3 * RSAENH - RSA encryption for Wine
5 * Copyright 2002 TransGaming Technologies (David Hammerton)
6 * Copyright 2004 Mike McCormack for CodeWeavers
7 * Copyright 2004, 2005 Michael Jung
9 * This library is free software; you can redistribute it and/or
10 * modify it under the terms of the GNU Lesser General Public
11 * License as published by the Free Software Foundation; either
12 * version 2.1 of the License, or (at your option) any later version.
14 * This library is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 * Lesser General Public License for more details.
19 * You should have received a copy of the GNU Lesser General Public
20 * License along with this library; if not, write to the Free Software
21 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
25 #include "wine/port.h"
26 #include "wine/library.h"
27 #include "wine/debug.h"
40 WINE_DEFAULT_DEBUG_CHANNEL(crypt);
42 /******************************************************************************
43 * CRYPTHASH - hash objects
45 #define RSAENH_MAGIC_HASH 0x85938417u
46 #define RSAENH_MAX_HASH_SIZE 104
47 #define RSAENH_HASHSTATE_HASHING 1
48 #define RSAENH_HASHSTATE_FINISHED 2
49 typedef struct _RSAENH_TLS1PRF_PARAMS
51 CRYPT_DATA_BLOB blobLabel;
52 CRYPT_DATA_BLOB blobSeed;
53 } RSAENH_TLS1PRF_PARAMS;
55 typedef struct tagCRYPTHASH
64 BYTE abHashValue[RSAENH_MAX_HASH_SIZE];
66 RSAENH_TLS1PRF_PARAMS tpPRFParams;
69 /******************************************************************************
70 * CRYPTKEY - key objects
72 #define RSAENH_MAGIC_KEY 0x73620457u
73 #define RSAENH_MAX_KEY_SIZE 48
74 #define RSAENH_MAX_BLOCK_SIZE 24
75 #define RSAENH_KEYSTATE_IDLE 0
76 #define RSAENH_KEYSTATE_ENCRYPTING 1
77 #define RSAENH_KEYSTATE_DECRYPTING 2
78 #define RSAENH_KEYSTATE_MASTERKEY 3
79 typedef struct _RSAENH_SCHANNEL_INFO
81 SCHANNEL_ALG saEncAlg;
82 SCHANNEL_ALG saMACAlg;
83 CRYPT_DATA_BLOB blobClientRandom;
84 CRYPT_DATA_BLOB blobServerRandom;
85 } RSAENH_SCHANNEL_INFO;
87 typedef struct tagCRYPTKEY
100 BYTE abKeyValue[RSAENH_MAX_KEY_SIZE];
101 BYTE abInitVector[RSAENH_MAX_BLOCK_SIZE];
102 BYTE abChainVector[RSAENH_MAX_BLOCK_SIZE];
103 RSAENH_SCHANNEL_INFO siSChannelInfo;
106 /******************************************************************************
107 * KEYCONTAINER - key containers
109 #define RSAENH_PERSONALITY_BASE 0u
110 #define RSAENH_PERSONALITY_STRONG 1u
111 #define RSAENH_PERSONALITY_ENHANCED 2u
112 #define RSAENH_PERSONALITY_SCHANNEL 3u
114 #define RSAENH_MAGIC_CONTAINER 0x26384993u
115 typedef struct tagKEYCONTAINER
121 DWORD dwEnumContainersCtr;
122 CHAR szName[MAX_PATH];
123 CHAR szProvName[MAX_PATH];
124 HCRYPTKEY hKeyExchangeKeyPair;
125 HCRYPTKEY hSignatureKeyPair;
128 /******************************************************************************
129 * Some magic constants
131 #define RSAENH_ENCRYPT 1
132 #define RSAENH_DECRYPT 0
133 #define RSAENH_HMAC_DEF_IPAD_CHAR 0x36
134 #define RSAENH_HMAC_DEF_OPAD_CHAR 0x5c
135 #define RSAENH_HMAC_DEF_PAD_LEN 64
136 #define RSAENH_DES_EFFECTIVE_KEYLEN 56
137 #define RSAENH_DES_STORAGE_KEYLEN 64
138 #define RSAENH_3DES112_EFFECTIVE_KEYLEN 112
139 #define RSAENH_3DES112_STORAGE_KEYLEN 128
140 #define RSAENH_3DES_EFFECTIVE_KEYLEN 168
141 #define RSAENH_3DES_STORAGE_KEYLEN 192
142 #define RSAENH_MAGIC_RSA2 0x32415352
143 #define RSAENH_MAGIC_RSA1 0x31415352
144 #define RSAENH_PKC_BLOCKTYPE 0x02
145 #define RSAENH_SSL3_VERSION_MAJOR 3
146 #define RSAENH_SSL3_VERSION_MINOR 0
147 #define RSAENH_TLS1_VERSION_MAJOR 3
148 #define RSAENH_TLS1_VERSION_MINOR 1
149 #define RSAENH_REGKEY "Software\\Wine\\Crypto\\RSA\\%s"
151 #define RSAENH_MIN(a,b) ((a)<(b)?(a):(b))
152 /******************************************************************************
153 * aProvEnumAlgsEx - Defines the capabilities of the CSP personalities.
