//===-- sanitizer_allocator_size_class_map.h --------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Part of the Sanitizer Allocator. // //===----------------------------------------------------------------------===// #ifndef SANITIZER_ALLOCATOR_H #error This file must be included inside sanitizer_allocator.h #endif // SizeClassMap maps allocation sizes into size classes and back. // Class 0 always corresponds to size 0. // The other sizes are controlled by the template parameters: // kMinSizeLog: defines the class 1 as 2^kMinSizeLog. // kMaxSizeLog: defines the last class as 2^kMaxSizeLog. // kMidSizeLog: the classes starting from 1 increase with step // 2^kMinSizeLog until 2^kMidSizeLog. // kNumBits: the number of non-zero bits in sizes after 2^kMidSizeLog. // E.g. with kNumBits==3 all size classes after 2^kMidSizeLog // look like 0b1xx0..0, where x is either 0 or 1. // // Example: kNumBits=3, kMidSizeLog=4, kMidSizeLog=8, kMaxSizeLog=17: // // Classes 1 - 16 correspond to sizes 16 to 256 (size = class_id * 16). // Next 4 classes: 256 + i * 64 (i = 1 to 4). // Next 4 classes: 512 + i * 128 (i = 1 to 4). // ... // Next 4 classes: 2^k + i * 2^(k-2) (i = 1 to 4). // Last class corresponds to kMaxSize = 1 << kMaxSizeLog. // // This structure of the size class map gives us: // - Efficient table-free class-to-size and size-to-class functions. // - Difference between two consequent size classes is between 14% and 25% // // This class also gives a hint to a thread-caching allocator about the amount // of chunks that need to be cached per-thread: // - kMaxNumCachedHint is a hint for maximal number of chunks per size class. // The actual number is computed in TransferBatch. // - (1 << kMaxBytesCachedLog) is the maximal number of bytes per size class. // // Part of output of SizeClassMap::Print(): // c00 => s: 0 diff: +0 00% l 0 cached: 0 0; id 0 // c01 => s: 16 diff: +16 00% l 4 cached: 256 4096; id 1 // c02 => s: 32 diff: +16 100% l 5 cached: 256 8192; id 2 // c03 => s: 48 diff: +16 50% l 5 cached: 256 12288; id 3 // c04 => s: 64 diff: +16 33% l 6 cached: 256 16384; id 4 // c05 => s: 80 diff: +16 25% l 6 cached: 256 20480; id 5 // c06 => s: 96 diff: +16 20% l 6 cached: 256 24576; id 6 // c07 => s: 112 diff: +16 16% l 6 cached: 256 28672; id 7 // // c08 => s: 128 diff: +16 14% l 7 cached: 256 32768; id 8 // c09 => s: 144 diff: +16 12% l 7 cached: 256 36864; id 9 // c10 => s: 160 diff: +16 11% l 7 cached: 256 40960; id 10 // c11 => s: 176 diff: +16 10% l 7 cached: 256 45056; id 11 // c12 => s: 192 diff: +16 09% l 7 cached: 256 49152; id 12 // c13 => s: 208 diff: +16 08% l 7 cached: 256 53248; id 13 // c14 => s: 224 diff: +16 07% l 7 cached: 256 57344; id 14 // c15 => s: 240 diff: +16 07% l 7 cached: 256 61440; id 15 // // c16 => s: 256 diff: +16 06% l 8 cached: 256 65536; id 16 // c17 => s: 320 diff: +64 25% l 8 cached: 204 65280; id 17 // c18 => s: 384 diff: +64 20% l 8 cached: 170 65280; id 18 // c19 => s: 448 diff: +64 16% l 8 cached: 146 65408; id 