//===-- allocator_config.h --------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef SCUDO_ALLOCATOR_CONFIG_H_ #define SCUDO_ALLOCATOR_CONFIG_H_ #include "combined.h" #include "common.h" #include "flags.h" #include "primary32.h" #include "primary64.h" #include "secondary.h" #include "size_class_map.h" #include "tsd_exclusive.h" #include "tsd_shared.h" namespace scudo { // The combined allocator uses a structure as a template argument that // specifies the configuration options for the various subcomponents of the // allocator. // // struct ExampleConfig { // // SizeClasMmap to use with the Primary. // using SizeClassMap = DefaultSizeClassMap; // // Indicates possible support for Memory Tagging. // static const bool MaySupportMemoryTagging = false; // // Defines the Primary allocator to use. // typedef SizeClassAllocator64 Primary; // // Log2 of the size of a size class region, as used by the Primary. // static const uptr PrimaryRegionSizeLog = 30U; // // Defines the type and scale of a compact pointer. A compact pointer can // // be understood as the offset of a pointer within the region it belongs // // to, in increments of a power-of-2 scale. // // eg: Ptr = Base + (CompactPtr << Scale). // typedef u32 PrimaryCompactPtrT; // static const uptr PrimaryCompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG; // // Indicates support for offsetting the start of a region by // // a random number of pages. Only used with primary64. // static const bool PrimaryEnableRandomOffset = true; // // Call map for user memory with at least this size. Only used with // // primary64. // static const uptr PrimaryMapSizeIncrement = 1UL << 18; // // Defines the minimal & maximal release interval that can be set. // static const s32 PrimaryMinReleaseToOsIntervalMs = INT32_MIN; // static const s32 PrimaryMaxReleaseToOsIntervalMs = INT32_MAX; // // Defines the type of cache used by the Secondary. Some additional // // configuration entries can be necessary depending on the Cache. // typedef MapAllocatorNoCache SecondaryCache; // // Thread-Specific Data Registry used, shared or exclusive. // template using TSDRegistryT = TSDRegistrySharedT; // }; // Default configurations for various platforms. struct DefaultConfig { using SizeClassMap = DefaultSizeClassMap; static const bool MaySupportMemoryTagging = true; #if SCUDO_CAN_USE_PRIMARY64 typedef SizeClassAllocator64 Primary; static const uptr PrimaryRegionSizeLog = 32U; typedef uptr PrimaryCompactPtrT; static const uptr PrimaryCompactPtrScale = 0; static const bool PrimaryEnableRandomOffset = true; static const uptr PrimaryMapSizeIncrement = 1UL << 18; #else typedef SizeClassAllocator32 Primary; static const uptr PrimaryRegionSizeLog = 19U; typedef uptr PrimaryCompactPtrT; #endif static const s32 PrimaryMinReleaseToOsIntervalMs = INT32_MIN; static const s32 PrimaryMaxReleaseToOsIntervalMs = INT32_MAX; typedef MapAllocatorCache SecondaryCache; static const u32 SecondaryCacheEntriesArraySize = 32U; static const u32 SecondaryCacheQuarantineSize = 0U; static const u32 SecondaryCacheDefaultMaxEntriesCount = 32U; static const uptr SecondaryCacheDefaultMaxEntrySize = 1UL << 19; static const s32 SecondaryCacheMinReleaseToOsIntervalMs = INT32_MIN; static const s32 SecondaryCacheMaxReleaseToOsIntervalMs = INT32_MAX; template using TSDRegistryT = TSDRegistryExT; // Exclusive }; struct AndroidConfig { using SizeClassMap = AndroidSizeClassMap; static const bool MaySupportMemoryTagging = true; #if SCUDO_CAN_USE_PRIMARY64 typedef SizeClassAllocator64 Primary; static const uptr PrimaryRegionSizeLog = 28U; typedef u32 PrimaryCompactPtrT; static const uptr PrimaryCompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG; static const bool