155 #define RSAENH_MAX_ENUMALGS 20
156 #define RSAENH_PCT1_SSL2_SSL3_TLS1 (CRYPT_FLAG_PCT1|CRYPT_FLAG_SSL2|CRYPT_FLAG_SSL3|CRYPT_FLAG_TLS1)
157 static const PROV_ENUMALGS_EX aProvEnumAlgsEx[4][RSAENH_MAX_ENUMALGS+1] =
160 {CALG_RC2, 40, 40, 56,0, 4,"RC2", 24,"RSA Data Security's RC2"},
161 {CALG_RC4, 40, 40, 56,0, 4,"RC4", 24,"RSA Data Security's RC4"},
162 {CALG_DES, 56, 56, 56,0, 4,"DES", 31,"Data Encryption Standard (DES)"},
163 {CALG_SHA, 160,160, 160,CRYPT_FLAG_SIGNING, 6,"SHA-1", 30,"Secure Hash Algorithm (SHA-1)"},
164 {CALG_MD2, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD2", 23,"Message Digest 2 (MD2)"},
165 {CALG_MD4, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD4", 23,"Message Digest 4 (MD4)"},
166 {CALG_MD5, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD5", 23,"Message Digest 5 (MD5)"},
167 {CALG_SSL3_SHAMD5,288,288,288,0, 12,"SSL3 SHAMD5",12,"SSL3 SHAMD5"},
168 {CALG_MAC, 0, 0, 0,0, 4,"MAC", 28,"Message Authentication Code"},
169 {CALG_RSA_SIGN, 512,384,16384,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_SIGN",14,"RSA Signature"},
170 {CALG_RSA_KEYX, 512,384, 1024,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_KEYX",17,"RSA Key Exchange"},
171 {CALG_HMAC, 0, 0, 0,0, 5,"HMAC", 18,"Hugo's MAC (HMAC)"},
172 {0, 0, 0, 0,0, 1,"", 1,""}
175 {CALG_RC2, 128, 40, 128,0, 4,"RC2", 24,"RSA Data Security's RC2"},
176 {CALG_RC4, 128, 40, 128,0, 4,"RC4", 24,"RSA Data Security's RC4"},
177 {CALG_DES, 56, 56, 56,0, 4,"DES", 31,"Data Encryption Standard (DES)"},
178 {CALG_3DES_112, 112,112, 112,0, 13,"3DES TWO KEY",19,"Two Key Triple DES"},
179 {CALG_3DES, 168,168, 168,0, 5,"3DES", 21,"Three Key Triple DES"},
180 {CALG_SHA, 160,160, 160,CRYPT_FLAG_SIGNING, 6,"SHA-1", 30,"Secure Hash Algorithm (SHA-1)"},
181 {CALG_MD2, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD2", 23,"Message Digest 2 (MD2)"},
182 {CALG_MD4, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD4", 23,"Message Digest 4 (MD4)"},
183 {CALG_MD5, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD5", 23,"Message Digest 5 (MD5)"},
184 {CALG_SSL3_SHAMD5,288,288,288,0, 12,"SSL3 SHAMD5",12,"SSL3 SHAMD5"},
185 {CALG_MAC, 0, 0, 0,0, 4,"MAC", 28,"Message Authentication Code"},
186 {CALG_RSA_SIGN,1024,384,16384,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_SIGN",14,"RSA Signature"},
187 {CALG_RSA_KEYX,1024,384,16384,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_KEYX",17,"RSA Key Exchange"},
188 {CALG_HMAC, 0, 0, 0,0, 5,"HMAC", 18,"Hugo's MAC (HMAC)"},
189 {0, 0, 0, 0,0, 1,"", 1,""}
192 {CALG_RC2, 128, 40, 128,0, 4,"RC2", 24,"RSA Data Security's RC2"},
193 {CALG_RC4, 128, 40, 128,0, 4,"RC4", 24,"RSA Data Security's RC4"},
194 {CALG_DES, 56, 56, 56,0, 4,"DES", 31,"Data Encryption Standard (DES)"},
195 {CALG_3DES_112, 112,112, 112,0, 13,"3DES TWO KEY",19,"Two Key Triple DES"},
196 {CALG_3DES, 168,168, 168,0, 5,"3DES", 21,"Three Key Triple DES"},
197 {CALG_SHA, 160,160, 160,CRYPT_FLAG_SIGNING, 6,"SHA-1", 30,"Secure Hash Algorithm (SHA-1)"},
198 {CALG_MD2, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD2", 23,"Message Digest 2 (MD2)"},
199 {CALG_MD4, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD4", 23,"Message Digest 4 (MD4)"},
200 {CALG_MD5, 128,128, 128,CRYPT_FLAG_SIGNING, 4,"MD5", 23,"Message Digest 5 (MD5)"},
201 {CALG_SSL3_SHAMD5,288,288,288,0, 12,"SSL3 SHAMD5",12,"SSL3 SHAMD5"},
202 {CALG_MAC, 0, 0, 0,0, 4,"MAC", 28,"Message Authentication Code"},
203 {CALG_RSA_SIGN,1024,384,16384,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_SIGN",14,"RSA Signature"},
204 {CALG_RSA_KEYX,1024,384,16384,CRYPT_FLAG_SIGNING|CRYPT_FLAG_IPSEC,9,"RSA_KEYX",17,"RSA Key Exchange"},
205 {CALG_HMAC, 0, 0, 0,0, 5,"HMAC", 18,"Hugo's MAC (HMAC)"},
206 {0, 0, 0, 0,0, 1,"", 1,""}
209 {CALG_RC2, 128, 40, 128,RSAENH_PCT1_SSL2_SSL3_TLS1, 4,"RC2", 24,"RSA Data Security's RC2"},
