1237fead6SMichael Halcrow /** 2237fead6SMichael Halcrow * eCryptfs: Linux filesystem encryption layer 3237fead6SMichael Halcrow * 4237fead6SMichael Halcrow * Copyright (C) 1997-2004 Erez Zadok 5237fead6SMichael Halcrow * Copyright (C) 2001-2004 Stony Brook University 6dd2a3b7aSMichael Halcrow * Copyright (C) 2004-2007 International Business Machines Corp. 7237fead6SMichael Halcrow * Author(s): Michael A. Halcrow <mahalcro@us.ibm.com> 8237fead6SMichael Halcrow * Michael C. Thompson <mcthomps@us.ibm.com> 9237fead6SMichael Halcrow * 10237fead6SMichael Halcrow * This program is free software; you can redistribute it and/or 11237fead6SMichael Halcrow * modify it under the terms of the GNU General Public License as 12237fead6SMichael Halcrow * published by the Free Software Foundation; either version 2 of the 13237fead6SMichael Halcrow * License, or (at your option) any later version. 14237fead6SMichael Halcrow * 15237fead6SMichael Halcrow * This program is distributed in the hope that it will be useful, but 16237fead6SMichael Halcrow * WITHOUT ANY WARRANTY; without even the implied warranty of 17237fead6SMichael Halcrow * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 18237fead6SMichael Halcrow * General Public License for more details. 19237fead6SMichael Halcrow * 20237fead6SMichael Halcrow * You should have received a copy of the GNU General Public License 21237fead6SMichael Halcrow * along with this program; if not, write to the Free Software 22237fead6SMichael Halcrow * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 23237fead6SMichael Halcrow * 02111-1307, USA. 24237fead6SMichael Halcrow */ 25237fead6SMichael Halcrow 26237fead6SMichael Halcrow #include <linux/fs.h> 27237fead6SMichael Halcrow #include <linux/mount.h> 28237fead6SMichael Halcrow #include <linux/pagemap.h> 29237fead6SMichael Halcrow #include <linux/random.h> 30237fead6SMichael Halcrow #include <linux/compiler.h> 31237fead6SMichael Halcrow #include <linux/key.h> 32237fead6SMichael Halcrow #include <linux/namei.h> 33237fead6SMichael Halcrow #include <linux/crypto.h> 34237fead6SMichael Halcrow #include <linux/file.h> 35237fead6SMichael Halcrow #include <linux/scatterlist.h> 365a0e3ad6STejun Heo #include <linux/slab.h> 3729335c6aSHarvey Harrison #include <asm/unaligned.h> 38237fead6SMichael Halcrow #include "ecryptfs_kernel.h" 39237fead6SMichael Halcrow 40237fead6SMichael Halcrow static int 41237fead6SMichael Halcrow ecryptfs_decrypt_page_offset(struct ecryptfs_crypt_stat *crypt_stat, 42237fead6SMichael Halcrow struct page *dst_page, int dst_offset, 43237fead6SMichael Halcrow struct page *src_page, int src_offset, int size, 44237fead6SMichael Halcrow unsigned char *iv); 45237fead6SMichael Halcrow static int 46237fead6SMichael Halcrow ecryptfs_encrypt_page_offset(struct ecryptfs_crypt_stat *crypt_stat, 47237fead6SMichael Halcrow struct page *dst_page, int dst_offset, 48237fead6SMichael Halcrow struct page *src_page, int src_offset, int size, 49237fead6SMichael Halcrow unsigned char *iv); 50237fead6SMichael Halcrow 51237fead6SMichael Halcrow /** 52237fead6SMichael Halcrow * ecryptfs_to_hex 53237fead6SMichael Halcrow * @dst: Buffer to take hex character representation of contents of 54237fead6SMichael Halcrow * src; must be at least of size (src_size * 2) 55237fead6SMichael Halcrow * @src: Buffer to be converted to a hex string respresentation 56237fead6SMichael Halcrow * @src_size: number of bytes to convert 57237fead6SMichael Halcrow */ 58237fead6SMichael Halcrow void ecryptfs_to_hex(char *dst, char *src, size_t src_size) 59237fead6SMichael Halcrow { 60237fead6SMichael Halcrow int x; 61237fead6SMichael Halcrow 62237fead6SMichael Halcrow for (x = 0; x < src_size; x++) 63237fead6SMichael Halcrow sprintf(&dst[x * 2], "%.2x", (unsigned char)src[x]); 64237fead6SMichael Halcrow } 65237fead6SMichael Halcrow 66237fead6SMichael Halcrow /** 67237fead6SMichael Halcrow * ecryptfs_from_hex 68237fead6SMichael Halcrow * @dst: Buffer to take the bytes from src hex; must be at least of 69237fead6SMichael Halcrow * size (src_size / 2) 70237fead6SMichael Halcrow * @src: Buffer to be converted from a hex string respresentation to raw value 71237fead6SMichael Halcrow * @dst_size: size of dst buffer, or number of hex characters pairs to convert 72237fead6SMichael Halcrow */ 73237fead6SMichael Halcrow void ecryptfs_from_hex(char *dst, char *src, int dst_size) 74237fead6SMichael Halcrow { 75237fead6SMichael Halcrow int x; 76237fead6SMichael Halcrow char tmp[3] = { 0, }; 77237fead6SMichael Halcrow 78237fead6SMichael Halcrow for (x = 0; x < dst_size; x++) { 79237fead6SMichael Halcrow tmp[0] = src[x * 2]; 80237fead6SMichael Halcrow tmp[1] = src[x * 2 + 1]; 81237fead6SMichael Halcrow dst[x] = (unsigned char)simple_strtol(tmp, NULL, 16); 82237fead6SMichael Halcrow } 83237fead6SMichael Halcrow } 84237fead6SMichael Halcrow 85237fead6SMichael Halcrow /** 86237fead6SMichael Halcrow * ecryptfs_calculate_md5 - calculates the md5 of @src 87237fead6SMichael Halcrow * @dst: Pointer to 16 bytes of allocated memory 88237fead6SMichael Halcrow * @crypt_stat: Pointer to crypt_stat struct for the current inode 89237fead6SMichael Halcrow * @src: Data to be md5'd 90237fead6SMichael Halcrow * @len: Length of @src 91237fead6SMichael Halcrow * 92237fead6SMichael Halcrow * Uses the allocated crypto context that crypt_stat references to 93237fead6SMichael Halcrow * generate the MD5 sum of the contents of src. 94237fead6SMichael Halcrow */ 95237fead6SMichael Halcrow static int ecryptfs_calculate_md5(char *dst, 96237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 97237fead6SMichael Halcrow char *src, int len) 98237fead6SMichael Halcrow { 99237fead6SMichael Halcrow struct scatterlist sg; 100565d9724SMichael Halcrow struct hash_desc desc = { 101565d9724SMichael Halcrow .tfm = crypt_stat->hash_tfm, 102565d9724SMichael Halcrow .flags = CRYPTO_TFM_REQ_MAY_SLEEP 103565d9724SMichael Halcrow }; 104565d9724SMichael Halcrow int rc = 0; 105237fead6SMichael Halcrow 106565d9724SMichael Halcrow mutex_lock(&crypt_stat->cs_hash_tfm_mutex); 107237fead6SMichael Halcrow sg_init_one(&sg, (u8 *)src, len); 108565d9724SMichael Halcrow if (!desc.tfm) { 109565d9724SMichael Halcrow desc.tfm = crypto_alloc_hash(ECRYPTFS_DEFAULT_HASH, 0, 110565d9724SMichael Halcrow CRYPTO_ALG_ASYNC); 111565d9724SMichael Halcrow if (IS_ERR(desc.tfm)) { 112565d9724SMichael Halcrow rc = PTR_ERR(desc.tfm); 113237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error attempting to " 114565d9724SMichael Halcrow "allocate crypto context; rc = [%d]\n", 115565d9724SMichael Halcrow rc); 116237fead6SMichael Halcrow goto out; 117237fead6SMichael Halcrow } 118565d9724SMichael Halcrow crypt_stat->hash_tfm = desc.tfm; 119237fead6SMichael Halcrow } 1208a29f2b0SMichael Halcrow rc = crypto_hash_init(&desc); 1218a29f2b0SMichael Halcrow if (rc) { 1228a29f2b0SMichael Halcrow printk(KERN_ERR 1238a29f2b0SMichael Halcrow "%s: Error initializing crypto hash; rc = [%d]\n", 12418d1dbf1SHarvey Harrison __func__, rc); 1258a29f2b0SMichael Halcrow goto out; 1268a29f2b0SMichael Halcrow } 1278a29f2b0SMichael Halcrow rc = crypto_hash_update(&desc, &sg, len); 1288a29f2b0SMichael Halcrow if (rc) { 1298a29f2b0SMichael Halcrow printk(KERN_ERR 1308a29f2b0SMichael Halcrow "%s: Error updating crypto hash; rc = [%d]\n", 13118d1dbf1SHarvey Harrison __func__, rc); 1328a29f2b0SMichael Halcrow goto out; 1338a29f2b0SMichael Halcrow } 1348a29f2b0SMichael Halcrow rc = crypto_hash_final(&desc, dst); 1358a29f2b0SMichael Halcrow if (rc) { 1368a29f2b0SMichael Halcrow printk(KERN_ERR 1378a29f2b0SMichael Halcrow "%s: Error finalizing crypto hash; rc = [%d]\n", 13818d1dbf1SHarvey Harrison __func__, rc); 1398a29f2b0SMichael Halcrow goto out; 1408a29f2b0SMichael Halcrow } 141237fead6SMichael Halcrow out: 1428a29f2b0SMichael Halcrow mutex_unlock(&crypt_stat->cs_hash_tfm_mutex); 143237fead6SMichael Halcrow return rc; 144237fead6SMichael Halcrow } 145237fead6SMichael Halcrow 146cd9d67dfSMichael Halcrow static int ecryptfs_crypto_api_algify_cipher_name(char **algified_name, 1478bba066fSMichael Halcrow char *cipher_name, 1488bba066fSMichael Halcrow char *chaining_modifier) 1498bba066fSMichael Halcrow { 1508bba066fSMichael Halcrow int cipher_name_len = strlen(cipher_name); 1518bba066fSMichael Halcrow int chaining_modifier_len = strlen(chaining_modifier); 1528bba066fSMichael Halcrow int algified_name_len; 1538bba066fSMichael Halcrow int rc; 1548bba066fSMichael Halcrow 1558bba066fSMichael Halcrow algified_name_len = (chaining_modifier_len + cipher_name_len + 3); 1568bba066fSMichael Halcrow (*algified_name) = kmalloc(algified_name_len, GFP_KERNEL); 1577bd473fcSMichael Halcrow if (!(*algified_name)) { 1588bba066fSMichael Halcrow rc = -ENOMEM; 1598bba066fSMichael Halcrow goto out; 1608bba066fSMichael Halcrow } 1618bba066fSMichael Halcrow snprintf((*algified_name), algified_name_len, "%s(%s)", 1628bba066fSMichael Halcrow chaining_modifier, cipher_name); 1638bba066fSMichael Halcrow rc = 0; 1648bba066fSMichael Halcrow out: 1658bba066fSMichael Halcrow return rc; 1668bba066fSMichael Halcrow } 1678bba066fSMichael Halcrow 168237fead6SMichael Halcrow /** 169237fead6SMichael Halcrow * ecryptfs_derive_iv 170237fead6SMichael Halcrow * @iv: destination for the derived iv vale 171237fead6SMichael Halcrow * @crypt_stat: Pointer to crypt_stat struct for the current inode 172d6a13c17SMichael Halcrow * @offset: Offset of the extent whose IV we are to derive 173237fead6SMichael Halcrow * 174237fead6SMichael Halcrow * Generate the initialization vector from the given root IV and page 175237fead6SMichael Halcrow * offset. 176237fead6SMichael Halcrow * 177237fead6SMichael Halcrow * Returns zero on success; non-zero on error. 178237fead6SMichael Halcrow */ 179a34f60f7SMichael Halcrow int ecryptfs_derive_iv(char *iv, struct ecryptfs_crypt_stat *crypt_stat, 180d6a13c17SMichael Halcrow loff_t offset) 181237fead6SMichael Halcrow { 182237fead6SMichael Halcrow int rc = 0; 183237fead6SMichael Halcrow char dst[MD5_DIGEST_SIZE]; 184237fead6SMichael Halcrow char src[ECRYPTFS_MAX_IV_BYTES + 16]; 185237fead6SMichael Halcrow 186237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 187237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "root iv:\n"); 188237fead6SMichael Halcrow ecryptfs_dump_hex(crypt_stat->root_iv, crypt_stat->iv_bytes); 189237fead6SMichael Halcrow } 190237fead6SMichael Halcrow /* TODO: It is probably secure to just cast the least 191237fead6SMichael Halcrow * significant bits of the root IV into an unsigned long and 192237fead6SMichael Halcrow * add the offset to that rather than go through all this 193237fead6SMichael Halcrow * hashing business. -Halcrow */ 194237fead6SMichael Halcrow memcpy(src, crypt_stat->root_iv, crypt_stat->iv_bytes); 195237fead6SMichael Halcrow memset((src + crypt_stat->iv_bytes), 0, 16); 196d6a13c17SMichael Halcrow snprintf((src + crypt_stat->iv_bytes), 16, "%lld", offset); 197237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 198237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "source:\n"); 199237fead6SMichael Halcrow ecryptfs_dump_hex(src, (crypt_stat->iv_bytes + 16)); 200237fead6SMichael Halcrow } 201237fead6SMichael Halcrow rc = ecryptfs_calculate_md5(dst, crypt_stat, src, 202237fead6SMichael Halcrow (crypt_stat->iv_bytes + 16)); 203237fead6SMichael Halcrow if (rc) { 204237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Error attempting to compute " 205237fead6SMichael Halcrow "MD5 while generating IV for a page\n"); 206237fead6SMichael Halcrow goto out; 207237fead6SMichael Halcrow } 208237fead6SMichael Halcrow memcpy(iv, dst, crypt_stat->iv_bytes); 209237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 210237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "derived iv:\n"); 211237fead6SMichael Halcrow ecryptfs_dump_hex(iv, crypt_stat->iv_bytes); 212237fead6SMichael Halcrow } 213237fead6SMichael Halcrow out: 214237fead6SMichael Halcrow return rc; 215237fead6SMichael Halcrow } 216237fead6SMichael Halcrow 217237fead6SMichael Halcrow /** 218237fead6SMichael Halcrow * ecryptfs_init_crypt_stat 219237fead6SMichael Halcrow * @crypt_stat: Pointer to the crypt_stat struct to initialize. 220237fead6SMichael Halcrow * 221237fead6SMichael Halcrow * Initialize the crypt_stat structure. 222237fead6SMichael Halcrow */ 223237fead6SMichael Halcrow void 224237fead6SMichael Halcrow ecryptfs_init_crypt_stat(struct ecryptfs_crypt_stat *crypt_stat) 225237fead6SMichael Halcrow { 226237fead6SMichael Halcrow memset((void *)crypt_stat, 0, sizeof(struct ecryptfs_crypt_stat)); 227f4aad16aSMichael Halcrow INIT_LIST_HEAD(&crypt_stat->keysig_list); 228f4aad16aSMichael Halcrow mutex_init(&crypt_stat->keysig_list_mutex); 229237fead6SMichael Halcrow mutex_init(&crypt_stat->cs_mutex); 230237fead6SMichael Halcrow mutex_init(&crypt_stat->cs_tfm_mutex); 231565d9724SMichael Halcrow mutex_init(&crypt_stat->cs_hash_tfm_mutex); 232e2bd99ecSMichael Halcrow crypt_stat->flags |= ECRYPTFS_STRUCT_INITIALIZED; 233237fead6SMichael Halcrow } 234237fead6SMichael Halcrow 235237fead6SMichael Halcrow /** 236fcd12835SMichael Halcrow * ecryptfs_destroy_crypt_stat 237237fead6SMichael Halcrow * @crypt_stat: Pointer to the crypt_stat struct to initialize. 238237fead6SMichael Halcrow * 239237fead6SMichael Halcrow * Releases all memory associated with a crypt_stat struct. 240237fead6SMichael Halcrow */ 241fcd12835SMichael Halcrow void ecryptfs_destroy_crypt_stat(struct ecryptfs_crypt_stat *crypt_stat) 242237fead6SMichael Halcrow { 243f4aad16aSMichael Halcrow struct ecryptfs_key_sig *key_sig, *key_sig_tmp; 244f4aad16aSMichael Halcrow 245237fead6SMichael Halcrow if (crypt_stat->tfm) 2468bba066fSMichael Halcrow crypto_free_blkcipher(crypt_stat->tfm); 247565d9724SMichael Halcrow if (crypt_stat->hash_tfm) 248565d9724SMichael Halcrow crypto_free_hash(crypt_stat->hash_tfm); 249f4aad16aSMichael Halcrow list_for_each_entry_safe(key_sig, key_sig_tmp, 250f4aad16aSMichael Halcrow &crypt_stat->keysig_list, crypt_stat_list) { 251f4aad16aSMichael Halcrow list_del(&key_sig->crypt_stat_list); 252f4aad16aSMichael Halcrow kmem_cache_free(ecryptfs_key_sig_cache, key_sig); 253f4aad16aSMichael Halcrow } 254237fead6SMichael Halcrow memset(crypt_stat, 0, sizeof(struct ecryptfs_crypt_stat)); 255237fead6SMichael Halcrow } 256237fead6SMichael Halcrow 257fcd12835SMichael Halcrow void ecryptfs_destroy_mount_crypt_stat( 258237fead6SMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat) 259237fead6SMichael Halcrow { 260f4aad16aSMichael Halcrow struct ecryptfs_global_auth_tok *auth_tok, *auth_tok_tmp; 261f4aad16aSMichael Halcrow 262f4aad16aSMichael Halcrow if (!(mount_crypt_stat->flags & ECRYPTFS_MOUNT_CRYPT_STAT_INITIALIZED)) 263f4aad16aSMichael Halcrow return; 264f4aad16aSMichael Halcrow mutex_lock(&mount_crypt_stat->global_auth_tok_list_mutex); 265f4aad16aSMichael Halcrow list_for_each_entry_safe(auth_tok, auth_tok_tmp, 266f4aad16aSMichael Halcrow &mount_crypt_stat->global_auth_tok_list, 267f4aad16aSMichael Halcrow mount_crypt_stat_list) { 268f4aad16aSMichael Halcrow list_del(&auth_tok->mount_crypt_stat_list); 269f4aad16aSMichael Halcrow mount_crypt_stat->num_global_auth_toks--; 270f4aad16aSMichael Halcrow if (auth_tok->global_auth_tok_key 271f4aad16aSMichael Halcrow && !(auth_tok->flags & ECRYPTFS_AUTH_TOK_INVALID)) 272f4aad16aSMichael Halcrow key_put(auth_tok->global_auth_tok_key); 273f4aad16aSMichael Halcrow kmem_cache_free(ecryptfs_global_auth_tok_cache, auth_tok); 274f4aad16aSMichael Halcrow } 275f4aad16aSMichael Halcrow mutex_unlock(&mount_crypt_stat->global_auth_tok_list_mutex); 276237fead6SMichael Halcrow memset(mount_crypt_stat, 0, sizeof(struct ecryptfs_mount_crypt_stat)); 277237fead6SMichael Halcrow } 278237fead6SMichael Halcrow 279237fead6SMichael Halcrow /** 280237fead6SMichael Halcrow * virt_to_scatterlist 281237fead6SMichael Halcrow * @addr: Virtual address 282237fead6SMichael Halcrow * @size: Size of data; should be an even multiple of the block size 283237fead6SMichael Halcrow * @sg: Pointer to scatterlist array; set to NULL to obtain only 284237fead6SMichael Halcrow * the number of scatterlist structs required in array 285237fead6SMichael Halcrow * @sg_size: Max array size 286237fead6SMichael Halcrow * 287237fead6SMichael Halcrow * Fills in a scatterlist array with page references for a passed 288237fead6SMichael Halcrow * virtual address. 