#include "bcache.h" #include "checksum.h" #include "super.h" #include "super-io.h" #include #include #include #include #include #include #include #include #include #include /* * Portions Copyright (c) 1996-2001, PostgreSQL Global Development Group (Any * use permitted, subject to terms of PostgreSQL license; see.) * If we have a 64-bit integer type, then a 64-bit CRC looks just like the * usual sort of implementation. (See Ross Williams' excellent introduction * A PAINLESS GUIDE TO CRC ERROR DETECTION ALGORITHMS, available from * ftp://ftp.rocksoft.com/papers/crc_v3.txt or several other net sites.) * If we have no working 64-bit type, then fake it with two 32-bit registers. * * The present implementation is a normal (not "reflected", in Williams' * terms) 64-bit CRC, using initial all-ones register contents and a final * bit inversion. The chosen polynomial is borrowed from the DLT1 spec * (ECMA-182, available from http://www.ecma.ch/ecma1/STAND/ECMA-182.HTM): * * x^64 + x^62 + x^57 + x^55 + x^54 + x^53 + x^52 + x^47 + x^46 + x^45 + * x^40 + x^39 + x^38 + x^37 + x^35 + x^33 + x^32 + x^31 + x^29 + x^27 + * x^24 + x^23 + x^22 + x^21 + x^19 + x^17 + x^13 + x^12 + x^10 + x^9 + * x^7 + x^4 + x + 1 */ static const u64 crc_table[256] = { 0x0000000000000000ULL, 0x42F0E1EBA9EA3693ULL, 0x85E1C3D753D46D26ULL, 0xC711223CFA3E5BB5ULL, 0x493366450E42ECDFULL, 0x0BC387AEA7A8DA4CULL, 0xCCD2A5925D9681F9ULL, 0x8E224479F47CB76AULL, 0x9266CC8A1C85D9BEULL, 0xD0962D61B56FEF2DULL, 0x17870F5D4F51B498ULL, 0x5577EEB6E6BB820BULL, 0xDB55AACF12C73561ULL, 0x99A54B24BB2D03F2ULL, 0x5EB4691841135847ULL, 0x1C4488F3E8F96ED4ULL, 0x663D78FF90E185EFULL, 0x24CD9914390BB37CULL, 0xE3DCBB28C335E8C9ULL, 0xA12C5AC36ADFDE5AULL, 0x2F0E1EBA9EA36930ULL, 0x6DFEFF5137495FA3ULL, 0xAAEFDD6DCD770416ULL, 0xE81F3C86649D3285ULL, 0xF45BB4758C645C51ULL, 0xB6AB559E258E6AC2ULL, 0x71BA77A2DFB03177ULL, 0x334A9649765A07E4ULL, 0xBD68D2308226B08EULL, 0xFF9833DB2BCC861DULL, 0x388911E7D1F2DDA8ULL, 0x7A79F00C7818EB3BULL, 0xCC7AF1FF21C30BDEULL, 0x8E8A101488293D4DULL, 0x499B3228721766F8ULL, 0x0B6BD3C3DBFD506BULL, 0x854997BA2F81E701ULL, 0xC7B97651866BD192ULL, 0x00A8546D7C558A27ULL, 0x4258B586D5BFBCB4ULL, 0x5E1C3D753D46D260ULL, 0x1CECDC9E94ACE4F3ULL, 0xDBFDFEA26E92BF46ULL, 0x990D1F49C77889D5ULL, 0x172F5B3033043EBFULL, 0x55DFBADB9AEE082CULL, 0x92CE98E760D05399ULL, 0xD03E790CC93A650AULL, 0xAA478900B1228E31ULL, 0xE8B768EB18C8B8A2ULL, 0x2FA64AD7E2F6E317ULL, 0x6D56AB3C4B1CD584ULL, 0xE374EF45BF6062EEULL, 0xA1840EAE168A547DULL, 0x66952C92ECB40FC8ULL, 0x2465CD79455E395BULL, 0x3821458AADA7578FULL, 0x7AD1A461044D611CULL, 0xBDC0865DFE733AA9ULL, 0xFF3067B657990C3AULL, 0x711223CFA3E5BB50ULL, 0x33E2C2240A0F8DC3ULL, 0xF4F3E018F031D676ULL, 