bitcoin-bitcoin-core/src/test/pool_tests.cpp

// Copyright (c) 2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#include <memusage.h>
#include <support/allocators/pool.h>
#include <test/util/poolresourcetester.h>
#include <test/util/random.h>
#include <test/util/setup_common.h>

#include <boost/test/unit_test.hpp>

#include <cstddef>
#include <cstdint>
#include <unordered_map>
#include <vector>

BOOST_FIXTURE_TEST_SUITE(pool_tests, BasicTestingSetup)

BOOST_AUTO_TEST_CASE(basic_allocating)
{
    auto resource = PoolResource<8, 8>();
    PoolResourceTester::CheckAllDataAccountedFor(resource);

    // first chunk is already allocated
    size_t expected_bytes_available = resource.ChunkSizeBytes();
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    // chunk is used, no more allocation
    void* block = resource.Allocate(8, 8);
    expected_bytes_available -= 8;
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);
    resource.Deallocate(block, 8, 8);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);

    // alignment is too small, but the best fitting freelist is used. Nothing is allocated.
    void* b = resource.Allocate(8, 1);
    BOOST_TEST(b == block); // we got the same block of memory as before
    BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    resource.Deallocate(block, 8, 1);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    // can't use resource because alignment is too big, allocate system memory
    b = resource.Allocate(8, 16);
    BOOST_TEST(b != block);
    block = b;
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    resource.Deallocate(block, 8, 16);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    // can't use chunk because size is too big
    block = resource.Allocate(16, 8);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    resource.Deallocate(block, 16, 8);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    // it's possible that 0 bytes are allocated, make sure this works. In that case the call is forwarded to operator new
    // 0 bytes takes one entry from the first freelist
    void* p = resource.Allocate(0, 1);
    BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));

    resource.Deallocate(p, 0, 1);
    PoolResourceTester::CheckAllDataAccountedFor(resource);
    BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);
    BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));
}

// Allocates from 0 to n bytes were n > the PoolResource's data, and each should work
BOOST_AUTO_TEST_CASE(allocate_any_byte)
{
    auto resource = PoolResource<128, 8>(1024);

    uint8_t num_allocs = 200;

    auto data = std::vector<Span<uint8_t>>();

    // allocate an increasing number of bytes
    for (uint8_t num_bytes = 0; num_bytes < num_allocs; ++num_bytes) {
        uint8_t* bytes = new (resource.Allocate(num_bytes, 1)) uint8_t[num_bytes];
        BOOST_TEST(bytes != nullptr);
        data.emplace_back(bytes, num_bytes);

        // set each byte to num_bytes
        std::fill(bytes, bytes + num_bytes, num_bytes);
    }

    // now that we got all allocated, test if all still have the correct values, and give everything back to the allocator
    uint8_t val = 0;
    for (auto const& span : data) {
        for (auto x : span) {
            BOOST_TEST(val == x);
        }
        std::destroy(span.data(), span.data() + span.size());
        resource.Deallocate(span.data(), span.size(), 1);
        ++val;
    }

    PoolResourceTester::CheckAllDataAccountedFor(resource);
}

BOOST_AUTO_TEST_CASE(random_allocations)
{
    struct PtrSizeAlignment {
        void* ptr;
        size_t bytes;
        size_t alignment;
    };

    // makes a bunch of random allocations and gives all of them back in random order.
    auto resource = PoolResource<128, 8>(65536);
    std::vector<PtrSizeAlignment> ptr_size_alignment{};
    for (size_t i = 0; i < 1000; ++i) {
        // make it a bit more likely to allocate than deallocate
        if (ptr_size_alignment.empty() || 0 != InsecureRandRange(4)) {
            // allocate a random item
            std::size_t alignment = std::size_t{1} << InsecureRandRange(8);          // 1, 2, ..., 128
            std::size_t size = (InsecureRandRange(200) / alignment + 1) * alignment; // multiple of alignment
            void* ptr = resource.Allocate(size, alignment);
            BOOST_TEST(ptr != nullptr);
            BOOST_TEST((reinterpret_cast<uintptr_t>(ptr) & (alignment - 1)) == 0);
            ptr_size_alignment.push_back({ptr, size, alignment});
        } else {
            // deallocate a random item
            auto& x = ptr_size_alignment[InsecureRandRange(ptr_size_alignment.size())];
            resource.Deallocate(x.ptr, x.bytes, x.alignment);
            x = ptr_size_alignment.back();
            ptr_size_alignment.pop_back();
        }
    }

    // deallocate all the rest
    for (auto const& x : ptr_size_alignment) {
        resource.Deallocate(x.ptr, x.bytes, x.alignment);
    }

