llvm-project/compiler-rt/test/msan/param_tls_limit.cc

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// ParamTLS has limited size. Everything that does not fit is considered fully
// initialized.
// RUN: %clangxx_msan -O0 %s -o %t && %run %t
// RUN: %clangxx_msan -fsanitize-memory-track-origins -O0 %s -o %t && %run %t
// RUN: %clangxx_msan -fsanitize-memory-track-origins=2 -O0 %s -o %t && %run %t
[MSan] Enable MSAN for aarch64 This patch enabled msan for aarch64 with 39-bit VMA and 42-bit VMA. As defined by lib/msan/msan.h the memory layout used is for 39-bit is: 00 0000 0000 - 40 0000 0000: invalid 40 0000 0000 - 43 0000 0000: shadow 43 0000 0000 - 46 0000 0000: origin 46 0000 0000 - 55 0000 0000: invalid 55 0000 0000 - 56 0000 0000: app (low) 56 0000 0000 - 70 0000 0000: invalid 70 0000 0000 - 80 0000 0000: app (high) And for 42-bit VMA: 000 0000 0000 - 100 0000 0000: invalid 100 0000 0000 - 11b 0000 0000: shadow 11b 0000 0000 - 120 0000 0000: invalid 120 0000 0000 - 13b 0000 0000: origin 13b 0000 0000 - 2aa 0000 0000: invalid 2aa 0000 0000 - 2ab 0000 0000: app (low) 2ab 0000 0000 - 3f0 0000 0000: invalid 3f0 0000 0000 - 400 0000 0000: app (high) Most of tests are passing with exception of: * Linux/mallinfo.cc * chained_origin_limits.cc * dlerror.cc * param_tls_limit.cc * signal_stress_test.cc * nonnull-arg.cpp The 'Linux/mallinfo.cc' is due the fact AArch64 returns the sret in 'x8' instead of default first argument 'x1'. So a function prototype that aims to mimic (by using first argument as the return of function) won't work. For GCC one can make a register alias (register var asm ("r8")), but for clang it detects is an unused variable and generate wrong code. The 'chained_origin_limits' is probably due a wrong code generation, since it fails only when origin memory is used (-fsanitize-memory-track-origins=2) and only in the returned code (return buf[50]). The 'signal_streess_test' and 'nonnull-arg' are due currently missing variadic argument handling in memory sanitizer code instrumentation on LLVM side. Both 'dlerror' and 'param_tls_test' are unknown failures that require further investigation. All the failures are XFAIL for aarch64 for now. llvm-svn: 247809
2015-09-16 23:12:25 +08:00
//
// AArch64 fails with:
// void f801(S<801>): Assertion `__msan_test_shadow(&s, sizeof(s)) == -1' failed
// XFAIL: aarch64
#include <sanitizer/msan_interface.h>
#include <assert.h>
// This test assumes that ParamTLS size is 800 bytes.
// This test passes poisoned values through function argument list.
// In case of overflow, argument is unpoisoned.
#define OVERFLOW(x) assert(__msan_test_shadow(&x, sizeof(x)) == -1)
// In case of no overflow, it is still poisoned.
#define NO_OVERFLOW(x) assert(__msan_test_shadow(&x, sizeof(x)) == 0)
template<int N>
struct S {
char x[N];
};
void f100(S<100> s) {
NO_OVERFLOW(s);
}
void f800(S<800> s) {
NO_OVERFLOW(s);
}
void f801(S<801> s) {
OVERFLOW(s);
}
void f1000(S<1000> s) {
OVERFLOW(s);
}
void f_many(int a, double b, S<800> s, int c, double d) {
NO_OVERFLOW(a);
NO_OVERFLOW(b);
OVERFLOW(s);
OVERFLOW(c);
OVERFLOW(d);
}
// -8 bytes for "int a", aligned by 8
// -2 to make "int c" a partial fit
void f_many2(int a, S<800 - 8 - 2> s, int c, double d) {
NO_OVERFLOW(a);
NO_OVERFLOW(s);
OVERFLOW(c);
OVERFLOW(d);
}
int main(void) {
S<100> s100;
S<800> s800;
S<801> s801;
S<1000> s1000;
f100(s100);
f800(s800);
f801(s801);
f1000(s1000);
int i;
double d;
f_many(i, d, s800, i, d);
S<800 - 8 - 2> s788;
f_many2(i, s788, i, d);
return 0;
}