150a81498SJens Wiklander /* 250a81498SJens Wiklander * Copyright (c) 2017, Linaro Limited 350a81498SJens Wiklander * All rights reserved. 450a81498SJens Wiklander * 550a81498SJens Wiklander * Redistribution and use in source and binary forms, with or without 650a81498SJens Wiklander * modification, are permitted provided that the following conditions are met: 750a81498SJens Wiklander * 850a81498SJens Wiklander * 1. Redistributions of source code must retain the above copyright notice, 950a81498SJens Wiklander * this list of conditions and the following disclaimer. 1050a81498SJens Wiklander * 1150a81498SJens Wiklander * 2. Redistributions in binary form must reproduce the above copyright notice, 1250a81498SJens Wiklander * this list of conditions and the following disclaimer in the documentation 1350a81498SJens Wiklander * and/or other materials provided with the distribution. 1450a81498SJens Wiklander * 1550a81498SJens Wiklander * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 1650a81498SJens Wiklander * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 1750a81498SJens Wiklander * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 1850a81498SJens Wiklander * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE 1950a81498SJens Wiklander * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 2050a81498SJens Wiklander * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 2150a81498SJens Wiklander * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 2250a81498SJens Wiklander * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 2350a81498SJens Wiklander * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 2450a81498SJens Wiklander * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 2550a81498SJens Wiklander * POSSIBILITY OF SUCH DAMAGE. 2650a81498SJens Wiklander */ 2750a81498SJens Wiklander 2850a81498SJens Wiklander #include <assert.h> 29e1770e71SJens Wiklander #include <crypto/crypto.h> 3050a81498SJens Wiklander #include <initcall.h> 3150a81498SJens Wiklander #include <kernel/tee_common_otp.h> 3250a81498SJens Wiklander #include <optee_msg_supplicant.h> 3350a81498SJens Wiklander #include <stdlib.h> 3450a81498SJens Wiklander #include <string_ext.h> 3550a81498SJens Wiklander #include <string.h> 3650a81498SJens Wiklander #include <tee/fs_htree.h> 3750a81498SJens Wiklander #include <tee/tee_fs_key_manager.h> 3850a81498SJens Wiklander #include <tee/tee_fs_rpc.h> 3950a81498SJens Wiklander #include <utee_defines.h> 4050a81498SJens Wiklander #include <util.h> 4150a81498SJens Wiklander 4250a81498SJens Wiklander #define TEE_FS_HTREE_CHIP_ID_SIZE 32 4350a81498SJens Wiklander #define TEE_FS_HTREE_HASH_ALG TEE_ALG_SHA256 4450a81498SJens Wiklander #define TEE_FS_HTREE_TSK_SIZE TEE_FS_HTREE_HASH_SIZE 4550a81498SJens Wiklander #define TEE_FS_HTREE_ENC_ALG TEE_ALG_AES_ECB_NOPAD 4650a81498SJens Wiklander #define TEE_FS_HTREE_ENC_SIZE TEE_AES_BLOCK_SIZE 4750a81498SJens Wiklander #define TEE_FS_HTREE_SSK_SIZE TEE_FS_HTREE_HASH_SIZE 4850a81498SJens Wiklander 4950a81498SJens Wiklander #define TEE_FS_HTREE_AUTH_ENC_ALG TEE_ALG_AES_GCM 5050a81498SJens Wiklander #define TEE_FS_HTREE_HMAC_ALG TEE_ALG_HMAC_SHA256 5150a81498SJens Wiklander 5250a81498SJens Wiklander #define BLOCK_NUM_TO_NODE_ID(num) ((num) + 1) 5350a81498SJens Wiklander 5450a81498SJens Wiklander #define NODE_ID_TO_BLOCK_NUM(id) ((id) - 1) 5550a81498SJens Wiklander 5650a81498SJens Wiklander /* 5750a81498SJens Wiklander * The hash tree is implemented as a binary tree with the purpose to ensure 5850a81498SJens Wiklander * integrity of the data in the nodes. The data in the nodes their turn 5950a81498SJens Wiklander * provides both integrity and confidentiality of the data blocks. 6050a81498SJens Wiklander * 6150a81498SJens Wiklander * The hash tree is saved in a file as: 6250a81498SJens Wiklander * +----------------------------+ 6350a81498SJens Wiklander * | htree_image.0 | 6450a81498SJens Wiklander * | htree_image.1 | 6550a81498SJens Wiklander * +----------------------------+ 6650a81498SJens Wiklander * | htree_node_image.1.0 | 6750a81498SJens Wiklander * | htree_node_image.1.1 | 6850a81498SJens Wiklander * +----------------------------+ 6950a81498SJens Wiklander * | htree_node_image.2.0 | 7050a81498SJens Wiklander * | htree_node_image.2.1 | 7150a81498SJens Wiklander * +----------------------------+ 7250a81498SJens Wiklander * | htree_node_image.3.0 | 7350a81498SJens Wiklander * | htree_node_image.3.1 | 7450a81498SJens Wiklander * +----------------------------+ 7550a81498SJens Wiklander * | htree_node_image.4.0 | 7650a81498SJens Wiklander * | htree_node_image.4.1 | 7750a81498SJens Wiklander * +----------------------------+ 7850a81498SJens Wiklander * ... 7950a81498SJens Wiklander * 8050a81498SJens Wiklander * htree_image is the header of the file, there's two instances of it. One 8150a81498SJens Wiklander * which is committed and the other is used when updating the file. Which 8250a81498SJens Wiklander * is committed is indicated by the "counter" field, the one with the 8350a81498SJens Wiklander * largest value is selected. 8450a81498SJens Wiklander * 8550a81498SJens Wiklander * htree_node_image is a node in the hash tree, each node has two instances 8650a81498SJens Wiklander * which is committed is decided by the parent node .flag bit 87e2adafecSJens Wiklander * HTREE_NODE_COMMITTED_CHILD. Which version is the committed version of 8850a81498SJens Wiklander * node 1 is determined by the by the lowest bit of the counter field in 8950a81498SJens Wiklander * the header. 9050a81498SJens Wiklander * 9150a81498SJens Wiklander * Note that nodes start counting at 1 while blocks at 0, this means that 9250a81498SJens Wiklander * block 0 is represented by node 1. 9350a81498SJens Wiklander * 9450a81498SJens Wiklander * Where different elements are stored in the file is managed by the file 95455856d4SJens Wiklander * system. 