0xB60301F359DBE0E5ULL, 0xDA050215EA6C212FULL, 0x98F5E3FE438617BCULL, 0x5FE4C1C2B9B84C09ULL, 0x1D14202910527A9AULL, 0x93366450E42ECDF0ULL, 0xD1C685BB4DC4FB63ULL, 0x16D7A787B7FAA0D6ULL, 0x5427466C1E109645ULL, 0x4863CE9FF6E9F891ULL, 0x0A932F745F03CE02ULL, 0xCD820D48A53D95B7ULL, 0x8F72ECA30CD7A324ULL, 0x0150A8DAF8AB144EULL, 0x43A04931514122DDULL, 0x84B16B0DAB7F7968ULL, 0xC6418AE602954FFBULL, 0xBC387AEA7A8DA4C0ULL, 0xFEC89B01D3679253ULL, 0x39D9B93D2959C9E6ULL, 0x7B2958D680B3FF75ULL, 0xF50B1CAF74CF481FULL, 0xB7FBFD44DD257E8CULL, 0x70EADF78271B2539ULL, 0x321A3E938EF113AAULL, 0x2E5EB66066087D7EULL, 0x6CAE578BCFE24BEDULL, 0xABBF75B735DC1058ULL, 0xE94F945C9C3626CBULL, 0x676DD025684A91A1ULL, 0x259D31CEC1A0A732ULL, 0xE28C13F23B9EFC87ULL, 0xA07CF2199274CA14ULL, 0x167FF3EACBAF2AF1ULL, 0x548F120162451C62ULL, 0x939E303D987B47D7ULL, 0xD16ED1D631917144ULL, 0x5F4C95AFC5EDC62EULL, 0x1DBC74446C07F0BDULL, 0xDAAD56789639AB08ULL, 0x985DB7933FD39D9BULL, 0x84193F60D72AF34FULL, 0xC6E9DE8B7EC0C5DCULL, 0x01F8FCB784FE9E69ULL, 0x43081D5C2D14A8FAULL, 0xCD2A5925D9681F90ULL, 0x8FDAB8CE70822903ULL, 0x48CB9AF28ABC72B6ULL, 0x0A3B7B1923564425ULL, 0x70428B155B4EAF1EULL, 0x32B26AFEF2A4998DULL, 0xF5A348C2089AC238ULL, 0xB753A929A170F4ABULL, 0x3971ED50550C43C1ULL, 0x7B810CBBFCE67552ULL, 0xBC902E8706D82EE7ULL, 0xFE60CF6CAF321874ULL, 0xE224479F47CB76A0ULL, 0xA0D4A674EE214033ULL, 0x67C58448141F1B86ULL, 0x253565A3BDF52D15ULL, 0xAB1721DA49899A7FULL, 0xE9E7C031E063ACECULL, 0x2EF6E20D1A5DF759ULL, 0x6C0603E6B3B7C1CAULL, 0xF6FAE5C07D3274CDULL, 0xB40A042BD4D8425EULL, 0x731B26172EE619EBULL, 0x31EBC7FC870C2F78ULL, 0xBFC9838573709812ULL, 0xFD39626EDA9AAE81ULL, 0x3A28405220A4F534ULL, 0x78D8A1B9894EC3A7ULL, 0x649C294A61B7AD73ULL, 0x266CC8A1C85D9BE0ULL, 0xE17DEA9D3263C055ULL, 0xA38D0B769B89F6C6ULL, 0x2DAF4F0F6FF541ACULL, 0x6F5FAEE4C61F773FULL, 0xA84E8CD83C212C8AULL, 0xEABE6D3395CB1A19ULL, 0x90C79D3FEDD3F122ULL, 0xD2377CD44439C7B1ULL, 0x15265EE8BE079C04ULL, 0x57D6BF0317EDAA97ULL, 0xD9F4FB7AE3911DFDULL, 0x9B041A914A7B2B6EULL, 0x5C1538ADB04570DBULL, 0x1EE5D94619AF4648ULL, 0x02A151B5F156289CULL, 0x4051B05E58BC1E0FULL, 0x87409262A28245BAULL, 0xC5B073890B687329ULL, 0x4B9237F0FF14C443ULL, 0x0962D61B56FEF2D0ULL, 0xCE73F427ACC0A965ULL, 0x8C8315CC052A9FF6ULL, 0x3A80143F5CF17F13ULL, 0x7870F5D4F51B4980ULL, 0xBF61D7E80F251235ULL, 0xFD913603A6CF24A6ULL, 0x73B3727A52B393CCULL, 0x31439391FB59A55FULL, 0xF652B1AD0167FEEAULL, 0xB4A25046A88DC879ULL, 0xA8E6D8B54074A6ADULL, 0xEA16395EE99E903EULL, 0x2D071B6213A0CB8BULL, 0x6FF7FA89BA4AFD18ULL, 0xE1D5BEF04E364A72ULL, 0xA3255F1BE7DC7CE1ULL, 0x64347D271DE22754ULL, 0x26C49CCCB40811C7ULL, 0x5CBD6CC0CC10FAFCULL, 0x1E4D8D2B65FACC6FULL, 0xD95CAF179FC497DAULL, 0x9BAC4EFC362EA149ULL, 