(Imports upstream's adc4f1fc25b2cac90076f1e1695b05b7aeeae501.)
Some OSes, *cough*-dows, insist on stack being "wired" to
physical memory in strictly sequential manner, i.e. if stack
allocation spans two pages, then reference to farmost one can
be punishable by SEGV. But page walking can do good even on
other OSes, because it guarantees that villain thread hits
the guard page before it can make damage to innocent one...
Change-Id: Ie1e278eb5982f26e596783b3d7820a71295688ec
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This imports the changes to x86_64-xlate from upstream's
9c940446f614d1294fa197ffd4128206296b04da. It looks like it's a fix,
although it doesn't alter our generated asm at all. Either way, no point
in diverging from upstream on this point.
Change-Id: Iaedf2cdb9580cfccf6380dbc3df36b0e9c148d1c
Reviewed-on: https://boringssl-review.googlesource.com/13767
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This aligns us better with upstream's version of this file.
Change-Id: I771b6a6c57f2e11e30c95c7a5499c39575b16253
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(Imports upstream's a3b5684fc1d4f3aabdf68dcf6c577f6dd24d2b2d.)
CFI directives annotate instructions that are significant for stack
unwinding procedure. In addition to directives recognized by GNU
assembler this module implements three synthetic ones:
- .cfi_push annotates push instructions in prologue and translates to
.cfi_adjust_cfa_offset (if needed) and .cfi_offset;
- .cfi_pop annotates pop instructions in epilogue and translates to
.cfi_adjust_cfs_offset (if needed) and .cfi_restore;
- .cfi_cfa_expression encodes DW_CFA_def_cfa_expression and passes it
to .cfi_escape as byte vector;
CFA expression syntax is made up mix of DWARF operator suffixes [subset
of] and references to registers with optional bias. Following example
describes offloaded original stack pointer at specific offset from
current stack pointer:
.cfi_cfa_expression %rsp+40,deref,+8
Final +8 has everything to do with the fact that CFA, Canonical Frame
Address, is reference to top of caller's stack, and on x86_64 call to
subroutine pushes 8-byte return address.
Change-Id: Ic675bf52b5405000be34e9da31c9cf1660f4b491
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We compare pointer/length pairs constantly. To avoid needing to type it
everywhere and get GTest's output, add a StringPiece-alike for byte
slices which supports ==, !=, and std::ostream.
BUG=129
Change-Id: I108342cbd2c6a58fec0b9cb87ebdf50364bda099
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(Imports upstream's 9d301cfea7181766b79ba31ed257d30fb84b1b0f.)
Change-Id: Ibc384f5ae4879561e2b26b3c9c2a51af5d91a996
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(Imports upstream's e09b6216a5423555271509acf5112da5484ec15d.)
Change-Id: Ie9d785e415271bede1d35d014ac015e6984e3a52
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(Imported from upstream's e1dbf7f431b996010844e220d3200cbf2122dbb3)
Change-Id: I71933922f597358790e8a4222e9d69c4b121bc19
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(Imported from upstream's 526ab896459a58748af198f6703108b79c917f08.)
Change-Id: I975c1a3ffe76e3c3f99ed8286b448b97fd4a8b70
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BUG=129
Change-Id: I227ffa2da4e220075de296fb5b94d043f4e032e0
Reviewed-on: https://boringssl-review.googlesource.com/13627
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These are meant to make Android libcore's usage of BIGNUMs for java
BigIntegers faster and nicer (specifically, so that it doesn't need
to malloc a bunch of temporary BIGNUMs).
BUG=97
Change-Id: I5f30e14c6d8c66a9848d4935ce27d030829f6923
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Before, attempting to build the code using Yasm as the assembler would
result in warnings like this:
warning : no non-local label before `.chacha20_consts'
Precede the local labels with a non-local label to suppress these
warnings.
It isn't clear why these labels are defined as local labels instead of
regular labels. Making them non-local may be a better idea.
For reference, Yasm's interpretation of local labels is described
succinctly at
https://www.tortall.net/projects/yasm/manual/html/nasm-local-label.html.
Change-Id: Ifc92de7fd7379859fe33f1137ab20b6ec282cd0b
Reviewed-on: https://boringssl-review.googlesource.com/13384
Reviewed-by: Adam Langley <agl@google.com>
Replicate the logic in the AllTests targets to dump the error queue on
failure. GTest seems to print to stdout, so we do here too.
BUG=129
Change-Id: I623b695fb9a474945834c3653728f54e5b122187
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(Imported from upstream's efe8398649a1d7fc9d84d2818592652e0632a8a8.)