289237fead6SMichael Halcrow * 290237fead6SMichael Halcrow * Returns the number of scatterlist structs in array used 291237fead6SMichael Halcrow */ 292237fead6SMichael Halcrow int virt_to_scatterlist(const void *addr, int size, struct scatterlist *sg, 293237fead6SMichael Halcrow int sg_size) 294237fead6SMichael Halcrow { 295237fead6SMichael Halcrow int i = 0; 296237fead6SMichael Halcrow struct page *pg; 297237fead6SMichael Halcrow int offset; 298237fead6SMichael Halcrow int remainder_of_page; 299237fead6SMichael Halcrow 30068e3f5ddSHerbert Xu sg_init_table(sg, sg_size); 30168e3f5ddSHerbert Xu 302237fead6SMichael Halcrow while (size > 0 && i < sg_size) { 303237fead6SMichael Halcrow pg = virt_to_page(addr); 304237fead6SMichael Halcrow offset = offset_in_page(addr); 305642f1490SJens Axboe if (sg) 306642f1490SJens Axboe sg_set_page(&sg[i], pg, 0, offset); 307237fead6SMichael Halcrow remainder_of_page = PAGE_CACHE_SIZE - offset; 308237fead6SMichael Halcrow if (size >= remainder_of_page) { 309237fead6SMichael Halcrow if (sg) 310237fead6SMichael Halcrow sg[i].length = remainder_of_page; 311237fead6SMichael Halcrow addr += remainder_of_page; 312237fead6SMichael Halcrow size -= remainder_of_page; 313237fead6SMichael Halcrow } else { 314237fead6SMichael Halcrow if (sg) 315237fead6SMichael Halcrow sg[i].length = size; 316237fead6SMichael Halcrow addr += size; 317237fead6SMichael Halcrow size = 0; 318237fead6SMichael Halcrow } 319237fead6SMichael Halcrow i++; 320237fead6SMichael Halcrow } 321237fead6SMichael Halcrow if (size > 0) 322237fead6SMichael Halcrow return -ENOMEM; 323237fead6SMichael Halcrow return i; 324237fead6SMichael Halcrow } 325237fead6SMichael Halcrow 326237fead6SMichael Halcrow /** 327237fead6SMichael Halcrow * encrypt_scatterlist 328237fead6SMichael Halcrow * @crypt_stat: Pointer to the crypt_stat struct to initialize. 329237fead6SMichael Halcrow * @dest_sg: Destination of encrypted data 330237fead6SMichael Halcrow * @src_sg: Data to be encrypted 331237fead6SMichael Halcrow * @size: Length of data to be encrypted 332237fead6SMichael Halcrow * @iv: iv to use during encryption 333237fead6SMichael Halcrow * 334237fead6SMichael Halcrow * Returns the number of bytes encrypted; negative value on error 335237fead6SMichael Halcrow */ 336237fead6SMichael Halcrow static int encrypt_scatterlist(struct ecryptfs_crypt_stat *crypt_stat, 337237fead6SMichael Halcrow struct scatterlist *dest_sg, 338237fead6SMichael Halcrow struct scatterlist *src_sg, int size, 339237fead6SMichael Halcrow unsigned char *iv) 340237fead6SMichael Halcrow { 3418bba066fSMichael Halcrow struct blkcipher_desc desc = { 3428bba066fSMichael Halcrow .tfm = crypt_stat->tfm, 3438bba066fSMichael Halcrow .info = iv, 3448bba066fSMichael Halcrow .flags = CRYPTO_TFM_REQ_MAY_SLEEP 3458bba066fSMichael Halcrow }; 346237fead6SMichael Halcrow int rc = 0; 347237fead6SMichael Halcrow 348237fead6SMichael Halcrow BUG_ON(!crypt_stat || !crypt_stat->tfm 349e2bd99ecSMichael Halcrow || !(crypt_stat->flags & ECRYPTFS_STRUCT_INITIALIZED)); 350237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 351237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Key size [%d]; key:\n", 352237fead6SMichael Halcrow crypt_stat->key_size); 353237fead6SMichael Halcrow ecryptfs_dump_hex(crypt_stat->key, 354237fead6SMichael Halcrow crypt_stat->key_size); 355237fead6SMichael Halcrow } 356237fead6SMichael Halcrow /* Consider doing this once, when the file is opened */ 357237fead6SMichael Halcrow mutex_lock(&crypt_stat->cs_tfm_mutex); 3588e3a6f16STrevor Highland if (!(crypt_stat->flags & ECRYPTFS_KEY_SET)) { 3598bba066fSMichael Halcrow rc = crypto_blkcipher_setkey(crypt_stat->tfm, crypt_stat->key, 360237fead6SMichael Halcrow crypt_stat->key_size); 3618e3a6f16STrevor Highland crypt_stat->flags |= ECRYPTFS_KEY_SET; 3628e3a6f16STrevor Highland } 363237fead6SMichael Halcrow if (rc) { 364237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error setting key; rc = [%d]\n", 365237fead6SMichael Halcrow rc); 366237fead6SMichael Halcrow mutex_unlock(&crypt_stat->cs_tfm_mutex); 367237fead6SMichael Halcrow rc = -EINVAL; 368237fead6SMichael Halcrow goto out; 369237fead6SMichael Halcrow } 370237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Encrypting [%d] bytes.\n", size); 3718bba066fSMichael Halcrow crypto_blkcipher_encrypt_iv(&desc, dest_sg, src_sg, size); 372237fead6SMichael Halcrow mutex_unlock(&crypt_stat->cs_tfm_mutex); 373237fead6SMichael Halcrow out: 374237fead6SMichael Halcrow return rc; 375237fead6SMichael Halcrow } 376237fead6SMichael Halcrow 377237fead6SMichael Halcrow /** 3780216f7f7SMichael Halcrow * ecryptfs_lower_offset_for_extent 379237fead6SMichael Halcrow * 3800216f7f7SMichael Halcrow * Convert an eCryptfs page index into a lower byte offset 381237fead6SMichael Halcrow */ 3827896b631SAdrian Bunk static void ecryptfs_lower_offset_for_extent(loff_t *offset, loff_t extent_num, 3830216f7f7SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat) 384237fead6SMichael Halcrow { 385157f1071STyler Hicks (*offset) = ecryptfs_lower_header_size(crypt_stat) 386157f1071STyler Hicks + (crypt_stat->extent_size * extent_num); 3870216f7f7SMichael Halcrow } 388237fead6SMichael Halcrow 3890216f7f7SMichael Halcrow /** 3900216f7f7SMichael Halcrow * ecryptfs_encrypt_extent 3910216f7f7SMichael Halcrow * @enc_extent_page: Allocated page into which to encrypt the data in 3920216f7f7SMichael Halcrow * @page 3930216f7f7SMichael Halcrow * @crypt_stat: crypt_stat containing cryptographic context for the 3940216f7f7SMichael Halcrow * encryption operation 3950216f7f7SMichael Halcrow * @page: Page containing plaintext data extent to encrypt 3960216f7f7SMichael Halcrow * @extent_offset: Page extent offset for use in generating IV 3970216f7f7SMichael Halcrow * 3980216f7f7SMichael Halcrow * Encrypts one extent of data. 3990216f7f7SMichael Halcrow * 4000216f7f7SMichael Halcrow * Return zero on success; non-zero otherwise 4010216f7f7SMichael Halcrow */ 4020216f7f7SMichael Halcrow static int ecryptfs_encrypt_extent(struct page *enc_extent_page, 4030216f7f7SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 4040216f7f7SMichael Halcrow struct page *page, 4050216f7f7SMichael Halcrow unsigned long extent_offset) 4060216f7f7SMichael Halcrow { 407d6a13c17SMichael Halcrow loff_t extent_base; 4080216f7f7SMichael Halcrow char extent_iv[ECRYPTFS_MAX_IV_BYTES]; 4090216f7f7SMichael Halcrow int rc; 4100216f7f7SMichael Halcrow 411d6a13c17SMichael Halcrow extent_base = (((loff_t)page->index) 4120216f7f7SMichael Halcrow * (PAGE_CACHE_SIZE / crypt_stat->extent_size)); 413237fead6SMichael Halcrow rc = ecryptfs_derive_iv(extent_iv, crypt_stat, 4140216f7f7SMichael Halcrow (extent_base + extent_offset)); 415237fead6SMichael Halcrow if (rc) { 416*888d57bbSJoe Perches ecryptfs_printk(KERN_ERR, "Error attempting to derive IV for " 417*888d57bbSJoe Perches "extent [0x%.16llx]; rc = [%d]\n", 418*888d57bbSJoe Perches (unsigned long long)(extent_base + extent_offset), rc); 419237fead6SMichael Halcrow goto out; 420237fead6SMichael Halcrow } 421237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 422237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Encrypting extent " 423237fead6SMichael Halcrow "with iv:\n"); 424237fead6SMichael Halcrow ecryptfs_dump_hex(extent_iv, crypt_stat->iv_bytes); 425237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "First 8 bytes before " 426237fead6SMichael Halcrow "encryption:\n"); 427237fead6SMichael Halcrow ecryptfs_dump_hex((char *) 4280216f7f7SMichael Halcrow (page_address(page) 4290216f7f7SMichael Halcrow + (extent_offset * crypt_stat->extent_size)), 4300216f7f7SMichael Halcrow 8); 431237fead6SMichael Halcrow } 4320216f7f7SMichael Halcrow rc = ecryptfs_encrypt_page_offset(crypt_stat, enc_extent_page, 0, 4330216f7f7SMichael Halcrow page, (extent_offset 4340216f7f7SMichael Halcrow * crypt_stat->extent_size), 435237fead6SMichael Halcrow crypt_stat->extent_size, extent_iv); 4360216f7f7SMichael Halcrow if (rc < 0) { 4370216f7f7SMichael Halcrow printk(KERN_ERR "%s: Error attempting to encrypt page with " 4380216f7f7SMichael Halcrow "page->index = [%ld], extent_offset = [%ld]; " 43918d1dbf1SHarvey Harrison "rc = [%d]\n", __func__, page->index, extent_offset, 4400216f7f7SMichael Halcrow rc); 4410216f7f7SMichael Halcrow goto out; 4420216f7f7SMichael Halcrow } 4430216f7f7SMichael Halcrow rc = 0; 444237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 445*888d57bbSJoe Perches ecryptfs_printk(KERN_DEBUG, "Encrypt extent [0x%.16llx]; " 446*888d57bbSJoe Perches "rc = [%d]\n", 447*888d57bbSJoe Perches (unsigned long long)(extent_base + extent_offset), rc); 448237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "First 8 bytes after " 449237fead6SMichael Halcrow "encryption:\n"); 4500216f7f7SMichael Halcrow ecryptfs_dump_hex((char *)(page_address(enc_extent_page)), 8); 451237fead6SMichael Halcrow } 4520216f7f7SMichael Halcrow out: 4530216f7f7SMichael Halcrow return rc; 4540216f7f7SMichael Halcrow } 4550216f7f7SMichael Halcrow 4560216f7f7SMichael Halcrow /** 4570216f7f7SMichael Halcrow * ecryptfs_encrypt_page 4580216f7f7SMichael Halcrow * @page: Page mapped from the eCryptfs inode for the file; contains 4590216f7f7SMichael Halcrow * decrypted content that needs to be encrypted (to a temporary 4600216f7f7SMichael Halcrow * page; not in place) and written out to the lower file 4610216f7f7SMichael Halcrow * 4620216f7f7SMichael Halcrow * Encrypt an eCryptfs page. This is done on a per-extent basis. Note 4630216f7f7SMichael Halcrow * that eCryptfs pages may straddle the lower pages -- for instance, 4640216f7f7SMichael Halcrow * if the file was created on a machine with an 8K page size 4650216f7f7SMichael Halcrow * (resulting in an 8K header), and then the file is copied onto a 4660216f7f7SMichael Halcrow * host with a 32K page size, then when reading page 0 of the eCryptfs 4670216f7f7SMichael Halcrow * file, 24K of page 0 of the lower file will be read and decrypted, 4680216f7f7SMichael Halcrow * and then 8K of page 1 of the lower file will be read and decrypted. 4690216f7f7SMichael Halcrow * 4700216f7f7SMichael Halcrow * Returns zero on success; negative on error 4710216f7f7SMichael Halcrow */ 4720216f7f7SMichael Halcrow int ecryptfs_encrypt_page(struct page *page) 4730216f7f7SMichael Halcrow { 4740216f7f7SMichael Halcrow struct inode *ecryptfs_inode; 4750216f7f7SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat; 4767fcba054SEric Sandeen char *enc_extent_virt; 4777fcba054SEric Sandeen struct page *enc_extent_page = NULL; 4780216f7f7SMichael Halcrow loff_t extent_offset; 4790216f7f7SMichael Halcrow int rc = 0; 4800216f7f7SMichael Halcrow 4810216f7f7SMichael Halcrow ecryptfs_inode = page->mapping->host; 4820216f7f7SMichael Halcrow crypt_stat = 4830216f7f7SMichael Halcrow &(ecryptfs_inode_to_private(ecryptfs_inode)->crypt_stat); 48413a791b4STyler Hicks BUG_ON(!(crypt_stat->flags & ECRYPTFS_ENCRYPTED)); 4857fcba054SEric Sandeen enc_extent_page = alloc_page(GFP_USER); 4867fcba054SEric Sandeen if (!enc_extent_page) { 4870216f7f7SMichael Halcrow rc = -ENOMEM; 4880216f7f7SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error allocating memory for " 4890216f7f7SMichael Halcrow "encrypted extent\n"); 4900216f7f7SMichael Halcrow goto out; 4910216f7f7SMichael Halcrow } 4927fcba054SEric Sandeen enc_extent_virt = kmap(enc_extent_page); 4930216f7f7SMichael Halcrow for (extent_offset = 0; 4940216f7f7SMichael Halcrow extent_offset < (PAGE_CACHE_SIZE / crypt_stat->extent_size); 4950216f7f7SMichael Halcrow extent_offset++) { 4960216f7f7SMichael Halcrow loff_t offset; 4970216f7f7SMichael Halcrow 4980216f7f7SMichael Halcrow rc = ecryptfs_encrypt_extent(enc_extent_page, crypt_stat, page, 4990216f7f7SMichael Halcrow extent_offset); 5000216f7f7SMichael Halcrow if (rc) { 5010216f7f7SMichael Halcrow printk(KERN_ERR "%s: Error encrypting extent; " 50218d1dbf1SHarvey Harrison "rc = [%d]\n", __func__, rc); 5030216f7f7SMichael Halcrow goto out; 5040216f7f7SMichael Halcrow } 5050216f7f7SMichael Halcrow ecryptfs_lower_offset_for_extent( 506d6a13c17SMichael Halcrow &offset, ((((loff_t)page->index) 507d6a13c17SMichael Halcrow * (PAGE_CACHE_SIZE 5080216f7f7SMichael Halcrow / crypt_stat->extent_size)) 5090216f7f7SMichael Halcrow + extent_offset), crypt_stat); 5100216f7f7SMichael Halcrow rc = ecryptfs_write_lower(ecryptfs_inode, enc_extent_virt, 5110216f7f7SMichael Halcrow offset, crypt_stat->extent_size); 51296a7b9c2STyler Hicks if (rc < 0) { 5130216f7f7SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error attempting " 5140216f7f7SMichael Halcrow "to write lower page; rc = [%d]" 5150216f7f7SMichael Halcrow "\n", rc); 5160216f7f7SMichael Halcrow goto out; 5170216f7f7SMichael Halcrow } 518237fead6SMichael Halcrow } 51996a7b9c2STyler Hicks rc = 0; 5200216f7f7SMichael Halcrow out: 5217fcba054SEric Sandeen if (enc_extent_page) { 5227fcba054SEric Sandeen kunmap(enc_extent_page); 5237fcba054SEric Sandeen __free_page(enc_extent_page); 5247fcba054SEric Sandeen } 5250216f7f7SMichael Halcrow return rc; 5260216f7f7SMichael Halcrow } 5270216f7f7SMichael Halcrow 5280216f7f7SMichael Halcrow static int ecryptfs_decrypt_extent(struct page *page, 5290216f7f7SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 5300216f7f7SMichael Halcrow struct page *enc_extent_page, 5310216f7f7SMichael Halcrow unsigned long extent_offset) 5320216f7f7SMichael Halcrow { 533d6a13c17SMichael Halcrow loff_t extent_base; 5340216f7f7SMichael Halcrow char extent_iv[ECRYPTFS_MAX_IV_BYTES]; 5350216f7f7SMichael Halcrow int rc; 5360216f7f7SMichael Halcrow 537d6a13c17SMichael Halcrow extent_base = (((loff_t)page->index) 5380216f7f7SMichael Halcrow * (PAGE_CACHE_SIZE / crypt_stat->extent_size)); 5390216f7f7SMichael Halcrow rc = ecryptfs_derive_iv(extent_iv, crypt_stat, 5400216f7f7SMichael Halcrow (extent_base + extent_offset)); 541237fead6SMichael Halcrow if (rc) { 542*888d57bbSJoe Perches ecryptfs_printk(KERN_ERR, "Error attempting to derive IV for " 543*888d57bbSJoe Perches "extent [0x%.16llx]; rc = [%d]\n", 544*888d57bbSJoe Perches (unsigned long long)(extent_base + extent_offset), rc); 545237fead6SMichael Halcrow goto out; 546237fead6SMichael Halcrow } 5470216f7f7SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 5480216f7f7SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Decrypting extent " 5490216f7f7SMichael Halcrow "with iv:\n"); 5500216f7f7SMichael Halcrow ecryptfs_dump_hex(extent_iv, crypt_stat->iv_bytes); 5510216f7f7SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "First 8 bytes before " 5520216f7f7SMichael Halcrow "decryption:\n"); 5530216f7f7SMichael Halcrow ecryptfs_dump_hex((char *) 5540216f7f7SMichael Halcrow (page_address(enc_extent_page) 5550216f7f7SMichael Halcrow + (extent_offset * crypt_stat->extent_size)), 5560216f7f7SMichael Halcrow 8); 5570216f7f7SMichael Halcrow } 5580216f7f7SMichael Halcrow rc = ecryptfs_decrypt_page_offset(crypt_stat, page, 5590216f7f7SMichael Halcrow (extent_offset 5600216f7f7SMichael Halcrow * crypt_stat->extent_size), 5610216f7f7SMichael Halcrow enc_extent_page, 0, 5620216f7f7SMichael Halcrow crypt_stat->extent_size, extent_iv); 5630216f7f7SMichael Halcrow if (rc < 0) { 5640216f7f7SMichael Halcrow printk(KERN_ERR "%s: Error attempting to decrypt to page with " 5650216f7f7SMichael Halcrow "page->index = [%ld], extent_offset = [%ld]; " 56618d1dbf1SHarvey Harrison "rc = [%d]\n", __func__, page->index, extent_offset, 5670216f7f7SMichael Halcrow rc); 5680216f7f7SMichael Halcrow goto out; 5690216f7f7SMichael Halcrow } 5700216f7f7SMichael Halcrow rc = 0; 5710216f7f7SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 572*888d57bbSJoe Perches ecryptfs_printk(KERN_DEBUG, "Decrypt extent [0x%.16llx]; " 573*888d57bbSJoe Perches "rc = [%d]\n", 574*888d57bbSJoe Perches (unsigned long long)(extent_base + extent_offset), rc); 5750216f7f7SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "First 8 bytes after " 5760216f7f7SMichael Halcrow "decryption:\n"); 5770216f7f7SMichael Halcrow ecryptfs_dump_hex((char *)(page_address(page) 5780216f7f7SMichael Halcrow + (extent_offset 5790216f7f7SMichael Halcrow * crypt_stat->extent_size)), 8); 5800216f7f7SMichael Halcrow } 581237fead6SMichael Halcrow out: 582237fead6SMichael Halcrow return rc; 583237fead6SMichael Halcrow } 584237fead6SMichael Halcrow 585237fead6SMichael Halcrow /** 586237fead6SMichael Halcrow * ecryptfs_decrypt_page 5870216f7f7SMichael Halcrow * @page: Page mapped from the eCryptfs inode for the file; data read 5880216f7f7SMichael Halcrow * and decrypted from the lower file will be written into this 5890216f7f7SMichael Halcrow * page 590237fead6SMichael Halcrow * 591237fead6SMichael Halcrow * Decrypt an eCryptfs page. This is done on a per-extent basis. Note 592237fead6SMichael Halcrow * that eCryptfs pages may straddle the lower pages -- for instance, 593237fead6SMichael Halcrow * if the file was created on a machine with an 8K page size 594237fead6SMichael Halcrow * (resulting in an 8K header), and then the file is copied onto a 595237fead6SMichael Halcrow * host with a 32K page size, then when reading page 0 of the eCryptfs 596237fead6SMichael Halcrow * file, 24K of page 0 of the lower file will be read and decrypted, 597237fead6SMichael Halcrow * and then 8K of page 1 of the lower file will be read and decrypted. 