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* src/sparc/ffi.c (ffi_prep_args_v9): Shift the parameter array when the structure return address is passed in %o0. (ffi_V9_return_struct): Rename into ffi_v9_layout_struct. (ffi_v9_layout_struct): Align the field following a nested structure on a word boundary. Use memmove instead of memcpy. (ffi_call): Update call to ffi_V9_return_struct. (ffi_prep_closure): Define 'ctx' only for V8. (ffi_closure_sparc_inner): Clone into ffi_closure_sparc_inner_v8 and ffi_closure_sparc_inner_v9. (ffi_closure_sparc_inner_v8): Return long doubles by reference. Always skip the structure return address. For structures and long doubles, copy the argument directly. (ffi_closure_sparc_inner_v9): Skip the structure return address only if required. Shift the maximum floating-point slot accordingly. For big structures, copy the argument directly; otherwise, left-justify the argument and call ffi_v9_layout_struct to lay out the structure on the stack. * src/sparc/v8.S: Undef STACKFRAME before defining it. (ffi_closure_v8): Pass the structure return address. Update call to ffi_closure_sparc_inner_v8. Short-circuit FFI_TYPE_INT handling. Skip the 'unimp' insn when returning long doubles and structures. * src/sparc/v9.S: Undef STACKFRAME before defining it. (ffi_closure_v9): Increase the frame size by 2 words. Short-circuit FFI_TYPE_INT handling. Load structures both in integers and floating-point registers on return. * README: Update status of the SPARC port. From-SVN: r76543
501 lines
15 KiB
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501 lines
15 KiB
Plaintext
This directory contains the libffi package, which is not part of GCC but
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shipped with GCC as convenience.
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Status
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======
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libffi-2.00 has not been released yet! This is a development snapshot!
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libffi-1.20 was released on October 5, 1998. Check the libffi web
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page for updates: <URL:http://sources.redhat.com/libffi/>.
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What is libffi?
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===============
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Compilers for high level languages generate code that follow certain
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conventions. These conventions are necessary, in part, for separate
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compilation to work. One such convention is the "calling
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convention". The "calling convention" is essentially a set of
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assumptions made by the compiler about where function arguments will
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be found on entry to a function. A "calling convention" also specifies
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where the return value for a function is found.
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Some programs may not know at the time of compilation what arguments
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are to be passed to a function. For instance, an interpreter may be
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told at run-time about the number and types of arguments used to call
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a given function. Libffi can be used in such programs to provide a
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bridge from the interpreter program to compiled code.
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The libffi library provides a portable, high level programming
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interface to various calling conventions. This allows a programmer to
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call any function specified by a call interface description at run
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time.
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Ffi stands for Foreign Function Interface. A foreign function
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interface is the popular name for the interface that allows code
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written in one language to call code written in another language. The
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libffi library really only provides the lowest, machine dependent
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layer of a fully featured foreign function interface. A layer must
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exist above libffi that handles type conversions for values passed
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between the two languages.
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Supported Platforms and Prerequisites
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=====================================
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Libffi has been ported to:
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SunOS 4.1.3 & Solaris 2.x (SPARC-V8, SPARC-V9)
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Irix 5.3 & 6.2 (System V/o32 & n32)
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Intel x86 - Linux (System V ABI)
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Alpha - Linux and OSF/1
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m68k - Linux (System V ABI)
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PowerPC - Linux (System V ABI, Darwin, AIX)
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ARM - Linux (System V ABI)
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Libffi has been tested with the egcs 1.0.2 gcc compiler. Chances are
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that other versions will work. Libffi has also been built and tested
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with the SGI compiler tools.
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On PowerPC, the tests failed (see the note below).
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You must use GNU make to build libffi. SGI's make will not work.
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Sun's probably won't either.
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If you port libffi to another platform, please let me know! I assume
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that some will be easy (x86 NetBSD), and others will be more difficult
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(HP).
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Installing libffi
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=================
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[Note: before actually performing any of these installation steps,
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you may wish to read the "Platform Specific Notes" below.]
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First you must configure the distribution for your particular
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system. Go to the directory you wish to build libffi in and run the
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"configure" program found in the root directory of the libffi source
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distribution.