Change-Id: I0d04b3e75ec26a7dd3a7af31b0e115723c4b24d9
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The recent rewrite didn't account for the OID being missing but the NID
present.
Change-Id: I335e52324c62ee3ba849c0c385aaf86123a8ffbb
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It is hard to control what flags consumers may try to build us with.
Account for someone adding _GNU_SOURCE to the build line.
Change-Id: I4c931da70a9dccc89382ce9100c228c29d28d4bf
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This change guards the ChaCha20-Poly1305 asm on having SSE4.1. The
pinsrb instruction that it uses requires this, which I didn't notice,
and so this would fail on Core 2 and older chips.
BUG=chromium:688384
Change-Id: I177e3492782a1a9974b6df29d26fc4809009ad48
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The current X25519 assembly has a 352-byte stack frame and saves the
regsiters at the bottom. This means that the CFI information cannot be
represented in the “compact” form that MacOS seems to want to use (see
linked bug).
The stack frame looked like:
360 CFA
352 return address
⋮
56 (296 bytes of scratch space)
48 saved RBP
40 saved RBX
32 saved R15
24 saved R14
16 saved R13
8 saved R12
0 (hole left from 3f38d80b dropping the superfluous saving of R11)
Now it looks like:
352 CFA
344 return address
336 saved RBP
328 saved RBX
320 saved R15
312 saved R14
304 saved R13
296 saved R12
⋮
0 (296 bytes of scratch space)
The bulk of the changes involve subtracting 56 from all the offsets to
RSP when working in the scratch space. This was done in Vim with:
'<,'>s/\([1-9][0-9]*\)(%rsp)/\=submatch(1)-56."(%rsp)"/
BUG=176
Change-Id: I022830e8f896fe2d877015fa3ecfa1d073207679
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These are unused. BIO_puts is implemented genericly.
Change-Id: Iecf1b6736291de8c48ce1adbb7401963a120d122
Reviewed-on: https://boringssl-review.googlesource.com/13366
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The Mac ld gets unhappy about "weird" unwind directives:
In chacha20_poly1305_x86_64.pl, $keyp is being pushed on the stack
(according to the comment) because it gets clobbered in the computation
somewhere. $keyp is %r9 which is not callee-saved (it's an argument
register), so we don't need to tag it with .cfi_offset.
In x25519-asm-x86_64.S, x25519_x86_64_mul saves %rdi on the stack.
However it too is not callee-saved (it's an argument register) and
should not have a .cfi_offset. %rdi also does not appear to be written
to anywhere in the function, so there's no need to save it at all.
(This does not resolve the "r15 is saved too far from return address"
errors. Just the non-standard register ones.)
BUG=176
Change-Id: I53f3f7db3d1745384fb47cb52cd6536aabb5065e
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This change serves to check that all our consumers can process assembly
with CFI directives in it.
For the first change I picked a file that's not perlasm to keep things
slightly simplier, but that might have been a mistake:
DJB's tooling always aligns the stack to 32 bytes and it's not possible
to express this in DWARF format (without using a register to store the
old stack pointer).
Since none of the functions here appear to care about that alignment, I
removed it from each of them. I also trimmed the set of saved registers
where possible and used the redzone for functions that didn't need much
stack.
Overall, this appears to have slightly improved the performance (by
about 0.7%):
Before:
Did 46000 Curve25519 base-point multiplication operations in 3023288us (15215.2 ops/sec)
Did 46000 Curve25519 arbitrary point multiplication operations in 3017315us (15245.3 ops/sec)
Did 46000 Curve25519 base-point multiplication operations in 3015346us (15255.3 ops/sec)
Did 46000 Curve25519 arbitrary point multiplication operations in 3018609us (15238.8 ops/sec)
Did 46000 Curve25519 base-point multiplication operations in 3019004us (15236.8 ops/sec)
Did 46000 Curve25519 arbitrary point multiplication operations in 3013135us (15266.5 ops/sec)
After:
Did 46000 Curve25519 base-point multiplication operations in 3007659us (15294.3 ops/sec)
Did 47000 Curve25519 arbitrary point multiplication operations in 3054202us (15388.6 ops/sec)
Did 46000 Curve25519 base-point multiplication operations in 3008714us (15288.9 ops/sec)
Did 46000 Curve25519 arbitrary point multiplication operations in 3004740us (15309.1 ops/sec)
Did 46000 Curve25519 base-point multiplication operations in 3009140us (15286.8 ops/sec)
Did 47000 Curve25519 arbitrary point multiplication operations in 3057518us (15371.9 ops/sec)
Change-Id: I31df11c45b2ea0bf44dde861d52c27f848331691
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Change-Id: I81a94be94103d3c763cd6b2c1b8196300808c6fe
Reviewed-on: https://boringssl-review.googlesource.com/13386
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Cargo-cult the way other Perlasm scripts do it.
