/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
// This program is used by the DMD xpcshell test. It is run under DMD and // produces some output. The xpcshell test then post-processes and checks this // output. // // Note that this file does not have "Test" or "test" in its name, because that // will cause the build system to not record breakpad symbols for it, which // will stop the post-processing (which includes stack fixing) from working // correctly.
// This is required on some systems such as Fedora to allow // building with -O0 together with --warnings-as-errors due to // a check in /usr/include/features.h #undef _FORTIFY_SOURCE
class FpWriteFunc final : public mozilla::JSONWriteFunc { public: explicit FpWriteFunc(constchar* aFilename) {
mFp = fopen(aFilename, "w"); if (!mFp) {
fprintf(stderr, "SmokeDMD: can't create %s file: %s\n", aFilename,
strerror(errno)); exit(1);
}
}
~FpWriteFunc() { fclose(mFp); }
void Write(const mozilla::Span<constchar>& aStr) final { for (constchar c : aStr) {
fputc(c, mFp);
}
}
private:
FILE* mFp;
};
// This stops otherwise-unused variables from being optimized away. staticvoid UseItOrLoseIt(void* aPtr, int aSeven) { char buf[64]; int n = SprintfLiteral(buf, "%p\n", aPtr); if (n == 20 + aSeven) {
fprintf(stderr, "well, that is surprising");
}
}
// This function checks that heap blocks that have the same stack trace but // different (or no) reporters get aggregated separately. void Foo(int aSeven) { char* a[6]; for (int i = 0; i < aSeven - 1; i++) {
a[i] = (char*)malloc(128 - 16 * i);
UseItOrLoseIt(a[i], aSeven);
}
// Oddly, some versions of clang will cause identical stack traces to be // generated for adjacent calls to Report(), which breaks the test. Inserting // the UseItOrLoseIt() calls in between is enough to prevent this.
Report(a[2]); // reported
UseItOrLoseIt(a[2], aSeven);
for (int i = 0; i < aSeven - 5; i++) {
Report(a[i]); // reported
UseItOrLoseIt(a[i], aSeven);
}
UseItOrLoseIt(a[2], aSeven);
Report(a[3]); // reported
// a[4], a[5] unreported
}
void TestEmpty(constchar* aTestName, constchar* aMode) { char filename[128];
SprintfLiteral(filename, "complete-%s-%s.json", aTestName, aMode); auto f = MakeUnique<FpWriteFunc>(filename);
void TestFull(constchar* aTestName, int aNum, constchar* aMode, int aSeven) { char filename[128];
SprintfLiteral(filename, "complete-%s%d-%s.json", aTestName, aNum, aMode); auto f = MakeUnique<FpWriteFunc>(filename);
// The --show-dump-stats=yes is there just to give that option some basic // testing, e.g. ensure it doesn't crash. It's hard to test much beyond that. char options[128];
SprintfLiteral(options, "--mode=%s --stacks=full --show-dump-stats=yes",
aMode);
ResetEverything(options);
// Analyze 1: 1 freed, 9 out of 10 unreported. // Analyze 2: still present and unreported. int i; char* a = nullptr; for (i = 0; i < aSeven + 3; i++) {
a = (char*)malloc(100);
UseItOrLoseIt(a, aSeven);
}
free(a);
// A no-op.
free(nullptr);
// Note: 16 bytes is the smallest requested size that gives consistent // behaviour across all platforms with jemalloc. // Analyze 1: reported. // Analyze 2: thrice-reported. char* a2 = (char*)malloc(16);
Report(a2);
// Analyze 1: reported. // Analyze 2: reportedness carries over, due to ReportOnAlloc. char* b = (char*)malloc(10);
ReportOnAlloc(b);
// jemalloc rounds this up to 8192. // Analyze 1: reported. // Analyze 2: freed. char* e = (char*)malloc(4096);
e = (char*)realloc(e, 7169);
Report(e);
// First realloc is like malloc; second realloc is shrinking. // Analyze 1: reported. // Analyze 2: re-reported. char* e2 = (char*)realloc(nullptr, 1024);
e2 = (char*)realloc(e2, 512);
Report(e2);
// First realloc is like malloc; second realloc creates a min-sized block. // XXX: on Windows, second realloc frees the block. // Analyze 1: reported. // Analyze 2: freed, irrelevant. char* e3 = (char*)realloc(nullptr, 1023); // e3 = (char*) realloc(e3, 0);
MOZ_ASSERT(e3);
Report(e3);
// Analyze 1: mixture of reported and unreported. // Analyze 2: all unreported. // Nb: this Foo() call is deliberately not adjacent to the previous one. See // the comment about adjacent calls in Foo() for more details.
