Extension globals
Introduction to globals in a PHP extension
In a language such as C, a "global" variable is a variable that can be accessed from any function without any extra declaration. These traditional globals have a few drawbacks:
- Barring any special options passed to the compiler, a global variable can be accessed and changed by any piece of code anywhere in the program, whether or not that code should be doing so.
- A typical global variable is not thread safe.
- The names of global variables are as global as the variables themselves.
A PHP extension's globals are more properly called the "extension state", since most modules must remember what they're doing between function calls. The "counter" extension is a perfect example of this need: The basic interface calls for a counter with a persistent value. A programmer new to Zend and PHP might do something like this in counter.c to store that value:
Beispiel #1 The wrong way to store the basic counter interface's value
/* ... */ static long basic_counter_value; /* ... */ PHP_FUNCTION(counter_get) { RETURN_LONG(basic_counter_value); }
On the surface this appears a viable solution, and indeed in a simple test it would function correctly. However, there are a number of situations in which more than one copy of PHP is running in the same thread, which means more than one instance of the counter module. Suddenly these multiple threads are sharing the same counter value, which is clearly undesirable. Another problem shows itself when considering that another extension might someday happen to have a global with the same name, and due to the rules of C scoping, this has the potential to cause a compile failure, or worse, a runtime error. Something more elaborate is needed, and so exists Zend's support for thread-safe per-module globals.
Declaring module globals
Whether a module uses only a single global or dozens, they must be defined in a structure, and that structure must be declared. There are some macros that assist with doing so in a way that avoids name conflicts between modules: ZEND_BEGIN_MODULE_GLOBALS(), ZEND_END_MODULE_GLOBALS(), and ZEND_DECLARE_MODULE_GLOBALS(). All three take as a parameter the short name of the module, which in the case of the counter module is simply "counter". Here is the global structure declaration from php_counter.h:
Beispiel #2 The counter module's globals
ZEND_BEGIN_MODULE_GLOBALS(counter) long basic_counter_value; ZEND_END_MODULE_GLOBALS(counter)
And this is the declaration from counter.c:
Beispiel #3 The counter module's global structure declaration
ZEND_DECLARE_MODULE_GLOBALS(counter)
Accessing module globals
As discussed above, per-module globals are declared inside a C structure whose name is obscured by Zend macros. As a result, the ideal way to access members of this structure is by the use of further macros. Accordingly, most if not all extensions which have globals have a declaration like this somewhere in their header file:
Beispiel #4 Accessor macros for per-module globals
#ifdef ZTS #define COUNTER_G(v) TSRMG(counter_globals_id, zend_counter_globals *, v) #else #define COUNTER_G(v) (counter_globals.v) #endif
Hinweis: This could have been generalized into a macro of its own by the Zend API, but as of PHP 5.3 (and PHP 6 at the time of this writing), that hasn't happened. The global accessor construct is written into the header by ext_skel and thus is generally left alone by extension writers, unless they wish to change the name of the accessor macro.
Hinweis:
COUNTER_G
was the name given to the macro by ext_skel, but it's not necessary for it to have that name and could just as easily be called FOO instead.
Any code in the counter extension that accesses a global must thus wrap it
in the macro COUNTER_G
.
Any function which accesses globals must either be declared by Zend macros,
have TSRMLS_DC
as its last argument, or call the macro
TSRMLS_FETCH
before accessing the globals. See
the TSRM documentation for
more information.
So with all of that in mind, here is our new version of the counter_get():
Beispiel #5 The right way to store the basic counter interface's value
/* php_counter.h */ ZEND_BEGIN_MODULE_GLOBALS(counter) long basic_counter_value; ZEND_END_MODULE_GLOBALS(counter) #ifdef ZTS #define COUNTER_G(v) TSRMG(counter_globals_id, zend_counter_globals *, v) #else #define COUNTER_G(v) (counter_globals.v) #endif /* counter.c */ ZEND_DECLARE_MODULE_GLOBALS(counter) /* ... */ PHP_FUNCTION(counter_get) { RETURN_LONG(COUNTER_G(basic_counter_value)); }
This is a correct implementation. It is not, however, a complete one. The section Life cycle of an extension explains why.
Deutsche Übersetzung
Sie haben gebeten, diese Seite auf Deutsch zu besuchen. Momentan ist nur die Oberfläche übersetzt, aber noch nicht der gesamte Inhalt.Wenn Sie mir bei Übersetzungen helfen wollen, ist Ihr Beitrag willkommen. Alles, was Sie tun müssen, ist, sich auf der Website zu registrieren und mir eine Nachricht zu schicken, in der Sie gebeten werden, Sie der Gruppe der Übersetzer hinzuzufügen, die Ihnen die Möglichkeit gibt, die gewünschten Seiten zu übersetzen. Ein Link am Ende jeder übersetzten Seite zeigt an, dass Sie der Übersetzer sind und einen Link zu Ihrem Profil haben.
Vielen Dank im Voraus.
Dokument erstellt 30/01/2003, zuletzt geändert 26/10/2018
Quelle des gedruckten Dokuments:https://www.gaudry.be/de/php-rf-internals2.structure.globals.html
Die Infobro ist eine persönliche Seite, deren Inhalt in meiner alleinigen Verantwortung liegt. Der Text ist unter der CreativeCommons-Lizenz (BY-NC-SA) verfügbar. Weitere Informationen auf die Nutzungsbedingungen und dem Autor.
Referenzen
Diese Verweise und Links verweisen auf Dokumente, die während des Schreibens dieser Seite konsultiert wurden, oder die zusätzliche Informationen liefern können, aber die Autoren dieser Quellen können nicht für den Inhalt dieser Seite verantwortlich gemacht werden.
Der Autor Diese Website ist allein dafür verantwortlich, wie die verschiedenen Konzepte und Freiheiten, die mit den Nachschlagewerken gemacht werden, hier dargestellt werden. Denken Sie daran, dass Sie mehrere Quellinformationen austauschen müssen, um das Risiko von Fehlern zu reduzieren.