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2022-07-27arc4random: simplify design for better safetyJason A. Donenfeld35-2676/+64
Rather than buffering 16 MiB of entropy in userspace (by way of chacha20), simply call getrandom() every time. This approach is doubtlessly slower, for now, but trying to prematurely optimize arc4random appears to be leading toward all sorts of nasty properties and gotchas. Instead, this patch takes a much more conservative approach. The interface is added as a basic loop wrapper around getrandom(), and then later, the kernel and libc together can work together on optimizing that. This prevents numerous issues in which userspace is unaware of when it really must throw away its buffer, since we avoid buffering all together. Future improvements may include userspace learning more from the kernel about when to do that, which might make these sorts of chacha20-based optimizations more possible. The current heuristic of 16 MiB is meaningless garbage that doesn't correspond to anything the kernel might know about. So for now, let's just do something conservative that we know is correct and won't lead to cryptographic issues for users of this function. This patch might be considered along the lines of, "optimization is the root of all evil," in that the much more complex implementation it replaces moves too fast without considering security implications, whereas the incremental approach done here is a much safer way of going about things. Once this lands, we can take our time in optimizing this properly using new interplay between the kernel and userspace. getrandom(0) is used, since that's the one that ensures the bytes returned are cryptographically secure. But on systems without it, we fallback to using /dev/urandom. This is unfortunate because it means opening a file descriptor, but there's not much of a choice. Secondly, as part of the fallback, in order to get more or less the same properties of getrandom(0), we poll on /dev/random, and if the poll succeeds at least once, then we assume the RNG is initialized. This is a rough approximation, as the ancient "non-blocking pool" initialized after the "blocking pool", not before, and it may not port back to all ancient kernels, though it does to all kernels supported by glibc (≥3.2), so generally it's the best approximation we can do. The motivation for including arc4random, in the first place, is to have source-level compatibility with existing code. That means this patch doesn't attempt to litigate the interface itself. It does, however, choose a conservative approach for implementing it. Cc: Adhemerval Zanella Netto <adhemerval.zanella@linaro.org> Cc: Florian Weimer <fweimer@redhat.com> Cc: Cristian Rodríguez <crrodriguez@opensuse.org> Cc: Paul Eggert <eggert@cs.ucla.edu> Cc: Mark Harris <mark.hsj@gmail.com> Cc: Eric Biggers <ebiggers@kernel.org> Cc: linux-crypto@vger.kernel.org Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com> Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
2022-07-26LoongArch: Update NEWS and README for the LoongArch port.caiyinyu3-1/+10
2022-07-26LoongArch: Update build-many-glibcs.py for the LoongArch Port.caiyinyu1-0/+5
2022-07-26LoongArch: Hard Float Supportcaiyinyu22-0/+2372
2022-07-26LoongArch: Build Infrastructurecaiyinyu15-0/+434
2022-07-26LoongArch: Add ABI Listscaiyinyu11-0/+3385
2022-07-26LoongArch: Linux ABIcaiyinyu17-0/+826
2022-07-26LoongArch: Linux Syscall Interfacecaiyinyu8-0/+947
2022-07-26LoongArch: Atomic and Locking Routinescaiyinyu1-0/+147
2022-07-26LoongArch: Generic <math.h> and soft-fp Routinescaiyinyu5-0/+321
2022-07-26LoongArch: Thread-Local Storage Supportcaiyinyu4-0/+249
2022-07-26LoongArch: ABI Implementationcaiyinyu18-0/+959
2022-07-26LoongArch: Add relocations and ELF flags to elf.h and scripts/glibcelf.pycaiyinyu2-2/+69
2022-07-26LoongArch: Add LoongArch entries to config.h.incaiyinyu1-0/+6
2022-07-25struct stat is not posix conformant on microblaze with __USE_FILE_OFFSET64Arnout Vandecappelle (Essensium/Mind)1-1/+1
Commit a06b40cdf5ba0d2ab4f9b4c77d21e45ff284fac7 updated stat.h to use __USE_XOPEN2K8 instead of __USE_MISC to add the st_atim, st_mtim and st_ctim members to struct stat. However, for microblaze, there are two definitions of struct stat, depending on the __USE_FILE_OFFSET64 macro. The second one was not updated. Change __USE_MISC to __USE_XOPEN2K8 in the __USE_FILE_OFFSET64 version of struct stat for microblaze.
