// Copyright 2018 The Dawn Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include "dawn_native/RingBufferAllocator.h" using namespace dawn_native; constexpr uint64_t RingBufferAllocator::kInvalidOffset; // Number of basic tests for Ringbuffer TEST(RingBufferAllocatorTests, BasicTest) { constexpr uint64_t sizeInBytes = 64000; RingBufferAllocator allocator(sizeInBytes); // Ensure no requests exist on empty buffer. EXPECT_TRUE(allocator.Empty()); ASSERT_EQ(allocator.GetSize(), sizeInBytes); // Ensure failure upon sub-allocating an oversized request. ASSERT_EQ(allocator.Allocate(sizeInBytes + 1, ExecutionSerial(0)), RingBufferAllocator::kInvalidOffset); // Fill the entire buffer with two requests of equal size. ASSERT_EQ(allocator.Allocate(sizeInBytes / 2, ExecutionSerial(1)), 0u); ASSERT_EQ(allocator.Allocate(sizeInBytes / 2, ExecutionSerial(2)), 32000u); // Ensure the buffer is full. ASSERT_EQ(allocator.Allocate(1, ExecutionSerial(3)), RingBufferAllocator::kInvalidOffset); } // Tests that several ringbuffer allocations do not fail. TEST(RingBufferAllocatorTests, RingBufferManyAlloc) { constexpr uint64_t maxNumOfFrames = 64000; constexpr uint64_t frameSizeInBytes = 4; RingBufferAllocator allocator(maxNumOfFrames * frameSizeInBytes); size_t offset = 0; for (ExecutionSerial i(0); i < ExecutionSerial(maxNumOfFrames); ++i) { offset = allocator.Allocate(frameSizeInBytes, i); ASSERT_EQ(offset, uint64_t(i) * frameSizeInBytes); } } // Tests ringbuffer sub-allocations of the same serial are correctly tracked. TEST(RingBufferAllocatorTests, AllocInSameFrame) { constexpr uint64_t maxNumOfFrames = 3; constexpr uint64_t frameSizeInBytes = 4; RingBufferAllocator allocator(maxNumOfFrames * frameSizeInBytes); // F1 // [xxxx|--------] size_t offset = allocator.Allocate(frameSizeInBytes, ExecutionSerial(1)); // F1 F2 // [xxxx|xxxx|----] offset = allocator.Allocate(frameSizeInBytes, ExecutionSerial(2)); // F1 F2 // [xxxx|xxxxxxxx] offset = allocator.Allocate(frameSizeInBytes, ExecutionSerial(2)); ASSERT_EQ(offset, 8u); ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * 3); allocator.Deallocate(ExecutionSerial(2)); ASSERT_EQ(allocator.GetUsedSize(), 0u); EXPECT_TRUE(allocator.Empty()); } // Tests ringbuffer sub-allocation at various offsets. TEST(RingBufferAllocatorTests, RingBufferSubAlloc) { constexpr uint64_t maxNumOfFrames = 10; constexpr uint64_t frameSizeInBytes = 4; RingBufferAllocator allocator(maxNumOfFrames * frameSizeInBytes); // Sub-alloc the first eight frames. ExecutionSerial serial(0); while (serial < ExecutionSerial(8)) { allocator.Allocate(frameSizeInBytes, serial); serial++; } // Each frame corrresponds to the serial number (for simplicity). // // F1 F2 F3 F4 F5 F6 F7 F8 // [xxxx|xxxx|xxxx|xxxx|xxxx|xxxx|xxxx|xxxx|--------] // // Ensure an oversized allocation fails (only 8 bytes left) ASSERT_EQ(allocator.Allocate(frameSizeInBytes * 3, serial), RingBufferAllocator::kInvalidOffset); ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * 8); // Reclaim the first 3 frames. allocator.Deallocate(ExecutionSerial(2)); // F4 F5 F6 F7 F8 // [------------|xxxx|xxxx|xxxx|xxxx|xxxx|--------] // ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * 5); // Re-try the over-sized allocation. size_t offset = allocator.Allocate(frameSizeInBytes * 3, ExecutionSerial(serial)); // F9 F4 F5 F6 F7 F8 // [xxxxxxxxxxxx|xxxx|xxxx|xxxx|xxxx|xxxx|xxxxxxxx] // ^^^^^^^^ wasted // In this example, Deallocate(8) could not reclaim the wasted bytes. The wasted bytes // were added to F9's sub-allocation. // TODO(bryan.bernhart@intel.com): Decide if Deallocate(8) should free these wasted bytes. ASSERT_EQ(offset, 0u); ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * maxNumOfFrames); // Ensure we are full. ASSERT_EQ(allocator.Allocate(frameSizeInBytes, serial), RingBufferAllocator::kInvalidOffset); // Reclaim the next two frames. allocator.Deallocate(ExecutionSerial(4)); // F9 F4 F5 F6 F7 F8 // [xxxxxxxxxxxx|----|----|xxxx|xxxx|xxxx|xxxxxxxx] // ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * 8); // Sub-alloc the chunk in the middle. serial++; offset = allocator.Allocate(frameSizeInBytes * 2, serial); ASSERT_EQ(offset, frameSizeInBytes * 3); ASSERT_EQ(allocator.GetUsedSize(), frameSizeInBytes * maxNumOfFrames); // F9 F10 F6 F7 F8 // [xxxxxxxxxxxx|xxxxxxxxx|xxxx|xxxx|xxxx|xxxxxxxx] // // Ensure we are full. ASSERT_EQ(allocator.Allocate(frameSizeInBytes, serial), RingBufferAllocator::kInvalidOffset); // Reclaim all. allocator.Deallocate(kMaxExecutionSerial); EXPECT_TRUE(allocator.Empty()); } // Checks if ringbuffer sub-allocation does not overflow. TEST(RingBufferAllocatorTests, RingBufferOverflow) { RingBufferAllocator allocator(std::numeric_limits::max()); ASSERT_EQ(allocator.Allocate(1, ExecutionSerial(1)), 0u); ASSERT_EQ(allocator.Allocate(std::numeric_limits::max(), ExecutionSerial(1)), RingBufferAllocator::kInvalidOffset); }