0x158E0A85C2521623ULL, 0x577EEB6E6BB820B0ULL, 0x906FC95291867B05ULL, 0xD29F28B9386C4D96ULL, 0xCEDBA04AD0952342ULL, 0x8C2B41A1797F15D1ULL, 0x4B3A639D83414E64ULL, 0x09CA82762AAB78F7ULL, 0x87E8C60FDED7CF9DULL, 0xC51827E4773DF90EULL, 0x020905D88D03A2BBULL, 0x40F9E43324E99428ULL, 0x2CFFE7D5975E55E2ULL, 0x6E0F063E3EB46371ULL, 0xA91E2402C48A38C4ULL, 0xEBEEC5E96D600E57ULL, 0x65CC8190991CB93DULL, 0x273C607B30F68FAEULL, 0xE02D4247CAC8D41BULL, 0xA2DDA3AC6322E288ULL, 0xBE992B5F8BDB8C5CULL, 0xFC69CAB42231BACFULL, 0x3B78E888D80FE17AULL, 0x7988096371E5D7E9ULL, 0xF7AA4D1A85996083ULL, 0xB55AACF12C735610ULL, 0x724B8ECDD64D0DA5ULL, 0x30BB6F267FA73B36ULL, 0x4AC29F2A07BFD00DULL, 0x08327EC1AE55E69EULL, 0xCF235CFD546BBD2BULL, 0x8DD3BD16FD818BB8ULL, 0x03F1F96F09FD3CD2ULL, 0x41011884A0170A41ULL, 0x86103AB85A2951F4ULL, 0xC4E0DB53F3C36767ULL, 0xD8A453A01B3A09B3ULL, 0x9A54B24BB2D03F20ULL, 0x5D45907748EE6495ULL, 0x1FB5719CE1045206ULL, 0x919735E51578E56CULL, 0xD367D40EBC92D3FFULL, 0x1476F63246AC884AULL, 0x568617D9EF46BED9ULL, 0xE085162AB69D5E3CULL, 0xA275F7C11F7768AFULL, 0x6564D5FDE549331AULL, 0x279434164CA30589ULL, 0xA9B6706FB8DFB2E3ULL, 0xEB46918411358470ULL, 0x2C57B3B8EB0BDFC5ULL, 0x6EA7525342E1E956ULL, 0x72E3DAA0AA188782ULL, 0x30133B4B03F2B111ULL, 0xF7021977F9CCEAA4ULL, 0xB5F2F89C5026DC37ULL, 0x3BD0BCE5A45A6B5DULL, 0x79205D0E0DB05DCEULL, 0xBE317F32F78E067BULL, 0xFCC19ED95E6430E8ULL, 0x86B86ED5267CDBD3ULL, 0xC4488F3E8F96ED40ULL, 0x0359AD0275A8B6F5ULL, 0x41A94CE9DC428066ULL, 0xCF8B0890283E370CULL, 0x8D7BE97B81D4019FULL, 0x4A6ACB477BEA5A2AULL, 0x089A2AACD2006CB9ULL, 0x14DEA25F3AF9026DULL, 0x562E43B4931334FEULL, 0x913F6188692D6F4BULL, 0xD3CF8063C0C759D8ULL, 0x5DEDC41A34BBEEB2ULL, 0x1F1D25F19D51D821ULL, 0xD80C07CD676F8394ULL, 0x9AFCE626CE85B507ULL, }; u64 bch_crc64_update(u64 crc, const void *_data, size_t len) { const unsigned char *data = _data; while (len--) { int i = ((int) (crc >> 56) ^ *data++) & 0xFF; crc = crc_table[i] ^ (crc << 8); } return crc; } static u64 bch_checksum_init(unsigned type) { switch (type) { case BCH_CSUM_NONE: return 0; case BCH_CSUM_CRC32C: return U32_MAX; case BCH_CSUM_CRC64: return U64_MAX; default: BUG(); } } static u64 bch_checksum_final(unsigned type, u64 crc) { switch (type) { case BCH_CSUM_NONE: return 0; case BCH_CSUM_CRC32C: return crc ^ U32_MAX; case BCH_CSUM_CRC64: return crc ^ U64_MAX; default: BUG(); } } static u64 bch_checksum_update(unsigned type, u64 crc, const void *data, size_t len) { switch (type) { case BCH_CSUM_NONE: return 0; case BCH_CSUM_CRC32C: return crc32c(crc, data, len); case BCH_CSUM_CRC64: return bch_crc64_update(crc, data, len); default: BUG(); } } static inline void do_encrypt_sg(struct crypto_blkcipher *tfm, struct nonce nonce, struct