allocator_config.h - scudo - Git at Google

 //===-- 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 "condition_variable.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"

 // To import a custom configuration, define `SCUDO_USE_CUSTOM_CONFIG` and
 // aliasing the `Config` like:
 //
 // namespace scudo {
 //   // The instance of Scudo will be initiated with `Config`.
 //   typedef CustomConfig Config;
 //   // Aliasing as default configuration to run the tests with this config.
 //   typedef CustomConfig DefaultConfig;
 // } // namespace scudo
 //
 // Put them in the header `custom_scudo_config.h` then you will be using the
 // custom configuration and able to run all the tests as well.
 #ifdef SCUDO_USE_CUSTOM_CONFIG
 #include "custom_scudo_config.h"
 #endif

 namespace scudo {

 // Scudo uses a structure as a template argument that specifies the
 // configuration options for the various subcomponents of the allocator. See the
 // following configs as examples and check `allocator_config.def` for all the
 // available options.

 #ifndef SCUDO_USE_CUSTOM_CONFIG

 // Default configurations for various platforms. Note this is only enabled when
 // there's no custom configuration in the build system.
 struct DefaultConfig {
   static const bool MaySupportMemoryTagging = true;
   template <class A> using TSDRegistryT = TSDRegistryExT<A>; // Exclusive

   struct Primary {
     using SizeClassMap = DefaultSizeClassMap;
 #if SCUDO_CAN_USE_PRIMARY64
     static const uptr RegionSizeLog = 32U;
     static const uptr GroupSizeLog = 21U;
     typedef uptr CompactPtrT;
     static const uptr CompactPtrScale = 0;
     static const bool EnableRandomOffset = true;
     static const uptr MapSizeIncrement = 1UL << 18;
 #else
     static const uptr RegionSizeLog = 19U;
     static const uptr GroupSizeLog = 19U;
     typedef uptr CompactPtrT;
 #endif
     static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
     static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
   };
 #if SCUDO_CAN_USE_PRIMARY64
   template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;
 #else
   template <typename Config> using PrimaryT = SizeClassAllocator32<Config>;
 #endif

   struct Secondary {
     struct Cache {
       static const u32 EntriesArraySize = 32U;
       static const u32 QuarantineSize = 0U;
       static const u32 DefaultMaxEntriesCount = 32U;
       static const uptr DefaultMaxEntrySize = 1UL << 19;
       static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
       static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
     };
     template <typename Config> using CacheT = MapAllocatorCache<Config>;
   };

   template <typename Config> using SecondaryT = MapAllocator<Config>;
 };

 #endif // SCUDO_USE_CUSTOM_CONFIG

 struct AndroidConfig {
   static const bool MaySupportMemoryTagging = true;
   template <class A>
   using TSDRegistryT = TSDRegistrySharedT<A, 8U, 2U>; // Shared, max 8 TSDs.

   struct Primary {
     using SizeClassMap = AndroidSizeClassMap;
 #if SCUDO_CAN_USE_PRIMARY64
     static const uptr RegionSizeLog = 28U;
     typedef u32 CompactPtrT;
     static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
     static const uptr GroupSizeLog = 20U;
     static const bool EnableRandomOffset = true;
     static const uptr MapSizeIncrement = 1UL << 18;
 #else
     static const uptr RegionSizeLog = 18U;
     static const uptr GroupSizeLog = 18U;
     typedef uptr CompactPtrT;
 #endif
     static const s32 MinReleaseToOsIntervalMs = 1000;
     static const s32 MaxReleaseToOsIntervalMs = 1000;
   };
 #if SCUDO_CAN_USE_PRIMARY64
   template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;
 #else
   template <typename Config> using PrimaryT = SizeClassAllocator32<Config>;
 #endif

   struct Secondary {
     struct Cache {
       static const u32 EntriesArraySize = 256U;
       static const u32 QuarantineSize = 32U;
       static const u32 DefaultMaxEntriesCount = 32U;
       static const uptr DefaultMaxEntrySize = 2UL << 20;
       static const s32 MinReleaseToOsIntervalMs = 0;
       static const s32 MaxReleaseToOsIntervalMs = 1000;
     };
     template <typename Config> using CacheT = MapAllocatorCache<Config>;
   };

   template <typename Config> using SecondaryT = MapAllocator<Config>;
 };

 #if SCUDO_CAN_USE_PRIMARY64
 struct FuchsiaConfig {
   static const bool MaySupportMemoryTagging = false;
   template <class A>
   using TSDRegistryT = TSDRegistrySharedT<A, 8U, 4U>; // Shared, max 8 TSDs.