Change-Id: I86aaf725e41b601f24595518a8a6bc481fa0c7fc
Reviewed-on: https://boringssl-review.googlesource.com/13382
Reviewed-by: Adam Langley <agl@google.com>
Perlasm requires the size suffix when targeting NASM and Yasm; without
it, the resulting .asm file has |imu| instead of |imul|.
Change-Id: Icb95b8c0b68cf4f93becdc1930dc217398f56bec
Reviewed-on: https://boringssl-review.googlesource.com/13381
Reviewed-by: Adam Langley <agl@google.com>
Use the same quoting used in other files so that this file can be built
the same way as other files on platforms that require the other kind of
quoting.
Change-Id: I808769bf014fbfe526fedcdc1e1f617b3490d03b
Reviewed-on: https://boringssl-review.googlesource.com/13380
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Otherwise we could pass a negative value into |d2i_X509|.
Change-Id: I52a35dd9648269094110b69eddd7667a56ec8253
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These are completely unused, but for BIO_set_write_buffer_size which is
in some (unreachable) nginx codepath. Keep that around so nginx
continues to build, but otherwise delete it.
Change-Id: I1a50a4f7b23e5fdbc7f132900ecacd74e8775a7f
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I don't think that this makes a difference, but it's a little more
consistent with what we've done previously. I made this change when
trying to get the DFSAN build working, although that issue turned out to
be unrelated.
Change-Id: I21041689c5df70ca2bddf33065d687763af8c3c7
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The Windows assembler doesn't appear to do preprocessor macros but nor
can it cope with this style of label.
Change-Id: I0b8ca7372bb9ea0f20101ed138681d379944658e
Reviewed-on: https://boringssl-review.googlesource.com/13207
Reviewed-by: David Benjamin <davidben@google.com>
This is basically the same implementation I wrote for Go
The Go implementation:
https://github.com/golang/crypto/blob/master/chacha20poly1305/chacha20poly1305_amd64.s
The Cloudflare patch for OpenSSL:
https://github.com/cloudflare/sslconfig/blob/master/patches/openssl__chacha20_poly1305_draft_and_rfc_ossl102j.patch
The Seal/Open is only available for the new version, the old one uses
the bundled Poly1305, and the existing ChaCha20 implementations
The benefits of this code, compared to the optimized code currently
disabled in BoringSSL:
* Passes test vectors
* Faster performance: The AVX2 code (on Haswell), is 55% faster for 16B,
15% for 1350 and 6% for 8192 byte buffers
* Even faster on pre-AVX2 CPUs
Feel free to put whatever license, etc. is appropriate, under the
existing CLA.
Benchmarks are for 16/1350/8192 chunk sizes and given in MB/s:
Before (Ivy Bridge): 34.2 589.5 739.4
After: 68.4 692.1 799.4
Before (Skylake): 50 1233 1649
After: 119.4 1736 2196
After (Andy's): 63.6 1608 2261
Change-Id: I9186f721812655011fc17698b67ddbe8a1c7203b
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(These files weren't being built anyway.)
Change-Id: Id6c8d211b9ef867bdb7d83153458f9ad4e29e525
Reviewed-on: https://boringssl-review.googlesource.com/13205
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For now, this is the laziest conversion possible. The intent is to just
get the build setup ready so that we can get everything working in our
consumers. The intended end state is:
- The standalone build produces three test targets, one per library:
{crypto,ssl,decrepit}_tests.
- Each FOO_test is made up of:
FOO/**/*_test.cc
crypto/test/gtest_main.cc
test_support
- generate_build_files.py emits variables crypto_test_sources and
ssl_test_sources. These variables are populated with FindCFiles,
looking for *_test.cc.
- The consuming file assembles those variables into the two test targets
(plus decrepit) from there. This avoids having generate_build_files.py
emit actual build rules.
- Our standalone builders, Chromium, and Android just run the top-level
test targets using whatever GTest-based reporting story they have.
In transition, we start by converting one of two tests in each library
to populate the three test targets. Those are added to all_tests.json
and all_tests.go hacked to handle them transparently. This keeps our
standalone builder working.
generate_build_files.py, to start with, populates the new source lists
manually and subtracts them out of the old machinery. We emit both for
the time being. When this change rolls in, we'll write all the build
glue needed to build the GTest-based tests and add it to consumers'
continuous builders.
Next, we'll subsume a file-based test and get the consumers working with
that. (I.e. make sure the GTest targets can depend on a data file.)