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You may want to tell configure where to install the libffi library and
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header files. To do that, use the --prefix configure switch. Libffi
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will install under /usr/local by default.
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If you want to enable extra run-time debugging checks use the the
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--enable-debug configure switch. This is useful when your program dies
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mysteriously while using libffi.
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Another useful configure switch is --enable-purify-safety. Using this
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will add some extra code which will suppress certain warnings when you
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are using Purify with libffi. Only use this switch when using
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Purify, as it will slow down the library.
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Configure has many other options. Use "configure --help" to see them all.
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Once configure has finished, type "make". Note that you must be using
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GNU make. SGI's make will not work. Sun's probably won't either.
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You can ftp GNU make from prep.ai.mit.edu:/pub/gnu.
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To ensure that libffi is working as advertised, type "make test".
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To install the library and header files, type "make install".
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Using libffi
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============
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The Basics
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----------
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Libffi assumes that you have a pointer to the function you wish to
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call and that you know the number and types of arguments to pass it,
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as well as the return type of the function.
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The first thing you must do is create an ffi_cif object that matches
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the signature of the function you wish to call. The cif in ffi_cif
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stands for Call InterFace. To prepare a call interface object, use the
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following function:
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ffi_status ffi_prep_cif(ffi_cif *cif, ffi_abi abi,
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unsigned int nargs,
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ffi_type *rtype, ffi_type **atypes);
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CIF is a pointer to the call interface object you wish
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to initialize.
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ABI is an enum that specifies the calling convention
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to use for the call. FFI_DEFAULT_ABI defaults
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to the system's native calling convention. Other
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ABI's may be used with care. They are system
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specific.
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NARGS is the number of arguments this function accepts.
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libffi does not yet support vararg functions.
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RTYPE is a pointer to an ffi_type structure that represents
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the return type of the function. Ffi_type objects
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describe the types of values. libffi provides
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ffi_type objects for many of the native C types:
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signed int, unsigned int, signed char, unsigned char,
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etc. There is also a pointer ffi_type object and
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a void ffi_type. Use &ffi_type_void for functions that
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don't return values.
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ATYPES is a vector of ffi_type pointers. ARGS must be NARGS long.
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If NARGS is 0, this is ignored.
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ffi_prep_cif will return a status code that you are responsible
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for checking. It will be one of the following:
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FFI_OK - All is good.
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FFI_BAD_TYPEDEF - One of the ffi_type objects that ffi_prep_cif
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came across is bad.
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Before making the call, the VALUES vector should be initialized
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with pointers to the appropriate argument values.
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To call the the function using the initialized ffi_cif, use the
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ffi_call function:
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void ffi_call(ffi_cif *cif, void *fn, void *rvalue, void **avalues);
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CIF is a pointer to the ffi_cif initialized specifically
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for this function.
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FN is a pointer to the function you want to call.
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RVALUE is a pointer to a chunk of memory that is to hold the
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result of the function call. Currently, it must be
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at least one word in size (except for the n32 version
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under Irix 6.x, which must be a pointer to an 8 byte
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aligned value (a long long). It must also be at least
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word aligned (depending on the return type, and the
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system's alignment requirements). If RTYPE is
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&ffi_type_void, this is ignored. If RVALUE is NULL,
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the return value is discarded.
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AVALUES is a vector of void* that point to the memory locations
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holding the argument values for a call.
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If NARGS is 0, this is ignored.
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If you are expecting a return value from FN it will have been stored
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at RVALUE.
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An Example
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----------
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Here is a trivial example that calls puts() a few times.