scatterlist *sg, size_t len) { struct blkcipher_desc desc = { .tfm = tfm, .info = nonce.d }; int ret; ret = crypto_blkcipher_encrypt_iv(&desc, sg, sg, len); BUG_ON(ret); } static inline void do_encrypt(struct crypto_blkcipher *tfm, struct nonce nonce, void *buf, size_t len) { struct scatterlist sg; sg_init_one(&sg, buf, len); do_encrypt_sg(tfm, nonce, &sg, len); } int bch_chacha_encrypt_key(struct bch_key *key, struct nonce nonce, void *buf, size_t len) { struct crypto_blkcipher *chacha20 = crypto_alloc_blkcipher("chacha20", 0, CRYPTO_ALG_ASYNC); int ret; if (!chacha20) return PTR_ERR(chacha20); ret = crypto_blkcipher_setkey(chacha20, (void *) key, sizeof(*key)); if (ret) goto err; do_encrypt(chacha20, nonce, buf, len); err: crypto_free_blkcipher(chacha20); return ret; } static void gen_poly_key(struct cache_set *c, struct shash_desc *desc, struct nonce nonce) { u8 key[POLY1305_KEY_SIZE]; nonce.d[3] ^= BCH_NONCE_POLY; memset(key, 0, sizeof(key)); do_encrypt(c->chacha20, nonce, key, sizeof(key)); desc->tfm = c->poly1305; desc->flags = 0; crypto_shash_init(desc); crypto_shash_update(desc, key, sizeof(key)); } struct bch_csum bch_checksum(struct cache_set *c, unsigned type, struct nonce nonce, const void *data, size_t len) { switch (type) { case BCH_CSUM_NONE: case BCH_CSUM_CRC32C: case BCH_CSUM_CRC64: { u64 crc = bch_checksum_init(type); crc = bch_checksum_update(type, crc, data, len); crc = bch_checksum_final(type, crc); return (struct bch_csum) { .lo = crc }; } case BCH_CSUM_CHACHA20_POLY1305_80: case BCH_CSUM_CHACHA20_POLY1305_128: { SHASH_DESC_ON_STACK(desc, c->poly1305); u8 digest[POLY1305_DIGEST_SIZE]; struct bch_csum ret = { 0 }; gen_poly_key(c, desc, nonce); crypto_shash_update(desc, data, len); crypto_shash_final(desc, digest); memcpy(&ret, digest, bch_crc_bytes[type]); return ret; } default: BUG(); } } void bch_encrypt(struct cache_set *c, unsigned type, struct nonce nonce, void *data, size_t len) { if (!bch_csum_type_is_encryption(type)) return; do_encrypt(c->chacha20, nonce, data, len); } struct bch_csum bch_checksum_bio(struct cache_set *c, unsigned type, struct nonce nonce, struct bio *bio) { struct bio_vec bv; struct bvec_iter iter; switch (type) { case BCH_CSUM_NONE: return (struct bch_csum) { 0 }; case BCH_CSUM_CRC32C: case BCH_CSUM_CRC64: { u64 crc = bch_checksum_init(type); bio_for_each_segment(bv, bio, iter) { void *p = kmap_atomic(bv.bv_page) + bv.bv_offset; crc = bch_checksum_update(type, crc, p, bv.bv_len); kunmap_atomic(p); } crc = bch_checksum_final(type, crc); return (struct bch_csum) { .lo = crc }; } case BCH_CSUM_CHACHA20_POLY1305_80: case BCH_CSUM_CHACHA20_POLY1305_128: { SHASH_DESC_ON_STACK(desc, c->poly1305); u8 