210 {CALG_RC4, 128, 40, 128,RSAENH_PCT1_SSL2_SSL3_TLS1, 4,"RC4", 24,"RSA Data Security's RC4"},
211 {CALG_DES, 56, 56, 56,RSAENH_PCT1_SSL2_SSL3_TLS1, 4,"DES", 31,"Data Encryption Standard (DES)"},
212 {CALG_3DES_112, 112,112, 112,RSAENH_PCT1_SSL2_SSL3_TLS1,13,"3DES TWO KEY",19,"Two Key Triple DES"},
213 {CALG_3DES, 168,168, 168,RSAENH_PCT1_SSL2_SSL3_TLS1, 5,"3DES", 21,"Three Key Triple DES"},
214 {CALG_SHA,160,160,160,CRYPT_FLAG_SIGNING|RSAENH_PCT1_SSL2_SSL3_TLS1,6,"SHA-1",30,"Secure Hash Algorithm (SHA-1)"},
215 {CALG_MD5,128,128,128,CRYPT_FLAG_SIGNING|RSAENH_PCT1_SSL2_SSL3_TLS1,4,"MD5",23,"Message Digest 5 (MD5)"},
216 {CALG_SSL3_SHAMD5,288,288,288,0, 12,"SSL3 SHAMD5",12,"SSL3 SHAMD5"},
217 {CALG_MAC, 0, 0, 0,0, 4,"MAC", 28,"Message Authentication Code"},
218 {CALG_RSA_SIGN,1024,384,16384,CRYPT_FLAG_SIGNING|RSAENH_PCT1_SSL2_SSL3_TLS1,9,"RSA_SIGN",14,"RSA Signature"},
219 {CALG_RSA_KEYX,1024,384,16384,CRYPT_FLAG_SIGNING|RSAENH_PCT1_SSL2_SSL3_TLS1,9,"RSA_KEYX",17,"RSA Key Exchange"},
220 {CALG_HMAC, 0, 0, 0,0, 5,"HMAC", 18,"Hugo's MAC (HMAC)"},
221 {CALG_PCT1_MASTER,128,128,128,CRYPT_FLAG_PCT1, 12,"PCT1 MASTER",12,"PCT1 Master"},
222 {CALG_SSL2_MASTER,40,40, 192,CRYPT_FLAG_SSL2, 12,"SSL2 MASTER",12,"SSL2 Master"},
223 {CALG_SSL3_MASTER,384,384,384,CRYPT_FLAG_SSL3, 12,"SSL3 MASTER",12,"SSL3 Master"},
224 {CALG_TLS1_MASTER,384,384,384,CRYPT_FLAG_TLS1, 12,"TLS1 MASTER",12,"TLS1 Master"},
225 {CALG_SCHANNEL_MASTER_HASH,0,0,-1,0, 16,"SCH MASTER HASH",21,"SChannel Master Hash"},
226 {CALG_SCHANNEL_MAC_KEY,0,0,-1,0, 12,"SCH MAC KEY",17,"SChannel MAC Key"},
227 {CALG_SCHANNEL_ENC_KEY,0,0,-1,0, 12,"SCH ENC KEY",24,"SChannel Encryption Key"},
228 {CALG_TLS1PRF, 0, 0, -1,0, 9,"TLS1 PRF", 28,"TLS1 Pseudo Random Function"},
229 {0, 0, 0, 0,0, 1,"", 1,""}
233 /******************************************************************************
234 * API forward declarations
237 RSAENH_CPGetKeyParam(
268 RSAENH_CPSetHashParam(
272 BYTE *pbData, DWORD dwFlags
276 RSAENH_CPGetHashParam(
286 RSAENH_CPDestroyHash(
321 /******************************************************************************
322 * CSP's handle table (used by all acquired key containers)
324 static HANDLETABLE handle_table;
326 /******************************************************************************
329 * Initializes and destroys the handle table for the CSP's handles.
331 int WINAPI DllMain(HINSTANCE hInstance, DWORD fdwReason, PVOID pvReserved)
335 case DLL_PROCESS_ATTACH:
336 DisableThreadLibraryCalls(hInstance);
337 init_handle_table(&handle_table);
340 case DLL_PROCESS_DETACH:
341 destroy_handle_table(&handle_table);
347 /******************************************************************************
348 * copy_param [Internal]
350 * Helper function that supports the standard WINAPI protocol for querying data
354 * pbBuffer [O] Buffer where the queried parameter is copied to, if it is large enough.
355 * May be NUL if the required buffer size is to be queried only.
356 * pdwBufferSize [I/O] In: Size of the buffer at pbBuffer
357 * Out: Size of parameter pbParam
358 * pbParam [I] Parameter value.
359 * dwParamSize [I] Size of pbParam
362 * Success: TRUE (pbParam was copied into pbBuffer or pbBuffer is NULL)
363 * Failure: FALSE (pbBuffer is not large enough to hold pbParam). Last error: ERROR_MORE_DATA
365 static inline BOOL copy_param(
366 BYTE *pbBuffer, DWORD *pdwBufferSize, CONST BYTE *pbParam, DWORD dwParamSize)
370 if (dwParamSize > *pdwBufferSize)
372 SetLastError(ERROR_MORE_DATA);
373 *pdwBufferSize = dwParamSize;
376 memcpy(pbBuffer, pbParam, dwParamSize);
378 *pdwBufferSize = dwParamSize;
382 /******************************************************************************
383 * get_algid_info [Internal]
385 * Query CSP capabilities for a given crypto algorithm.