598237fead6SMichael Halcrow * 599237fead6SMichael Halcrow * Returns zero on success; negative on error 600237fead6SMichael Halcrow */ 6010216f7f7SMichael Halcrow int ecryptfs_decrypt_page(struct page *page) 602237fead6SMichael Halcrow { 6030216f7f7SMichael Halcrow struct inode *ecryptfs_inode; 604237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat; 6057fcba054SEric Sandeen char *enc_extent_virt; 6067fcba054SEric Sandeen struct page *enc_extent_page = NULL; 6070216f7f7SMichael Halcrow unsigned long extent_offset; 608237fead6SMichael Halcrow int rc = 0; 609237fead6SMichael Halcrow 6100216f7f7SMichael Halcrow ecryptfs_inode = page->mapping->host; 6110216f7f7SMichael Halcrow crypt_stat = 6120216f7f7SMichael Halcrow &(ecryptfs_inode_to_private(ecryptfs_inode)->crypt_stat); 61313a791b4STyler Hicks BUG_ON(!(crypt_stat->flags & ECRYPTFS_ENCRYPTED)); 6147fcba054SEric Sandeen enc_extent_page = alloc_page(GFP_USER); 6157fcba054SEric Sandeen if (!enc_extent_page) { 616237fead6SMichael Halcrow rc = -ENOMEM; 6170216f7f7SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error allocating memory for " 6180216f7f7SMichael Halcrow "encrypted extent\n"); 61916a72c45SMichael Halcrow goto out; 620237fead6SMichael Halcrow } 6217fcba054SEric Sandeen enc_extent_virt = kmap(enc_extent_page); 6220216f7f7SMichael Halcrow for (extent_offset = 0; 6230216f7f7SMichael Halcrow extent_offset < (PAGE_CACHE_SIZE / crypt_stat->extent_size); 6240216f7f7SMichael Halcrow extent_offset++) { 6250216f7f7SMichael Halcrow loff_t offset; 6260216f7f7SMichael Halcrow 6270216f7f7SMichael Halcrow ecryptfs_lower_offset_for_extent( 6280216f7f7SMichael Halcrow &offset, ((page->index * (PAGE_CACHE_SIZE 6290216f7f7SMichael Halcrow / crypt_stat->extent_size)) 6300216f7f7SMichael Halcrow + extent_offset), crypt_stat); 6310216f7f7SMichael Halcrow rc = ecryptfs_read_lower(enc_extent_virt, offset, 632237fead6SMichael Halcrow crypt_stat->extent_size, 6330216f7f7SMichael Halcrow ecryptfs_inode); 63496a7b9c2STyler Hicks if (rc < 0) { 6350216f7f7SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error attempting " 6360216f7f7SMichael Halcrow "to read lower page; rc = [%d]" 6370216f7f7SMichael Halcrow "\n", rc); 63816a72c45SMichael Halcrow goto out; 639237fead6SMichael Halcrow } 6400216f7f7SMichael Halcrow rc = ecryptfs_decrypt_extent(page, crypt_stat, enc_extent_page, 6410216f7f7SMichael Halcrow extent_offset); 6420216f7f7SMichael Halcrow if (rc) { 6430216f7f7SMichael Halcrow printk(KERN_ERR "%s: Error encrypting extent; " 64418d1dbf1SHarvey Harrison "rc = [%d]\n", __func__, rc); 64516a72c45SMichael Halcrow goto out; 646237fead6SMichael Halcrow } 647237fead6SMichael Halcrow } 648237fead6SMichael Halcrow out: 6497fcba054SEric Sandeen if (enc_extent_page) { 6507fcba054SEric Sandeen kunmap(enc_extent_page); 6517fcba054SEric Sandeen __free_page(enc_extent_page); 6527fcba054SEric Sandeen } 653237fead6SMichael Halcrow return rc; 654237fead6SMichael Halcrow } 655237fead6SMichael Halcrow 656237fead6SMichael Halcrow /** 657237fead6SMichael Halcrow * decrypt_scatterlist 65822e78fafSMichael Halcrow * @crypt_stat: Cryptographic context 65922e78fafSMichael Halcrow * @dest_sg: The destination scatterlist to decrypt into 66022e78fafSMichael Halcrow * @src_sg: The source scatterlist to decrypt from 66122e78fafSMichael Halcrow * @size: The number of bytes to decrypt 66222e78fafSMichael Halcrow * @iv: The initialization vector to use for the decryption 663237fead6SMichael Halcrow * 664237fead6SMichael Halcrow * Returns the number of bytes decrypted; negative value on error 665237fead6SMichael Halcrow */ 666237fead6SMichael Halcrow static int decrypt_scatterlist(struct ecryptfs_crypt_stat *crypt_stat, 667237fead6SMichael Halcrow struct scatterlist *dest_sg, 668237fead6SMichael Halcrow struct scatterlist *src_sg, int size, 669237fead6SMichael Halcrow unsigned char *iv) 670237fead6SMichael Halcrow { 6718bba066fSMichael Halcrow struct blkcipher_desc desc = { 6728bba066fSMichael Halcrow .tfm = crypt_stat->tfm, 6738bba066fSMichael Halcrow .info = iv, 6748bba066fSMichael Halcrow .flags = CRYPTO_TFM_REQ_MAY_SLEEP 6758bba066fSMichael Halcrow }; 676237fead6SMichael Halcrow int rc = 0; 677237fead6SMichael Halcrow 678237fead6SMichael Halcrow /* Consider doing this once, when the file is opened */ 679237fead6SMichael Halcrow mutex_lock(&crypt_stat->cs_tfm_mutex); 6808bba066fSMichael Halcrow rc = crypto_blkcipher_setkey(crypt_stat->tfm, crypt_stat->key, 681237fead6SMichael Halcrow crypt_stat->key_size); 682237fead6SMichael Halcrow if (rc) { 683237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error setting key; rc = [%d]\n", 684237fead6SMichael Halcrow rc); 685237fead6SMichael Halcrow mutex_unlock(&crypt_stat->cs_tfm_mutex); 686237fead6SMichael Halcrow rc = -EINVAL; 687237fead6SMichael Halcrow goto out; 688237fead6SMichael Halcrow } 689237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Decrypting [%d] bytes.\n", size); 6908bba066fSMichael Halcrow rc = crypto_blkcipher_decrypt_iv(&desc, dest_sg, src_sg, size); 691237fead6SMichael Halcrow mutex_unlock(&crypt_stat->cs_tfm_mutex); 692237fead6SMichael Halcrow if (rc) { 693237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error decrypting; rc = [%d]\n", 694237fead6SMichael Halcrow rc); 695237fead6SMichael Halcrow goto out; 696237fead6SMichael Halcrow } 697237fead6SMichael Halcrow rc = size; 698237fead6SMichael Halcrow out: 699237fead6SMichael Halcrow return rc; 700237fead6SMichael Halcrow } 701237fead6SMichael Halcrow 702237fead6SMichael Halcrow /** 703237fead6SMichael Halcrow * ecryptfs_encrypt_page_offset 70422e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 70522e78fafSMichael Halcrow * @dst_page: The page to encrypt into 70622e78fafSMichael Halcrow * @dst_offset: The offset in the page to encrypt into 70722e78fafSMichael Halcrow * @src_page: The page to encrypt from 70822e78fafSMichael Halcrow * @src_offset: The offset in the page to encrypt from 70922e78fafSMichael Halcrow * @size: The number of bytes to encrypt 71022e78fafSMichael Halcrow * @iv: The initialization vector to use for the encryption 711237fead6SMichael Halcrow * 712237fead6SMichael Halcrow * Returns the number of bytes encrypted 713237fead6SMichael Halcrow */ 714237fead6SMichael Halcrow static int 715237fead6SMichael Halcrow ecryptfs_encrypt_page_offset(struct ecryptfs_crypt_stat *crypt_stat, 716237fead6SMichael Halcrow struct page *dst_page, int dst_offset, 717237fead6SMichael Halcrow struct page *src_page, int src_offset, int size, 718237fead6SMichael Halcrow unsigned char *iv) 719237fead6SMichael Halcrow { 720237fead6SMichael Halcrow struct scatterlist src_sg, dst_sg; 721237fead6SMichael Halcrow 72260c74f81SJens Axboe sg_init_table(&src_sg, 1); 72360c74f81SJens Axboe sg_init_table(&dst_sg, 1); 72460c74f81SJens Axboe 725642f1490SJens Axboe sg_set_page(&src_sg, src_page, size, src_offset); 726642f1490SJens Axboe sg_set_page(&dst_sg, dst_page, size, dst_offset); 727237fead6SMichael Halcrow return encrypt_scatterlist(crypt_stat, &dst_sg, &src_sg, size, iv); 728237fead6SMichael Halcrow } 729237fead6SMichael Halcrow 730237fead6SMichael Halcrow /** 731237fead6SMichael Halcrow * ecryptfs_decrypt_page_offset 73222e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 73322e78fafSMichael Halcrow * @dst_page: The page to decrypt into 73422e78fafSMichael Halcrow * @dst_offset: The offset in the page to decrypt into 73522e78fafSMichael Halcrow * @src_page: The page to decrypt from 73622e78fafSMichael Halcrow * @src_offset: The offset in the page to decrypt from 73722e78fafSMichael Halcrow * @size: The number of bytes to decrypt 73822e78fafSMichael Halcrow * @iv: The initialization vector to use for the decryption 739237fead6SMichael Halcrow * 740237fead6SMichael Halcrow * Returns the number of bytes decrypted 741237fead6SMichael Halcrow */ 742237fead6SMichael Halcrow static int 743237fead6SMichael Halcrow ecryptfs_decrypt_page_offset(struct ecryptfs_crypt_stat *crypt_stat, 744237fead6SMichael Halcrow struct page *dst_page, int dst_offset, 745237fead6SMichael Halcrow struct page *src_page, int src_offset, int size, 746237fead6SMichael Halcrow unsigned char *iv) 747237fead6SMichael Halcrow { 748237fead6SMichael Halcrow struct scatterlist src_sg, dst_sg; 749237fead6SMichael Halcrow 75060c74f81SJens Axboe sg_init_table(&src_sg, 1); 751642f1490SJens Axboe sg_set_page(&src_sg, src_page, size, src_offset); 75260c74f81SJens Axboe 753642f1490SJens Axboe sg_init_table(&dst_sg, 1); 754642f1490SJens Axboe sg_set_page(&dst_sg, dst_page, size, dst_offset); 755642f1490SJens Axboe 756237fead6SMichael Halcrow return decrypt_scatterlist(crypt_stat, &dst_sg, &src_sg, size, iv); 757237fead6SMichael Halcrow } 758237fead6SMichael Halcrow 759237fead6SMichael Halcrow #define ECRYPTFS_MAX_SCATTERLIST_LEN 4 760237fead6SMichael Halcrow 761237fead6SMichael Halcrow /** 762237fead6SMichael Halcrow * ecryptfs_init_crypt_ctx 763421f91d2SUwe Kleine-König * @crypt_stat: Uninitialized crypt stats structure 764237fead6SMichael Halcrow * 765237fead6SMichael Halcrow * Initialize the crypto context. 766237fead6SMichael Halcrow * 767237fead6SMichael Halcrow * TODO: Performance: Keep a cache of initialized cipher contexts; 768237fead6SMichael Halcrow * only init if needed 769237fead6SMichael Halcrow */ 770237fead6SMichael Halcrow int ecryptfs_init_crypt_ctx(struct ecryptfs_crypt_stat *crypt_stat) 771237fead6SMichael Halcrow { 7728bba066fSMichael Halcrow char *full_alg_name; 773237fead6SMichael Halcrow int rc = -EINVAL; 774237fead6SMichael Halcrow 775237fead6SMichael Halcrow if (!crypt_stat->cipher) { 776237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "No cipher specified\n"); 777237fead6SMichael Halcrow goto out; 778237fead6SMichael Halcrow } 779237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, 780237fead6SMichael Halcrow "Initializing cipher [%s]; strlen = [%d]; " 781237fead6SMichael Halcrow "key_size_bits = [%d]\n", 782237fead6SMichael Halcrow crypt_stat->cipher, (int)strlen(crypt_stat->cipher), 783237fead6SMichael Halcrow crypt_stat->key_size << 3); 784237fead6SMichael Halcrow if (crypt_stat->tfm) { 785237fead6SMichael Halcrow rc = 0; 786237fead6SMichael Halcrow goto out; 787237fead6SMichael Halcrow } 788237fead6SMichael Halcrow mutex_lock(&crypt_stat->cs_tfm_mutex); 7898bba066fSMichael Halcrow rc = ecryptfs_crypto_api_algify_cipher_name(&full_alg_name, 7908bba066fSMichael Halcrow crypt_stat->cipher, "cbc"); 7918bba066fSMichael Halcrow if (rc) 792c8161f64SEric Sandeen goto out_unlock; 7938bba066fSMichael Halcrow crypt_stat->tfm = crypto_alloc_blkcipher(full_alg_name, 0, 7948bba066fSMichael Halcrow CRYPTO_ALG_ASYNC); 7958bba066fSMichael Halcrow kfree(full_alg_name); 796de88777eSAkinobu Mita if (IS_ERR(crypt_stat->tfm)) { 797de88777eSAkinobu Mita rc = PTR_ERR(crypt_stat->tfm); 798b0105eaeSTyler Hicks crypt_stat->tfm = NULL; 799237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "cryptfs: init_crypt_ctx(): " 800237fead6SMichael Halcrow "Error initializing cipher [%s]\n", 801237fead6SMichael Halcrow crypt_stat->cipher); 802c8161f64SEric Sandeen goto out_unlock; 803237fead6SMichael Halcrow } 804f1ddcaf3SHerbert Xu crypto_blkcipher_set_flags(crypt_stat->tfm, CRYPTO_TFM_REQ_WEAK_KEY); 805237fead6SMichael Halcrow rc = 0; 806c8161f64SEric Sandeen out_unlock: 807c8161f64SEric Sandeen mutex_unlock(&crypt_stat->cs_tfm_mutex); 808237fead6SMichael Halcrow out: 809237fead6SMichael Halcrow return rc; 810237fead6SMichael Halcrow } 811237fead6SMichael Halcrow 812237fead6SMichael Halcrow static void set_extent_mask_and_shift(struct ecryptfs_crypt_stat *crypt_stat) 813237fead6SMichael Halcrow { 814237fead6SMichael Halcrow int extent_size_tmp; 815237fead6SMichael Halcrow 816237fead6SMichael Halcrow crypt_stat->extent_mask = 0xFFFFFFFF; 817237fead6SMichael Halcrow crypt_stat->extent_shift = 0; 818237fead6SMichael Halcrow if (crypt_stat->extent_size == 0) 819237fead6SMichael Halcrow return; 820237fead6SMichael Halcrow extent_size_tmp = crypt_stat->extent_size; 821237fead6SMichael Halcrow while ((extent_size_tmp & 0x01) == 0) { 822237fead6SMichael Halcrow extent_size_tmp >>= 1; 823237fead6SMichael Halcrow crypt_stat->extent_mask <<= 1; 824237fead6SMichael Halcrow crypt_stat->extent_shift++; 825237fead6SMichael Halcrow } 826237fead6SMichael Halcrow } 827237fead6SMichael Halcrow 828237fead6SMichael Halcrow void ecryptfs_set_default_sizes(struct ecryptfs_crypt_stat *crypt_stat) 829237fead6SMichael Halcrow { 830237fead6SMichael Halcrow /* Default values; may be overwritten as we are parsing the 831237fead6SMichael Halcrow * packets. */ 832237fead6SMichael Halcrow crypt_stat->extent_size = ECRYPTFS_DEFAULT_EXTENT_SIZE; 833237fead6SMichael Halcrow set_extent_mask_and_shift(crypt_stat); 834237fead6SMichael Halcrow crypt_stat->iv_bytes = ECRYPTFS_DEFAULT_IV_BYTES; 835dd2a3b7aSMichael Halcrow if (crypt_stat->flags & ECRYPTFS_METADATA_IN_XATTR) 836fa3ef1cbSTyler Hicks crypt_stat->metadata_size = ECRYPTFS_MINIMUM_HEADER_EXTENT_SIZE; 83745eaab79SMichael Halcrow else { 83845eaab79SMichael Halcrow if (PAGE_CACHE_SIZE <= ECRYPTFS_MINIMUM_HEADER_EXTENT_SIZE) 839fa3ef1cbSTyler Hicks crypt_stat->metadata_size = 840cc11beffSMichael Halcrow ECRYPTFS_MINIMUM_HEADER_EXTENT_SIZE; 841dd2a3b7aSMichael Halcrow else 842fa3ef1cbSTyler Hicks crypt_stat->metadata_size = PAGE_CACHE_SIZE; 84345eaab79SMichael Halcrow } 844237fead6SMichael Halcrow } 845237fead6SMichael Halcrow 846237fead6SMichael Halcrow /** 847237fead6SMichael Halcrow * ecryptfs_compute_root_iv 848237fead6SMichael Halcrow * @crypt_stats 849237fead6SMichael Halcrow * 850237fead6SMichael Halcrow * On error, sets the root IV to all 0's. 851237fead6SMichael Halcrow */ 852237fead6SMichael Halcrow int ecryptfs_compute_root_iv(struct ecryptfs_crypt_stat *crypt_stat) 853237fead6SMichael Halcrow { 854237fead6SMichael Halcrow int rc = 0; 855237fead6SMichael Halcrow char dst[MD5_DIGEST_SIZE]; 856237fead6SMichael Halcrow 857237fead6SMichael Halcrow BUG_ON(crypt_stat->iv_bytes > MD5_DIGEST_SIZE); 858237fead6SMichael Halcrow BUG_ON(crypt_stat->iv_bytes <= 0); 859e2bd99ecSMichael Halcrow if (!