Once that's all done, we'll be sure all this will work. At that point,
we start subsuming the remaining tests into the GTest targets and,
asynchronously, rewriting tests to use GTest properly rather than
cursory conversion here.
When all non-GTest tests are gone, the old generate_build_files.py hooks
will be removed, consumers updated to not depend on them, and standalone
builders converted to not rely on all_tests.go, which can then be
removed. (Unless bits end up being needed as a malloc test driver. I'm
thinking we'll want to do something with --gtest_filter.)
As part of this CL, I've bumped the CMake requirements (for
target_include_directories) and added a few suppressions for warnings
that GTest doesn't pass.
BUG=129
Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a
Reviewed-on: https://boringssl-review.googlesource.com/13232
Reviewed-by: Adam Langley <agl@google.com>
Several of our AEADs support truncated tags, but I don't believe that we
had a test for them previously.
Change-Id: I63fdd194c47c17b3d816b912a568534c393df9d8
Reviewed-on: https://boringssl-review.googlesource.com/13204
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Before RFC 7539 we had a ChaCha20-Poly1305 cipher suite that had a 64/64
nonce/counter split (as DJB's original ChaCha20 did). RFC 7539 changed
that to 96/32 and we've supported both for some time.
This change removes the old version and the TLS cipher suites that used
it.
BUG=chromium:682816
Change-Id: I2345d6db83441691fe0c1ab6d7c6da4d24777849
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This reverts commit def9b46801.
(I should have uploaded a new version before sending to the commit queue.)
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Before RFC 7539 we had a ChaCha20-Poly1305 cipher suite that had a 64/64
nonce/counter split (as DJB's original ChaCha20 did). RFC 7539 changed
that to 96/32 and we've supported both for some time.
This change removes the old version and the TLS cipher suites that used
it.
Change-Id: Icd9c2117c657f3aa6df55990c618d562194ef0e8
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Measured on a SkyLake processor:
Before:
Did 11373750 AES-128-GCM (16 bytes) seal operations in 1016000us (11194635.8 ops/sec): 179.1 MB/s
Did 2253000 AES-128-GCM (1350 bytes) seal operations in 1016000us (2217519.7 ops/sec): 2993.7 MB/s
Did 453750 AES-128-GCM (8192 bytes) seal operations in 1015000us (447044.3 ops/sec): 3662.2 MB/s
Did 10753500 AES-256-GCM (16 bytes) seal operations in 1016000us (10584153.5 ops/sec): 169.3 MB/s
Did 1898750 AES-256-GCM (1350 bytes) seal operations in 1015000us (1870689.7 ops/sec): 2525.4 MB/s
Did 374000 AES-256-GCM (8192 bytes) seal operations in 1016000us (368110.2 ops/sec): 3015.6 MB/s
After:
Did 11074000 AES-128-GCM (16 bytes) seal operations in 1015000us (10910344.8 ops/sec): 174.6 MB/s
Did 3178250 AES-128-GCM (1350 bytes) seal operations in 1016000us (3128198.8 ops/sec): 4223.1 MB/s
Did 734500 AES-128-GCM (8192 bytes) seal operations in 1016000us (722933.1 ops/sec): 5922.3 MB/s
Did 10394750 AES-256-GCM (16 bytes) seal operations in 1015000us (10241133.0 ops/sec): 163.9 MB/s
Did 2502250 AES-256-GCM (1350 bytes) seal operations in 1016000us (2462844.5 ops/sec): 3324.8 MB/s
Did 544500 AES-256-GCM (8192 bytes) seal operations in 1015000us (536453.2 ops/sec): 4394.6 MB/s
Change-Id: If058935796441ed4e577b9a72d3aa43422edba58
Reviewed-on: https://boringssl-review.googlesource.com/7273
Reviewed-by: Adam Langley <alangley@gmail.com>
This was removed in a00cafc50c because
none of the assembly actually appeared to need it. However, we found the
assembly the uses it: the MOVBE-based, x86-64 code.
Needing H seems silly since Htable is there, but rather than mess with
the assembly, it's easier to put H back in the structure—now with a
better comment.
Change-Id: Ie038cc4482387264d5e0821664fb41f575826d6f
Reviewed-on: https://boringssl-review.googlesource.com/13122
Reviewed-by: Adam Langley <alangley@gmail.com>
Fuchsia uses crypto/rand/fuchsia.c for CRYPTO_sysrand, and so must be
excluded from the Linux/Apple/POSIX variant.
