boringssl/crypto/test/abi_test.h
David Benjamin e592d595c4 Add direction flag checking to CHECK_ABI.
Linux and Windows ABIs both require that the direction flag be cleared
on function exit, so that functions can rely on it being cleared on
entry. (Some OpenSSL assembly preserves it, which is stronger, but we
only require what is specified by the ABI so CHECK_ABI works with C
compiler output.)

Change-Id: I1a320aed4371176b4b44fe672f1a90167b84160f
Reviewed-on: https://boringssl-review.googlesource.com/c/34187
Commit-Queue: Adam Langley <agl@google.com>
Reviewed-by: Adam Langley <agl@google.com>
2019-01-09 03:22:15 +00:00

305 lines
12 KiB
C++

/* Copyright (c) 2018, Google Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */
#ifndef OPENSSL_HEADER_ABI_TEST_H
#define OPENSSL_HEADER_ABI_TEST_H
#include <gtest/gtest.h>
#include <string>
#include <type_traits>
#include <vector>
#include <openssl/base.h>
#include "../internal.h"
// abi_test provides routines for verifying that functions satisfy platform ABI
// requirements.
namespace abi_test {
// Result stores the result of an ABI test.
struct Result {
bool ok() const { return errors.empty(); }
std::vector<std::string> errors;
};
namespace internal {
// DeductionGuard wraps |T| in a template, so that template argument deduction
// does not apply to it. This may be used to force C++ to deduce template
// arguments from another parameter.
template <typename T>
struct DeductionGuard {
using Type = T;
};
// Reg128 contains storage space for a 128-bit register.
struct alignas(16) Reg128 {
bool operator==(const Reg128 &x) const { return x.lo == lo && x.hi == hi; }
bool operator!=(const Reg128 &x) const { return !((*this) == x); }
uint64_t lo, hi;
};
// LOOP_CALLER_STATE_REGISTERS is a macro that iterates over all registers the
// callee is expected to save for the caller.
//
// TODO(davidben): Add support for other architectures.
#if defined(OPENSSL_X86_64)
#if defined(OPENSSL_WINDOWS)
// See https://docs.microsoft.com/en-us/cpp/build/x64-software-conventions?view=vs-2017#register-usage
#define LOOP_CALLER_STATE_REGISTERS() \
CALLER_STATE_REGISTER(uint64_t, rbx) \
CALLER_STATE_REGISTER(uint64_t, rbp) \
CALLER_STATE_REGISTER(uint64_t, rdi) \
CALLER_STATE_REGISTER(uint64_t, rsi) \
CALLER_STATE_REGISTER(uint64_t, r12) \
CALLER_STATE_REGISTER(uint64_t, r13) \
CALLER_STATE_REGISTER(uint64_t, r14) \
CALLER_STATE_REGISTER(uint64_t, r15) \
CALLER_STATE_REGISTER(Reg128, xmm6) \
CALLER_STATE_REGISTER(Reg128, xmm7) \
CALLER_STATE_REGISTER(Reg128, xmm8) \
CALLER_STATE_REGISTER(Reg128, xmm9) \
CALLER_STATE_REGISTER(Reg128, xmm10) \
CALLER_STATE_REGISTER(Reg128, xmm11) \
CALLER_STATE_REGISTER(Reg128, xmm12) \
CALLER_STATE_REGISTER(Reg128, xmm13) \
CALLER_STATE_REGISTER(Reg128, xmm14) \
CALLER_STATE_REGISTER(Reg128, xmm15)
#else
// See https://github.com/hjl-tools/x86-psABI/wiki/x86-64-psABI-1.0.pdf
#define LOOP_CALLER_STATE_REGISTERS() \
CALLER_STATE_REGISTER(uint64_t, rbx) \
CALLER_STATE_REGISTER(uint64_t, rbp) \
CALLER_STATE_REGISTER(uint64_t, r12) \
CALLER_STATE_REGISTER(uint64_t, r13) \
CALLER_STATE_REGISTER(uint64_t, r14) \
CALLER_STATE_REGISTER(uint64_t, r15)
#endif // OPENSSL_WINDOWS
#endif // X86_64 && SUPPORTS_ABI_TEST
// Enable ABI testing if all of the following are true.