digest[POLY1305_DIGEST_SIZE]; struct bch_csum ret = { 0 }; gen_poly_key(c, desc, nonce); bio_for_each_segment(bv, bio, iter) { void *p = kmap_atomic(bv.bv_page) + bv.bv_offset; crypto_shash_update(desc, p, bv.bv_len); kunmap_atomic(p); } crypto_shash_final(desc, digest); memcpy(&ret, digest, bch_crc_bytes[type]); return ret; } default: BUG(); } } void bch_encrypt_bio(struct cache_set *c, unsigned type, struct nonce nonce, struct bio *bio) { struct bio_vec bv; struct bvec_iter iter; struct scatterlist sgl[16], *sg = sgl; size_t bytes = 0; if (!bch_csum_type_is_encryption(type)) return; sg_init_table(sgl, ARRAY_SIZE(sgl)); bio_for_each_segment(bv, bio, iter) { if (sg == sgl + ARRAY_SIZE(sgl)) { sg_mark_end(sg - 1); do_encrypt_sg(c->chacha20, nonce, sgl, bytes); le32_add_cpu(nonce.d, bytes / CHACHA20_BLOCK_SIZE); bytes = 0; sg_init_table(sgl, ARRAY_SIZE(sgl)); sg = sgl; } sg_set_page(sg++, bv.bv_page, bv.bv_len, bv.bv_offset); bytes += bv.bv_len; } sg_mark_end(sg - 1); do_encrypt_sg(c->chacha20, nonce, sgl, bytes); } #ifdef __KERNEL__ int bch_request_key(struct bch_sb *sb, struct bch_key *key) { char key_description[60]; struct key *keyring_key; const struct user_key_payload *ukp; int ret; snprintf(key_description, sizeof(key_description), "bcache:%pUb", &sb->user_uuid); keyring_key = request_key(&key_type_logon, key_description, NULL); if (IS_ERR(keyring_key)) return PTR_ERR(keyring_key); down_read(&keyring_key->sem); ukp = user_key_payload(keyring_key); if (ukp->datalen == sizeof(*key)) { memcpy(key, ukp->data, ukp->datalen); ret = 0; } else { ret = -EINVAL; } up_read(&keyring_key->sem); key_put(keyring_key); return ret; } #else #include #include int bch_request_key(struct bch_sb *sb, struct bch_key *key) { key_serial_t key_id; char key_description[60]; char uuid[40]; uuid_unparse_lower(sb->user_uuid.b, uuid); sprintf(key_description, "bcache:%s", uuid); key_id = request_key("user", key_description, NULL, KEY_SPEC_USER_KEYRING); if (key_id < 0) return -errno; if (keyctl_read(key_id, (void *) key, sizeof(*key)) != sizeof(*key)) return -1; return 0; } #endif static int bch_decrypt_sb_key(struct cache_set *c, struct bch_sb_field_crypt *crypt, struct bch_key *key) { struct bch_encrypted_key sb_key = crypt->key; struct bch_key user_key; int ret = 0; /* is key encrypted? */ if (!bch_key_is_encrypted(&sb_key)) goto out; ret = bch_request_key(c->disk_sb, &user_key); if (ret) { bch_err(c, "error requesting encryption key"); goto err; } /* decrypt real key: */ ret = bch_chacha_encrypt_key(&user_key, bch_sb_key_nonce(c), &sb_key, sizeof(sb_key)); if (ret) goto err; if (bch_key_is_encrypted(&sb_key)) { bch_err(c, "incorrect encryption key"); ret = -EINVAL; goto err; } out: *key = sb_key.key; err: memzero_explicit(&sb_key, sizeof(sb_key)); memzero_explicit(&user_key, sizeof(user_key)); return ret; } static int bch_alloc_ciphers(struct cache_set *c) { if (!c->chacha20) c->chacha20 = crypto_alloc_blkcipher("chacha20", 0, CRYPTO_ALG_ASYNC); if (IS_ERR(c->chacha20)) return PTR_ERR(c->chacha20); if (!c->poly1305) c->poly1305 = crypto_alloc_shash("poly1305", 0, 0); if (IS_ERR(c->poly1305)) return PTR_ERR(c->poly1305); return 0; } int bch_disable_encryption(struct cache_set *c) { struct bch_sb_field_crypt *crypt; struct bch_key key; int ret = -EINVAL; mutex_lock(&c->sb_lock); crypt = bch_sb_get_crypt(c->disk_sb); if (!crypt) goto out; /* is key encrypted? */ ret = 0; if (bch_key_is_encrypted(&crypt->key)) goto out; ret = bch_decrypt_sb_key(c, crypt, &key); if (ret) goto out; crypt->key.magic = BCH_KEY_MAGIC; crypt->key.key = key; SET_BCH_SB_ENCRYPTION_TYPE(c->disk_sb, 0); bch_write_super(c); out: mutex_unlock(&c->sb_lock); return ret; } int bch_enable_encryption(struct cache_set *c, bool keyed) { struct bch_encrypted_key key; struct bch_key user_key; struct bch_sb_field_crypt *crypt; int ret = -EINVAL; mutex_lock(&c->sb_lock); /* Do we already have an encryption key? */ if (bch_sb_get_crypt(c->disk_sb)) goto err; ret = bch_alloc_ciphers(c); if (ret) goto err; key.magic = BCH_KEY_MAGIC; get_random_bytes(&key.key, sizeof(key.key)); if (keyed) { ret = bch_request_key(c->disk_sb, &user_key); if (ret) { bch_err(c, "error requesting encryption key"); goto err; } ret = bch_chacha_encrypt_key(&user_key, bch_sb_key_nonce(c), &key, sizeof(key)); if (ret) goto err; } ret = crypto_blkcipher_setkey(c->chacha20, (void *) &key.key, sizeof(key.key)); if (ret) goto err; crypt = bch_fs_sb_resize_crypt(c, sizeof(*crypt) / sizeof(u64)); if (!crypt) { ret = -ENOMEM; /* XXX this technically could be -ENOSPC */ goto err; } crypt->key = key; /* write superblock */ SET_BCH_SB_ENCRYPTION_TYPE(c->disk_sb, 1); bch_write_super(c); err: mutex_unlock(&c->sb_lock); memzero_explicit(&user_key, sizeof(user_key)); memzero_explicit(&key, sizeof(key)); return ret; } void bch_fs_encryption_exit(struct cache_set *c) { if (!IS_ERR_OR_NULL(c->poly1305)) crypto_free_shash(c->poly1305); if (!IS_ERR_OR_NULL(c->chacha20)) crypto_free_blkcipher(c->chacha20); } int bch_fs_encryption_init(struct cache_set *c) { struct bch_sb_field_crypt *crypt; struct bch_key key; int ret; crypt = bch_sb_get_crypt(c->disk_sb); if (!crypt) return 0; ret = bch_alloc_ciphers(c); if (ret) return ret; ret = bch_decrypt_sb_key(c, crypt, &key); if (ret) goto err; ret = crypto_blkcipher_setkey(c->chacha20, (void *) &key.key, sizeof(key.key)); err: memzero_explicit(&key, sizeof(key)); return ret; }