1 //===-- sanitizer_thread_registry_test.cpp --------------------------------===// 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 is a part of shared sanitizer runtime. 10 // 11 //===----------------------------------------------------------------------===// 12 #include "sanitizer_common/sanitizer_thread_registry.h" 13 14 #include "sanitizer_pthread_wrappers.h" 15 16 #include "gtest/gtest.h" new() -> Self17 18 #include <vector> 19 20 namespace __sanitizer { 21 22 static BlockingMutex tctx_allocator_lock(LINKER_INITIALIZED); 23 static LowLevelAllocator tctx_allocator; 24 25 template<typename TCTX> 26 static ThreadContextBase *GetThreadContext(u32 tid) { 27 BlockingMutexLock l(&tctx_allocator_lock); 28 return new(tctx_allocator) TCTX(tid); 29 } 30 31 static const u32 kMaxRegistryThreads = 1000; 32 static const u32 kRegistryQuarantine = 2; 33 34 static void CheckThreadQuantity(ThreadRegistry *registry, uptr exp_total, 35 uptr exp_running, uptr exp_alive) { 36 uptr total, running, alive; 37 registry->GetNumberOfThreads(&total, &running, &alive); 38 EXPECT_EQ(exp_total, total); 39 EXPECT_EQ(exp_running, running); 40 EXPECT_EQ(exp_alive, alive); 41 } 42 43 static bool is_detached(u32 tid) { 44 return (tid % 2 == 0); 45 } 46 47 static uptr get_uid(u32 tid) { 48 return tid * 2; 49 } 50 51 static bool HasName(ThreadContextBase *tctx, void *arg) { 52 char *name = (char*)arg; 53 return (0 == internal_strcmp(tctx->name, name)); 54 } 55 56 static bool HasUid(ThreadContextBase *tctx, void *arg) { 57 uptr uid = (uptr)arg; 58 return (tctx->user_id == uid); 59 } 60 61 static void MarkUidAsPresent(ThreadContextBase *tctx, void *arg) { 62 bool *arr = (bool*)arg; 63 arr[tctx->tid] = true; 64 } 65 66 static void TestRegistry(ThreadRegistry *registry, bool has_quarantine) { 67 // Create and start a main thread. 68 EXPECT_EQ(0U, registry->CreateThread(get_uid(0), true, -1, 0)); 69 registry->StartThread(0, 0, ThreadType::Regular, 0); 70 // Create a bunch of threads. 71 for (u32 i = 1; i <= 10; i++) { 72 EXPECT_EQ(i, registry->CreateThread(get_uid(i), is_detached(i), 0, 0)); 73 } 74 CheckThreadQuantity(registry, 11, 1, 11); 75 // Start some of them. 76 for (u32 i = 1; i <= 5; i++) { 77 registry->StartThread(i, 0, ThreadType::Regular, 0); 78 } 79 CheckThreadQuantity(registry, 11, 6, 11); 80 // Finish, create and start more threads. 81 for (u32 i = 1; i <= 5; i++) { 82 registry->FinishThread(i); 83 if (!is_detached(i)) 84 registry->JoinThread(i, 0); 85 } 86 for (u32 i = 6; i <= 10; i++) { 87 registry->StartThread(i, 0, ThreadType::Regular, 0); 88 } 89 std::vector<u32> new_tids; 90 for (u32 i = 11; i <= 15; i++) { 91 new_tids.push_back( 92 registry->CreateThread(get_uid(i), is_detached(i), 0, 0)); 93 } 94 ASSERT_LE(kRegistryQuarantine, 5U); 95 u32 exp_total = 16 - (has_quarantine ? 5 - kRegistryQuarantine : 0); 96 CheckThreadQuantity(registry, exp_total, 6, 11); 97 // Test SetThreadName and FindThread. 98 registry->SetThreadName(6, "six"); 99 registry->SetThreadName(7, "seven"); 100 EXPECT_EQ(7U, registry->FindThread(HasName, (void*)"seven")); 101 EXPECT_EQ(kInvalidTid, registry->FindThread(HasName, (void *)"none")); 102 EXPECT_EQ(0U, registry->FindThread(HasUid, (void*)get_uid(0))); 103 EXPECT_EQ(10U, registry->FindThread(HasUid, (void*)get_uid(10))); 104 EXPECT_EQ(kInvalidTid, registry->FindThread(HasUid, (void *)0x1234)); 105 // Detach and finish and join remaining threads. 106 for (u32 i = 6; i <= 10; i++) { 107 registry->DetachThread(i, 0); 108 registry->FinishThread(i); 109 } 110 for (u32 i = 0; i < new_tids.size(); i++) { 111 u32 tid = new_tids[i]; 112 registry->StartThread(tid, 0, ThreadType::Regular, 0); 113 registry->DetachThread(tid, 0); 114 registry->FinishThread(tid); 115 } 116 CheckThreadQuantity(registry, exp_total, 1, 1); 117 // Test methods that require the caller to hold a ThreadRegistryLock. 