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- <a name="Initialization"></a>
- <div class="header">
- <p>
- Next: <a href="Macros-for-Initialization.html#Macros-for-Initialization" accesskey="n" rel="next">Macros for Initialization</a>, Previous: <a href="Label-Output.html#Label-Output" accesskey="p" rel="prev">Label Output</a>, Up: <a href="Assembler-Format.html#Assembler-Format" accesskey="u" rel="up">Assembler Format</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
- </div>
- <hr>
- <a name="How-Initialization-Functions-Are-Handled"></a>
- <h4 class="subsection">18.20.5 How Initialization Functions Are Handled</h4>
- <a name="index-initialization-routines"></a>
- <a name="index-termination-routines"></a>
- <a name="index-constructors_002c-output-of"></a>
- <a name="index-destructors_002c-output-of"></a>
-
- <p>The compiled code for certain languages includes <em>constructors</em>
- (also called <em>initialization routines</em>)—functions to initialize
- data in the program when the program is started. These functions need
- to be called before the program is “started”—that is to say, before
- <code>main</code> is called.
- </p>
- <p>Compiling some languages generates <em>destructors</em> (also called
- <em>termination routines</em>) that should be called when the program
- terminates.
- </p>
- <p>To make the initialization and termination functions work, the compiler
- must output something in the assembler code to cause those functions to
- be called at the appropriate time. When you port the compiler to a new
- system, you need to specify how to do this.
- </p>
- <p>There are two major ways that GCC currently supports the execution of
- initialization and termination functions. Each way has two variants.
- Much of the structure is common to all four variations.
- </p>
- <a name="index-_005f_005fCTOR_005fLIST_005f_005f"></a>
- <a name="index-_005f_005fDTOR_005fLIST_005f_005f"></a>
- <p>The linker must build two lists of these functions—a list of
- initialization functions, called <code>__CTOR_LIST__</code>, and a list of
- termination functions, called <code>__DTOR_LIST__</code>.
- </p>
- <p>Each list always begins with an ignored function pointer (which may hold
- 0, -1, or a count of the function pointers after it, depending on
- the environment). This is followed by a series of zero or more function
- pointers to constructors (or destructors), followed by a function
- pointer containing zero.
- </p>
- <p>Depending on the operating system and its executable file format, either
- <samp>crtstuff.c</samp> or <samp>libgcc2.c</samp> traverses these lists at startup
- time and exit time. Constructors are called in reverse order of the
- list; destructors in forward order.
- </p>
- <p>The best way to handle static constructors works only for object file
- formats which provide arbitrarily-named sections. A section is set
- aside for a list of constructors, and another for a list of destructors.
- Traditionally these are called ‘<samp>.ctors</samp>’ and ‘<samp>.dtors</samp>’. Each
- object file that defines an initialization function also puts a word in
- the constructor section to point to that function. The linker
- accumulates all these words into one contiguous ‘<samp>.ctors</samp>’ section.
- Termination functions are handled similarly.
- </p>
- <p>This method will be chosen as the default by <samp>target-def.h</samp> if
- <code>TARGET_ASM_NAMED_SECTION</code> is defined. A target that does not
- support arbitrary sections, but does support special designated
- constructor and destructor sections may define <code>CTORS_SECTION_ASM_OP</code>
- and <code>DTORS_SECTION_ASM_OP</code> to achieve the same effect.
- </p>
- <p>When arbitrary sections are available, there are two variants, depending
- upon how the code in <samp>crtstuff.c</samp> is called. On systems that
- support a <em>.init</em> section which is executed at program startup,
- parts of <samp>crtstuff.c</samp> are compiled into that section. The
- program is linked by the <code>gcc</code> driver like this:
- </p>
- <div class="smallexample">
- <pre class="smallexample">ld -o <var>output_file</var> crti.o crtbegin.o … -lgcc crtend.o crtn.o
- </pre></div>
-
- <p>The prologue of a function (<code>__init</code>) appears in the <code>.init</code>
- section of <samp>crti.o</samp>; the epilogue appears in <samp>crtn.o</samp>. Likewise
- for the function <code>__fini</code> in the <em>.fini</em> section. Normally these
- files are provided by the operating system or by the GNU C library, but
- are provided by GCC for a few targets.
- </p>
- <p>The objects <samp>crtbegin.o</samp> and <samp>crtend.o</samp> are (for most targets)
- compiled from <samp>crtstuff.c</samp>. They contain, among other things, code
- fragments within the <code>.init</code> and <code>.fini</code> sections that branch
- to routines in the <code>.text</code> section. The linker will pull all parts
- of a section together, which results in a complete <code>__init</code> function
- that invokes the routines we need at startup.
- </p>
- <p>To use this variant, you must define the <code>INIT_SECTION_ASM_OP</code>
- macro properly.
- </p>
- <p>If no init section is available, when GCC compiles any function called
- <code>main</code> (or more accurately, any function designated as a program
- entry point by the language front end calling <code>expand_main_function</code>),
- it inserts a procedure call to <code>__main</code> as the first executable code
- after the function prologue. The <code>__main</code> function is defined
- in <samp>libgcc2.c</samp> and runs the global constructors.
- </p>
- <p>In file formats that don’t support arbitrary sections, there are again
- two variants. In the simplest variant, the GNU linker (GNU <code>ld</code>)
- and an ‘a.out’ format must be used. In this case,
- <code>TARGET_ASM_CONSTRUCTOR</code> is defined to produce a <code>.stabs</code>
- entry of type ‘<samp>N_SETT</samp>’, referencing the name <code>__CTOR_LIST__</code>,
- and with the address of the void function containing the initialization
- code as its value. The GNU linker recognizes this as a request to add
- the value to a <em>set</em>; the values are accumulated, and are eventually
- placed in the executable as a vector in the format described above, with
- a leading (ignored) count and a trailing zero element.
- <code>TARGET_ASM_DESTRUCTOR</code> is handled similarly. Since no init
- section is available, the absence of <code>INIT_SECTION_ASM_OP</code> causes
- the compilation of <code>main</code> to call <code>__main</code> as above, starting
- the initialization process.
- </p>
- <p>The last variant uses neither arbitrary sections nor the GNU linker.
- This is preferable when you want to do dynamic linking and when using
- file formats which the GNU linker does not support, such as ‘ECOFF’. In
- this case, <code>TARGET_HAVE_CTORS_DTORS</code> is false, initialization and
- termination functions are recognized simply by their names. This requires
- an extra program in the linkage step, called <code>collect2</code>. This program
- pretends to be the linker, for use with GCC; it does its job by running
- the ordinary linker, but also arranges to include the vectors of
- initialization and termination functions. These functions are called
- via <code>__main</code> as described above. In order to use this method,
- <code>use_collect2</code> must be defined in the target in <samp>config.gcc</samp>.
- </p>
-
- <hr>
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- <p>
- Next: <a href="Macros-for-Initialization.html#Macros-for-Initialization" accesskey="n" rel="next">Macros for Initialization</a>, Previous: <a href="Label-Output.html#Label-Output" accesskey="p" rel="prev">Label Output</a>, Up: <a href="Assembler-Format.html#Assembler-Format" accesskey="u" rel="up">Assembler Format</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
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