780 lines
30 KiB
HTML
780 lines
30 KiB
HTML
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN"
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"http://www.w3.org/TR/html4/strict.dtd">
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<html>
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<head>
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<title>Source Annotations</title>
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<link type="text/css" rel="stylesheet" href="menu.css">
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<link type="text/css" rel="stylesheet" href="content.css">
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<script type="text/javascript" src="scripts/menu.js"></script>
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</head>
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<body>
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<div id="page">
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<!--#include virtual="menu.html.incl"-->
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<div id="content">
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<h1>Source Annotations</h1>
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<p>The Clang frontend supports several source-level annotations in the form of
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<a href="https://gcc.gnu.org/onlinedocs/gcc/Attribute-Syntax.html">GCC-style
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attributes</a> and pragmas that can help make using the Clang Static Analyzer
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more useful. These annotations can both help suppress false positives as well as
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enhance the analyzer's ability to find bugs.</p>
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<p>This page gives a practical overview of such annotations. For more technical
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specifics regarding Clang-specific annotations please see the Clang's list of <a
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href="https://clang.llvm.org/docs/LanguageExtensions.html">language
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extensions</a>. Details of "standard" GCC attributes (that Clang also
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supports) can be found in the <a href="https://gcc.gnu.org/onlinedocs/gcc/">GCC
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manual</a>, with the majority of the relevant attributes being in the section on
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<a href="https://gcc.gnu.org/onlinedocs/gcc/Function-Attributes.html">function
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attributes</a>.</p>
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<p>Note that attributes that are labeled <b>Clang-specific</b> are not
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recognized by GCC. Their use can be conditioned using preprocessor macros
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(examples included on this page).</p>
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<h4>Specific Topics</h4>
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<ul>
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<li><a href="#generic">Annotations to Enhance Generic Checks</a>
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<ul>
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<li><a href="#null_checking"><span>Null Pointer Checking</span></a>
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<ul>
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<li><a href="#attr_nonnull"><span>Attribute 'nonnull'</span></a></li>
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</ul>
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</li>
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</ul>
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</li>
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<li><a href="#macosx">Mac OS X API Annotations</a>
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<ul>
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<li><a href="#cocoa_mem">Cocoa & Core Foundation Memory Management Annotations</a>
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<ul>
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<li><a href="#attr_ns_returns_retained">Attribute 'ns_returns_retained'</a></li>
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<li><a href="#attr_ns_returns_not_retained">Attribute 'ns_returns_not_retained'</a></li>
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<li><a href="#attr_cf_returns_retained">Attribute 'cf_returns_retained'</a></li>
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<li><a href="#attr_cf_returns_not_retained">Attribute 'cf_returns_not_retained'</a></li>
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<li><a href="#attr_ns_consumed">Attribute 'ns_consumed'</a></li>
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<li><a href="#attr_cf_consumed">Attribute 'cf_consumed'</a></li>
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<li><a href="#attr_ns_consumes_self">Attribute 'ns_consumes_self'</a></li>
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</ul>
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</li>
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<li><a href="#osobject_mem">Libkern Memory Management Annotations</a>
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<ul>
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<li><a href="#attr_os_returns_retained">Attribute 'os_returns_retained'</a></li>
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<li><a href="#attr_os_returns_not_retained">Attribute 'os_returns_not_retained'</a></li>
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<li><a href="#attr_os_consumed">Attribute 'os_consumed'</a></li>
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<li><a href="#attr_os_consumes_this">Attribute 'os_consumes_this'</a></li>
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<li><a href="#os_out_parameters">Out Parameters</a></li>
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</ul>
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</li>
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</ul>
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</li>
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<li><a href="#custom_assertions">Custom Assertion Handlers</a>
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<ul>
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<li><a href="#attr_noreturn">Attribute 'noreturn'</a></li>
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<li><a href="#attr_analyzer_noreturn">Attribute 'analyzer_noreturn'</a></li>
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</ul>
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</li>
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</ul>
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<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
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<h2 id="generic">Annotations to Enhance Generic Checks</h2>
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<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
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<h3 id="null_checking">Null Pointer Checking</h3>
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<h4 id="attr_nonnull">Attribute 'nonnull'</h4>
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<p>The analyzer recognizes the GCC attribute 'nonnull', which indicates that a
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function expects that a given function parameter is not a null pointer. Specific
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details of the syntax of using the 'nonnull' attribute can be found in <a