//
// - We have CallerState and trampoline support for the architecture.
//
// - Assembly is enabled.
//
// - This is not a shared library build. Assembly functions are not reachable
// from tests in shared library builds.
#if defined(LOOP_CALLER_STATE_REGISTERS) && !defined(OPENSSL_NO_ASM) && \
!defined(BORINGSSL_SHARED_LIBRARY)
#define SUPPORTS_ABI_TEST
// CallerState contains all caller state that the callee is expected to
// preserve.
struct CallerState {
#define CALLER_STATE_REGISTER(type, name) type name;
LOOP_CALLER_STATE_REGISTERS()
#undef CALLER_STATE_REGISTER
};
// RunTrampoline runs |func| on |argv|, recording ABI errors in |out|. It does
// not perform any type-checking. If |unwind| is true and unwind tests have been
// enabled, |func| is single-stepped under an unwind test.
crypto_word_t RunTrampoline(Result *out, crypto_word_t func,
const crypto_word_t *argv, size_t argc,
bool unwind);
// CheckImpl runs |func| on |args|, recording ABI errors in |out|. If |unwind|
// is true and unwind tests have been enabled, |func| is single-stepped under an
// unwind test.
//
// It returns the value as a |crypto_word_t| to work around problems when |R| is
// void. |args| is wrapped in a |DeductionGuard| so |func| determines the
// template arguments. Otherwise, |args| may deduce |Args| incorrectly. For
// instance, if |func| takes const int *, and the caller passes an int *, the
// compiler will complain the deduced types do not match.
template <typename R, typename... Args>
inline crypto_word_t CheckImpl(Result *out, bool unwind, R (*func)(Args...),
typename DeductionGuard<Args>::Type... args) {
static_assert(sizeof...(args) <= 10,
"too many arguments for abi_test_trampoline");
// Allocate one extra entry so MSVC does not complain about zero-size arrays.
crypto_word_t argv[sizeof...(args) + 1] = {
(crypto_word_t)args...,
};
return RunTrampoline(out, reinterpret_cast<crypto_word_t>(func), argv,
sizeof...(args), unwind);
}
#else
// To simplify callers when ABI testing support is unavoidable, provide a backup
// CheckImpl implementation. It must be specialized for void returns because we
// call |func| directly.
template <typename R, typename... Args>
inline typename std::enable_if<!std::is_void<R>::value, crypto_word_t>::type
CheckImpl(Result *out, bool /* unwind */, R (*func)(Args...),
typename DeductionGuard<Args>::Type... args) {
*out = Result();
return func(args...);
}
template <typename... Args>
inline crypto_word_t CheckImpl(Result *out, bool /* unwind */,
void (*func)(Args...),
typename DeductionGuard<Args>::Type... args) {
*out = Result();
func(args...);
return 0;
}
#endif // SUPPORTS_ABI_TEST
// FixVAArgsString takes a string like "f, 1, 2" and returns a string like
// "f(1, 2)".
//
// This is needed because the |CHECK_ABI| macro below cannot be defined as
// CHECK_ABI(func, ...). The C specification requires that variadic macros bind
// at least one variadic argument. Clang, GCC, and MSVC all ignore this, but
// there are issues with trailing commas and different behaviors across
// compilers.
std::string FixVAArgsString(const char *str);
// CheckGTest behaves like |CheckImpl|, but it returns the correct type and
// raises GTest assertions on failure. If |unwind| is true and unwind tests are
// enabled, |func| is single-stepped under an unwind test.
template <typename R, typename... Args>
inline R CheckGTest(const char *va_args_str, const char *file, int line,
bool unwind, R (*func)(Args...),
typename DeductionGuard<Args>::Type... args) {
Result result;
crypto_word_t ret = CheckImpl(&result, unwind, func, args...);
if (!result.ok()) {
testing::Message msg;
msg << "ABI failures in " << FixVAArgsString(va_args_str) << ":\n";
for (const auto &error : result.errors) {
msg << " " << error << "\n";
}
ADD_FAILURE_AT(file, line) << msg;
}
return (R)ret;
}
} // namespace internal
// Check runs |func| on |args| and returns the result. If ABI-testing is
// supported in this build configuration, it writes any ABI failures to |out|.
