kmx git

Commit	Date	Message
7822a324	2024-01-10T00:28:25	aarch64 c99
af0f14cd	2022-10-24T04:08:10	Fix types of temporary variables in aarch64 extend_integer_type (#745) Fixes truncated values in weston-info output.
93cfb655	2022-10-10T14:32:35	Correction for older compilers
3874fd98	2022-10-10T17:58:48	Fix strict aliasing problem in aarch64 ffi_call (#739) The assignment a = &dest in ffi_call_int may be moved after the call to extend_integer_type because that function accesses the assigned value with a different type. Co-authored-by: Andreas Schwab <schwab@suse.de>
ee22ecbd	2022-09-18T01:56:25	Add MSYS configuration files (#728) * Add MSYS configuration files MSYS behaves very similiar to Cygwin, e.g. also __CYGWIN__ is defined. Now 'make check' passes on MSYS without extra patches. * Fix warning extra tokens at end of #endif in closures.c Extra tokens converted into a comment. Also nearby indentations corrected. * Fix missing prototype warning mkostemp() on Cygwin Cygwin requires also _GNU_SOURCE to be defined to enable mkostemp() prototype. * Fix warning label ‘out’ defined but not used in ffi functions Define same preprocessor conditions for goto and label visibility. * Fix warning label ‘out’ defined but not used and related indentations. Define same preprocessor conditions for goto and label visibility. Correct also related indentations. Co-authored-by: Hannes Müller <>
fc8c8c1e	2022-06-25T11:06:00	Fix ILP32 for aarch64
fd1fe195	2022-05-29T14:16:49	Fix building on aarch64 after e409225b41b60c490a094bb068e639a2364202fd (#716) The ALIGN_DOWN macro was renamed in 2018 in e6eac7863e2bf1a009ea863041b354bdb4af6b67.
e409225b	2022-05-28T09:42:13	Pass large structs by value for Linux x86_64 and Aarch64. Aarch patch by Andreas Schwab. https://github.com/libffi/libffi/commit/482b37f00467325e3389bab322525099860dd9aa
eafab235	2021-03-24T11:38:36	arm64e: Pull in pointer authentication code from Apple's arm64e libffi port (#565) NOTES: This changes the ptrauth support from #548 to match what Apple is shipping in its libffi-27 tag. Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>
f58e5ee6	2021-03-23T23:54:00	aarch64: Fix closures for win64 (#606)
d271dbe0	2021-03-20T06:06:28	Add some missing #if conditionals from Apple's code drop (#620) * arm/aarch64: Add FFI_CLOSURES conditionals where appropriate Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64: Don't emit the do_closure label when building without FFI_GO_CLOSURES Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>
9ba55921	2021-03-05T10:07:30	Static tramp v5 (#624) * Static Trampolines Closure Trampoline Security Issue ================================= Currently, the trampoline code used in libffi is not statically defined in a source file (except for MACH). The trampoline is either pre-defined machine code in a data buffer. Or, it is generated at runtime. In order to execute a trampoline, it needs to be placed in a page with executable permissions. Executable data pages are attack surfaces for attackers who may try to inject their own code into the page and contrive to have it executed. The security settings in a system may prevent various tricks used in user land to write code into a page and to have it executed somehow. On such systems, libffi trampolines would not be able to run. Static Trampoline ================= To solve this problem, the trampoline code needs to be defined statically in a source file, compiled and placed in the text segment so it can be mapped and executed naturally without any tricks. However, the trampoline needs to be able to access the closure pointer at runtime. PC-relative data referencing ============================ The solution implemented in this patch set uses PC-relative data references. The trampoline is mapped in a code page. Adjacent to the code page, a data page is mapped that contains the parameters of the trampoline: - the closure pointer - pointer to the ABI handler to jump to The trampoline code uses an offset relative to its current PC to access its data. Some architectures support PC-relative data references in the ISA itself. E.g., X64 supports RIP-relative references. For others, the PC has to somehow be loaded into a general purpose register to do PC-relative data referencing. To do this, we need to define a get_pc() kind of function and call it to load the PC in a desired register. There are two cases: 1. The call instruction pushes the return address on the stack. In this case, get_pc() will extract the return address from the stack and load it in the desired register and return. 2. The call instruction stores the return address in a designated register. In this case, get_pc() will copy the return address to the desired register and return. Either way, the PC next to the call instruction is obtained. Scratch register ================ In order to do its job, the trampoline code would need to use a scratch register. Depending on the ABI, there may not be a register available for scratch. This problem needs to be solved so that all ABIs will work. The trampoline will save two values on the stack: - the closure pointer - the original value of the scratch register This is what the stack will look like: sp before trampoline ------> -------------------- \| closure pointer \| -------------------- \| scratch register \| sp after trampoline -------> -------------------- The ABI handler can do the following as needed by the ABI: - the closure pointer can be loaded in a desired register - the scratch register can be restored to its original value - the stack pointer can be restored to its original value (the value when the trampoline was invoked) To