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href="https://gcc.gnu.org/onlinedocs/gcc/Common-Function-Attributes.html#index-nonnull-function-attribute">GCC's
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documentation</a>.</p>
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<p>Both the Clang compiler and GCC will flag warnings for simple cases where a
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null pointer is directly being passed to a function with a 'nonnull' parameter
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(e.g., as a constant). The analyzer extends this checking by using its deeper
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symbolic analysis to track what pointer values are potentially null and then
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flag warnings when they are passed in a function call via a 'nonnull'
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parameter.</p>
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<p><b>Example</b></p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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int bar(int*p, int q, int *r) __attribute__((nonnull(1,3)));
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int foo(int *p, int *q) {
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return !p ? bar(q, 2, p)
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: bar(p, 2, q);
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}
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</pre>
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<p>Running <tt>scan-build</tt> over this source produces the following
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output:</p>
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<img src="images/example_attribute_nonnull.png" alt="example attribute nonnull">
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<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
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<h2 id="macosx">Mac OS X API Annotations</h2>
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<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
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<h3 id="cocoa_mem">Cocoa & Core Foundation Memory Management
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Annotations</h3>
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<!--
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<p>As described in <a href="/available_checks.html#retain_release">Available
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Checks</a>,
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-->
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<p>The analyzer supports the proper management of retain counts for
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both Cocoa and Core Foundation objects. This checking is largely based on
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enforcing Cocoa and Core Foundation naming conventions for Objective-C methods
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(Cocoa) and C functions (Core Foundation). Not strictly following these
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conventions can cause the analyzer to miss bugs or flag false positives.</p>
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<p>One can educate the analyzer (and others who read your code) about methods or
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functions that deviate from the Cocoa and Core Foundation conventions using the
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attributes described here. However, you should consider using proper naming
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conventions or the <a
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href="https://clang.llvm.org/docs/LanguageExtensions.html#the-objc-method-family-attribute"><tt>objc_method_family</tt></a>
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attribute, if applicable.</p>
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<h4 id="attr_ns_returns_retained">Attribute 'ns_returns_retained'
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(Clang-specific)</h4>
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<p>The GCC-style (Clang-specific) attribute 'ns_returns_retained' allows one to
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annotate an Objective-C method or C function as returning a retained Cocoa
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object that the caller is responsible for releasing (via sending a
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<tt>release</tt> message to the object). The Foundation framework defines a
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macro <b><tt>NS_RETURNS_RETAINED</tt></b> that is functionally equivalent to the
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one shown below.</p>
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<p><b>Placing on Objective-C methods</b>: For Objective-C methods, this
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annotation essentially tells the analyzer to treat the method as if its name
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begins with "alloc" or "new" or contains the word
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"copy".</p>
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<p><b>Placing on C functions</b>: For C functions returning Cocoa objects, the
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analyzer typically does not make any assumptions about whether or not the object
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is returned retained. Explicitly adding the 'ns_returns_retained' attribute to C
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functions allows the analyzer to perform extra checking.</p>
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<p><b>Example</b></p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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#import <Foundation/Foundation.h>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef NS_RETURNS_RETAINED
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#if __has_feature(attribute_ns_returns_retained)
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<span class="code_highlight">#define NS_RETURNS_RETAINED __attribute__((ns_returns_retained))</span>
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#else
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#define NS_RETURNS_RETAINED
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#endif
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#endif
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@interface MyClass : NSObject {}
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- (NSString*) returnsRetained <span class="code_highlight">NS_RETURNS_RETAINED</span>;
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- (NSString*) alsoReturnsRetained;
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@end
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@implementation MyClass
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- (NSString*) returnsRetained {
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return [[NSString alloc] initWithCString:"no leak here"];
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}
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- (NSString*) alsoReturnsRetained {
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return [[NSString alloc] initWithCString:"flag a leak"];
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}
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@end
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</pre>
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<p>Running <tt>scan-build</tt> on this source file produces the following output:</p>
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<img src="images/example_ns_returns_retained.png" alt="example returns retained">