388 * hProv [I] Handle to a key container of the CSP whose capabilities are to be queried.
389 * algid [I] Identifier of the crypto algorithm about which information is requested.
392 * Success: Pointer to a PROV_ENUMALGS_EX struct containing information about the crypto algorithm.
393 * Failure: NULL (algid not supported)
395 static inline const PROV_ENUMALGS_EX* get_algid_info(HCRYPTPROV hProv, ALG_ID algid) {
396 const PROV_ENUMALGS_EX *iterator;
397 KEYCONTAINER *pKeyContainer;
399 if (!lookup_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER, (OBJECTHDR**)&pKeyContainer)) {
400 SetLastError(NTE_BAD_UID);
404 for (iterator = aProvEnumAlgsEx[pKeyContainer->dwPersonality]; iterator->aiAlgid; iterator++) {
405 if (iterator->aiAlgid == algid) return iterator;
408 SetLastError(NTE_BAD_ALGID);
412 /******************************************************************************
413 * copy_data_blob [Internal]
415 * deeply copies a DATA_BLOB
418 * dst [O] That's where the blob will be copied to
419 * src [I] Source blob
423 * Failure: FALSE (GetLastError() == NTE_NO_MEMORY
426 * Use free_data_blob to release resources occupied by copy_data_blob.
428 static inline BOOL copy_data_blob(PCRYPT_DATA_BLOB dst, CONST PCRYPT_DATA_BLOB src) {
429 dst->pbData = HeapAlloc(GetProcessHeap(), 0, src->cbData);
431 SetLastError(NTE_NO_MEMORY);
434 dst->cbData = src->cbData;
435 memcpy(dst->pbData, src->pbData, src->cbData);
439 /******************************************************************************
440 * concat_data_blobs [Internal]
442 * Concatenates two blobs
445 * dst [O] The new blob will be copied here
446 * src1 [I] Prefix blob
447 * src2 [I] Appendix blob
451 * Failure: FALSE (GetLastError() == NTE_NO_MEMORY)
454 * Release resources occupied by concat_data_blobs with free_data_blobs
456 static inline BOOL concat_data_blobs(PCRYPT_DATA_BLOB dst, CONST PCRYPT_DATA_BLOB src1,
457 CONST PCRYPT_DATA_BLOB src2)
459 dst->cbData = src1->cbData + src2->cbData;
460 dst->pbData = HeapAlloc(GetProcessHeap(), 0, dst->cbData);
462 SetLastError(NTE_NO_MEMORY);
465 memcpy(dst->pbData, src1->pbData, src1->cbData);
466 memcpy(dst->pbData + src1->cbData, src2->pbData, src2->cbData);
470 /******************************************************************************
471 * free_data_blob [Internal]
473 * releases resource occupied by a dynamically allocated CRYPT_DATA_BLOB
476 * pBlob [I] Heap space occupied by pBlob->pbData is released
478 static inline void free_data_blob(PCRYPT_DATA_BLOB pBlob) {
479 HeapFree(GetProcessHeap(), 0, pBlob->pbData);
482 /******************************************************************************
483 * init_data_blob [Internal]
485 static inline void init_data_blob(PCRYPT_DATA_BLOB pBlob) {
486 pBlob->pbData = NULL;
490 /******************************************************************************
491 * free_hmac_info [Internal]
493 * Deeply free an HMAC_INFO struct.
496 * hmac_info [I] Pointer to the HMAC_INFO struct to be freed.
499 * See Internet RFC 2104 for details on the HMAC algorithm.
501 static inline void free_hmac_info(PHMAC_INFO hmac_info) {
502 if (!hmac_info) return;
503 HeapFree(GetProcessHeap(), 0, hmac_info->pbInnerString);
504 HeapFree(GetProcessHeap(), 0, hmac_info->pbOuterString);
505 HeapFree(GetProcessHeap(), 0, hmac_info);
508 /******************************************************************************
509 * copy_hmac_info [Internal]
511 * Deeply copy an HMAC_INFO struct
514 * dst [O] Pointer to a location where the pointer to the HMAC_INFO copy will be stored.
515 * src [I] Pointer to the HMAC_INFO struct to be copied.
522 * See Internet RFC 2104 for details on the HMAC algorithm.