2022-07-25Linux: dirent/tst-readdir64-compat needs to use TEST_COMPAT (bug 27654)Florian Weimer2-6/+8
The hppa port starts libc at GLIBC_2.2, but has earlier symbol versions in other shared objects. This means that the compat symbol for readdir64 is not actually present in libc even though have-GLIBC_2.1.3 is defined as yes at the make level. Fixes commit 15e50e6c966fa0f26612602a95f0129543d9f9d5 ("Linux: dirent/tst-readdir64-compat can be a regular test") by mostly reverting it.
2022-07-22manual: Add documentation for arc4random functionsAdhemerval Zanella Netto1-0/+46
2022-07-22s390x: Add optimized chacha20Adhemerval Zanella Netto4-1/+626
It adds vectorized ChaCha20 implementation based on libgcrypt cipher/chacha20-s390x.S. The final state register clearing is omitted. On a z15 it shows the following improvements (using formatted bench-arc4random data): GENERIC MB/s ----------------------------------------------- arc4random [single-thread] 198.92 arc4random_buf(16) [single-thread] 244.49 arc4random_buf(32) [single-thread] 282.73 arc4random_buf(48) [single-thread] 286.64 arc4random_buf(64) [single-thread] 320.06 arc4random_buf(80) [single-thread] 297.43 arc4random_buf(96) [single-thread] 310.96 arc4random_buf(112) [single-thread] 308.10 arc4random_buf(128) [single-thread] 309.90 ----------------------------------------------- VX. MB/s ----------------------------------------------- arc4random [single-thread] 430.26 arc4random_buf(16) [single-thread] 735.14 arc4random_buf(32) [single-thread] 1029.99 arc4random_buf(48) [single-thread] 1206.76 arc4random_buf(64) [single-thread] 1311.92 arc4random_buf(80) [single-thread] 1378.74 arc4random_buf(96) [single-thread] 1445.06 arc4random_buf(112) [single-thread] 1484.32 arc4random_buf(128) [single-thread] 1517.30 ----------------------------------------------- Checked on s390x-linux-gnu.
2022-07-22powerpc64: Add optimized chacha20Adhemerval Zanella Netto7-1/+347
It adds vectorized ChaCha20 implementation based on libgcrypt cipher/chacha20-ppc.c. It targets POWER8 and it is used on default for LE. On a POWER8 it shows the following improvements (using formatted bench-arc4random data): POWER8 GENERIC MB/s ----------------------------------------------- arc4random [single-thread] 138.77 arc4random_buf(16) [single-thread] 174.36 arc4random_buf(32) [single-thread] 228.11 arc4random_buf(48) [single-thread] 252.31 arc4random_buf(64) [single-thread] 270.11 arc4random_buf(80) [single-thread] 278.97 arc4random_buf(96) [single-thread] 287.78 arc4random_buf(112) [single-thread] 291.92 arc4random_buf(128) [single-thread] 295.25 POWER8 MB/s ----------------------------------------------- arc4random [single-thread] 198.06 arc4random_buf(16) [single-thread] 278.79 arc4random_buf(32) [single-thread] 448.89 arc4random_buf(48) [single-thread] 551.09 arc4random_buf(64) [single-thread] 646.12 arc4random_buf(80) [single-thread] 698.04 arc4random_buf(96) [single-thread] 756.06 arc4random_buf(112) [single-thread] 784.12 arc4random_buf(128) [single-thread] 808.04 ----------------------------------------------- Checked on powerpc64-linux-gnu and powerpc64le-linux-gnu. Reviewed-by: Paul E. Murphy <murphyp@linux.ibm.com>
2022-07-22x86: Add AVX2 optimized chacha20Adhemerval Zanella Netto5-7/+359
It adds vectorized ChaCha20 implementation based on libgcrypt cipher/chacha20-amd64-avx2.S. It is used only if AVX2 is supported and enabled by the architecture. As for generic implementation, the last step that XOR with the input is omited. The final state register clearing is also omitted. On a Ryzen 9 5900X it shows the following improvements (using formatted bench-arc4random data): SSE MB/s ----------------------------------------------- arc4random [single-thread] 704.25 arc4random_buf(16) [single-thread] 1018.17 arc4random_buf(32) [single-thread] 1315.27 arc4random_buf(48) [single-thread] 1449.36 arc4random_buf(64) [single-thread] 1511.16 arc4random_buf(80) [single-thread] 1539.48 arc4random_buf(96) [single-thread] 1571.06 arc4random_buf(112) [single-thread] 1596.16 arc4random_buf(128) [single-thread] 1613.48 ----------------------------------------------- AVX2 MB/s ----------------------------------------------- arc4random [single-thread] 922.61 arc4random_buf(16) [single-thread] 1478.70 arc4random_buf(32) [single-thread] 2241.80 arc4random_buf(48) [single-thread] 2681.28 arc4random_buf(64) [single-thread] 2913.43 arc4random_buf(80) [single-thread] 3009.73 arc4random_buf(96) [single-thread] 3141.16 arc4random_buf(112) [single-thread] 3254.46 arc4random_buf(128) [single-thread] 3305.02 ----------------------------------------------- Checked on x86_64-linux-gnu.