   struct Primary {
     using SizeClassMap = FuchsiaSizeClassMap;
 #if SCUDO_RISCV64
     // Support 39-bit VMA for riscv-64
     static const uptr RegionSizeLog = 28U;
     static const uptr GroupSizeLog = 19U;
     static const bool EnableContiguousRegions = false;
 #else
     static const uptr RegionSizeLog = 30U;
     static const uptr GroupSizeLog = 21U;
 #endif
     typedef u32 CompactPtrT;
     static const bool EnableRandomOffset = true;
     static const uptr MapSizeIncrement = 1UL << 18;
     static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
     static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
     static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
   };
   template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;

   struct Secondary {
     template <typename Config> using CacheT = MapAllocatorNoCache<Config>;
   };
   template <typename Config> using SecondaryT = MapAllocator<Config>;
 };

 struct TrustyConfig {
   static const bool MaySupportMemoryTagging = true;
   template <class A>
   using TSDRegistryT = TSDRegistrySharedT<A, 1U, 1U>; // Shared, max 1 TSD.

   struct Primary {
     using SizeClassMap = TrustySizeClassMap;
     static const uptr RegionSizeLog = 28U;
     static const uptr GroupSizeLog = 20U;
     typedef u32 CompactPtrT;
     static const bool EnableRandomOffset = false;
     static const uptr MapSizeIncrement = 1UL << 12;
     static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
     static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
     static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
   };
   template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;

   struct Secondary {
     template <typename Config> using CacheT = MapAllocatorNoCache<Config>;
   };

   template <typename Config> using SecondaryT = MapAllocator<Config>;
 };
 #endif

 #ifndef SCUDO_USE_CUSTOM_CONFIG

 #if SCUDO_ANDROID
 typedef AndroidConfig Config;
 #elif SCUDO_FUCHSIA
 typedef FuchsiaConfig Config;
 #elif SCUDO_TRUSTY
 typedef TrustyConfig Config;
 #else
 typedef DefaultConfig Config;
 #endif

 #endif // SCUDO_USE_CUSTOM_CONFIG

 } // namespace scudo

 #endif // SCUDO_ALLOCATOR_CONFIG_H_
	//===-- 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 "condition_variable.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"

	// To import a custom configuration, define `SCUDO_USE_CUSTOM_CONFIG` and
	// aliasing the `Config` like:
	//
	// namespace scudo {
	// // The instance of Scudo will be initiated with `Config`.
	// typedef CustomConfig Config;
	// // Aliasing as default configuration to run the tests with this config.
	// typedef CustomConfig DefaultConfig;
	// } // namespace scudo
	//
	// Put them in the header `custom_scudo_config.h` then you will be using the
	// custom configuration and able to run all the tests as well.
	#ifdef SCUDO_USE_CUSTOM_CONFIG
	#include "custom_scudo_config.h"
	#endif

	namespace scudo {

	// Scudo uses a structure as a template argument that specifies the
	// configuration options for the various subcomponents of the allocator. See the
	// following configs as examples and check `allocator_config.def` for all the
	// available options.

	#ifndef SCUDO_USE_CUSTOM_CONFIG

	// Default configurations for various platforms. Note this is only enabled when
	// there's no custom configuration in the build system.
	struct DefaultConfig {
	static const bool MaySupportMemoryTagging = true;
	template <class A> using TSDRegistryT = TSDRegistryExT<A>; // Exclusive

	struct Primary {
	using SizeClassMap = DefaultSizeClassMap;
	#if SCUDO_CAN_USE_PRIMARY64
	static const uptr RegionSizeLog = 32U;
	static const uptr GroupSizeLog = 21U;
	typedef uptr CompactPtrT;
	static const uptr CompactPtrScale = 0;
	static const bool EnableRandomOffset = true;
	static const uptr MapSizeIncrement = 1UL << 18;
	#else
	static const uptr RegionSizeLog = 19U;
	static const uptr GroupSizeLog = 19U;
	typedef uptr CompactPtrT;
	#endif
	static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
	static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
	};
	#if SCUDO_CAN_USE_PRIMARY64
	template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;
	#else
	template <typename Config> using PrimaryT = SizeClassAllocator32<Config>;
	#endif

	struct Secondary {
	struct Cache {
	static const u32 EntriesArraySize = 32U;
	static const u32 QuarantineSize = 0U;
	static const u32 DefaultMaxEntriesCount = 32U;
	static const uptr DefaultMaxEntrySize = 1UL << 19;
	static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
	static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
	};
	template <typename Config> using CacheT = MapAllocatorCache<Config>;
	};

	template <typename Config> using SecondaryT = MapAllocator<Config>;
	};