(crypt_stat->flags & ECRYPTFS_KEY_VALID)) { 860237fead6SMichael Halcrow rc = -EINVAL; 861237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Session key not valid; " 862237fead6SMichael Halcrow "cannot generate root IV\n"); 863237fead6SMichael Halcrow goto out; 864237fead6SMichael Halcrow } 865237fead6SMichael Halcrow rc = ecryptfs_calculate_md5(dst, crypt_stat, crypt_stat->key, 866237fead6SMichael Halcrow crypt_stat->key_size); 867237fead6SMichael Halcrow if (rc) { 868237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Error attempting to compute " 869237fead6SMichael Halcrow "MD5 while generating root IV\n"); 870237fead6SMichael Halcrow goto out; 871237fead6SMichael Halcrow } 872237fead6SMichael Halcrow memcpy(crypt_stat->root_iv, dst, crypt_stat->iv_bytes); 873237fead6SMichael Halcrow out: 874237fead6SMichael Halcrow if (rc) { 875237fead6SMichael Halcrow memset(crypt_stat->root_iv, 0, crypt_stat->iv_bytes); 876e2bd99ecSMichael Halcrow crypt_stat->flags |= ECRYPTFS_SECURITY_WARNING; 877237fead6SMichael Halcrow } 878237fead6SMichael Halcrow return rc; 879237fead6SMichael Halcrow } 880237fead6SMichael Halcrow 881237fead6SMichael Halcrow static void ecryptfs_generate_new_key(struct ecryptfs_crypt_stat *crypt_stat) 882237fead6SMichael Halcrow { 883237fead6SMichael Halcrow get_random_bytes(crypt_stat->key, crypt_stat->key_size); 884e2bd99ecSMichael Halcrow crypt_stat->flags |= ECRYPTFS_KEY_VALID; 885237fead6SMichael Halcrow ecryptfs_compute_root_iv(crypt_stat); 886237fead6SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) { 887237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "Generated new session key:\n"); 888237fead6SMichael Halcrow ecryptfs_dump_hex(crypt_stat->key, 889237fead6SMichael Halcrow crypt_stat->key_size); 890237fead6SMichael Halcrow } 891237fead6SMichael Halcrow } 892237fead6SMichael Halcrow 893237fead6SMichael Halcrow /** 89417398957SMichael Halcrow * ecryptfs_copy_mount_wide_flags_to_inode_flags 89522e78fafSMichael Halcrow * @crypt_stat: The inode's cryptographic context 89622e78fafSMichael Halcrow * @mount_crypt_stat: The mount point's cryptographic context 89717398957SMichael Halcrow * 89817398957SMichael Halcrow * This function propagates the mount-wide flags to individual inode 89917398957SMichael Halcrow * flags. 90017398957SMichael Halcrow */ 90117398957SMichael Halcrow static void ecryptfs_copy_mount_wide_flags_to_inode_flags( 90217398957SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 90317398957SMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat) 90417398957SMichael Halcrow { 90517398957SMichael Halcrow if (mount_crypt_stat->flags & ECRYPTFS_XATTR_METADATA_ENABLED) 90617398957SMichael Halcrow crypt_stat->flags |= ECRYPTFS_METADATA_IN_XATTR; 90717398957SMichael Halcrow if (mount_crypt_stat->flags & ECRYPTFS_ENCRYPTED_VIEW_ENABLED) 90817398957SMichael Halcrow crypt_stat->flags |= ECRYPTFS_VIEW_AS_ENCRYPTED; 909addd65adSMichael Halcrow if (mount_crypt_stat->flags & ECRYPTFS_GLOBAL_ENCRYPT_FILENAMES) { 910addd65adSMichael Halcrow crypt_stat->flags |= ECRYPTFS_ENCRYPT_FILENAMES; 911addd65adSMichael Halcrow if (mount_crypt_stat->flags 912addd65adSMichael Halcrow & ECRYPTFS_GLOBAL_ENCFN_USE_MOUNT_FNEK) 913addd65adSMichael Halcrow crypt_stat->flags |= ECRYPTFS_ENCFN_USE_MOUNT_FNEK; 914addd65adSMichael Halcrow else if (mount_crypt_stat->flags 915addd65adSMichael Halcrow & ECRYPTFS_GLOBAL_ENCFN_USE_FEK) 916addd65adSMichael Halcrow crypt_stat->flags |= ECRYPTFS_ENCFN_USE_FEK; 917addd65adSMichael Halcrow } 91817398957SMichael Halcrow } 91917398957SMichael Halcrow 920f4aad16aSMichael Halcrow static int ecryptfs_copy_mount_wide_sigs_to_inode_sigs( 921f4aad16aSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 922f4aad16aSMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat) 923f4aad16aSMichael Halcrow { 924f4aad16aSMichael Halcrow struct ecryptfs_global_auth_tok *global_auth_tok; 925f4aad16aSMichael Halcrow int rc = 0; 926f4aad16aSMichael Halcrow 927aa06117fSRoland Dreier mutex_lock(&crypt_stat->keysig_list_mutex); 928f4aad16aSMichael Halcrow mutex_lock(&mount_crypt_stat->global_auth_tok_list_mutex); 929aa06117fSRoland Dreier 930f4aad16aSMichael Halcrow list_for_each_entry(global_auth_tok, 931f4aad16aSMichael Halcrow &mount_crypt_stat->global_auth_tok_list, 932f4aad16aSMichael Halcrow mount_crypt_stat_list) { 93384814d64STyler Hicks if (global_auth_tok->flags & ECRYPTFS_AUTH_TOK_FNEK) 93484814d64STyler Hicks continue; 935f4aad16aSMichael Halcrow rc = ecryptfs_add_keysig(crypt_stat, global_auth_tok->sig); 936f4aad16aSMichael Halcrow if (rc) { 937f4aad16aSMichael Halcrow printk(KERN_ERR "Error adding keysig; rc = [%d]\n", rc); 938f4aad16aSMichael Halcrow goto out; 939f4aad16aSMichael Halcrow } 940f4aad16aSMichael Halcrow } 941aa06117fSRoland Dreier 942f4aad16aSMichael Halcrow out: 943aa06117fSRoland Dreier mutex_unlock(&mount_crypt_stat->global_auth_tok_list_mutex); 944aa06117fSRoland Dreier mutex_unlock(&crypt_stat->keysig_list_mutex); 945f4aad16aSMichael Halcrow return rc; 946f4aad16aSMichael Halcrow } 947f4aad16aSMichael Halcrow 94817398957SMichael Halcrow /** 949237fead6SMichael Halcrow * ecryptfs_set_default_crypt_stat_vals 95022e78fafSMichael Halcrow * @crypt_stat: The inode's cryptographic context 95122e78fafSMichael Halcrow * @mount_crypt_stat: The mount point's cryptographic context 952237fead6SMichael Halcrow * 953237fead6SMichael Halcrow * Default values in the event that policy does not override them. 954237fead6SMichael Halcrow */ 955237fead6SMichael Halcrow static void ecryptfs_set_default_crypt_stat_vals( 956237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 957237fead6SMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat) 958237fead6SMichael Halcrow { 95917398957SMichael Halcrow ecryptfs_copy_mount_wide_flags_to_inode_flags(crypt_stat, 96017398957SMichael Halcrow mount_crypt_stat); 961237fead6SMichael Halcrow ecryptfs_set_default_sizes(crypt_stat); 962237fead6SMichael Halcrow strcpy(crypt_stat->cipher, ECRYPTFS_DEFAULT_CIPHER); 963237fead6SMichael Halcrow crypt_stat->key_size = ECRYPTFS_DEFAULT_KEY_BYTES; 964e2bd99ecSMichael Halcrow crypt_stat->flags &= ~(ECRYPTFS_KEY_VALID); 965237fead6SMichael Halcrow crypt_stat->file_version = ECRYPTFS_FILE_VERSION; 966237fead6SMichael Halcrow crypt_stat->mount_crypt_stat = mount_crypt_stat; 967237fead6SMichael Halcrow } 968237fead6SMichael Halcrow 969237fead6SMichael Halcrow /** 970237fead6SMichael Halcrow * ecryptfs_new_file_context 97122e78fafSMichael Halcrow * @ecryptfs_dentry: The eCryptfs dentry 972237fead6SMichael Halcrow * 973237fead6SMichael Halcrow * If the crypto context for the file has not yet been established, 974237fead6SMichael Halcrow * this is where we do that. Establishing a new crypto context 975237fead6SMichael Halcrow * involves the following decisions: 976237fead6SMichael Halcrow * - What cipher to use? 977237fead6SMichael Halcrow * - What set of authentication tokens to use? 978237fead6SMichael Halcrow * Here we just worry about getting enough information into the 979237fead6SMichael Halcrow * authentication tokens so that we know that they are available. 980237fead6SMichael Halcrow * We associate the available authentication tokens with the new file 981237fead6SMichael Halcrow * via the set of signatures in the crypt_stat struct. Later, when 982237fead6SMichael Halcrow * the headers are actually written out, we may again defer to 983237fead6SMichael Halcrow * userspace to perform the encryption of the session key; for the 984237fead6SMichael Halcrow * foreseeable future, this will be the case with public key packets. 985237fead6SMichael Halcrow * 986237fead6SMichael Halcrow * Returns zero on success; non-zero otherwise 987237fead6SMichael Halcrow */ 988237fead6SMichael Halcrow int ecryptfs_new_file_context(struct dentry *ecryptfs_dentry) 989237fead6SMichael Halcrow { 990237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat = 991237fead6SMichael Halcrow &ecryptfs_inode_to_private(ecryptfs_dentry->d_inode)->crypt_stat; 992237fead6SMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat = 993237fead6SMichael Halcrow &ecryptfs_superblock_to_private( 994237fead6SMichael Halcrow ecryptfs_dentry->d_sb)->mount_crypt_stat; 995237fead6SMichael Halcrow int cipher_name_len; 996f4aad16aSMichael Halcrow int rc = 0; 997237fead6SMichael Halcrow 998237fead6SMichael Halcrow ecryptfs_set_default_crypt_stat_vals(crypt_stat, mount_crypt_stat); 999af655dc6SMichael Halcrow crypt_stat->flags |= (ECRYPTFS_ENCRYPTED | ECRYPTFS_KEY_VALID); 100017398957SMichael Halcrow ecryptfs_copy_mount_wide_flags_to_inode_flags(crypt_stat, 100117398957SMichael Halcrow mount_crypt_stat); 1002f4aad16aSMichael Halcrow rc = ecryptfs_copy_mount_wide_sigs_to_inode_sigs(crypt_stat, 1003f4aad16aSMichael Halcrow mount_crypt_stat); 1004f4aad16aSMichael Halcrow if (rc) { 1005f4aad16aSMichael Halcrow printk(KERN_ERR "Error attempting to copy mount-wide key sigs " 1006f4aad16aSMichael Halcrow "to the inode key sigs; rc = [%d]\n", rc); 1007f4aad16aSMichael Halcrow goto out; 1008f4aad16aSMichael Halcrow } 1009237fead6SMichael Halcrow cipher_name_len = 1010237fead6SMichael Halcrow strlen(mount_crypt_stat->global_default_cipher_name); 1011237fead6SMichael Halcrow memcpy(crypt_stat->cipher, 1012237fead6SMichael Halcrow mount_crypt_stat->global_default_cipher_name, 1013237fead6SMichael Halcrow cipher_name_len); 1014237fead6SMichael Halcrow crypt_stat->cipher[cipher_name_len] = '\0'; 1015237fead6SMichael Halcrow crypt_stat->key_size = 1016237fead6SMichael Halcrow mount_crypt_stat->global_default_cipher_key_size; 1017237fead6SMichael Halcrow ecryptfs_generate_new_key(crypt_stat); 1018237fead6SMichael Halcrow rc = ecryptfs_init_crypt_ctx(crypt_stat); 1019237fead6SMichael Halcrow if (rc) 1020237fead6SMichael Halcrow ecryptfs_printk(KERN_ERR, "Error initializing cryptographic " 1021237fead6SMichael Halcrow "context for cipher [%s]: rc = [%d]\n", 1022237fead6SMichael Halcrow crypt_stat->cipher, rc); 1023f4aad16aSMichael Halcrow out: 1024237fead6SMichael Halcrow return rc; 1025237fead6SMichael Halcrow } 1026237fead6SMichael Halcrow 1027237fead6SMichael Halcrow /** 1028237fead6SMichael Halcrow * contains_ecryptfs_marker - check for the ecryptfs marker 1029237fead6SMichael Halcrow * @data: The data block in which to check 1030237fead6SMichael Halcrow * 1031237fead6SMichael Halcrow * Returns one if marker found; zero if not found 1032237fead6SMichael Halcrow */ 1033dd2a3b7aSMichael Halcrow static int contains_ecryptfs_marker(char *data) 1034237fead6SMichael Halcrow { 1035237fead6SMichael Halcrow u32 m_1, m_2; 1036237fead6SMichael Halcrow 103729335c6aSHarvey Harrison m_1 = get_unaligned_be32(data); 103829335c6aSHarvey Harrison m_2 = get_unaligned_be32(data + 4); 1039237fead6SMichael Halcrow if ((m_1 ^ MAGIC_ECRYPTFS_MARKER) == m_2) 1040237fead6SMichael Halcrow return 1; 1041237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "m_1 = [0x%.8x]; m_2 = [0x%.8x]; " 1042237fead6SMichael Halcrow "MAGIC_ECRYPTFS_MARKER = [0x%.8x]\n", m_1, m_2, 1043237fead6SMichael Halcrow MAGIC_ECRYPTFS_MARKER); 1044237fead6SMichael Halcrow ecryptfs_printk(KERN_DEBUG, "(m_1 ^ MAGIC_ECRYPTFS_MARKER) = " 1045237fead6SMichael Halcrow "[0x%.8x]\n", (m_1 ^ MAGIC_ECRYPTFS_MARKER)); 1046237fead6SMichael Halcrow return 0; 1047237fead6SMichael Halcrow } 1048237fead6SMichael Halcrow 1049237fead6SMichael Halcrow struct ecryptfs_flag_map_elem { 1050237fead6SMichael Halcrow u32 file_flag; 1051237fead6SMichael Halcrow u32 local_flag; 1052237fead6SMichael Halcrow }; 1053237fead6SMichael Halcrow 1054237fead6SMichael Halcrow /* Add support for additional flags by adding elements here. */ 1055237fead6SMichael Halcrow static struct ecryptfs_flag_map_elem ecryptfs_flag_map[] = { 1056237fead6SMichael Halcrow {0x00000001, ECRYPTFS_ENABLE_HMAC}, 1057dd2a3b7aSMichael Halcrow {0x00000002, ECRYPTFS_ENCRYPTED}, 1058addd65adSMichael Halcrow {0x00000004, ECRYPTFS_METADATA_IN_XATTR}, 1059addd65adSMichael Halcrow {0x00000008, ECRYPTFS_ENCRYPT_FILENAMES} 1060237fead6SMichael Halcrow }; 1061237fead6SMichael Halcrow 1062237fead6SMichael Halcrow /** 1063237fead6SMichael Halcrow * ecryptfs_process_flags 106422e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 1065237fead6SMichael Halcrow * @page_virt: Source data to be parsed 1066237fead6SMichael Halcrow * @bytes_read: Updated with the number of bytes read 1067237fead6SMichael Halcrow * 1068237fead6SMichael Halcrow * Returns zero on success; non-zero if the flag set is invalid 1069237fead6SMichael Halcrow */ 1070237fead6SMichael Halcrow static int ecryptfs_process_flags(struct ecryptfs_crypt_stat *crypt_stat, 1071237fead6SMichael Halcrow char *page_virt, int *bytes_read) 1072237fead6SMichael Halcrow { 1073237fead6SMichael Halcrow int rc = 0; 1074237fead6SMichael Halcrow int i; 1075237fead6SMichael Halcrow u32 flags; 1076237fead6SMichael Halcrow 107729335c6aSHarvey Harrison flags = get_unaligned_be32(page_virt); 1078237fead6SMichael Halcrow for (i = 0; i < ((sizeof(ecryptfs_flag_map) 1079237fead6SMichael Halcrow / sizeof(struct ecryptfs_flag_map_elem))); i++) 1080237fead6SMichael Halcrow if (flags & ecryptfs_flag_map[i].file_flag) { 1081e2bd99ecSMichael Halcrow crypt_stat->flags |= ecryptfs_flag_map[i].local_flag; 1082237fead6SMichael Halcrow } else 1083e2bd99ecSMichael Halcrow crypt_stat->flags &= ~(ecryptfs_flag_map[i].local_flag); 1084237fead6SMichael Halcrow /* Version is in top 8 bits of the 32-bit flag vector */ 1085237fead6SMichael Halcrow crypt_stat->file_version = ((flags >> 24) & 0xFF); 1086237fead6SMichael Halcrow (*bytes_read) = 4; 1087237fead6SMichael Halcrow return rc; 1088237fead6SMichael Halcrow } 1089237fead6SMichael Halcrow 1090237fead6SMichael Halcrow /** 1091237fead6SMichael Halcrow * write_ecryptfs_marker 1092237fead6SMichael Halcrow * @page_virt: The pointer to in a page to begin writing the marker 1093237fead6SMichael Halcrow * @written: Number of bytes written 1094237fead6SMichael Halcrow * 1095237fead6SMichael Halcrow * Marker = 0x3c81b7f5 1096237fead6SMichael Halcrow */ 1097237fead6SMichael Halcrow static void write_ecryptfs_marker(char *page_virt, size_t *written) 1098237fead6SMichael Halcrow { 1099237fead6SMichael Halcrow u32 m_1, m_2; 1100237fead6SMichael Halcrow 1101237fead6SMichael Halcrow get_random_bytes(&m_1, (MAGIC_ECRYPTFS_MARKER_SIZE_BYTES / 2)); 1102237fead6SMichael Halcrow m_2 = (m_1 ^ MAGIC_ECRYPTFS_MARKER); 110329335c6aSHarvey Harrison put_unaligned_be32(m_1, page_virt); 110429335c6aSHarvey Harrison page_virt += (MAGIC_ECRYPTFS_MARKER_SIZE_BYTES / 2); 110529335c6aSHarvey Harrison put_unaligned_be32(m_2, page_virt); 1106237fead6SMichael Halcrow (*written) = MAGIC_ECRYPTFS_MARKER_SIZE_BYTES; 1107237fead6SMichael Halcrow } 1108237fead6SMichael Halcrow 1109f4e60e6bSTyler Hicks void ecryptfs_write_crypt_stat_flags(char *page_virt, 1110f4e60e6bSTyler Hicks struct ecryptfs_crypt_stat *crypt_stat, 1111237fead6SMichael Halcrow size_t *written) 1112237fead6SMichael Halcrow { 1113237fead6SMichael Halcrow u32 flags = 0; 1114237fead6SMichael Halcrow int i; 1115237fead6SMichael Halcrow 1116237fead6SMichael Halcrow for (i = 0; i < ((sizeof(ecryptfs_flag_map) 1117237fead6SMichael Halcrow / sizeof(struct ecryptfs_flag_map_elem))); i++) 1118e2bd99ecSMichael Halcrow if (crypt_stat->flags & ecryptfs_flag_map[i].local_flag) 1119237fead6SMichael Halcrow flags |= ecryptfs_flag_map[i].file_flag; 1120237fead6SMichael Halcrow /* Version is in top 8 bits of the 32-bit flag vector */ 1121237fead6SMichael Halcrow flags |= ((((u8)crypt_stat->file_version) << 24) & 0xFF000000); 112229335c6aSHarvey Harrison put_unaligned_be32(flags, page_virt); 1123237fead6SMichael Halcrow (*written) = 4; 1124237fead6SMichael Halcrow } 1125237fead6SMichael Halcrow 1126237fead6SMichael Halcrow struct ecryptfs_cipher_code_str_map_elem { 1127237fead6SMichael Halcrow char cipher_str[16]; 112819e66a67STrevor Highland u8 cipher_code; 