19 // // c20 => s: 512 diff: +64 14% l 9 cached: 128 65536; id 20 // c21 => s: 640 diff: +128 25% l 9 cached: 102 65280; id 21 // c22 => s: 768 diff: +128 20% l 9 cached: 85 65280; id 22 // c23 => s: 896 diff: +128 16% l 9 cached: 73 65408; id 23 // // c24 => s: 1024 diff: +128 14% l 10 cached: 64 65536; id 24 // c25 => s: 1280 diff: +256 25% l 10 cached: 51 65280; id 25 // c26 => s: 1536 diff: +256 20% l 10 cached: 42 64512; id 26 // c27 => s: 1792 diff: +256 16% l 10 cached: 36 64512; id 27 // // ... // // c48 => s: 65536 diff: +8192 14% l 16 cached: 1 65536; id 48 // c49 => s: 81920 diff: +16384 25% l 16 cached: 1 81920; id 49 // c50 => s: 98304 diff: +16384 20% l 16 cached: 1 98304; id 50 // c51 => s: 114688 diff: +16384 16% l 16 cached: 1 114688; id 51 // // c52 => s: 131072 diff: +16384 14% l 17 cached: 1 131072; id 52 // // // Another example (kNumBits=2): // c00 => s: 0 diff: +0 00% l 0 cached: 0 0; id 0 // c01 => s: 32 diff: +32 00% l 5 cached: 64 2048; id 1 // c02 => s: 64 diff: +32 100% l 6 cached: 64 4096; id 2 // c03 => s: 96 diff: +32 50% l 6 cached: 64 6144; id 3 // c04 => s: 128 diff: +32 33% l 7 cached: 64 8192; id 4 // c05 => s: 160 diff: +32 25% l 7 cached: 64 10240; id 5 // c06 => s: 192 diff: +32 20% l 7 cached: 64 12288; id 6 // c07 => s: 224 diff: +32 16% l 7 cached: 64 14336; id 7 // c08 => s: 256 diff: +32 14% l 8 cached: 64 16384; id 8 // c09 => s: 384 diff: +128 50% l 8 cached: 42 16128; id 9 // c10 => s: 512 diff: +128 33% l 9 cached: 32 16384; id 10 // c11 => s: 768 diff: +256 50% l 9 cached: 21 16128; id 11 // c12 => s: 1024 diff: +256 33% l 10 cached: 16 16384; id 12 // c13 => s: 1536 diff: +512 50% l 10 cached: 10 15360; id 13 // c14 => s: 2048 diff: +512 33% l 11 cached: 8 16384; id 14 // c15 => s: 3072 diff: +1024 50% l 11 cached: 5 15360; id 15 // c16 => s: 4096 diff: +1024 33% l 12 cached: 4 16384; id 16 // c17 => s: 6144 diff: +2048 50% l 12 cached: 2 12288; id 17 // c18 => s: 8192 diff: +2048 33% l 13 cached: 2 16384; id 18 // c19 => s: 12288 diff: +4096 50% l 13 cached: 1 12288; id 19 // c20 => s: 16384 diff: +4096 33% l 14 cached: 1 16384; id 20 // c21 => s: 24576 diff: +8192 50% l 14 cached: 1 24576; id 21 // c22 => s: 32768 diff: +8192 33% l 15 cached: 1 32768; id 22 // c23 => s: 49152 diff: +16384 50% l 15 cached: 1 49152; id 23 // c24 => s: 65536 diff: +16384 33% l 16 cached: 1 65536; id 24 // c25 => s: 98304 diff: +32768 50% l 16 cached: 1 98304; id 25 // c26 => s: 131072 diff: +32768 33% l 17 cached: 1 131072; id 26 template class SizeClassMap { static const uptr kMinSize = 1 << kMinSizeLog; static const uptr kMidSize = 1 << kMidSizeLog; static const uptr kMidClass = kMidSize / kMinSize; static const uptr S = kNumBits - 1; static const uptr M = (1 << S) - 1; public: // kMaxNumCachedHintT is a power of two. It serves as a hint // for the size of TransferBatch, the actual size could be a bit smaller. static const uptr kMaxNumCachedHint = kMaxNumCachedHintT; COMPILER_CHECK((kMaxNumCachedHint & (kMaxNumCachedHint - 1)) == 0); static const uptr kMaxSize = 1UL << kMaxSizeLog; static const uptr kNumClasses = kMidClass + ((kMaxSizeLog - kMidSizeLog) << S) + 1 + 1; static const uptr kLargestClassID = kNumClasses - 2; static const uptr kBatchClassID = kNumClasses - 1; COMPILER_CHECK(kNumClasses >= 16 && kNumClasses <= 256); static const uptr kNumClassesRounded = kNumClasses <= 32 ? 