    PoolResourceTester::CheckAllDataAccountedFor(resource);
}

BOOST_AUTO_TEST_CASE(memusage_test)
{
    auto std_map = std::unordered_map<int, int>{};

    using Map = std::unordered_map<int,
                                   int,
                                   std::hash<int>,
                                   std::equal_to<int>,
                                   PoolAllocator<std::pair<const int, int>,
                                                 sizeof(std::pair<const int, int>) + sizeof(void*) * 4,
                                                 alignof(void*)>>;
    auto resource = Map::allocator_type::ResourceType(1024);

    PoolResourceTester::CheckAllDataAccountedFor(resource);

    {
        auto resource_map = Map{0, std::hash<int>{}, std::equal_to<int>{}, &resource};

        // can't have the same resource usage
        BOOST_TEST(memusage::DynamicUsage(std_map) != memusage::DynamicUsage(resource_map));

        for (size_t i = 0; i < 10000; ++i) {
            std_map[i];
            resource_map[i];
        }

        // Eventually the resource_map should have a much lower memory usage because it has less malloc overhead
        BOOST_TEST(memusage::DynamicUsage(resource_map) <= memusage::DynamicUsage(std_map) * 90 / 100);
    }

    PoolResourceTester::CheckAllDataAccountedFor(resource);
}

BOOST_AUTO_TEST_SUITE_END()
Add pool based memory resource & allocator A memory resource similar to std::pmr::unsynchronized_pool_resource, but optimized for node-based containers. Co-Authored-By: Pieter Wuille <pieter@wuille.net> 2022-06-11 09:23:51 +02:00			`// Copyright (c) 2022 The Bitcoin Core developers`
			`// Distributed under the MIT software license, see the accompanying`
			`// file COPYING or http://www.opensource.org/licenses/mit-license.php.`

Calculate memory usage correctly for unordered_maps that use PoolAllocator Extracts the resource from a PoolAllocator and uses it for calculation of the node's memory usage. 2022-06-11 09:28:13 +02:00			`#include <memusage.h>`
Add pool based memory resource & allocator A memory resource similar to std::pmr::unsynchronized_pool_resource, but optimized for node-based containers. Co-Authored-By: Pieter Wuille <pieter@wuille.net> 2022-06-11 09:23:51 +02:00			`#include <support/allocators/pool.h>`
			`#include <test/util/poolresourcetester.h>`
			`#include <test/util/random.h>`
			`#include <test/util/setup_common.h>`

			`#include <boost/test/unit_test.hpp>`

			`#include <cstddef>`
			`#include <cstdint>`
			`#include <unordered_map>`
			`#include <vector>`

			`BOOST_FIXTURE_TEST_SUITE(pool_tests, BasicTestingSetup)`

			`BOOST_AUTO_TEST_CASE(basic_allocating)`
			`{`
			`auto resource = PoolResource<8, 8>();`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`

			`// first chunk is already allocated`
			`size_t expected_bytes_available = resource.ChunkSizeBytes();`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`// chunk is used, no more allocation`
			`void* block = resource.Allocate(8, 8);`
			`expected_bytes_available -= 8;`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`resource.Deallocate(block, 8, 8);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`

			`// alignment is too small, but the best fitting freelist is used. Nothing is allocated.`
			`void* b = resource.Allocate(8, 1);`
			`BOOST_TEST(b == block); // we got the same block of memory as before`
			`BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`resource.Deallocate(block, 8, 1);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`// can't use resource because alignment is too big, allocate system memory`
			`b = resource.Allocate(8, 16);`
			`BOOST_TEST(b != block);`
			`block = b;`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`resource.Deallocate(block, 8, 16);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`// can't use chunk because size is too big`
			`block = resource.Allocate(16, 8);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`resource.Deallocate(block, 16, 8);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`// it's possible that 0 bytes are allocated, make sure this works. In that case the call is forwarded to operator new`
			`// 0 bytes takes one entry from the first freelist`
			`void* p = resource.Allocate(0, 1);`
			`BOOST_TEST(0 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`

			`resource.Deallocate(p, 0, 1);`
			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`BOOST_TEST(1 == PoolResourceTester::FreeListSizes(resource)[1]);`
			`BOOST_TEST(expected_bytes_available == PoolResourceTester::AvailableMemoryFromChunk(resource));`
			`}`

			`// Allocates from 0 to n bytes were n > the PoolResource's data, and each should work`
			`BOOST_AUTO_TEST_CASE(allocate_any_byte)`
			`{`
			`auto resource = PoolResource<128, 8>(1024);`