1129237fead6SMichael Halcrow }; 1130237fead6SMichael Halcrow 1131237fead6SMichael Halcrow /* Add support for additional ciphers by adding elements here. The 1132237fead6SMichael Halcrow * cipher_code is whatever OpenPGP applicatoins use to identify the 1133237fead6SMichael Halcrow * ciphers. List in order of probability. */ 1134237fead6SMichael Halcrow static struct ecryptfs_cipher_code_str_map_elem 1135237fead6SMichael Halcrow ecryptfs_cipher_code_str_map[] = { 1136237fead6SMichael Halcrow {"aes",RFC2440_CIPHER_AES_128 }, 1137237fead6SMichael Halcrow {"blowfish", RFC2440_CIPHER_BLOWFISH}, 1138237fead6SMichael Halcrow {"des3_ede", RFC2440_CIPHER_DES3_EDE}, 1139237fead6SMichael Halcrow {"cast5", RFC2440_CIPHER_CAST_5}, 1140237fead6SMichael Halcrow {"twofish", RFC2440_CIPHER_TWOFISH}, 1141237fead6SMichael Halcrow {"cast6", RFC2440_CIPHER_CAST_6}, 1142237fead6SMichael Halcrow {"aes", RFC2440_CIPHER_AES_192}, 1143237fead6SMichael Halcrow {"aes", RFC2440_CIPHER_AES_256} 1144237fead6SMichael Halcrow }; 1145237fead6SMichael Halcrow 1146237fead6SMichael Halcrow /** 1147237fead6SMichael Halcrow * ecryptfs_code_for_cipher_string 11489c79f34fSMichael Halcrow * @cipher_name: The string alias for the cipher 11499c79f34fSMichael Halcrow * @key_bytes: Length of key in bytes; used for AES code selection 1150237fead6SMichael Halcrow * 1151237fead6SMichael Halcrow * Returns zero on no match, or the cipher code on match 1152237fead6SMichael Halcrow */ 11539c79f34fSMichael Halcrow u8 ecryptfs_code_for_cipher_string(char *cipher_name, size_t key_bytes) 1154237fead6SMichael Halcrow { 1155237fead6SMichael Halcrow int i; 115619e66a67STrevor Highland u8 code = 0; 1157237fead6SMichael Halcrow struct ecryptfs_cipher_code_str_map_elem *map = 1158237fead6SMichael Halcrow ecryptfs_cipher_code_str_map; 1159237fead6SMichael Halcrow 11609c79f34fSMichael Halcrow if (strcmp(cipher_name, "aes") == 0) { 11619c79f34fSMichael Halcrow switch (key_bytes) { 1162237fead6SMichael Halcrow case 16: 1163237fead6SMichael Halcrow code = RFC2440_CIPHER_AES_128; 1164237fead6SMichael Halcrow break; 1165237fead6SMichael Halcrow case 24: 1166237fead6SMichael Halcrow code = RFC2440_CIPHER_AES_192; 1167237fead6SMichael Halcrow break; 1168237fead6SMichael Halcrow case 32: 1169237fead6SMichael Halcrow code = RFC2440_CIPHER_AES_256; 1170237fead6SMichael Halcrow } 1171237fead6SMichael Halcrow } else { 1172237fead6SMichael Halcrow for (i = 0; i < ARRAY_SIZE(ecryptfs_cipher_code_str_map); i++) 11739c79f34fSMichael Halcrow if (strcmp(cipher_name, map[i].cipher_str) == 0) { 1174237fead6SMichael Halcrow code = map[i].cipher_code; 1175237fead6SMichael Halcrow break; 1176237fead6SMichael Halcrow } 1177237fead6SMichael Halcrow } 1178237fead6SMichael Halcrow return code; 1179237fead6SMichael Halcrow } 1180237fead6SMichael Halcrow 1181237fead6SMichael Halcrow /** 1182237fead6SMichael Halcrow * ecryptfs_cipher_code_to_string 1183237fead6SMichael Halcrow * @str: Destination to write out the cipher name 1184237fead6SMichael Halcrow * @cipher_code: The code to convert to cipher name string 1185237fead6SMichael Halcrow * 1186237fead6SMichael Halcrow * Returns zero on success 1187237fead6SMichael Halcrow */ 118819e66a67STrevor Highland int ecryptfs_cipher_code_to_string(char *str, u8 cipher_code) 1189237fead6SMichael Halcrow { 1190237fead6SMichael Halcrow int rc = 0; 1191237fead6SMichael Halcrow int i; 1192237fead6SMichael Halcrow 1193237fead6SMichael Halcrow str[0] = '\0'; 1194237fead6SMichael Halcrow for (i = 0; i < ARRAY_SIZE(ecryptfs_cipher_code_str_map); i++) 1195237fead6SMichael Halcrow if (cipher_code == ecryptfs_cipher_code_str_map[i].cipher_code) 1196237fead6SMichael Halcrow strcpy(str, ecryptfs_cipher_code_str_map[i].cipher_str); 1197237fead6SMichael Halcrow if (str[0] == '\0') { 1198237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Cipher code not recognized: " 1199237fead6SMichael Halcrow "[%d]\n", cipher_code); 1200237fead6SMichael Halcrow rc = -EINVAL; 1201237fead6SMichael Halcrow } 1202237fead6SMichael Halcrow return rc; 1203237fead6SMichael Halcrow } 1204237fead6SMichael Halcrow 1205d7cdc5feSMichael Halcrow int ecryptfs_read_and_validate_header_region(char *data, 1206d7cdc5feSMichael Halcrow struct inode *ecryptfs_inode) 1207dd2a3b7aSMichael Halcrow { 1208d7cdc5feSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat = 1209d7cdc5feSMichael Halcrow &(ecryptfs_inode_to_private(ecryptfs_inode)->crypt_stat); 1210dd2a3b7aSMichael Halcrow int rc; 1211dd2a3b7aSMichael Halcrow 1212addd65adSMichael Halcrow if (crypt_stat->extent_size == 0) 1213addd65adSMichael Halcrow crypt_stat->extent_size = ECRYPTFS_DEFAULT_EXTENT_SIZE; 1214d7cdc5feSMichael Halcrow rc = ecryptfs_read_lower(data, 0, crypt_stat->extent_size, 1215d7cdc5feSMichael Halcrow ecryptfs_inode); 121696a7b9c2STyler Hicks if (rc < 0) { 1217d7cdc5feSMichael Halcrow printk(KERN_ERR "%s: Error reading header region; rc = [%d]\n", 121818d1dbf1SHarvey Harrison __func__, rc); 1219dd2a3b7aSMichael Halcrow goto out; 1220d7cdc5feSMichael Halcrow } 1221d7cdc5feSMichael Halcrow if (!contains_ecryptfs_marker(data + ECRYPTFS_FILE_SIZE_BYTES)) { 1222dd2a3b7aSMichael Halcrow rc = -EINVAL; 122396a7b9c2STyler Hicks } else 122496a7b9c2STyler Hicks rc = 0; 1225dd2a3b7aSMichael Halcrow out: 1226dd2a3b7aSMichael Halcrow return rc; 1227dd2a3b7aSMichael Halcrow } 1228dd2a3b7aSMichael Halcrow 1229e77a56ddSMichael Halcrow void 1230e77a56ddSMichael Halcrow ecryptfs_write_header_metadata(char *virt, 1231e77a56ddSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 1232237fead6SMichael Halcrow size_t *written) 1233237fead6SMichael Halcrow { 1234237fead6SMichael Halcrow u32 header_extent_size; 1235237fead6SMichael Halcrow u16 num_header_extents_at_front; 1236237fead6SMichael Halcrow 123745eaab79SMichael Halcrow header_extent_size = (u32)crypt_stat->extent_size; 1238237fead6SMichael Halcrow num_header_extents_at_front = 1239fa3ef1cbSTyler Hicks (u16)(crypt_stat->metadata_size / crypt_stat->extent_size); 124029335c6aSHarvey Harrison put_unaligned_be32(header_extent_size, virt); 1241237fead6SMichael Halcrow virt += 4; 124229335c6aSHarvey Harrison put_unaligned_be16(num_header_extents_at_front, virt); 1243237fead6SMichael Halcrow (*written) = 6; 1244237fead6SMichael Halcrow } 1245237fead6SMichael Halcrow 1246237fead6SMichael Halcrow struct kmem_cache *ecryptfs_header_cache_1; 1247237fead6SMichael Halcrow struct kmem_cache *ecryptfs_header_cache_2; 1248237fead6SMichael Halcrow 1249237fead6SMichael Halcrow /** 1250237fead6SMichael Halcrow * ecryptfs_write_headers_virt 125122e78fafSMichael Halcrow * @page_virt: The virtual address to write the headers to 125287b811c3SEric Sandeen * @max: The size of memory allocated at page_virt 125322e78fafSMichael Halcrow * @size: Set to the number of bytes written by this function 125422e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 125522e78fafSMichael Halcrow * @ecryptfs_dentry: The eCryptfs dentry 1256237fead6SMichael Halcrow * 1257237fead6SMichael Halcrow * Format version: 1 1258237fead6SMichael Halcrow * 1259237fead6SMichael Halcrow * Header Extent: 1260237fead6SMichael Halcrow * Octets 0-7: Unencrypted file size (big-endian) 1261237fead6SMichael Halcrow * Octets 8-15: eCryptfs special marker 1262237fead6SMichael Halcrow * Octets 16-19: Flags 1263237fead6SMichael Halcrow * Octet 16: File format version number (between 0 and 255) 1264237fead6SMichael Halcrow * Octets 17-18: Reserved 1265237fead6SMichael Halcrow * Octet 19: Bit 1 (lsb): Reserved 1266237fead6SMichael Halcrow * Bit 2: Encrypted? 1267237fead6SMichael Halcrow * Bits 3-8: Reserved 1268237fead6SMichael Halcrow * Octets 20-23: Header extent size (big-endian) 1269237fead6SMichael Halcrow * Octets 24-25: Number of header extents at front of file 1270237fead6SMichael Halcrow * (big-endian) 1271237fead6SMichael Halcrow * Octet 26: Begin RFC 2440 authentication token packet set 1272237fead6SMichael Halcrow * Data Extent 0: 1273237fead6SMichael Halcrow * Lower data (CBC encrypted) 1274237fead6SMichael Halcrow * Data Extent 1: 1275237fead6SMichael Halcrow * Lower data (CBC encrypted) 1276237fead6SMichael Halcrow * ... 1277237fead6SMichael Halcrow * 1278237fead6SMichael Halcrow * Returns zero on success 1279237fead6SMichael Halcrow */ 128087b811c3SEric Sandeen static int ecryptfs_write_headers_virt(char *page_virt, size_t max, 128187b811c3SEric Sandeen size_t *size, 1282237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 1283237fead6SMichael Halcrow struct dentry *ecryptfs_dentry) 1284237fead6SMichael Halcrow { 1285237fead6SMichael Halcrow int rc; 1286237fead6SMichael Halcrow size_t written; 1287237fead6SMichael Halcrow size_t offset; 1288237fead6SMichael Halcrow 1289237fead6SMichael Halcrow offset = ECRYPTFS_FILE_SIZE_BYTES; 1290237fead6SMichael Halcrow write_ecryptfs_marker((page_virt + offset), &written); 1291237fead6SMichael Halcrow offset += written; 1292f4e60e6bSTyler Hicks ecryptfs_write_crypt_stat_flags((page_virt + offset), crypt_stat, 1293f4e60e6bSTyler Hicks &written); 1294237fead6SMichael Halcrow offset += written; 1295e77a56ddSMichael Halcrow ecryptfs_write_header_metadata((page_virt + offset), crypt_stat, 1296e77a56ddSMichael Halcrow &written); 1297237fead6SMichael Halcrow offset += written; 1298237fead6SMichael Halcrow rc = ecryptfs_generate_key_packet_set((page_virt + offset), crypt_stat, 1299237fead6SMichael Halcrow ecryptfs_dentry, &written, 130087b811c3SEric Sandeen max - offset); 1301237fead6SMichael Halcrow if (rc) 1302237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Error generating key packet " 1303237fead6SMichael Halcrow "set; rc = [%d]\n", rc); 1304dd2a3b7aSMichael Halcrow if (size) { 1305dd2a3b7aSMichael Halcrow offset += written; 1306dd2a3b7aSMichael Halcrow *size = offset; 1307dd2a3b7aSMichael Halcrow } 1308dd2a3b7aSMichael Halcrow return rc; 1309dd2a3b7aSMichael Halcrow } 1310dd2a3b7aSMichael Halcrow 131122e78fafSMichael Halcrow static int 13128faece5fSTyler Hicks ecryptfs_write_metadata_to_contents(struct dentry *ecryptfs_dentry, 13138faece5fSTyler Hicks char *virt, size_t virt_len) 1314dd2a3b7aSMichael Halcrow { 1315d7cdc5feSMichael Halcrow int rc; 1316dd2a3b7aSMichael Halcrow 1317cc11beffSMichael Halcrow rc = ecryptfs_write_lower(ecryptfs_dentry->d_inode, virt, 13188faece5fSTyler Hicks 0, virt_len); 131996a7b9c2STyler Hicks if (rc < 0) 1320d7cdc5feSMichael Halcrow printk(KERN_ERR "%s: Error attempting to write header " 132196a7b9c2STyler Hicks "information to lower file; rc = [%d]\n", __func__, rc); 132296a7b9c2STyler Hicks else 132396a7b9c2STyler Hicks rc = 0; 132470456600SMichael Halcrow return rc; 1325dd2a3b7aSMichael Halcrow } 1326dd2a3b7aSMichael Halcrow 132722e78fafSMichael Halcrow static int 132822e78fafSMichael Halcrow ecryptfs_write_metadata_to_xattr(struct dentry *ecryptfs_dentry, 1329dd2a3b7aSMichael Halcrow char *page_virt, size_t size) 1330dd2a3b7aSMichael Halcrow { 1331dd2a3b7aSMichael Halcrow int rc; 1332dd2a3b7aSMichael Halcrow 1333dd2a3b7aSMichael Halcrow rc = ecryptfs_setxattr(ecryptfs_dentry, ECRYPTFS_XATTR_NAME, page_virt, 1334dd2a3b7aSMichael Halcrow size, 0); 1335237fead6SMichael Halcrow return rc; 1336237fead6SMichael Halcrow } 1337237fead6SMichael Halcrow 13388faece5fSTyler Hicks static unsigned long ecryptfs_get_zeroed_pages(gfp_t gfp_mask, 13398faece5fSTyler Hicks unsigned int order) 13408faece5fSTyler Hicks { 13418faece5fSTyler Hicks struct page *page; 13428faece5fSTyler Hicks 13438faece5fSTyler Hicks page = alloc_pages(gfp_mask | __GFP_ZERO, order); 13448faece5fSTyler Hicks if (page) 13458faece5fSTyler Hicks return (unsigned long) page_address(page); 13468faece5fSTyler Hicks return 0; 13478faece5fSTyler Hicks } 13488faece5fSTyler Hicks 1349237fead6SMichael Halcrow /** 1350dd2a3b7aSMichael Halcrow * ecryptfs_write_metadata 135122e78fafSMichael Halcrow * @ecryptfs_dentry: The eCryptfs dentry 1352237fead6SMichael Halcrow * 1353237fead6SMichael Halcrow * Write the file headers out. This will likely involve a userspace 1354237fead6SMichael Halcrow * callout, in which the session key is encrypted with one or more 1355237fead6SMichael Halcrow * public keys and/or the passphrase necessary to do the encryption is 1356237fead6SMichael Halcrow * retrieved via a prompt. Exactly what happens at this point should 1357237fead6SMichael Halcrow * be policy-dependent. 1358237fead6SMichael Halcrow * 1359237fead6SMichael Halcrow * Returns zero on success; non-zero on error 1360237fead6SMichael Halcrow */ 1361d7cdc5feSMichael Halcrow int ecryptfs_write_metadata(struct dentry *ecryptfs_dentry) 1362237fead6SMichael Halcrow { 1363d7cdc5feSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat = 1364d7cdc5feSMichael Halcrow &ecryptfs_inode_to_private(ecryptfs_dentry->d_inode)->crypt_stat; 13658faece5fSTyler Hicks unsigned int order; 1366cc11beffSMichael Halcrow char *virt; 13678faece5fSTyler Hicks size_t virt_len; 1368d7cdc5feSMichael Halcrow size_t size = 0; 1369237fead6SMichael Halcrow int rc = 0; 1370237fead6SMichael Halcrow 1371e2bd99ecSMichael Halcrow if (likely(crypt_stat->flags & ECRYPTFS_ENCRYPTED)) { 1372e2bd99ecSMichael Halcrow if (!(crypt_stat->flags & ECRYPTFS_KEY_VALID)) { 1373d7cdc5feSMichael Halcrow printk(KERN_ERR "Key is invalid; bailing out\n"); 1374237fead6SMichael Halcrow rc = -EINVAL; 1375237fead6SMichael Halcrow goto out; 1376237fead6SMichael Halcrow } 1377237fead6SMichael Halcrow } else { 1378cc11beffSMichael Halcrow printk(KERN_WARNING "%s: Encrypted flag not set\n", 137918d1dbf1SHarvey Harrison __func__); 1380237fead6SMichael Halcrow rc = -EINVAL; 1381237fead6SMichael Halcrow goto out; 1382237fead6SMichael Halcrow } 1383fa3ef1cbSTyler Hicks virt_len = crypt_stat->metadata_size; 13848faece5fSTyler Hicks order = get_order(virt_len); 1385237fead6SMichael Halcrow /* Released in this function */ 13868faece5fSTyler Hicks virt = (char *)ecryptfs_get_zeroed_pages(GFP_KERNEL, order); 1387cc11beffSMichael Halcrow if (!virt) { 138818d1dbf1SHarvey Harrison printk(KERN_ERR "%s: Out of memory\n", __func__); 1389237fead6SMichael Halcrow rc = -ENOMEM; 1390237fead6SMichael Halcrow goto out; 1391237fead6SMichael Halcrow } 13928faece5fSTyler Hicks rc = ecryptfs_write_headers_virt(virt, virt_len, &size, crypt_stat, 13938faece5fSTyler Hicks ecryptfs_dentry); 1394237fead6SMichael Halcrow if (unlikely(rc)) { 1395cc11beffSMichael Halcrow printk(KERN_ERR "%s: Error whilst writing headers; rc = [%d]\n", 139618d1dbf1SHarvey Harrison __func__, rc); 1397237fead6SMichael Halcrow goto out_free; 1398237fead6SMichael Halcrow } 1399dd2a3b7aSMichael Halcrow if (crypt_stat->flags & ECRYPTFS_METADATA_IN_XATTR) 14008faece5fSTyler Hicks rc = ecryptfs_write_metadata_to_xattr(ecryptfs_dentry, virt, 14018faece5fSTyler Hicks size); 1402dd2a3b7aSMichael Halcrow else 14038faece5fSTyler Hicks rc = ecryptfs_write_metadata_to_contents(ecryptfs_dentry, virt, 14048faece5fSTyler Hicks virt_len); 1405dd2a3b7aSMichael Halcrow if (rc) { 1406cc11beffSMichael Halcrow printk(KERN_ERR "%s: Error writing metadata out to lower file; " 140718d1dbf1SHarvey Harrison "rc = [%d]\n", __func__, rc); 1408dd2a3b7aSMichael Halcrow goto out_free; 1409237fead6SMichael Halcrow } 1410237fead6SMichael Halcrow out_free: 14118faece5fSTyler Hicks free_pages((unsigned long)virt, order); 1412237fead6SMichael Halcrow out: 1413237fead6SMichael Halcrow return rc; 1414237fead6SMichael Halcrow } 1415237fead6SMichael Halcrow 1416dd2a3b7aSMichael Halcrow #define ECRYPTFS_DONT_VALIDATE_HEADER_SIZE 0 1417dd2a3b7aSMichael Halcrow #define ECRYPTFS_VALIDATE_HEADER_SIZE 1 1418237fead6SMichael Halcrow static int parse_header_metadata(struct ecryptfs_crypt_stat *crypt_stat, 1419dd2a3b7aSMichael Halcrow char *virt, int *bytes_read, 1420dd2a3b7aSMichael Halcrow int validate_header_size) 1421237fead6SMichael Halcrow { 1422237fead6SMichael Halcrow int rc = 0; 1423237fead6SMichael Halcrow u32 header_extent_size; 1424237fead6SMichael Halcrow u16 num_header_extents_at_front; 1425237fead6SMichael Halcrow 142629335c6aSHarvey Harrison header_extent_size = get_unaligned_be32(virt); 142729335c6aSHarvey Harrison virt += sizeof(__be32); 142829335c6aSHarvey Harrison num_header_extents_at_front = get_unaligned_be16(virt); 1429fa3ef1cbSTyler Hicks crypt_stat->metadata_size = (((size_t)num_header_extents_at_front 1430cc11beffSMichael Halcrow * (size_t)header_extent_size)); 143129335c6aSHarvey Harrison (*bytes_read) = (sizeof(__be32) + sizeof(__be16)); 1432dd2a3b7aSMichael Halcrow if ((validate_header_size == ECRYPTFS_VALIDATE_HEADER_SIZE) 1433fa3ef1cbSTyler Hicks && (crypt_stat->metadata_size 1434dd2a3b7aSMichael Halcrow < ECRYPTFS_MINIMUM_HEADER_EXTENT_SIZE)) { 1435237fead6SMichael Halcrow rc = -EINVAL; 1436cc11beffSMichael Halcrow printk(KERN_WARNING "Invalid header size: [%zd]\n", 1437fa3ef1cbSTyler Hicks crypt_stat->metadata_size); 1438237fead6SMichael Halcrow } 1439237fead6SMichael Halcrow return rc; 1440237fead6SMichael Halcrow } 1441237fead6SMichael Halcrow 1442237fead6SMichael Halcrow /** 1443237fead6SMichael Halcrow * set_default_header_data 144422e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 1445237fead6SMichael Halcrow * 1446237fead6SMichael Halcrow * For version 0 file format; this function is only for backwards 1447237fead6SMichael Halcrow * compatibility for files created with the prior versions of 1448237fead6SMichael Halcrow * eCryptfs. 