { $2.u.opline_num = zend_do_begin_function_call(&$1, 1 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(&$1, &$$, &$4, 0, $2.u.opline_num TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C); }
| T_NAMESPACE T_NS_SEPARATOR namespace_name '(' { $1.op_type = IS_CONST; ZVAL_EMPTY_STRING(&$1.u.constant); zend_do_build_namespace_name(&$1, &$1, &$3 TSRMLS_CC); $4.u.opline_num = zend_do_begin_function_call(&$1, 0 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(&$1, &$$, &$6, 0, $4.u.opline_num TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C); }
| T_NS_SEPARATOR namespace_name '(' { $3.u.opline_num = zend_do_begin_function_call(&$2, 0 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(&$2, &$$, &$5, 0, $3.u.opline_num TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C); }
| class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING '(' { $4.u.opline_num = zend_do_begin_class_member_function_call(&$1, &$3 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call($4.u.opline_num?NULL:&$3, &$$, &$6, $4.u.opline_num, $4.u.opline_num TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
| class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects '(' { zend_do_end_variable_parse(&$3, BP_VAR_R, 0 TSRMLS_CC); zend_do_begin_class_member_function_call(&$1, &$3 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(NULL, &$$, &$6, 1, 1 TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
| variable_class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING '(' { zend_do_begin_class_member_function_call(&$1, &$3 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(NULL, &$$, &$6, 1, 1 TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
| variable_class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects '(' { zend_do_end_variable_parse(&$3, BP_VAR_R, 0 TSRMLS_CC); zend_do_begin_class_member_function_call(&$1, &$3 TSRMLS_CC); }
function_call_parameter_list
')' { zend_do_end_function_call(NULL, &$$, &$6, 1, 1 TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
| variable_without_objects '(' { zend_do_end_variable_parse(&$1, BP_VAR_R, 0 TSRMLS_CC); zend_do_begin_dynamic_function_call(&$1, 0 TSRMLS_CC); }
function_call_parameter_list ')'
{ zend_do_end_function_call(&$1, &$$, &$4, 0, 1 TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
;<br /><br />function_call_parameter_list:<br /> non_empty_function_call_parameter_list { $$ = $1; }<br /> | /* empty */ { Z_LVAL($$.u.constant) = 0; }<br />;<br /><br /><br />non_empty_function_call_parameter_list:<br /> expr_without_variable { Z_LVAL($$.u.constant) = 1; zend_do_pass_param(&$1, ZEND_SEND_VAL, Z_LVAL($$.u.constant) TSRMLS_CC); }<br /> | variable { Z_LVAL($$.u.constant) = 1; zend_do_pass_param(&$1, ZEND_SEND_VAR, Z_LVAL($$.u.constant) TSRMLS_CC); }<br /> | '&' w_variable { Z_LVAL($$.u.constant) = 1; zend_do_pass_param(&$2, ZEND_SEND_REF, Z_LVAL($$.u.constant) TSRMLS_CC); }<br /> | non_empty_function_call_parameter_list ',' expr_without_variable { Z_LVAL($$.u.constant)=Z_LVAL($1.u.constant)+1; zend_do_pass_param(&$3, ZEND_SEND_VAL, Z_LVAL($$.u.constant) TSRMLS_CC); }<br /> | non_empty_function_call_parameter_list ',' variable { Z_LVAL($$.u.constant)=Z_LVAL($1.u.constant)+1; zend_do_pass_param(&$3, ZEND_SEND_VAR, Z_LVAL($$.u.constant) TSRMLS_CC); }<br /> | non_empty_function_call_parameter_list ',' '&' w_variable { Z_LVAL($$.u.constant)=Z_LVAL($1.u.constant)+1; zend_do_pass_param(&$4, ZEND_SEND_REF, Z_LVAL($$.u.constant) TSRMLS_CC); }<br />;