2022-07-22x86: Add SSE2 optimized chacha20Adhemerval Zanella Netto4-2/+352
It adds vectorized ChaCha20 implementation based on libgcrypt cipher/chacha20-amd64-ssse3.S. It replaces the ROTATE_SHUF_2 (which uses pshufb) by ROTATE2 and thus making the original implementation SSE2. As for generic implementation, the last step that XOR with the input is omited. The final state register clearing is also omitted. On a Ryzen 9 5900X it shows the following improvements (using formatted bench-arc4random data): GENERIC MB/s ----------------------------------------------- arc4random [single-thread] 443.11 arc4random_buf(16) [single-thread] 552.27 arc4random_buf(32) [single-thread] 626.86 arc4random_buf(48) [single-thread] 649.81 arc4random_buf(64) [single-thread] 663.95 arc4random_buf(80) [single-thread] 674.78 arc4random_buf(96) [single-thread] 675.17 arc4random_buf(112) [single-thread] 680.69 arc4random_buf(128) [single-thread] 683.20 ----------------------------------------------- SSE MB/s ----------------------------------------------- arc4random [single-thread] 704.25 arc4random_buf(16) [single-thread] 1018.17 arc4random_buf(32) [single-thread] 1315.27 arc4random_buf(48) [single-thread] 1449.36 arc4random_buf(64) [single-thread] 1511.16 arc4random_buf(80) [single-thread] 1539.48 arc4random_buf(96) [single-thread] 1571.06 arc4random_buf(112) [single-thread] 1596.16 arc4random_buf(128) [single-thread] 1613.48 ----------------------------------------------- Checked on x86_64-linux-gnu.
2022-07-22aarch64: Add optimized chacha20Adhemerval Zanella Netto6-2/+408
It adds vectorized ChaCha20 implementation based on libgcrypt cipher/chacha20-aarch64.S. It is used as default and only little-endian is supported (BE uses generic code). As for generic implementation, the last step that XOR with the input is omited. The final state register clearing is also omitted. On a virtualized Linux on Apple M1 it shows the following improvements (using formatted bench-arc4random data): GENERIC MB/s ----------------------------------------------- arc4random [single-thread] 380.89 arc4random_buf(16) [single-thread] 500.73 arc4random_buf(32) [single-thread] 552.61 arc4random_buf(48) [single-thread] 566.82 arc4random_buf(64) [single-thread] 574.01 arc4random_buf(80) [single-thread] 581.02 arc4random_buf(96) [single-thread] 591.19 arc4random_buf(112) [single-thread] 592.29 arc4random_buf(128) [single-thread] 596.43 ----------------------------------------------- OPTIMIZED MB/s ----------------------------------------------- arc4random [single-thread] 569.60 arc4random_buf(16) [single-thread] 825.78 arc4random_buf(32) [single-thread] 987.03 arc4random_buf(48) [single-thread] 1042.39 arc4random_buf(64) [single-thread] 1075.50 arc4random_buf(80) [single-thread] 1094.68 arc4random_buf(96) [single-thread] 1130.16 arc4random_buf(112) [single-thread] 1129.58 arc4random_buf(128) [single-thread] 1137.91 ----------------------------------------------- Checked on aarch64-linux-gnu.
2022-07-22benchtests: Add arc4random benchtestAdhemerval Zanella Netto5-3/+230
It shows both throughput (total bytes obtained in the test duration) and latecy for both arc4random and arc4random_buf with different sizes. Checked on x86_64-linux-gnu, aarch64-linux, and powerpc64le-linux-gnu.
