//===-- size_class_map.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_SIZE_CLASS_MAP_H_ #define SCUDO_SIZE_CLASS_MAP_H_ #include "chunk.h" #include "common.h" #include "string_utils.h" namespace scudo { inline uptr scaledLog2(uptr Size, uptr ZeroLog, uptr LogBits) { const uptr L = getMostSignificantSetBitIndex(Size); const uptr LBits = (Size >> (L - LogBits)) - (1 << LogBits); const uptr HBits = (L - ZeroLog) << LogBits; return LBits + HBits; } template struct SizeClassMapBase { static u16 getMaxCachedHint(uptr Size) { DCHECK_NE(Size, 0); u32 N; // Force a 32-bit division if the template parameters allow for it. if (Config::MaxBytesCachedLog > 31 || Config::MaxSizeLog > 31) N = static_cast((1UL << Config::MaxBytesCachedLog) / Size); else N = (1U << Config::MaxBytesCachedLog) / static_cast(Size); // Note that Config::MaxNumCachedHint is u16 so the result is guaranteed to // fit in u16. return static_cast(Max(1U, Min(Config::MaxNumCachedHint, N))); } }; // SizeClassMap maps allocation sizes into size classes and back, in an // efficient table-free manner. // // Class 0 is a special class that doesn't abide by the same rules as other // classes. The allocator uses it to hold batches. // // The other sizes are controlled by the template parameters: // - MinSizeLog: defines the first class as 2^MinSizeLog bytes. // - MaxSizeLog: defines the last class as 2^MaxSizeLog bytes. // - MidSizeLog: classes increase with step 2^MinSizeLog from 2^MinSizeLog to // 2^MidSizeLog bytes. // - NumBits: the number of non-zero bits in sizes after 2^MidSizeLog. // eg. with NumBits==3 all size classes after 2^MidSizeLog look like // 0b1xx0..0 (where x is either 0 or 1). // // This class also gives a hint to a thread-caching allocator about the amount // of chunks that can be cached per-thread: // - MaxNumCachedHint is a hint for the max number of chunks cached per class. // - 2^MaxBytesCachedLog is the max number of bytes cached per class. template class FixedSizeClassMap : public SizeClassMapBase { typedef SizeClassMapBase Base; static const uptr MinSize = 1UL << Config::MinSizeLog; static const uptr MidSize = 1UL << Config::MidSizeLog; static const uptr MidClass = MidSize / MinSize; static const u8 S = Config::NumBits - 1; static const uptr M = (1UL << S) - 1; public: static const u16 MaxNumCachedHint = Config::MaxNumCachedHint; static const uptr MaxSize = (1UL << Config::MaxSizeLog) + Config::SizeDelta; static const uptr NumClasses = MidClass + ((Config::MaxSizeLog - Config::MidSizeLog) << S) + 1; static_assert(NumClasses <= 256, ""); static const uptr LargestClassId = NumClasses - 1; static const uptr BatchClassId = 0; static uptr getSizeByClassId(uptr ClassId) { DCHECK_NE(ClassId, BatchClassId); if (ClassId <= MidClass) return (ClassId << Config::MinSizeLog) + Config::SizeDelta; ClassId -= MidClass; const uptr T = MidSize << (ClassId >> S); return T + (T >> S) * (ClassId & M) + Config::SizeDelta; } static u8 getSizeLSBByClassId(uptr ClassId) { return u8(getLeastSignificantSetBitIndex(getSizeByClassId(ClassId))); } static constexpr bool usesCompressedLSBFormat() { return false; } static uptr getClassIdBySize(uptr Size) { if (Size <= Config::SizeDelta + (1 << Config::MinSizeLog)) return 1; Size -= Config::SizeDelta; DCHECK_LE(Size, MaxSize); if (Size <= MidSize) return (Size + MinSize - 1) >> Config::MinSizeLog; return MidClass + 1 + scaledLog2(Size - 1, Config::MidSizeLog, S); } static u16 