do this, I have defined prolog code for each ABI handler. The legacy trampoline jumps to the ABI handler directly. But the static trampoline defined in this patch jumps tp the prolog code which performs the above actions before jumping to the ABI handler. Trampoline Table ================ In order to reduce the trampoline memory footprint, the trampoline code would be defined as a code array in the text segment. This array would be mapped into the address space of the caller. The mapping would, therefore, contain a trampoline table. Adjacent to the trampoline table mapping, there will be a data mapping that contains a parameter table, one parameter block for each trampoline. The parameter block will contain: - a pointer to the closure - a pointer to the ABI handler The static trampoline code would finally look like this: - Make space on the stack for the closure and the scratch register by moving the stack pointer down - Store the original value of the scratch register on the stack - Using PC-relative reference, get the closure pointer - Store the closure pointer on the stack - Using PC-relative reference, get the ABI handler pointer - Jump to the ABI handler Mapping size ============ The size of the code mapping that contains the trampoline table needs to be determined on a per architecture basis. If a particular architecture supports multiple base page sizes, then the largest supported base page size needs to be chosen. E.g., we choose 16K for ARM64. Trampoline allocation and free ============================== Static trampolines are allocated in ffi_closure_alloc() and freed in ffi_closure_free(). Normally, applications use these functions. But there are some cases out there where the user of libffi allocates and manages its own closure memory. In such cases, static trampolines cannot be used. These will fall back to using legacy trampolines. The user has to make sure that the memory is executable. ffi_closure structure ===================== I did not want to make any changes to the size of the closure structure for this feature to guarantee compatibility. But the opaque static trampoline handle needs to be stored in the closure. I have defined it as follows: - char tramp[FFI_TRAMPOLINE_SIZE]; + union { + char tramp[FFI_TRAMPOLINE_SIZE]; + void ftramp; + }; If static trampolines are used, then tramp[] is not needed to store a dynamic trampoline. That space can be reused to store the handle. Hence, the union. Architecture Support ==================== Support has been added for x64, i386, aarch64 and arm. Support for other architectures can be added very easily in the future. OS Support ========== Support has been added for Linux. Support for other OSes can be added very easily. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> x86: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. Define two tables, actually, one with CET and one without. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_unix64 - ffi_closure_unix64_sse - ffi_closure_win64 The prolog functions are called: - ffi_closure_unix64_alt - ffi_closure_unix64_sse_alt - ffi_closure_win64_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * i386: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code table statically. Define two tables, actually, one with CET and one without. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_i386 - ffi_closure_STDCALL - ffi_closure_REGISTER The prolog functions are called: - ffi_closure_i386_alt - ffi_closure_STDCALL_alt - ffi_closure_REGISTER_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * arm64: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_SYSV - ffi_closure_SYSV_V The prolog functions are called: - ffi_closure_SYSV_alt - ffi_closure_SYSV_V_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * arm: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_SYSV - ffi_closure_VFP The prolog functions are called: - ffi_closure_SYSV_alt - ffi_closure_VFP_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com>
56f7df71	2020-11-10T12:27:59	aarch64: Allow FFI_WIN64 for winelib (#593)
8e58f88d	2020-06-30T22:59:28	aarch64: Fix typo
c543849c	2020-04-26T05:01:03	win64_armasm: Fix the spelling of ALIGN (#553)
c06468fa	2020-04-26T04:58:33	Fix building for aarch64 windows with mingw toolchains (#555) * aarch64: Check _WIN32 instead of _M_ARM64 for detecting windows This fixes building for aarch64 with mingw toolchains. _M_ARM64 is predefined by MSVC, while mingw compilers predefine __aarch64__. In aarch64 specific code, change checks for _M_ARM64 into checks for _WIN32. In arch independent code, check for (defined(_M_ARM64) \|\| defined(__aarch64__)) && defined(_WIN32) instead of just _M_ARM64. In src/closures.c, coalesce checks like defined(X86_WIN32) \|\| defined(X86_WIN64) \|\| defined(_M_ARM64) into plain defined(_WIN32). Technically, this enables code for ARM32 windows where it wasn't, but as far as I can see it, those codepaths should be fine for that architecture variant as well. * aarch64: Only use armasm source when building with MSVC When building for windows/arm64 with clang, the normal gas style .S source works fine. sysv.S and win64_armasm.S seem to be functionally equivalent, with only differences being due to assembler syntax.
4c7bde32	2020-03-10T02:05:42	Port to iOS/arm64e (#548)
e5f0eb15	2019-10-08T06:58:52	Clean up line endings (#509) The CLRF visual studio files can be kept that way, but recognized as text. The assembly file can be converted to LF.
c2a68590	2019-08-07T11:57:45	fix mingw build and crashing bugs for Python Windows ARM64 (#496) * fix mingw build and crashing bugs for Python Windows ARM64 * Fix issues found in PR review