524 static BOOL copy_hmac_info(PHMAC_INFO *dst, PHMAC_INFO src) {
525 if (!src) return FALSE;
526 *dst = HeapAlloc(GetProcessHeap(), 0, sizeof(HMAC_INFO));
527 if (!*dst) return FALSE;
528 memcpy(*dst, src, sizeof(HMAC_INFO));
529 (*dst)->pbInnerString = NULL;
530 (*dst)->pbOuterString = NULL;
531 if ((*dst)->cbInnerString == 0) (*dst)->cbInnerString = RSAENH_HMAC_DEF_PAD_LEN;
532 (*dst)->pbInnerString = HeapAlloc(GetProcessHeap(), 0, (*dst)->cbInnerString);
533 if (!(*dst)->pbInnerString) {
534 free_hmac_info(*dst);
537 if (src->cbInnerString)
538 memcpy((*dst)->pbInnerString, src->pbInnerString, src->cbInnerString);
540 memset((*dst)->pbInnerString, RSAENH_HMAC_DEF_IPAD_CHAR, RSAENH_HMAC_DEF_PAD_LEN);
541 if ((*dst)->cbOuterString == 0) (*dst)->cbOuterString = RSAENH_HMAC_DEF_PAD_LEN;
542 (*dst)->pbOuterString = HeapAlloc(GetProcessHeap(), 0, (*dst)->cbOuterString);
543 if (!(*dst)->pbOuterString) {
544 free_hmac_info(*dst);
547 if (src->cbOuterString)
548 memcpy((*dst)->pbOuterString, src->pbOuterString, src->cbOuterString);
550 memset((*dst)->pbOuterString, RSAENH_HMAC_DEF_OPAD_CHAR, RSAENH_HMAC_DEF_PAD_LEN);
554 /******************************************************************************
555 * destroy_hash [Internal]
557 * Destructor for hash objects
560 * pCryptHash [I] Pointer to the hash object to be destroyed.
561 * Will be invalid after function returns!
563 static void destroy_hash(OBJECTHDR *pObject)
565 CRYPTHASH *pCryptHash = (CRYPTHASH*)pObject;
567 free_hmac_info(pCryptHash->pHMACInfo);
568 free_data_blob(&pCryptHash->tpPRFParams.blobLabel);
569 free_data_blob(&pCryptHash->tpPRFParams.blobSeed);
570 HeapFree(GetProcessHeap(), 0, pCryptHash);
573 /******************************************************************************
574 * init_hash [Internal]
576 * Initialize (or reset) a hash object
579 * pCryptHash [I] The hash object to be initialized.
581 static inline BOOL init_hash(CRYPTHASH *pCryptHash) {
584 switch (pCryptHash->aiAlgid)
587 if (pCryptHash->pHMACInfo) {
588 const PROV_ENUMALGS_EX *pAlgInfo;
590 pAlgInfo = get_algid_info(pCryptHash->hProv, pCryptHash->pHMACInfo->HashAlgid);
591 if (!pAlgInfo) return FALSE;
592 pCryptHash->dwHashSize = pAlgInfo->dwDefaultLen >> 3;
593 init_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context);
594 update_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
595 pCryptHash->pHMACInfo->pbInnerString,
596 pCryptHash->pHMACInfo->cbInnerString);
601 dwLen = sizeof(DWORD);
602 RSAENH_CPGetKeyParam(pCryptHash->hProv, pCryptHash->hKey, KP_BLOCKLEN,
603 (BYTE*)&pCryptHash->dwHashSize, &dwLen, 0);
604 pCryptHash->dwHashSize >>= 3;
608 return init_hash_impl(pCryptHash->aiAlgid, &pCryptHash->context);
612 /******************************************************************************
613 * update_hash [Internal]
615 * Hashes the given data and updates the hash object's state accordingly
618 * pCryptHash [I] Hash object to be updated.
619 * pbData [I] Pointer to data stream to be hashed.
620 * dwDataLen [I] Length of data stream.
622 static inline void update_hash(CRYPTHASH *pCryptHash, CONST BYTE *pbData, DWORD dwDataLen) {
625 switch (pCryptHash->aiAlgid)
628 if (pCryptHash->pHMACInfo)
629 update_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
634 pbTemp = HeapAlloc(GetProcessHeap(), 0, dwDataLen);
636 memcpy(pbTemp, pbData, dwDataLen);
637 RSAENH_CPEncrypt(pCryptHash->hProv, pCryptHash->hKey, (HCRYPTHASH)NULL, FALSE, 0,
638 pbTemp, &dwDataLen, dwDataLen);
639 HeapFree(GetProcessHeap(), 0, pbTemp);
643 update_hash_impl(pCryptHash->aiAlgid, &pCryptHash->context, pbData, dwDataLen);
647 /******************************************************************************
648 * finalize_hash [Internal]
650 * Finalizes the hash, after all data has been hashed with update_hash.
651 * No additional data can be hashed afterwards until the hash gets initialized again.
654 * pCryptHash [I] Hash object to be finalized.
656 static inline void finalize_hash(CRYPTHASH *pCryptHash) {
659 switch (pCryptHash->aiAlgid)
662 if (pCryptHash->pHMACInfo) {
663 BYTE abHashValue[RSAENH_MAX_HASH_SIZE];
665 finalize_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
666 pCryptHash->abHashValue);
667 memcpy(abHashValue, pCryptHash->abHashValue, pCryptHash->dwHashSize);
668 init_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context);
669 update_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
670 pCryptHash->pHMACInfo->pbOuterString,
671 pCryptHash->pHMACInfo->cbOuterString);
672 update_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
673 abHashValue, pCryptHash->dwHashSize);
674 finalize_hash_impl(pCryptHash->pHMACInfo->HashAlgid, &pCryptHash->context,
675 pCryptHash->abHashValue);
681 RSAENH_CPEncrypt(pCryptHash->hProv, pCryptHash->hKey, (HCRYPTHASH)NULL, TRUE, 0,
682 pCryptHash->abHashValue, &dwDataLen, pCryptHash->dwHashSize);
686 finalize_hash_impl(pCryptHash->aiAlgid, &pCryptHash->context, pCryptHash->abHashValue);
690 /******************************************************************************
691 * destroy_key [Internal]
693 * Destructor for key objects
696 * pCryptKey [I] Pointer to the key object to be destroyed.