其结构并不复杂:
1)function_call这条推导,代表了一个完整的函数调用。
2)namespace_name是指经过命名空间修饰过之后的函数名,由于我们的例子中,函数foo并没有处于任何一个命名空间里,所以namespace_name其实就是foo。如果我们的函数定义在命名空间中,则namespace_name是一个类似“全路径”的fullname。
<span>namespace MyProject
{
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
}
namespace
{
</span><span>$bar</span> = 'hello php'<span>;</span>
MyProject\foo(<span>$bar</span><span>);<span>//<span> 以类似“全路径”的fullname来调用函数,则namespace_name为MyProject\foo</span></span>
}</span>
3)function_call_parameter_list是函数的参数列表,而non_empty_function_call_parameter_list则代表了非空参数列表。
4)从这些推导产生式里,我们还能看出编译时的所运用的一些关键处理:
zend_do_begin_function_call-->zend_do_pass_param-->zend_do_end_function_call<br /><br /> 开始 解析参数 结束
和编译function语句块时的几步(zend_do_begin_function_declaration->zend_do_receive_arg->zend_do_end_function_declaration等)顺序上比较类似。
上面提到语法树我们仅仅画了一部分,准确讲,没有将namespace以及function_call_parameter_list以下的推导过程进一步画出来。原因一是namespace的推导比较简单。第二,由于function_call_parameter_list-->variable这步会回到variable上,而variable经过若干步一直到产生变量$bar的推导比较复杂,也不是本文的重点,所以这里就不一进步探究了。
2、开始编译
看下function_call的推导式,一开始,zend vm会执行zend_do_begin_function_call做一些函数调用的准备。
2.1、 zend_do_begin_function_call
代码注解如下:
zend_function *<span>function;
</span><span>char</span> *<span>lcname;
</span><span>char</span> *is_compound = memchr(Z_STRVAL(function_name->u.constant), <span>'</span><span>\\</span><span>'</span>, Z_STRLEN(function_name-><span>u.constant));
</span><span>//</span><span> 将函数名进行修正,例如带上命名空间作为前缀等</span>
<span>zend_resolve_non_class_name(function_name, check_namespace TSRMLS_CC);
</span><span>//</span><span> 能进入该分支,说明在一个命名空间下以shortname调用函数,会生成一条DO_FCALL_BY_NAME指令</span>
<span>if</span> (check_namespace && CG(current_namespace) && !<span>is_compound) {
</span><span>/*</span><span> We assume we call function from the current namespace
if it is not prefixed. </span><span>*/</span>
<span>/*</span><span> In run-time PHP will check for function with full name and
internal function with short name </span><span>*/</span><span>
zend_do_begin_dynamic_function_call(function_name, </span><span>1</span><span> TSRMLS_CC);
</span><span>return</span> <span>1</span><span>;
}
</span><span>//</span><span> 转成小写,因为CG(function_table)中的函数名都是小写</span>
lcname = zend_str_tolower_dup(function_name->u.constant.value.str.val, function_name-><span>u.constant.value.str.len);
</span><span>//</span><span> 如果function_table中找不到该函数,则也尝试生成DO_FCALL_BY_NAME指令</span>
<span>if</span> ((zend_hash_find(CG(function_table), lcname, function_name->u.constant.value.str.len+<span>1</span>, (<span>void</span> **) &function) == FAILURE) ||<span>
((CG(compiler_options) </span>& ZEND_COMPILE_IGNORE_INTERNAL_FUNCTIONS) && (function->type ==<span> ZEND_INTERNAL_FUNCTION))) {
zend_do_begin_dynamic_function_call(function_name, </span><span>0</span><span> TSRMLS_CC);
efree(lcname);
</span><span>return</span> <span>1</span>; <span>/*</span><span> Dynamic </span><span>*/</span><span>
}
efree(function_name</span>-><span>u.constant.value.str.val);
function_name</span>->u.constant.value.str.val =<span> lcname;
</span><span>//</span><span> 压入CG(function_call_stack)</span>
zend_stack_push(&CG(function_call_stack), (<span>void</span> *) &function, <span>sizeof</span>(zend_function *<span>));