d856743e	2019-06-26T07:31:22	libffi: added ARM64 support for Windows (#486) * libffi: added ARM64 support for Windows 1. ported sysv.S to win64_armasm.S for armasm64 assembler 2. added msvc_build folder for visual studio solution 3. updated README.md for the same 4. MSVC solution created with the changes, and below test suites are tested with test script written in python. libffi.bhaible libffi.call 5. Basic functionality of above test suites are getting passed Signed-off-by: ossdev07 <ossdev@puresoftware.com> * Update README.md
a7d6396f	2019-03-29T14:19:20	fix check for Linux/aarch64 fixes #473
05a17964	2019-02-19T04:11:28	Cleanup symbol exports on darwin and add architecture preprocessor checks to assist in building fat binaries (eg: i386+x86_64 on macOS or arm+aarch64 on iOS) (#450) * x86: Ensure _efi64 suffixed symbols are not exported * x86: Ensure we do not export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * x86: Ensure we don't export ffi_call_win64, ffi_closure_win64, or ffi_go_closure_win64 Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * closures: Silence a semantic warning libffi/src/closures.c:175:23: This function declaration is not a prototype Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64: Ensure we don't export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * arm: Ensure we don't export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64, arm, x86: Add architecture preprocessor checks to support easier fat builds (eg: iOS) Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * x86: Silence some static analysis warnings libffi/src/x86/ffi64.c:286:21: The left operand of '!=' is a garbage value due to array index out of bounds libffi/src/x86/ffi64.c:297:22: The left operand of '!=' is a garbage value due to array index out of bounds Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch: Use FFI_HIDDEN rather than .hidden Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * ffi.h: Don't advertise ffi_java_rvalue_to_raw, ffi_prep_java_raw_closure, and ffi_prep_java_raw_closure_loc when FFI_NATIVE_RAW_API is 0 Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>
44a6c285	2019-02-19T12:55:11	aarch64: Flush code mapping in addition to data mapping (#471) This needs a new function, ffi_data_to_code_pointer, to translate from data pointers to code pointers. Fixes issue #470.
4a84df4a	2018-10-31T15:53:54	Fix Q registers parameter passing on ARM64 The second two quads are located at offset 32 not 16
b5ee3957	2018-05-05T07:41:53	Revert "Remove some symbol exports and cleanup newline warnings (#433)" This reverts commit a5a0f3cf36dfb4d64316414a872288c3170e6c1d.
a5a0f3cf	2018-05-05T03:44:33	Remove some symbol exports and cleanup newline warnings (#433) * build: Ensure darwin generated sources end with a new line Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@macports.org> * build: Use .private_extern where missing to prevent exporting symbols that are not API Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@macports.org>
e66fd678	2018-02-20T10:47:09	Revert "Fix passing struct by value on aarch64" This reverts commit 482b37f00467325e3389bab322525099860dd9aa. That was actually a bug in python, see <https://bugs.python.org/issue30353>.
482b37f0	2017-09-18T12:44:08	Fix passing struct by value on aarch64 This fixes the ctypes test in the python testsuite.
1fb788ac	2017-10-10T11:37:00	aarch64: fix index base register for AArch64 The base is passed in `x3`, not in `x2`. This fixes the indexing base so that the right value is used.
181fc4cc	2017-10-23T15:02:29	Merge branch 'master' based on ksjogo/libffi Added a tvOS target in Xcode project. Misc Xcode project cleanup. Fix macOS build target in Xcode project. # Conflicts: # src/aarch64/ffi.c # src/x86/ffi64.c
02a5145a	2017-09-27T21:43:03	Merge pull request #263 from ksjogo/master fix ios builds
a78da739	2017-09-04T15:55:34	Fix macOS build target in Xcode project. - Add missing files for desktop platforms in generate-darwin-source-and-headers.py, and in the Xcode project. - Add a static library target for macOS. - Fix "implicit conversion loses integer precision" warnings for iOS mad macOS targets.
bd72848c	2017-04-27T13:20:36	Prefix ALIGN macros with FFI_
00406945	2016-07-12T16:08:42	Update Xcodeproj Include all currently relevent files. Call autogen is build script. Fix compiler settings. Fix mach include.
06d7c519	2016-08-10T15:06:16	Merge pull request #269 from frida/fix/aarch64-variadic-closures-on-ios aarch64: Fix handling of variadic closures on iOS
aa7ed78c	2016-08-10T15:03:37	Merge pull request #268 from frida/fix/aarch64-large-aggregates aarch64: Fix handling of aggregates larger than 16 bytes
4da814b1	2016-08-10T22:48:09	aarch64: Fix handling of aggregates larger than 16 bytes Instead of allocating stack space for a pointer we would allocate stack space for the actual aggregate size.
5e9ac7e2	2016-08-10T15:22:19	aarch64: Fix warning about unused function on iOS
4d1f11f6	2016-08-10T15:21:42	aarch64: Fix operand size warning reported by Clang
301166b1	2016-08-10T15:59:56	aarch64: Fix handling of variadic closures on iOS
d76975db	2016-03-16T12:23:07	Define FFI_SIZEOF_JAVA_RAW for aarch64 ILP32 Like x32, aarch64 ILP32 needs to define FFI_SIZEOF_JAVA_RAW. This fixes the java interpreter.
bc4fc07a	2015-12-21T00:37:06	Fixed #181 -- Corrected problems with ARMv7 build under iOS. Based on a patch from @fealebenpae, with input from @SolaWing and @rth7680, and testing from @superdump.
95df3791	2015-02-11T08:31:48	aarch64: Handle ILP32 ABI
