1 //===-- sanitizer_linux_test.cc -------------------------------------------===//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 // Tests for sanitizer_linux.h
11 //
12 //===----------------------------------------------------------------------===//
13
14 #include "sanitizer_common/sanitizer_platform.h"
15 #if SANITIZER_LINUX
16
17 #include "sanitizer_common/sanitizer_linux.h"
18
19 #include "sanitizer_common/sanitizer_common.h"
20 #include "gtest/gtest.h"
21
22 #include <pthread.h>
23 #include <sched.h>
24 #include <stdlib.h>
25
26 #include <algorithm>
27 #include <vector>
28
29 namespace __sanitizer {
30
31 struct TidReporterArgument {
TidReporterArgument__sanitizer::TidReporterArgument32 TidReporterArgument() {
33 pthread_mutex_init(&terminate_thread_mutex, NULL);
34 pthread_mutex_init(&tid_reported_mutex, NULL);
35 pthread_cond_init(&terminate_thread_cond, NULL);
36 pthread_cond_init(&tid_reported_cond, NULL);
37 terminate_thread = false;
38 }
39
~TidReporterArgument__sanitizer::TidReporterArgument40 ~TidReporterArgument() {
41 pthread_mutex_destroy(&terminate_thread_mutex);
42 pthread_mutex_destroy(&tid_reported_mutex);
43 pthread_cond_destroy(&terminate_thread_cond);
44 pthread_cond_destroy(&tid_reported_cond);
45 }
46
47 pid_t reported_tid;
48 // For signaling to spawned threads that they should terminate.
49 pthread_cond_t terminate_thread_cond;
50 pthread_mutex_t terminate_thread_mutex;
51 bool terminate_thread;
52 // For signaling to main thread that a child thread has reported its tid.
53 pthread_cond_t tid_reported_cond;
54 pthread_mutex_t tid_reported_mutex;
55
56 private:
57 // Disallow evil constructors
58 TidReporterArgument(const TidReporterArgument &);
59 void operator=(const TidReporterArgument &);
60 };
61
62 class ThreadListerTest : public ::testing::Test {
63 protected:
SetUp()64 virtual void SetUp() {
65 pthread_t pthread_id;
66 pid_t tid;
67 for (uptr i = 0; i < kThreadCount; i++) {
68 SpawnTidReporter(&pthread_id, &tid);
69 pthread_ids_.push_back(pthread_id);
70 tids_.push_back(tid);
71 }
72 }
73
TearDown()74 virtual void TearDown() {
75 pthread_mutex_lock(&thread_arg.terminate_thread_mutex);
76 thread_arg.terminate_thread = true;
77 pthread_cond_broadcast(&thread_arg.terminate_thread_cond);
78 pthread_mutex_unlock(&thread_arg.terminate_thread_mutex);
79 for (uptr i = 0; i < pthread_ids_.size(); i++)
80 pthread_join(pthread_ids_[i], NULL);
81 }
82
83 void SpawnTidReporter(pthread_t *pthread_id, pid_t *tid);
84
85 static const uptr kThreadCount = 20;
86
87 std::vector<pthread_t> pthread_ids_;
88 std::vector<pid_t> tids_;
89
90 TidReporterArgument thread_arg;
91 };
92
93 // Writes its TID once to reported_tid and waits until signaled to terminate.
