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Merge branch 'bugfix/pthread_destructor_sequencing' into 'master'
pthread: Fix behaviour when pthread destructor calls pthread_getspecific/pthread_setspecific Closes IDFGH-4842 See merge request espressif/esp-idf!13567
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8d7599cc3d
@ -113,12 +113,17 @@ int pthread_key_delete(pthread_key_t key)
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This is called from one of two places:
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If the thread was created via pthread_create() then it's called by pthread_task_func() when that thread ends,
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and the FreeRTOS thread-local-storage is removed before the FreeRTOS task is deleted.
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or calls pthread_exit(), and the FreeRTOS thread-local-storage is removed before the FreeRTOS task is deleted.
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For other tasks, this is called when the FreeRTOS idle task performs its task cleanup after the task is deleted.
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(The reason for calling it early for pthreads is to keep the timing consistent with "normal" pthreads, so after
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pthread_join() the task's destructors have all been called even if the idle task hasn't run cleanup yet.)
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There are two reasons for calling it early for pthreads:
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- To keep the timing consistent with "normal" pthreads, so after pthread_join() the task's destructors have all
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been called even if the idle task hasn't run cleanup yet.
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- The destructor is always called in the context of the thread itself - which is important if the task then calls
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pthread_getspecific() or pthread_setspecific() to update the state further, as allowed for in the spec.
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*/
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static void pthread_local_storage_thread_deleted_callback(int index, void *v_tls)
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{
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@ -126,8 +131,13 @@ static void pthread_local_storage_thread_deleted_callback(int index, void *v_tls
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assert(tls != NULL);
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/* Walk the list, freeing all entries and calling destructors if they are registered */
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value_entry_t *entry = SLIST_FIRST(tls);
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while(entry != NULL) {
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while (1) {
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value_entry_t *entry = SLIST_FIRST(tls);
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if (entry == NULL) {
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break;
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}
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SLIST_REMOVE_HEAD(tls, next);
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// This is a little slow, walking the linked list of keys once per value,
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// but assumes that the thread's value list will have less entries
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// than the keys list
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@ -135,9 +145,7 @@ static void pthread_local_storage_thread_deleted_callback(int index, void *v_tls
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if (key != NULL && key->destructor != NULL) {
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key->destructor(entry->value);
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}
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value_entry_t *next_entry = SLIST_NEXT(entry, next);
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free(entry);
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entry = next_entry;
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}
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free(tls);
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}
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@ -250,7 +258,22 @@ int pthread_setspecific(pthread_key_t key, const void *value)
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}
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entry->key = key;
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entry->value = (void *) value; // see note above about cast
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SLIST_INSERT_HEAD(tls, entry, next);
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// insert the new entry at the end of the list. this is important because
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// a destructor may call pthread_setspecific() to add a new non-NULL value
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// to the list, and this should be processed after all other entries.
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//
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// See pthread_local_storage_thread_deleted_callback()
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value_entry_t *last_entry = NULL;
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value_entry_t *it;
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SLIST_FOREACH(it, tls, next) {
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last_entry = it;
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}
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if (last_entry == NULL) {
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SLIST_INSERT_HEAD(tls, entry, next);
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} else {
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SLIST_INSERT_AFTER(last_entry, entry, next);
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}
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}
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return 0;
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@ -162,3 +162,90 @@ TEST_CASE("pthread local storage stress test", "[pthread]")
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TEST_ASSERT_EQUAL(0, pthread_join(threads[i], NULL));
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}
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}
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#define NUM_KEYS 4 // number of keys used in repeat destructor test
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#define NUM_REPEATS 17 // number of times we re-set a key to a non-NULL value to re-trigger destructor
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typedef struct {
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pthread_key_t keys[NUM_KEYS]; // pthread local storage keys used in test
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unsigned count; // number of times the destructor has been called
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int last_idx; // index of last key where destructor was called
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} destr_test_state_t;
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static void s_test_repeat_destructor(void *vp_state);
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static void *s_test_repeat_destructor_thread(void *vp_state);
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// Test the correct behaviour of a pthread destructor function that uses
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// pthread_setspecific() to set another value when it runs, and also
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//
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// As described in https://pubs.opengroup.org/onlinepubs/009695399/functions/pthread_key_create.html
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TEST_CASE("pthread local storage 'repeat' destructor test", "[pthread]")
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{
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int r;
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destr_test_state_t state = { .last_idx = -1 };
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pthread_t thread;
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for (int i = 0; i < NUM_KEYS; i++) {
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r = pthread_key_create(&state.keys[i], s_test_repeat_destructor);
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TEST_ASSERT_EQUAL(0, r);
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}
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r = pthread_create(&thread, NULL, s_test_repeat_destructor_thread, &state);
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TEST_ASSERT_EQUAL(0, r);
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r = pthread_join(thread, NULL);
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TEST_ASSERT_EQUAL(0 ,r);
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// Cheating here to make sure compiler reads the value of 'count' from memory not from a register
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//
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// We expect the destructor was called NUM_REPEATS times when it repeated, then NUM_KEYS times when it didn't
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TEST_ASSERT_EQUAL(NUM_REPEATS + NUM_KEYS, ((volatile destr_test_state_t)state).count);
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// cleanup
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for (int i = 0; i < NUM_KEYS; i++) {
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r = pthread_key_delete(state.keys[i]);
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TEST_ASSERT_EQUAL(0, r);
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}
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}
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static void s_test_repeat_destructor(void *vp_state)
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{
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destr_test_state_t *state = vp_state;
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state->count++;
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printf("Destructor! Arg %p Count %d\n", state, state->count);
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if (state->count > NUM_REPEATS) {
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return; // Stop replacing values after NUM_REPEATS destructors have been called, they will be NULLed out now
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}
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// Find the key which has a NULL value, this is the key for this destructor. We will set it back to 'state' to repeat later.
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// At this point only one key should have a NULL value
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int null_idx = -1;
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for (int i = 0; i < NUM_KEYS; i++) {
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if (pthread_getspecific(state->keys[i]) == NULL) {
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TEST_ASSERT_EQUAL(-1, null_idx); // If more than one key has a NULL value, something has gone wrong
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null_idx = i;
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// don't break, verify the other keys have non-NULL values
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}
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}
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TEST_ASSERT_NOT_EQUAL(-1, null_idx); // One key should have a NULL value
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// The same key shouldn't be destroyed twice in a row, as new non-NULL values should be destroyed
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// after existing non-NULL values (to match spec behaviour)
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TEST_ASSERT_NOT_EQUAL(null_idx, state->last_idx);
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printf("Re-setting index %d\n", null_idx);
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pthread_setspecific(state->keys[null_idx], state);
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state->last_idx = null_idx;
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}
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static void *s_test_repeat_destructor_thread(void *vp_state)
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{
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destr_test_state_t *state = vp_state;
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for (int i = 0; i < NUM_KEYS; i++) {
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pthread_setspecific(state->keys[i], state);
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}
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pthread_exit(NULL);
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}
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