53636634	2015-01-16T15:19:38	aarch64: implement the trampoline table workaround for ffi closures on Apple systems This is a direct copy/paste port of the ARM code, with changes because of Aarch64 pc-relative addressing restrictions.
05e65b4e	2015-01-16T15:18:04	aarch64: rewrite range syntax into list to appease Clang Clang's assembler in Xcode 6 appears to choke when the operand of st4 is a range, but is happy with a list.
9ae3bc87	2014-12-06T23:58:41	Fix for https://github.com/atgreen/libffi/issues/141
20562ac0	2014-11-12T07:00:59	Fix for AArch64. Release as 3.2.1.
c6352b66	2014-10-23T00:26:14	aarch64: Add support for Go closures
0e41c73b	2014-10-22T23:48:12	aarch64: Move x8 out of call_context Reduces stack size. It was only used by the closure, and there are available argument registers.
a992f878	2014-10-22T22:58:09	aarch64: Add support for complex types
38b54b9c	2014-10-21T13:17:39	aarch64: Improve is_hfa The set of functions get_homogeneous_type, element_count, and is_hfa are all intertwined and recompute data. Return a compound quantity from is_hfa that contains all the data and avoids the recomputation.
4fe1aea1	2014-10-22T17:06:19	aarch64: Move return value handling into ffi_call_SYSV This lets us pass return data directly to the caller of ffi_call in most cases, rather than storing it into temporary storage first.
658b2b56	2014-10-22T22:36:07	aarch64: Remove aarch64_flags This field was useless from the start, since the normal flags field is available for backend use.
4a3cbcaa	2014-10-22T22:32:13	aarch64: Unify scalar fp and hfa handling Since an HFA of a single element is exactly the same as scalar, this tidies things up a bit.
12cf89ee	2014-10-22T21:53:30	aarch64: Move return value handling into ffi_closure_SYSV As with the change to ffi_call_SYSV, this avoids copying data into a temporary buffer.
325471ea	2014-10-22T13:58:59	aarch64: Merge prep_args with ffi_call Use the trick to allocate the stack frame for ffi_call_SYSV within ffi_call itself.
8c8161cb	2014-10-22T12:52:07	aarch64: Tidy up abi manipulation Avoid false abstraction, like get_x_addr. Avoid recomputing data about the type being manipulated. Use NEON insns for HFA manipulation. Note that some of the inline assembly will go away in a subsequent patch.
b55e0366	2014-10-22T12:33:59	aarch64: Treat void return as not passed in registers This lets us do less post-processing when there's no return value.
2e32f9bf	2014-10-21T22:49:05	aarch64: Use correct return registers There are fewer return registers than argument registers.
95a04af1	2014-10-21T22:41:07	aarch64: Reduce the size of register_context We don't need to store 32 general and vector registers. Only 8 of each are used for parameter passing.
77c4cddc	2014-10-21T13:30:40	aarch64: Simplify AARCH64_STACK_ALIGN The iOS abi doesn't require padding between arguments, but that's not what AARCH64_STACK_ALIGN meant. The hardware will in fact trap if the SP register is not 16 byte aligned.
b5f147d8	2014-10-21T13:27:57	aarch64: Always distinguish LONGDOUBLE Avoid if-deffery by forcing FFI_TYPE_LONGDOUBLE different from FFI_TYPE_DOUBLE. This will simply be unused on hosts that define them identically.
18b74ce5	2014-10-21T13:00:34	aarch64: Fix non-apple compilation
862f53de	2014-09-18T19:06:08	Merge pull request #130 from frida/fix/darwin-aarch64-float-alignment Fix alignment of FFI_TYPE_FLOAT for Apple's ARM64 ABI
aebf2c30	2014-07-25T21:40:50	Fix alignment of FFI_TYPE_FLOAT for Apple's ARM64 ABI
0f4e09d2	2014-07-26T00:11:06	Fix non-variadic CIF initialization for Apple/ARM64 Turns out `aarch64_nfixedargs` wasn't initialized in the non-variadic case, resulting in undefined behavior when allocating arguments.
8fa28123	2014-04-12T19:32:08	Merge pull request #116 from frida/fix/darwin-aarch64-variadic Fix handling of variadic calls on Darwin/AArch64
419503f4	2014-04-06T20:54:13	Fix handling of variadic calls on Darwin/AArch64
a539f7ff	2014-04-06T20:53:02	Fix alignment of AArch64 assembler functions
49f7729c	2014-02-28T00:17:16	aarch64 fix
b4df9cf9	2014-02-05T14:22:52	AArch64: Fix void fall-through case when assertions are enabled
0a333d6c	2014-01-09T14:03:29	Darwin/aarch64: Fix size_t assumptions
4330fdcd	2014-01-09T13:53:30	Darwin/aarch64: Respect iOS ABI re: stack argument alignment
0a0f12ce	2014-01-09T13:50:17	AArch64: Remove duplicitous element_count call. This inhibits an analyzer warning by Clang.
f466aad0	2014-01-21T16:38:31	AArch64: Fix missing semicolons when assertions are enabled
5658b089	2013-12-30T16:33:47	Darwin/aarch64: Use CNAME, restrict .size like ARM
07175780	2013-12-30T17:48:22	Darwin/aarch64: Fix invalid reference in assembly
2c18e3c7	2013-12-30T16:14:02	Darwin/aarch64: Fix "shadows declaration" warnings
6030cdca	2013-12-30T15:45:51	Darwin/aarch64: Account for long double being equal to double
1b8a8e20	2014-01-09T13:55:21	Darwin/aarch64: Use Clang cache invalidation builtin
5bfe62a0	2014-01-09T13:41:27	Darwin/AArch64: Inhibit Clang previous prototype warnings
3dc3f32c	2013-12-05T16:23:25	Undo iOS ARM64 changes.
0278284e	2013-11-30T03:03:37	Darwin/aarch64: size_t assumptions
9775446b	2013-11-30T02:39:34	Darwin/aarch64: Fix “shadows declaration” warnings
4260badc	2013-11-30T02:08:14	Darwin/aarch64: Use Clang cache invalidation builtin
9fa7998d	2013-11-30T02:07:48	Darwin/aarch64: Inhibit Xcode warning
0e832048	2013-11-30T02:07:34	Darwin/aarch64: double == long double
b513dfe7	2013-11-30T02:05:22	Darwin/aarch64: Restrict .size to ELF like arm32.
bc978099	2013-11-30T02:04:57	Darwin/aarch64: Potentially(?) fix compile error
d6bb9314	2013-11-30T02:04:22	Darwin/aarch64: Use CNAME refs
128cd1d2	2013-10-08T06:45:51	Fix spelling errors
58e8b66f	2012-10-30T07:07:19	AArch64 port
fa5d7479	2012-10-30T07:07:19	AArch64 port