1449237fead6SMichael Halcrow */ 1450237fead6SMichael Halcrow static void set_default_header_data(struct ecryptfs_crypt_stat *crypt_stat) 1451237fead6SMichael Halcrow { 1452fa3ef1cbSTyler Hicks crypt_stat->metadata_size = ECRYPTFS_MINIMUM_HEADER_EXTENT_SIZE; 1453237fead6SMichael Halcrow } 1454237fead6SMichael Halcrow 1455237fead6SMichael Halcrow /** 1456237fead6SMichael Halcrow * ecryptfs_read_headers_virt 145722e78fafSMichael Halcrow * @page_virt: The virtual address into which to read the headers 145822e78fafSMichael Halcrow * @crypt_stat: The cryptographic context 145922e78fafSMichael Halcrow * @ecryptfs_dentry: The eCryptfs dentry 146022e78fafSMichael Halcrow * @validate_header_size: Whether to validate the header size while reading 1461237fead6SMichael Halcrow * 1462237fead6SMichael Halcrow * Read/parse the header data. The header format is detailed in the 1463237fead6SMichael Halcrow * comment block for the ecryptfs_write_headers_virt() function. 1464237fead6SMichael Halcrow * 1465237fead6SMichael Halcrow * Returns zero on success 1466237fead6SMichael Halcrow */ 1467237fead6SMichael Halcrow static int ecryptfs_read_headers_virt(char *page_virt, 1468237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 1469dd2a3b7aSMichael Halcrow struct dentry *ecryptfs_dentry, 1470dd2a3b7aSMichael Halcrow int validate_header_size) 1471237fead6SMichael Halcrow { 1472237fead6SMichael Halcrow int rc = 0; 1473237fead6SMichael Halcrow int offset; 1474237fead6SMichael Halcrow int bytes_read; 1475237fead6SMichael Halcrow 1476237fead6SMichael Halcrow ecryptfs_set_default_sizes(crypt_stat); 1477237fead6SMichael Halcrow crypt_stat->mount_crypt_stat = &ecryptfs_superblock_to_private( 1478237fead6SMichael Halcrow ecryptfs_dentry->d_sb)->mount_crypt_stat; 1479237fead6SMichael Halcrow offset = ECRYPTFS_FILE_SIZE_BYTES; 1480237fead6SMichael Halcrow rc = contains_ecryptfs_marker(page_virt + offset); 1481237fead6SMichael Halcrow if (rc == 0) { 1482237fead6SMichael Halcrow rc = -EINVAL; 1483237fead6SMichael Halcrow goto out; 1484237fead6SMichael Halcrow } 1485237fead6SMichael Halcrow offset += MAGIC_ECRYPTFS_MARKER_SIZE_BYTES; 1486237fead6SMichael Halcrow rc = ecryptfs_process_flags(crypt_stat, (page_virt + offset), 1487237fead6SMichael Halcrow &bytes_read); 1488237fead6SMichael Halcrow if (rc) { 1489237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Error processing flags\n"); 1490237fead6SMichael Halcrow goto out; 1491237fead6SMichael Halcrow } 1492237fead6SMichael Halcrow if (crypt_stat->file_version > ECRYPTFS_SUPPORTED_FILE_VERSION) { 1493237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "File version is [%d]; only " 1494237fead6SMichael Halcrow "file version [%d] is supported by this " 1495237fead6SMichael Halcrow "version of eCryptfs\n", 1496237fead6SMichael Halcrow crypt_stat->file_version, 1497237fead6SMichael Halcrow ECRYPTFS_SUPPORTED_FILE_VERSION); 1498237fead6SMichael Halcrow rc = -EINVAL; 1499237fead6SMichael Halcrow goto out; 1500237fead6SMichael Halcrow } 1501237fead6SMichael Halcrow offset += bytes_read; 1502237fead6SMichael Halcrow if (crypt_stat->file_version >= 1) { 1503237fead6SMichael Halcrow rc = parse_header_metadata(crypt_stat, (page_virt + offset), 1504dd2a3b7aSMichael Halcrow &bytes_read, validate_header_size); 1505237fead6SMichael Halcrow if (rc) { 1506237fead6SMichael Halcrow ecryptfs_printk(KERN_WARNING, "Error reading header " 1507237fead6SMichael Halcrow "metadata; rc = [%d]\n", rc); 1508237fead6SMichael Halcrow } 1509237fead6SMichael Halcrow offset += bytes_read; 1510237fead6SMichael Halcrow } else 1511237fead6SMichael Halcrow set_default_header_data(crypt_stat); 1512237fead6SMichael Halcrow rc = ecryptfs_parse_packet_set(crypt_stat, (page_virt + offset), 1513237fead6SMichael Halcrow ecryptfs_dentry); 1514237fead6SMichael Halcrow out: 1515237fead6SMichael Halcrow return rc; 1516237fead6SMichael Halcrow } 1517237fead6SMichael Halcrow 1518237fead6SMichael Halcrow /** 1519dd2a3b7aSMichael Halcrow * ecryptfs_read_xattr_region 152022e78fafSMichael Halcrow * @page_virt: The vitual address into which to read the xattr data 15212ed92554SMichael Halcrow * @ecryptfs_inode: The eCryptfs inode 1522dd2a3b7aSMichael Halcrow * 1523dd2a3b7aSMichael Halcrow * Attempts to read the crypto metadata from the extended attribute 1524dd2a3b7aSMichael Halcrow * region of the lower file. 152522e78fafSMichael Halcrow * 152622e78fafSMichael Halcrow * Returns zero on success; non-zero on error 1527dd2a3b7aSMichael Halcrow */ 1528d7cdc5feSMichael Halcrow int ecryptfs_read_xattr_region(char *page_virt, struct inode *ecryptfs_inode) 1529dd2a3b7aSMichael Halcrow { 1530d7cdc5feSMichael Halcrow struct dentry *lower_dentry = 1531d7cdc5feSMichael Halcrow ecryptfs_inode_to_private(ecryptfs_inode)->lower_file->f_dentry; 1532dd2a3b7aSMichael Halcrow ssize_t size; 1533dd2a3b7aSMichael Halcrow int rc = 0; 1534dd2a3b7aSMichael Halcrow 1535d7cdc5feSMichael Halcrow size = ecryptfs_getxattr_lower(lower_dentry, ECRYPTFS_XATTR_NAME, 1536dd2a3b7aSMichael Halcrow page_virt, ECRYPTFS_DEFAULT_EXTENT_SIZE); 1537dd2a3b7aSMichael Halcrow if (size < 0) { 153825bd8174SMichael Halcrow if (unlikely(ecryptfs_verbosity > 0)) 153925bd8174SMichael Halcrow printk(KERN_INFO "Error attempting to read the [%s] " 154025bd8174SMichael Halcrow "xattr from the lower file; return value = " 154125bd8174SMichael Halcrow "[%zd]\n", ECRYPTFS_XATTR_NAME, size); 1542dd2a3b7aSMichael Halcrow rc = -EINVAL; 1543dd2a3b7aSMichael Halcrow goto out; 1544dd2a3b7aSMichael Halcrow } 1545dd2a3b7aSMichael Halcrow out: 1546dd2a3b7aSMichael Halcrow return rc; 1547dd2a3b7aSMichael Halcrow } 1548dd2a3b7aSMichael Halcrow 1549dd2a3b7aSMichael Halcrow int ecryptfs_read_and_validate_xattr_region(char *page_virt, 1550dd2a3b7aSMichael Halcrow struct dentry *ecryptfs_dentry) 1551dd2a3b7aSMichael Halcrow { 1552dd2a3b7aSMichael Halcrow int rc; 1553dd2a3b7aSMichael Halcrow 1554d7cdc5feSMichael Halcrow rc = ecryptfs_read_xattr_region(page_virt, ecryptfs_dentry->d_inode); 1555dd2a3b7aSMichael Halcrow if (rc) 1556dd2a3b7aSMichael Halcrow goto out; 1557dd2a3b7aSMichael Halcrow if (!contains_ecryptfs_marker(page_virt + ECRYPTFS_FILE_SIZE_BYTES)) { 1558dd2a3b7aSMichael Halcrow printk(KERN_WARNING "Valid data found in [%s] xattr, but " 1559dd2a3b7aSMichael Halcrow "the marker is invalid\n", ECRYPTFS_XATTR_NAME); 1560dd2a3b7aSMichael Halcrow rc = -EINVAL; 1561dd2a3b7aSMichael Halcrow } 1562dd2a3b7aSMichael Halcrow out: 1563dd2a3b7aSMichael Halcrow return rc; 1564dd2a3b7aSMichael Halcrow } 1565dd2a3b7aSMichael Halcrow 1566dd2a3b7aSMichael Halcrow /** 1567dd2a3b7aSMichael Halcrow * ecryptfs_read_metadata 1568dd2a3b7aSMichael Halcrow * 1569dd2a3b7aSMichael Halcrow * Common entry point for reading file metadata. From here, we could 1570dd2a3b7aSMichael Halcrow * retrieve the header information from the header region of the file, 1571dd2a3b7aSMichael Halcrow * the xattr region of the file, or some other repostory that is 1572dd2a3b7aSMichael Halcrow * stored separately from the file itself. The current implementation 1573dd2a3b7aSMichael Halcrow * supports retrieving the metadata information from the file contents 1574dd2a3b7aSMichael Halcrow * and from the xattr region. 1575237fead6SMichael Halcrow * 1576237fead6SMichael Halcrow * Returns zero if valid headers found and parsed; non-zero otherwise 1577237fead6SMichael Halcrow */ 1578d7cdc5feSMichael Halcrow int ecryptfs_read_metadata(struct dentry *ecryptfs_dentry) 1579237fead6SMichael Halcrow { 1580237fead6SMichael Halcrow int rc = 0; 1581237fead6SMichael Halcrow char *page_virt = NULL; 1582d7cdc5feSMichael Halcrow struct inode *ecryptfs_inode = ecryptfs_dentry->d_inode; 1583237fead6SMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat = 1584d7cdc5feSMichael Halcrow &ecryptfs_inode_to_private(ecryptfs_inode)->crypt_stat; 1585e77a56ddSMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat = 1586e77a56ddSMichael Halcrow &ecryptfs_superblock_to_private( 1587e77a56ddSMichael Halcrow ecryptfs_dentry->d_sb)->mount_crypt_stat; 1588237fead6SMichael Halcrow 1589e77a56ddSMichael Halcrow ecryptfs_copy_mount_wide_flags_to_inode_flags(crypt_stat, 1590e77a56ddSMichael Halcrow mount_crypt_stat); 1591237fead6SMichael Halcrow /* Read the first page from the underlying file */ 1592f7267c0cSChristoph Lameter page_virt = kmem_cache_alloc(ecryptfs_header_cache_1, GFP_USER); 1593237fead6SMichael Halcrow if (!page_virt) { 1594237fead6SMichael Halcrow rc = -ENOMEM; 1595d7cdc5feSMichael Halcrow printk(KERN_ERR "%s: Unable to allocate page_virt\n", 159618d1dbf1SHarvey Harrison __func__); 1597237fead6SMichael Halcrow goto out; 1598237fead6SMichael Halcrow } 1599d7cdc5feSMichael Halcrow rc = ecryptfs_read_lower(page_virt, 0, crypt_stat->extent_size, 1600d7cdc5feSMichael Halcrow ecryptfs_inode); 160196a7b9c2STyler Hicks if (rc >= 0) 1602237fead6SMichael Halcrow rc = ecryptfs_read_headers_virt(page_virt, crypt_stat, 1603dd2a3b7aSMichael Halcrow ecryptfs_dentry, 1604dd2a3b7aSMichael Halcrow ECRYPTFS_VALIDATE_HEADER_SIZE); 1605dd2a3b7aSMichael Halcrow if (rc) { 16061984c23fSTyler Hicks memset(page_virt, 0, PAGE_CACHE_SIZE); 1607d7cdc5feSMichael Halcrow rc = ecryptfs_read_xattr_region(page_virt, ecryptfs_inode); 1608237fead6SMichael Halcrow if (rc) { 1609dd2a3b7aSMichael Halcrow printk(KERN_DEBUG "Valid eCryptfs headers not found in " 1610dd2a3b7aSMichael Halcrow "file header region or xattr region\n"); 1611237fead6SMichael Halcrow rc = -EINVAL; 1612dd2a3b7aSMichael Halcrow goto out; 1613dd2a3b7aSMichael Halcrow } 1614dd2a3b7aSMichael Halcrow rc = ecryptfs_read_headers_virt(page_virt, crypt_stat, 1615dd2a3b7aSMichael Halcrow ecryptfs_dentry, 1616dd2a3b7aSMichael Halcrow ECRYPTFS_DONT_VALIDATE_HEADER_SIZE); 1617dd2a3b7aSMichael Halcrow if (rc) { 1618dd2a3b7aSMichael Halcrow printk(KERN_DEBUG "Valid eCryptfs headers not found in " 1619dd2a3b7aSMichael Halcrow "file xattr region either\n"); 1620dd2a3b7aSMichael Halcrow rc = -EINVAL; 1621dd2a3b7aSMichael Halcrow } 1622dd2a3b7aSMichael Halcrow if (crypt_stat->mount_crypt_stat->flags 1623dd2a3b7aSMichael Halcrow & ECRYPTFS_XATTR_METADATA_ENABLED) { 1624dd2a3b7aSMichael Halcrow crypt_stat->flags |= ECRYPTFS_METADATA_IN_XATTR; 1625dd2a3b7aSMichael Halcrow } else { 1626dd2a3b7aSMichael Halcrow printk(KERN_WARNING "Attempt to access file with " 1627dd2a3b7aSMichael Halcrow "crypto metadata only in the extended attribute " 1628dd2a3b7aSMichael Halcrow "region, but eCryptfs was mounted without " 1629dd2a3b7aSMichael Halcrow "xattr support enabled. eCryptfs will not treat " 1630dd2a3b7aSMichael Halcrow "this like an encrypted file.\n"); 1631dd2a3b7aSMichael Halcrow rc = -EINVAL; 1632dd2a3b7aSMichael Halcrow } 1633237fead6SMichael Halcrow } 1634237fead6SMichael Halcrow out: 1635237fead6SMichael Halcrow if (page_virt) { 1636237fead6SMichael Halcrow memset(page_virt, 0, PAGE_CACHE_SIZE); 1637237fead6SMichael Halcrow kmem_cache_free(ecryptfs_header_cache_1, page_virt); 1638237fead6SMichael Halcrow } 1639237fead6SMichael Halcrow return rc; 1640237fead6SMichael Halcrow } 1641237fead6SMichael Halcrow 1642237fead6SMichael Halcrow /** 164351ca58dcSMichael Halcrow * ecryptfs_encrypt_filename - encrypt filename 164451ca58dcSMichael Halcrow * 164551ca58dcSMichael Halcrow * CBC-encrypts the filename. We do not want to encrypt the same 164651ca58dcSMichael Halcrow * filename with the same key and IV, which may happen with hard 164751ca58dcSMichael Halcrow * links, so we prepend random bits to each filename. 164851ca58dcSMichael Halcrow * 164951ca58dcSMichael Halcrow * Returns zero on success; non-zero otherwise 165051ca58dcSMichael Halcrow */ 165151ca58dcSMichael Halcrow static int 165251ca58dcSMichael Halcrow ecryptfs_encrypt_filename(struct ecryptfs_filename *filename, 165351ca58dcSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 165451ca58dcSMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat) 165551ca58dcSMichael Halcrow { 165651ca58dcSMichael Halcrow int rc = 0; 165751ca58dcSMichael Halcrow 165851ca58dcSMichael Halcrow filename->encrypted_filename = NULL; 165951ca58dcSMichael Halcrow filename->encrypted_filename_size = 0; 166051ca58dcSMichael Halcrow if ((crypt_stat && (crypt_stat->flags & ECRYPTFS_ENCFN_USE_MOUNT_FNEK)) 166151ca58dcSMichael Halcrow || (mount_crypt_stat && (mount_crypt_stat->flags 166251ca58dcSMichael Halcrow & ECRYPTFS_GLOBAL_ENCFN_USE_MOUNT_FNEK))) { 166351ca58dcSMichael Halcrow size_t packet_size; 166451ca58dcSMichael Halcrow size_t remaining_bytes; 166551ca58dcSMichael Halcrow 166651ca58dcSMichael Halcrow rc = ecryptfs_write_tag_70_packet( 166751ca58dcSMichael Halcrow NULL, NULL, 166851ca58dcSMichael Halcrow &filename->encrypted_filename_size, 166951ca58dcSMichael Halcrow mount_crypt_stat, NULL, 167051ca58dcSMichael Halcrow filename->filename_size); 167151ca58dcSMichael Halcrow if (rc) { 167251ca58dcSMichael Halcrow printk(KERN_ERR "%s: Error attempting to get packet " 167351ca58dcSMichael Halcrow "size for tag 72; rc = [%d]\n", __func__, 167451ca58dcSMichael Halcrow rc); 167551ca58dcSMichael Halcrow filename->encrypted_filename_size = 0; 167651ca58dcSMichael Halcrow goto out; 167751ca58dcSMichael Halcrow } 167851ca58dcSMichael Halcrow filename->encrypted_filename = 167951ca58dcSMichael Halcrow kmalloc(filename->encrypted_filename_size, GFP_KERNEL); 168051ca58dcSMichael Halcrow if (!filename->encrypted_filename) { 168151ca58dcSMichael Halcrow printk(KERN_ERR "%s: Out of memory whilst attempting " 1682df261c52SMichael Halcrow "to kmalloc [%zd] bytes\n", __func__, 168351ca58dcSMichael Halcrow filename->encrypted_filename_size); 168451ca58dcSMichael Halcrow rc = -ENOMEM; 168551ca58dcSMichael Halcrow goto out; 168651ca58dcSMichael Halcrow } 168751ca58dcSMichael Halcrow remaining_bytes = filename->encrypted_filename_size; 168851ca58dcSMichael Halcrow rc = ecryptfs_write_tag_70_packet(filename->encrypted_filename, 168951ca58dcSMichael Halcrow &remaining_bytes, 169051ca58dcSMichael Halcrow &packet_size, 169151ca58dcSMichael Halcrow mount_crypt_stat, 169251ca58dcSMichael Halcrow filename->filename, 169351ca58dcSMichael Halcrow filename->filename_size); 169451ca58dcSMichael Halcrow if (rc) { 169551ca58dcSMichael Halcrow printk(KERN_ERR "%s: Error attempting to generate " 169651ca58dcSMichael Halcrow "tag 70 packet; rc = [%d]\n", __func__, 169751ca58dcSMichael Halcrow rc); 169851ca58dcSMichael Halcrow kfree(filename->encrypted_filename); 169951ca58dcSMichael Halcrow filename->encrypted_filename = NULL; 170051ca58dcSMichael Halcrow filename->encrypted_filename_size = 0; 170151ca58dcSMichael Halcrow goto out; 170251ca58dcSMichael Halcrow } 170351ca58dcSMichael Halcrow filename->encrypted_filename_size = packet_size; 170451ca58dcSMichael Halcrow } else { 170551ca58dcSMichael Halcrow printk(KERN_ERR "%s: No support for requested filename " 170651ca58dcSMichael Halcrow "encryption method in this release\n", __func__); 1707df6ad33bSTyler Hicks rc = -EOPNOTSUPP; 170851ca58dcSMichael Halcrow goto out; 170951ca58dcSMichael Halcrow } 171051ca58dcSMichael Halcrow out: 171151ca58dcSMichael Halcrow return rc; 171251ca58dcSMichael Halcrow } 171351ca58dcSMichael Halcrow 171451ca58dcSMichael Halcrow static int ecryptfs_copy_filename(char **copied_name, size_t *copied_name_size, 171551ca58dcSMichael Halcrow const char *name, size_t name_size) 171651ca58dcSMichael Halcrow { 171751ca58dcSMichael Halcrow int rc = 0; 171851ca58dcSMichael Halcrow 1719fd9fc842STyler Hicks (*copied_name) = kmalloc((name_size + 1), GFP_KERNEL); 172051ca58dcSMichael Halcrow if (!