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#include <stdio.h>
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#include <ffi.h>
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int main()
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{
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ffi_cif cif;
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ffi_type *args[1];
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void *values[1];
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char *s;
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int rc;
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/* Initialize the argument info vectors */
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args[0] = &ffi_type_uint;
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values[0] = &s;
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/* Initialize the cif */
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if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, 1,
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&ffi_type_uint, args) == FFI_OK)
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{
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s = "Hello World!";
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ffi_call(&cif, puts, &rc, values);
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/* rc now holds the result of the call to puts */
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/* values holds a pointer to the function's arg, so to
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call puts() again all we need to do is change the
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value of s */
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s = "This is cool!";
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ffi_call(&cif, puts, &rc, values);
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}
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return 0;
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}
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Aggregate Types
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---------------
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Although libffi has no special support for unions or bit-fields, it is
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perfectly happy passing structures back and forth. You must first
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describe the structure to libffi by creating a new ffi_type object
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for it. Here is the definition of ffi_type:
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typedef struct _ffi_type
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{
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unsigned size;
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short alignment;
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short type;
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struct _ffi_type **elements;
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} ffi_type;
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All structures must have type set to FFI_TYPE_STRUCT. You may set
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size and alignment to 0. These will be calculated and reset to the
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appropriate values by ffi_prep_cif().
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elements is a NULL terminated array of pointers to ffi_type objects
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that describe the type of the structure elements. These may, in turn,
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be structure elements.
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The following example initializes a ffi_type object representing the
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tm struct from Linux's time.h:
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struct tm {
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int tm_sec;
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int tm_min;
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int tm_hour;
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int tm_mday;
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int tm_mon;
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int tm_year;
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int tm_wday;
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int tm_yday;
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int tm_isdst;
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/* Those are for future use. */
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long int __tm_gmtoff__;
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__const char *__tm_zone__;
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};
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{
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ffi_type tm_type;
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ffi_type *tm_type_elements[12];
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int i;
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tm_type.size = tm_type.alignment = 0;
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tm_type.elements = &tm_type_elements;
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for (i = 0; i < 9; i++)
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tm_type_elements[i] = &ffi_type_sint;
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tm_type_elements[9] = &ffi_type_slong;
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tm_type_elements[10] = &ffi_type_pointer;
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tm_type_elements[11] = NULL;
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/* tm_type can now be used to represent tm argument types and
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return types for ffi_prep_cif() */
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}
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Platform Specific Notes
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=======================
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Intel x86
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---------
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There are no known problems with the x86 port.
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Sun SPARC - SunOS 4.1.3 & Solaris 2.x
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-------------------------------------
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You must use GNU Make to build libffi on Sun platforms.
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MIPS - Irix 5.3 & 6.x
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---------------------
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Irix 6.2 and better supports three different calling conventions: o32,
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n32 and n64. Currently, libffi only supports both o32 and n32 under
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Irix 6.x, but only o32 under Irix 5.3. Libffi will automatically be
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configured for whichever calling convention it was built for.
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By default, the configure script will try to build libffi with the GNU
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development tools. To build libffi with the SGI development tools, set
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the environment variable CC to either "cc -32" or "cc -n32" before
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running configure under Irix 6.x (depending on whether you want an o32
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or n32 library), or just "cc" for Irix 5.3.
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With the n32 calling convention, when returning structures smaller
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than 16 bytes, be sure to provide an RVALUE that is 8 byte aligned.
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Here's one way of forcing this:
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double struct_storage[2];
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my_small_struct *s = (my_small_struct *) struct_storage;
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/* Use s for RVALUE */
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If you don't do this you are liable to get spurious bus errors.
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"long long" values are not supported yet.
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You must use GNU Make to build libffi on SGI platforms.
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ARM - System V ABI
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------------------
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The ARM port was performed on a NetWinder running ARM Linux ELF
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(2.0.31) and gcc 2.8.1.
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PowerPC System V ABI
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--------------------
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There are two `System V ABI's which libffi implements for PowerPC.
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They differ only in how small structures are returned from functions.
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In the FFI_SYSV version, structures that are 8 bytes or smaller are
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returned in registers. This is what GCC does when it is configured
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for solaris, and is what the System V ABI I have (dated September
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1995) says.
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In the FFI_GCC_SYSV version, all structures are returned the same way:
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by passing a pointer as the first argument to the function. This is
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what GCC does when it is configured for linux or a generic sysv
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target.
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EGCS 1.0.1 (and probably other versions of EGCS/GCC) also has a
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inconsistency with the SysV ABI: When a procedure is called with many
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floating-point arguments, some of them get put on the stack. They are
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all supposed to be stored in double-precision format, even if they are
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only single-precision, but EGCS stores single-precision arguments as
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single-precision anyway. This causes one test to fail (the `many
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arguments' test).
