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299 lines
8.8 KiB
C
299 lines
8.8 KiB
C
/* Test that explicit_bzero block clears are not optimized out.
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Copyright (C) 2016-2018 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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/* This test is conceptually based on a test designed by Matthew
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Dempsky for the OpenBSD regression suite:
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<openbsd>/src/regress/lib/libc/explicit_bzero/explicit_bzero.c.
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The basic idea is, we have a function that contains a
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block-clearing operation (not necessarily explicit_bzero), after
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which the block is dead, in the compiler-jargon sense. Execute
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that function while running on a user-allocated alternative
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stack. Then we have another pointer to the memory region affected
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by the block clear -- namely, the original allocation for the
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alternative stack -- and can find out whether it actually happened.
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The OpenBSD test uses sigaltstack and SIGUSR1 to get onto an
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alternative stack. This causes a number of awkward problems; some
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operating systems (e.g. Solaris and OSX) wipe the signal stack upon
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returning to the normal stack, there's no way to be sure that other
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processes running on the same system will not interfere, and the
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signal stack is very small so it's not safe to call printf there.
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This implementation instead uses the <ucontext.h> coroutine
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interface. The coroutine stack is still too small to safely use
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printf, but we know the OS won't erase it, so we can do all the
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checks and printing from the normal stack. */
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#define _GNU_SOURCE 1
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#include <errno.h>
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#include <signal.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <ucontext.h>
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#include <unistd.h>
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/* A byte pattern that is unlikely to occur by chance: the first 16
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prime numbers (OEIS A000040). */
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static const unsigned char test_pattern[16] =
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{
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2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53
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};
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/* Immediately after each subtest returns, we call swapcontext to get
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back onto the main stack. That call might itself overwrite the
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test pattern, so we fill a modest-sized buffer with copies of it
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and check whether any of them survived. */
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#define PATTERN_SIZE (sizeof test_pattern)
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#define PATTERN_REPS 32
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#define TEST_BUFFER_SIZE (PATTERN_SIZE * PATTERN_REPS)
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/* There are three subtests, two of which are sanity checks.
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Each test follows this sequence:
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main coroutine
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---- --------
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advance cur_subtest
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swap
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call setup function
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prepare test buffer
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swap
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verify that buffer
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was filled in
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swap
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possibly clear buffer
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return
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swap
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check buffer again,
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according to test
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expectation
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In the "no_clear" case, we don't do anything to the test buffer
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between preparing it and letting it go out of scope, and we expect
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to find it. This confirms that the test buffer does get filled in
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and we can find it from the stack buffer. In the "ordinary_clear"
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case, we clear it using memset. Depending on the target, the
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compiler may not be able to apply dead store elimination to the
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memset call, so the test does not fail if the memset is not
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eliminated. Finally, the "explicit_clear" case uses explicit_bzero
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and expects _not_ to find the test buffer, which is the real
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test. */
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static ucontext_t uc_main, uc_co;
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/* Always check the test buffer immediately after filling it; this
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makes externally visible side effects depend on the buffer existing
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and having been filled in. */
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static inline __attribute__ ((always_inline)) void
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prepare_test_buffer (unsigned char *buf)
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{
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for (unsigned int i = 0; i < PATTERN_REPS; i++)
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memcpy (buf + i*PATTERN_SIZE, test_pattern, PATTERN_SIZE);
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if (swapcontext (&uc_co, &uc_main))
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abort ();
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}
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static void
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setup_no_clear (void)
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{
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unsigned char buf[TEST_BUFFER_SIZE];
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prepare_test_buffer (buf);
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}
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static void
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setup_ordinary_clear (void)
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{
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unsigned char buf[TEST_BUFFER_SIZE];
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prepare_test_buffer (buf);
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memset (buf, 0, TEST_BUFFER_SIZE);
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}
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static void
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setup_explicit_clear (void)
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{
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unsigned char buf[TEST_BUFFER_SIZE];
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prepare_test_buffer (buf);
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explicit_bzero (buf, TEST_BUFFER_SIZE);
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}
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enum test_expectation
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{
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EXPECT_NONE, EXPECT_SOME, EXPECT_ALL, NO_EXPECTATIONS
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};
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struct subtest
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{
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void (*setup_subtest) (void);
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const char *label;
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enum test_expectation expected;
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};
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static const struct subtest *cur_subtest;
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static const struct subtest subtests[] =
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{
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{ setup_no_clear, "no clear", EXPECT_SOME },
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/* The memset may happen or not, depending on compiler
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optimizations. */
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{ setup_ordinary_clear, "ordinary clear", NO_EXPECTATIONS },
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{ setup_explicit_clear, "explicit clear", EXPECT_NONE },
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{ 0, 0, -1 }
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};
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static void
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test_coroutine (void)
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{
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while (cur_subtest->setup_subtest)
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{
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cur_subtest->setup_subtest ();
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if (swapcontext (&uc_co, &uc_main))
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abort ();
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}
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}
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/* All the code above this point runs on the coroutine stack.