zend_do_extended_fcall_begin(TSRMLS_C);
</span><span>return</span> <span>0</span>;
有几点需要理解的:
1,zend_resolve_non_class_name。由于php支持命名空间、也支持别名/导入等特性,因此首先要做的是将函数名称进行修正,否则在CG(function_table)中找不到。例如,函数处于一个命名空间中,则可能需要将函数名添加上命名空间作为前缀,最终形成完整的函数名,也就是我们前文提到的以一种类似“全路径”的fullname作为函数名。再例如,函数名只是一个设置的别名,它实际指向了另一个命名空间中的某个函数,则需要将其改写成真正被调用函数的名称。这些工作,均由zend_resolve_non_class_name完成。命名空间添加了不少复杂度,下面是一些简单的例子:
<?<span>php
namespace MyProject;
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;<br />
foo(</span><span>$bar</span>); <span>//</span><span> zend_resolve_non_class_name会将foo处理成MyProject\foo</span><span>
namespace\foo(</span><span>$bar</span>); <span>//</span><span> 在进入zend_do_begin_function_call之前,<span>函数名已经</span>被扩展成<span><span>\<span>MyProject\foo</span></span></span>,再经过zend_resolve_non_class_name,<span>将\<span>MyProject\foo</span></span>处理成MyProject\foo</span><span>
\MyProject\foo(</span><span>$bar</span>); <span>//</span><span> zend_resolve_non_class_name会将<span><span>\<span>MyProject\foo</span></span></span>处理成MyProject\foo</span>
总之,zend_resolve_non_class_name是力图生成一个最精确、最完整的函数名。
2,CG(current_namespace)存储了当前的命名空间。check_namespace和!is_compound一起说明被调用函数在当前命名空间下的,并且以shortname名称被调用。所谓shortname,是和上述的fullname相对,shorname的函数名,不存在"\"。
就像上面的例子中,我们在MyProject命名空间下,以foo为函数名来调用。这种情况下,check_namespace=1,is_compound = NULL,CG(current_namespace) = MyProject。因此,会走到zend_do_begin_dynamic_function_call里进一步处理。zend_do_begin_dynamic_function_call我们下面再具体描述。
<?<span>php
namespace MyProject\sub;
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
namespace MyProject;
</span><span>$bar</span> = 'hello php'<span>;
sub\foo(</span><span>$bar</span>); <span>//</span><span> 以sub\foo调用函数,并不算shortname,因为存在\</span>
注意上述例子,我们以sub\foo来调用函数。zend_resolve_non_class_name会将函数名处理成MyProject\sub\foo。不过is_compound是在zend_resolve_non_class_name之前算的,由于sub\foo存在"\",所以is_compound为"\foo",!is_compound是false,因而不能进入zend_do_begin_dynamic_function_call。
3,同样,如果CG(function_table)中找不到函数,也会进入zend_do_begin_dynamic_function_call进一步处理。为什么在函数表中找不到函数,因为php允许我们先调用,再去定义函数。例如:
<?<span>php
</span><span>$bar</span> = 'hello php'<span>;
</span><span>//</span><span> 先调用</span>
foo(<span>$bar</span><span>);
</span><span>//</span><span> 后定义</span>
<span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}</span>
4,在zend_do_begin_function_call的最后,我们将函数压入CG(function_call_stack)。这是一个栈,因为在后续对传参的编译,我们仍然需要用到函数,所以这里将其压亚入栈中,方便后面获取使用。之所以用栈,是因为调用函数传递的参数,可能是另一次函数调用。为了确保参数总是能找到对应的函数,所以用栈。
<?<span>php
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;
foo(</span><span>strlen</span>(<span>$bar</span>)); <span>//</span><span> 首先foo入栈,然后分析参数strlen($bar),发现依然是个函数,于是strlen入栈,再分析参数$bar,此时弹出对应的函数正好为strlen。</span>
2.2、 zend_do_begin_dynamic_function_call
前面提到,正常的调用,会先执行zend_do_begin_function_call,在zend_do_begin_function_call中有两种情况会进一步调用zend_do_begin_dynamic_function_call来处理。
一是,在命名空间中,以shortname调用函数;
二是,在调用函数时,尚未定义函数。
其实还有第三种情况会走到zend_do_begin_dynamic_function_call,就是当我们调用函数的时候,函数名并非直接写成字面,而是通过变量等形式来间接确定。这种情况下,zend vm会直接执行zend_do_begin_dynamic_function_call。
举例1:
<?<span>php
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;
</span><span>$func</span> = 'foo'<span>;
</span><span>$func</span>(<span>$bar</span>); <span>//</span><span> 我们以变量$func作为函数名,试图调用函数foo,$func类型是IS_CV</span>
此时, $func($bar) 对应function_call语法推导式的最后一条:
function_call:<br /> ...