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<h4 id="attr_ns_returns_not_retained">Attribute 'ns_returns_not_retained'
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(Clang-specific)</h4>
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<p>The 'ns_returns_not_retained' attribute is the complement of '<a
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href="#attr_ns_returns_retained">ns_returns_retained</a>'. Where a function or
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method may appear to obey the Cocoa conventions and return a retained Cocoa
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object, this attribute can be used to indicate that the object reference
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returned should not be considered as an "owning" reference being
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returned to the caller. The Foundation framework defines a
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macro <b><tt>NS_RETURNS_NOT_RETAINED</tt></b> that is functionally equivalent to
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the one shown below.</p>
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<p>Usage is identical to <a
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href="#attr_ns_returns_retained">ns_returns_retained</a>. When using the
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attribute, be sure to declare it within the proper macro that checks for
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its availability, as it is not available in earlier versions of the analyzer:</p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef NS_RETURNS_NOT_RETAINED
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#if __has_feature(attribute_ns_returns_not_retained)
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<span class="code_highlight">#define NS_RETURNS_NOT_RETAINED __attribute__((ns_returns_not_retained))</span>
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#else
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#define NS_RETURNS_NOT_RETAINED
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#endif
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#endif
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</pre>
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<h4 id="attr_cf_returns_retained">Attribute 'cf_returns_retained'
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(Clang-specific)</h4>
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<p>The GCC-style (Clang-specific) attribute 'cf_returns_retained' allows one to
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annotate an Objective-C method or C function as returning a retained Core
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Foundation object that the caller is responsible for releasing. The
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CoreFoundation framework defines a macro <b><tt>CF_RETURNS_RETAINED</tt></b>
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that is functionally equivalent to the one shown below.</p>
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<p><b>Placing on Objective-C methods</b>: With respect to Objective-C methods.,
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this attribute is identical in its behavior and usage to 'ns_returns_retained'
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except for the distinction of returning a Core Foundation object instead of a
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Cocoa object.
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This distinction is important for the following reason:
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as Core Foundation is a C API,
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the analyzer cannot always tell that a pointer return value refers to a
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Core Foundation object.
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In contrast, it is
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trivial for the analyzer to recognize if a pointer refers to a Cocoa object
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(given the Objective-C type system).
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<p><b>Placing on C functions</b>: When placing the attribute
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'cf_returns_retained' on the declarations of C functions, the analyzer
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interprets the function as:</p>
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<ol>
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<li>Returning a Core Foundation Object</li>
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<li>Treating the function as if it its name
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contained the keywords "create" or "copy". This means the
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returned object as a +1 retain count that must be released by the caller, either
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by sending a <tt>release</tt> message (via toll-free bridging to an Objective-C
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object pointer), or calling <tt>CFRelease</tt> or a similar function.</li>
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</ol>
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<p><b>Example</b></p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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$ cat test.m
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#import <Cocoa/Cocoa.h>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef CF_RETURNS_RETAINED
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#if __has_feature(attribute_cf_returns_retained)
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<span class="code_highlight">#define CF_RETURNS_RETAINED __attribute__((cf_returns_retained))</span>
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#else
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#define CF_RETURNS_RETAINED
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#endif
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#endif
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@interface MyClass : NSObject {}
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- (NSDate*) returnsCFRetained <span class="code_highlight">CF_RETURNS_RETAINED</span>;
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- (NSDate*) alsoReturnsRetained;
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- (NSDate*) returnsNSRetained <span class="code_highlight">NS_RETURNS_RETAINED</span>;
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@end
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<span class="code_highlight">CF_RETURNS_RETAINED</span>
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CFDateRef returnsRetainedCFDate() {
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return CFDateCreate(0, CFAbsoluteTimeGetCurrent());
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}
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@implementation MyClass
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- (NSDate*) returnsCFRetained {
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return (NSDate*) returnsRetainedCFDate(); <b><i>// No leak.</i></b>
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}
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- (NSDate*) alsoReturnsRetained {
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return (NSDate*) returnsRetainedCFDate(); <b><i>// Always report a leak.</i></b>
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}
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- (NSDate*) returnsNSRetained {
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return (NSDate*) returnsRetainedCFDate(); <b><i>// Report a leak when using GC.</i></b>
