// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "mojo/edk/system/options_validation.h"
#include <stddef.h>
#include <stdint.h>
#include "mojo/public/c/system/macros.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace mojo {
namespace edk {
namespace {
// Declare a test options struct just as we do in actual public headers.
using TestOptionsFlags = uint32_t;
static_assert(MOJO_ALIGNOF(int64_t) == 8, "int64_t has weird alignment");
struct MOJO_ALIGNAS(8) TestOptions {
uint32_t struct_size;
TestOptionsFlags flags;
uint32_t member1;
uint32_t member2;
};
static_assert(sizeof(TestOptions) == 16, "TestOptions has wrong size");
const uint32_t kSizeOfTestOptions = static_cast<uint32_t>(sizeof(TestOptions));
TEST(OptionsValidationTest, Valid) {
{
const TestOptions kOptions = {kSizeOfTestOptions};
UserOptionsReader<TestOptions> reader(&kOptions);
EXPECT_TRUE(reader.is_valid());
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, flags, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member1, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member2, reader));
}
{
const TestOptions kOptions = {static_cast<uint32_t>(
offsetof(TestOptions, struct_size) + sizeof(uint32_t))};
UserOptionsReader<TestOptions> reader(&kOptions);
EXPECT_TRUE(reader.is_valid());
EXPECT_FALSE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, flags, reader));
EXPECT_FALSE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member1, reader));
EXPECT_FALSE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member2, reader));
}
{
const TestOptions kOptions = {
static_cast<uint32_t>(offsetof(TestOptions, flags) + sizeof(uint32_t))};
UserOptionsReader<TestOptions> reader(&kOptions);
EXPECT_TRUE(reader.is_valid());
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, flags, reader));
EXPECT_FALSE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member1, reader));
EXPECT_FALSE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member2, reader));
}
{
MOJO_ALIGNAS(8) char buf[sizeof(TestOptions) + 100] = {};
TestOptions* options = reinterpret_cast<TestOptions*>(buf);
options->struct_size = kSizeOfTestOptions + 1;
UserOptionsReader<TestOptions> reader(options);
EXPECT_TRUE(reader.is_valid());
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, flags, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member1, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member2, reader));
}
{
MOJO_ALIGNAS(8) char buf[sizeof(TestOptions) + 100] = {};
TestOptions* options = reinterpret_cast<TestOptions*>(buf);
options->struct_size = kSizeOfTestOptions + 4;
UserOptionsReader<TestOptions> reader(options);
EXPECT_TRUE(reader.is_valid());
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, flags, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member1, reader));
EXPECT_TRUE(OPTIONS_STRUCT_HAS_MEMBER(TestOptions, member2, reader));
}
}
TEST(OptionsValidationTest, Invalid) {
// Size too small:
for (size_t i = 0; i < sizeof(uint32_t); i++) {
TestOptions options = {static_cast<uint32_t>(i)};
UserOptionsReader<TestOptions> reader(&options);
EXPECT_FALSE(reader.is_valid()) << i;
}
}
// These test invalid arguments that should cause death if we're being paranoid
// about checking arguments (which we would want to do if, e.g., we were in a
// true "kernel" situation, but we might not want to do otherwise for
// performance reasons). Probably blatant errors like passing in null pointers
// (for required pointer arguments) will still cause death, but perhaps not
// predictably.
TEST(OptionsValidationTest, InvalidDeath) {
#if defined(OFFICIAL_BUILD)
const char kMemoryCheckFailedRegex[] = "";
#else
const char kMemoryCheckFailedRegex[] = "Check failed";
#endif
// Null:
EXPECT_DEATH_IF_SUPPORTED(
{ UserOptionsReader<TestOptions> reader((nullptr)); },
kMemoryCheckFailedRegex);
// Unaligned:
EXPECT_DEATH_IF_SUPPORTED(
{
UserOptionsReader<TestOptions> reader(
reinterpret_cast<const TestOptions*>(1));
},
kMemoryCheckFailedRegex);
// Note: The current implementation checks the size only after checking the
// alignment versus that required for the |uint32_t| size, so it won't die in
// the expected way if you pass, e.g., 4. So we have to manufacture a valid
// pointer at an offset of alignment 4.
EXPECT_DEATH_IF_SUPPORTED(
{
uint32_t buffer[100] = {};
TestOptions* options = (reinterpret_cast<uintptr_t>(buffer) % 8 == 0)
? reinterpret_cast<TestOptions*>(&buffer[1])
: reinterpret_cast<TestOptions*>(&buffer[0]);
options->struct_size = static_cast<uint32_t>(sizeof(TestOptions));
UserOptionsReader<TestOptions> reader(options);
},
kMemoryCheckFailedRegex);
}
} // namespace
} // namespace edk
} // namespace mojo