9650a81498SJens Wiklander */ 9750a81498SJens Wiklander 9850a81498SJens Wiklander #define HTREE_NODE_COMMITTED_BLOCK BIT32(0) 9950a81498SJens Wiklander /* n is 0 or 1 */ 10050a81498SJens Wiklander #define HTREE_NODE_COMMITTED_CHILD(n) BIT32(1 + (n)) 10150a81498SJens Wiklander 10250a81498SJens Wiklander struct htree_node { 10350a81498SJens Wiklander size_t id; 10450a81498SJens Wiklander bool dirty; 105e2adafecSJens Wiklander bool block_updated; 10650a81498SJens Wiklander struct tee_fs_htree_node_image node; 10750a81498SJens Wiklander struct htree_node *parent; 10850a81498SJens Wiklander struct htree_node *child[2]; 10950a81498SJens Wiklander }; 11050a81498SJens Wiklander 11150a81498SJens Wiklander struct tee_fs_htree { 11250a81498SJens Wiklander struct htree_node root; 11350a81498SJens Wiklander struct tee_fs_htree_image head; 11450a81498SJens Wiklander uint8_t fek[TEE_FS_HTREE_FEK_SIZE]; 11550a81498SJens Wiklander struct tee_fs_htree_imeta imeta; 11650a81498SJens Wiklander bool dirty; 1170c4e1284SJens Wiklander const TEE_UUID *uuid; 11850a81498SJens Wiklander const struct tee_fs_htree_storage *stor; 11950a81498SJens Wiklander void *stor_aux; 12050a81498SJens Wiklander }; 12150a81498SJens Wiklander 12250a81498SJens Wiklander struct traverse_arg; 12350a81498SJens Wiklander typedef TEE_Result (*traverse_cb_t)(struct traverse_arg *targ, 12450a81498SJens Wiklander struct htree_node *node); 12550a81498SJens Wiklander struct traverse_arg { 12650a81498SJens Wiklander struct tee_fs_htree *ht; 12750a81498SJens Wiklander traverse_cb_t cb; 12850a81498SJens Wiklander void *arg; 12950a81498SJens Wiklander }; 13050a81498SJens Wiklander 13150a81498SJens Wiklander static TEE_Result rpc_read(struct tee_fs_htree *ht, enum tee_fs_htree_type type, 13250a81498SJens Wiklander size_t idx, size_t vers, void *data, size_t dlen) 13350a81498SJens Wiklander { 13450a81498SJens Wiklander TEE_Result res; 13550a81498SJens Wiklander struct tee_fs_rpc_operation op; 13650a81498SJens Wiklander size_t bytes; 13750a81498SJens Wiklander void *p; 13850a81498SJens Wiklander 13950a81498SJens Wiklander res = ht->stor->rpc_read_init(ht->stor_aux, &op, type, idx, vers, &p); 14050a81498SJens Wiklander if (res != TEE_SUCCESS) 14150a81498SJens Wiklander return res; 14250a81498SJens Wiklander 14364fa6c0aSJens Wiklander res = ht->stor->rpc_read_final(&op, &bytes); 14450a81498SJens Wiklander if (res != TEE_SUCCESS) 14550a81498SJens Wiklander return res; 14650a81498SJens Wiklander 14750a81498SJens Wiklander if (bytes != dlen) 14850a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 14950a81498SJens Wiklander 15050a81498SJens Wiklander memcpy(data, p, dlen); 15150a81498SJens Wiklander return TEE_SUCCESS; 15250a81498SJens Wiklander } 15350a81498SJens Wiklander 15450a81498SJens Wiklander static TEE_Result rpc_read_head(struct tee_fs_htree *ht, size_t vers, 15550a81498SJens Wiklander struct tee_fs_htree_image *head) 15650a81498SJens Wiklander { 15750a81498SJens Wiklander return rpc_read(ht, TEE_FS_HTREE_TYPE_HEAD, 0, vers, 15850a81498SJens Wiklander head, sizeof(*head)); 15950a81498SJens Wiklander } 16050a81498SJens Wiklander 16150a81498SJens Wiklander static TEE_Result rpc_read_node(struct tee_fs_htree *ht, size_t node_id, 16250a81498SJens Wiklander size_t vers, 16350a81498SJens Wiklander struct tee_fs_htree_node_image *node) 16450a81498SJens Wiklander { 16550a81498SJens Wiklander return rpc_read(ht, TEE_FS_HTREE_TYPE_NODE, node_id - 1, vers, 16650a81498SJens Wiklander node, sizeof(*node)); 16750a81498SJens Wiklander } 16850a81498SJens Wiklander 16950a81498SJens Wiklander static TEE_Result rpc_write(struct tee_fs_htree *ht, 17050a81498SJens Wiklander enum tee_fs_htree_type type, size_t idx, 17150a81498SJens Wiklander size_t vers, const void *data, size_t dlen) 17250a81498SJens Wiklander { 17350a81498SJens Wiklander TEE_Result res; 17450a81498SJens Wiklander struct tee_fs_rpc_operation op; 17550a81498SJens Wiklander void *p; 17650a81498SJens Wiklander 17750a81498SJens Wiklander res = ht->stor->rpc_write_init(ht->stor_aux, &op, type, idx, vers, &p); 17850a81498SJens Wiklander if (res != TEE_SUCCESS) 17950a81498SJens Wiklander return res; 18050a81498SJens Wiklander 18150a81498SJens Wiklander memcpy(p, data, dlen); 18264fa6c0aSJens Wiklander return ht->stor->rpc_write_final(&op); 18350a81498SJens Wiklander } 18450a81498SJens Wiklander 18550a81498SJens Wiklander static TEE_Result rpc_write_head(struct tee_fs_htree *ht, size_t vers, 18650a81498SJens Wiklander const struct tee_fs_htree_image *head) 18750a81498SJens Wiklander { 18850a81498SJens Wiklander return rpc_write(ht, TEE_FS_HTREE_TYPE_HEAD, 0, vers, 18950a81498SJens Wiklander head, sizeof(*head)); 19050a81498SJens Wiklander } 19150a81498SJens Wiklander 19250a81498SJens Wiklander static TEE_Result rpc_write_node(struct tee_fs_htree *ht, size_t node_id, 19350a81498SJens Wiklander size_t vers, 19450a81498SJens Wiklander const struct tee_fs_htree_node_image *node) 19550a81498SJens Wiklander { 19650a81498SJens Wiklander return rpc_write(ht, TEE_FS_HTREE_TYPE_NODE, node_id - 1, vers, 19750a81498SJens Wiklander node, sizeof(*node)); 19850a81498SJens Wiklander } 19950a81498SJens Wiklander 20050a81498SJens Wiklander static TEE_Result traverse_post_order(struct traverse_arg *targ, 20150a81498SJens Wiklander struct htree_node *node) 20250a81498SJens Wiklander { 20350a81498SJens Wiklander TEE_Result res; 20450a81498SJens Wiklander 20550a81498SJens Wiklander /* 20650a81498SJens Wiklander * This function is recursing but not very deep, only with Log(N) 20750a81498SJens Wiklander * maximum depth. 