// Copyright 2024 Huawei Cloud Computing Technology Co., Ltd. // // 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. #ifndef BOOTSTRAP_BUILD_TOOL #include "src/buildtool/storage/uplinker.hpp" #include #include #include "src/buildtool/file_system/object_type.hpp" #include "src/buildtool/storage/storage.hpp" #include "src/buildtool/storage/target_cache.hpp" #include "src/buildtool/storage/target_cache_key.hpp" namespace { [[nodiscard]] auto CreateGenerations( gsl::not_null const& storage_config) noexcept -> std::vector { std::vector generations; generations.reserve(storage_config->num_generations); for (std::size_t i = 0; i < storage_config->num_generations; ++i) { generations.emplace_back(Generation::Create(storage_config, /*generation=*/i)); } return generations; } } // namespace GlobalUplinker::GlobalUplinker( gsl::not_null const& storage_config) noexcept : storage_config_{*storage_config}, generations_{CreateGenerations(&storage_config_)} {} GlobalUplinker::~GlobalUplinker() = default; auto GlobalUplinker::UplinkBlob(ArtifactDigest const& digest, bool is_executable) const noexcept -> bool { // Try to find blob in all generations. auto const& latest = generations_[Generation::kYoungest].CAS(); return std::any_of( generations_.begin(), generations_.end(), [&latest, &digest, is_executable](Generation const& generation) { return generation.CAS().LocalUplinkBlob(latest, digest, is_executable, /*skip_sync=*/true, /*splice_result=*/true); }); } auto GlobalUplinker::UplinkTree(ArtifactDigest const& digest) const noexcept -> bool { // Try to find blob in all generations. auto const& latest = generations_[Generation::kYoungest].CAS(); return std::any_of(generations_.begin(), generations_.end(), [&latest, &digest](Generation const& generation) { return generation.CAS().LocalUplinkTree( latest, digest, /*splice_result=*/true); }); } auto GlobalUplinker::UplinkLargeBlob( ArtifactDigest const& digest) const noexcept -> bool { // Try to find large entry in all generations. auto const& latest = generations_[Generation::kYoungest].CAS(); return std::any_of( generations_.begin(), generations_.end(), [&latest, &digest](Generation const& generation) { return generation.CAS().LocalUplinkLargeObject( latest, digest); }); } auto GlobalUplinker::UplinkActionCacheEntry( ArtifactDigest const& action_id) const noexcept -> bool { // Try to find action-cache entry in all generations. auto const& latest = generations_[Generation::kYoungest].ActionCache(); return std::any_of(generations_.begin(), generations_.end(), [&latest, &action_id](Generation const& generation) { return generation.ActionCache().LocalUplinkEntry( latest, action_id); }); } auto GlobalUplinker::UplinkTargetCacheEntry( TargetCacheKey const& key, BackendDescription const& backend_description) const noexcept -> bool { // Try to find target-cache entry in all generations. auto const& latest = generations_[Generation::kYoungest].TargetCache().WithShard( backend_description); return std::any_of( generations_.begin(), generations_.end(), [&latest, &key, &backend_description](Generation const& generation) { return generation.TargetCache() .WithShard(backend_description) .LocalUplinkEntry(latest, key); }); } #endif // BOOTSTRAP_BUILD_TOOL