2022-07-22stdlib: Add arc4random testsAdhemerval Zanella Netto5-0/+860
The basic tst-arc4random-chacha20.c checks if the output of ChaCha20 implementation matches the reference test vectors from RFC8439. The tst-arc4random-fork.c check if subprocesses generate distinct streams of randomness (if fork handling is done correctly). The tst-arc4random-stats.c is a statistical test to the randomness of arc4random, arc4random_buf, and arc4random_uniform. The tst-arc4random-thread.c check if threads generate distinct streams of randomness (if function are thread-safe). Checked on x86_64-linux-gnu, aarch64-linux, and powerpc64le-linux-gnu. Co-authored-by: Florian Weimer <fweimer@redhat.com> Checked on x86_64-linux-gnu and aarch64-linux-gnu.
2022-07-22stdlib: Add arc4random, arc4random_buf, and arc4random_uniform (BZ #4417)Adhemerval Zanella Netto55-15/+800
The implementation is based on scalar Chacha20 with per-thread cache. It uses getrandom or /dev/urandom as fallback to get the initial entropy, and reseeds the internal state on every 16MB of consumed buffer. To improve performance and lower memory consumption the per-thread cache is allocated lazily on first arc4random functions call, and if the memory allocation fails getentropy or /dev/urandom is used as fallback. The cache is also cleared on thread exit iff it was initialized (so if arc4random is not called it is not touched). Although it is lock-free, arc4random is still not async-signal-safe (the per thread state is not updated atomically). The ChaCha20 implementation is based on RFC8439 [1], omitting the final XOR of the keystream with the plaintext because the plaintext is a stream of zeros. This strategy is similar to what OpenBSD arc4random does. The arc4random_uniform is based on previous work by Florian Weimer, where the algorithm is based on Jérémie Lumbroso paper Optimal Discrete Uniform Generation from Coin Flips, and Applications (2013) [2], who credits Donald E. Knuth and Andrew C. Yao, The complexity of nonuniform random number generation (1976), for solving the general case. The main advantage of this method is the that the unit of randomness is not the uniform random variable (uint32_t), but a random bit. It optimizes the internal buffer sampling by initially consuming a 32-bit random variable and then sampling byte per byte. Depending of the upper bound requested, it might lead to better CPU utilization. Checked on x86_64-linux-gnu, aarch64-linux, and powerpc64le-linux-gnu. Co-authored-by: Florian Weimer <fweimer@redhat.com> Reviewed-by: Yann Droneaud <ydroneaud@opteya.com> [1] https://datatracker.ietf.org/doc/html/rfc8439 [2] https://arxiv.org/pdf/1304.1916.pdf
2022-07-22locale: Optimize tst-localedef-path-normAdhemerval Zanella2-111/+128
The locale generation are issues in parallel to try speed locale generation. The maximum number of jobs are limited to the online CPU (in hope to not overcommit on environments with lower cores than tests). On a Ryzen 9, the test execution improves from ~6.7s to ~1.4s. Tested-by: Mark Wielaard <mark@klomp.org>
2022-07-21malloc: Simplify implementation of __malloc_assertFlorian Weimer1-10/+5
It is prudent not to run too much code after detecting heap corruption, and __fxprintf is really complex. The line number and file name do not carry much information, so it is not included in the error message. (__libc_message only supports %s formatting.) The function name and assertion should provide some context. Reviewed-by: Siddhesh Poyarekar <siddhesh@sourceware.org>
2022-07-19Update scripts/config.* files from upstream GNU config versionAdhemerval Zanella2-878/+1252
This patch updates various miscellaneous files from their upstream sources (version 2022-05-25). It is required for loongarch support. Checked on aarch64-linux-gnu.