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}
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@end
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</pre>
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<p>Running <tt>scan-build</tt> on this example produces the following output:</p>
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<img src="images/example_cf_returns_retained.png" alt="example returns retained">
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<h4 id="attr_cf_returns_not_retained">Attribute 'cf_returns_not_retained'
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(Clang-specific)</h4>
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<p>The 'cf_returns_not_retained' attribute is the complement of '<a
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href="#attr_cf_returns_retained">cf_returns_retained</a>'. Where a function or
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method may appear to obey the Core Foundation or Cocoa conventions and return
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a retained Core Foundation object, this attribute can be used to indicate that
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the object reference returned should not be considered as an
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"owning" reference being returned to the caller. The
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CoreFoundation framework defines a macro <b><tt>CF_RETURNS_NOT_RETAINED</tt></b>
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that is functionally equivalent to the one shown below.</p>
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<p>Usage is identical to <a
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href="#attr_cf_returns_retained">cf_returns_retained</a>. When using the
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attribute, be sure to declare it within the proper macro that checks for
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its availability, as it is not available in earlier versions of the analyzer:</p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef CF_RETURNS_NOT_RETAINED
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#if __has_feature(attribute_cf_returns_not_retained)
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<span class="code_highlight">#define CF_RETURNS_NOT_RETAINED __attribute__((cf_returns_not_retained))</span>
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#else
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#define CF_RETURNS_NOT_RETAINED
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#endif
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#endif
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</pre>
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<h4 id="attr_ns_consumed">Attribute 'ns_consumed'
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(Clang-specific)</h4>
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<p>The 'ns_consumed' attribute can be placed on a specific parameter in either
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the declaration of a function or an Objective-C method. It indicates to the
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static analyzer that a <tt>release</tt> message is implicitly sent to the
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parameter upon completion of the call to the given function or method. The
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Foundation framework defines a macro <b><tt>NS_RELEASES_ARGUMENT</tt></b> that
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is functionally equivalent to the <tt>NS_CONSUMED</tt> macro shown below.</p>
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<p><b>Example</b></p>
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<pre class="code_example">
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<span class="command">$ cat test.m</span>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef NS_CONSUMED
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#if __has_feature(attribute_ns_consumed)
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<span class="code_highlight">#define NS_CONSUMED __attribute__((ns_consumed))</span>
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#else
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#define NS_CONSUMED
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#endif
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#endif
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void consume_ns(id <span class="code_highlight">NS_CONSUMED</span> x);
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void test() {
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id x = [[NSObject alloc] init];
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consume_ns(x); <b><i>// No leak!</i></b>
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}
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@interface Foo : NSObject
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+ (void) releaseArg:(id) <span class="code_highlight">NS_CONSUMED</span> x;
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+ (void) releaseSecondArg:(id)x second:(id) <span class="code_highlight">NS_CONSUMED</span> y;
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@end
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void test_method() {
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id x = [[NSObject alloc] init];
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[Foo releaseArg:x]; <b><i>// No leak!</i></b>
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}
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void test_method2() {
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id a = [[NSObject alloc] init];
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id b = [[NSObject alloc] init];
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[Foo releaseSecondArg:a second:b]; <b><i>// 'a' is leaked, but 'b' is released.</i></b>
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}
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</pre>
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<h4 id="attr_cf_consumed">Attribute 'cf_consumed'
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(Clang-specific)</h4>
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<p>The 'cf_consumed' attribute is practically identical to <a
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href="#attr_ns_consumed">ns_consumed</a>. The attribute can be placed on a
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specific parameter in either the declaration of a function or an Objective-C
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method. It indicates to the static analyzer that the object reference is
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implicitly passed to a call to <tt>CFRelease</tt> upon completion of the call
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to the given function or method. The CoreFoundation framework defines a macro
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<b><tt>CF_RELEASES_ARGUMENT</tt></b> that is functionally equivalent to the
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<tt>CF_CONSUMED</tt> macro shown below.</p>
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<p>Operationally this attribute is nearly identical to 'ns_consumed'.</p>
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<p><b>Example</b></p>
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<pre class="code_example">
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|
<span class="command">$ cat test.m</span>
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#ifndef __has_feature // Optional.
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#define __has_feature(x) 0 // Compatibility with non-clang compilers.