PrimaryEnableRandomOffset = true; static const uptr PrimaryMapSizeIncrement = 1UL << 18; #else typedef SizeClassAllocator32 Primary; static const uptr PrimaryRegionSizeLog = 18U; typedef uptr PrimaryCompactPtrT; #endif static const s32 PrimaryMinReleaseToOsIntervalMs = 1000; static const s32 PrimaryMaxReleaseToOsIntervalMs = 1000; typedef MapAllocatorCache SecondaryCache; static const u32 SecondaryCacheEntriesArraySize = 256U; static const u32 SecondaryCacheQuarantineSize = 32U; static const u32 SecondaryCacheDefaultMaxEntriesCount = 32U; static const uptr SecondaryCacheDefaultMaxEntrySize = 2UL << 20; static const s32 SecondaryCacheMinReleaseToOsIntervalMs = 0; static const s32 SecondaryCacheMaxReleaseToOsIntervalMs = 1000; template using TSDRegistryT = TSDRegistrySharedT; // Shared, max 8 TSDs. }; struct AndroidSvelteConfig { using SizeClassMap = SvelteSizeClassMap; static const bool MaySupportMemoryTagging = false; #if SCUDO_CAN_USE_PRIMARY64 typedef SizeClassAllocator64 Primary; static const uptr PrimaryRegionSizeLog = 27U; typedef u32 PrimaryCompactPtrT; static const uptr PrimaryCompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG; static const bool PrimaryEnableRandomOffset = true; static const uptr PrimaryMapSizeIncrement = 1UL << 18; #else typedef SizeClassAllocator32 Primary; static const uptr PrimaryRegionSizeLog = 16U; typedef uptr PrimaryCompactPtrT; #endif static const s32 PrimaryMinReleaseToOsIntervalMs = 1000; static const s32 PrimaryMaxReleaseToOsIntervalMs = 1000; typedef MapAllocatorCache SecondaryCache; static const u32 SecondaryCacheEntriesArraySize = 16U; static const u32 SecondaryCacheQuarantineSize = 32U; static const u32 SecondaryCacheDefaultMaxEntriesCount = 4U; static const uptr SecondaryCacheDefaultMaxEntrySize = 1UL << 18; static const s32 SecondaryCacheMinReleaseToOsIntervalMs = 0; static const s32 SecondaryCacheMaxReleaseToOsIntervalMs = 0; template using TSDRegistryT = TSDRegistrySharedT; // Shared, max 2 TSDs. }; #if SCUDO_CAN_USE_PRIMARY64 struct FuchsiaConfig { using SizeClassMap = FuchsiaSizeClassMap; static const bool MaySupportMemoryTagging = false; typedef SizeClassAllocator64 Primary; static const uptr PrimaryRegionSizeLog = 30U; typedef u32 PrimaryCompactPtrT; static const bool PrimaryEnableRandomOffset = true; static const uptr PrimaryMapSizeIncrement = 1UL << 18; static const uptr PrimaryCompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG; static const s32 PrimaryMinReleaseToOsIntervalMs = INT32_MIN; static const s32 PrimaryMaxReleaseToOsIntervalMs = INT32_MAX; typedef MapAllocatorNoCache SecondaryCache; template using TSDRegistryT = TSDRegistrySharedT; // Shared, max 8 TSDs. }; struct TrustyConfig { using SizeClassMap = TrustySizeClassMap; static const bool MaySupportMemoryTagging = false; typedef SizeClassAllocator64 Primary; // Some apps have 1 page of heap total so small regions are necessary. static const uptr PrimaryRegionSizeLog = 10U; typedef u32 PrimaryCompactPtrT; static const bool PrimaryEnableRandomOffset = false; // Trusty is extremely memory-constrained so minimally round up map calls. static const uptr PrimaryMapSizeIncrement = 1UL << 4; static const uptr PrimaryCompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG; static const s32 PrimaryMinReleaseToOsIntervalMs = INT32_MIN; static const s32 PrimaryMaxReleaseToOsIntervalMs = INT32_MAX; typedef MapAllocatorNoCache SecondaryCache; template using TSDRegistryT = TSDRegistrySharedT; // Shared, max 1 TSD. }; #endif #if SCUDO_ANDROID typedef AndroidConfig Config; #elif SCUDO_FUCHSIA typedef FuchsiaConfig Config; #elif SCUDO_TRUSTY typedef TrustyConfig Config; #else typedef DefaultConfig Config; #endif } // namespace scudo #endif // SCUDO_ALLOCATOR_CONFIG_H_