2022-07-19linux: return UNSUPPORTED from tst-mount if entering mount namespace failsMichael Hudson-Doyle1-19/+6
Before this the test fails if run in a chroot by a non-root user: warning: could not become root outside namespace (Operation not permitted) ../sysdeps/unix/sysv/linux/tst-mount.c:36: numeric comparison failure left: 1 (0x1); from: errno right: 19 (0x13); from: ENODEV error: ../sysdeps/unix/sysv/linux/tst-mount.c:39: not true: fd != -1 error: ../sysdeps/unix/sysv/linux/tst-mount.c:46: not true: r != -1 error: ../sysdeps/unix/sysv/linux/tst-mount.c:48: not true: r != -1 ../sysdeps/unix/sysv/linux/tst-mount.c:52: numeric comparison failure left: 1 (0x1); from: errno right: 9 (0x9); from: EBADF error: ../sysdeps/unix/sysv/linux/tst-mount.c:55: not true: mfd != -1 ../sysdeps/unix/sysv/linux/tst-mount.c:58: numeric comparison failure left: 1 (0x1); from: errno right: 2 (0x2); from: ENOENT error: ../sysdeps/unix/sysv/linux/tst-mount.c:61: not true: r != -1 ../sysdeps/unix/sysv/linux/tst-mount.c:65: numeric comparison failure left: 1 (0x1); from: errno right: 2 (0x2); from: ENOENT error: ../sysdeps/unix/sysv/linux/tst-mount.c:68: not true: pfd != -1 error: ../sysdeps/unix/sysv/linux/tst-mount.c:75: not true: fd_tree != -1 ../sysdeps/unix/sysv/linux/tst-mount.c:88: numeric comparison failure left: 1 (0x1); from: errno right: 38 (0x26); from: ENOSYS error: 12 test failures Checking that the test can enter a new mount namespace is more correct than just checking the return value of support_become_root() as the test code changes the mount namespace it runs in so running it as root on a system that does not support mount namespaces should still skip. Also change the test to remove the unnecessary fork. Reviewed-by: Carlos O'Donell <carlos@redhat.com>
2022-07-16x86: Add support to build st{p|r}{n}{cpy|cat} with explicit ISA levelNoah Goldstein30-158/+382
1. Add default ISA level selection in non-multiarch/rtld implementations. 2. Add ISA level build guards to different implementations. - I.e strcpy-avx2.S which is ISA level 3 will only build if compiled ISA level <= 3. Otherwise there is no reason to include it as we will always use one of the ISA level 4 implementations (strcpy-evex.S). 3. Refactor the ifunc selector and ifunc implementation list to use the ISA level aware wrapper macros that allow functions below the compiled ISA level (with a guranteed replacement) to be skipped. Tested with and without multiarch on x86_64 for ISA levels: {generic, x86-64-v2, x86-64-v3, x86-64-v4} And m32 with and without multiarch.
2022-07-16x86: Add support to build wcscpy with explicit ISA levelNoah Goldstein8-12/+103
1. Add ISA level build guards to different implementations. - wcscpy-ssse3.S is used as ISA level 2/3/4. - wcscpy-generic.c is only used at ISA level 1 and will only build if compiled with ISA level == 1. Otherwise there is no reason to include it as we will always use wcscpy-ssse3.S 2. Refactor the ifunc selector and ifunc implementation list to use the ISA level aware wrapper macros that allow functions below the compiled ISA level (with a guranteed replacement) to be skipped. Tested with and without multiarch on x86_64 for ISA levels: {generic, x86-64-v2, x86-64-v3, x86-64-v4} And m32 with and without multiarch.
2022-07-16x86: Add support to build strcmp/strlen/strchr with explicit ISA levelNoah Goldstein88-618/+1157
1. Add default ISA level selection in non-multiarch/rtld implementations. 2. Add ISA level build guards to different implementations. - I.e strcmp-avx2.S which is ISA level 3 will only build if compiled ISA level <= 3. Otherwise there is no reason to include it as we will always use one of the ISA level 4 implementations (strcmp-evex.S). 3. Refactor the ifunc selector and ifunc implementation list to use the ISA level aware wrapper macros that allow functions below the compiled ISA level (with a guranteed replacement) to be skipped. Tested with and without multiarch on x86_64 for ISA levels: {generic, x86-64-v2, x86-64-v3, x86-64-v4} And m32 with and without multiarch.
2022-07-15elf: Fix wrong fscanf usage on tst-plddAdhemerval Zanella1-4/+5
The fix done b2cd93fce666fdc8c9a5c64af2741a8a6940ac99 does not really work since macro strification does not expand the sizeof nor the arithmetic operation. Checked on x86_64-linux-gnu.