(*copied_name)) { 172151ca58dcSMichael Halcrow rc = -ENOMEM; 172251ca58dcSMichael Halcrow goto out; 172351ca58dcSMichael Halcrow } 172451ca58dcSMichael Halcrow memcpy((void *)(*copied_name), (void *)name, name_size); 172551ca58dcSMichael Halcrow (*copied_name)[(name_size)] = '\0'; /* Only for convenience 172651ca58dcSMichael Halcrow * in printing out the 172751ca58dcSMichael Halcrow * string in debug 172851ca58dcSMichael Halcrow * messages */ 1729fd9fc842STyler Hicks (*copied_name_size) = name_size; 173051ca58dcSMichael Halcrow out: 173151ca58dcSMichael Halcrow return rc; 173251ca58dcSMichael Halcrow } 173351ca58dcSMichael Halcrow 173451ca58dcSMichael Halcrow /** 1735f4aad16aSMichael Halcrow * ecryptfs_process_key_cipher - Perform key cipher initialization. 1736237fead6SMichael Halcrow * @key_tfm: Crypto context for key material, set by this function 1737e5d9cbdeSMichael Halcrow * @cipher_name: Name of the cipher 1738e5d9cbdeSMichael Halcrow * @key_size: Size of the key in bytes 1739237fead6SMichael Halcrow * 1740237fead6SMichael Halcrow * Returns zero on success. Any crypto_tfm structs allocated here 1741237fead6SMichael Halcrow * should be released by other functions, such as on a superblock put 1742237fead6SMichael Halcrow * event, regardless of whether this function succeeds for fails. 1743237fead6SMichael Halcrow */ 1744cd9d67dfSMichael Halcrow static int 1745f4aad16aSMichael Halcrow ecryptfs_process_key_cipher(struct crypto_blkcipher **key_tfm, 1746f4aad16aSMichael Halcrow char *cipher_name, size_t *key_size) 1747237fead6SMichael Halcrow { 1748237fead6SMichael Halcrow char dummy_key[ECRYPTFS_MAX_KEY_BYTES]; 1749ece550f5SDan Carpenter char *full_alg_name = NULL; 1750237fead6SMichael Halcrow int rc; 1751237fead6SMichael Halcrow 1752e5d9cbdeSMichael Halcrow *key_tfm = NULL; 1753e5d9cbdeSMichael Halcrow if (*key_size > ECRYPTFS_MAX_KEY_BYTES) { 1754237fead6SMichael Halcrow rc = -EINVAL; 1755df261c52SMichael Halcrow printk(KERN_ERR "Requested key size is [%zd] bytes; maximum " 1756e5d9cbdeSMichael Halcrow "allowable is [%d]\n", *key_size, ECRYPTFS_MAX_KEY_BYTES); 1757237fead6SMichael Halcrow goto out; 1758237fead6SMichael Halcrow } 17598bba066fSMichael Halcrow rc = ecryptfs_crypto_api_algify_cipher_name(&full_alg_name, cipher_name, 17608bba066fSMichael Halcrow "ecb"); 17618bba066fSMichael Halcrow if (rc) 17628bba066fSMichael Halcrow goto out; 17638bba066fSMichael Halcrow *key_tfm = crypto_alloc_blkcipher(full_alg_name, 0, CRYPTO_ALG_ASYNC); 17648bba066fSMichael Halcrow if (IS_ERR(*key_tfm)) { 17658bba066fSMichael Halcrow rc = PTR_ERR(*key_tfm); 1766237fead6SMichael Halcrow printk(KERN_ERR "Unable to allocate crypto cipher with name " 176738268498SDave Hansen "[%s]; rc = [%d]\n", full_alg_name, rc); 1768237fead6SMichael Halcrow goto out; 1769237fead6SMichael Halcrow } 17708bba066fSMichael Halcrow crypto_blkcipher_set_flags(*key_tfm, CRYPTO_TFM_REQ_WEAK_KEY); 17718bba066fSMichael Halcrow if (*key_size == 0) { 17728bba066fSMichael Halcrow struct blkcipher_alg *alg = crypto_blkcipher_alg(*key_tfm); 17738bba066fSMichael Halcrow 17748bba066fSMichael Halcrow *key_size = alg->max_keysize; 17758bba066fSMichael Halcrow } 1776e5d9cbdeSMichael Halcrow get_random_bytes(dummy_key, *key_size); 17778bba066fSMichael Halcrow rc = crypto_blkcipher_setkey(*key_tfm, dummy_key, *key_size); 1778237fead6SMichael Halcrow if (rc) { 1779df261c52SMichael Halcrow printk(KERN_ERR "Error attempting to set key of size [%zd] for " 178038268498SDave Hansen "cipher [%s]; rc = [%d]\n", *key_size, full_alg_name, 178138268498SDave Hansen rc); 1782237fead6SMichael Halcrow rc = -EINVAL; 1783237fead6SMichael Halcrow goto out; 1784237fead6SMichael Halcrow } 1785237fead6SMichael Halcrow out: 1786ece550f5SDan Carpenter kfree(full_alg_name); 1787237fead6SMichael Halcrow return rc; 1788237fead6SMichael Halcrow } 1789f4aad16aSMichael Halcrow 1790f4aad16aSMichael Halcrow struct kmem_cache *ecryptfs_key_tfm_cache; 17917896b631SAdrian Bunk static struct list_head key_tfm_list; 1792af440f52SEric Sandeen struct mutex key_tfm_list_mutex; 1793f4aad16aSMichael Halcrow 17947371a382SJerome Marchand int __init ecryptfs_init_crypto(void) 1795f4aad16aSMichael Halcrow { 1796f4aad16aSMichael Halcrow mutex_init(&key_tfm_list_mutex); 1797f4aad16aSMichael Halcrow INIT_LIST_HEAD(&key_tfm_list); 1798f4aad16aSMichael Halcrow return 0; 1799f4aad16aSMichael Halcrow } 1800f4aad16aSMichael Halcrow 1801af440f52SEric Sandeen /** 1802af440f52SEric Sandeen * ecryptfs_destroy_crypto - free all cached key_tfms on key_tfm_list 1803af440f52SEric Sandeen * 1804af440f52SEric Sandeen * Called only at module unload time 1805af440f52SEric Sandeen */ 1806fcd12835SMichael Halcrow int ecryptfs_destroy_crypto(void) 1807f4aad16aSMichael Halcrow { 1808f4aad16aSMichael Halcrow struct ecryptfs_key_tfm *key_tfm, *key_tfm_tmp; 1809f4aad16aSMichael Halcrow 1810f4aad16aSMichael Halcrow mutex_lock(&key_tfm_list_mutex); 1811f4aad16aSMichael Halcrow list_for_each_entry_safe(key_tfm, key_tfm_tmp, &key_tfm_list, 1812f4aad16aSMichael Halcrow key_tfm_list) { 1813f4aad16aSMichael Halcrow list_del(&key_tfm->key_tfm_list); 1814f4aad16aSMichael Halcrow if (key_tfm->key_tfm) 1815f4aad16aSMichael Halcrow crypto_free_blkcipher(key_tfm->key_tfm); 1816f4aad16aSMichael Halcrow kmem_cache_free(ecryptfs_key_tfm_cache, key_tfm); 1817f4aad16aSMichael Halcrow } 1818f4aad16aSMichael Halcrow mutex_unlock(&key_tfm_list_mutex); 1819f4aad16aSMichael Halcrow return 0; 1820f4aad16aSMichael Halcrow } 1821f4aad16aSMichael Halcrow 1822f4aad16aSMichael Halcrow int 1823f4aad16aSMichael Halcrow ecryptfs_add_new_key_tfm(struct ecryptfs_key_tfm **key_tfm, char *cipher_name, 1824f4aad16aSMichael Halcrow size_t key_size) 1825f4aad16aSMichael Halcrow { 1826f4aad16aSMichael Halcrow struct ecryptfs_key_tfm *tmp_tfm; 1827f4aad16aSMichael Halcrow int rc = 0; 1828f4aad16aSMichael Halcrow 1829af440f52SEric Sandeen BUG_ON(!mutex_is_locked(&key_tfm_list_mutex)); 1830af440f52SEric Sandeen 1831f4aad16aSMichael Halcrow tmp_tfm = kmem_cache_alloc(ecryptfs_key_tfm_cache, GFP_KERNEL); 1832f4aad16aSMichael Halcrow if (key_tfm != NULL) 1833f4aad16aSMichael Halcrow (*key_tfm) = tmp_tfm; 1834f4aad16aSMichael Halcrow if (!tmp_tfm) { 1835f4aad16aSMichael Halcrow rc = -ENOMEM; 1836f4aad16aSMichael Halcrow printk(KERN_ERR "Error attempting to allocate from " 1837f4aad16aSMichael Halcrow "ecryptfs_key_tfm_cache\n"); 1838f4aad16aSMichael Halcrow goto out; 1839f4aad16aSMichael Halcrow } 1840f4aad16aSMichael Halcrow mutex_init(&tmp_tfm->key_tfm_mutex); 1841f4aad16aSMichael Halcrow strncpy(tmp_tfm->cipher_name, cipher_name, 1842f4aad16aSMichael Halcrow ECRYPTFS_MAX_CIPHER_NAME_SIZE); 1843b8862906SEric Sandeen tmp_tfm->cipher_name[ECRYPTFS_MAX_CIPHER_NAME_SIZE] = '\0'; 1844f4aad16aSMichael Halcrow tmp_tfm->key_size = key_size; 18455dda6992SMichael Halcrow rc = ecryptfs_process_key_cipher(&tmp_tfm->key_tfm, 1846f4aad16aSMichael Halcrow tmp_tfm->cipher_name, 18475dda6992SMichael Halcrow &tmp_tfm->key_size); 18485dda6992SMichael Halcrow if (rc) { 1849f4aad16aSMichael Halcrow printk(KERN_ERR "Error attempting to initialize key TFM " 1850f4aad16aSMichael Halcrow "cipher with name = [%s]; rc = [%d]\n", 1851f4aad16aSMichael Halcrow tmp_tfm->cipher_name, rc); 1852f4aad16aSMichael Halcrow kmem_cache_free(ecryptfs_key_tfm_cache, tmp_tfm); 1853f4aad16aSMichael Halcrow if (key_tfm != NULL) 1854f4aad16aSMichael Halcrow (*key_tfm) = NULL; 1855f4aad16aSMichael Halcrow goto out; 1856f4aad16aSMichael Halcrow } 1857f4aad16aSMichael Halcrow list_add(&tmp_tfm->key_tfm_list, &key_tfm_list); 1858f4aad16aSMichael Halcrow out: 1859f4aad16aSMichael Halcrow return rc; 1860f4aad16aSMichael Halcrow } 1861f4aad16aSMichael Halcrow 1862af440f52SEric Sandeen /** 1863af440f52SEric Sandeen * ecryptfs_tfm_exists - Search for existing tfm for cipher_name. 1864af440f52SEric Sandeen * @cipher_name: the name of the cipher to search for 1865af440f52SEric Sandeen * @key_tfm: set to corresponding tfm if found 1866af440f52SEric Sandeen * 1867af440f52SEric Sandeen * Searches for cached key_tfm matching @cipher_name 1868af440f52SEric Sandeen * Must be called with &key_tfm_list_mutex held 1869af440f52SEric Sandeen * Returns 1 if found, with @key_tfm set 1870af440f52SEric Sandeen * Returns 0 if not found, with @key_tfm set to NULL 1871af440f52SEric Sandeen */ 1872af440f52SEric Sandeen int ecryptfs_tfm_exists(char *cipher_name, struct ecryptfs_key_tfm **key_tfm) 1873af440f52SEric Sandeen { 1874af440f52SEric Sandeen struct ecryptfs_key_tfm *tmp_key_tfm; 1875af440f52SEric Sandeen 1876af440f52SEric Sandeen BUG_ON(!mutex_is_locked(&key_tfm_list_mutex)); 1877af440f52SEric Sandeen 1878af440f52SEric Sandeen list_for_each_entry(tmp_key_tfm, &key_tfm_list, key_tfm_list) { 1879af440f52SEric Sandeen if (strcmp(tmp_key_tfm->cipher_name, cipher_name) == 0) { 1880af440f52SEric Sandeen if (key_tfm) 1881af440f52SEric Sandeen (*key_tfm) = tmp_key_tfm; 1882af440f52SEric Sandeen return 1; 1883af440f52SEric Sandeen } 1884af440f52SEric Sandeen } 1885af440f52SEric Sandeen if (key_tfm) 1886af440f52SEric Sandeen (*key_tfm) = NULL; 1887af440f52SEric Sandeen return 0; 1888af440f52SEric Sandeen } 1889af440f52SEric Sandeen 1890af440f52SEric Sandeen /** 1891af440f52SEric Sandeen * ecryptfs_get_tfm_and_mutex_for_cipher_name 1892af440f52SEric Sandeen * 1893af440f52SEric Sandeen * @tfm: set to cached tfm found, or new tfm created 1894af440f52SEric Sandeen * @tfm_mutex: set to mutex for cached tfm found, or new tfm created 1895af440f52SEric Sandeen * @cipher_name: the name of the cipher to search for and/or add 1896af440f52SEric Sandeen * 1897af440f52SEric Sandeen * Sets pointers to @tfm & @tfm_mutex matching @cipher_name. 1898af440f52SEric Sandeen * Searches for cached item first, and creates new if not found. 1899af440f52SEric Sandeen * Returns 0 on success, non-zero if adding new cipher failed 1900af440f52SEric Sandeen */ 1901f4aad16aSMichael Halcrow int ecryptfs_get_tfm_and_mutex_for_cipher_name(struct crypto_blkcipher **tfm, 1902f4aad16aSMichael Halcrow struct mutex **tfm_mutex, 1903f4aad16aSMichael Halcrow char *cipher_name) 1904f4aad16aSMichael Halcrow { 1905f4aad16aSMichael Halcrow struct ecryptfs_key_tfm *key_tfm; 1906f4aad16aSMichael Halcrow int rc = 0; 1907f4aad16aSMichael Halcrow 1908f4aad16aSMichael Halcrow (*tfm) = NULL; 1909f4aad16aSMichael Halcrow (*tfm_mutex) = NULL; 1910af440f52SEric Sandeen 1911f4aad16aSMichael Halcrow mutex_lock(&key_tfm_list_mutex); 1912af440f52SEric Sandeen if (!ecryptfs_tfm_exists(cipher_name, &key_tfm)) { 19135dda6992SMichael Halcrow rc = ecryptfs_add_new_key_tfm(&key_tfm, cipher_name, 0); 19145dda6992SMichael Halcrow if (rc) { 1915af440f52SEric Sandeen printk(KERN_ERR "Error adding new key_tfm to list; " 1916af440f52SEric Sandeen "rc = [%d]\n", rc); 1917f4aad16aSMichael Halcrow goto out; 1918f4aad16aSMichael Halcrow } 1919af440f52SEric Sandeen } 1920f4aad16aSMichael Halcrow (*tfm) = key_tfm->key_tfm; 1921f4aad16aSMichael Halcrow (*tfm_mutex) = &key_tfm->key_tfm_mutex; 1922f4aad16aSMichael Halcrow out: 192371fd5179SCyrill Gorcunov mutex_unlock(&key_tfm_list_mutex); 1924f4aad16aSMichael Halcrow return rc; 1925f4aad16aSMichael Halcrow } 192651ca58dcSMichael Halcrow 192751ca58dcSMichael Halcrow /* 64 characters forming a 6-bit target field */ 192851ca58dcSMichael Halcrow static unsigned char *portable_filename_chars = ("-.0123456789ABCD" 192951ca58dcSMichael Halcrow "EFGHIJKLMNOPQRST" 193051ca58dcSMichael Halcrow "UVWXYZabcdefghij" 193151ca58dcSMichael Halcrow "klmnopqrstuvwxyz"); 193251ca58dcSMichael Halcrow 193351ca58dcSMichael Halcrow /* We could either offset on every reverse map or just pad some 0x00's 193451ca58dcSMichael Halcrow * at the front here */ 193571c11c37SMichael Halcrow static const unsigned char filename_rev_map[] = { 193651ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 7 */ 193751ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 15 */ 193851ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 23 */ 193951ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 31 */ 194051ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 39 */ 194151ca58dcSMichael Halcrow 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, /* 47 */ 194251ca58dcSMichael Halcrow 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, /* 55 */ 194351ca58dcSMichael Halcrow 0x0A, 0x0B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 63 */ 194451ca58dcSMichael Halcrow 0x00, 0x0C, 0x0D, 0x0E, 0x0F, 0x10, 0x11, 0x12, /* 71 */ 194551ca58dcSMichael Halcrow 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1A, /* 79 */ 194651ca58dcSMichael Halcrow 0x1B, 0x1C, 0x1D, 0x1E, 0x1F, 0x20, 0x21, 0x22, /* 87 */ 194751ca58dcSMichael Halcrow 0x23, 0x24, 0x25, 0x00, 0x00, 0x00, 0x00, 0x00, /* 95 */ 194851ca58dcSMichael Halcrow 0x00, 0x26, 0x27, 0x28, 0x29, 0x2A, 0x2B, 0x2C, /* 103 */ 194951ca58dcSMichael Halcrow 0x2D, 0x2E, 0x2F, 0x30, 0x31, 0x32, 0x33, 0x34, /* 111 */ 195051ca58dcSMichael Halcrow 0x35, 0x36, 0x37, 0x38, 0x39, 0x3A, 0x3B, 0x3C, /* 119 */ 195151ca58dcSMichael Halcrow 0x3D, 0x3E, 0x3F 195251ca58dcSMichael Halcrow }; 195351ca58dcSMichael Halcrow 195451ca58dcSMichael Halcrow /** 195551ca58dcSMichael Halcrow * ecryptfs_encode_for_filename 195651ca58dcSMichael Halcrow * @dst: Destination location for encoded filename 195751ca58dcSMichael Halcrow * @dst_size: Size of the encoded filename in bytes 195851ca58dcSMichael Halcrow * @src: Source location for the filename to encode 195951ca58dcSMichael Halcrow * @src_size: Size of the source in bytes 196051ca58dcSMichael Halcrow */ 196151ca58dcSMichael Halcrow void ecryptfs_encode_for_filename(unsigned char *dst, size_t *dst_size, 196251ca58dcSMichael Halcrow unsigned char *src, size_t src_size) 196351ca58dcSMichael Halcrow { 196451ca58dcSMichael Halcrow size_t num_blocks; 196551ca58dcSMichael Halcrow size_t block_num = 0; 196651ca58dcSMichael Halcrow size_t dst_offset = 0; 196751ca58dcSMichael Halcrow unsigned char last_block[3]; 196851ca58dcSMichael Halcrow 196951ca58dcSMichael Halcrow if (src_size == 0) { 197051ca58dcSMichael Halcrow (*dst_size) = 0; 197151ca58dcSMichael Halcrow goto out; 197251ca58dcSMichael Halcrow } 197351ca58dcSMichael Halcrow num_blocks = (src_size / 3); 197451ca58dcSMichael Halcrow if ((src_size % 3) == 0) { 197551ca58dcSMichael Halcrow memcpy(last_block, (&src[src_size - 3]), 3); 197651ca58dcSMichael Halcrow } else { 197751ca58dcSMichael Halcrow num_blocks++; 197851ca58dcSMichael Halcrow last_block[2] = 0x00; 197951ca58dcSMichael Halcrow switch (src_size % 3) { 198051ca58dcSMichael Halcrow case 1: 198151ca58dcSMichael Halcrow last_block[0] = src[src_size - 1]; 198251ca58dcSMichael Halcrow last_block[1] = 0x00; 198351ca58dcSMichael Halcrow break; 198451ca58dcSMichael Halcrow case 2: 198551ca58dcSMichael Halcrow last_block[0] = src[src_size - 2]; 198651ca58dcSMichael Halcrow last_block[1] = src[src_size - 1]; 198751ca58dcSMichael Halcrow } 198851ca58dcSMichael Halcrow } 198951ca58dcSMichael Halcrow (*dst_size) = (num_blocks * 4); 199051ca58dcSMichael Halcrow if (!dst) 199151ca58dcSMichael Halcrow goto out; 199251ca58dcSMichael Halcrow while (block_num < num_blocks) { 199351ca58dcSMichael Halcrow unsigned char *src_block; 199451ca58dcSMichael Halcrow unsigned char dst_block[4]; 199551ca58dcSMichael Halcrow 199651ca58dcSMichael Halcrow if (block_num == (num_blocks - 1)) 199751ca58dcSMichael Halcrow src_block = last_block; 199851ca58dcSMichael Halcrow else 199951ca58dcSMichael Halcrow src_block = &src[block_num * 3]; 200051ca58dcSMichael Halcrow dst_block[0] = ((src_block[0] >> 2) & 0x3F); 200151ca58dcSMichael Halcrow dst_block[1] = (((src_block[0] << 4) & 0x30) 200251ca58dcSMichael Halcrow | ((src_block[1] >> 4) & 0x0F)); 200351ca58dcSMichael Halcrow dst_block[2] = (((src_block[1] << 2) & 0x3C) 200451ca58dcSMichael Halcrow | ((src_block[2] >> 6) & 0x03)); 200551ca58dcSMichael Halcrow dst_block[3] = (src_block[2] & 0x3F); 200651ca58dcSMichael Halcrow dst[dst_offset++] = portable_filename_chars[dst_block[0]]; 200751ca58dcSMichael Halcrow dst[dst_offset++] = portable_filename_chars[dst_block[1]]; 200851ca58dcSMichael Halcrow dst[dst_offset++] = portable_filename_chars[dst_block[2]]; 200951ca58dcSMichael Halcrow dst[dst_offset++] = portable_filename_chars[dst_block[3]]; 201051ca58dcSMichael Halcrow block_num++; 201151ca58dcSMichael Halcrow } 201251ca58dcSMichael Halcrow out: 201351ca58dcSMichael Halcrow return; 201451ca58dcSMichael Halcrow } 201551ca58dcSMichael Halcrow 201671c11c37SMichael Halcrow /** 201771c11c37SMichael Halcrow * ecryptfs_decode_from_filename 201871c11c37SMichael Halcrow * @dst: If NULL, this function only sets @dst_size and returns. If 201971c11c37SMichael Halcrow * non-NULL, this function decodes the encoded octets in @src 202071c11c37SMichael Halcrow * into the memory that @dst points to. 202171c11c37SMichael Halcrow * @dst_size: Set to the size of the decoded string. 