TidReporterThread(void * argument)94 void *TidReporterThread(void *argument) {
95 TidReporterArgument *arg = reinterpret_cast<TidReporterArgument *>(argument);
96 pthread_mutex_lock(&arg->tid_reported_mutex);
97 arg->reported_tid = GetTid();
98 pthread_cond_broadcast(&arg->tid_reported_cond);
99 pthread_mutex_unlock(&arg->tid_reported_mutex);
100
101 pthread_mutex_lock(&arg->terminate_thread_mutex);
102 while (!arg->terminate_thread)
103 pthread_cond_wait(&arg->terminate_thread_cond,
104 &arg->terminate_thread_mutex);
105 pthread_mutex_unlock(&arg->terminate_thread_mutex);
106 return NULL;
107 }
108
SpawnTidReporter(pthread_t * pthread_id,pid_t * tid)109 void ThreadListerTest::SpawnTidReporter(pthread_t *pthread_id,
110 pid_t *tid) {
111 pthread_mutex_lock(&thread_arg.tid_reported_mutex);
112 thread_arg.reported_tid = -1;
113 ASSERT_EQ(0, pthread_create(pthread_id, NULL,
114 TidReporterThread,
115 &thread_arg));
116 while (thread_arg.reported_tid == -1)
117 pthread_cond_wait(&thread_arg.tid_reported_cond,
118 &thread_arg.tid_reported_mutex);
119 pthread_mutex_unlock(&thread_arg.tid_reported_mutex);
120 *tid = thread_arg.reported_tid;
121 }
122
ReadTidsToVector(ThreadLister * thread_lister)123 static std::vector<pid_t> ReadTidsToVector(ThreadLister *thread_lister) {
124 std::vector<pid_t> listed_tids;
125 pid_t tid;
126 while ((tid = thread_lister->GetNextTID()) >= 0)
127 listed_tids.push_back(tid);
128 EXPECT_FALSE(thread_lister->error());
129 return listed_tids;
130 }
131
Includes(std::vector<pid_t> first,std::vector<pid_t> second)132 static bool Includes(std::vector<pid_t> first, std::vector<pid_t> second) {
133 std::sort(first.begin(), first.end());
134 std::sort(second.begin(), second.end());
135 return std::includes(first.begin(), first.end(),
136 second.begin(), second.end());
137 }
138
HasElement(std::vector<pid_t> vector,pid_t element)139 static bool HasElement(std::vector<pid_t> vector, pid_t element) {
140 return std::find(vector.begin(), vector.end(), element) != vector.end();
141 }
142
143 // ThreadLister's output should include the current thread's TID and the TID of
144 // every thread we spawned.
TEST_F(ThreadListerTest,ThreadListerSeesAllSpawnedThreads)145 TEST_F(ThreadListerTest, ThreadListerSeesAllSpawnedThreads) {
146 pid_t self_tid = GetTid();
147 ThreadLister thread_lister(getpid());
148 std::vector<pid_t> listed_tids = ReadTidsToVector(&thread_lister);
149 ASSERT_TRUE(HasElement(listed_tids, self_tid));
150 ASSERT_TRUE(Includes(listed_tids, tids_));
151 }
152
153 // Calling Reset() should not cause ThreadLister to forget any threads it's
154 // supposed to know about.
TEST_F(ThreadListerTest,ResetDoesNotForgetThreads)155 TEST_F(ThreadListerTest, ResetDoesNotForgetThreads) {
156 ThreadLister thread_lister(getpid());
157
158 // Run the loop body twice, because Reset() might behave differently if called
159 // on a freshly created object.
160 for (uptr i = 0; i < 2; i++) {
161 thread_lister.Reset();
162 std::vector<pid_t> listed_tids = ReadTidsToVector(&thread_lister);
163 ASSERT_TRUE(Includes(listed_tids, tids_));
164 }
165 }
166
167 // If new threads have spawned during ThreadLister object's lifetime, calling
168 // Reset() should cause ThreadLister to recognize their existence.
TEST_F(ThreadListerTest,ResetMakesNewThreadsKnown)169 TEST_F(ThreadListerTest, ResetMakesNewThreadsKnown) {
170 ThreadLister thread_lister(getpid());
171 std::vector<pid_t> threads_before_extra = ReadTidsToVector(&thread_lister);
172
173 pthread_t extra_pthread_id;
174 pid_t extra_tid;
175 SpawnTidReporter(&extra_pthread_id, &extra_tid);
176 // Register the new thread so it gets terminated in TearDown().
177 pthread_ids_.push_back(extra_pthread_id);
178
179 // It would be very bizarre if the new TID had been listed before we even
180 // spawned that thread, but it would also cause a false success in this test,
181 // so better check for that.
182 ASSERT_FALSE(HasElement(threads_before_extra, extra_tid));
183
184 thread_lister.Reset();
185
186 std::vector<pid_t> threads_after_extra = ReadTidsToVector(&thread_lister);
187 ASSERT_TRUE(HasElement(threads_after_extra, extra_tid));
188 }
189
TEST(SanitizerCommon,SetEnvTest)190 TEST(SanitizerCommon, SetEnvTest) {
191 const char kEnvName[] = "ENV_FOO";
192 SetEnv(kEnvName, "value");
193 EXPECT_STREQ("value", getenv(kEnvName));
194 unsetenv(kEnvName);
195 EXPECT_EQ(0, getenv(kEnvName));
196 }
197
198 #if (defined(__x86_64__) || defined(__i386__)) && !SANITIZER_ANDROID
thread_self_offset_test_func(void * arg)199 void *thread_self_offset_test_func(void *arg) {
200 bool result =
201 *(uptr *)((char *)ThreadSelf() + ThreadSelfOffset()) == ThreadSelf();
202 return (void *)result;
203 }
204
TEST(SanitizerLinux,ThreadSelfOffset)205 TEST(SanitizerLinux, ThreadSelfOffset) {
206 EXPECT_TRUE((bool)thread_self_offset_test_func(0));
207 pthread_t tid;
208 void *result;
209 ASSERT_EQ(0, pthread_create(&tid, 0, thread_self_offset_test_func, 0));
210 ASSERT_EQ(0, pthread_join(tid, &result));
211 EXPECT_TRUE((bool)result);
212 }
213
214 // libpthread puts the thread descriptor at the end of stack space.