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#endif
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#ifndef CF_CONSUMED
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#if __has_feature(attribute_cf_consumed)
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<span class="code_highlight">#define CF_CONSUMED __attribute__((cf_consumed))</span>
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#else
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#define CF_CONSUMED
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#endif
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#endif
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void consume_cf(id <span class="code_highlight">CF_CONSUMED</span> x);
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void consume_CFDate(CFDateRef <span class="code_highlight">CF_CONSUMED</span> x);
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void test() {
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id x = [[NSObject alloc] init];
|
|
consume_cf(x); <b><i>// No leak!</i></b>
|
|
}
|
|
|
|
void test2() {
|
|
CFDateRef date = CFDateCreate(0, CFAbsoluteTimeGetCurrent());
|
|
consume_CFDate(date); <b><i>// No leak, including under GC!</i></b>
|
|
|
|
}
|
|
|
|
@interface Foo : NSObject
|
|
+ (void) releaseArg:(CFDateRef) <span class="code_highlight">CF_CONSUMED</span> x;
|
|
@end
|
|
|
|
void test_method() {
|
|
CFDateRef date = CFDateCreate(0, CFAbsoluteTimeGetCurrent());
|
|
[Foo releaseArg:date]; <b><i>// No leak!</i></b>
|
|
}
|
|
</pre>
|
|
|
|
<h4 id="attr_ns_consumes_self">Attribute 'ns_consumes_self'
|
|
(Clang-specific)</h4>
|
|
|
|
<p>The 'ns_consumes_self' attribute can be placed only on an Objective-C method
|
|
declaration. It indicates that the receiver of the message is
|
|
"consumed" (a single reference count decremented) after the message
|
|
is sent. This matches the semantics of all "init" methods.</p>
|
|
|
|
<p>One use of this attribute is declare your own init-like methods that do not
|
|
follow the standard Cocoa naming conventions.</p>
|
|
|
|
<p><b>Example</b></p>
|
|
|
|
<pre class="code_example">
|
|
#ifndef __has_feature
|
|
#define __has_feature(x) 0 // Compatibility with non-clang compilers.
|
|
#endif
|
|
|
|
#ifndef NS_CONSUMES_SELF
|
|
#if __has_feature((attribute_ns_consumes_self))
|
|
<span class="code_highlight">#define NS_CONSUMES_SELF __attribute__((ns_consumes_self))</span>
|
|
#else
|
|
#define NS_CONSUMES_SELF
|
|
#endif
|
|
#endif
|
|
|
|
@interface MyClass : NSObject
|
|
- initWith:(MyClass *)x;
|
|
- nonstandardInitWith:(MyClass *)x <span class="code_highlight">NS_CONSUMES_SELF</span> NS_RETURNS_RETAINED;
|
|
@end
|
|
</pre>
|
|
|
|
<p>In this example, <tt>-nonstandardInitWith:</tt> has the same ownership
|
|
semantics as the init method <tt>-initWith:</tt>. The static analyzer will
|
|
observe that the method consumes the receiver, and then returns an object with
|
|
a +1 retain count.</p>
|
|
|
|
<p>The Foundation framework defines a macro <b><tt>NS_REPLACES_RECEIVER</tt></b>
|
|
which is functionally equivalent to the combination of <tt>NS_CONSUMES_SELF</tt>
|
|
and <tt>NS_RETURNS_RETAINED</tt> shown above.</p>
|
|
|
|
<h3 id="osobject_mem">Libkern Memory Management Annotations</h3>
|
|
|
|
<p><a
|
|
href="https://developer.apple.com/documentation/kernel/osobject?language=objc">Libkern</a>
|
|
requires developers to inherit all heap allocated objects from <tt>OSObject</tt>
|
|
and to perform manual reference counting.
|
|
The reference counting model is very similar to MRR (manual retain-release) mode in
|
|
<a href="https://developer.apple.com/library/archive/documentation/Cocoa/Conceptual/MemoryMgmt/Articles/mmRules.html">Objective-C</a>
|
|
or to CoreFoundation reference counting.
|
|
Freshly-allocated objects start with a reference count of 1,
|
|
and calls to <tt>retain</tt> increment it,
|
|
while calls to <tt>release</tt> decrement it.
|
|
The object is deallocated whenever its reference count reaches zero.</p>
|
|
|
|
<p>Manually incrementing and decrementing reference counts is error-prone:
|
|
over-retains lead to leaks, and over-releases lead to uses-after-free.