Change-Id: Ide9f0aa2547d52ce0579cd0a1882b2cdcc7b95c6
Reviewed-on: https://boringssl-review.googlesource.com/13141
Reviewed-by: Adam Langley <agl@google.com>
Commit-Queue: Adam Langley <agl@google.com>
CQ-Verified: CQ bot account: commit-bot@chromium.org <commit-bot@chromium.org>
This change adds the OS-specific routines to get random bytes when using
BoringSSL on Fuchsia. Fuchsia uses the Magenta kernel, which provides
random bytes via a syscall rather than via a file or library function.
Change-Id: I32f858246425309d643d142214c7b8de0c62250a
Reviewed-on: https://boringssl-review.googlesource.com/13140
Reviewed-by: David Benjamin <davidben@google.com>
Commit-Queue: David Benjamin <davidben@google.com>
CQ-Verified: CQ bot account: commit-bot@chromium.org <commit-bot@chromium.org>
This function is only called twice per ECDH or ECDSA operation, and
it only saves a few scalar multiplications and additions compared to
the alternative, so it doesn't need to be specialized.
As the TODO comment above the callers notes, the two calls can be
reduced to one. Implementing |ecp_nistz256_from_mont| in terms of
|ecp_nistz256_mul_mont| helps show that that change is safe.
This also saves a small amount of code size and improves testing and
verification efficiency.
Note that this is already how the function is implemented for targets
other than x86-64 in OpenSSL.
Change-Id: If1404951f1a787d2618c853afd1f0e99a019e012
Reviewed-on: https://boringssl-review.googlesource.com/13021
Reviewed-by: Adam Langley <alangley@gmail.com>
There is no AVX implementation for x86. Previously on x86 the code
checked to see if AVX and MOVBE are available, and if so, then it
uses the CLMUL implementation. Otherwise it fell back to the same
CLMUL implementation. Thus, there is no reason to check if AVX + MOVBE
are enabled on x86.
Change-Id: Id4983d5d38d6b3269a40e288bca6cc51d2d13966
Reviewed-on: https://boringssl-review.googlesource.com/13024
Reviewed-by: Adam Langley <agl@google.com>
Reviewed-by: Adam Langley <alangley@gmail.com>
BoringSSL will always use the SSE version so this is all dead code.
Change-Id: I0f3b51ee29144b5c83d2553c92bebae901b6366f
Reviewed-on: https://boringssl-review.googlesource.com/13023
Reviewed-by: Adam Langley <alangley@gmail.com>
BoringSSL can assume that MMX, SSE, and SSE2 is always supported so
there is no need for a runtime check and there's no need for this
fallback code. Removing the code improves coverage analysis and shrinks
code size.
Change-Id: I782a1bae228f700895ada0bc56687e53cd02b5df
Reviewed-on: https://boringssl-review.googlesource.com/13022
Reviewed-by: Adam Langley <agl@google.com>
Reviewed-by: Adam Langley <alangley@gmail.com>
Commit-Queue: Adam Langley <agl@google.com>
Commit-Queue: Adam Langley <alangley@gmail.com>
This re-applies 3f3358ac15 which was
reverted in c7fe3b9ac5 because the field
operations did not fully-reduce operands. This was fixed in
2f1482706fadf51610a529be216fde0721709e66.
Change-Id: I3913af4b282238dbc21044454324123f961a58af
Reviewed-on: https://boringssl-review.googlesource.com/12227
Reviewed-by: Adam Langley <agl@google.com>
Mercifully, PKCS#12 does not actually make ContentInfo and SafeBag
mutually recursive. The top-level object in a PKCS#12 is a SEQUENCE of
data or encrypted data ContentInfos. Their payloads are a SEQUENCE of
SafeBags (aka SafeContents).
SafeBag is a similar structure to ContentInfo but not identical (it has
attributes in it which we ignore) and actually carries the objects.
There is only recursion if the SafeContents bag type is used, which we
do not process.
This means we don't need to manage recursion depth. This also no longer
allows trailing data after the SEQUENCE and removes the comment about
NSS. The test file still passes, so I'm guessing something else was
going on?
Change-Id: I68e2f8a5cc4b339597429d15dc3588bd39267e0a
Reviewed-on: https://boringssl-review.googlesource.com/13071
Reviewed-by: Adam Langley <agl@google.com>
Resolving the TODO here will be messier than the other implementations
but, to start with, remove this 'pivot element' thing. All that is just
to free some array contents without having to memset the whole thing to
zero.
Change-Id: Ifd6ee0b3815006d4f1f19c9db085cb842671c6dc
Reviewed-on: https://boringssl-review.googlesource.com/13057
Commit-Queue: David Benjamin <davidben@google.com>
Reviewed-by: Adam Langley <agl@google.com>