| variable_without_objects '(' { zend_do_end_variable_parse(&$1, BP_VAR_R, 0 TSRMLS_CC); zend_do_begin_dynamic_function_call(&$1, 0 TSRMLS_CC); }
function_call_parameter_list ')'
{ zend_do_end_function_call(&$1, &$$, &$4, 0, 1 TSRMLS_CC); zend_do_extended_fcall_end(TSRMLS_C);}
推导式中的variable_without_objects对应的就是变量 $func 。$func其实是一个compiled_variable,并且在op_array->vars数组中索引为1,索引为0的是在它之前定义的变量 $bar 。
举例2:
<span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;
</span><span>$func</span> = 'foo'<span>;
</span><span>$ref_func</span> = 'func'<span>;
$</span><span>$ref_func</span>(<span>$bar</span>); <span>//</span><span> 以可变变量的形式来调用函数,$$ref_func类型是IS_VAR</span>
该例是以可变变量来调用函数,和例1一样, $$ref_func($bar)也是对应function_call语法推导式的最后一条,所以不会走进zend_do_begin_function_call,而是直接进入zend_do_begin_dynamic_function_call。不同的点在于 $$ref_func 节点类型不再是compiled_variable,而是普通的variable,标识为IS_VAR。
下面的图画出了5种case,第1种不经过zend_do_begin_dynamic_function_call,而后4种会调用zend_do_begin_dynamic_function_call处理,注意最后2种不经过zend_do_begin_function_call:
具体看下zend_do_begin_dynamic_function_call的代码:
<span>void</span> zend_do_begin_dynamic_function_call(znode *function_name, <span>int</span> ns_call TSRMLS_DC) <span>/*</span><span> {{{ </span><span>*/</span><span>
{
unsigned </span><span>char</span> *ptr =<span> NULL;
zend_op </span>*opline, *<span>opline2;
</span><span>//</span><span> 拿一条zend_op</span>
opline =<span> get_next_op(CG(active_op_array) TSRMLS_CC);
</span><span>//</span><span> 参数ns_call表名是否以shortname在命名空间中调用函数</span>
<span>if</span><span> (ns_call) {
</span><span>char</span> *<span>slash;
</span><span>int</span><span> prefix_len, name_len;
</span><span>/*</span><span> In run-time PHP will check for function with full name and
internal function with short name </span><span>*/</span>
<span>//</span><span> 第一条指令是ZEND_INIT_NS_FCALL_BY_NAME</span>
opline->opcode =<span> ZEND_INIT_NS_FCALL_BY_NAME;
opline</span>->op2 = *<span>function_name;
opline</span>->extended_value = <span>0</span><span>;
opline</span>->op1.op_type =<span> IS_CONST;
Z_TYPE(opline</span>->op1.u.constant) =<span> IS_STRING;
Z_STRVAL(opline</span>->op1.u.constant) = zend_str_tolower_dup(Z_STRVAL(opline->op2.u.constant), Z_STRLEN(opline-><span>op2.u.constant));
Z_STRLEN(opline</span>->op1.u.constant) = Z_STRLEN(opline-><span>op2.u.constant);
opline</span>->extended_value = zend_hash_func(Z_STRVAL(opline->op1.u.constant), Z_STRLEN(opline->op1.u.constant) + <span>1</span><span>);
</span><span>//</span><span> 再拿一条zend_op,指令为ZEND_OP_DATA</span>
slash = zend_memrchr(Z_STRVAL(opline->op1.u.constant), <span>'</span><span>\\</span><span>'</span>, Z_STRLEN(opline-><span>op1.u.constant));
prefix_len </span>= slash-Z_STRVAL(opline->op1.u.constant)+<span>1</span><span>;
name_len </span>= Z_STRLEN(opline->op1.u.constant)-<span>prefix_len;
opline2 </span>=<span> get_next_op(CG(active_op_array) TSRMLS_CC);
opline2</span>->opcode =<span> ZEND_OP_DATA;