thread_descriptor_size_test_func(void * arg)215 void *thread_descriptor_size_test_func(void *arg) {
216 uptr descr_addr = ThreadSelf();
217 pthread_attr_t attr;
218 pthread_getattr_np(pthread_self(), &attr);
219 void *stackaddr;
220 size_t stacksize;
221 pthread_attr_getstack(&attr, &stackaddr, &stacksize);
222 return (void *)((uptr)stackaddr + stacksize - descr_addr);
223 }
224
TEST(SanitizerLinux,ThreadDescriptorSize)225 TEST(SanitizerLinux, ThreadDescriptorSize) {
226 pthread_t tid;
227 void *result;
228 ASSERT_EQ(0, pthread_create(&tid, 0, thread_descriptor_size_test_func, 0));
229 ASSERT_EQ(0, pthread_join(tid, &result));
230 EXPECT_EQ((uptr)result, ThreadDescriptorSize());
231 }
232 #endif
233
TEST(SanitizerCommon,LibraryNameIs)234 TEST(SanitizerCommon, LibraryNameIs) {
235 EXPECT_FALSE(LibraryNameIs("", ""));
236
237 char full_name[256];
238 const char *paths[] = { "", "/", "/path/to/" };
239 const char *suffixes[] = { "", "-linux", ".1.2", "-linux.1.2" };
240 const char *base_names[] = { "lib", "lib.0", "lib-i386" };
241 const char *wrong_names[] = { "", "lib.9", "lib-x86_64" };
242 for (uptr i = 0; i < ARRAY_SIZE(paths); i++)
243 for (uptr j = 0; j < ARRAY_SIZE(suffixes); j++) {
244 for (uptr k = 0; k < ARRAY_SIZE(base_names); k++) {
245 internal_snprintf(full_name, ARRAY_SIZE(full_name), "%s%s%s.so",
246 paths[i], base_names[k], suffixes[j]);
247 EXPECT_TRUE(LibraryNameIs(full_name, base_names[k]))
248 << "Full name " << full_name
249 << " doesn't match base name " << base_names[k];
250 for (uptr m = 0; m < ARRAY_SIZE(wrong_names); m++)
251 EXPECT_FALSE(LibraryNameIs(full_name, wrong_names[m]))
252 << "Full name " << full_name
253 << " matches base name " << wrong_names[m];
254 }
255 }
256 }
257
258 #if defined(__mips64)
259 // Effectively, this is a test for ThreadDescriptorSize() which is used to
260 // compute ThreadSelf().
TEST(SanitizerLinux,ThreadSelfTest)261 TEST(SanitizerLinux, ThreadSelfTest) {
262 ASSERT_EQ(pthread_self(), ThreadSelf());
263 }
264 #endif
265
TEST(SanitizerCommon,StartSubprocessTest)266 TEST(SanitizerCommon, StartSubprocessTest) {
267 int pipe_fds[2];
268 ASSERT_EQ(0, pipe(pipe_fds));
269 #if SANITIZER_ANDROID
270 const char *shell = "/system/bin/sh";
271 #else
272 const char *shell = "/bin/sh";
273 #endif
274 const char *argv[] = {shell, "-c", "echo -n 'hello'", (char *)NULL};
275 int pid = StartSubprocess(shell, argv,
276 /* stdin */ kInvalidFd, /* stdout */ pipe_fds[1]);
277 ASSERT_GT(pid, 0);
278
279 // wait for process to finish.
280 while (IsProcessRunning(pid)) {
281 }
282 ASSERT_FALSE(IsProcessRunning(pid));
283
284 char buffer[256];
285 {
286 char *ptr = buffer;
287 uptr bytes_read;
288 while (ReadFromFile(pipe_fds[0], ptr, 256, &bytes_read)) {
289 if (!bytes_read) {
290 break;
291 }
292 ptr += bytes_read;
293 }
294 ASSERT_EQ(5, ptr - buffer);
295 *ptr = 0;
296 }
297 ASSERT_EQ(0, strcmp(buffer, "hello")) << "Buffer: " << buffer;
298 internal_close(pipe_fds[0]);
299 }
300
301 } // namespace __sanitizer
302
303 #endif // SANITIZER_LINUX
304