32 : kNumClasses <= 64 ? 64 : kNumClasses <= 128 ? 128 : 256; static uptr Size(uptr class_id) { // Estimate the result for kBatchClassID because this class does not know // the exact size of TransferBatch. It's OK since we are using the actual // sizeof(TransferBatch) where it matters. if (UNLIKELY(class_id == kBatchClassID)) return kMaxNumCachedHint * sizeof(uptr); if (class_id <= kMidClass) return kMinSize * class_id; class_id -= kMidClass; uptr t = kMidSize << (class_id >> S); return t + (t >> S) * (class_id & M); } static uptr ClassID(uptr size) { if (UNLIKELY(size > kMaxSize)) return 0; if (size <= kMidSize) return (size + kMinSize - 1) >> kMinSizeLog; uptr l = MostSignificantSetBitIndex(size); uptr hbits = (size >> (l - S)) & M; uptr lbits = size & ((1 << (l - S)) - 1); uptr l1 = l - kMidSizeLog; return kMidClass + (l1 << S) + hbits + (lbits > 0); } static uptr MaxCachedHint(uptr class_id) { // Estimate the result for kBatchClassID because this class does not know // the exact size of TransferBatch. We need to cache fewer batches than user // chunks, so this number can be small. if (UNLIKELY(class_id == kBatchClassID)) return 16; if (UNLIKELY(class_id == 0)) return 0; uptr n = (1UL << kMaxBytesCachedLog) / Size(class_id); return Max(1, Min(kMaxNumCachedHint, n)); } static void Print() { uptr prev_s = 0; uptr total_cached = 0; for (uptr i = 0; i < kNumClasses; i++) { uptr s = Size(i); if (s >= kMidSize / 2 && (s & (s - 1)) == 0) Printf("\n"); uptr d = s - prev_s; uptr p = prev_s ? (d * 100 / prev_s) : 0; uptr l = s ? MostSignificantSetBitIndex(s) : 0; uptr cached = MaxCachedHint(i) * s; if (i == kBatchClassID) d = p = l = 0; Printf("c%02zd => s: %zd diff: +%zd %02zd%% l %zd " "cached: %zd %zd; id %zd\n", i, Size(i), d, p, l, MaxCachedHint(i), cached, ClassID(s)); total_cached += cached; prev_s = s; } Printf("Total cached: %zd\n", total_cached); } static void Validate() { for (uptr c = 1; c < kNumClasses; c++) { // Printf("Validate: c%zd\n", c); uptr s = Size(c); CHECK_NE(s, 0U); if (c == kBatchClassID) continue; CHECK_EQ(ClassID(s), c); if (c < kLargestClassID) CHECK_EQ(ClassID(s + 1), c + 1); CHECK_EQ(ClassID(s - 1), c); CHECK_GT(Size(c), Size(c - 1)); } CHECK_EQ(ClassID(kMaxSize + 1), 0); for (uptr s = 1; s <= kMaxSize; s++) { uptr c = ClassID(s); // Printf("s%zd => c%zd\n", s, c); CHECK_LT(c, kNumClasses); CHECK_GE(Size(c), s); if (c > 0) CHECK_LT(Size(c - 1), s); } } }; typedef SizeClassMap<3, 4, 8, 17, 128, 16> DefaultSizeClassMap; typedef SizeClassMap<3, 4, 8, 17, 64, 14> CompactSizeClassMap; typedef SizeClassMap<2, 5, 9, 16, 64, 14> VeryCompactSizeClassMap;