diff options
-rw-r--r-- | Makefile | 2 | ||||
-rw-r--r-- | core.c | 10 | ||||
-rw-r--r-- | hal_internal.h | 9 | ||||
-rw-r--r-- | ks_flash.c | 886 | ||||
-rw-r--r-- | ks_volatile.c | 240 | ||||
-rw-r--r-- | locks.c | 108 | ||||
-rw-r--r-- | rpc_misc.c | 20 | ||||
-rw-r--r-- | rpc_pkey.c | 18 |
8 files changed, 797 insertions, 496 deletions
@@ -75,7 +75,7 @@ endif # just "building this is harmless even if we don't use it." OBJ += errorstrings.o hash.o asn1.o ecdsa.o rsa.o xdr.o slip.o -OBJ += rpc_api.o rpc_hash.o uuid.o rpc_pkcs1.o crc32.o +OBJ += rpc_api.o rpc_hash.o uuid.o rpc_pkcs1.o crc32.o locks.o # Object files to build when we're on a platform with direct access # to our hardware (Verilog) cores. @@ -201,16 +201,6 @@ hal_core_t *hal_core_find(const char *name, hal_core_t *core) return NULL; } -__attribute__((weak)) void hal_critical_section_start(void) -{ - return; -} - -__attribute__((weak)) void hal_critical_section_end(void) -{ - return; -} - hal_error_t hal_core_alloc(const char *name, hal_core_t **pcore) { hal_core_t *core; diff --git a/hal_internal.h b/hal_internal.h index 69d9e67..40a600c 100644 --- a/hal_internal.h +++ b/hal_internal.h @@ -90,6 +90,15 @@ extern void *hal_allocate_static_memory(const size_t size); #define HAL_MAX_HASH_DIGEST_LENGTH SHA512_DIGEST_LEN /* + * Locks and critical sections. + */ + +extern void hal_critical_section_start(void); +extern void hal_critical_section_end(void); +extern void hal_ks_lock(void); +extern void hal_ks_unlock(void); + +/* * Dispatch structures for RPC implementation. * * The breakdown of which functions go into which dispatch vectors is @@ -565,6 +565,10 @@ static inline void *gnaw(uint8_t **mem, size_t *len, const size_t size) static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc) { + hal_error_t err = HAL_OK; + + hal_ks_lock(); + /* * Initialize the in-memory database. */ @@ -577,8 +581,10 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc uint8_t *mem = hal_allocate_static_memory(len); - if (mem == NULL) - return HAL_ERROR_ALLOCATION_FAILURE; + if (mem == NULL) { + err = HAL_ERROR_ALLOCATION_FAILURE; + goto done; + } memset(&db, 0, sizeof(db)); memset(mem, 0, len); @@ -597,8 +603,10 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc db.ksi.used = 0; - if (db.ksi.index == NULL || db.ksi.names == NULL || db.cache == NULL) - return HAL_ERROR_IMPOSSIBLE; + if (db.ksi.index == NULL || db.ksi.names == NULL || db.cache == NULL) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } for (int i = 0; i < KS_FLASH_CACHE_SIZE; i++) db.cache[i].blockno = ~0; @@ -613,11 +621,12 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc flash_block_status_t block_status[NUM_FLASH_BLOCKS]; flash_block_t *block = cache_pick_lru(); int first_erased = -1; - hal_error_t err; uint16_t n = 0; - if (block == NULL) - return HAL_ERROR_IMPOSSIBLE; + if (block == NULL) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } for (int i = 0; i < NUM_FLASH_BLOCKS; i++) { @@ -637,7 +646,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc block_types[i] = block_get_type(block); else - return err; + goto done; switch (block_types[i]) { case BLOCK_TYPE_KEY: @@ -718,7 +727,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc */ if ((err = hal_ks_index_setup(&db.ksi)) != HAL_OK) - return err; + goto done; /* * We might want to call hal_ks_index_fsck() here, if we can figure @@ -764,7 +773,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc int where = -1; if ((err = hal_ks_index_find_range(&db.ksi, &name, 0, &n_blocks, NULL, &where, 0)) != HAL_OK) - return err; + goto done; while (where > 0 && !hal_uuid_cmp(&name, &db.ksi.names[db.ksi.index[where - 1]].name)) { where--; @@ -778,9 +787,9 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc for (int j = 0; j < n_blocks; j++) { unsigned b = db.ksi.index[where + j]; switch (block_status[b]) { - case BLOCK_STATUS_LIVE: n_live++; break; - case BLOCK_STATUS_TOMBSTONE: n_tomb++; break; - default: return HAL_ERROR_IMPOSSIBLE; + case BLOCK_STATUS_LIVE: n_live++; break; + case BLOCK_STATUS_TOMBSTONE: n_tomb++; break; + default: err = HAL_ERROR_IMPOSSIBLE; goto done; } } @@ -790,7 +799,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc unsigned b = db.ksi.index[where + j]; if ((err = block_read(b, block)) != HAL_OK) - return err; + goto done; join_ok &= block->header.this_chunk == j && block->header.total_chunks == n_blocks; @@ -804,18 +813,21 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc tomb_ok &= block->header.this_chunk == i_tomb++ && block->header.total_chunks == n_tomb; break; default: - return HAL_ERROR_IMPOSSIBLE; + err = HAL_ERROR_IMPOSSIBLE; + goto done; } } - if (!live_ok && !tomb_ok && !join_ok) - return HAL_ERROR_KEYSTORE_LOST_DATA; + if (!live_ok && !tomb_ok && !join_ok) { + err = HAL_ERROR_KEYSTORE_LOST_DATA; + goto done; + } if (live_ok) { for (int j = 0; j < n_tomb; j++) { const unsigned b = tomb_blocks[j]; if ((err = block_zero(b)) != HAL_OK) - return err; + goto done; block_types[b] = BLOCK_TYPE_ZEROED; block_status[b] = BLOCK_STATUS_UNKNOWN; } @@ -825,7 +837,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc for (int j = 0; j < n_live; j++) { const unsigned b = live_blocks[j]; if ((err = block_zero(b)) != HAL_OK) - return err; + goto done; block_types[b] = BLOCK_TYPE_ZEROED; block_status[b] = BLOCK_STATUS_UNKNOWN; } @@ -855,11 +867,11 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc if (block_status[b1] != BLOCK_STATUS_TOMBSTONE) continue; if ((err = block_read(b1, block)) != HAL_OK) - return err; + goto done; block->header.block_status = BLOCK_STATUS_LIVE; if ((err = hal_ks_index_replace(&db.ksi, &name, j, &b2, &hint)) != HAL_OK || (err = block_write(b2, block)) != HAL_OK) - return err; + goto done; block_types[b1] = BLOCK_TYPE_ZEROED; block_status[b1] = BLOCK_STATUS_UNKNOWN; block_status[b2] = BLOCK_STATUS_LIVE; @@ -875,7 +887,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc } else if (err != HAL_ERROR_KEY_NOT_FOUND) - return err; + goto done; else { /* @@ -900,7 +912,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc block->pin.user_pin = db.user_pin; if ((err = hal_ks_index_add(&db.ksi, &pin_uuid, 0, &b, NULL)) != HAL_OK) - return err; + goto done; cache_mark_used(block, b); @@ -909,7 +921,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc cache_release(block); if (err != HAL_OK) - return err; + goto done; } /* @@ -918,7 +930,7 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc if (db.ksi.used < db.ksi.size && (err = block_erase_maybe(db.ksi.index[db.ksi.used])) != HAL_OK) - return err; + goto done; /* * And we're finally done. @@ -926,7 +938,11 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, const int alloc db.ks.driver = driver; - return HAL_OK; + err = HAL_OK; + + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_shutdown(const hal_ks_driver_t * const driver) @@ -974,18 +990,24 @@ static hal_error_t ks_store(hal_ks_t *ks, if (ks != &db.ks || slot == NULL || der == NULL || der_len == 0 || !acceptable_key_type(slot->type)) return HAL_ERROR_BAD_ARGUMENTS; - flash_block_t *block = cache_pick_lru(); - flash_key_block_t *k = &block->key; + hal_error_t err = HAL_OK; + flash_block_t *block; + flash_key_block_t *k; uint8_t kek[KEK_LENGTH]; size_t kek_len; - hal_error_t err; unsigned b; - if (block == NULL) - return HAL_ERROR_IMPOSSIBLE; + hal_ks_lock(); + + if ((block = cache_pick_lru()) == NULL) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } + + k = &block->key; if ((err = hal_ks_index_add(&db.ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + goto done; cache_mark_used(block, b); @@ -1008,13 +1030,18 @@ static hal_error_t ks_store(hal_ks_t *ks, memset(kek, 0, sizeof(kek)); - if (err == HAL_OK && - (err = block_write(b, block)) == HAL_OK) - return HAL_OK; + if (err == HAL_OK) + err = block_write(b, block); + + if (err == HAL_OK) + goto done; memset(block, 0, sizeof(*block)); cache_release(block); (void) hal_ks_index_delete(&db.ksi, &slot->name, 0, NULL, &slot->hint); + + done: + hal_ks_unlock(); return err; } @@ -1025,16 +1052,20 @@ static hal_error_t ks_fetch(hal_ks_t *ks, if (ks != &db.ks || slot == NULL) return HAL_ERROR_BAD_ARGUMENTS; + hal_error_t err = HAL_OK; flash_block_t *block; - hal_error_t err; unsigned b; + hal_ks_lock(); + if ((err = hal_ks_index_find(&db.ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK || (err = block_read_cached(b, &block)) != HAL_OK) - return err; + goto done; - if (block_get_type(block) != BLOCK_TYPE_KEY) - return HAL_ERROR_KEYSTORE_WRONG_BLOCK_TYPE; /* HAL_ERROR_KEY_NOT_FOUND */ + if (block_get_type(block) != BLOCK_TYPE_KEY) { + err = HAL_ERROR_KEYSTORE_WRONG_BLOCK_TYPE; /* HAL_ERROR_KEY_NOT_FOUND */ + goto done; + } cache_mark_used(block, b); @@ -1062,12 +1093,11 @@ static hal_error_t ks_fetch(hal_ks_t *ks, err = hal_aes_keyunwrap(NULL, kek, kek_len, k->der, k->der_len, der, der_len); memset(kek, 0, sizeof(kek)); - - if (err != HAL_OK) - return err; } - return HAL_OK; + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_delete(hal_ks_t *ks, @@ -1076,25 +1106,33 @@ static hal_error_t ks_delete(hal_ks_t *ks, if (ks != &db.ks || slot == NULL) return HAL_ERROR_BAD_ARGUMENTS; - hal_error_t err; + hal_error_t err = HAL_OK; unsigned n; - if ((err = hal_ks_index_delete_range(&db.ksi, &slot->name, 0, &n, NULL, &slot->hint)) != HAL_OK) - return err; + hal_ks_lock(); - unsigned b[n]; + { + if ((err = hal_ks_index_delete_range(&db.ksi, &slot->name, 0, &n, NULL, &slot->hint)) != HAL_OK) + goto done; - if ((err = hal_ks_index_delete_range(&db.ksi, &slot->name, n, NULL, b, &slot->hint)) != HAL_OK) - return err; + unsigned b[n]; - for (int i = 0; i < n; i++) - cache_release(cache_find_block(b[i])); + if ((err = hal_ks_index_delete_range(&db.ksi, &slot->name, n, NULL, b, &slot->hint)) != HAL_OK) + goto done; - for (int i = 0; i < n; i++) - if ((err = block_zero(b[i])) != HAL_OK) - return err; + for (int i = 0; i < n; i++) + cache_release(cache_find_block(b[i])); - return block_erase_maybe(db.ksi.index[db.ksi.used]); + for (int i = 0; i < n; i++) + if ((err = block_zero(b[i])) != HAL_OK) + goto done; + + err = block_erase_maybe(db.ksi.index[db.ksi.used]); + } + + done: + hal_ks_unlock(); + return err; } static inline hal_error_t locate_attributes(flash_block_t *block, const unsigned chunk, @@ -1141,11 +1179,13 @@ static hal_error_t ks_match(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; uint8_t need_attr[attributes_len > 0 ? attributes_len : 1]; + hal_error_t err = HAL_OK; flash_block_t *block; int possible = 0; - hal_error_t err; int i = -1; + hal_ks_lock(); + *result_len = 0; err = hal_ks_index_find(&db.ksi, previous_uuid, 0, NULL, &i); @@ -1153,7 +1193,7 @@ static hal_error_t ks_match(hal_ks_t *ks, if (err == HAL_ERROR_KEY_NOT_FOUND) i--; else if (err != HAL_OK) - return err; + goto done; while (*result_len < result_max && ++i < db.ksi.used) { @@ -1166,7 +1206,7 @@ static hal_error_t ks_match(hal_ks_t *ks, continue; if ((err = block_read_cached(b, &block)) != HAL_OK) - return err; + goto done; if (db.ksi.names[b].chunk == 0) { memset(need_attr, 1, sizeof(need_attr)); @@ -1184,13 +1224,13 @@ static hal_error_t ks_match(hal_ks_t *ks, if ((err = locate_attributes(block, db.ksi.names[b].chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) - return err; + goto done; if (*attrs_len > 0) { hal_pkey_attribute_t attrs[*attrs_len]; if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, NULL)) != HAL_OK) - return err; + goto done; for (int j = 0; possible && j < attributes_len; j++) { @@ -1220,7 +1260,11 @@ static hal_error_t ks_match(hal_ks_t *ks, possible = 0; } - return HAL_OK; + err = HAL_OK; + + done: + hal_ks_unlock(); + return err; } /* @@ -1259,419 +1303,451 @@ static hal_error_t ks_set_attributes(hal_ks_t *ks, */ unsigned updated_attributes_len = attributes_len; + hal_error_t err = HAL_OK; flash_block_t *block; unsigned chunk = 0; - hal_error_t err; unsigned b; - do { - int hint = slot->hint + chunk; + hal_ks_lock(); - if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || - (err = block_read_cached(b, &block)) != HAL_OK) - return err; + { - if (block->header.this_chunk != chunk) - return HAL_ERROR_IMPOSSIBLE; + do { + int hint = slot->hint + chunk; - cache_mark_used(block, b); + if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || + (err = block_read_cached(b, &block)) != HAL_OK) + goto done; - if (chunk == 0) - slot->hint = hint; + if (block->header.this_chunk != chunk) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - uint8_t *bytes = NULL; - size_t bytes_len = 0; - unsigned *attrs_len; + cache_mark_used(block, b); - if ((err = locate_attributes(block, chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) - return err; + if (chunk == 0) + slot->hint = hint; + + uint8_t *bytes = NULL; + size_t bytes_len = 0; + unsigned *attrs_len; + + if ((err = locate_attributes(block, chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) + goto done; - updated_attributes_len += *attrs_len; + updated_attributes_len += *attrs_len; #if KS_SET_ATTRIBUTES_SINGLE_BLOCK_UPDATE_FAST_PATH - hal_pkey_attribute_t attrs[*attrs_len + attributes_len]; - size_t total; + hal_pkey_attribute_t attrs[*attrs_len + attributes_len]; + size_t total; - if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, &total)) != HAL_OK) - return err; + if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, &total)) != HAL_OK) + goto done; - for (int i = 0; err == HAL_OK && i < attributes_len; i++) - if (attributes[i].length == HAL_PKEY_ATTRIBUTE_NIL) - err = hal_ks_attribute_delete(bytes, bytes_len, attrs, attrs_len, &total, - attributes[i].type); - else - err = hal_ks_attribute_insert(bytes, bytes_len, attrs, attrs_len, &total, - attributes[i].type, - attributes[i].value, - attributes[i].length); + for (int i = 0; err == HAL_OK && i < attributes_len; i++) + if (attributes[i].length == HAL_PKEY_ATTRIBUTE_NIL) + err = hal_ks_attribute_delete(bytes, bytes_len, attrs, attrs_len, &total, + attributes[i].type); + else + err = hal_ks_attribute_insert(bytes, bytes_len, attrs, attrs_len, &total, + attributes[i].type, + attributes[i].value, + attributes[i].length); - if (err != HAL_OK) - cache_release(block); + if (err != HAL_OK) + cache_release(block); - if (err == HAL_ERROR_RESULT_TOO_LONG) - continue; + if (err == HAL_ERROR_RESULT_TOO_LONG) + continue; - if (err != HAL_OK) - return err; + if (err == HAL_OK) + err = block_update(b, block, &slot->name, chunk, &hint); - return block_update(b, block, &slot->name, chunk, &hint); + goto done; #endif /* KS_SET_ATTRIBUTES_SINGLE_BLOCK_UPDATE_FAST_PATH */ - } while (++chunk < block->header.total_chunks); + } while (++chunk < block->header.total_chunks); - /* - * If we get here, we're on the slow path, which requires rewriting - * all the chunks in this object but which can also add or remove - * chunks from this object. We need to keep track of all the old - * chunks so we can zero them at the end, and because we can't zero - * them until we've written out the new chunks, we need enough free - * blocks to hold all the new chunks. - * - * Calculating all of this is extremely tedious, but flash writes - * are so much more expensive than anything else we do here that - * it's almost certainly worth it. - * - * We don't need the attribute values to compute the sizes, just the - * attribute sizes, so we scan all the existing blocks, build up a - * structure with the current attribute types and sizes, modify that - * according to our arguments, and compute the needed size. Once we - * have that, we can start rewriting existing blocks. We put all - * the new stuff at the end, which simplifies this slightly. - * - * In theory, this process never requires us to have more than two - * blocks in memory at the same time (source and destination when - * copying across chunk boundaries), but having enough cache buffers - * to keep the whole set in memory will almost certainly make this - * run faster. - */ + /* + * If we get here, we're on the slow path, which requires rewriting + * all the chunks in this object but which can also add or remove + * chunks from this object. We need to keep track of all the old + * chunks so we can zero them at the end, and because we can't zero + * them until we've written out the new chunks, we need enough free + * blocks to hold all the new chunks. + * + * Calculating all of this is extremely tedious, but flash writes + * are so much more expensive than anything else we do here that + * it's almost certainly worth it. + * + * We don't need the attribute values to compute the sizes, just the + * attribute sizes, so we scan all the existing blocks, build up a + * structure with the current attribute types and sizes, modify that + * according to our arguments, and compute the needed size. Once we + * have that, we can start rewriting existing blocks. We put all + * the new stuff at the end, which simplifies this slightly. + * + * In theory, this process never requires us to have more than two + * blocks in memory at the same time (source and destination when + * copying across chunk boundaries), but having enough cache buffers + * to keep the whole set in memory will almost certainly make this + * run faster. + */ - hal_pkey_attribute_t updated_attributes[updated_attributes_len]; - const unsigned total_chunks_old = block->header.total_chunks; - size_t bytes_available = 0; + hal_pkey_attribute_t updated_attributes[updated_attributes_len]; + const unsigned total_chunks_old = block->header.total_chunks; + size_t bytes_available = 0; - updated_attributes_len = 0; + updated_attributes_len = 0; - /* - * Phase 0.1: Walk the old chunks to populate updated_attributes[]. - * This also initializes bytes_available, since we can only get that - * by reading old chunk zero. - */ + /* + * Phase 0.1: Walk the old chunks to populate updated_attributes[]. + * This also initializes bytes_available, since we can only get that + * by reading old chunk zero. + */ - for (chunk = 0; chunk < total_chunks_old; chunk++) { - int hint = slot->hint + chunk; + for (chunk = 0; chunk < total_chunks_old; chunk++) { + int hint = slot->hint + chunk; - if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || - (err = block_read_cached(b, &block)) != HAL_OK) - return err; + if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || + (err = block_read_cached(b, &block)) != HAL_OK) + goto done; - if (block->header.this_chunk != chunk) - return HAL_ERROR_IMPOSSIBLE; + if (block->header.this_chunk != chunk) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - cache_mark_used(block, b); + cache_mark_used(block, b); - uint8_t *bytes = NULL; - size_t bytes_len = 0; - unsigned *attrs_len; + uint8_t *bytes = NULL; + size_t bytes_len = 0; + unsigned *attrs_len; - if ((err = locate_attributes(block, chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) - return err; + if ((err = locate_attributes(block, chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) + goto done; - hal_pkey_attribute_t attrs[*attrs_len]; - size_t total; + hal_pkey_attribute_t attrs[*attrs_len]; + size_t total; - if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, &total)) != HAL_OK) - return err; + if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, &total)) != HAL_OK) + goto done; - if (chunk == 0) - bytes_available = bytes_len; + if (chunk == 0) + bytes_available = bytes_len; - for (int i = 0; i < *attrs_len; i++) { + for (int i = 0; i < *attrs_len; i++) { - if (updated_attributes_len >= sizeof(updated_attributes)/sizeof(*updated_attributes)) - return HAL_ERROR_IMPOSSIBLE; + if (updated_attributes_len >= sizeof(updated_attributes)/sizeof(*updated_attributes)) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - updated_attributes[updated_attributes_len].type = attrs[i].type; - updated_attributes[updated_attributes_len].length = attrs[i].length; - updated_attributes[updated_attributes_len].value = NULL; - updated_attributes_len++; + updated_attributes[updated_attributes_len].type = attrs[i].type; + updated_attributes[updated_attributes_len].length = attrs[i].length; + updated_attributes[updated_attributes_len].value = NULL; + updated_attributes_len++; + } } - } - /* - * Phase 0.2: Merge new attributes into updated_attributes[]. - */ + /* + * Phase 0.2: Merge new attributes into updated_attributes[]. + */ - for (int i = 0; i < attributes_len; i++) { + for (int i = 0; i < attributes_len; i++) { - for (int j = 0; j < updated_attributes_len; j++) - if (updated_attributes[j].type == attributes[i].type) - updated_attributes[j].length = HAL_PKEY_ATTRIBUTE_NIL; + for (int j = 0; j < updated_attributes_len; j++) + if (updated_attributes[j].type == attributes[i].type) + updated_attributes[j].length = HAL_PKEY_ATTRIBUTE_NIL; - if (updated_attributes_len >= sizeof(updated_attributes)/sizeof(*updated_attributes)) - return HAL_ERROR_IMPOSSIBLE; + if (updated_attributes_len >= sizeof(updated_attributes)/sizeof(*updated_attributes)) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - updated_attributes[updated_attributes_len].type = attributes[i].type; - updated_attributes[updated_attributes_len].length = attributes[i].length; - updated_attributes[updated_attributes_len].value = attributes[i].value; - updated_attributes_len++; - } + updated_attributes[updated_attributes_len].type = attributes[i].type; + updated_attributes[updated_attributes_len].length = attributes[i].length; + updated_attributes[updated_attributes_len].value = attributes[i].value; + updated_attributes_len++; + } - /* - * Phase 0.3: Prune trailing deletion actions: we don't need them to - * maintain synchronization with existing attributes, and doing so - * simplifies logic for updating the final new chunk. - */ + /* + * Phase 0.3: Prune trailing deletion actions: we don't need them to + * maintain synchronization with existing attributes, and doing so + * simplifies logic for updating the final new chunk. + */ - while (updated_attributes_len > 0 && - updated_attributes[updated_attributes_len - 1].length == HAL_PKEY_ATTRIBUTE_NIL) - --updated_attributes_len; + while (updated_attributes_len > 0 && + updated_attributes[updated_attributes_len - 1].length == HAL_PKEY_ATTRIBUTE_NIL) + --updated_attributes_len; - /* - * Phase 0.4: Figure out how many chunks all this will occupy. - */ + /* + * Phase 0.4: Figure out how many chunks all this will occupy. + */ - chunk = 0; + chunk = 0; - for (int i = 0; i < updated_attributes_len; i++) { + for (int i = 0; i < updated_attributes_len; i++) { - if (updated_attributes[i].length == HAL_PKEY_ATTRIBUTE_NIL) - continue; + if (updated_attributes[i].length == HAL_PKEY_ATTRIBUTE_NIL) + continue; - const size_t needed = hal_ks_attribute_header_size + updated_attributes[i].length; + const size_t needed = hal_ks_attribute_header_size + updated_attributes[i].length; - if (needed > bytes_available) { - bytes_available = SIZEOF_FLASH_ATTRIBUTE_BLOCK_ATTRIBUTES; - chunk++; + if (needed > bytes_available) { + bytes_available = SIZEOF_FLASH_ATTRIBUTE_BLOCK_ATTRIBUTES; + chunk++; + } + + if (needed > bytes_available) { + err = HAL_ERROR_RESULT_TOO_LONG; + goto done; + } + + bytes_available -= needed; } - if (needed > bytes_available) - return HAL_ERROR_RESULT_TOO_LONG; + const unsigned total_chunks_new = chunk + 1; - bytes_available -= needed; - } + /* + * If there aren't enough free blocks, give up now, before changing anything. + */ - const unsigned total_chunks_new = chunk + 1; + if (db.ksi.used + total_chunks_new > db.ksi.size) { + err = HAL_ERROR_NO_KEY_INDEX_SLOTS; + goto done; + } - /* - * If there aren't enough free blocks, give up now, before changing anything. - */ + /* + * Phase 1: Deprecate all the old chunks, remember where they were. + */ - if (db.ksi.used + total_chunks_new > db.ksi.size) - return HAL_ERROR_NO_KEY_INDEX_SLOTS; + unsigned old_blocks[total_chunks_old]; - /* - * Phase 1: Deprecate all the old chunks, remember where they were. - */ + for (chunk = 0; chunk < total_chunks_old; chunk++) { + int hint = slot->hint + chunk; + if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || + (err = block_deprecate(b)) != HAL_OK) + goto done; + old_blocks[chunk] = b; + } - unsigned old_blocks[total_chunks_old]; + /* + * Phase 2: Write new chunks, copying attributes from old chunks or + * from attributes[], as needed. + */ - for (chunk = 0; chunk < total_chunks_old; chunk++) { - int hint = slot->hint + chunk; - if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || - (err = block_deprecate(b)) != HAL_OK) - return err; - old_blocks[chunk] = b; - } + { + hal_pkey_attribute_t old_attrs[updated_attributes_len], new_attrs[updated_attributes_len]; + unsigned *old_attrs_len = NULL, *new_attrs_len = NULL; + flash_block_t *old_block = NULL, *new_block = NULL; + uint8_t *old_bytes = NULL, *new_bytes = NULL; + size_t old_bytes_len = 0, new_bytes_len = 0; + unsigned old_chunk = 0, new_chunk = 0; + size_t old_total = 0, new_total = 0; - /* - * Phase 2: Write new chunks, copying attributes from old chunks or - * from attributes[], as needed. - */ + int updated_attributes_i = 0, old_attrs_i = 0; - { - hal_pkey_attribute_t old_attrs[updated_attributes_len], new_attrs[updated_attributes_len]; - unsigned *old_attrs_len = NULL, *new_attrs_len = NULL; - flash_block_t *old_block = NULL, *new_block = NULL; - uint8_t *old_bytes = NULL, *new_bytes = NULL; - size_t old_bytes_len = 0, new_bytes_len = 0; - unsigned old_chunk = 0, new_chunk = 0; - size_t old_total = 0, new_total = 0; + uint32_t new_attr_type; + size_t new_attr_length; + const uint8_t *new_attr_value; - int updated_attributes_i = 0, old_attrs_i = 0; + while (updated_attributes_i < updated_attributes_len) { - uint32_t new_attr_type; - size_t new_attr_length; - const uint8_t *new_attr_value; + if (old_chunk >= total_chunks_old || new_chunk >= total_chunks_new) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - while (updated_attributes_i < updated_attributes_len) { + /* + * If we've gotten as far as new data that comes from + * attributes[], we have it in hand and can just copy it. + */ - if (old_chunk >= total_chunks_old || new_chunk >= total_chunks_new) - return HAL_ERROR_IMPOSSIBLE; + if (updated_attributes_len - updated_attributes_i <= attributes_len) { + new_attr_type = updated_attributes[updated_attributes_i].type; + new_attr_length = updated_attributes[updated_attributes_i].length; + new_attr_value = updated_attributes[updated_attributes_i].value; + } - /* - * If we've gotten as far as new data that comes from - * attributes[], we have it in hand and can just copy it. - */ + /* + * Otherwise, we have to read it from an old block, which may in + * turn require reading in the next old block. + */ - if (updated_attributes_len - updated_attributes_i <= attributes_len) { - new_attr_type = updated_attributes[updated_attributes_i].type; - new_attr_length = updated_attributes[updated_attributes_i].length; - new_attr_value = updated_attributes[updated_attributes_i].value; - } + else { - /* - * Otherwise, we have to read it from an old block, which may in - * turn require reading in the next old block. - */ + if (old_block == NULL) { - else { + if ((err = block_read_cached(old_blocks[old_chunk], &old_block)) != HAL_OK) + goto done; - if (old_block == NULL) { + if (old_block->header.this_chunk != old_chunk) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } + + if ((err = locate_attributes(old_block, old_chunk, + &old_bytes, &old_bytes_len, &old_attrs_len)) != HAL_OK || + (err = hal_ks_attribute_scan(old_bytes, old_bytes_len, + old_attrs, *old_attrs_len, &old_total)) != HAL_OK) + goto done; + + old_attrs_i = 0; + } - if ((err = block_read_cached(old_blocks[old_chunk], &old_block)) != HAL_OK) - return err; + if (old_attrs_i >= *old_attrs_len) { + old_chunk++; + old_block = NULL; + continue; + } - if (old_block->header.this_chunk != old_chunk) - return HAL_ERROR_IMPOSSIBLE; + new_attr_type = old_attrs[old_attrs_i].type; + new_attr_length = old_attrs[old_attrs_i].length; + new_attr_value = old_attrs[old_attrs_i].value; - if ((err = locate_attributes(old_block, old_chunk, - &old_bytes, &old_bytes_len, &old_attrs_len)) != HAL_OK || - (err = hal_ks_attribute_scan(old_bytes, old_bytes_len, - old_attrs, *old_attrs_len, &old_total)) != HAL_OK) - return err; + if (new_attr_type != updated_attributes[updated_attributes_i].type) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } - old_attrs_i = 0; + old_attrs_i++; } - if (old_attrs_i >= *old_attrs_len) { - old_chunk++; - old_block = NULL; - continue; + /* + * Unless this is a deletion, we should have something to write. + */ + + if (new_attr_length != HAL_PKEY_ATTRIBUTE_NIL && new_attr_value == NULL) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; } - new_attr_type = old_attrs[old_attrs_i].type; - new_attr_length = old_attrs[old_attrs_i].length; - new_attr_value = old_attrs[old_attrs_i].value; + /* + * Initialize the new block if necessary. If it's the new chunk + * zero, we need to copy all the non-attribute data from the old + * chunk zero; otherwise, it's a new empty attribute block. + */ + + if (new_block == NULL) { + + new_block = cache_pick_lru(); + memset(new_block, 0xFF, sizeof(*new_block)); + + if (new_chunk == 0) { + flash_block_t *tmp_block; + if ((err = block_read_cached(old_blocks[0], &tmp_block)) != HAL_OK) + goto done; + if (tmp_block->header.this_chunk != 0) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } + new_block->header.block_type = BLOCK_TYPE_KEY; + new_block->key.name = slot->name; + new_block->key.type = tmp_block->key.type; + new_block->key.curve = tmp_block->key.curve; + new_block->key.flags = tmp_block->key.flags; + new_block->key.der_len = tmp_block->key.der_len; + new_block->key.attributes_len = 0; + memcpy(new_block->key.der, tmp_block->key.der, tmp_block->key.der_len); + } + else { + new_block->header.block_type = BLOCK_TYPE_ATTR; + new_block->attr.name = slot->name; + new_block->attr.attributes_len = 0; + } - if (new_attr_type != updated_attributes[updated_attributes_i].type) - return HAL_ERROR_IMPOSSIBLE; + new_block->header.block_status = BLOCK_STATUS_LIVE; + new_block->header.total_chunks = total_chunks_new; + new_block->header.this_chunk = new_chunk; - old_attrs_i++; - } + if ((err = locate_attributes(new_block, new_chunk, + &new_bytes, &new_bytes_len, &new_attrs_len)) != HAL_OK) + goto done; - /* - * Unless this is a deletion, we should have something to write. - */ + new_total = 0; + } - if (new_attr_length != HAL_PKEY_ATTRIBUTE_NIL && new_attr_value == NULL) - return HAL_ERROR_IMPOSSIBLE; + /* + * After all that setup, we finally get to write the frelling attribute. + */ - /* - * Initialize the new block if necessary. If it's the new chunk - * zero, we need to copy all the non-attribute data from the old - * chunk zero; otherwise, it's a new empty attribute block. - */ + if (new_attr_length != HAL_PKEY_ATTRIBUTE_NIL) + err = hal_ks_attribute_insert(new_bytes, new_bytes_len, new_attrs, new_attrs_len, &new_total, + new_attr_type, new_attr_value, new_attr_length); - if (new_block == NULL) { - - new_block = cache_pick_lru(); - memset(new_block, 0xFF, sizeof(*new_block)); - - if (new_chunk == 0) { - flash_block_t *tmp_block; - if ((err = block_read_cached(old_blocks[0], &tmp_block)) != HAL_OK) - return err; - if (tmp_block->header.this_chunk != 0) - return HAL_ERROR_IMPOSSIBLE; - new_block->header.block_type = BLOCK_TYPE_KEY; - new_block->key.name = slot->name; - new_block->key.type = tmp_block->key.type; - new_block->key.curve = tmp_block->key.curve; - new_block->key.flags = tmp_block->key.flags; - new_block->key.der_len = tmp_block->key.der_len; - new_block->key.attributes_len = 0; - memcpy(new_block->key.der, tmp_block->key.der, tmp_block->key.der_len); - } - else { - new_block->header.block_type = BLOCK_TYPE_ATTR; - new_block->attr.name = slot->name; - new_block->attr.attributes_len = 0; + /* + * Figure out what to do next: immediately loop for next + * attribute, write current block, or bail out. + */ + + switch (err) { + case HAL_OK: + if (++updated_attributes_i < updated_attributes_len) + continue; + break; + case HAL_ERROR_RESULT_TOO_LONG: + if (new_chunk > 0 && new_attrs_len == 0) + goto done; + break; + default: + goto done; } - new_block->header.block_status = BLOCK_STATUS_LIVE; - new_block->header.total_chunks = total_chunks_new; - new_block->header.this_chunk = new_chunk; + /* + * If we get here, either the current new block is full or we + * finished the last block, so we need to write it out. + */ - if ((err = locate_attributes(new_block, new_chunk, - &new_bytes, &new_bytes_len, &new_attrs_len)) != HAL_OK) - return err; + int hint = slot->hint + new_chunk; - new_total = 0; - } + if (new_chunk < total_chunks_old) + err = hal_ks_index_replace(&db.ksi, &slot->name, new_chunk, &b, &hint); + else + err = hal_ks_index_add( &db.ksi, &slot->name, new_chunk, &b, &hint); - /* - * After all that setup, we finally get to write the frelling attribute. - */ - - if (new_attr_length != HAL_PKEY_ATTRIBUTE_NIL) - err = hal_ks_attribute_insert(new_bytes, new_bytes_len, new_attrs, new_attrs_len, &new_total, - new_attr_type, new_attr_value, new_attr_length); + if (err != HAL_OK || (err = block_write(b, new_block)) != HAL_OK) + goto done; - /* - * Figure out what to do next: immediately loop for next - * attribute, write current block, or bail out. - */ + cache_mark_used(new_block, b); - switch (err) { - case HAL_OK: - if (++updated_attributes_i < updated_attributes_len) - continue; - break; - case HAL_ERROR_RESULT_TOO_LONG: - if (new_chunk > 0 && new_attrs_len == 0) - return err; - break; - default: - return err; + new_block = NULL; + new_chunk++; } /* - * If we get here, either the current new block is full or we - * finished the last block, so we need to write it out. + * If number of blocks shrank, we need to clear trailing entries from the index. */ - int hint = slot->hint + new_chunk; + for (old_chunk = total_chunks_new; old_chunk < total_chunks_old; old_chunk++) { + int hint = slot->hint + old_chunk; - if (new_chunk < total_chunks_old) - err = hal_ks_index_replace(&db.ksi, &slot->name, new_chunk, &b, &hint); - else - err = hal_ks_index_add( &db.ksi, &slot->name, new_chunk, &b, &hint); + err = hal_ks_index_delete(&db.ksi, &slot->name, old_chunk, NULL, &hint); - if (err != HAL_OK || (err = block_write(b, new_block)) != HAL_OK) - return err; - - cache_mark_used(new_block, b); + if (err != HAL_OK) + goto done; + } - new_block = NULL; - new_chunk++; } /* - * If number of blocks shrank, we need to clear trailing entries from the index. + * Phase 3: Zero the old chunks we deprecated in phase 1. */ - for (old_chunk = total_chunks_new; old_chunk < total_chunks_old; old_chunk++) { - int hint = slot->hint + old_chunk; - - err = hal_ks_index_delete(&db.ksi, &slot->name, old_chunk, NULL, &hint); + for (chunk = 0; chunk < total_chunks_old; chunk++) + if ((err = block_zero(old_blocks[chunk])) != HAL_OK) + goto done; - if (err != HAL_OK) - return err; - } + err = HAL_OK; } - /* - * Phase 3: Zero the old chunks we deprecated in phase 1. - */ - - for (chunk = 0; chunk < total_chunks_old; chunk++) - if ((err = block_zero(old_blocks[chunk])) != HAL_OK) - return err; - - return HAL_OK; + done: + hal_ks_unlock(); + return err; #warning What happens if something goes wrong partway through this awful mess? // We're left in a state with all the old blocks deprecated and @@ -1700,18 +1776,22 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, flash_block_t *block = NULL; unsigned chunk = 0; unsigned found = 0; - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; + hal_ks_lock(); + do { int hint = slot->hint + chunk; if ((err = hal_ks_index_find(&db.ksi, &slot->name, chunk, &b, &hint)) != HAL_OK || (err = block_read_cached(b, &block)) != HAL_OK) - return err; + goto done; - if (block->header.this_chunk != chunk) - return HAL_ERROR_IMPOSSIBLE; + if (block->header.this_chunk != chunk) { + err = HAL_ERROR_IMPOSSIBLE; + goto done; + } if (chunk == 0) slot->hint = hint; @@ -1723,7 +1803,7 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, unsigned *attrs_len; if ((err = locate_attributes(block, chunk, &bytes, &bytes_len, &attrs_len)) != HAL_OK) - return err; + goto done; if (*attrs_len == 0) continue; @@ -1731,7 +1811,7 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, hal_pkey_attribute_t attrs[*attrs_len]; if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, *attrs_len, NULL)) != HAL_OK) - return err; + goto done; for (int i = 0; i < attributes_len; i++) { @@ -1750,8 +1830,10 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, if (attributes_buffer_len == 0) continue; - if (attrs[j].length > attributes_buffer + attributes_buffer_len - abuf) - return HAL_ERROR_RESULT_TOO_LONG; + if (attrs[j].length > attributes_buffer + attributes_buffer_len - abuf) { + err = HAL_ERROR_RESULT_TOO_LONG; + goto done; + } memcpy(abuf, attrs[j].value, attrs[j].length); attributes[i].value = abuf; @@ -1761,9 +1843,13 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, } while (found < attributes_len && ++chunk < block->header.total_chunks); if (found < attributes_len && attributes_buffer_len > 0) - return HAL_ERROR_ATTRIBUTE_NOT_FOUND; + err = HAL_ERROR_ATTRIBUTE_NOT_FOUND; + else + err = HAL_OK; - return HAL_OK; + done: + hal_ks_unlock(); + return err; } const hal_ks_driver_t hal_ks_token_driver[1] = {{ @@ -1799,6 +1885,8 @@ void hal_ks_init_read_only_pins_only(void) unsigned b, best_seen = ~0; flash_block_t block[1]; + hal_ks_lock(); + for (b = 0; b < NUM_FLASH_BLOCKS; b++) { if (block_read(b, block) != HAL_OK || block_get_type(block) != BLOCK_TYPE_PIN) continue; @@ -1818,6 +1906,8 @@ void hal_ks_init_read_only_pins_only(void) db.wheel_pin = block->pin.wheel_pin; db.so_pin = block->pin.so_pin; db.user_pin = block->pin.user_pin; + + hal_ks_unlock(); } /* @@ -1830,14 +1920,20 @@ hal_error_t hal_get_pin(const hal_user_t user, if (pin == NULL) return HAL_ERROR_BAD_ARGUMENTS; + hal_error_t err = HAL_OK; + + hal_ks_lock(); + switch (user) { case HAL_USER_WHEEL: *pin = &db.wheel_pin; break; case HAL_USER_SO: *pin = &db.so_pin; break; case HAL_USER_NORMAL: *pin = &db.user_pin; break; - default: return HAL_ERROR_BAD_ARGUMENTS; + default: err = HAL_ERROR_BAD_ARGUMENTS; } - return HAL_OK; + hal_ks_unlock(); + + return err; } /* @@ -1904,8 +2000,10 @@ hal_error_t hal_set_pin(const hal_user_t user, hal_error_t err; unsigned b; + hal_ks_lock(); + if ((err = fetch_pin_block(&b, &block)) != HAL_OK) - return err; + goto done; flash_pin_block_t new_data = block->pin; hal_ks_pin_t *dp, *bp; @@ -1914,7 +2012,7 @@ hal_error_t hal_set_pin(const hal_user_t user, case HAL_USER_WHEEL: bp = &new_data.wheel_pin; dp = &db.wheel_pin; break; case HAL_USER_SO: bp = &new_data.so_pin; dp = &db.so_pin; break; case HAL_USER_NORMAL: bp = &new_data.user_pin; dp = &db.user_pin; break; - default: return HAL_ERROR_BAD_ARGUMENTS; + default: err = HAL_ERROR_BAD_ARGUMENTS; goto done; } const hal_ks_pin_t old_pin = *dp; @@ -1923,6 +2021,8 @@ hal_error_t hal_set_pin(const hal_user_t user, if ((err = update_pin_block(b, block, &new_data)) != HAL_OK) *dp = old_pin; + done: + hal_ks_unlock(); return err; } @@ -1951,16 +2051,20 @@ hal_error_t hal_mkm_flash_read(uint8_t *buf, const size_t len) hal_error_t err; unsigned b; + hal_ks_lock(); + if ((err = fetch_pin_block(&b, &block)) != HAL_OK) - return err; + goto done; if (block->pin.kek_set != FLASH_KEK_SET) - return HAL_ERROR_MASTERKEY_NOT_SET; + err = HAL_ERROR_MASTERKEY_NOT_SET; - if (buf != NULL) + else if (buf != NULL) memcpy(buf, block->pin.kek, len); - return HAL_OK; + done: + hal_ks_unlock(); + return err; } hal_error_t hal_mkm_flash_write(const uint8_t * const buf, const size_t len) @@ -1975,15 +2079,21 @@ hal_error_t hal_mkm_flash_write(const uint8_t * const buf, const size_t len) hal_error_t err; unsigned b; + hal_ks_lock(); + if ((err = fetch_pin_block(&b, &block)) != HAL_OK) - return err; + goto done; flash_pin_block_t new_data = block->pin; new_data.kek_set = FLASH_KEK_SET; memcpy(new_data.kek, buf, len); - return update_pin_block(b, block, &new_data); + err = update_pin_block(b, block, &new_data); + + done: + hal_ks_unlock(); + return err; } hal_error_t hal_mkm_flash_erase(const size_t len) @@ -1995,15 +2105,21 @@ hal_error_t hal_mkm_flash_erase(const size_t len) hal_error_t err; unsigned b; + hal_ks_lock(); + if ((err = fetch_pin_block(&b, &block)) != HAL_OK) - return err; + goto done; flash_pin_block_t new_data = block->pin; new_data.kek_set = FLASH_KEK_SET; memset(new_data.kek, 0, len); - return update_pin_block(b, block, &new_data); + err = update_pin_block(b, block, &new_data); + + done: + hal_ks_unlock(); + return err; } #endif /* HAL_MKM_FLASH_BACKUP_KLUDGE */ diff --git a/ks_volatile.c b/ks_volatile.c index 99ad68c..9762da3 100644 --- a/ks_volatile.c +++ b/ks_volatile.c @@ -187,6 +187,10 @@ static hal_error_t ks_init(const hal_ks_driver_t * const driver, static hal_error_t ks_volatile_init(const hal_ks_driver_t * const driver, const int alloc) { + hal_error_t err = HAL_OK; + + hal_ks_lock(); + const size_t len = (sizeof(*volatile_ks.db) + sizeof(*volatile_ks.db->ksi.index) * STATIC_KS_VOLATILE_SLOTS + sizeof(*volatile_ks.db->ksi.names) * STATIC_KS_VOLATILE_SLOTS + @@ -195,9 +199,12 @@ static hal_error_t ks_volatile_init(const hal_ks_driver_t * const driver, const uint8_t *mem = NULL; if (alloc && (mem = hal_allocate_static_memory(len)) == NULL) - return HAL_ERROR_ALLOCATION_FAILURE; + err = HAL_ERROR_ALLOCATION_FAILURE; + else + err = ks_init(driver, 1, &volatile_ks, mem, len); - return ks_init(driver, 1, &volatile_ks, mem, len); + hal_ks_unlock(); + return err; } static hal_error_t ks_volatile_shutdown(const hal_ks_driver_t * const driver) @@ -241,14 +248,18 @@ static hal_error_t ks_store(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; ks_t *ksv = ks_to_ksv(ks); - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; - if (ksv->db == NULL) - return HAL_ERROR_KEYSTORE_ACCESS; + hal_ks_lock(); + + if (ksv->db == NULL) { + err = HAL_ERROR_KEYSTORE_ACCESS; + goto done; + } if ((err = hal_ks_index_add(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + goto done; uint8_t kek[KEK_LENGTH]; size_t kek_len; @@ -272,6 +283,8 @@ static hal_error_t ks_store(hal_ks_t *ks, else (void) hal_ks_index_delete(&ksv->db->ksi, &slot->name, 0, NULL, &slot->hint); + done: + hal_ks_unlock(); return err; } @@ -283,19 +296,25 @@ static hal_error_t ks_fetch(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; ks_t *ksv = ks_to_ksv(ks); - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; - if (ksv->db == NULL) - return HAL_ERROR_KEYSTORE_ACCESS; + hal_ks_lock(); + + if (ksv->db == NULL) { + err = HAL_ERROR_KEYSTORE_ACCESS; + goto done; + } if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + goto done; const ks_key_t * const k = &ksv->db->keys[b]; - if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) - return HAL_ERROR_KEY_NOT_FOUND; + if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) { + err = HAL_ERROR_KEY_NOT_FOUND; + goto done; + } slot->type = k->type; slot->curve = k->curve; @@ -319,12 +338,11 @@ static hal_error_t ks_fetch(hal_ks_t *ks, err = hal_aes_keyunwrap(NULL, kek, kek_len, k->der, k->der_len, der, der_len); memset(kek, 0, sizeof(kek)); - - if (err != HAL_OK) - return err; } - return HAL_OK; + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_delete(hal_ks_t *ks, @@ -334,24 +352,32 @@ static hal_error_t ks_delete(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; ks_t *ksv = ks_to_ksv(ks); - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; - if (ksv->db == NULL) - return HAL_ERROR_KEYSTORE_ACCESS; + hal_ks_lock(); + + if (ksv->db == NULL) { + err = HAL_ERROR_KEYSTORE_ACCESS; + goto done; + } if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + goto done; - if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, &ksv->db->keys[b])) - return HAL_ERROR_KEY_NOT_FOUND; + if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, &ksv->db->keys[b])) { + err = HAL_ERROR_KEY_NOT_FOUND; + goto done; + } if ((err = hal_ks_index_delete(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + goto done; memset(&ksv->db->keys[b], 0, sizeof(ksv->db->keys[b])); - return HAL_OK; + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_match(hal_ks_t *ks, @@ -376,9 +402,11 @@ static hal_error_t ks_match(hal_ks_t *ks, if (ksv->db == NULL) return HAL_ERROR_KEYSTORE_ACCESS; - hal_error_t err; + hal_error_t err = HAL_OK; int i = -1; + hal_ks_lock(); + *result_len = 0; err = hal_ks_index_find(&ksv->db->ksi, previous_uuid, 0, NULL, &i); @@ -386,7 +414,7 @@ static hal_error_t ks_match(hal_ks_t *ks, if (err == HAL_ERROR_KEY_NOT_FOUND) i--; else if (err != HAL_OK) - return err; + goto done; while (*result_len < result_max && ++i < ksv->db->ksi.used) { @@ -415,7 +443,7 @@ static hal_error_t ks_match(hal_ks_t *ks, if ((err = hal_ks_attribute_scan(k->der + k->der_len, sizeof(k->der) - k->der_len, key_attrs, k->attributes_len, NULL)) != HAL_OK) - return err; + goto done; for (const hal_pkey_attribute_t *required = attributes; ok && required < attributes + attributes_len; required++) { @@ -437,7 +465,11 @@ static hal_error_t ks_match(hal_ks_t *ks, ++*result_len; } - return HAL_OK; + err = HAL_OK; + + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_set_attributes(hal_ks_t *ks, @@ -449,40 +481,53 @@ static hal_error_t ks_set_attributes(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; ks_t *ksv = ks_to_ksv(ks); - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; - if (ksv->db == NULL) - return HAL_ERROR_KEYSTORE_ACCESS; + hal_ks_lock(); + + { + if (ksv->db == NULL) { + err = HAL_ERROR_KEYSTORE_ACCESS; + goto done; + } + + if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) + goto done; + + ks_key_t * const k = &ksv->db->keys[b]; + + if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) { + err = HAL_ERROR_KEY_NOT_FOUND; + goto done; + } + + hal_pkey_attribute_t attrs[k->attributes_len + attributes_len]; + uint8_t *bytes = k->der + k->der_len; + size_t bytes_len = sizeof(k->der) - k->der_len; + size_t total_len; + + if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, k->attributes_len, &total_len)) != HAL_OK) + goto done; + + for (const hal_pkey_attribute_t *a = attributes; a < attributes + attributes_len; a++) { + if (a->length == HAL_PKEY_ATTRIBUTE_NIL) + err = hal_ks_attribute_delete(bytes, bytes_len, attrs, &k->attributes_len, &total_len, + a->type); + else + err = hal_ks_attribute_insert(bytes, bytes_len, attrs, &k->attributes_len, &total_len, + a->type, a->value, a->length); + if (err != HAL_OK) + goto done; + } + + err = HAL_OK; - if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; - - ks_key_t * const k = &ksv->db->keys[b]; - - if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) - return HAL_ERROR_KEY_NOT_FOUND; - - hal_pkey_attribute_t attrs[k->attributes_len + attributes_len]; - uint8_t *bytes = k->der + k->der_len; - size_t bytes_len = sizeof(k->der) - k->der_len; - size_t total_len; - - if ((err = hal_ks_attribute_scan(bytes, bytes_len, attrs, k->attributes_len, &total_len)) != HAL_OK) - return err; - - for (const hal_pkey_attribute_t *a = attributes; a < attributes + attributes_len; a++) { - if (a->length == HAL_PKEY_ATTRIBUTE_NIL) - err = hal_ks_attribute_delete(bytes, bytes_len, attrs, &k->attributes_len, &total_len, - a->type); - else - err = hal_ks_attribute_insert(bytes, bytes_len, attrs, &k->attributes_len, &total_len, - a->type, a->value, a->length); - if (err != HAL_OK) - return err; } - return HAL_OK; + done: + hal_ks_unlock(); + return err; } static hal_error_t ks_get_attributes(hal_ks_t *ks, @@ -497,53 +542,70 @@ static hal_error_t ks_get_attributes(hal_ks_t *ks, return HAL_ERROR_BAD_ARGUMENTS; ks_t *ksv = ks_to_ksv(ks); - hal_error_t err; + hal_error_t err = HAL_OK; unsigned b; - if (ksv->db == NULL) - return HAL_ERROR_KEYSTORE_ACCESS; + hal_ks_lock(); - if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) - return err; + { + if (ksv->db == NULL) { + err = HAL_ERROR_KEYSTORE_ACCESS; + goto done; + } - const ks_key_t * const k = &ksv->db->keys[b]; + if ((err = hal_ks_index_find(&ksv->db->ksi, &slot->name, 0, &b, &slot->hint)) != HAL_OK) + goto done; - if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) - return HAL_ERROR_KEY_NOT_FOUND; + const ks_key_t * const k = &ksv->db->keys[b]; - hal_pkey_attribute_t attrs[k->attributes_len > 0 ? k->attributes_len : 1]; + if (!key_visible_to_session(ksv, slot->client_handle, slot->session_handle, k)) { + err = HAL_ERROR_KEY_NOT_FOUND; + goto done; + } - if ((err = hal_ks_attribute_scan(k->der + k->der_len, sizeof(k->der) - k->der_len, - attrs, k->attributes_len, NULL)) != HAL_OK) - return err; + hal_pkey_attribute_t attrs[k->attributes_len > 0 ? k->attributes_len : 1]; - uint8_t *abuf = attributes_buffer; + if ((err = hal_ks_attribute_scan(k->der + k->der_len, sizeof(k->der) - k->der_len, + attrs, k->attributes_len, NULL)) != HAL_OK) + goto done; - for (int i = 0; i < attributes_len; i++) { - int j = 0; - while (j < k->attributes_len && attrs[j].type != attributes[i].type) - j++; - const int found = j < k->attributes_len; + uint8_t *abuf = attributes_buffer; - if (attributes_buffer_len == 0) { - attributes[i].value = NULL; - attributes[i].length = found ? attrs[j].length : 0; - continue; - } + for (int i = 0; i < attributes_len; i++) { + int j = 0; + while (j < k->attributes_len && attrs[j].type != attributes[i].type) + j++; + const int found = j < k->attributes_len; + + if (attributes_buffer_len == 0) { + attributes[i].value = NULL; + attributes[i].length = found ? attrs[j].length : 0; + continue; + } - if (!found) - return HAL_ERROR_ATTRIBUTE_NOT_FOUND; + if (!found) { + err = HAL_ERROR_ATTRIBUTE_NOT_FOUND; + goto done; + } + + if (attrs[j].length > attributes_buffer + attributes_buffer_len - abuf) { + err = HAL_ERROR_RESULT_TOO_LONG; + goto done; + } - if (attrs[j].length > attributes_buffer + attributes_buffer_len - abuf) - return HAL_ERROR_RESULT_TOO_LONG; + memcpy(abuf, attrs[j].value, attrs[j].length); + attributes[i].value = abuf; + attributes[i].length = attrs[j].length; + abuf += attrs[j].length; + } + + err = HAL_OK; - memcpy(abuf, attrs[j].value, attrs[j].length); - attributes[i].value = abuf; - attributes[i].length = attrs[j].length; - abuf += attrs[j].length; } - return HAL_OK; + done: + hal_ks_unlock(); + return err; } const hal_ks_driver_t hal_ks_volatile_driver[1] = {{ @@ -0,0 +1,108 @@ +/* + * locks.c + * ------- + * Dummy lock code for libhal. + * + * Copyright (c) 2017, NORDUnet A/S All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: + * - Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * + * - Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * + * - Neither the name of the NORDUnet nor the names of its contributors may + * be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS + * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED + * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A + * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED + * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR + * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF + * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING + * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include <stdio.h> +#include <stdlib.h> +#include <stdint.h> +#include <string.h> + +#include "hal.h" +#include "hal_internal.h" + +/* + * There are three slightly peculiar things about this module. + * + * 1) We want to include optional support for GNU weak functions, + * because they're convenient, but we don't want to require support + * for them. So we wrap this in a compilation time conditional + * which defaults to something compatible with C99, but allow this + * to be overriden via an external definition. + * + * 2) The functions in this module are all no-ops, just here so that + * things will link correctly on platforms that don't define them. + * Real definitions for these functions have to come from the port + * to a specific environment, eg, from sw/stm32/projects/hsm.c. + * + * 3) Because we want to expose as little as possible of the + * underlying mechanisms, some of the functions here are closures + * encapsulating objects things which would otherwise be arguments. + * So, for example, we have functions to lock and unlock the HSM + * keystore, rather than general lock and unlock functions which + * they HSM keystore lock as an argument. Since the versions in + * this file are the no-ops, the lock itself goes away here. + */ + +#ifndef ENABLE_WEAK_FUNCTIONS +#define ENABLE_WEAK_FUNCTIONS 0 +#endif + +#if ENABLE_WEAK_FUNCTIONS +#define WEAK_FUNCTION __attribute__((weak)) +#else +#define WEAK_FUNCTION +#endif + +/* + * Critical sections -- disable preemption BRIEFLY. + */ + +WEAK_FUNCTION void hal_critical_section_start(void) +{ + return; +} + +WEAK_FUNCTION void hal_critical_section_end(void) +{ + return; +} + +/* + * Keystore lock -- lock call blocks indefinitely. + */ + +WEAK_FUNCTION void hal_ks_lock(void) +{ + return; +} + +WEAK_FUNCTION void hal_ks_unlock(void) +{ + return; +} + +/* + * Local variables: + * indent-tabs-mode: nil + * End: + */ @@ -103,24 +103,32 @@ static client_slot_t client_handle[HAL_STATIC_CLIENT_STATE_BLOCKS]; static inline client_slot_t *alloc_slot(void) { + client_slot_t *slot = NULL; + hal_critical_section_start(); + #if HAL_STATIC_CLIENT_STATE_BLOCKS > 0 - for (int i = 0; i < sizeof(client_handle)/sizeof(*client_handle); i++) + for (int i = 0; slot == NULL && i < sizeof(client_handle)/sizeof(*client_handle); i++) if (client_handle[i].logged_in == HAL_USER_NONE) - return &client_handle[i]; + slot = &client_handle[i]; #endif - return NULL; + hal_critical_section_end(); + return slot; } static inline client_slot_t *find_handle(const hal_client_handle_t handle) { + client_slot_t *slot = NULL; + hal_critical_section_start(); + #if HAL_STATIC_CLIENT_STATE_BLOCKS > 0 - for (int i = 0; i < sizeof(client_handle)/sizeof(*client_handle); i++) + for (int i = 0; slot == NULL && i < sizeof(client_handle)/sizeof(*client_handle); i++) if (client_handle[i].logged_in != HAL_USER_NONE && client_handle[i].handle.handle == handle.handle) - return &client_handle[i]; + slot = &client_handle[i]; #endif - return NULL; + hal_critical_section_end(); + return slot; } static hal_error_t login(const hal_client_handle_t client, @@ -61,6 +61,9 @@ static hal_pkey_slot_t pkey_handle[HAL_STATIC_PKEY_STATE_BLOCKS]; static inline hal_pkey_slot_t *alloc_slot(const hal_key_flags_t flags) { + hal_pkey_slot_t *slot = NULL; + hal_critical_section_start(); + #if HAL_STATIC_PKEY_STATE_BLOCKS > 0 static uint16_t next_glop = 0; uint32_t glop = ++next_glop << 16; @@ -71,17 +74,18 @@ static inline hal_pkey_slot_t *alloc_slot(const hal_key_flags_t flags) if ((flags & HAL_KEY_FLAG_TOKEN) != 0) glop |= HAL_PKEY_HANDLE_TOKEN_FLAG; - for (int i = 0; i < sizeof(pkey_handle)/sizeof(*pkey_handle); i++) { + for (int i = 0; slot == NULL && i < sizeof(pkey_handle)/sizeof(*pkey_handle); i++) { if (pkey_handle[i].type != HAL_KEY_TYPE_NONE) continue; memset(&pkey_handle[i], 0, sizeof(pkey_handle[i])); pkey_handle[i].pkey_handle.handle = i | glop; pkey_handle[i].hint = -1; - return &pkey_handle[i]; + slot = &pkey_handle[i]; } #endif - return NULL; + hal_critical_section_end(); + return slot; } /* @@ -91,14 +95,18 @@ static inline hal_pkey_slot_t *alloc_slot(const hal_key_flags_t flags) static inline hal_pkey_slot_t *find_handle(const hal_pkey_handle_t handle) { + hal_pkey_slot_t *slot = NULL; + hal_critical_section_start(); + #if HAL_STATIC_PKEY_STATE_BLOCKS > 0 const int i = (int) (handle.handle & 0xFFFF); if (i < sizeof(pkey_handle)/sizeof(*pkey_handle) && pkey_handle[i].pkey_handle.handle == handle.handle) - return &pkey_handle[i]; + slot = &pkey_handle[i]; #endif - return NULL; + hal_critical_section_end(); + return slot; } /* |