202271c11c37SMichael Halcrow * @src: The encoded set of octets to decode. 202371c11c37SMichael Halcrow * @src_size: The size of the encoded set of octets to decode. 202471c11c37SMichael Halcrow */ 202571c11c37SMichael Halcrow static void 202671c11c37SMichael Halcrow ecryptfs_decode_from_filename(unsigned char *dst, size_t *dst_size, 202751ca58dcSMichael Halcrow const unsigned char *src, size_t src_size) 202851ca58dcSMichael Halcrow { 202951ca58dcSMichael Halcrow u8 current_bit_offset = 0; 203051ca58dcSMichael Halcrow size_t src_byte_offset = 0; 203151ca58dcSMichael Halcrow size_t dst_byte_offset = 0; 203251ca58dcSMichael Halcrow 203351ca58dcSMichael Halcrow if (dst == NULL) { 203471c11c37SMichael Halcrow /* Not exact; conservatively long. Every block of 4 203571c11c37SMichael Halcrow * encoded characters decodes into a block of 3 203671c11c37SMichael Halcrow * decoded characters. This segment of code provides 203771c11c37SMichael Halcrow * the caller with the maximum amount of allocated 203871c11c37SMichael Halcrow * space that @dst will need to point to in a 203971c11c37SMichael Halcrow * subsequent call. */ 204051ca58dcSMichael Halcrow (*dst_size) = (((src_size + 1) * 3) / 4); 204151ca58dcSMichael Halcrow goto out; 204251ca58dcSMichael Halcrow } 204351ca58dcSMichael Halcrow while (src_byte_offset < src_size) { 204451ca58dcSMichael Halcrow unsigned char src_byte = 204551ca58dcSMichael Halcrow filename_rev_map[(int)src[src_byte_offset]]; 204651ca58dcSMichael Halcrow 204751ca58dcSMichael Halcrow switch (current_bit_offset) { 204851ca58dcSMichael Halcrow case 0: 204951ca58dcSMichael Halcrow dst[dst_byte_offset] = (src_byte << 2); 205051ca58dcSMichael Halcrow current_bit_offset = 6; 205151ca58dcSMichael Halcrow break; 205251ca58dcSMichael Halcrow case 6: 205351ca58dcSMichael Halcrow dst[dst_byte_offset++] |= (src_byte >> 4); 205451ca58dcSMichael Halcrow dst[dst_byte_offset] = ((src_byte & 0xF) 205551ca58dcSMichael Halcrow << 4); 205651ca58dcSMichael Halcrow current_bit_offset = 4; 205751ca58dcSMichael Halcrow break; 205851ca58dcSMichael Halcrow case 4: 205951ca58dcSMichael Halcrow dst[dst_byte_offset++] |= (src_byte >> 2); 206051ca58dcSMichael Halcrow dst[dst_byte_offset] = (src_byte << 6); 206151ca58dcSMichael Halcrow current_bit_offset = 2; 206251ca58dcSMichael Halcrow break; 206351ca58dcSMichael Halcrow case 2: 206451ca58dcSMichael Halcrow dst[dst_byte_offset++] |= (src_byte); 206551ca58dcSMichael Halcrow dst[dst_byte_offset] = 0; 206651ca58dcSMichael Halcrow current_bit_offset = 0; 206751ca58dcSMichael Halcrow break; 206851ca58dcSMichael Halcrow } 206951ca58dcSMichael Halcrow src_byte_offset++; 207051ca58dcSMichael Halcrow } 207151ca58dcSMichael Halcrow (*dst_size) = dst_byte_offset; 207251ca58dcSMichael Halcrow out: 207371c11c37SMichael Halcrow return; 207451ca58dcSMichael Halcrow } 207551ca58dcSMichael Halcrow 207651ca58dcSMichael Halcrow /** 207751ca58dcSMichael Halcrow * ecryptfs_encrypt_and_encode_filename - converts a plaintext file name to cipher text 207851ca58dcSMichael Halcrow * @crypt_stat: The crypt_stat struct associated with the file anem to encode 207951ca58dcSMichael Halcrow * @name: The plaintext name 208051ca58dcSMichael Halcrow * @length: The length of the plaintext 208151ca58dcSMichael Halcrow * @encoded_name: The encypted name 208251ca58dcSMichael Halcrow * 208351ca58dcSMichael Halcrow * Encrypts and encodes a filename into something that constitutes a 208451ca58dcSMichael Halcrow * valid filename for a filesystem, with printable characters. 208551ca58dcSMichael Halcrow * 208651ca58dcSMichael Halcrow * We assume that we have a properly initialized crypto context, 208751ca58dcSMichael Halcrow * pointed to by crypt_stat->tfm. 208851ca58dcSMichael Halcrow * 208951ca58dcSMichael Halcrow * Returns zero on success; non-zero on otherwise 209051ca58dcSMichael Halcrow */ 209151ca58dcSMichael Halcrow int ecryptfs_encrypt_and_encode_filename( 209251ca58dcSMichael Halcrow char **encoded_name, 209351ca58dcSMichael Halcrow size_t *encoded_name_size, 209451ca58dcSMichael Halcrow struct ecryptfs_crypt_stat *crypt_stat, 209551ca58dcSMichael Halcrow struct ecryptfs_mount_crypt_stat *mount_crypt_stat, 209651ca58dcSMichael Halcrow const char *name, size_t name_size) 209751ca58dcSMichael Halcrow { 209851ca58dcSMichael Halcrow size_t encoded_name_no_prefix_size; 209951ca58dcSMichael Halcrow int rc = 0; 210051ca58dcSMichael Halcrow 210151ca58dcSMichael Halcrow (*encoded_name) = NULL; 210251ca58dcSMichael Halcrow (*encoded_name_size) = 0; 210351ca58dcSMichael Halcrow if ((crypt_stat && (crypt_stat->flags & ECRYPTFS_ENCRYPT_FILENAMES)) 210451ca58dcSMichael Halcrow || (mount_crypt_stat && (mount_crypt_stat->flags 210551ca58dcSMichael Halcrow & ECRYPTFS_GLOBAL_ENCRYPT_FILENAMES))) { 210651ca58dcSMichael Halcrow struct ecryptfs_filename *filename; 210751ca58dcSMichael Halcrow 210851ca58dcSMichael Halcrow filename = kzalloc(sizeof(*filename), GFP_KERNEL); 210951ca58dcSMichael Halcrow if (!filename) { 211051ca58dcSMichael Halcrow printk(KERN_ERR "%s: Out of memory whilst attempting " 2111a8f12864SMichael Halcrow "to kzalloc [%zd] bytes\n", __func__, 211251ca58dcSMichael Halcrow sizeof(*filename)); 211351ca58dcSMichael Halcrow rc = -ENOMEM; 211451ca58dcSMichael Halcrow goto out; 211551ca58dcSMichael Halcrow } 211651ca58dcSMichael Halcrow filename->filename = (char *)name; 211751ca58dcSMichael Halcrow filename->filename_size = name_size; 211851ca58dcSMichael Halcrow rc = ecryptfs_encrypt_filename(filename, crypt_stat, 211951ca58dcSMichael Halcrow mount_crypt_stat); 212051ca58dcSMichael Halcrow if (rc) { 212151ca58dcSMichael Halcrow printk(KERN_ERR "%s: Error attempting to encrypt " 212251ca58dcSMichael Halcrow "filename; rc = [%d]\n", __func__, rc); 212351ca58dcSMichael Halcrow kfree(filename); 212451ca58dcSMichael Halcrow goto out; 212551ca58dcSMichael Halcrow } 212651ca58dcSMichael Halcrow ecryptfs_encode_for_filename( 212751ca58dcSMichael Halcrow NULL, &encoded_name_no_prefix_size, 212851ca58dcSMichael Halcrow filename->encrypted_filename, 212951ca58dcSMichael Halcrow filename->encrypted_filename_size); 213051ca58dcSMichael Halcrow if ((crypt_stat && (crypt_stat->flags 213151ca58dcSMichael Halcrow & ECRYPTFS_ENCFN_USE_MOUNT_FNEK)) 213251ca58dcSMichael Halcrow || (mount_crypt_stat 213351ca58dcSMichael Halcrow && (mount_crypt_stat->flags 213451ca58dcSMichael Halcrow & ECRYPTFS_GLOBAL_ENCFN_USE_MOUNT_FNEK))) 213551ca58dcSMichael Halcrow (*encoded_name_size) = 213651ca58dcSMichael Halcrow (ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE 213751ca58dcSMichael Halcrow + encoded_name_no_prefix_size); 213851ca58dcSMichael Halcrow else 213951ca58dcSMichael Halcrow (*encoded_name_size) = 214051ca58dcSMichael Halcrow (ECRYPTFS_FEK_ENCRYPTED_FILENAME_PREFIX_SIZE 214151ca58dcSMichael Halcrow + encoded_name_no_prefix_size); 214251ca58dcSMichael Halcrow (*encoded_name) = kmalloc((*encoded_name_size) + 1, GFP_KERNEL); 214351ca58dcSMichael Halcrow if (!(*encoded_name)) { 214451ca58dcSMichael Halcrow printk(KERN_ERR "%s: Out of memory whilst attempting " 2145a8f12864SMichael Halcrow "to kzalloc [%zd] bytes\n", __func__, 214651ca58dcSMichael Halcrow (*encoded_name_size)); 214751ca58dcSMichael Halcrow rc = -ENOMEM; 214851ca58dcSMichael Halcrow kfree(filename->encrypted_filename); 214951ca58dcSMichael Halcrow kfree(filename); 215051ca58dcSMichael Halcrow goto out; 215151ca58dcSMichael Halcrow } 215251ca58dcSMichael Halcrow if ((crypt_stat && (crypt_stat->flags 215351ca58dcSMichael Halcrow & ECRYPTFS_ENCFN_USE_MOUNT_FNEK)) 215451ca58dcSMichael Halcrow || (mount_crypt_stat 215551ca58dcSMichael Halcrow && (mount_crypt_stat->flags 215651ca58dcSMichael Halcrow & ECRYPTFS_GLOBAL_ENCFN_USE_MOUNT_FNEK))) { 215751ca58dcSMichael Halcrow memcpy((*encoded_name), 215851ca58dcSMichael Halcrow ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX, 215951ca58dcSMichael Halcrow ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE); 216051ca58dcSMichael Halcrow ecryptfs_encode_for_filename( 216151ca58dcSMichael Halcrow ((*encoded_name) 216251ca58dcSMichael Halcrow + ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE), 216351ca58dcSMichael Halcrow &encoded_name_no_prefix_size, 216451ca58dcSMichael Halcrow filename->encrypted_filename, 216551ca58dcSMichael Halcrow filename->encrypted_filename_size); 216651ca58dcSMichael Halcrow (*encoded_name_size) = 216751ca58dcSMichael Halcrow (ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE 216851ca58dcSMichael Halcrow + encoded_name_no_prefix_size); 216951ca58dcSMichael Halcrow (*encoded_name)[(*encoded_name_size)] = '\0'; 217051ca58dcSMichael Halcrow } else { 2171df6ad33bSTyler Hicks rc = -EOPNOTSUPP; 217251ca58dcSMichael Halcrow } 217351ca58dcSMichael Halcrow if (rc) { 217451ca58dcSMichael Halcrow printk(KERN_ERR "%s: Error attempting to encode " 217551ca58dcSMichael Halcrow "encrypted filename; rc = [%d]\n", __func__, 217651ca58dcSMichael Halcrow rc); 217751ca58dcSMichael Halcrow kfree((*encoded_name)); 217851ca58dcSMichael Halcrow (*encoded_name) = NULL; 217951ca58dcSMichael Halcrow (*encoded_name_size) = 0; 218051ca58dcSMichael Halcrow } 218151ca58dcSMichael Halcrow kfree(filename->encrypted_filename); 218251ca58dcSMichael Halcrow kfree(filename); 218351ca58dcSMichael Halcrow } else { 218451ca58dcSMichael Halcrow rc = ecryptfs_copy_filename(encoded_name, 218551ca58dcSMichael Halcrow encoded_name_size, 218651ca58dcSMichael Halcrow name, name_size); 218751ca58dcSMichael Halcrow } 218851ca58dcSMichael Halcrow out: 218951ca58dcSMichael Halcrow return rc; 219051ca58dcSMichael Halcrow } 219151ca58dcSMichael Halcrow 219251ca58dcSMichael Halcrow /** 219351ca58dcSMichael Halcrow * ecryptfs_decode_and_decrypt_filename - converts the encoded cipher text name to decoded plaintext 219451ca58dcSMichael Halcrow * @plaintext_name: The plaintext name 219551ca58dcSMichael Halcrow * @plaintext_name_size: The plaintext name size 219651ca58dcSMichael Halcrow * @ecryptfs_dir_dentry: eCryptfs directory dentry 219751ca58dcSMichael Halcrow * @name: The filename in cipher text 219851ca58dcSMichael Halcrow * @name_size: The cipher text name size 219951ca58dcSMichael Halcrow * 220051ca58dcSMichael Halcrow * Decrypts and decodes the filename. 220151ca58dcSMichael Halcrow * 220251ca58dcSMichael Halcrow * Returns zero on error; non-zero otherwise 220351ca58dcSMichael Halcrow */ 220451ca58dcSMichael Halcrow int ecryptfs_decode_and_decrypt_filename(char **plaintext_name, 220551ca58dcSMichael Halcrow size_t *plaintext_name_size, 220651ca58dcSMichael Halcrow struct dentry *ecryptfs_dir_dentry, 220751ca58dcSMichael Halcrow const char *name, size_t name_size) 220851ca58dcSMichael Halcrow { 22092aac0cf8STyler Hicks struct ecryptfs_mount_crypt_stat *mount_crypt_stat = 22102aac0cf8STyler Hicks &ecryptfs_superblock_to_private( 22112aac0cf8STyler Hicks ecryptfs_dir_dentry->d_sb)->mount_crypt_stat; 221251ca58dcSMichael Halcrow char *decoded_name; 221351ca58dcSMichael Halcrow size_t decoded_name_size; 221451ca58dcSMichael Halcrow size_t packet_size; 221551ca58dcSMichael Halcrow int rc = 0; 221651ca58dcSMichael Halcrow 22172aac0cf8STyler Hicks if ((mount_crypt_stat->flags & ECRYPTFS_GLOBAL_ENCRYPT_FILENAMES) 22182aac0cf8STyler Hicks && !(mount_crypt_stat->flags & ECRYPTFS_ENCRYPTED_VIEW_ENABLED) 22192aac0cf8STyler Hicks && (name_size > ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE) 222051ca58dcSMichael Halcrow && (strncmp(name, ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX, 222151ca58dcSMichael Halcrow ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE) == 0)) { 222251ca58dcSMichael Halcrow const char *orig_name = name; 222351ca58dcSMichael Halcrow size_t orig_name_size = name_size; 222451ca58dcSMichael Halcrow 222551ca58dcSMichael Halcrow name += ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE; 222651ca58dcSMichael Halcrow name_size -= ECRYPTFS_FNEK_ENCRYPTED_FILENAME_PREFIX_SIZE; 222771c11c37SMichael Halcrow ecryptfs_decode_from_filename(NULL, &decoded_name_size, 222851ca58dcSMichael Halcrow name, name_size); 222951ca58dcSMichael Halcrow decoded_name = kmalloc(decoded_name_size, GFP_KERNEL); 223051ca58dcSMichael Halcrow if (!decoded_name) { 223151ca58dcSMichael Halcrow printk(KERN_ERR "%s: Out of memory whilst attempting " 2232df261c52SMichael Halcrow "to kmalloc [%zd] bytes\n", __func__, 223351ca58dcSMichael Halcrow decoded_name_size); 223451ca58dcSMichael Halcrow rc = -ENOMEM; 223551ca58dcSMichael Halcrow goto out; 223651ca58dcSMichael Halcrow } 223771c11c37SMichael Halcrow ecryptfs_decode_from_filename(decoded_name, &decoded_name_size, 223851ca58dcSMichael Halcrow name, name_size); 223951ca58dcSMichael Halcrow rc = ecryptfs_parse_tag_70_packet(plaintext_name, 224051ca58dcSMichael Halcrow plaintext_name_size, 224151ca58dcSMichael Halcrow &packet_size, 224251ca58dcSMichael Halcrow mount_crypt_stat, 224351ca58dcSMichael Halcrow decoded_name, 224451ca58dcSMichael Halcrow decoded_name_size); 224551ca58dcSMichael Halcrow if (rc) { 224651ca58dcSMichael Halcrow printk(KERN_INFO "%s: Could not parse tag 70 packet " 224751ca58dcSMichael Halcrow "from filename; copying through filename " 224851ca58dcSMichael Halcrow "as-is\n", __func__); 224951ca58dcSMichael Halcrow rc = ecryptfs_copy_filename(plaintext_name, 225051ca58dcSMichael Halcrow plaintext_name_size, 225151ca58dcSMichael Halcrow orig_name, orig_name_size); 225251ca58dcSMichael Halcrow goto out_free; 225351ca58dcSMichael Halcrow } 225451ca58dcSMichael Halcrow } else { 225551ca58dcSMichael Halcrow rc = ecryptfs_copy_filename(plaintext_name, 225651ca58dcSMichael Halcrow plaintext_name_size, 225751ca58dcSMichael Halcrow name, name_size); 225851ca58dcSMichael Halcrow goto out; 225951ca58dcSMichael Halcrow } 226051ca58dcSMichael Halcrow out_free: 226151ca58dcSMichael Halcrow kfree(decoded_name); 226251ca58dcSMichael Halcrow out: 226351ca58dcSMichael Halcrow return rc; 226451ca58dcSMichael Halcrow } 2265