// Otherwise, it runs the function transparently.
template <typename R, typename... Args>
inline R Check(Result *out, R (*func)(Args...),
typename internal::DeductionGuard<Args>::Type... args) {
return (R)internal::CheckImpl(out, false, func, args...);
}
// EnableUnwindTests enables unwind tests, if supported. If not supported, it
// does nothing.
void EnableUnwindTests();
// UnwindTestsEnabled returns true if unwind tests are enabled and false
// otherwise.
bool UnwindTestsEnabled();
} // namespace abi_test
// CHECK_ABI calls the first argument on the remaining arguments and returns the
// result. If ABI-testing is supported in this build configuration, it adds a
// non-fatal GTest failure if the call did not satisfy ABI requirements.
//
// |CHECK_ABI| does return the value and thus may replace any function call,
// provided it takes only simple parameters. However, it is recommended to test
// ABI separately from functional tests of assembly. Fully instrumenting a
// function for ABI checking requires single-stepping the function, which is
// inefficient.
//
// Functional testing requires coverage of input values, while ABI testing only
// requires branch coverage. Most of our assembly is constant-time, so usually
// only a few instrumented calls are necessray.
#define CHECK_ABI(...) \
abi_test::internal::CheckGTest(#__VA_ARGS__, __FILE__, __LINE__, true, \
__VA_ARGS__)
// CHECK_ABI_NO_UNWIND behaves like |CHECK_ABI| but disables unwind testing.
#define CHECK_ABI_NO_UNWIND(...) \
abi_test::internal::CheckGTest(#__VA_ARGS__, __FILE__, __LINE__, false, \
__VA_ARGS__)
// Internal functions.
#if defined(SUPPORTS_ABI_TEST)
struct Uncallable {
Uncallable() = delete;
};
extern "C" {
// abi_test_trampoline loads callee-saved registers from |state|, calls |func|
// with |argv|, then saves the callee-saved registers into |state|. It returns
// the result of |func|. If |unwind| is non-zero, this function triggers unwind
// instrumentation.
//
// We give |func| type |crypto_word_t| to avoid tripping MSVC's warning 4191.
crypto_word_t abi_test_trampoline(crypto_word_t func,
abi_test::internal::CallerState *state,
const crypto_word_t *argv, size_t argc,
crypto_word_t unwind);
// abi_test_unwind_start points at the instruction that starts unwind testing in
// |abi_test_trampoline|. This is the value of the instruction pointer at the
// first |SIGTRAP| during unwind testing.
//
// This symbol is not a function and should not be called.
void abi_test_unwind_start(Uncallable);
// abi_test_unwind_return points at the instruction immediately after the call in
// |abi_test_trampoline|. When unwinding the function under test, this is the
// expected address in the |abi_test_trampoline| frame. After this address, the
// unwind tester should ignore |SIGTRAP| until |abi_test_unwind_stop|.
//
// This symbol is not a function and should not be called.
void abi_test_unwind_return(Uncallable);
// abi_test_unwind_stop is the value of the instruction pointer at the final
// |SIGTRAP| during unwind testing.
//
// This symbol is not a function and should not be called.
void abi_test_unwind_stop(Uncallable);
// abi_test_bad_unwind_wrong_register preserves the ABI, but annotates the wrong
// register in CFI metadata.
void abi_test_bad_unwind_wrong_register(void);
// abi_test_bad_unwind_temporary preserves the ABI, but temporarily corrupts the
// storage space for a saved register, breaking unwind.
void abi_test_bad_unwind_temporary(void);
#if defined(OPENSSL_X86_64) || defined(OPENSSL_X86)
// abi_test_get_and_clear_direction_flag clears the direction flag. If the flag
// was previously set, it returns one. Otherwise, it returns zero.
int abi_test_get_and_clear_direction_flag(void);
// abi_test_set_direction_flag sets the direction flag. This does not conform to
// ABI requirements and must only be called within a |CHECK_ABI| guard to avoid
// errors later in the program.
int abi_test_set_direction_flag(void);
#endif // OPENSSL_X86_64 || OPENSSL_X86
} // extern "C"
#endif // SUPPORTS_ABI_TEST
#endif // OPENSSL_HEADER_ABI_TEST_H