getMaxCachedHint(uptr Size) { DCHECK_LE(Size, MaxSize); return Base::getMaxCachedHint(Size); } }; template class TableSizeClassMap : public SizeClassMapBase { typedef SizeClassMapBase Base; static const u8 S = Config::NumBits - 1; static const uptr M = (1UL << S) - 1; static const uptr ClassesSize = sizeof(Config::Classes) / sizeof(Config::Classes[0]); struct SizeTable { constexpr SizeTable() { uptr Pos = 1 << Config::MidSizeLog; uptr Inc = 1 << (Config::MidSizeLog - S); for (uptr i = 0; i != getTableSize(); ++i) { Pos += Inc; if ((Pos & (Pos - 1)) == 0) Inc *= 2; Tab[i] = computeClassId(Pos + Config::SizeDelta); } } constexpr static u8 computeClassId(uptr Size) { for (uptr i = 0; i != ClassesSize; ++i) { if (Size <= Config::Classes[i]) return static_cast(i + 1); } return static_cast(-1); } constexpr static uptr getTableSize() { return (Config::MaxSizeLog - Config::MidSizeLog) << S; } u8 Tab[getTableSize()] = {}; }; static constexpr SizeTable SzTable = {}; struct LSBTable { constexpr LSBTable() { u8 Min = 255, Max = 0; for (uptr I = 0; I != ClassesSize; ++I) { for (u8 Bit = 0; Bit != 64; ++Bit) { if (Config::Classes[I] & (1 << Bit)) { Tab[I] = Bit; if (Bit < Min) Min = Bit; if (Bit > Max) Max = Bit; break; } } } if (Max - Min > 3 || ClassesSize > 32) return; UseCompressedFormat = true; CompressedMin = Min; for (uptr I = 0; I != ClassesSize; ++I) CompressedValue |= u64(Tab[I] - Min) << (I * 2); } u8 Tab[ClassesSize] = {}; bool UseCompressedFormat = false; u8 CompressedMin = 0; u64 CompressedValue = 0; }; static constexpr LSBTable LTable = {}; public: static const u16 MaxNumCachedHint = Config::MaxNumCachedHint; static const uptr NumClasses = ClassesSize + 1; static_assert(NumClasses < 256, ""); static const uptr LargestClassId = NumClasses - 1; static const uptr BatchClassId = 0; static const uptr MaxSize = Config::Classes[LargestClassId - 1]; static uptr getSizeByClassId(uptr ClassId) { return Config::Classes[ClassId - 1]; } static u8 getSizeLSBByClassId(uptr ClassId) { if (LTable.UseCompressedFormat) return ((LTable.CompressedValue >> ((ClassId - 1) * 2)) & 3) + LTable.CompressedMin; else return LTable.Tab[ClassId - 1]; } static constexpr bool usesCompressedLSBFormat() { return LTable.UseCompressedFormat; } static uptr getClassIdBySize(uptr Size) { if (Size <= Config::Classes[0]) return 1; Size -= Config::SizeDelta; DCHECK_LE(Size, MaxSize); if (Size <= (1 << Config::MidSizeLog)) return ((Size - 1) >> Config::MinSizeLog) + 1; return SzTable.Tab[scaledLog2(Size - 1, Config::MidSizeLog, S)]; } static u16 getMaxCachedHint(uptr Size) { DCHECK_LE(Size, MaxSize); return Base::getMaxCachedHint(Size); } }; struct DefaultSizeClassConfig { static const uptr NumBits = 3; static const uptr MinSizeLog = 5; static const uptr MidSizeLog = 8; static const uptr MaxSizeLog = 17; static const u16 MaxNumCachedHint = 14; static const uptr MaxBytesCachedLog = 10; static const uptr SizeDelta = 0; }; typedef FixedSizeClassMap DefaultSizeClassMap; struct FuchsiaSizeClassConfig { static const uptr NumBits = 3; static const uptr MinSizeLog = 5; static const uptr MidSizeLog = 8; static const uptr MaxSizeLog = 17; static const u16 MaxNumCachedHint = 12; static const uptr MaxBytesCachedLog = 10; static const uptr SizeDelta = Chunk::getHeaderSize(); }; typedef FixedSizeClassMap FuchsiaSizeClassMap; struct AndroidSizeClassConfig { #if SCUDO_WORDSIZE == 64U static const uptr NumBits = 7; static const uptr