20850a81498SJens Wiklander */ 20950a81498SJens Wiklander 21050a81498SJens Wiklander if (!node) 21150a81498SJens Wiklander return TEE_SUCCESS; 21250a81498SJens Wiklander 21350a81498SJens Wiklander res = traverse_post_order(targ, node->child[0]); 21450a81498SJens Wiklander if (res != TEE_SUCCESS) 21550a81498SJens Wiklander return res; 21650a81498SJens Wiklander 21750a81498SJens Wiklander res = traverse_post_order(targ, node->child[1]); 21850a81498SJens Wiklander if (res != TEE_SUCCESS) 21950a81498SJens Wiklander return res; 22050a81498SJens Wiklander 22150a81498SJens Wiklander return targ->cb(targ, node); 22250a81498SJens Wiklander } 22350a81498SJens Wiklander 22450a81498SJens Wiklander static TEE_Result htree_traverse_post_order(struct tee_fs_htree *ht, 22550a81498SJens Wiklander traverse_cb_t cb, void *arg) 22650a81498SJens Wiklander { 22750a81498SJens Wiklander struct traverse_arg targ = { ht, cb, arg }; 22850a81498SJens Wiklander 22950a81498SJens Wiklander return traverse_post_order(&targ, &ht->root); 23050a81498SJens Wiklander } 23150a81498SJens Wiklander 23250a81498SJens Wiklander static size_t node_id_to_level(size_t node_id) 23350a81498SJens Wiklander { 23450a81498SJens Wiklander assert(node_id && node_id < UINT_MAX); 23550a81498SJens Wiklander /* Calculate level of the node, root node (1) has level 1 */ 23650a81498SJens Wiklander return sizeof(unsigned int) * 8 - __builtin_clz(node_id); 23750a81498SJens Wiklander } 23850a81498SJens Wiklander 23950a81498SJens Wiklander static struct htree_node *find_closest_node(struct tee_fs_htree *ht, 24050a81498SJens Wiklander size_t node_id) 24150a81498SJens Wiklander { 24250a81498SJens Wiklander struct htree_node *node = &ht->root; 24350a81498SJens Wiklander size_t level = node_id_to_level(node_id); 24450a81498SJens Wiklander size_t n; 24550a81498SJens Wiklander 24650a81498SJens Wiklander /* n = 1 because root node is level 1 */ 24750a81498SJens Wiklander for (n = 1; n < level; n++) { 24850a81498SJens Wiklander struct htree_node *child; 24950a81498SJens Wiklander size_t bit_idx; 25050a81498SJens Wiklander 25150a81498SJens Wiklander /* 25250a81498SJens Wiklander * The difference between levels of the current node and 25350a81498SJens Wiklander * the node we're looking for tells which bit decides 25450a81498SJens Wiklander * direction in the tree. 25550a81498SJens Wiklander * 25650a81498SJens Wiklander * As the first bit has index 0 we'll subtract 1 25750a81498SJens Wiklander */ 25850a81498SJens Wiklander bit_idx = level - n - 1; 25950a81498SJens Wiklander child = node->child[((node_id >> bit_idx) & 1)]; 26050a81498SJens Wiklander if (!child) 26150a81498SJens Wiklander return node; 26250a81498SJens Wiklander node = child; 26350a81498SJens Wiklander } 26450a81498SJens Wiklander 26550a81498SJens Wiklander return node; 26650a81498SJens Wiklander } 26750a81498SJens Wiklander 26850a81498SJens Wiklander static struct htree_node *find_node(struct tee_fs_htree *ht, size_t node_id) 26950a81498SJens Wiklander { 27050a81498SJens Wiklander struct htree_node *node = find_closest_node(ht, node_id); 27150a81498SJens Wiklander 27250a81498SJens Wiklander if (node && node->id == node_id) 27350a81498SJens Wiklander return node; 27450a81498SJens Wiklander return NULL; 27550a81498SJens Wiklander } 27650a81498SJens Wiklander 27750a81498SJens Wiklander static TEE_Result get_node(struct tee_fs_htree *ht, bool create, 27850a81498SJens Wiklander size_t node_id, struct htree_node **node_ret) 27950a81498SJens Wiklander { 28050a81498SJens Wiklander struct htree_node *node; 28150a81498SJens Wiklander struct htree_node *nc; 28250a81498SJens Wiklander size_t n; 28350a81498SJens Wiklander 28450a81498SJens Wiklander node = find_closest_node(ht, node_id); 28550a81498SJens Wiklander if (!node) 28650a81498SJens Wiklander return TEE_ERROR_GENERIC; 28750a81498SJens Wiklander if (node->id == node_id) 28850a81498SJens Wiklander goto ret_node; 28950a81498SJens Wiklander 29050a81498SJens Wiklander /* 29150a81498SJens Wiklander * Trying to read beyond end of file should be caught earlier than 29250a81498SJens Wiklander * here. 29350a81498SJens Wiklander */ 29450a81498SJens Wiklander if (!create) 29550a81498SJens Wiklander return TEE_ERROR_GENERIC; 29650a81498SJens Wiklander 29750a81498SJens Wiklander /* 29850a81498SJens Wiklander * Add missing nodes, some nodes may already be there. When we've 29950a81498SJens Wiklander * processed the range all nodes up to node_id will be in the tree. 30050a81498SJens Wiklander */ 30150a81498SJens Wiklander for (n = node->id + 1; n <= node_id; n++) { 30250a81498SJens Wiklander node = find_closest_node(ht, n); 30350a81498SJens Wiklander if (node->id == n) 30450a81498SJens Wiklander continue; 30550a81498SJens Wiklander /* Node id n should be a child of node */ 30650a81498SJens Wiklander assert((n >> 1) == node->id); 30750a81498SJens Wiklander assert(!node->child[n & 1]); 30850a81498SJens Wiklander 30950a81498SJens Wiklander nc = calloc(1, sizeof(*nc)); 31050a81498SJens Wiklander if (!nc) 31150a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 31250a81498SJens Wiklander nc->id = n; 31350a81498SJens Wiklander nc->parent = node; 31450a81498SJens Wiklander node->child[n & 1] = nc; 31550a81498SJens Wiklander node = nc; 31650a81498SJens Wiklander } 31750a81498SJens Wiklander 31850a81498SJens Wiklander if (node->id > ht->imeta.max_node_id) 31950a81498SJens Wiklander ht->imeta.max_node_id = node->id; 32050a81498SJens Wiklander 32150a81498SJens Wiklander ret_node: 32250a81498SJens Wiklander *node_ret = node; 32350a81498SJens Wiklander return TEE_SUCCESS; 32450a81498SJens Wiklander } 32550a81498SJens Wiklander 32650a81498SJens Wiklander static int get_idx_from_counter(uint32_t counter0, uint32_t counter1) 32750a81498SJens Wiklander { 32850a81498SJens Wiklander if (!(counter0 & 1)) { 32950a81498SJens Wiklander if (!