|
|
The analyzer can help the programmer to check for unbalanced
|
|
retain/release calls.</p>
|
|
|
|
<p>The reference count checking is based on the principle of
|
|
<em>locality</em>: it should be possible to establish correctness
|
|
(lack of leaks/uses after free) by looking at each function body,
|
|
and the declarations (not the definitions) of all the functions it interacts
|
|
with.</p>
|
|
|
|
<p>In order to support such reasoning, it should be possible to <em>summarize</em>
|
|
the behavior of each function, with respect to reference count
|
|
of its returned values and attributes.</p>
|
|
|
|
<p>By default, the following summaries are assumed:</p>
|
|
<ul>
|
|
<li>All functions starting with <tt>get</tt> or <tt>Get</tt>,
|
|
unless they are returning subclasses of <tt>OSIterator</tt>,
|
|
are assumed to be returning at +0.
|
|
That is, the caller has no reference
|
|
count <em>obligations</em> with respect to the reference count of the returned object
|
|
and should leave it untouched.
|
|
</li>
|
|
|
|
<li>
|
|
All other functions are assumed to return at +1.
|
|
That is, the caller has an <em>obligation</em> to release such objects.
|
|
</li>
|
|
|
|
<li>
|
|
Functions are assumed not to change the reference count of their parameters,
|
|
including the implicit <tt>this</tt> parameter.
|
|
</li>
|
|
</ul>
|
|
|
|
<p>These summaries can be overriden with the following
|
|
<a href="https://clang.llvm.org/docs/AttributeReference.html#os-returns-not-retained">attributes</a>:</p>
|
|
|
|
<h4 id="attr_os_returns_retained">Attribute 'os_returns_retained'</h4>
|
|
|
|
<p>The <tt>os_returns_retained</tt> attribute (accessed through the macro <tt>
|
|
LIBKERN_RETURNS_RETAINED</tt>) plays a role identical to <a
|
|
href="#attr_ns_returns_retained">ns_returns_retained</a> for functions
|
|
returning <tt>OSObject</tt> subclasses.
|
|
The attribute indicates that it is a callers responsibility to release the
|
|
returned object.
|
|
</p>
|
|
|
|
|
|
<h4 id="attr_os_returns_not_retained">Attribute 'os_returns_not_retained'</h4>
|
|
|
|
<p>The <tt>os_returns_not_retained</tt> attribute (accessed through the macro <tt>
|
|
LIBKERN_RETURNS_NOT_RETAINED</tt>) plays a role identical to <a
|
|
href="#attr_ns_returns_not_retained">ns_returns_not_retained</a> for functions
|
|
returning <tt>OSObject</tt> subclasses.
|
|
The attribute indicates that the caller should not change the retain
|
|
count of the returned object.
|
|
</p>
|
|
|
|
<h5>Example</h5>
|
|
|
|
<pre class="code_example">
|
|
class MyClass {
|
|
OSObject *f;
|
|
LIBKERN_RETURNS_NOT_RETAINED OSObject *myFieldGetter();
|
|
}
|
|
|
|
|
|
// Note that the annotation only has to be applied to the function declaration.
|
|
OSObject * MyClass::myFieldGetter() {
|
|
return f;
|
|
}
|
|
</pre>
|
|
|
|
<h4 id="attr_os_consumed">Attribute 'os_consumed'</h4>
|
|
|
|
<p>Similarly to <a href="#attr_ns_consumed">ns_consumed</a> attribute,
|
|
<tt>os_consumed</tt> (accessed through <tt>LIBKERN_CONSUMED</tt>) attribute,
|
|
applied to a parameter,
|
|
indicates that the call to the function <em>consumes</em> the parameter:
|
|
the callee should either release it or store it and release it in the destructor,
|
|
while the caller should assume one is subtracted from the reference count
|
|
after the call.</p>
|
|
|
|
<pre class="code_example">
|
|
IOReturn addToList(LIBKERN_CONSUMED IOPMinformee *newInformee);
|
|
</pre>
|
|
|
|
<h4 id="attr_os_consumes_this">Attribute 'os_consumes_this'</h4>
|
|
|
|
<p>Similarly to <a href="#attr_ns_consumes_self">ns_consumes_self</a>,
|
|
the <tt>os_consumes_self</tt> attribute indicates that the method call
|
|
<em>consumes</em> the implicit <tt>this</tt> argument: the caller
|
|
should assume one was subtracted from the reference count of the object
|
|
after the call, and the callee has on obligation to either
|
|
release the argument, or store it and eventually release it in the
|
|
destructor.</p>
|
|
|
|
<pre class="code_example">
|
|
void addThisToList(OSArray *givenList) LIBKERN_CONSUMES_THIS;
|
|
</pre>
|
|
|
|
<h4 id="os_out_parameters">Out Parameters</h4>
|
|
|
|
A function can also return an object to a caller by a means of an out parameter
|
|
(a pointer-to-OSObject-pointer is passed, and a callee writes a pointer to an
|
|
object into an argument).