	#endif // SCUDO_USE_CUSTOM_CONFIG

	struct AndroidConfig {
	static const bool MaySupportMemoryTagging = true;
	template <class A>
	using TSDRegistryT = TSDRegistrySharedT<A, 8U, 2U>; // Shared, max 8 TSDs.

	struct Primary {
	using SizeClassMap = AndroidSizeClassMap;
	#if SCUDO_CAN_USE_PRIMARY64
	static const uptr RegionSizeLog = 28U;
	typedef u32 CompactPtrT;
	static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
	static const uptr GroupSizeLog = 20U;
	static const bool EnableRandomOffset = true;
	static const uptr MapSizeIncrement = 1UL << 18;
	#else
	static const uptr RegionSizeLog = 18U;
	static const uptr GroupSizeLog = 18U;
	typedef uptr CompactPtrT;
	#endif
	static const s32 MinReleaseToOsIntervalMs = 1000;
	static const s32 MaxReleaseToOsIntervalMs = 1000;
	};
	#if SCUDO_CAN_USE_PRIMARY64
	template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;
	#else
	template <typename Config> using PrimaryT = SizeClassAllocator32<Config>;
	#endif

	struct Secondary {
	struct Cache {
	static const u32 EntriesArraySize = 256U;
	static const u32 QuarantineSize = 32U;
	static const u32 DefaultMaxEntriesCount = 32U;
	static const uptr DefaultMaxEntrySize = 2UL << 20;
	static const s32 MinReleaseToOsIntervalMs = 0;
	static const s32 MaxReleaseToOsIntervalMs = 1000;
	};
	template <typename Config> using CacheT = MapAllocatorCache<Config>;
	};

	template <typename Config> using SecondaryT = MapAllocator<Config>;
	};

	#if SCUDO_CAN_USE_PRIMARY64
	struct FuchsiaConfig {
	static const bool MaySupportMemoryTagging = false;
	template <class A>
	using TSDRegistryT = TSDRegistrySharedT<A, 8U, 4U>; // Shared, max 8 TSDs.

	struct Primary {
	using SizeClassMap = FuchsiaSizeClassMap;
	#if SCUDO_RISCV64
	// Support 39-bit VMA for riscv-64
	static const uptr RegionSizeLog = 28U;
	static const uptr GroupSizeLog = 19U;
	static const bool EnableContiguousRegions = false;
	#else
	static const uptr RegionSizeLog = 30U;
	static const uptr GroupSizeLog = 21U;
	#endif
	typedef u32 CompactPtrT;
	static const bool EnableRandomOffset = true;
	static const uptr MapSizeIncrement = 1UL << 18;
	static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
	static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
	static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
	};
	template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;

	struct Secondary {
	template <typename Config> using CacheT = MapAllocatorNoCache<Config>;
	};
	template <typename Config> using SecondaryT = MapAllocator<Config>;
	};

	struct TrustyConfig {
	static const bool MaySupportMemoryTagging = true;
	template <class A>
	using TSDRegistryT = TSDRegistrySharedT<A, 1U, 1U>; // Shared, max 1 TSD.

	struct Primary {
	using SizeClassMap = TrustySizeClassMap;
	static const uptr RegionSizeLog = 28U;
	static const uptr GroupSizeLog = 20U;
	typedef u32 CompactPtrT;
	static const bool EnableRandomOffset = false;
	static const uptr MapSizeIncrement = 1UL << 12;
	static const uptr CompactPtrScale = SCUDO_MIN_ALIGNMENT_LOG;
	static const s32 MinReleaseToOsIntervalMs = INT32_MIN;
	static const s32 MaxReleaseToOsIntervalMs = INT32_MAX;
	};
	template <typename Config> using PrimaryT = SizeClassAllocator64<Config>;

	struct Secondary {
	template <typename Config> using CacheT = MapAllocatorNoCache<Config>;
	};

	template <typename Config> using SecondaryT = MapAllocator<Config>;
	};
	#endif

	#ifndef SCUDO_USE_CUSTOM_CONFIG

	#if SCUDO_ANDROID
	typedef AndroidConfig Config;
	#elif SCUDO_FUCHSIA
	typedef FuchsiaConfig Config;
	#elif SCUDO_TRUSTY
	typedef TrustyConfig Config;
	#else
	typedef DefaultConfig Config;
	#endif

	#endif // SCUDO_USE_CUSTOM_CONFIG

	} // namespace scudo

	#endif // SCUDO_ALLOCATOR_CONFIG_H_