opline2</span>->op1.op_type =<span> IS_CONST;
Z_TYPE(opline2</span>->op1.u.constant) =<span> IS_LONG;
</span><span>if</span>(!<span>slash) {
zend_error(E_CORE_ERROR, </span><span>"</span><span>Namespaced name %s should contain slash</span><span>"</span>, Z_STRVAL(opline-><span>op1.u.constant));
}
</span><span>/*</span><span> this is the length of namespace prefix </span><span>*/</span><span>
Z_LVAL(opline2</span>->op1.u.constant) =<span> prefix_len;
</span><span>/*</span><span> this is the hash of the non-prefixed part, lowercased </span><span>*/</span><span>
opline2</span>->extended_value = zend_hash_func(slash+<span>1</span>, name_len+<span>1</span><span>);
SET_UNUSED(opline2</span>-><span>op2);
} </span><span>else</span><span> {
</span><span>//</span><span> 第一条指令是ZEND_INIT_FCALL_BY_NAME</span>
opline->opcode =<span> ZEND_INIT_FCALL_BY_NAME;
opline</span>->op2 = *<span>function_name;
</span><span>//</span><span> 先调用,再定义</span>
<span>if</span> (opline->op2.op_type ==<span> IS_CONST) {
opline</span>->op1.op_type =<span> IS_CONST;
Z_TYPE(opline</span>->op1.u.constant) =<span> IS_STRING;
Z_STRVAL(opline</span>->op1.u.constant) = zend_str_tolower_dup(Z_STRVAL(opline->op2.u.constant), Z_STRLEN(opline-><span>op2.u.constant));
Z_STRLEN(opline</span>->op1.u.constant) = Z_STRLEN(opline-><span>op2.u.constant);
opline</span>->extended_value = zend_hash_func(Z_STRVAL(opline->op1.u.constant), Z_STRLEN(opline->op1.u.constant) + <span>1</span><span>);
}
</span><span>//</span><span> 以变量当函数名来调用</span>
<span>else</span><span> {
opline</span>->extended_value = <span>0</span><span>;
SET_UNUSED(opline</span>-><span>op1);
}
}
</span><span>//</span><span> 将NULL压入CG(function_call_stack)</span>
zend_stack_push(&CG(function_call_stack), (<span>void</span> *) &ptr, <span>sizeof</span>(zend_function *<span>));
zend_do_extended_fcall_begin(TSRMLS_C);
}</span>
ns_call参数取值为0或者1。如果在命名空间中,以shortname调用函数,则ns_call = 1,并且会生成2条指令。如果是先调用再定义,或者以变量作函数名,则ns_call = 0,并且只会生成1条指令。
以ns_call = 1为例:
<?<span>php
namespace MyProject;
</span><span>function</span> foo(<span>$arg1</span><span>)
{
</span><span>print</span>(<span>$arg1</span><span>);
}
</span><span>$bar</span> = 'hello php'<span>;
foo(</span><span>$bar</span>);
生成的op指令如下所示:
php
$bar = 'hello php';
foo($bar);
function foo($arg1)
{
print($arg1);
}
生成的op指令如下所示:
php
function foo($arg1)
{
print($arg1);
}
$bar = 'hello php';
$func = 'foo';
$func($bar);
生成的op指令如下所示:
void zend_do_pass_param(znode *param, zend_uchar op, int offset TSRMLS_DC) /* {{{ */
{
zend_op *opline;
int original_op = op;
zend_function **function_ptr_ptr, *function_ptr;
int send_by_reference;
int send_function = 0;
// 从CG(function_call_stack)获取当前函数,注意可能拿出的是NULL
zend_stack_top(&CG(function_call_stack), (void **) &function_ptr_ptr);
function_ptr = *function_ptr_ptr;
// 调用的地方以引用传参,但是php.ini中配置不允许这样,则抛错
if (original_op == ZEND_SEND_REF && !CG(allow_call_time_pass_reference)) {
if (function_ptr &&