Foo(aSeven);
// All the odd-ball ones. // Analyze 1: all unreported. // Analyze 2: all freed, irrelevant. // XXX: no memalign on Mac // void* w = memalign(64, 65); // rounds up to 128 // UseItOrLoseIt(w, aSeven);
// XXX: posix_memalign doesn't work on B2G // void* x; // posix_memalign(&y, 128, 129); // rounds up to 256 // UseItOrLoseIt(x, aSeven);
// XXX: valloc doesn't work on Windows. // void* y = valloc(1); // rounds up to 4096 // UseItOrLoseIt(y, aSeven);
// XXX: C11 only // void* z = aligned_alloc(64, 256); // UseItOrLoseIt(z, aSeven);
if (aNum == 1) { // Analyze 1.
Analyze(std::move(f));
}
// Do some allocations that will only show up in cumulative mode. for (int i = 0; i < 100; i++) { void* v = malloc(128);
UseItOrLoseIt(v, aSeven);
free(v);
}
// The output of this function is deterministic but it relies on the // probability and seeds given to the FastBernoulliTrial instance in // ResetBernoulli(). If they change, the output will change too.
// Expected fraction with stacks: (1 - (1 - 0.003) ** 16) = 0.0469. // So we expect about 0.0469 * 10000 == 469. // We actually get 511. for (int i = 0; i < kTenThousand; i++) {
s = (char*)malloc(16);
UseItOrLoseIt(s, aSeven);
}
// Expected fraction with stacks: (1 - (1 - 0.003) ** 128) = 0.3193. // So we expect about 0.3193 * 10000 == 3193. // We actually get 3136. for (int i = 0; i < kTenThousand; i++) {
s = (char*)malloc(128);
UseItOrLoseIt(s, aSeven);
}
// Expected fraction with stacks: (1 - (1 - 0.003) ** 1024) = 0.9539. // So we expect about 0.9539 * 10000 == 9539. // We actually get 9531. for (int i = 0; i < kTenThousand; i++) {
s = (char*)malloc(1024);
UseItOrLoseIt(s, aSeven);
}
Analyze(std::move(f));
}
void TestScan(int aSeven) { auto f = MakeUnique<FpWriteFunc>("basic-scan.json");
ResetEverything("--mode=scan");
uintptr_t* p = (uintptr_t*)malloc(6 * sizeof(uintptr_t));
UseItOrLoseIt(p, aSeven);
// Hard-coded values checked by scan-test.py
p[0] = 0x123; // outside a block, small value
p[1] = 0x0; // null
p[2] = (uintptr_t)((uint8_t*)p - 1); // pointer outside a block, but nearby
p[3] = (uintptr_t)p; // pointer to start of a block
p[4] = (uintptr_t)((uint8_t*)p + 1); // pointer into a block
p[5] = 0x0; // trailing null
Analyze(std::move(f));
}
void RunTests() { // This test relies on the compiler not doing various optimizations, such as // eliding unused malloc() calls or unrolling loops with fixed iteration // counts. So we compile it with -O0 (or equivalent), which probably prevents // that. We also use the following variable for various loop iteration // counts, just in case compilers might unroll very small loops even with // -O0. int seven = 7;
// Make sure that DMD is actually running; it is initialized on the first // allocation. int* x = (int*)malloc(100);
UseItOrLoseIt(x, seven);
MOZ_RELEASE_ASSERT(IsRunning());
// Please keep this in sync with run_test in test_dmd.js.
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