//===-- release_test.cpp ----------------------------------------*- 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 // //===----------------------------------------------------------------------===// #include "tests/scudo_unit_test.h" #include "list.h" #include "release.h" #include "size_class_map.h" #include #include #include #include TEST(ScudoReleaseTest, PackedCounterArray) { for (scudo::uptr I = 0; I < SCUDO_WORDSIZE; I++) { // Various valid counter's max values packed into one word. scudo::PackedCounterArray Counters2N(1, 1UL << I); EXPECT_EQ(sizeof(scudo::uptr), Counters2N.getBufferSize()); // Check the "all bit set" values too. scudo::PackedCounterArray Counters2N1_1(1, ~0UL >> I); EXPECT_EQ(sizeof(scudo::uptr), Counters2N1_1.getBufferSize()); // Verify the packing ratio, the counter is Expected to be packed into the // closest power of 2 bits. scudo::PackedCounterArray Counters(SCUDO_WORDSIZE, 1UL << I); EXPECT_EQ(sizeof(scudo::uptr) * scudo::roundUpToPowerOfTwo(I + 1), Counters.getBufferSize()); } // Go through 1, 2, 4, 8, .. {32,64} bits per counter. for (scudo::uptr I = 0; (SCUDO_WORDSIZE >> I) != 0; I++) { // Make sure counters request one memory page for the buffer. const scudo::uptr NumCounters = (scudo::getPageSizeCached() / 8) * (SCUDO_WORDSIZE >> I); scudo::PackedCounterArray Counters(NumCounters, 1UL << ((1UL << I) - 1)); Counters.inc(0); for (scudo::uptr C = 1; C < NumCounters - 1; C++) { EXPECT_EQ(0UL, Counters.get(C)); Counters.inc(C); EXPECT_EQ(1UL, Counters.get(C - 1)); } EXPECT_EQ(0UL, Counters.get(NumCounters - 1)); Counters.inc(NumCounters - 1); if (I > 0) { Counters.incRange(0, NumCounters - 1); for (scudo::uptr C = 0; C < NumCounters; C++) EXPECT_EQ(2UL, Counters.get(C)); } } } class StringRangeRecorder { public: std::string ReportedPages; StringRangeRecorder() : PageSizeScaledLog(scudo::getLog2(scudo::getPageSizeCached())) {} void releasePageRangeToOS(scudo::uptr From, scudo::uptr To) { From >>= PageSizeScaledLog; To >>= PageSizeScaledLog; EXPECT_LT(From, To); if (!ReportedPages.empty()) EXPECT_LT(LastPageReported, From); ReportedPages.append(From - LastPageReported, '.'); ReportedPages.append(To - From, 'x'); LastPageReported = To; } private: const scudo::uptr PageSizeScaledLog; scudo::uptr LastPageReported = 0; }; TEST(ScudoReleaseTest, FreePagesRangeTracker) { // 'x' denotes a page to be released, '.' denotes a page to be kept around. const char *TestCases[] = { "", ".", "x", "........", "xxxxxxxxxxx", "..............xxxxx", "xxxxxxxxxxxxxxxxxx.....", "......xxxxxxxx........", "xxx..........xxxxxxxxxxxxxxx", "......xxxx....xxxx........", "xxx..........xxxxxxxx....xxxxxxx", "x.x.x.x.x.x.x.x.x.x.x.x.", ".x.x.x.x.x.x.x.x.x.x.x.x", ".x.x.x.x.x.x.x.x.x.x.x.x.", "x.x.x.x.x.x.x.x.x.x.x.x.x", }; typedef scudo::FreePagesRangeTracker RangeTracker; for (auto TestCase : TestCases) { StringRangeRecorder Recorder; RangeTracker Tracker(&Recorder); for (scudo::uptr I = 0; TestCase[I] != 0; I++) Tracker.processNextPage(TestCase[I] == 'x'); Tracker.finish(); // Strip trailing '.'-pages before comparing the results as they are not // going to be reported to range_recorder anyway. const char *LastX = strrchr(TestCase, 'x'); std::string Expected(TestCase, LastX == nullptr ? 