2022-07-14Apply asm redirections in stdio.h before first use [BZ #27087]Tulio Magno Quites Machado Filho5-68/+125
Compilers may not be able to apply asm redirections to functions after these functions are used for the first time, e.g. clang 13. Fix [BZ #27087] by applying all long double-related asm redirections before using functions in bits/stdio.h. However, as these asm redirections depend on the declarations provided by libio/bits/stdio2.h, this header was split in 2: - libio/bits/stdio2-decl.h contains all function declarations; - libio/bits/stdio2.h remains with the remaining contents, including redirections. This also adds the access attribute to __vsnprintf_chk that was missing. Tested with build-many-glibcs.py. Reviewed-by: Paul E. Murphy <murphyp@linux.ibm.com>
2022-07-14S390: Define SINGLE_THREAD_BY_GLOBAL only on s390xStefan Liebler1-0/+0
Starting with commit e070501d12b47e88c1ff8c313f887976fb578938 "Replace __libc_multiple_threads with __libc_single_threaded" the testcases nptl/tst-cancel-self and nptl/tst-cancel-self-cancelstate are failing. This is fixed by only defining SINGLE_THREAD_BY_GLOBAL on s390x, but not on s390. Starting with commit 09c76a74099826f4c6e1c4c431d7659f78112862 "Linux: Consolidate {RTLD_}SINGLE_THREAD_P definition", SINGLE_THREAD_BY_GLOBAL was defined in sysdeps/unix/sysv/linux/s390/s390-64/sysdep.h. Lateron the commit 9a973da617772eff1f351989f8995f4305a2e63c "s390: Consolidate Linux syscall definition" consolidates the sysdep.h files from s390-32/s390-64 subdirectories. Unfortunately the macro is now always defined instead of only on s390-64. As information: TLS_MULTIPLE_THREADS_IN_TCB is also only defined for s390. See: sysdeps/s390/nptl/tls.h
2022-07-13x86: Add missing rtm tests for strcmp familyNoah Goldstein6-2/+150
Add new tests for: strcasecmp strncasecmp strcmp wcscmp These functions all have avx2_rtm implementations so should be tested.
2022-07-13x86: Remove unneeded rtld-wmemcmpNoah Goldstein1-18/+0
wmemcmp isn't used by the dynamic loader so their no need to add an RTLD stub for it. Tested with and without multiarch on x86_64 for ISA levels: {generic, x86-64-v2, x86-64-v3, x86-64-v4} And m32 with and without multiarch.
2022-07-13x86: Move wcslen SSE2 implementation to multiarch/wcslen-sse2.SNoah Goldstein2-219/+218
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move wcschr SSE2 implementation to multiarch/wcschr-sse2.SNoah Goldstein2-142/+138
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strcat SSE2 implementation to multiarch/strcat-sse2.SNoah Goldstein2-243/+238
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strchr SSE2 implementation to multiarch/strchr-sse2.SNoah Goldstein6-183/+213
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strrchr SSE2 implementation to multiarch/strrchr-sse2.SNoah Goldstein4-377/+366
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move memrchr SSE2 implementation to multiarch/memrchr-sse2.SNoah Goldstein2-334/+334
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strcpy SSE2 implementation to multiarch/strcpy-sse2.SNoah Goldstein5-155/+156
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strlen SSE2 implementation to multiarch/strlen-sse2.SNoah Goldstein9-286/+306
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strcmp SSE42 implementation to multiarch/strcmp-sse4_2.SNoah Goldstein5-1792/+1766
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move wcscmp SSE2 implementation to multiarch/wcscmp-sse2.SNoah Goldstein2-934/+934
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Move strcmp SSE2 implementation to multiarch/strcmp-sse2.SNoah Goldstein11-2178/+2264
This commit doesn't affect libc.so.6, its just housekeeping to prepare for adding explicit ISA level support. Because strcmp-sse2.S implements so many functions (more from avx2/evex/sse42) add a new file 'strcmp-naming.h' to assist in getting the correct symbol name for all the function across multiarch/non-multiarch builds. Tested build on x86_64 and x86_32 with/without multiarch.
2022-07-13x86: Rename STRCASECMP_NONASCII macro to STRCASECMP_L_NONASCIINoah Goldstein2-6/+6
The previous macro name can be confusing given that both `__strcasecmp_l_nonascii` and `__strcasecmp_nonascii` are functions and we use the `_l` version.
2022-07-13nptl: Fix ___pthread_unregister_cancel_restore asynchronous restoreAdhemerval Zanella1-1/+1
This was due a wrong revert done on 404656009b459658. Checked on x86_64-linux-gnu and i686-linux-gnu.