// Copyright 2019 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/mac/scoped_mach_vm.h" #include #include "base/memory/page_size.h" #include "base/test/gtest_util.h" #include "testing/gtest/include/gtest/gtest.h" // Note: This test CANNOT be run multiple times within the same process (e.g. // with --gtest_repeat). Allocating and deallocating in quick succession, even // with different sizes, will typically result in the kernel returning the same // address. If the allocation pattern is small->large->small, the second small // allocation will report being part of the previously-deallocated large region. // That will cause the GetRegionInfo() expectations to fail. namespace base::mac { namespace { void GetRegionInfo(vm_address_t* region_address, vm_size_t* region_size) { vm_region_basic_info_64 region_info; mach_msg_type_number_t count = VM_REGION_BASIC_INFO_COUNT_64; mach_port_t object; kern_return_t kr = vm_region_64( mach_task_self(), region_address, region_size, VM_REGION_BASIC_INFO_64, reinterpret_cast(®ion_info), &count, &object); EXPECT_EQ(KERN_SUCCESS, kr); } TEST(ScopedMachVMTest, Basic) { vm_address_t address; vm_size_t size = base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); ScopedMachVM scoper(address, size); EXPECT_EQ(address, scoper.address()); EXPECT_EQ(size, scoper.size()); // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_EQ(address, region_address); EXPECT_EQ(1u * base::GetPageSize(), region_size); { ScopedMachVM scoper2; EXPECT_EQ(0u, scoper2.address()); EXPECT_EQ(0u, scoper2.size()); scoper.swap(scoper2); EXPECT_EQ(address, scoper2.address()); EXPECT_EQ(size, scoper2.size()); EXPECT_EQ(0u, scoper.address()); EXPECT_EQ(0u, scoper.size()); } // After deallocation, the kernel will return the next highest address. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_LT(address, region_address); } TEST(ScopedMachVMTest, Reset) { vm_address_t address; vm_size_t size = base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); ScopedMachVM scoper(address, size); // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_EQ(address, region_address); EXPECT_EQ(1u * base::GetPageSize(), region_size); scoper.reset(); // After deallocation, the kernel will return the next highest address. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_LT(address, region_address); } TEST(ScopedMachVMTest, ResetSmallerAddress) { vm_address_t address; vm_size_t size = 2 * base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); ScopedMachVM scoper(address, base::GetPageSize()); // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_EQ(address, region_address); EXPECT_EQ(2u * base::GetPageSize(), region_size); // This will free address..base::GetPageSize() that is currently in the // scoper. scoper.reset(address + base::GetPageSize(), base::GetPageSize()); // Verify that the region is now only one page. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(address + base::GetPageSize(), region_address); EXPECT_EQ(1u * base::GetPageSize(), region_size); } TEST(ScopedMachVMTest, ResetLargerAddressAndSize) { vm_address_t address; vm_size_t size = 3 * base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_EQ(address, region_address); EXPECT_EQ(3u * base::GetPageSize(), region_size); ScopedMachVM scoper(address + 2 * base::GetPageSize(), base::GetPageSize()); // Expand the region to be larger. scoper.reset(address, size); // Verify that the region is still three pages. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(address, region_address); EXPECT_EQ(3u * base::GetPageSize(), region_size); } TEST(ScopedMachVMTest, ResetLargerAddress) { vm_address_t address; vm_size_t size = 6 * base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(KERN_SUCCESS, kr); EXPECT_EQ(address, region_address); EXPECT_EQ(6u * base::GetPageSize(), region_size); ScopedMachVM scoper(address + 3 * base::GetPageSize(), 3 * base::GetPageSize()); // Shift the region by three pages; the last three pages should be // deallocated, while keeping the first three. scoper.reset(address, 3 * base::GetPageSize()); // Verify that the region is just three pages. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(address, region_address); EXPECT_EQ(3u * base::GetPageSize(), region_size); } TEST(ScopedMachVMTest, ResetUnaligned) { vm_address_t address; vm_size_t size = 2 * base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); ScopedMachVM scoper; // Test the initial region. vm_address_t region_address = address; vm_size_t region_size; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(address, region_address); EXPECT_EQ(2u * base::GetPageSize(), region_size); // Initialize with unaligned size. scoper.reset_unaligned(address + base::GetPageSize(), base::GetPageSize() - 3); // Reset with another unaligned size. scoper.reset_unaligned(address + base::GetPageSize(), base::GetPageSize() - 11); // The entire unaligned page gets deallocated. region_address = address; GetRegionInfo(®ion_address, ®ion_size); EXPECT_EQ(address, region_address); EXPECT_EQ(1u * base::GetPageSize(), region_size); // Reset with the remaining page. scoper.reset_unaligned(address, base::GetPageSize()); } #if DCHECK_IS_ON() TEST(ScopedMachVMTest, ResetMustBeAligned) { vm_address_t address; vm_size_t size = 2 * base::GetPageSize(); kern_return_t kr = vm_allocate(mach_task_self(), &address, size, VM_FLAGS_ANYWHERE); ASSERT_EQ(KERN_SUCCESS, kr); ScopedMachVM scoper; EXPECT_DCHECK_DEATH(scoper.reset(address, base::GetPageSize() + 1)); } #endif // DCHECK_IS_ON() } // namespace } // namespace base::mac