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<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd"> <html> <!-- Created by GNU Texinfo 6.8, https://www.gnu.org/software/texinfo/ --> <head> <meta http-equiv="Content-Type" content="text/html; charset=utf-8"> <!-- This manual is for libffi, a portable foreign function interface library. Copyright (C) 2008-2019, 2021, 2022 Anthony Green and Red Hat, Inc. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. 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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. --> <title>The Basics (libffi: the portable foreign function interface library)</title> <meta name="description" content="The Basics (libffi: the portable foreign function interface library)"> <meta name="keywords" content="The Basics (libffi: the portable foreign function interface library)"> <meta name="resource-type" content="document"> <meta name="distribution" content="global"> <meta name="Generator" content="makeinfo"> <meta name="viewport" content="width=device-width,initial-scale=1"> <link href="index.html" rel="start" title="Top"> <link href="Index.html" rel="index" title="Index"> <link href="Using-libffi.html" rel="up" title="Using libffi"> <link href="Simple-Example.html" rel="next" title="Simple Example"> <style type="text/css"> <!-- a.copiable-anchor {visibility: hidden; text-decoration: none; line-height: 0em} a.summary-letter {text-decoration: none} blockquote.indentedblock {margin-right: 0em} div.display {margin-left: 3.2em} div.example {margin-left: 3.2em} kbd {font-style: oblique} pre.display {font-family: inherit} pre.format {font-family: inherit} pre.menu-comment {font-family: serif} pre.menu-preformatted {font-family: serif} span.nolinebreak {white-space: nowrap} span.roman {font-family: initial; font-weight: normal} span.sansserif {font-family: sans-serif; font-weight: normal} span:hover a.copiable-anchor {visibility: visible} ul.no-bullet {list-style: none} --> </style> </head> <body lang="en"> <div class="section" id="The-Basics"> <div class="header"> <p> Next: <a href="Simple-Example.html" accesskey="n" rel="next">Simple Example</a>, Up: <a href="Using-libffi.html" accesskey="u" rel="up">Using libffi</a> [<a href="Index.html" title="Index" rel="index">Index</a>]</p> </div> <hr> <span id="The-Basics-1"></span><h3 class="section">2.1 The Basics</h3> <p><code>libffi</code> assumes that you have a pointer to the function you wish to call and that you know the number and types of arguments to pass it, as well as the return type of the function. </p> <p>The first thing you must do is create an <code>ffi_cif</code> object that matches the signature of the function you wish to call. This is a separate step because it is common to make multiple calls using a single <code>ffi_cif</code>. The <em>cif</em> in <code>ffi_cif</code> stands for Call InterFace. To prepare a call interface object, use the function <code>ffi_prep_cif</code>. <span id="index-cif"></span> </p> <span id="index-ffi_005fprep_005fcif"></span> <dl class="def"> <dt id="index-ffi_005fstatus"><span class="category">Function: </span><span><strong>ffi_status</strong> <em>ffi_prep_cif (ffi_cif *<var>cif</var>, ffi_abi <var>abi</var>, unsigned int <var>nargs</var>, ffi_type *<var>rtype</var>, ffi_type **<var>argtypes</var>)</em><a href='#index-ffi_005fstatus' class='copiable-anchor'> ¶</a></span></dt> <dd><p>This initializes <var>cif</var> according to the given parameters. </p> <p><var>abi</var> is the ABI to use; normally <code>FFI_DEFAULT_ABI</code> is what you want. <a href="Multiple-ABIs.html">Multiple ABIs</a> for more information. </p> <p><var>nargs</var> is the number of arguments that this function accepts. </p> <p><var>rtype</var> is a pointer to an <code>ffi_type</code> structure that describes the return type of the function. See <a href="Types.html">Types</a>. </p> <p><var>argtypes</var> is a vector of <code>ffi_type</code> pointers. <var>argtypes</var> must have <var>nargs</var> elements. If <var>nargs</var> is 0, this argument is ignored. </p> <p><code>ffi_prep_cif</code> returns a <code>libffi</code> status code, of type <code>ffi_status</code>. This will be either <code>FFI_OK</code> if everything worked properly; <code>FFI_BAD_TYPEDEF</code> if one of the <code>ffi_type</code> objects is incorrect; or <code>FFI_BAD_ABI</code> if the <var>abi</var> parameter is invalid. </p></dd></dl> <p>If the function being called is variadic (varargs) then <code>ffi_prep_cif_var</code> must be used instead of <code>ffi_prep_cif</code>. </p> <span id="index-ffi_005fprep_005fcif_005fvar"></span> <dl class="def"> <dt id="index-ffi_005fstatus-1"><span class="category">Function: </span><span><strong>ffi_status</strong> <em>ffi_prep_cif_var (ffi_cif *<var>cif</var>, ffi_abi <var>abi</var>, unsigned int <var>nfixedargs</var>, unsigned int <var>ntotalargs</var>, ffi_type *<var>rtype</var>, ffi_type **<var>argtypes</var>)</em><a href='#index-ffi_005fstatus-1' class='copiable-anchor'> ¶</a></span></dt> <dd><p>This initializes <var>cif</var> according to the given parameters for a call to a variadic function. In general its operation is the same as for <code>ffi_prep_cif</code> except that: </p> <p><var>nfixedargs</var> is the number of fixed arguments, prior to any variadic arguments. It must be greater than zero. </p> <p><var>ntotalargs</var> the total number of arguments, including variadic and fixed arguments. <var>argtypes</var> must have this many elements. </p> <p><code>ffi_prep_cif_var</code> will return <code>FFI_BAD_ARGTYPE</code> if any of the variable argument types are <code>ffi_type_float</code> (promote to <code>ffi_type_double</code> first), or any integer type small than an int (promote to an int-sized type first). </p> <p>Note that, different cif’s must be prepped for calls to the same function when different numbers of arguments are passed. </p> <p>Also note that a call to <code>ffi_prep_cif_var</code> with <var>nfixedargs</var>=<var>nototalargs</var> is NOT equivalent to a call to <code>ffi_prep_cif</code>. </p> </dd></dl> <p>Note that the resulting <code>ffi_cif</code> holds pointers to all the <code>ffi_type</code> objects that were used during initialization. You must ensure that these type objects have a lifetime at least as long as that of the <code>ffi_cif</code>. </p> <p>To call a function using an initialized <code>ffi_cif</code>, use the <code>ffi_call</code> function: </p> <span id="index-ffi_005fcall"></span> <dl class="def"> <dt id="index-void"><span class="category">Function: </span><span><strong>void</strong> <em>ffi_call (ffi_cif *<var>cif</var>, void *<var>fn</var>, void *<var>rvalue</var>, void **<var>avalues</var>)</em><a href='#index-void' class='copiable-anchor'> ¶</a></span></dt> <dd><p>This calls the function <var>fn</var> according to the description given in <var>cif</var>. <var>cif</var> must have already been prepared using <code>ffi_prep_cif</code>. </p> <p><var>rvalue</var> is a pointer to a chunk of memory that will hold the result of the function call. This must be large enough to hold the result, no smaller than the system register size (generally 32 or 64 bits), and must be suitably aligned; it is the caller’s responsibility to ensure this. If <var>cif</var> declares that the function returns <code>void</code> (using <code>ffi_type_void</code>), then <var>rvalue</var> is ignored. </p> <p>In most situations, <code>libffi</code> will handle promotion according to the ABI. However, for historical reasons, there is a special case with return values that must be handled by your code. In particular, for integral (not <code>struct</code>) types that are narrower than the system register size, the return value will be widened by <code>libffi</code>. <code>libffi</code> provides a type, <code>ffi_arg</code>, that can be used as the return type. For example, if the CIF was defined with a return type of <code>char</code>, <code>libffi</code> will try to store a full <code>ffi_arg</code> into the return value. </p> <p><var>avalues</var> is a vector of <code>void *</code> pointers that point to the memory locations holding the argument values for a call. If <var>cif</var> declares that the function has no arguments (i.e., <var>nargs</var> was 0), then <var>avalues</var> is ignored. </p> <p>Note that while the return value must be register-sized, arguments should exactly match their declared type. For example, if an argument is a <code>short</code>, then the entry in <var>avalues</var> should point to an object declared as <code>short</code>; but if the return type is <code>short</code>, then <var>rvalue</var> should point to an object declared as a larger type – usually <code>ffi_arg</code>. </p></dd></dl> </div> <hr> <div class="header"> <p> Next: <a href="Simple-Example.html">Simple Example</a>, Up: <a href="Using-libffi.html">Using libffi</a> [<a href="Index.html" title="Index" rel="index">Index</a>]</p> </div> </body> </html>