(counter1 & 1)) 33050a81498SJens Wiklander return 0; 33150a81498SJens Wiklander if (counter0 > counter1) 33250a81498SJens Wiklander return 0; 33350a81498SJens Wiklander else 33450a81498SJens Wiklander return 1; 33550a81498SJens Wiklander } 33650a81498SJens Wiklander 33750a81498SJens Wiklander if (counter1 & 1) 33850a81498SJens Wiklander return 1; 33950a81498SJens Wiklander else 34050a81498SJens Wiklander return -1; 34150a81498SJens Wiklander } 34250a81498SJens Wiklander 343f28e5060SJens Wiklander static TEE_Result init_head_from_data(struct tee_fs_htree *ht, 344f28e5060SJens Wiklander const uint8_t *hash) 34550a81498SJens Wiklander { 34650a81498SJens Wiklander TEE_Result res; 34750a81498SJens Wiklander int idx; 34850a81498SJens Wiklander 349f28e5060SJens Wiklander if (hash) { 350f28e5060SJens Wiklander for (idx = 0;; idx++) { 351f28e5060SJens Wiklander res = rpc_read_node(ht, 1, idx, &ht->root.node); 352f28e5060SJens Wiklander if (res != TEE_SUCCESS) 353f28e5060SJens Wiklander return res; 354f28e5060SJens Wiklander 355f28e5060SJens Wiklander if (!memcmp(ht->root.node.hash, hash, 356f28e5060SJens Wiklander sizeof(ht->root.node.hash))) { 357f28e5060SJens Wiklander res = rpc_read_head(ht, idx, &ht->head); 358f28e5060SJens Wiklander if (res != TEE_SUCCESS) 359f28e5060SJens Wiklander return res; 360f28e5060SJens Wiklander break; 361f28e5060SJens Wiklander } 362f28e5060SJens Wiklander 363f28e5060SJens Wiklander if (idx) 364f28e5060SJens Wiklander return TEE_ERROR_SECURITY; 365f28e5060SJens Wiklander } 366f28e5060SJens Wiklander } else { 367f28e5060SJens Wiklander struct tee_fs_htree_image head[2]; 368f28e5060SJens Wiklander 36950a81498SJens Wiklander for (idx = 0; idx < 2; idx++) { 37050a81498SJens Wiklander res = rpc_read_head(ht, idx, head + idx); 37150a81498SJens Wiklander if (res != TEE_SUCCESS) 37250a81498SJens Wiklander return res; 37350a81498SJens Wiklander } 37450a81498SJens Wiklander 37550a81498SJens Wiklander idx = get_idx_from_counter(head[0].counter, head[1].counter); 37650a81498SJens Wiklander if (idx < 0) 37750a81498SJens Wiklander return TEE_ERROR_SECURITY; 37850a81498SJens Wiklander 37950a81498SJens Wiklander res = rpc_read_node(ht, 1, idx, &ht->root.node); 38050a81498SJens Wiklander if (res != TEE_SUCCESS) 38150a81498SJens Wiklander return res; 38250a81498SJens Wiklander 38350a81498SJens Wiklander ht->head = head[idx]; 384f28e5060SJens Wiklander } 385f28e5060SJens Wiklander 38650a81498SJens Wiklander ht->root.id = 1; 38750a81498SJens Wiklander 38850a81498SJens Wiklander return TEE_SUCCESS; 38950a81498SJens Wiklander } 39050a81498SJens Wiklander 39150a81498SJens Wiklander static TEE_Result init_tree_from_data(struct tee_fs_htree *ht) 39250a81498SJens Wiklander { 39350a81498SJens Wiklander TEE_Result res; 39450a81498SJens Wiklander struct tee_fs_htree_node_image node_image; 39550a81498SJens Wiklander struct htree_node *node; 39650a81498SJens Wiklander struct htree_node *nc; 39750a81498SJens Wiklander size_t committed_version; 39850a81498SJens Wiklander size_t node_id = 2; 39950a81498SJens Wiklander 40050a81498SJens Wiklander while (node_id <= ht->imeta.max_node_id) { 40150a81498SJens Wiklander node = find_node(ht, node_id >> 1); 40250a81498SJens Wiklander if (!node) 40350a81498SJens Wiklander return TEE_ERROR_GENERIC; 40450a81498SJens Wiklander committed_version = !!(node->node.flags & 40550a81498SJens Wiklander HTREE_NODE_COMMITTED_CHILD(node_id & 1)); 40650a81498SJens Wiklander 40750a81498SJens Wiklander res = rpc_read_node(ht, node_id, committed_version, 40850a81498SJens Wiklander &node_image); 40950a81498SJens Wiklander if (res != TEE_SUCCESS) 41050a81498SJens Wiklander return res; 41150a81498SJens Wiklander 41250a81498SJens Wiklander res = get_node(ht, true, node_id, &nc); 41350a81498SJens Wiklander if (res != TEE_SUCCESS) 41450a81498SJens Wiklander return res; 41550a81498SJens Wiklander nc->node = node_image; 41650a81498SJens Wiklander node_id++; 41750a81498SJens Wiklander } 41850a81498SJens Wiklander 41950a81498SJens Wiklander return TEE_SUCCESS; 42050a81498SJens Wiklander } 42150a81498SJens Wiklander 42250a81498SJens Wiklander static TEE_Result calc_node_hash(struct htree_node *node, void *ctx, 42350a81498SJens Wiklander uint8_t *digest) 42450a81498SJens Wiklander { 42550a81498SJens Wiklander TEE_Result res; 42650a81498SJens Wiklander uint32_t alg = TEE_FS_HTREE_HASH_ALG; 42750a81498SJens Wiklander uint8_t *ndata = (uint8_t *)&node->node + sizeof(node->node.hash); 42850a81498SJens Wiklander size_t nsize = sizeof(node->node) - sizeof(node->node.hash); 42950a81498SJens Wiklander 430b887bd8fSJens Wiklander res = crypto_hash_init(ctx, alg); 43150a81498SJens Wiklander if (res != TEE_SUCCESS) 43250a81498SJens Wiklander return res; 43350a81498SJens Wiklander 434b887bd8fSJens Wiklander res = crypto_hash_update(ctx, alg, ndata, nsize); 43550a81498SJens Wiklander if (res != TEE_SUCCESS) 43650a81498SJens Wiklander return res; 43750a81498SJens Wiklander 43850a81498SJens Wiklander if (node->child[0]) { 439b887bd8fSJens Wiklander res = crypto_hash_update(ctx, alg, node->child[0]->node.hash, 44050a81498SJens Wiklander sizeof(node->child[0]->node.hash)); 44150a81498SJens Wiklander if (res != TEE_SUCCESS) 44250a81498SJens Wiklander return res; 44350a81498SJens Wiklander } 44450a81498SJens Wiklander 44550a81498SJens Wiklander if (node->child[1]) { 446b887bd8fSJens Wiklander res = crypto_hash_update(ctx, alg, node->child[1]->node.hash, 44750a81498SJens Wiklander sizeof(node->child[1]->node.hash)); 44850a81498SJens Wiklander if (res != TEE_SUCCESS) 44950a81498SJens Wiklander return res; 45050a81498SJens Wiklander } 45150a81498SJens Wiklander 452b887bd8fSJens Wiklander return crypto_hash_final(ctx, alg, digest, TEE_FS_HTREE_HASH_SIZE); 45350a81498SJens Wiklander } 45450a81498SJens Wiklander 45550a81498SJens Wiklander static TEE_Result authenc_init(void **ctx_ret, TEE_OperationMode mode, 45650a81498SJens Wiklander struct tee_fs_htree *ht, 45750a81498SJens Wiklander struct tee_fs_htree_node_image *ni, 45850a81498SJens Wiklander size_t payload_len) 45950a81498SJens Wiklander { 46050a81498SJens Wiklander TEE_Result res = TEE_SUCCESS; 46150a81498SJens Wiklander const uint32_t alg = TEE_FS_HTREE_AUTH_ENC_ALG; 46250a81498SJens Wiklander uint8_t *ctx; 46350a81498SJens Wiklander size_t ctx_size; 46450a81498SJens Wiklander size_t aad_len = TEE_FS_HTREE_FEK_SIZE + TEE_FS_HTREE_IV_SIZE; 46550a81498SJens Wiklander uint8_t *iv; 46650a81498SJens Wiklander 46750a81498SJens Wiklander if (ni) { 46850a81498SJens Wiklander iv = ni->iv; 46950a81498SJens Wiklander } else { 47050a81498SJens Wiklander iv = ht->head.iv; 47150a81498SJens Wiklander aad_len += TEE_FS_HTREE_HASH_SIZE + sizeof(ht->head.counter); 47250a81498SJens Wiklander } 47350a81498SJens Wiklander 47450a81498SJens Wiklander if (mode == TEE_MODE_ENCRYPT) { 47536a063efSJens Wiklander res = crypto_rng_read(iv, TEE_FS_HTREE_IV_SIZE); 47650a81498SJens Wiklander if (res != TEE_SUCCESS) 47750a81498SJens Wiklander return res; 47850a81498SJens Wiklander } 47950a81498SJens Wiklander 4808875ce46SJens Wiklander res = crypto_authenc_get_ctx_size(alg, &ctx_size); 48150a81498SJens Wiklander if (res != TEE_SUCCESS) 48250a81498SJens Wiklander return res; 48350a81498SJens Wiklander 48450a81498SJens Wiklander ctx = malloc(ctx_size); 48550a81498SJens Wiklander if (!ctx) { 48650a81498SJens Wiklander EMSG("request memory size %zu failed", ctx_size); 48750a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 48850a81498SJens Wiklander } 48950a81498SJens Wiklander 4908875ce46SJens Wiklander res = crypto_authenc_init(ctx, alg, mode, ht->fek, 4918875ce46SJens Wiklander TEE_FS_HTREE_FEK_SIZE, iv, 4928875ce46SJens Wiklander TEE_FS_HTREE_IV_SIZE, TEE_FS_HTREE_TAG_SIZE, 4938875ce46SJens Wiklander aad_len, payload_len); 49450a81498SJens Wiklander if (res != TEE_SUCCESS) 49550a81498SJens Wiklander goto exit; 49650a81498SJens Wiklander 49750a81498SJens Wiklander if (!ni) { 4988875ce46SJens Wiklander res = crypto_authenc_update_aad(ctx, alg, mode, 49950a81498SJens Wiklander ht->root.node.hash, 50050a81498SJens Wiklander TEE_FS_HTREE_FEK_SIZE); 50150a81498SJens Wiklander if (res != TEE_SUCCESS) 50250a81498SJens Wiklander goto exit; 50350a81498SJens Wiklander 5048875ce46SJens Wiklander res = crypto_authenc_update_aad(ctx, alg, mode, 50550a81498SJens Wiklander (void *)&ht->head.counter, 50650a81498SJens Wiklander sizeof(ht->head.counter)); 50750a81498SJens Wiklander if (res != TEE_SUCCESS) 50850a81498SJens Wiklander goto exit; 50950a81498SJens Wiklander } 51050a81498SJens Wiklander 5118875ce46SJens Wiklander res = crypto_authenc_update_aad(ctx, alg, mode, ht->head.enc_fek, 51250a81498SJens Wiklander TEE_FS_HTREE_FEK_SIZE); 51350a81498SJens Wiklander if (res != TEE_SUCCESS) 51450a81498SJens Wiklander goto exit; 51550a81498SJens Wiklander 5168875ce46SJens Wiklander res = crypto_authenc_update_aad(ctx, alg, mode, iv, 51750a81498SJens Wiklander TEE_FS_HTREE_IV_SIZE); 51850a81498SJens Wiklander 51950a81498SJens Wiklander exit: 52050a81498SJens Wiklander if (res == TEE_SUCCESS) 52150a81498SJens Wiklander *ctx_ret = ctx; 52250a81498SJens Wiklander else 52350a81498SJens Wiklander free(ctx); 52450a81498SJens Wiklander 52550a81498SJens Wiklander return res; 52650a81498SJens Wiklander } 52750a81498SJens Wiklander 52850a81498SJens Wiklander static TEE_Result authenc_decrypt_final(void *ctx, const uint8_t *tag, 52950a81498SJens Wiklander const void *crypt, size_t len, 53050a81498SJens Wiklander void *plain) 53150a81498SJens Wiklander { 53250a81498SJens Wiklander TEE_Result res; 53350a81498SJens Wiklander size_t out_size = len; 53450a81498SJens Wiklander 5358875ce46SJens Wiklander res = crypto_authenc_dec_final(ctx, TEE_FS_HTREE_AUTH_ENC_ALG, crypt, 5368875ce46SJens Wiklander len, plain, &out_size, tag, 5378875ce46SJens Wiklander TEE_FS_HTREE_TAG_SIZE); 5388875ce46SJens Wiklander crypto_authenc_final(ctx, TEE_FS_HTREE_AUTH_ENC_ALG); 53950a81498SJens Wiklander free(ctx); 54050a81498SJens Wiklander 54150a81498SJens Wiklander if (res == TEE_SUCCESS && out_size != len) 54250a81498SJens Wiklander return TEE_ERROR_GENERIC; 54350a81498SJens Wiklander if (res == TEE_ERROR_MAC_INVALID) 54450a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 54550a81498SJens Wiklander 54650a81498SJens Wiklander return res; 54750a81498SJens Wiklander } 54850a81498SJens Wiklander 54950a81498SJens Wiklander static TEE_Result authenc_encrypt_final(void *ctx, uint8_t *tag, 55050a81498SJens Wiklander const void *plain, size_t len, 55150a81498SJens Wiklander void *crypt) 55250a81498SJens Wiklander { 55350a81498SJens Wiklander TEE_Result res; 55450a81498SJens Wiklander size_t out_size = len; 55550a81498SJens Wiklander size_t out_tag_size = TEE_FS_HTREE_TAG_SIZE; 55650a81498SJens Wiklander 5578875ce46SJens Wiklander res = crypto_authenc_enc_final(ctx, TEE_FS_HTREE_AUTH_ENC_ALG, plain, 5588875ce46SJens Wiklander len, crypt, &out_size, tag, 5598875ce46SJens Wiklander &out_tag_size); 5608875ce46SJens Wiklander crypto_authenc_final(ctx, TEE_FS_HTREE_AUTH_ENC_ALG); 56150a81498SJens Wiklander free(ctx); 56250a81498SJens Wiklander 56350a81498SJens Wiklander if (res == TEE_SUCCESS && 56450a81498SJens Wiklander (out_size != len || out_tag_size != TEE_FS_HTREE_TAG_SIZE)) 56550a81498SJens Wiklander return TEE_ERROR_GENERIC; 56650a81498SJens Wiklander 56750a81498SJens Wiklander return res; 56850a81498SJens Wiklander } 56950a81498SJens Wiklander 57050a81498SJens Wiklander static TEE_Result verify_root(struct tee_fs_htree *ht) 57150a81498SJens Wiklander { 57250a81498SJens Wiklander TEE_Result res; 57350a81498SJens Wiklander void *ctx; 57450a81498SJens Wiklander 5750c4e1284SJens Wiklander res = tee_fs_fek_crypt(ht->uuid, TEE_MODE_DECRYPT, ht->head.enc_fek, 57650a81498SJens Wiklander sizeof(ht->fek), ht->fek); 57750a81498SJens Wiklander if (res != TEE_SUCCESS) 57850a81498SJens Wiklander return res; 57950a81498SJens Wiklander 58050a81498SJens Wiklander res = authenc_init(&ctx, TEE_MODE_DECRYPT, ht, NULL, sizeof(ht->imeta)); 58150a81498SJens Wiklander if (res != TEE_SUCCESS) 58250a81498SJens Wiklander return res; 58350a81498SJens Wiklander 58450a81498SJens Wiklander return authenc_decrypt_final(ctx, ht->head.tag, ht->head.imeta, 58550a81498SJens Wiklander sizeof(ht->imeta), &ht->imeta); 