|
|
Currently the analyzer does not track unannotated out
|
|
parameters by default, but with annotations we distinguish four separate cases:
|
|
|
|
<p><b>1. Non-retained out parameters</b>, identified using
|
|
<tt>LIBKERN_RETURNS_NOT_RETAINED</tt> applied to parameters, e.g.:</p>
|
|
|
|
<pre class="code_example">
|
|
void getterViaOutParam(LIBKERN_RETURNS_NOT_RETAINED OSObject **obj)
|
|
</pre>
|
|
|
|
<p>Such functions write a non-retained object into an out parameter, and the
|
|
caller has no further obligations.</p>
|
|
|
|
<p><b>2. Retained out parameters</b>,
|
|
identified using <tt>LIBKERN_RETURNS_RETAINED</tt>:</p>
|
|
<pre class="code_example">
|
|
void getterViaOutParam(LIBKERN_RETURNS_NOT_RETAINED OSObject **obj)
|
|
</pre>
|
|
<p>
|
|
In such cases a retained object is written into an out parameter, which the caller has then to release in order to avoid a leak.
|
|
</p>
|
|
|
|
<p>These two cases are simple - but in practice a functions returning an out-parameter usually also return a return code, and then an out parameter may or may not be written, which conditionally depends on the exit code, e.g.:</p>
|
|
|
|
<pre class="code_example">
|
|
bool maybeCreateObject(LIBKERN_RETURNS_RETAINED OSObject **obj);
|
|
</pre>
|
|
|
|
<p>For such functions, the usual semantics is that an object is written into on "success", and not written into on "failure".<p>
|
|
|
|
<p>For <tt>LIBKERN_RETURNS_RETAINED</tt> we assume the following definition of
|
|
success:</p>
|
|
|
|
<p>For functions returning <tt>OSReturn</tt> or <tt>IOReturn</tt>
|
|
(any typedef to <tt>kern_return_t</tt>) success is defined as having an output of zero (<tt>kIOReturnSuccess</tt> is zero).
|
|
For all others, success is non-zero (e.g. non-nullptr for pointers)</p>
|
|
|
|
<p><b>3. Retained out parameters on zero return</b>
|
|
The annotation <tt>LIBKERN_RETURNS_RETAINED_ON_ZERO</tt> states
|
|
that a retained object is written into if and only if the function returns a zero value:</p>
|
|
|
|
<pre class="code_example">
|
|
bool OSUnserializeXML(void *data, LIBKERN_RETURNS_RETAINED_ON_ZERO OSString **errString);
|
|
</pre>
|
|
|
|
<p>Then the caller has to release an object if the function has returned zero.</p>
|
|
|
|
<p><b>4. Retained out parameters on non-zero return</b>
|
|
Similarly, <tt>LIBKERN_RETURNS_RETAINED_ON_NONZERO</tt> specifies that a
|
|
retained object is written into the parameter if and only if the function has
|
|
returned a non-zero value.</p>
|
|
|
|
<p>Note that for non-retained out parameters conditionals do not matter, as the
|
|
caller has no obligations regardless of whether an object is written into or
|
|
not.</p>
|
|
|
|
<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
|
|
<h2 id="custom_assertions">Custom Assertion Handlers</h2>
|
|
<!-- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -->
|
|
|
|
<p>The analyzer exploits code assertions by pruning off paths where the
|
|
assertion condition is false. The idea is capture any program invariants
|
|
specified in the assertion that the developer may know but is not immediately
|
|
apparent in the code itself. In this way assertions make implicit assumptions
|
|
explicit in the code, which not only makes the analyzer more accurate when
|
|
finding bugs, but can help others better able to understand your code as well.