697 * Will be invalid after function returns!
699 static void destroy_key(OBJECTHDR *pObject)
701 CRYPTKEY *pCryptKey = (CRYPTKEY*)pObject;
703 free_key_impl(pCryptKey->aiAlgid, &pCryptKey->context);
704 free_data_blob(&pCryptKey->siSChannelInfo.blobClientRandom);
705 free_data_blob(&pCryptKey->siSChannelInfo.blobServerRandom);
706 HeapFree(GetProcessHeap(), 0, pCryptKey);
709 /******************************************************************************
710 * setup_key [Internal]
712 * Initialize (or reset) a key object
715 * pCryptKey [I] The key object to be initialized.
717 static inline void setup_key(CRYPTKEY *pCryptKey) {
718 pCryptKey->dwState = RSAENH_KEYSTATE_IDLE;
719 memcpy(pCryptKey->abChainVector, pCryptKey->abInitVector, sizeof(pCryptKey->abChainVector));
720 setup_key_impl(pCryptKey->aiAlgid, &pCryptKey->context, pCryptKey->dwKeyLen,
721 pCryptKey->dwSaltLen, pCryptKey->abKeyValue);
724 /******************************************************************************
727 * Creates a new key object without assigning the actual binary key value.
728 * This is done by CPDeriveKey, CPGenKey or CPImportKey, which call this function.
731 * hProv [I] Handle to the provider to which the created key will belong.
732 * aiAlgid [I] The new key shall use the crypto algorithm idenfied by aiAlgid.
733 * dwFlags [I] Upper 16 bits give the key length.
734 * Lower 16 bits: CRYPT_CREATE_SALT, CRYPT_NO_SALT
735 * ppCryptKey [O] Pointer to the created key
738 * Success: Handle to the created key.
739 * Failure: INVALID_HANDLE_VALUE
741 static HCRYPTKEY new_key(HCRYPTPROV hProv, ALG_ID aiAlgid, DWORD dwFlags, CRYPTKEY **ppCryptKey)
745 DWORD dwKeyLen = HIWORD(dwFlags);
746 const PROV_ENUMALGS_EX *peaAlgidInfo;
751 * Retrieve the CSP's capabilities for the given ALG_ID value
753 peaAlgidInfo = get_algid_info(hProv, aiAlgid);
754 if (!peaAlgidInfo) return (HCRYPTKEY)INVALID_HANDLE_VALUE;
757 * Assume the default key length, if none is specified explicitly
759 if (dwKeyLen == 0) dwKeyLen = peaAlgidInfo->dwDefaultLen;
762 * Check if the requested key length is supported by the current CSP.
763 * Adjust key length's for DES algorithms.
767 if (dwKeyLen == RSAENH_DES_EFFECTIVE_KEYLEN) {
768 dwKeyLen = RSAENH_DES_STORAGE_KEYLEN;
770 if (dwKeyLen != RSAENH_DES_STORAGE_KEYLEN) {
771 SetLastError(NTE_BAD_FLAGS);
772 return (HCRYPTKEY)INVALID_HANDLE_VALUE;
777 if (dwKeyLen == RSAENH_3DES112_EFFECTIVE_KEYLEN) {
778 dwKeyLen = RSAENH_3DES112_STORAGE_KEYLEN;
780 if (dwKeyLen != RSAENH_3DES112_STORAGE_KEYLEN) {
781 SetLastError(NTE_BAD_FLAGS);
782 return (HCRYPTKEY)INVALID_HANDLE_VALUE;
787 if (dwKeyLen == RSAENH_3DES_EFFECTIVE_KEYLEN) {
788 dwKeyLen = RSAENH_3DES_STORAGE_KEYLEN;
790 if (dwKeyLen != RSAENH_3DES_STORAGE_KEYLEN) {
791 SetLastError(NTE_BAD_FLAGS);
792 return (HCRYPTKEY)INVALID_HANDLE_VALUE;
798 dwKeyLen > peaAlgidInfo->dwMaxLen ||
799 dwKeyLen < peaAlgidInfo->dwMinLen)
801 SetLastError(NTE_BAD_FLAGS);
802 return (HCRYPTKEY)INVALID_HANDLE_VALUE;
806 hCryptKey = (HCRYPTKEY)new_object(&handle_table, sizeof(CRYPTKEY), RSAENH_MAGIC_KEY,
807 destroy_key, (OBJECTHDR**)&pCryptKey);
808 if (hCryptKey != (HCRYPTKEY)INVALID_HANDLE_VALUE)
810 pCryptKey->aiAlgid = aiAlgid;
811 pCryptKey->hProv = hProv;
812 pCryptKey->dwModeBits = 0;
813 pCryptKey->dwPermissions = CRYPT_ENCRYPT | CRYPT_DECRYPT | CRYPT_READ | CRYPT_WRITE |
815 pCryptKey->dwKeyLen = dwKeyLen >> 3;
816 if ((dwFlags & CRYPT_CREATE_SALT) || (dwKeyLen == 40 && !(dwFlags & CRYPT_NO_SALT)))
817 pCryptKey->dwSaltLen = 16 /*FIXME*/ - pCryptKey->dwKeyLen;
819 pCryptKey->dwSaltLen = 0;
820 memset(pCryptKey->abKeyValue, 0, sizeof(pCryptKey->abKeyValue));
821 memset(pCryptKey->abInitVector, 0, sizeof(pCryptKey->abInitVector));
822 init_data_blob(&pCryptKey->siSChannelInfo.blobClientRandom);
823 init_data_blob(&pCryptKey->siSChannelInfo.blobServerRandom);
827 case CALG_PCT1_MASTER:
828 case CALG_SSL2_MASTER:
829 case CALG_SSL3_MASTER:
830 case CALG_TLS1_MASTER:
832 pCryptKey->dwBlockLen = 0;
833 pCryptKey->dwMode = 0;
840 pCryptKey->dwBlockLen = 8;
841 pCryptKey->dwMode = CRYPT_MODE_CBC;
846 pCryptKey->dwBlockLen = dwKeyLen >> 3;
847 pCryptKey->dwMode = 0;
851 *ppCryptKey = pCryptKey;
857 /******************************************************************************
858 * destroy_key_container [Internal]
860 * Destructor for key containers.