function_ptr->common.function_name &&
function_ptr->common.type == ZEND_USER_FUNCTION &&
!ARG_SHOULD_BE_SENT_BY_REF(function_ptr, (zend_uint) offset)) {
zend_error(E_DEPRECATED,
"Call-time pass-by-reference has been deprecated; "
"If you would like to pass it by reference, modify the declaration of %s(). "
"If you would like to enable call-time pass-by-reference, you can set "
"allow_call_time_pass_reference to true in your INI file", function_ptr->common.function_name);
} else {
zend_error(E_DEPRECATED, "Call-time pass-by-reference has been deprecated");
}
}
1,首先是从CG(function_call_stack)中获取当前参数对应的函数。注意,可能拿到的只是一个NULL。因为php的语法允许我们先函数调用,再接着对函数进行定义。如前文所述,这种情况下zend_do_begin_function_call中会向CG(function_call_stack)中压入NULL,同时会产生DO_FCALL_BY_NAME指令。
2,在传参的语法推导式中,op可能会有3种,分别是ZEND_SEND_VAL、ZEND_SEND_VAR、ZEND_SEND_REF。
expr_without_variable { Z_LVAL($$.u.constant) = <span>1</span>; zend_do_pass_param(&$<span>1</span><span>, ZEND_SEND_VAL, Z_LVAL($$.u.constant) TSRMLS_CC); }
variable { Z_LVAL($$.u.constant) </span>= <span>1</span>; zend_do_pass_param(&$<span>1</span><span>, ZEND_SEND_VAR, Z_LVAL($$.u.constant) TSRMLS_CC); }
</span><span>'</span><span>&</span><span>'</span> w_variable { Z_LVAL($$.u.constant) = <span>1</span>; zend_do_pass_param(&$<span>2</span>, ZEND_SEND_REF, Z_LVAL($$.u.constant) TSRMLS_CC); }
这三种op分别对应的语法是expr_without_variable、variable、'&'w_variable,简单来说就是“不含变量的表达式”、“变量”、“引用”。
zend_do_pass_param会判断,如果用户传递的是引用,但同时在php.INI中配置了形如 allow_call_time_pass_reference = Off ,则需要产生一条E_DEPRECATED错误信息,告知用户传递的时候不建议强制写成引用。
其实,还有第4种传参的opcode,即ZEND_SEND_VAR_NO_REF。我们接下来会提到。
<span>//</span><span> 函数已定义,则根据函数的定义,来决定send_by_reference是否传引用</span>
<span>if</span><span> (function_ptr) {
</span><span>if</span><span> (ARG_MAY_BE_SENT_BY_REF(function_ptr, (zend_uint) offset)) {
...
} </span><span>else</span><span> {
</span><span>//</span><span> 要么为0,要么为ZEND_ARG_SEND_BY_REF</span>
send_by_reference = ARG_SHOULD_BE_SENT_BY_REF(function_ptr, (zend_uint) offset) ? ZEND_ARG_SEND_BY_REF : <span>0</span><span>;
}
}
</span><span>//</span><span> 函数为定义,先统一将send_by_reference置为0</span>
<span>else</span><span> {
send_by_reference </span>= <span>0</span><span>;
}
</span><span>//</span><span> 如果用户传递的参数,本身就是一次函数调用,则将op改成ZEND_SEND_VAR_NO_REF</span>
<span>if</span> (op == ZEND_SEND_VAR &&<span> zend_is_function_or_method_call(param)) {
</span><span>/*</span><span> Method call </span><span>*/</span><span>
op </span>=<span> ZEND_SEND_VAR_NO_REF;
send_function </span>=<span> ZEND_ARG_SEND_FUNCTION;
}
</span><span>//</span><span> 如果用户传递的参数,是一个表达式,并且结果会产生中间变量,则也将op改成ZEND_SEND_VAR_NO_REF</span>
<span>else</span> <span>if</span> (op == ZEND_SEND_VAL && (param->op_type & (IS_VAR|<span>IS_CV))) {
op </span>=<span> ZEND_SEND_VAR_NO_REF;
}</span>
1,send_by_reference表示根据函数的定义,参数是不是引用。ARG_MAY_BE_SENT_BY_REF和ARG_SHOULD_BE_SENT_BY_REF两个宏这里就不具体叙述了,感兴趣的朋友可以自己阅读代码。