7822a324

2024-01-10T00:28:25

aarch64 c99

af0f14cd

2022-10-24T04:08:10

Fix types of temporary variables in aarch64 extend_integer_type (#745) Fixes truncated values in weston-info output.

93cfb655

2022-10-10T14:32:35

Correction for older compilers

3874fd98

2022-10-10T17:58:48

Fix strict aliasing problem in aarch64 ffi_call (#739) The assignment a = &dest in ffi_call_int may be moved after the call to extend_integer_type because that function accesses the assigned value with a different type. Co-authored-by: Andreas Schwab <schwab@suse.de>

ee22ecbd

2022-09-18T01:56:25

Add MSYS configuration files (#728) * Add MSYS configuration files MSYS behaves very similiar to Cygwin, e.g. also __CYGWIN__ is defined. Now 'make check' passes on MSYS without extra patches. * Fix warning extra tokens at end of #endif in closures.c Extra tokens converted into a comment. Also nearby indentations corrected. * Fix missing prototype warning mkostemp() on Cygwin Cygwin requires also _GNU_SOURCE to be defined to enable mkostemp() prototype. * Fix warning label ‘out’ defined but not used in ffi functions Define same preprocessor conditions for goto and label visibility. * Fix warning label ‘out’ defined but not used and related indentations. Define same preprocessor conditions for goto and label visibility. Correct also related indentations. Co-authored-by: Hannes Müller <>

fc8c8c1e

2022-06-25T11:06:00

Fix ILP32 for aarch64

fd1fe195

2022-05-29T14:16:49

Fix building on aarch64 after e409225b41b60c490a094bb068e639a2364202fd (#716) The ALIGN_DOWN macro was renamed in 2018 in e6eac7863e2bf1a009ea863041b354bdb4af6b67.

e409225b

2022-05-28T09:42:13

Pass large structs by value for Linux x86_64 and Aarch64. Aarch patch by Andreas Schwab. https://github.com/libffi/libffi/commit/482b37f00467325e3389bab322525099860dd9aa

eafab235

2021-03-24T11:38:36

arm64e: Pull in pointer authentication code from Apple's arm64e libffi port (#565) NOTES: This changes the ptrauth support from #548 to match what Apple is shipping in its libffi-27 tag. Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>

f58e5ee6

2021-03-23T23:54:00

aarch64: Fix closures for win64 (#606)

d271dbe0

2021-03-20T06:06:28

Add some missing #if conditionals from Apple's code drop (#620) * arm/aarch64: Add FFI_CLOSURES conditionals where appropriate Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64: Don't emit the do_closure label when building without FFI_GO_CLOSURES Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>

9ba55921

2021-03-05T10:07:30

Static tramp v5 (#624) * Static Trampolines Closure Trampoline Security Issue ================================= Currently, the trampoline code used in libffi is not statically defined in a source file (except for MACH). The trampoline is either pre-defined machine code in a data buffer. Or, it is generated at runtime. In order to execute a trampoline, it needs to be placed in a page with executable permissions. Executable data pages are attack surfaces for attackers who may try to inject their own code into the page and contrive to have it executed. The security settings in a system may prevent various tricks used in user land to write code into a page and to have it executed somehow. On such systems, libffi trampolines would not be able to run. Static Trampoline ================= To solve this problem, the trampoline code needs to be defined statically in a source file, compiled and placed in the text segment so it can be mapped and executed naturally without any tricks. However, the trampoline needs to be able to access the closure pointer at runtime. PC-relative data referencing ============================ The solution implemented in this patch set uses PC-relative data references. The trampoline is mapped in a code page. Adjacent to the code page, a data page is mapped that contains the parameters of the trampoline: - the closure pointer - pointer to the ABI handler to jump to The trampoline code uses an offset relative to its current PC to access its data. Some architectures support PC-relative data references in the ISA itself. E.g., X64 supports RIP-relative references. For others, the PC has to somehow be loaded into a general purpose register to do PC-relative data referencing. To do this, we need to define a get_pc() kind of function and call it to load the PC in a desired register. There are two cases: 1. The call instruction pushes the return address on the stack. In this case, get_pc() will extract the return address from the stack and load it in the desired register and return. 2. The call instruction stores the return address in a designated register. In this case, get_pc() will copy the return address to the desired register and return. Either way, the PC next to the call instruction is obtained. Scratch register ================ In order to do its job, the trampoline code would need to use a scratch register. Depending on the ABI, there may not be a register available for scratch. This problem needs to be solved so that all ABIs will work. The trampoline will save two values on the stack: - the closure pointer - the original value of the scratch register This is what the stack will look like: sp before trampoline ------> -------------------- | closure pointer | -------------------- | scratch register | sp after trampoline -------> -------------------- The ABI handler can do the following as needed by the ABI: - the closure pointer can be loaded in a desired register - the scratch register can be restored to its original value - the stack pointer can be restored to its original value (the value when the trampoline was invoked) To do this, I have defined prolog code for each ABI handler. The legacy trampoline jumps to the ABI handler directly. But the static trampoline defined in this patch jumps tp the prolog code which performs the above actions before jumping to the ABI handler. Trampoline Table ================ In order to reduce the trampoline memory footprint, the trampoline code would be defined as a code array in the text segment. This array would be mapped into the address space of the caller. The mapping would, therefore, contain a trampoline table. Adjacent to the trampoline table mapping, there will be a data mapping that contains a parameter table, one parameter block for each trampoline. The parameter block will contain: - a pointer to the closure - a pointer to the ABI handler The static trampoline code would finally look like this: - Make space on the stack for the closure and the scratch register by moving the stack pointer down - Store the original value of the scratch register on the stack - Using PC-relative reference, get the closure pointer - Store the closure pointer on the stack - Using PC-relative reference, get the ABI handler pointer - Jump to the ABI handler Mapping size ============ The size of the code mapping that contains the trampoline table needs to be determined on a per architecture basis. If a particular architecture supports multiple base page sizes, then the largest supported base page size needs to be chosen. E.g., we choose 16K for ARM64. Trampoline allocation and free ============================== Static trampolines are allocated in ffi_closure_alloc() and freed in ffi_closure_free(). Normally, applications use these functions. But there are some cases out there where the user of libffi allocates and manages its own closure memory. In such cases, static trampolines cannot be used. These will fall back to using legacy trampolines. The user has to make sure that the memory is executable. ffi_closure structure ===================== I did not want to make any changes to the size of the closure structure for this feature to guarantee compatibility. But the opaque static trampoline handle needs to be stored in the closure. I have defined it as follows: - char tramp[FFI_TRAMPOLINE_SIZE]; + union { + char tramp[FFI_TRAMPOLINE_SIZE]; + void *ftramp; + }; If static trampolines are used, then tramp[] is not needed to store a dynamic trampoline. That space can be reused to store the handle. Hence, the union. Architecture Support ==================== Support has been added for x64, i386, aarch64 and arm. Support for other architectures can be added very easily in the future. OS Support ========== Support has been added for Linux. Support for other OSes can be added very easily. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * x86: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. Define two tables, actually, one with CET and one without. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_unix64 - ffi_closure_unix64_sse - ffi_closure_win64 The prolog functions are called: - ffi_closure_unix64_alt - ffi_closure_unix64_sse_alt - ffi_closure_win64_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * i386: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code table statically. Define two tables, actually, one with CET and one without. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_i386 - ffi_closure_STDCALL - ffi_closure_REGISTER The prolog functions are called: - ffi_closure_i386_alt - ffi_closure_STDCALL_alt - ffi_closure_REGISTER_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * arm64: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_SYSV - ffi_closure_SYSV_V The prolog functions are called: - ffi_closure_SYSV_alt - ffi_closure_SYSV_V_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com> * arm: Support for Static Trampolines - Define the arch-specific initialization function ffi_tramp_arch () that returns trampoline size information to common code. - Define the trampoline code mapping and data mapping sizes. - Define the trampoline code table statically. - Introduce a tiny prolog for each ABI handling function. The ABI handlers addressed are: - ffi_closure_SYSV - ffi_closure_VFP The prolog functions are called: - ffi_closure_SYSV_alt - ffi_closure_VFP_alt The legacy trampoline jumps to the ABI handler. The static trampoline jumps to the prolog function. The prolog function uses the information provided by the static trampoline, sets things up for the ABI handler and then jumps to the ABI handler. - Call ffi_tramp_set_parms () in ffi_prep_closure_loc () to initialize static trampoline parameters. Signed-off-by: Madhavan T. Venkataraman <madvenka@linux.microsoft.com>