MinSizeLog = 4; static const uptr MidSizeLog = 6; static const uptr MaxSizeLog = 16; static const u16 MaxNumCachedHint = 13; static const uptr MaxBytesCachedLog = 13; static constexpr uptr Classes[] = { 0x00020, 0x00030, 0x00040, 0x00050, 0x00060, 0x00070, 0x00090, 0x000b0, 0x000c0, 0x000e0, 0x00120, 0x00160, 0x001c0, 0x00250, 0x00320, 0x00450, 0x00670, 0x00830, 0x00a10, 0x00c30, 0x01010, 0x01210, 0x01bd0, 0x02210, 0x02d90, 0x03790, 0x04010, 0x04810, 0x05a10, 0x07310, 0x08210, 0x10010, }; static const uptr SizeDelta = 16; #else static const uptr NumBits = 8; static const uptr MinSizeLog = 4; static const uptr MidSizeLog = 7; static const uptr MaxSizeLog = 16; static const u16 MaxNumCachedHint = 14; static const uptr MaxBytesCachedLog = 13; static constexpr uptr Classes[] = { 0x00020, 0x00030, 0x00040, 0x00050, 0x00060, 0x00070, 0x00080, 0x00090, 0x000a0, 0x000b0, 0x000c0, 0x000e0, 0x000f0, 0x00110, 0x00120, 0x00130, 0x00150, 0x00160, 0x00170, 0x00190, 0x001d0, 0x00210, 0x00240, 0x002a0, 0x00330, 0x00370, 0x003a0, 0x00400, 0x00430, 0x004a0, 0x00530, 0x00610, 0x00730, 0x00840, 0x00910, 0x009c0, 0x00a60, 0x00b10, 0x00ca0, 0x00e00, 0x00fb0, 0x01030, 0x01130, 0x011f0, 0x01490, 0x01650, 0x01930, 0x02010, 0x02190, 0x02490, 0x02850, 0x02d50, 0x03010, 0x03210, 0x03c90, 0x04090, 0x04510, 0x04810, 0x05c10, 0x06f10, 0x07310, 0x08010, 0x0c010, 0x10010, }; static const uptr SizeDelta = 16; #endif }; typedef TableSizeClassMap AndroidSizeClassMap; #if SCUDO_WORDSIZE == 64U && defined(__clang__) static_assert(AndroidSizeClassMap::usesCompressedLSBFormat(), ""); #endif struct TrustySizeClassConfig { static const uptr NumBits = 1; static const uptr MinSizeLog = 5; static const uptr MidSizeLog = 5; static const uptr MaxSizeLog = 15; static const u16 MaxNumCachedHint = 12; static const uptr MaxBytesCachedLog = 10; static const uptr SizeDelta = 0; }; typedef FixedSizeClassMap TrustySizeClassMap; template inline void printMap() { ScopedString Buffer; uptr PrevS = 0; uptr TotalCached = 0; for (uptr I = 0; I < SCMap::NumClasses; I++) { if (I == SCMap::BatchClassId) continue; const uptr S = SCMap::getSizeByClassId(I); const uptr D = S - PrevS; const uptr P = PrevS ? (D * 100 / PrevS) : 0; const uptr L = S ? getMostSignificantSetBitIndex(S) : 0; const uptr Cached = SCMap::getMaxCachedHint(S) * S; Buffer.append( "C%02zu => S: %zu diff: +%zu %02zu%% L %zu Cached: %u %zu; id %zu\n", I, S, D, P, L, SCMap::getMaxCachedHint(S), Cached, SCMap::getClassIdBySize(S)); TotalCached += Cached; PrevS = S; } Buffer.append("Total Cached: %zu\n", TotalCached); Buffer.output(); } template static UNUSED void validateMap() { for (uptr C = 0; C < SCMap::NumClasses; C++) { if (C == SCMap::BatchClassId) continue; const uptr S = SCMap::getSizeByClassId(C); CHECK_NE(S, 0U); CHECK_EQ(SCMap::getClassIdBySize(S), C); if (C < SCMap::LargestClassId) CHECK_EQ(SCMap::getClassIdBySize(S + 1), C + 1); CHECK_EQ(SCMap::getClassIdBySize(S - 1), C); if (C - 1 != SCMap::BatchClassId) CHECK_GT(SCMap::getSizeByClassId(C), SCMap::getSizeByClassId(C - 1)); } // Do not perform the loop if the maximum size is too large. if (SCMap::MaxSize > (1 << 19)) return; for (uptr S = 1; S <= SCMap::MaxSize; S++) { const uptr C = SCMap::getClassIdBySize(S); CHECK_LT(C, SCMap::NumClasses); CHECK_GE(SCMap::getSizeByClassId(C), S); if (C - 1 != SCMap::BatchClassId) CHECK_LT(SCMap::getSizeByClassId(C - 1), S); } } } // namespace scudo #endif // SCUDO_SIZE_CLASS_MAP_H_