0 : (LastX - TestCase + 1)); EXPECT_STREQ(Expected.c_str(), Recorder.ReportedPages.c_str()); } } class ReleasedPagesRecorder { public: std::set ReportedPages; void releasePageRangeToOS(scudo::uptr From, scudo::uptr To) { const scudo::uptr PageSize = scudo::getPageSizeCached(); for (scudo::uptr I = From; I < To; I += PageSize) ReportedPages.insert(I); } }; // Simplified version of a TransferBatch. template struct FreeBatch { static const scudo::u32 MaxCount = SizeClassMap::MaxNumCachedHint; void clear() { Count = 0; } void add(scudo::uptr P) { DCHECK_LT(Count, MaxCount); Batch[Count++] = P; } scudo::u32 getCount() const { return Count; } scudo::uptr get(scudo::u32 I) const { DCHECK_LE(I, Count); return Batch[I]; } FreeBatch *Next; private: scudo::u32 Count; scudo::uptr Batch[MaxCount]; }; template void testReleaseFreeMemoryToOS() { typedef FreeBatch Batch; const scudo::uptr AllocatedPagesCount = 1024; const scudo::uptr PageSize = scudo::getPageSizeCached(); std::mt19937 R; scudo::u32 RandState = 42; for (scudo::uptr I = 1; I <= SizeClassMap::LargestClassId; I++) { const scudo::uptr BlockSize = SizeClassMap::getSizeByClassId(I); const scudo::uptr MaxBlocks = AllocatedPagesCount * PageSize / BlockSize; // Generate the random free list. std::vector FreeArray; bool InFreeRange = false; scudo::uptr CurrentRangeEnd = 0; for (scudo::uptr I = 0; I < MaxBlocks; I++) { if (I == CurrentRangeEnd) { InFreeRange = (scudo::getRandomU32(&RandState) & 1U) == 1; CurrentRangeEnd += (scudo::getRandomU32(&RandState) & 0x7f) + 1; } if (InFreeRange) FreeArray.push_back(I * BlockSize); } if (FreeArray.empty()) continue; // Shuffle the array to ensure that the order is irrelevant. std::shuffle(FreeArray.begin(), FreeArray.end(), R); // Build the FreeList from the FreeArray. scudo::SinglyLinkedList FreeList; FreeList.clear(); Batch *CurrentBatch = nullptr; for (auto const &Block : FreeArray) { if (!CurrentBatch) { CurrentBatch = new Batch; CurrentBatch->clear(); FreeList.push_back(CurrentBatch); } CurrentBatch->add(Block); if (CurrentBatch->getCount() == Batch::MaxCount) CurrentBatch = nullptr; } // Release the memory. ReleasedPagesRecorder Recorder; releaseFreeMemoryToOS(FreeList, 0, AllocatedPagesCount, BlockSize, &Recorder); // Verify that there are no released pages touched by used chunks and all // ranges of free chunks big enough to contain the entire memory pages had // these pages released. scudo::uptr VerifiedReleasedPages = 0; std::set FreeBlocks(FreeArray.begin(), FreeArray.end()); scudo::uptr CurrentBlock = 0; InFreeRange = false; scudo::uptr CurrentFreeRangeStart = 0; for (scudo::uptr I = 0; I <= MaxBlocks; I++) { const bool IsFreeBlock = FreeBlocks.find(CurrentBlock) != FreeBlocks.end(); if (IsFreeBlock) { if (!InFreeRange) { InFreeRange = true; CurrentFreeRangeStart = CurrentBlock; } } else { // Verify that this used chunk does not touch any released page. const scudo::uptr StartPage = CurrentBlock / PageSize; const scudo::uptr EndPage = (CurrentBlock + BlockSize - 1) / PageSize; for (scudo::uptr J = StartPage; J <= EndPage; J++) { const bool PageReleased = Recorder.ReportedPages.find(J * PageSize) != Recorder.ReportedPages.end(); EXPECT_EQ(false, PageReleased); } if (InFreeRange) { InFreeRange = false; // Verify that all entire memory pages covered by this range of free // chunks were released. scudo::uptr P = scudo::roundUpTo(CurrentFreeRangeStart, PageSize); while (P + PageSize <= CurrentBlock) { const bool PageReleased = Recorder.ReportedPages.find(P) != Recorder.ReportedPages.end(); EXPECT_EQ(true, PageReleased); VerifiedReleasedPages++; P += PageSize; } } } CurrentBlock += BlockSize; } EXPECT_EQ(Recorder.ReportedPages.size(), VerifiedReleasedPages); while (!FreeList.empty()) { CurrentBatch = FreeList.front(); FreeList.pop_front(); delete CurrentBatch; } } } TEST(ScudoReleaseTest, ReleaseFreeMemoryToOSDefault) { testReleaseFreeMemoryToOS(); } TEST(ScudoReleaseTest, ReleaseFreeMemoryToOSAndroid) { testReleaseFreeMemoryToOS(); } TEST(ScudoReleaseTest, ReleaseFreeMemoryToOSSvelte) { testReleaseFreeMemoryToOS(); }