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All the code below this point runs on the main stack. */
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static int test_status;
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static unsigned char *co_stack_buffer;
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static size_t co_stack_size;
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static unsigned int
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count_test_patterns (unsigned char *buf, size_t bufsiz)
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{
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unsigned char *first = memmem (buf, bufsiz, test_pattern, PATTERN_SIZE);
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if (!first)
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return 0;
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unsigned int cnt = 0;
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for (unsigned int i = 0; i < PATTERN_REPS; i++)
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{
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unsigned char *p = first + i*PATTERN_SIZE;
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if (p + PATTERN_SIZE - buf > bufsiz)
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break;
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if (memcmp (p, test_pattern, PATTERN_SIZE) == 0)
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cnt++;
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}
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return cnt;
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}
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static void
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check_test_buffer (enum test_expectation expected,
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const char *label, const char *stage)
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{
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unsigned int cnt = count_test_patterns (co_stack_buffer, co_stack_size);
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switch (expected)
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{
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case EXPECT_NONE:
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if (cnt == 0)
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printf ("PASS: %s/%s: expected 0 got %d\n", label, stage, cnt);
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else
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{
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printf ("FAIL: %s/%s: expected 0 got %d\n", label, stage, cnt);
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test_status = 1;
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}
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break;
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case EXPECT_SOME:
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if (cnt > 0)
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printf ("PASS: %s/%s: expected some got %d\n", label, stage, cnt);
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else
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{
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printf ("FAIL: %s/%s: expected some got 0\n", label, stage);
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test_status = 1;
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}
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break;
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case EXPECT_ALL:
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if (cnt == PATTERN_REPS)
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printf ("PASS: %s/%s: expected %d got %d\n", label, stage,
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PATTERN_REPS, cnt);
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else
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{
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printf ("FAIL: %s/%s: expected %d got %d\n", label, stage,
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PATTERN_REPS, cnt);
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test_status = 1;
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}
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break;
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case NO_EXPECTATIONS:
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printf ("INFO: %s/%s: found %d patterns%s\n", label, stage, cnt,
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cnt == 0 ? " (memset not eliminated)" : "");
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break;
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default:
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printf ("ERROR: %s/%s: invalid value for 'expected' = %d\n",
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label, stage, (int)expected);
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test_status = 1;
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}
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}
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static void
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test_loop (void)
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{
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cur_subtest = subtests;
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while (cur_subtest->setup_subtest)
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{
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if (swapcontext (&uc_main, &uc_co))
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abort ();
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check_test_buffer (EXPECT_ALL, cur_subtest->label, "prepare");
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if (swapcontext (&uc_main, &uc_co))
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abort ();
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check_test_buffer (cur_subtest->expected, cur_subtest->label, "test");
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cur_subtest++;
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}
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/* Terminate the coroutine. */
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if (swapcontext (&uc_main, &uc_co))
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abort ();
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}
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int
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do_test (void)
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{
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size_t page_alignment = sysconf (_SC_PAGESIZE);
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if (page_alignment < sizeof (void *))
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page_alignment = sizeof (void *);
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co_stack_size = SIGSTKSZ + TEST_BUFFER_SIZE;
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if (co_stack_size < page_alignment * 4)
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co_stack_size = page_alignment * 4;
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void *p;
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int err = posix_memalign (&p, page_alignment, co_stack_size);
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if (err || !p)
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{
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printf ("ERROR: allocating alt stack: %s\n", strerror (err));
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return 2;
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}
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co_stack_buffer = p;
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if (getcontext (&uc_co))
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{
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printf ("ERROR: allocating coroutine context: %s\n", strerror (err));
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return 2;
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}
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uc_co.uc_stack.ss_sp = co_stack_buffer;
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uc_co.uc_stack.ss_size = co_stack_size;
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uc_co.uc_link = &uc_main;
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makecontext (&uc_co, test_coroutine, 0);
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test_loop ();
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return test_status;
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}
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#include <support/test-driver.c>
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