1//===-- allocator_config.def ------------------------------------*- C++ -*-===// 2// 3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4// See https://llvm.org/LICENSE.txt for license information. 5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6// 7//===----------------------------------------------------------------------===// 8// 9// This file defines all the flags and types supported in Scudo. For optional 10// flags and types, only explicitly define them when interested (i.e., unused 11// optional flags or types can be skipped). 12 13#ifndef BASE_REQUIRED_TEMPLATE_TYPE 14#define BASE_REQUIRED_TEMPLATE_TYPE(...) 15#endif 16#ifndef BASE_OPTIONAL 17#define BASE_OPTIONAL(...) 18#endif 19#ifndef PRIMARY_REQUIRED_TYPE 20#define PRIMARY_REQUIRED_TYPE(...) 21#endif 22#ifndef PRIMARY_REQUIRED 23#define PRIMARY_REQUIRED(...) 24#endif 25#ifndef PRIMARY_OPTIONAL 26#define PRIMARY_OPTIONAL(...) 27#endif 28#ifndef PRIMARY_OPTIONAL_TYPE 29#define PRIMARY_OPTIONAL_TYPE(...) 30#endif 31#ifndef SECONDARY_REQUIRED_TEMPLATE_TYPE 32#define SECONDARY_REQUIRED_TEMPLATE_TYPE(...) 33#endif 34#ifndef SECONDARY_CACHE_OPTIONAL 35#define SECONDARY_CACHE_OPTIONAL(...) 36#endif 37 38// BASE_REQUIRED_TEMPLATE_TYPE(NAME) 39// 40// Thread-Specific Data Registry used, shared or exclusive. 41BASE_REQUIRED_TEMPLATE_TYPE(TSDRegistryT) 42 43// Defines the type of Primary allocator to use. 44BASE_REQUIRED_TEMPLATE_TYPE(PrimaryT) 45 46// Defines the type of Secondary allocator to use. 47BASE_REQUIRED_TEMPLATE_TYPE(SecondaryT) 48 49// BASE_OPTIONAL(TYPE, NAME, DEFAULT) 50// 51// Indicates possible support for Memory Tagging. 52BASE_OPTIONAL(const bool, MaySupportMemoryTagging, false) 53 54// PRIMARY_REQUIRED_TYPE(NAME) 55// 56// SizeClassMap to use with the Primary. 57PRIMARY_REQUIRED_TYPE(SizeClassMap) 58 59// Defines the type and scale of a compact pointer. A compact pointer can 60// be understood as the offset of a pointer within the region it belongs 61// to, in increments of a power-of-2 scale. See `CompactPtrScale` also. 62PRIMARY_REQUIRED_TYPE(CompactPtrT) 63 64// PRIMARY_REQUIRED(TYPE, NAME) 65// 66// The scale of a compact pointer. E.g., Ptr = Base + (CompactPtr << Scale). 67PRIMARY_REQUIRED(const uptr, CompactPtrScale) 68 69// Log2 of the size of a size class region, as used by the Primary. 70PRIMARY_REQUIRED(const uptr, RegionSizeLog) 71 72// Conceptually, a region will be divided into groups based on the address 73// range. Each allocation consumes blocks in the same group until exhaustion 74// then it pops out blocks in a new group. Therefore, `GroupSizeLog` is always 75// smaller or equal to `RegionSizeLog`. Note that `GroupSizeLog` needs to be 76// equal to `RegionSizeLog` for SizeClassAllocator32 because of certain 77// constraints. 78PRIMARY_REQUIRED(const uptr, GroupSizeLog) 79 80// Call map for user memory with at least this size. Only used with primary64. 81PRIMARY_REQUIRED(const uptr, MapSizeIncrement) 82 83// Defines the minimal & maximal release interval that can be set. 84PRIMARY_REQUIRED(const s32, MinReleaseToOsIntervalMs) 85PRIMARY_REQUIRED(const s32, MaxReleaseToOsIntervalMs) 86 87// PRIMARY_OPTIONAL(TYPE, NAME, DEFAULT) 88// 89// Indicates support for offsetting the start of a region by a random number of 90// pages. This is only used if `EnableContiguousRegions` is enabled. 91PRIMARY_OPTIONAL(const bool, EnableRandomOffset, false) 92PRIMARY_OPTIONAL(const s32, DefaultReleaseToOsIntervalMs, INT32_MIN) 93 94// When `EnableContiguousRegions` is true, all regions will be be arranged in 95// adjacency. This will reduce the fragmentation caused by region allocations 96// but may require a huge amount of contiguous pages at initialization. 97PRIMARY_OPTIONAL(const bool, EnableContiguousRegions, true) 98 99// PRIMARY_OPTIONAL_TYPE(NAME, DEFAULT) 100// 101// Use condition variable to shorten the waiting time of refillment of 102// freelist. Note that this depends on the implementation of condition 103// variable on each platform and the performance may vary so that it does not 104// guarantee a performance benefit. 105PRIMARY_OPTIONAL_TYPE(ConditionVariableT, ConditionVariableDummy) 106 107// SECONDARY_REQUIRED_TEMPLATE_TYPE(NAME) 108// 109// Defines the type of Secondary Cache to use. 110SECONDARY_REQUIRED_TEMPLATE_TYPE(CacheT) 111 112// SECONDARY_CACHE_OPTIONAL(TYPE, NAME, DEFAULT) 113// 114// Defines the type of cache used by the Secondary. Some additional 115// configuration entries can be necessary depending on the Cache. 116SECONDARY_CACHE_OPTIONAL(const u32, EntriesArraySize, 0) 117SECONDARY_CACHE_OPTIONAL(const u32, QuarantineSize, 0) 118SECONDARY_CACHE_OPTIONAL(const u32, DefaultMaxEntriesCount, 0) 119SECONDARY_CACHE_OPTIONAL(const uptr, DefaultMaxEntrySize, 0) 120SECONDARY_CACHE_OPTIONAL(const s32, MinReleaseToOsIntervalMs, INT32_MIN) 121SECONDARY_CACHE_OPTIONAL(const s32, MaxReleaseToOsIntervalMs, INT32_MAX) 122SECONDARY_CACHE_OPTIONAL(const s32, DefaultReleaseToOsIntervalMs, INT32_MIN) 123 124#undef SECONDARY_CACHE_OPTIONAL 125#undef SECONDARY_REQUIRED_TEMPLATE_TYPE 126#undef PRIMARY_OPTIONAL_TYPE 127#undef PRIMARY_OPTIONAL 128#undef PRIMARY_REQUIRED 129#undef PRIMARY_REQUIRED_TYPE 130#undef BASE_OPTIONAL 131#undef BASE_REQUIRED_TEMPLATE_TYPE 132