56f7df71

2020-11-10T12:27:59

aarch64: Allow FFI_WIN64 for winelib (#593)

8e58f88d

2020-06-30T22:59:28

aarch64: Fix typo

c543849c

2020-04-26T05:01:03

win64_armasm: Fix the spelling of ALIGN (#553)

c06468fa

2020-04-26T04:58:33

Fix building for aarch64 windows with mingw toolchains (#555) * aarch64: Check _WIN32 instead of _M_ARM64 for detecting windows This fixes building for aarch64 with mingw toolchains. _M_ARM64 is predefined by MSVC, while mingw compilers predefine __aarch64__. In aarch64 specific code, change checks for _M_ARM64 into checks for _WIN32. In arch independent code, check for (defined(_M_ARM64) || defined(__aarch64__)) && defined(_WIN32) instead of just _M_ARM64. In src/closures.c, coalesce checks like defined(X86_WIN32) || defined(X86_WIN64) || defined(_M_ARM64) into plain defined(_WIN32). Technically, this enables code for ARM32 windows where it wasn't, but as far as I can see it, those codepaths should be fine for that architecture variant as well. * aarch64: Only use armasm source when building with MSVC When building for windows/arm64 with clang, the normal gas style .S source works fine. sysv.S and win64_armasm.S seem to be functionally equivalent, with only differences being due to assembler syntax.

4c7bde32

2020-03-10T02:05:42

Port to iOS/arm64e (#548)

e5f0eb15

2019-10-08T06:58:52

Clean up line endings (#509) The CLRF visual studio files can be kept that way, but recognized as text. The assembly file can be converted to LF.

c2a68590

2019-08-07T11:57:45

fix mingw build and crashing bugs for Python Windows ARM64 (#496) * fix mingw build and crashing bugs for Python Windows ARM64 * Fix issues found in PR review

d856743e

2019-06-26T07:31:22

libffi: added ARM64 support for Windows (#486) * libffi: added ARM64 support for Windows 1. ported sysv.S to win64_armasm.S for armasm64 assembler 2. added msvc_build folder for visual studio solution 3. updated README.md for the same 4. MSVC solution created with the changes, and below test suites are tested with test script written in python. libffi.bhaible libffi.call 5. Basic functionality of above test suites are getting passed Signed-off-by: ossdev07 <ossdev@puresoftware.com> * Update README.md

a7d6396f

2019-03-29T14:19:20

fix check for Linux/aarch64 fixes #473

05a17964

2019-02-19T04:11:28

Cleanup symbol exports on darwin and add architecture preprocessor checks to assist in building fat binaries (eg: i386+x86_64 on macOS or arm+aarch64 on iOS) (#450) * x86: Ensure _efi64 suffixed symbols are not exported * x86: Ensure we do not export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * x86: Ensure we don't export ffi_call_win64, ffi_closure_win64, or ffi_go_closure_win64 Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * closures: Silence a semantic warning libffi/src/closures.c:175:23: This function declaration is not a prototype Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64: Ensure we don't export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * arm: Ensure we don't export ffi_prep_cif_machdep Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch64, arm, x86: Add architecture preprocessor checks to support easier fat builds (eg: iOS) Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * x86: Silence some static analysis warnings libffi/src/x86/ffi64.c:286:21: The left operand of '!=' is a garbage value due to array index out of bounds libffi/src/x86/ffi64.c:297:22: The left operand of '!=' is a garbage value due to array index out of bounds Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * aarch: Use FFI_HIDDEN rather than .hidden Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com> * ffi.h: Don't advertise ffi_java_rvalue_to_raw, ffi_prep_java_raw_closure, and ffi_prep_java_raw_closure_loc when FFI_NATIVE_RAW_API is 0 Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>

44a6c285

2019-02-19T12:55:11

aarch64: Flush code mapping in addition to data mapping (#471) This needs a new function, ffi_data_to_code_pointer, to translate from data pointers to code pointers. Fixes issue #470.