58650a81498SJens Wiklander } 58750a81498SJens Wiklander 58850a81498SJens Wiklander static TEE_Result verify_node(struct traverse_arg *targ, 58950a81498SJens Wiklander struct htree_node *node) 59050a81498SJens Wiklander { 59150a81498SJens Wiklander void *ctx = targ->arg; 59250a81498SJens Wiklander TEE_Result res; 59350a81498SJens Wiklander uint8_t digest[TEE_FS_HTREE_HASH_SIZE]; 59450a81498SJens Wiklander 59550a81498SJens Wiklander res = calc_node_hash(node, ctx, digest); 59650a81498SJens Wiklander if (res == TEE_SUCCESS && 59750a81498SJens Wiklander buf_compare_ct(digest, node->node.hash, sizeof(digest))) 59850a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 59950a81498SJens Wiklander 60050a81498SJens Wiklander return res; 60150a81498SJens Wiklander } 60250a81498SJens Wiklander 60350a81498SJens Wiklander static TEE_Result verify_tree(struct tee_fs_htree *ht) 60450a81498SJens Wiklander { 60550a81498SJens Wiklander TEE_Result res; 60650a81498SJens Wiklander size_t size; 60750a81498SJens Wiklander void *ctx; 60850a81498SJens Wiklander 609b887bd8fSJens Wiklander res = crypto_hash_get_ctx_size(TEE_FS_HTREE_HASH_ALG, &size); 61050a81498SJens Wiklander if (res != TEE_SUCCESS) 61150a81498SJens Wiklander return res; 61250a81498SJens Wiklander 61350a81498SJens Wiklander ctx = malloc(size); 61450a81498SJens Wiklander if (!ctx) 61550a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 61650a81498SJens Wiklander 61750a81498SJens Wiklander res = htree_traverse_post_order(ht, verify_node, ctx); 61850a81498SJens Wiklander free(ctx); 61950a81498SJens Wiklander 62050a81498SJens Wiklander return res; 62150a81498SJens Wiklander } 62250a81498SJens Wiklander 62350a81498SJens Wiklander static TEE_Result init_root_node(struct tee_fs_htree *ht) 62450a81498SJens Wiklander { 62550a81498SJens Wiklander TEE_Result res; 62650a81498SJens Wiklander size_t size; 62750a81498SJens Wiklander void *ctx; 62850a81498SJens Wiklander 629b887bd8fSJens Wiklander res = crypto_hash_get_ctx_size(TEE_FS_HTREE_HASH_ALG, &size); 63050a81498SJens Wiklander if (res != TEE_SUCCESS) 63150a81498SJens Wiklander return res; 63250a81498SJens Wiklander ctx = malloc(size); 63350a81498SJens Wiklander if (!ctx) 63450a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 63550a81498SJens Wiklander 63650a81498SJens Wiklander ht->root.id = 1; 637*09eedd2dSJens Wiklander ht->root.dirty = true; 63850a81498SJens Wiklander 63950a81498SJens Wiklander res = calc_node_hash(&ht->root, ctx, ht->root.node.hash); 64050a81498SJens Wiklander free(ctx); 64150a81498SJens Wiklander 64250a81498SJens Wiklander return res; 64350a81498SJens Wiklander } 64450a81498SJens Wiklander 6450c4e1284SJens Wiklander TEE_Result tee_fs_htree_open(bool create, uint8_t *hash, const TEE_UUID *uuid, 64650a81498SJens Wiklander const struct tee_fs_htree_storage *stor, 64750a81498SJens Wiklander void *stor_aux, struct tee_fs_htree **ht_ret) 64850a81498SJens Wiklander { 64950a81498SJens Wiklander TEE_Result res; 65050a81498SJens Wiklander struct tee_fs_htree *ht = calloc(1, sizeof(*ht)); 65150a81498SJens Wiklander 65250a81498SJens Wiklander if (!ht) 65350a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 65450a81498SJens Wiklander 6550c4e1284SJens Wiklander ht->uuid = uuid; 65650a81498SJens Wiklander ht->stor = stor; 65750a81498SJens Wiklander ht->stor_aux = stor_aux; 65850a81498SJens Wiklander 65950a81498SJens Wiklander if (create) { 660e2adafecSJens Wiklander const struct tee_fs_htree_image dummy_head = { .counter = 0 }; 661e2adafecSJens Wiklander 66236a063efSJens Wiklander res = crypto_rng_read(ht->fek, sizeof(ht->fek)); 66350a81498SJens Wiklander if (res != TEE_SUCCESS) 66450a81498SJens Wiklander goto out; 66550a81498SJens Wiklander 6660c4e1284SJens Wiklander res = tee_fs_fek_crypt(ht->uuid, TEE_MODE_ENCRYPT, ht->fek, 66750a81498SJens Wiklander sizeof(ht->fek), ht->head.enc_fek); 66850a81498SJens Wiklander if (res != TEE_SUCCESS) 66950a81498SJens Wiklander goto out; 67050a81498SJens Wiklander 67150a81498SJens Wiklander res = init_root_node(ht); 67250a81498SJens Wiklander if (res != TEE_SUCCESS) 67350a81498SJens Wiklander goto out; 67450a81498SJens Wiklander 67550a81498SJens Wiklander ht->dirty = true; 676f28e5060SJens Wiklander res = tee_fs_htree_sync_to_storage(&ht, hash); 677e2adafecSJens Wiklander if (res != TEE_SUCCESS) 678e2adafecSJens Wiklander goto out; 679e2adafecSJens Wiklander res = rpc_write_head(ht, 0, &dummy_head); 68050a81498SJens Wiklander } else { 681f28e5060SJens Wiklander res = init_head_from_data(ht, hash); 68250a81498SJens Wiklander if (res != TEE_SUCCESS) 68350a81498SJens Wiklander goto out; 68450a81498SJens Wiklander 68550a81498SJens Wiklander res = verify_root(ht); 68650a81498SJens Wiklander if (res != TEE_SUCCESS) 68750a81498SJens Wiklander goto out; 68850a81498SJens Wiklander 68950a81498SJens Wiklander res = init_tree_from_data(ht); 69050a81498SJens Wiklander if (res != TEE_SUCCESS) 69150a81498SJens Wiklander goto out; 69250a81498SJens Wiklander 69350a81498SJens Wiklander res = verify_tree(ht); 69450a81498SJens Wiklander } 69550a81498SJens Wiklander out: 69650a81498SJens Wiklander if (res == TEE_SUCCESS) 69750a81498SJens Wiklander *ht_ret = ht; 69850a81498SJens Wiklander else 69950a81498SJens Wiklander tee_fs_htree_close(&ht); 70050a81498SJens Wiklander return res; 70150a81498SJens Wiklander } 70250a81498SJens Wiklander 70350a81498SJens Wiklander struct tee_fs_htree_meta *tee_fs_htree_get_meta(struct tee_fs_htree *ht) 70450a81498SJens Wiklander { 70550a81498SJens Wiklander return &ht->imeta.meta; 70650a81498SJens Wiklander } 70750a81498SJens Wiklander 70850a81498SJens Wiklander static TEE_Result free_node(struct traverse_arg *targ __unused, 70950a81498SJens Wiklander struct htree_node *node) 71050a81498SJens Wiklander { 71150a81498SJens Wiklander if (node->parent) 71250a81498SJens Wiklander free(node); 71350a81498SJens Wiklander return TEE_SUCCESS; 71450a81498SJens Wiklander } 71550a81498SJens Wiklander 71650a81498SJens Wiklander void tee_fs_htree_close(struct tee_fs_htree **ht) 71750a81498SJens Wiklander { 71850a81498SJens Wiklander if (!