118 bool has_tid[16]; 119 internal_memset(&has_tid[0], 0, sizeof(has_tid)); 120 { 121 ThreadRegistryLock l(registry); 122 registry->RunCallbackForEachThreadLocked(MarkUidAsPresent, &has_tid[0]); 123 } 124 for (u32 i = 0; i < exp_total; i++) { 125 EXPECT_TRUE(has_tid[i]); 126 } 127 { 128 ThreadRegistryLock l(registry); 129 registry->CheckLocked(); 130 ThreadContextBase *main_thread = registry->GetThreadLocked(0); 131 EXPECT_EQ(main_thread, registry->FindThreadContextLocked( 132 HasUid, (void*)get_uid(0))); 133 } 134 EXPECT_EQ(11U, registry->GetMaxAliveThreads()); 135 } 136 137 TEST(SanitizerCommon, ThreadRegistryTest) { 138 ThreadRegistry quarantine_registry(GetThreadContext<ThreadContextBase>, 139 kMaxRegistryThreads, kRegistryQuarantine, 140 0); 141 TestRegistry(&quarantine_registry, true); 142 143 ThreadRegistry no_quarantine_registry(GetThreadContext<ThreadContextBase>, 144 kMaxRegistryThreads, 145 kMaxRegistryThreads, 0); 146 TestRegistry(&no_quarantine_registry, false); 147 } 148 149 static const int kThreadsPerShard = 20; 150 static const int kNumShards = 25; 151 152 static int num_created[kNumShards + 1]; 153 static int num_started[kNumShards + 1]; 154 static int num_joined[kNumShards + 1]; 155 156 namespace { 157 158 struct RunThreadArgs { 159 ThreadRegistry *registry; 160 uptr shard; // started from 1. 161 }; 162 163 class TestThreadContext final : public ThreadContextBase { 164 public: 165 explicit TestThreadContext(int tid) : ThreadContextBase(tid) {} 166 void OnJoined(void *arg) { 167 uptr shard = (uptr)arg; 168 num_joined[shard]++; 169 } 170 void OnStarted(void *arg) { 171 uptr shard = (uptr)arg; 172 num_started[shard]++; 173 } 174 void OnCreated(void *arg) { 175 uptr shard = (uptr)arg; 176 num_created[shard]++; 177 } 178 }; 179 180 } // namespace 181 182 void *RunThread(void *arg) { 183 RunThreadArgs *args = static_cast<RunThreadArgs*>(arg); 184 std::vector<int> tids; 185 for (int i = 0; i < kThreadsPerShard; i++) 186 tids.push_back( 187 args->registry->CreateThread(0, false, 0, (void*)args->shard)); 188 for (int i = 0; i < kThreadsPerShard; i++) 189 args->registry->StartThread(tids[i], 0, ThreadType::Regular, 190 (void*)args->shard); 191 for (int i = 0; i < kThreadsPerShard; i++) 192 args->registry->FinishThread(tids[i]); 193 for (int i = 0; i < kThreadsPerShard; i++) 194 args->registry->JoinThread(tids[i], (void*)args->shard); 195 return 0; 196 } 197 198 static void ThreadedTestRegistry(ThreadRegistry *registry) { 199 // Create and start a main thread. 200 EXPECT_EQ(0U, registry->CreateThread(0, true, -1, 0)); 201 registry->StartThread(0, 0, ThreadType::Regular, 0); 202 pthread_t threads[kNumShards]; 203 RunThreadArgs args[kNumShards]; 204 for (int i = 0; i < kNumShards; i++) { 205 args[i].registry = registry; 206 args[i].shard = i + 1; 207 PTHREAD_CREATE(&threads[i], 0, RunThread, &args[i]); 208 } 209 for (int i = 0; i < kNumShards; i++) { 210 PTHREAD_JOIN(threads[i], 0); 211 } 212 // Check that each thread created/started/joined correct amount 213 // of "threads" in thread_registry. 214 EXPECT_EQ(1, num_created[0]); 215 EXPECT_EQ(1, num_started[0]); 216 EXPECT_EQ(0, num_joined[0]); 217 for (int i = 1; i <= kNumShards; i++) { 218 EXPECT_EQ(kThreadsPerShard, num_created[i]); 219 EXPECT_EQ(kThreadsPerShard, num_started[i]); 220 EXPECT_EQ(kThreadsPerShard, num_joined[i]); 221 } 222 } 223 224 TEST(SanitizerCommon, ThreadRegistryThreadedTest) { 225 memset(&num_created, 0, sizeof(num_created)); 226 memset(&num_started, 0, sizeof(num_created)); 227 memset(&num_joined, 0, sizeof(num_created)); 228 229 ThreadRegistry registry(GetThreadContext<TestThreadContext>, 230 kThreadsPerShard * kNumShards + 1, 10, 0); 231 ThreadedTestRegistry(®istry); 232 } 233 234 } // namespace __sanitizer 235