/* * Copyright 2019 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include #include #include "crypto/cryptlib.h" #include "prov/providercommon.h" #include "internal/thread_once.h" #ifdef FIPS_MODE /* * Thread aware code may want to be told about thread stop events. We register * to hear about those thread stop events when we see a new thread has started. * We call the ossl_init_thread_start function to do that. In the FIPS provider * we have our own copy of ossl_init_thread_start, which cascades notifications * about threads stopping from libcrypto to all the code in the FIPS provider * that needs to know about it. * * The FIPS provider tells libcrypto about which threads it is interested in * by calling "c_thread_start" which is a function pointer created during * provider initialisation (i.e. OSSL_init_provider). */ extern OSSL_core_thread_start_fn *c_thread_start; #endif typedef struct thread_event_handler_st THREAD_EVENT_HANDLER; struct thread_event_handler_st { const void *index; void *arg; OSSL_thread_stop_handler_fn handfn; THREAD_EVENT_HANDLER *next; }; #ifndef FIPS_MODE DEFINE_SPECIAL_STACK_OF(THREAD_EVENT_HANDLER_PTR, THREAD_EVENT_HANDLER *) typedef struct global_tevent_register_st GLOBAL_TEVENT_REGISTER; struct global_tevent_register_st { STACK_OF(THREAD_EVENT_HANDLER_PTR) *skhands; CRYPTO_RWLOCK *lock; }; static GLOBAL_TEVENT_REGISTER *glob_tevent_reg = NULL; static CRYPTO_ONCE tevent_register_runonce = CRYPTO_ONCE_STATIC_INIT; DEFINE_RUN_ONCE_STATIC(create_global_tevent_register) { glob_tevent_reg = OPENSSL_zalloc(sizeof(*glob_tevent_reg)); if (glob_tevent_reg == NULL) return 0; glob_tevent_reg->skhands = sk_THREAD_EVENT_HANDLER_PTR_new_null(); glob_tevent_reg->lock = CRYPTO_THREAD_lock_new(); if (glob_tevent_reg->skhands == NULL || glob_tevent_reg->lock == NULL) { sk_THREAD_EVENT_HANDLER_PTR_free(glob_tevent_reg->skhands); CRYPTO_THREAD_lock_free(glob_tevent_reg->lock); OPENSSL_free(glob_tevent_reg); glob_tevent_reg = NULL; return 0; } return 1; } static GLOBAL_TEVENT_REGISTER *get_global_tevent_register(void) { if (!RUN_ONCE(&tevent_register_runonce, create_global_tevent_register)) return NULL; return glob_tevent_reg; } #endif #ifndef FIPS_MODE static int init_thread_push_handlers(THREAD_EVENT_HANDLER **hands); static void init_thread_remove_handlers(THREAD_EVENT_HANDLER **handsin); static void init_thread_destructor(void *hands); static int init_thread_deregister(void *arg, int all); #endif static void init_thread_stop(void *arg, THREAD_EVENT_HANDLER **hands); static THREAD_EVENT_HANDLER ** init_get_thread_local(CRYPTO_THREAD_LOCAL *local, int alloc, int keep) { THREAD_EVENT_HANDLER **hands = CRYPTO_THREAD_get_local(local); if (alloc) { if (hands == NULL) { if ((hands = OPENSSL_zalloc(sizeof(*hands))) == NULL) return NULL; if (!CRYPTO_THREAD_set_local(local, hands)) { OPENSSL_free(hands); return NULL; } #ifndef FIPS_MODE if (!init_thread_push_handlers(hands)) { CRYPTO_THREAD_set_local(local, NULL); OPENSSL_free(hands); return NULL; } #endif } } else if (!keep) { CRYPTO_THREAD_set_local(local, NULL); } return hands; } #ifndef FIPS_MODE /* * Since per-thread-specific-data destructors are not universally * available, i.e. not on Windows, only below CRYPTO_THREAD_LOCAL key * is assumed to have destructor associated. And then an effort is made * to call this single destructor on non-pthread platform[s]. * * Initial value is "impossible". It is used as guard value to shortcut * destructor for threads terminating before libcrypto is initialized or * after it's de-initialized. Access to the key doesn't have to be * serialized for the said threads, because they didn't use libcrypto * and it doesn't matter if they pick "impossible" or dereference real * key value and pull NULL past initialization in the first thread that * intends to use libcrypto. */ static union { long sane; CRYPTO_THREAD_LOCAL value; } destructor_key = { -1 }; /* * The thread event handler list is a thread specific linked list * of callback functions which are invoked in list order by the * current thread in case of certain events. (Currently, there is * only one type of event, the 'thread stop' event.) * * We also keep a global reference to that linked list, so that we * can deregister handlers if necessary before all the threads are * stopped. */ static int init_thread_push_handlers(THREAD_EVENT_HANDLER **hands) { int ret; GLOBAL_TEVENT_REGISTER *gtr; gtr = get_global_tevent_register(); if (gtr == NULL) return 0; CRYPTO_THREAD_write_lock(gtr->lock); ret = (sk_THREAD_EVENT_HANDLER_PTR_push(gtr->skhands, hands) != 0); CRYPTO_THREAD_unlock(gtr->lock); return ret; } static void init_thread_remove_handlers(THREAD_EVENT_HANDLER **handsin) { GLOBAL_TEVENT_REGISTER *gtr; int i; gtr = get_global_tevent_register(); if (gtr == NULL) return; CRYPTO_THREAD_write_lock(gtr->lock); for (i = 0; i < sk_THREAD_EVENT_HANDLER_PTR_num(gtr->skhands); i++) { THREAD_EVENT_HANDLER **hands = sk_THREAD_EVENT_HANDLER_PTR_value(gtr->skhands, i); if (hands == handsin) { hands = sk_THREAD_EVENT_HANDLER_PTR_delete(gtr->skhands, i); CRYPTO_THREAD_unlock(gtr->lock); return; } } CRYPTO_THREAD_unlock(gtr->lock); return; } static void init_thread_destructor(void *hands) { init_thread_stop(NULL, (THREAD_EVENT_HANDLER **)hands); init_thread_remove_handlers(hands); OPENSSL_free(hands); } int ossl_init_thread(void) { if (!CRYPTO_THREAD_init_local(&destructor_key.value, init_thread_destructor)) return 0; return 1; } void ossl_cleanup_thread(void) { init_thread_deregister(NULL, 1); CRYPTO_THREAD_cleanup_local(&destructor_key.value); destructor_key.sane = -1; } void OPENSSL_thread_stop_ex(OPENSSL_CTX *ctx) { ctx = openssl_ctx_get_concrete(ctx); /* * TODO(3.0). It would be nice if we could figure out a way to do this on * all threads that have used the OPENSSL_CTX when the OPENSSL_CTX is freed. * This is currently not possible due to the use of thread local variables. */ ossl_ctx_thread_stop(ctx); } void OPENSSL_thread_stop(void) { if (destructor_key.sane != -1) { THREAD_EVENT_HANDLER **hands = init_get_thread_local(&destructor_key.value, 0, 0); init_thread_stop(NULL, hands); init_thread_remove_handlers(hands); OPENSSL_free(hands); } } void ossl_ctx_thread_stop(void *arg) { if (destructor_key.sane != -1) { THREAD_EVENT_HANDLER **hands = init_get_thread_local(&destructor_key.value, 0, 1); init_thread_stop(arg, hands); } } #else static void *thread_event_ossl_ctx_new(OPENSSL_CTX *libctx) { THREAD_EVENT_HANDLER **hands = NULL; CRYPTO_THREAD_LOCAL *tlocal = OPENSSL_zalloc(sizeof(*tlocal)); if (tlocal == NULL) return NULL; if (!CRYPTO_THREAD_init_local(tlocal, NULL)) { goto err; } hands = OPENSSL_zalloc(sizeof(*hands)); if (hands == NULL) goto err; if (!CRYPTO_THREAD_set_local(tlocal, hands)) goto err; return tlocal; err: OPENSSL_free(hands); OPENSSL_free(tlocal); return