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What's With The Crazy Comments?
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===============================
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You might notice a number of cryptic comments in the code, delimited
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by /*@ and @*/. These are annotations read by the program LCLint, a
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tool for statically checking C programs. You can read all about it at
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<http://larch-www.lcs.mit.edu:8001/larch/lclint/index.html>.
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History
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=======
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1.20 Oct-5-98
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Raffaele Sena produces ARM port.
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1.19 Oct-5-98
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Fixed x86 long double and long long return support.
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m68k bug fixes from Andreas Schwab.
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Patch for DU assembler compatibility for the Alpha from Richard
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Henderson.
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1.18 Apr-17-98
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Bug fixes and MIPS configuration changes.
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1.17 Feb-24-98
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Bug fixes and m68k port from Andreas Schwab. PowerPC port from
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Geoffrey Keating. Various bug x86, Sparc and MIPS bug fixes.
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1.16 Feb-11-98
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Richard Henderson produces Alpha port.
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1.15 Dec-4-97
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Fixed an n32 ABI bug. New libtool, auto* support.
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1.14 May-13-97
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libtool is now used to generate shared and static libraries.
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Fixed a minor portability problem reported by Russ McManus
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<mcmanr@eq.gs.com>.
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1.13 Dec-2-96
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Added --enable-purify-safety to keep Purify from complaining
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about certain low level code.
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Sparc fix for calling functions with < 6 args.
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Linux x86 a.out fix.
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1.12 Nov-22-96
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Added missing ffi_type_void, needed for supporting void return
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types. Fixed test case for non MIPS machines. Cygnus Support
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is now Cygnus Solutions.
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1.11 Oct-30-96
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Added notes about GNU make.
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1.10 Oct-29-96
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Added configuration fix for non GNU compilers.
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1.09 Oct-29-96
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Added --enable-debug configure switch. Clean-ups based on LCLint
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feedback. ffi_mips.h is always installed. Many configuration
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fixes. Fixed ffitest.c for sparc builds.
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1.08 Oct-15-96
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Fixed n32 problem. Many clean-ups.
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1.07 Oct-14-96
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Gordon Irlam rewrites v8.S again. Bug fixes.
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1.06 Oct-14-96
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Gordon Irlam improved the sparc port.
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1.05 Oct-14-96
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Interface changes based on feedback.
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1.04 Oct-11-96
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Sparc port complete (modulo struct passing bug).
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1.03 Oct-10-96
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Passing struct args, and returning struct values works for
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all architectures/calling conventions. Expanded tests.
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1.02 Oct-9-96
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Added SGI n32 support. Fixed bugs in both o32 and Linux support.
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Added "make test".
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1.01 Oct-8-96
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Fixed float passing bug in mips version. Restructured some
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of the code. Builds cleanly with SGI tools.
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1.00 Oct-7-96
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First release. No public announcement.
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Authors & Credits
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=================
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libffi was written by Anthony Green <green@cygnus.com>.
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Portions of libffi were derived from Gianni Mariani's free gencall
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library for Silicon Graphics machines.
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The closure mechanism was designed and implemented by Kresten Krab
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Thorup.
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The Sparc port was derived from code contributed by the fine folks at
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Visible Decisions Inc <http://www.vdi.com>. Further enhancements were
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made by Gordon Irlam at Cygnus Solutions <http://www.cygnus.com>.
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The Alpha port was written by Richard Henderson at Cygnus Solutions.
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Andreas Schwab ported libffi to m68k Linux and provided a number of
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bug fixes.
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Geoffrey Keating ported libffi to the PowerPC.
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Raffaele Sena ported libffi to the ARM.
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Jesper Skov and Andrew Haley both did more than their fair share of
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stepping through the code and tracking down bugs.
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Thanks also to Tom Tromey for bug fixes and configuration help.
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Thanks to Jim Blandy, who provided some useful feedback on the libffi
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interface.
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If you have a problem, or have found a bug, please send a note to
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green@cygnus.com.
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