4a84df4a

2018-10-31T15:53:54

Fix Q registers parameter passing on ARM64 The second two quads are located at offset 32 not 16

b5ee3957

2018-05-05T07:41:53

Revert "Remove some symbol exports and cleanup newline warnings (#433)" This reverts commit a5a0f3cf36dfb4d64316414a872288c3170e6c1d.

a5a0f3cf

2018-05-05T03:44:33

Remove some symbol exports and cleanup newline warnings (#433) * build: Ensure darwin generated sources end with a new line Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@macports.org> * build: Use .private_extern where missing to prevent exporting symbols that are not API Signed-off-by: Jeremy Huddleston Sequoia <jeremyhu@macports.org>

e66fd678

2018-02-20T10:47:09

Revert "Fix passing struct by value on aarch64" This reverts commit 482b37f00467325e3389bab322525099860dd9aa. That was actually a bug in python, see <https://bugs.python.org/issue30353>.

482b37f0

2017-09-18T12:44:08

Fix passing struct by value on aarch64 This fixes the ctypes test in the python testsuite.

1fb788ac

2017-10-10T11:37:00

aarch64: fix index base register for AArch64 The base is passed in `x3`, not in `x2`. This fixes the indexing base so that the right value is used.

181fc4cc

2017-10-23T15:02:29

Merge branch 'master' based on ksjogo/libffi Added a tvOS target in Xcode project. Misc Xcode project cleanup. Fix macOS build target in Xcode project. # Conflicts: # src/aarch64/ffi.c # src/x86/ffi64.c

02a5145a

2017-09-27T21:43:03

Merge pull request #263 from ksjogo/master fix ios builds

a78da739

2017-09-04T15:55:34

Fix macOS build target in Xcode project. - Add missing files for desktop platforms in generate-darwin-source-and-headers.py, and in the Xcode project. - Add a static library target for macOS. - Fix "implicit conversion loses integer precision" warnings for iOS mad macOS targets.

bd72848c

2017-04-27T13:20:36

Prefix ALIGN macros with FFI_

00406945

2016-07-12T16:08:42

Update Xcodeproj Include all currently relevent files. Call autogen is build script. Fix compiler settings. Fix mach include.

06d7c519

2016-08-10T15:06:16

Merge pull request #269 from frida/fix/aarch64-variadic-closures-on-ios aarch64: Fix handling of variadic closures on iOS

aa7ed78c

2016-08-10T15:03:37

Merge pull request #268 from frida/fix/aarch64-large-aggregates aarch64: Fix handling of aggregates larger than 16 bytes

4da814b1

2016-08-10T22:48:09

aarch64: Fix handling of aggregates larger than 16 bytes Instead of allocating stack space for a pointer we would allocate stack space for the actual aggregate size.

5e9ac7e2

2016-08-10T15:22:19

aarch64: Fix warning about unused function on iOS

4d1f11f6

2016-08-10T15:21:42

aarch64: Fix operand size warning reported by Clang

301166b1

2016-08-10T15:59:56

aarch64: Fix handling of variadic closures on iOS

d76975db

2016-03-16T12:23:07

Define FFI_SIZEOF_JAVA_RAW for aarch64 ILP32 Like x32, aarch64 ILP32 needs to define FFI_SIZEOF_JAVA_RAW. This fixes the java interpreter.

bc4fc07a

2015-12-21T00:37:06

Fixed #181 -- Corrected problems with ARMv7 build under iOS. Based on a patch from @fealebenpae, with input from @SolaWing and @rth7680, and testing from @superdump.

95df3791

2015-02-11T08:31:48

aarch64: Handle ILP32 ABI

53636634

2015-01-16T15:19:38

aarch64: implement the trampoline table workaround for ffi closures on Apple systems This is a direct copy/paste port of the ARM code, with changes because of Aarch64 pc-relative addressing restrictions.

05e65b4e

2015-01-16T15:18:04

aarch64: rewrite range syntax into list to appease Clang Clang's assembler in Xcode 6 appears to choke when the operand of st4 is a range, but is happy with a list.

9ae3bc87

2014-12-06T23:58:41

Fix for https://github.com/atgreen/libffi/issues/141

20562ac0

2014-11-12T07:00:59

Fix for AArch64. Release as 3.2.1.

c6352b66

2014-10-23T00:26:14

aarch64: Add support for Go closures

0e41c73b

2014-10-22T23:48:12

aarch64: Move x8 out of call_context Reduces stack size. It was only used by the closure, and there are available argument registers.

a992f878

2014-10-22T22:58:09

aarch64: Add support for complex types

38b54b9c

2014-10-21T13:17:39

aarch64: Improve is_hfa The set of functions get_homogeneous_type, element_count, and is_hfa are all intertwined and recompute data. Return a compound quantity from is_hfa that contains all the data and avoids the recomputation.