			`uint8_t num_allocs = 200;`

			`auto data = std::vector<Span<uint8_t>>();`

			`// allocate an increasing number of bytes`
			`for (uint8_t num_bytes = 0; num_bytes < num_allocs; ++num_bytes) {`
			`uint8_t* bytes = new (resource.Allocate(num_bytes, 1)) uint8_t[num_bytes];`
			`BOOST_TEST(bytes != nullptr);`
			`data.emplace_back(bytes, num_bytes);`

			`// set each byte to num_bytes`
			`std::fill(bytes, bytes + num_bytes, num_bytes);`
			`}`

			`// now that we got all allocated, test if all still have the correct values, and give everything back to the allocator`
			`uint8_t val = 0;`
			`for (auto const& span : data) {`
			`for (auto x : span) {`
			`BOOST_TEST(val == x);`
			`}`
			`std::destroy(span.data(), span.data() + span.size());`
			`resource.Deallocate(span.data(), span.size(), 1);`
			`++val;`
			`}`

			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`}`

			`BOOST_AUTO_TEST_CASE(random_allocations)`
			`{`
			`struct PtrSizeAlignment {`
			`void* ptr;`
			`size_t bytes;`
			`size_t alignment;`
			`};`

			`// makes a bunch of random allocations and gives all of them back in random order.`
			`auto resource = PoolResource<128, 8>(65536);`
			`std::vector<PtrSizeAlignment> ptr_size_alignment{};`
			`for (size_t i = 0; i < 1000; ++i) {`
			`// make it a bit more likely to allocate than deallocate`
			`if (ptr_size_alignment.empty() \|\| 0 != InsecureRandRange(4)) {`
			`// allocate a random item`
			`std::size_t alignment = std::size_t{1} << InsecureRandRange(8); // 1, 2, ..., 128`
			`std::size_t size = (InsecureRandRange(200) / alignment + 1) * alignment; // multiple of alignment`
			`void* ptr = resource.Allocate(size, alignment);`
			`BOOST_TEST(ptr != nullptr);`
			`BOOST_TEST((reinterpret_cast<uintptr_t>(ptr) & (alignment - 1)) == 0);`
			`ptr_size_alignment.push_back({ptr, size, alignment});`
			`} else {`
			`// deallocate a random item`
			`auto& x = ptr_size_alignment[InsecureRandRange(ptr_size_alignment.size())];`
			`resource.Deallocate(x.ptr, x.bytes, x.alignment);`
			`x = ptr_size_alignment.back();`
			`ptr_size_alignment.pop_back();`
			`}`
			`}`

			`// deallocate all the rest`
			`for (auto const& x : ptr_size_alignment) {`
			`resource.Deallocate(x.ptr, x.bytes, x.alignment);`
			`}`

			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`}`

Calculate memory usage correctly for unordered_maps that use PoolAllocator Extracts the resource from a PoolAllocator and uses it for calculation of the node's memory usage. 2022-06-11 09:28:13 +02:00			`BOOST_AUTO_TEST_CASE(memusage_test)`
			`{`
			`auto std_map = std::unordered_map<int, int>{};`

			`using Map = std::unordered_map<int,`
			`int,`
			`std::hash<int>,`
			`std::equal_to<int>,`
			`PoolAllocator<std::pair<const int, int>,`
			`sizeof(std::pair<const int, int>) + sizeof(void) 4,`
			`alignof(void*)>>;`
			`auto resource = Map::allocator_type::ResourceType(1024);`

			`PoolResourceTester::CheckAllDataAccountedFor(resource);`

			`{`
			`auto resource_map = Map{0, std::hash<int>{}, std::equal_to<int>{}, &resource};`

			`// can't have the same resource usage`
			`BOOST_TEST(memusage::DynamicUsage(std_map) != memusage::DynamicUsage(resource_map));`

			`for (size_t i = 0; i < 10000; ++i) {`
			`std_map[i];`
			`resource_map[i];`
			`}`

			`// Eventually the resource_map should have a much lower memory usage because it has less malloc overhead`
			`BOOST_TEST(memusage::DynamicUsage(resource_map) <= memusage::DynamicUsage(std_map) * 90 / 100);`
			`}`

			`PoolResourceTester::CheckAllDataAccountedFor(resource);`
			`}`

Add pool based memory resource & allocator A memory resource similar to std::pmr::unsynchronized_pool_resource, but optimized for node-based containers. Co-Authored-By: Pieter Wuille <pieter@wuille.net> 2022-06-11 09:23:51 +02:00			`BOOST_AUTO_TEST_SUITE_END()`