863 * pObjectHdr [I] Pointer to the key container to be destroyed.
865 static void destroy_key_container(OBJECTHDR *pObjectHdr)
867 KEYCONTAINER *pKeyContainer = (KEYCONTAINER*)pObjectHdr;
868 DATA_BLOB blobIn, blobOut;
870 CHAR szRSABase[MAX_PATH];
875 if (!(pKeyContainer->dwFlags & CRYPT_VERIFYCONTEXT)) {
876 /* On WinXP, persistent keys are stored in a file located at:
877 * $AppData$\\Microsoft\\Crypto\\RSA\\$SID$\\some_hex_string
879 sprintf(szRSABase, RSAENH_REGKEY, pKeyContainer->szName);
881 if (pKeyContainer->dwFlags & CRYPT_MACHINE_KEYSET) {
882 hRootKey = HKEY_LOCAL_MACHINE;
884 hRootKey = HKEY_CURRENT_USER;
887 /* @@ Wine registry key: HKLM\Software\Wine\Crypto\RSA */
888 /* @@ Wine registry key: HKCU\Software\Wine\Crypto\RSA */
889 if (RegCreateKeyExA(hRootKey, szRSABase, 0, NULL, REG_OPTION_NON_VOLATILE,
890 KEY_WRITE, NULL, &hKey, NULL) == ERROR_SUCCESS)
892 if (lookup_handle(&handle_table, pKeyContainer->hKeyExchangeKeyPair, RSAENH_MAGIC_KEY,
895 if (RSAENH_CPExportKey(pKey->hProv, pKeyContainer->hKeyExchangeKeyPair, 0,
896 PRIVATEKEYBLOB, 0, 0, &dwLen))
898 pbKey = HeapAlloc(GetProcessHeap(), 0, dwLen);
901 if (RSAENH_CPExportKey(pKey->hProv, pKeyContainer->hKeyExchangeKeyPair, 0,
902 PRIVATEKEYBLOB, 0, pbKey, &dwLen))
904 blobIn.pbData = pbKey;
905 blobIn.cbData = dwLen;
907 if (CryptProtectData(&blobIn, NULL, NULL, NULL, NULL,
908 (pKeyContainer->dwFlags & CRYPT_MACHINE_KEYSET) ?
909 CRYPTPROTECT_LOCAL_MACHINE : 0,
912 RegSetValueExA(hKey, "KeyExchangeKeyPair", 0, REG_BINARY,
913 blobOut.pbData, blobOut.cbData);
914 HeapFree(GetProcessHeap(), 0, blobOut.pbData);
917 HeapFree(GetProcessHeap(), 0, pbKey);
920 release_handle(&handle_table, pKeyContainer->hKeyExchangeKeyPair,
924 if (lookup_handle(&handle_table, pKeyContainer->hSignatureKeyPair, RSAENH_MAGIC_KEY,
927 if (RSAENH_CPExportKey(pKey->hProv, pKeyContainer->hSignatureKeyPair, 0,
928 PRIVATEKEYBLOB, 0, 0, &dwLen))
930 pbKey = HeapAlloc(GetProcessHeap(), 0, dwLen);
933 if (RSAENH_CPExportKey(pKey->hProv, pKeyContainer->hSignatureKeyPair, 0,
934 PRIVATEKEYBLOB, 0, pbKey, &dwLen))
936 blobIn.pbData = pbKey;
937 blobIn.cbData = dwLen;
939 if (CryptProtectData(&blobIn, NULL, NULL, NULL, NULL,
940 (pKeyContainer->dwFlags & CRYPT_MACHINE_KEYSET) ?
941 CRYPTPROTECT_LOCAL_MACHINE : 0,
944 RegSetValueExA(hKey, "SignatureKeyPair", 0, REG_BINARY,
945 blobOut.pbData, blobOut.cbData);
946 HeapFree(GetProcessHeap(), 0, blobOut.pbData);
949 HeapFree(GetProcessHeap(), 0, pbKey);
952 release_handle(&handle_table, pKeyContainer->hSignatureKeyPair,
960 HeapFree( GetProcessHeap(), 0, pKeyContainer );
963 /******************************************************************************
964 * new_key_container [Internal]
966 * Create a new key container. The personality (RSA Base, Strong or Enhanced CP)
967 * of the CSP is determined via the pVTable->pszProvName string.
970 * pszContainerName [I] Name of the key container.
971 * pVTable [I] Callback functions and context info provided by the OS
974 * Success: Handle to the new key container.