NULL; } static void thread_event_ossl_ctx_free(void *tlocal) { OPENSSL_free(tlocal); } static const OPENSSL_CTX_METHOD thread_event_ossl_ctx_method = { thread_event_ossl_ctx_new, thread_event_ossl_ctx_free, }; void ossl_ctx_thread_stop(void *arg) { THREAD_EVENT_HANDLER **hands; OPENSSL_CTX *ctx = arg; CRYPTO_THREAD_LOCAL *local = openssl_ctx_get_data(ctx, OPENSSL_CTX_THREAD_EVENT_HANDLER_INDEX, &thread_event_ossl_ctx_method); if (local == NULL) return; hands = init_get_thread_local(local, 0, 0); init_thread_stop(arg, hands); OPENSSL_free(hands); } #endif /* FIPS_MODE */ static void init_thread_stop(void *arg, THREAD_EVENT_HANDLER **hands) { THREAD_EVENT_HANDLER *curr, *prev = NULL; /* Can't do much about this */ if (hands == NULL) return; curr = *hands; while (curr != NULL) { if (arg != NULL && curr->arg != arg) { curr = curr->next; continue; } curr->handfn(curr->arg); prev = curr; curr = curr->next; if (prev == *hands) *hands = curr; OPENSSL_free(prev); } } int ossl_init_thread_start(const void *index, void *arg, OSSL_thread_stop_handler_fn handfn) { THREAD_EVENT_HANDLER **hands; THREAD_EVENT_HANDLER *hand; #ifdef FIPS_MODE OPENSSL_CTX *ctx = arg; /* * In FIPS mode the list of THREAD_EVENT_HANDLERs is unique per combination * of OPENSSL_CTX and thread. This is because in FIPS mode each OPENSSL_CTX * gets informed about thread stop events individually. */ CRYPTO_THREAD_LOCAL *local = openssl_ctx_get_data(ctx, OPENSSL_CTX_THREAD_EVENT_HANDLER_INDEX, &thread_event_ossl_ctx_method); #else /* * Outside of FIPS mode the list of THREAD_EVENT_HANDLERs is unique per * thread, but may hold multiple OPENSSL_CTXs. We only get told about * thread stop events globally, so we have to ensure all affected * OPENSSL_CTXs are informed. */ CRYPTO_THREAD_LOCAL *local = &destructor_key.value; #endif hands = init_get_thread_local(local, 1, 0); if (hands == NULL) return 0; #ifdef FIPS_MODE if (*hands == NULL) { /* * We've not yet registered any handlers for this thread. We need to get * libcrypto to tell us about later thread stop events. c_thread_start * is a callback to libcrypto defined in fipsprov.c */ if (!c_thread_start(FIPS_get_provider(ctx), ossl_ctx_thread_stop)) return 0; } #endif hand = OPENSSL_malloc(sizeof(*hand)); if (hand == NULL) return 0; hand->handfn = handfn; hand->arg = arg; hand->index = index; hand->next = *hands; *hands = hand; return 1; } #ifndef FIPS_MODE static int init_thread_deregister(void *index, int all) { GLOBAL_TEVENT_REGISTER *gtr; int i; gtr = get_global_tevent_register(); if (!all) CRYPTO_THREAD_write_lock(gtr->lock); for (i = 0; i < sk_THREAD_EVENT_HANDLER_PTR_num(gtr->skhands); i++) { THREAD_EVENT_HANDLER **hands = sk_THREAD_EVENT_HANDLER_PTR_value(gtr->skhands, i); THREAD_EVENT_HANDLER *curr = *hands, *prev = NULL, *tmp; if (hands == NULL) { if (!all) CRYPTO_THREAD_unlock(gtr->lock); return 0; } while (curr != NULL) { if (all || curr->index == index) { if (prev != NULL) prev->next = curr->next; else *hands = curr->next; tmp = curr; curr = curr->next; OPENSSL_free(tmp); continue; } prev = curr; curr = curr->next; } if (all) OPENSSL_free(hands); } if (all) { CRYPTO_THREAD_lock_free(gtr->lock); sk_THREAD_EVENT_HANDLER_PTR_free(gtr->skhands); OPENSSL_free(gtr); } else { CRYPTO_THREAD_unlock(gtr->lock); } return 1; } int ossl_init_thread_deregister(void *index) { return init_thread_deregister(index, 0); } #endif