*ht) 71950a81498SJens Wiklander return; 72050a81498SJens Wiklander htree_traverse_post_order(*ht, free_node, NULL); 72150a81498SJens Wiklander free(*ht); 72250a81498SJens Wiklander *ht = NULL; 72350a81498SJens Wiklander } 72450a81498SJens Wiklander 72550a81498SJens Wiklander static TEE_Result htree_sync_node_to_storage(struct traverse_arg *targ, 72650a81498SJens Wiklander struct htree_node *node) 72750a81498SJens Wiklander { 72850a81498SJens Wiklander TEE_Result res; 72950a81498SJens Wiklander uint8_t vers; 73050a81498SJens Wiklander 731e2adafecSJens Wiklander /* 732e2adafecSJens Wiklander * The node can be dirty while the block isn't updated due to 733e2adafecSJens Wiklander * updated children, but if block is updated the node has to be 734e2adafecSJens Wiklander * dirty. 735e2adafecSJens Wiklander */ 736e2adafecSJens Wiklander assert(node->dirty >= node->block_updated); 737e2adafecSJens Wiklander 73850a81498SJens Wiklander if (!node->dirty) 73950a81498SJens Wiklander return TEE_SUCCESS; 74050a81498SJens Wiklander 74150a81498SJens Wiklander if (node->parent) { 74250a81498SJens Wiklander uint32_t f = HTREE_NODE_COMMITTED_CHILD(node->id & 1); 74350a81498SJens Wiklander 74450a81498SJens Wiklander node->parent->dirty = true; 74550a81498SJens Wiklander node->parent->node.flags ^= f; 74650a81498SJens Wiklander vers = !!(node->parent->node.flags & f); 74750a81498SJens Wiklander } else { 74850a81498SJens Wiklander /* 74950a81498SJens Wiklander * Counter isn't updated yet, it's increased just before 75050a81498SJens Wiklander * writing the header. 75150a81498SJens Wiklander */ 75250a81498SJens Wiklander vers = !(targ->ht->head.counter & 1); 75350a81498SJens Wiklander } 75450a81498SJens Wiklander 75550a81498SJens Wiklander res = calc_node_hash(node, targ->arg, node->node.hash); 75650a81498SJens Wiklander if (res != TEE_SUCCESS) 75750a81498SJens Wiklander return res; 75850a81498SJens Wiklander 75950a81498SJens Wiklander node->dirty = false; 760e2adafecSJens Wiklander node->block_updated = false; 76150a81498SJens Wiklander 76250a81498SJens Wiklander return rpc_write_node(targ->ht, node->id, vers, &node->node); 76350a81498SJens Wiklander } 76450a81498SJens Wiklander 76550a81498SJens Wiklander static TEE_Result update_root(struct tee_fs_htree *ht) 76650a81498SJens Wiklander { 76750a81498SJens Wiklander TEE_Result res; 76850a81498SJens Wiklander void *ctx; 76950a81498SJens Wiklander 77050a81498SJens Wiklander ht->head.counter++; 77150a81498SJens Wiklander 77250a81498SJens Wiklander res = authenc_init(&ctx, TEE_MODE_ENCRYPT, ht, NULL, sizeof(ht->imeta)); 77350a81498SJens Wiklander if (res != TEE_SUCCESS) 77450a81498SJens Wiklander return res; 77550a81498SJens Wiklander 77650a81498SJens Wiklander return authenc_encrypt_final(ctx, ht->head.tag, &ht->imeta, 77750a81498SJens Wiklander sizeof(ht->imeta), &ht->head.imeta); 77850a81498SJens Wiklander } 77950a81498SJens Wiklander 780f28e5060SJens Wiklander TEE_Result tee_fs_htree_sync_to_storage(struct tee_fs_htree **ht_arg, 781f28e5060SJens Wiklander uint8_t *hash) 78250a81498SJens Wiklander { 78350a81498SJens Wiklander TEE_Result res; 78450a81498SJens Wiklander struct tee_fs_htree *ht = *ht_arg; 78550a81498SJens Wiklander size_t size; 78650a81498SJens Wiklander void *ctx; 78750a81498SJens Wiklander 78850a81498SJens Wiklander if (!ht) 78950a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 79050a81498SJens Wiklander 791a48d0254SJens Wiklander if (!ht->dirty) 792a48d0254SJens Wiklander return TEE_SUCCESS; 793a48d0254SJens Wiklander 794b887bd8fSJens Wiklander res = crypto_hash_get_ctx_size(TEE_FS_HTREE_HASH_ALG, &size); 79550a81498SJens Wiklander if (res != TEE_SUCCESS) 79650a81498SJens Wiklander return res; 79750a81498SJens Wiklander ctx = malloc(size); 79850a81498SJens Wiklander if (!ctx) 79950a81498SJens Wiklander return TEE_ERROR_OUT_OF_MEMORY; 80050a81498SJens Wiklander 80150a81498SJens Wiklander res = htree_traverse_post_order(ht, htree_sync_node_to_storage, ctx); 80250a81498SJens Wiklander if (res != TEE_SUCCESS) 80350a81498SJens Wiklander goto out; 80450a81498SJens Wiklander 80550a81498SJens Wiklander /* All the nodes are written to storage now. Time to update root. */ 80650a81498SJens Wiklander res = update_root(ht); 80750a81498SJens Wiklander if (res != TEE_SUCCESS) 80850a81498SJens Wiklander goto out; 80950a81498SJens Wiklander 81050a81498SJens Wiklander res = rpc_write_head(ht, ht->head.counter & 1, &ht->head); 81150a81498SJens Wiklander if (res != TEE_SUCCESS) 81250a81498SJens Wiklander goto out; 81350a81498SJens Wiklander 81450a81498SJens Wiklander ht->dirty = false; 815f28e5060SJens Wiklander if (hash) 816f28e5060SJens Wiklander memcpy(hash, ht->root.node.hash, sizeof(ht->root.node.hash)); 81750a81498SJens Wiklander out: 81850a81498SJens Wiklander free(ctx); 81950a81498SJens Wiklander if (res != TEE_SUCCESS) 82050a81498SJens Wiklander tee_fs_htree_close(ht_arg); 82150a81498SJens Wiklander return res; 82250a81498SJens Wiklander } 82350a81498SJens Wiklander 82450a81498SJens Wiklander static TEE_Result get_block_node(struct tee_fs_htree *ht, bool create, 825e2adafecSJens Wiklander size_t block_num, struct htree_node **node) 82650a81498SJens Wiklander { 82750a81498SJens Wiklander TEE_Result res; 82850a81498SJens Wiklander struct htree_node *nd; 82950a81498SJens Wiklander 83050a81498SJens Wiklander res = get_node(ht, create, BLOCK_NUM_TO_NODE_ID(block_num), &nd); 831e2adafecSJens Wiklander if (res == TEE_SUCCESS) 83250a81498SJens Wiklander *node = nd; 83350a81498SJens Wiklander 83450a81498SJens Wiklander return res; 83550a81498SJens Wiklander } 83650a81498SJens Wiklander 83750a81498SJens Wiklander TEE_Result tee_fs_htree_write_block(struct tee_fs_htree **ht_arg, 83850a81498SJens