2,op == ZEND_SEND_VAR对应的是variable,假如参数是一个函数调用,也可能会被编译成variable,但是函数调用并不存在显式定义的变量,所以不能直接编译成SEND_VAR指令,因此这里就涉及到了上文提到的第4种opcode,即ZEND_SEND_VAR_NO_REF。例如:
3,op == ZEND_SEND_VAL对应的是一个表达式,如果该表达式产生了一个变量作为结果,则也需要将op改成ZEND_SEND_VAR_NO_REF。例如:
继续来看zend_do_pass_param:
<span>//</span><span> 如果根据函数定义需要传递引用,且实际传递的参数是变量,则将op改成ZEND_SEND_REF</span>
<span>if</span> (op!=ZEND_SEND_VAR_NO_REF && send_by_reference==<span>ZEND_ARG_SEND_BY_REF) {
</span><span>/*</span><span> change to passing by reference </span><span>*/</span>
<span>switch</span> (param-><span>op_type) {
</span><span>case</span><span> IS_VAR:
</span><span>case</span><span> IS_CV:
op </span>=<span> ZEND_SEND_REF;
</span><span>break</span><span>;
</span><span>default</span><span>:
zend_error(E_COMPILE_ERROR, </span><span>"</span><span>Only variables can be passed by reference</span><span>"</span><span>);
</span><span>break</span><span>;
}
}
</span><span>//</span><span> 如果实际传递的参数是变量,调用zend_do_end_variable_parse处理链式调用</span>
<span>if</span> (original_op ==<span> ZEND_SEND_VAR) {
</span><span>switch</span><span> (op) {
</span><span>case</span><span> ZEND_SEND_VAR_NO_REF:
zend_do_end_variable_parse(param, BP_VAR_R, </span><span>0</span><span> TSRMLS_CC);
</span><span>break</span><span>;
</span><span>case</span><span> ZEND_SEND_VAR:
</span><span>if</span><span> (function_ptr) {
zend_do_end_variable_parse(param, BP_VAR_R, </span><span>0</span><span> TSRMLS_CC);
} </span><span>else</span><span> {
zend_do_end_variable_parse(param, BP_VAR_FUNC_ARG, offset TSRMLS_CC);
}
</span><span>break</span><span>;
</span><span>case</span><span> ZEND_SEND_REF:
zend_do_end_variable_parse(param, BP_VAR_W, </span><span>0</span><span> TSRMLS_CC);
</span><span>break</span><span>;
}
}</span>
这里注意param->op_type是传递的参数经过编译得到znode的op_type,如果不属于变量(IS_VAR、IS_CV),就直接报错了。举例来说:
<span>function</span> foo(&<span>$a</span><span>)
{
</span><span>print</span>(<span>$a</span><span>);
}
foo(</span><span>$bar</span> == 1); // 抛错 <span>"<span>Only variables can be passed by reference<span>"</span></span></span>
上面 $bar == 1 表达式的编译结果,op_type为IS_TMP_VAR,可以看做一种临时的中间结果,并非IS_VAR,IS_CV,因此无法编译成功。看着逻辑有点绕,其实很好理解。因为我们传递引用,实际目的是希望能够在函数中,对这个参数的值进行修改,需要参数是可写的。然而 $bar == 1 产生的中间结果,我们无法做出修改,是只读的。
来看zend_do_pass_param的最后一段:
<span>//</span><span> 获取下一条zend op指令</span>
opline =<span> get_next_op(CG(active_op_array) TSRMLS_CC);
</span><span>//</span><span> extended_value加上不同的附加信息</span>
<span>if</span> (op ==<span> ZEND_SEND_VAR_NO_REF) {
</span><span>if</span><span> (function_ptr) {
opline</span>->extended_value = ZEND_ARG_COMPILE_TIME_BOUND | send_by_reference |<span> send_function;
} </span><span>else</span><span> {
opline</span>->extended_value =<span> send_function;
}
} </span><span>else</span><span> {
</span><span>if</span><span> (function_ptr) {
opline</span>->extended_value =<span> ZEND_DO_FCALL;
} </span><span>else</span><span> {
opline</span>->extended_value =<span> ZEND_DO_FCALL_BY_NAME;
}
}