|
|
It can also help remove certain kinds of analyzer false positives by pruning off
|
|
false paths.</p>
|
|
|
|
<p>In order to exploit assertions, however, the analyzer must understand when it
|
|
encounters an "assertion handler." Typically assertions are
|
|
implemented with a macro, with the macro performing a check for the assertion
|
|
condition and, when the check fails, calling an assertion handler. For example, consider the following code
|
|
fragment:</p>
|
|
|
|
<pre class="code_example">
|
|
void foo(int *p) {
|
|
assert(p != NULL);
|
|
}
|
|
</pre>
|
|
|
|
<p>When this code is preprocessed on Mac OS X it expands to the following:</p>
|
|
|
|
<pre class="code_example">
|
|
void foo(int *p) {
|
|
(__builtin_expect(!(p != NULL), 0) ? __assert_rtn(__func__, "t.c", 4, "p != NULL") : (void)0);
|
|
}
|
|
</pre>
|
|
|
|
<p>In this example, the assertion handler is <tt>__assert_rtn</tt>. When called,
|
|
most assertion handlers typically print an error and terminate the program. The
|
|
analyzer can exploit such semantics by ending the analysis of a path once it
|
|
hits a call to an assertion handler.</p>
|
|
|
|
<p>The trick, however, is that the analyzer needs to know that a called function
|
|
is an assertion handler; otherwise the analyzer might assume the function call
|
|
returns and it will continue analyzing the path where the assertion condition
|
|
failed. This can lead to false positives, as the assertion condition usually
|
|
implies a safety condition (e.g., a pointer is not null) prior to performing
|
|
some action that depends on that condition (e.g., dereferencing a pointer).</p>
|
|
|
|
<p>The analyzer knows about several well-known assertion handlers, but can
|
|
automatically infer if a function should be treated as an assertion handler if
|
|
it is annotated with the 'noreturn' attribute or the (Clang-specific)
|
|
'analyzer_noreturn' attribute. Note that, currently, clang does not support
|
|
these attributes on Objective-C methods and C++ methods.</p>
|
|
|
|
<h4 id="attr_noreturn">Attribute 'noreturn'</h4>
|
|
|
|
<p>The 'noreturn' attribute is a GCC-attribute that can be placed on the
|
|
declarations of functions. It means exactly what its name implies: a function
|
|
with a 'noreturn' attribute should never return.</p>
|
|
|
|
<p>Specific details of the syntax of using the 'noreturn' attribute can be found
|
|
in <a
|
|
href="https://gcc.gnu.org/onlinedocs/gcc/Common-Function-Attributes.html#index-noreturn-function-attribute">GCC's
|
|
documentation</a>.</p>
|
|
|
|
<p>Not only does the analyzer exploit this information when pruning false paths,
|
|
but the compiler also takes it seriously and will generate different code (and
|
|
possibly better optimized) under the assumption that the function does not
|
|
return.</p>
|
|
|
|
<p><b>Example</b></p>
|
|
|
|
<p>On Mac OS X, the function prototype for <tt>__assert_rtn</tt> (declared in
|
|
<tt>assert.h</tt>) is specifically annotated with the 'noreturn' attribute:</p>
|
|
|
|
<pre class="code_example">
|
|
void __assert_rtn(const char *, const char *, int, const char *) <span class="code_highlight">__attribute__((__noreturn__))</span>;
|
|
</pre>
|
|
|
|
<h4 id="attr_analyzer_noreturn">Attribute 'analyzer_noreturn' (Clang-specific)</h4>
|
|
|
|
<p>The Clang-specific 'analyzer_noreturn' attribute is almost identical to
|
|
'noreturn' except that it is ignored by the compiler for the purposes of code
|
|
generation.</p>
|
|
|
|
<p>This attribute is useful for annotating assertion handlers that actually
|
|
<em>can</em> return, but for the purpose of using the analyzer we want to
|
|
pretend that such functions do not return.</p>
|
|
|
|
<p>Because this attribute is Clang-specific, its use should be conditioned with
|
|
the use of preprocessor macros.</p>
|
|
|
|
<p><b>Example</b>
|
|
|
|
<pre class="code_example">
|
|
#ifndef CLANG_ANALYZER_NORETURN
|
|
#if __has_feature(attribute_analyzer_noreturn)
|
|
<span class="code_highlight">#define CLANG_ANALYZER_NORETURN __attribute__((analyzer_noreturn))</span>
|
|
#else
|
|
#define CLANG_ANALYZER_NORETURN
|
|
#endif
|
|
#endif
|
|
|
|
void my_assert_rtn(const char *, const char *, int, const char *) <span class="code_highlight">CLANG_ANALYZER_NORETURN</span>;
|
|
</pre>
|
|
|
|
</div>
|
|
</div>
|
|
</body>
|
|
</html>
|