Wiklander size_t block_num, const void *block) 83950a81498SJens Wiklander { 84050a81498SJens Wiklander struct tee_fs_htree *ht = *ht_arg; 84150a81498SJens Wiklander TEE_Result res; 84250a81498SJens Wiklander struct tee_fs_rpc_operation op; 84350a81498SJens Wiklander struct htree_node *node = NULL; 84450a81498SJens Wiklander uint8_t block_vers; 84550a81498SJens Wiklander void *ctx; 84650a81498SJens Wiklander void *enc_block; 84750a81498SJens Wiklander 84850a81498SJens Wiklander if (!ht) 84950a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 85050a81498SJens Wiklander 851e2adafecSJens Wiklander res = get_block_node(ht, true, block_num, &node); 85250a81498SJens Wiklander if (res != TEE_SUCCESS) 85350a81498SJens Wiklander goto out; 85450a81498SJens Wiklander 855e2adafecSJens Wiklander if (!node->block_updated) 856e2adafecSJens Wiklander node->node.flags ^= HTREE_NODE_COMMITTED_BLOCK; 857e2adafecSJens Wiklander 858e2adafecSJens Wiklander block_vers = !!(node->node.flags & HTREE_NODE_COMMITTED_BLOCK); 85950a81498SJens Wiklander res = ht->stor->rpc_write_init(ht->stor_aux, &op, 86050a81498SJens Wiklander TEE_FS_HTREE_TYPE_BLOCK, block_num, 86150a81498SJens Wiklander block_vers, &enc_block); 86250a81498SJens Wiklander if (res != TEE_SUCCESS) 86350a81498SJens Wiklander goto out; 86450a81498SJens Wiklander 86550a81498SJens Wiklander res = authenc_init(&ctx, TEE_MODE_ENCRYPT, ht, &node->node, 86650a81498SJens Wiklander ht->stor->block_size); 86750a81498SJens Wiklander if (res != TEE_SUCCESS) 86850a81498SJens Wiklander goto out; 86950a81498SJens Wiklander res = authenc_encrypt_final(ctx, node->node.tag, block, 87050a81498SJens Wiklander ht->stor->block_size, enc_block); 87150a81498SJens Wiklander if (res != TEE_SUCCESS) 87250a81498SJens Wiklander goto out; 87350a81498SJens Wiklander 87464fa6c0aSJens Wiklander res = ht->stor->rpc_write_final(&op); 87550a81498SJens Wiklander if (res != TEE_SUCCESS) 87650a81498SJens Wiklander goto out; 87750a81498SJens Wiklander 878e2adafecSJens Wiklander node->block_updated = true; 87950a81498SJens Wiklander node->dirty = true; 88050a81498SJens Wiklander ht->dirty = true; 88150a81498SJens Wiklander out: 88250a81498SJens Wiklander if (res != TEE_SUCCESS) 88350a81498SJens Wiklander tee_fs_htree_close(ht_arg); 88450a81498SJens Wiklander return res; 88550a81498SJens Wiklander } 88650a81498SJens Wiklander 88750a81498SJens Wiklander TEE_Result tee_fs_htree_read_block(struct tee_fs_htree **ht_arg, 88850a81498SJens Wiklander size_t block_num, void *block) 88950a81498SJens Wiklander { 89050a81498SJens Wiklander struct tee_fs_htree *ht = *ht_arg; 89150a81498SJens Wiklander TEE_Result res; 89250a81498SJens Wiklander struct tee_fs_rpc_operation op; 89350a81498SJens Wiklander struct htree_node *node; 89450a81498SJens Wiklander uint8_t block_vers; 89550a81498SJens Wiklander size_t len; 89650a81498SJens Wiklander void *ctx; 89750a81498SJens Wiklander void *enc_block; 89850a81498SJens Wiklander 89950a81498SJens Wiklander if (!ht) 90050a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 90150a81498SJens Wiklander 902e2adafecSJens Wiklander res = get_block_node(ht, false, block_num, &node); 90350a81498SJens Wiklander if (res != TEE_SUCCESS) 90450a81498SJens Wiklander goto out; 90550a81498SJens Wiklander 906e2adafecSJens Wiklander block_vers = !!(node->node.flags & HTREE_NODE_COMMITTED_BLOCK); 90750a81498SJens Wiklander res = ht->stor->rpc_read_init(ht->stor_aux, &op, 90850a81498SJens Wiklander TEE_FS_HTREE_TYPE_BLOCK, block_num, 90950a81498SJens Wiklander block_vers, &enc_block); 91050a81498SJens Wiklander if (res != TEE_SUCCESS) 91150a81498SJens Wiklander goto out; 91250a81498SJens Wiklander 91364fa6c0aSJens Wiklander res = ht->stor->rpc_read_final(&op, &len); 91450a81498SJens Wiklander if (res != TEE_SUCCESS) 91550a81498SJens Wiklander goto out; 91650a81498SJens Wiklander if (len != ht->stor->block_size) { 91750a81498SJens Wiklander res = TEE_ERROR_CORRUPT_OBJECT; 91850a81498SJens Wiklander goto out; 91950a81498SJens Wiklander } 92050a81498SJens Wiklander 92150a81498SJens Wiklander res = authenc_init(&ctx, TEE_MODE_DECRYPT, ht, &node->node, 92250a81498SJens Wiklander ht->stor->block_size); 92350a81498SJens Wiklander if (res != TEE_SUCCESS) 92450a81498SJens Wiklander goto out; 92550a81498SJens Wiklander 92650a81498SJens Wiklander res = authenc_decrypt_final(ctx, node->node.tag, enc_block, 92750a81498SJens Wiklander ht->stor->block_size, block); 92850a81498SJens Wiklander out: 92950a81498SJens Wiklander if (res != TEE_SUCCESS) 93050a81498SJens Wiklander tee_fs_htree_close(ht_arg); 93150a81498SJens Wiklander return res; 93250a81498SJens Wiklander } 93350a81498SJens Wiklander 93450a81498SJens Wiklander TEE_Result tee_fs_htree_truncate(struct tee_fs_htree **ht_arg, size_t block_num) 93550a81498SJens Wiklander { 93650a81498SJens Wiklander struct tee_fs_htree *ht = *ht_arg; 93750a81498SJens Wiklander size_t node_id = BLOCK_NUM_TO_NODE_ID(block_num); 93850a81498SJens Wiklander struct htree_node *node; 93950a81498SJens Wiklander 94050a81498SJens Wiklander if (!ht) 94150a81498SJens Wiklander return TEE_ERROR_CORRUPT_OBJECT; 94250a81498SJens Wiklander 94350a81498SJens Wiklander while (node_id < ht->imeta.max_node_id) { 94450a81498SJens Wiklander node = find_closest_node(ht, ht->imeta.max_node_id); 94550a81498SJens Wiklander assert(node && node->id == ht->imeta.max_node_id); 94650a81498SJens Wiklander assert(!node->child[0] && !node->child[1]); 94750a81498SJens Wiklander assert(node->parent); 94850a81498SJens Wiklander assert(node->parent->child[node->id & 1] == node); 94950a81498SJens Wiklander node->parent->child[node->id & 1] = NULL; 95050a81498SJens Wiklander free(node); 95150a81498SJens Wiklander ht->imeta.max_node_id--; 95250a81498SJens Wiklander ht->dirty = true; 95350a81498SJens Wiklander } 95450a81498SJens Wiklander 95550a81498SJens Wiklander return TEE_SUCCESS; 95650a81498SJens Wiklander } 957