4fe1aea1

2014-10-22T17:06:19

aarch64: Move return value handling into ffi_call_SYSV This lets us pass return data directly to the caller of ffi_call in most cases, rather than storing it into temporary storage first.

658b2b56

2014-10-22T22:36:07

aarch64: Remove aarch64_flags This field was useless from the start, since the normal flags field is available for backend use.

4a3cbcaa

2014-10-22T22:32:13

aarch64: Unify scalar fp and hfa handling Since an HFA of a single element is exactly the same as scalar, this tidies things up a bit.

12cf89ee

2014-10-22T21:53:30

aarch64: Move return value handling into ffi_closure_SYSV As with the change to ffi_call_SYSV, this avoids copying data into a temporary buffer.

325471ea

2014-10-22T13:58:59

aarch64: Merge prep_args with ffi_call Use the trick to allocate the stack frame for ffi_call_SYSV within ffi_call itself.

8c8161cb

2014-10-22T12:52:07

aarch64: Tidy up abi manipulation Avoid false abstraction, like get_x_addr. Avoid recomputing data about the type being manipulated. Use NEON insns for HFA manipulation. Note that some of the inline assembly will go away in a subsequent patch.

b55e0366

2014-10-22T12:33:59

aarch64: Treat void return as not passed in registers This lets us do less post-processing when there's no return value.

2e32f9bf

2014-10-21T22:49:05

aarch64: Use correct return registers There are fewer return registers than argument registers.

95a04af1

2014-10-21T22:41:07

aarch64: Reduce the size of register_context We don't need to store 32 general and vector registers. Only 8 of each are used for parameter passing.

77c4cddc

2014-10-21T13:30:40

aarch64: Simplify AARCH64_STACK_ALIGN The iOS abi doesn't require padding between arguments, but that's not what AARCH64_STACK_ALIGN meant. The hardware will in fact trap if the SP register is not 16 byte aligned.

b5f147d8

2014-10-21T13:27:57

aarch64: Always distinguish LONGDOUBLE Avoid if-deffery by forcing FFI_TYPE_LONGDOUBLE different from FFI_TYPE_DOUBLE. This will simply be unused on hosts that define them identically.

18b74ce5

2014-10-21T13:00:34

aarch64: Fix non-apple compilation

862f53de

2014-09-18T19:06:08

Merge pull request #130 from frida/fix/darwin-aarch64-float-alignment Fix alignment of FFI_TYPE_FLOAT for Apple's ARM64 ABI

aebf2c30

2014-07-25T21:40:50

Fix alignment of FFI_TYPE_FLOAT for Apple's ARM64 ABI

0f4e09d2

2014-07-26T00:11:06

Fix non-variadic CIF initialization for Apple/ARM64 Turns out `aarch64_nfixedargs` wasn't initialized in the non-variadic case, resulting in undefined behavior when allocating arguments.

8fa28123

2014-04-12T19:32:08

Merge pull request #116 from frida/fix/darwin-aarch64-variadic Fix handling of variadic calls on Darwin/AArch64

419503f4

2014-04-06T20:54:13

Fix handling of variadic calls on Darwin/AArch64

a539f7ff

2014-04-06T20:53:02

Fix alignment of AArch64 assembler functions

49f7729c

2014-02-28T00:17:16

aarch64 fix

b4df9cf9

2014-02-05T14:22:52

AArch64: Fix void fall-through case when assertions are enabled

0a333d6c

2014-01-09T14:03:29

Darwin/aarch64: Fix size_t assumptions

4330fdcd

2014-01-09T13:53:30

Darwin/aarch64: Respect iOS ABI re: stack argument alignment

0a0f12ce

2014-01-09T13:50:17

AArch64: Remove duplicitous element_count call. This inhibits an analyzer warning by Clang.

f466aad0

2014-01-21T16:38:31

AArch64: Fix missing semicolons when assertions are enabled

5658b089

2013-12-30T16:33:47

Darwin/aarch64: Use CNAME, restrict .size like ARM

07175780

2013-12-30T17:48:22

Darwin/aarch64: Fix invalid reference in assembly

2c18e3c7

2013-12-30T16:14:02

Darwin/aarch64: Fix "shadows declaration" warnings

6030cdca

2013-12-30T15:45:51

Darwin/aarch64: Account for long double being equal to double

1b8a8e20

2014-01-09T13:55:21

Darwin/aarch64: Use Clang cache invalidation builtin

5bfe62a0

2014-01-09T13:41:27

Darwin/AArch64: Inhibit Clang previous prototype warnings

3dc3f32c

2013-12-05T16:23:25

Undo iOS ARM64 changes.

0278284e

2013-11-30T03:03:37

Darwin/aarch64: size_t assumptions

9775446b

2013-11-30T02:39:34

Darwin/aarch64: Fix “shadows declaration” warnings

4260badc

2013-11-30T02:08:14

Darwin/aarch64: Use Clang cache invalidation builtin

9fa7998d

2013-11-30T02:07:48

Darwin/aarch64: Inhibit Xcode warning

0e832048

2013-11-30T02:07:34

Darwin/aarch64: double == long double

b513dfe7

2013-11-30T02:05:22

Darwin/aarch64: Restrict .size to ELF like arm32.

bc978099

2013-11-30T02:04:57

Darwin/aarch64: Potentially(?) fix compile error

d6bb9314

2013-11-30T02:04:22

Darwin/aarch64: Use CNAME refs

128cd1d2

2013-10-08T06:45:51

Fix spelling errors

58e8b66f

2012-10-30T07:07:19

AArch64 port

fa5d7479

2012-10-30T07:07:19

AArch64 port

kc3-lang/libffi/src/aarch64

src/aarch64

Log