</span><span>//</span><span> 设置opcode、op1、op2等</span>
opline->opcode =<span> op;
opline</span>->op1 = *<span>param;
opline</span>->op2.u.opline_num =<span> offset;
SET_UNUSED(opline</span>->op2);
上面这段代码生成了一条SEND指令。如果我们调用函数时候传递了多个参数,则会调用多次zend_do_pass_param,最终会生成多条SEND指令。
至于指令具体是SEND_VAR,SEND_VAL,还是SEND_RE,亦或是ZEND_SEND_VAR_NO_REF,则依靠zend_do_pass_param中的判断。zend_do_pass_param中的逻辑分支比较多,一下子不能弄明白所有分支也没关系,最重要的是知道它会根据函数的定义以及实际传递的参数,产生最合适的SEND指令。
还是回到我们开始的例子,对于 foo($bar) ,则经过zend_do_pass_param之后,产生的SEND指令细节如下:
4、结束编译
结束函数调用是通过zend_do_end_function_call来完成的。根据前文所述,zend_do_begin_function_call并不产生一条实际的调用指令,但它确定了最终函数调用走的是DO_FCALL还是DO_FCALL_BY_NAME,并且据此来生成ZEND_INIT_NS_FCALL_BY_NAME或ZEND_INIT_FCALL_BY_NAME指令。
实际的调用指令是放在zend_do_end_function_call中来生成的。
具体分析下zend_do_end_function_call:
zend_op *<span>opline;
</span><span>//</span><span> 这段逻辑分支现在已经走不到了</span>
<span>if</span> (is_method && function_name && function_name->op_type ==<span> IS_UNUSED) {
</span><span>/*</span><span> clone </span><span>*/</span>
<span>if</span> (Z_LVAL(argument_list->u.constant) != <span>0</span><span>) {
zend_error(E_WARNING, </span><span>"</span><span>Clone method does not require arguments</span><span>"</span><span>);
}
opline </span>= &CG(active_op_array)->opcodes[Z_LVAL(function_name-><span>u.constant)];
} </span><span>else</span><span> {
opline </span>=<span> get_next_op(CG(active_op_array) TSRMLS_CC);
</span><span>//</span><span> 函数,名称确定,非dynamic_fcall,函数则生成ZEND_DO_FCALL指令</span>
<span>if</span> (!is_method && !is_dynamic_fcall && function_name->op_type==<span>IS_CONST) {
opline</span>->opcode =<span> ZEND_DO_FCALL;
opline</span>->op1 = *<span>function_name;
ZVAL_LONG(</span>&opline->op2.u.constant, zend_hash_func(Z_STRVAL(function_name->u.constant), Z_STRLEN(function_name->u.constant) + <span>1</span><span>));
}
</span><span>//</span><span> 否则生成ZEND_DO_FCALL_BY_NAME指令</span>
<span>else</span><span> {
opline</span>->opcode =<span> ZEND_DO_FCALL_BY_NAME;
SET_UNUSED(opline</span>-><span>op1);
}
}
</span><span>//</span><span> 生成临时变量索引,函数的调用,返回的znode必然是IS_VAR</span>
opline->result.u.<span>var</span> =<span> get_temporary_variable(CG(active_op_array));
opline</span>->result.op_type =<span> IS_VAR;
</span>*result = opline-><span>result;
SET_UNUSED(opline</span>-><span>op2);
</span><span>//</span><span> 从CG(function_call_stack)弹出当前被调用的函数</span>
zend_stack_del_top(&<span>CG(function_call_stack));
</span><span>//</span><span> 传参个数</span>
opline->extended_value = Z_LVAL(argument_list->u.constant);
其中有一段if逻辑分支已经走不到了,可以忽略。
具体考据:这段逻辑在462eff3中被添加,主要用于当调用__clone魔术方法时传参进行抛错,但在8e30d96中,已经不允许直接调用__clone方法了,在进入zend_do_end_function_call之前便会终止编译,所以实际上已经再也走不到该分支了。
直接看else部分,else生成了一条zend op指令。如果函数名确定,函数已被定义,并且不属于动态调用等,则生成的op指令为ZEND_DO_FCALL,否则生成ZEND_DO_FCALL_BY_NAME。对于ZEND_DO_FCALL指令,其操作数比较明确,为函数名,但是对于ZEND_DO_FCALL_BY_NAME来说,由于被调的函数尚未明确,所以将操作数置为UNUSED。
5、总结
用一张图总结一下函数调用大致的编译流程:
红色的方框为生成的op指令。特别是编译传参的地方,情况比较多,可能会产出4种SEND指令。