975 * Failure: INVALID_HANDLE_VALUE
977 static HCRYPTPROV new_key_container(PCCH pszContainerName, DWORD dwFlags, PVTableProvStruc pVTable)
979 KEYCONTAINER *pKeyContainer;
980 HCRYPTPROV hKeyContainer;
982 hKeyContainer = (HCRYPTPROV)new_object(&handle_table, sizeof(KEYCONTAINER), RSAENH_MAGIC_CONTAINER,
983 destroy_key_container, (OBJECTHDR**)&pKeyContainer);
984 if (hKeyContainer != (HCRYPTPROV)INVALID_HANDLE_VALUE)
986 lstrcpynA(pKeyContainer->szName, pszContainerName, MAX_PATH);
987 pKeyContainer->dwFlags = dwFlags;
988 pKeyContainer->dwEnumAlgsCtr = 0;
989 pKeyContainer->hKeyExchangeKeyPair = (HCRYPTKEY)INVALID_HANDLE_VALUE;
990 pKeyContainer->hSignatureKeyPair = (HCRYPTKEY)INVALID_HANDLE_VALUE;
991 if (pVTable && pVTable->pszProvName) {
992 lstrcpynA(pKeyContainer->szProvName, pVTable->pszProvName, MAX_PATH);
993 if (!strcmp(pVTable->pszProvName, MS_DEF_PROV_A)) {
994 pKeyContainer->dwPersonality = RSAENH_PERSONALITY_BASE;
995 } else if (!strcmp(pVTable->pszProvName, MS_ENHANCED_PROV_A)) {
996 pKeyContainer->dwPersonality = RSAENH_PERSONALITY_ENHANCED;
997 } else if (!strcmp(pVTable->pszProvName, MS_DEF_RSA_SCHANNEL_PROV_A)) {
998 pKeyContainer->dwPersonality = RSAENH_PERSONALITY_SCHANNEL;
1000 pKeyContainer->dwPersonality = RSAENH_PERSONALITY_STRONG;
1004 /* The new key container has to be inserted into the CSP immediately
1005 * after creation to be available for CPGetProvParam's PP_ENUMCONTAINERS. */
1006 if (!(dwFlags & CRYPT_VERIFYCONTEXT)) {
1007 CHAR szRSABase[MAX_PATH];
1008 HKEY hRootKey, hKey;
1010 sprintf(szRSABase, RSAENH_REGKEY, pKeyContainer->szName);
1012 if (pKeyContainer->dwFlags & CRYPT_MACHINE_KEYSET) {
1013 hRootKey = HKEY_LOCAL_MACHINE;
1015 hRootKey = HKEY_CURRENT_USER;
1018 /* @@ Wine registry key: HKLM\Software\Wine\Crypto\RSA */
1019 /* @@ Wine registry key: HKCU\Software\Wine\Crypto\RSA */
1020 RegCreateKeyA(hRootKey, szRSABase, &hKey);
1025 return hKeyContainer;
1028 /******************************************************************************
1029 * read_key_container [Internal]
1031 * Tries to read the persistent state of the key container (mainly the signature
1032 * and key exchange private keys) given by pszContainerName.
1035 * pszContainerName [I] Name of the key container to read from the registry
1036 * pVTable [I] Pointer to context data provided by the operating system
1039 * Success: Handle to the key container read from the registry
1040 * Failure: INVALID_HANDLE_VALUE
1042 static HCRYPTPROV read_key_container(PCHAR pszContainerName, DWORD dwFlags, PVTableProvStruc pVTable)
1044 CHAR szRSABase[MAX_PATH];
1046 HKEY hKey, hRootKey;
1047 DWORD dwValueType, dwLen;
1048 KEYCONTAINER *pKeyContainer;
1049 HCRYPTPROV hKeyContainer;
1050 DATA_BLOB blobIn, blobOut;
1051 HCRYPTKEY hCryptKey;
1053 sprintf(szRSABase, RSAENH_REGKEY, pszContainerName);
1055 if (dwFlags & CRYPT_MACHINE_KEYSET) {
1056 hRootKey = HKEY_LOCAL_MACHINE;
1058 hRootKey = HKEY_CURRENT_USER;
1061 /* @@ Wine registry key: HKLM\Software\Wine\Crypto\RSA */
1062 /* @@ Wine registry key: HKCU\Software\Wine\Crypto\RSA */
1063 if (RegOpenKeyExA(hRootKey, szRSABase, 0, KEY_READ, &hKey) != ERROR_SUCCESS)
1065 SetLastError(NTE_BAD_KEYSET);
1066 return (HCRYPTPROV)INVALID_HANDLE_VALUE;
1069 hKeyContainer = new_key_container(pszContainerName, dwFlags, pVTable);
1070 if (hKeyContainer != (HCRYPTPROV)INVALID_HANDLE_VALUE)
1072 if (!lookup_handle(&handle_table, hKeyContainer, RSAENH_MAGIC_CONTAINER,
1073 (OBJECTHDR**)&pKeyContainer))
1074 return (HCRYPTPROV)INVALID_HANDLE_VALUE;
1076 if (RegQueryValueExA(hKey, "KeyExchangeKeyPair", 0, &dwValueType, NULL, &dwLen) ==
1079 pbKey = HeapAlloc(GetProcessHeap(), 0, dwLen);
1082 if (RegQueryValueExA(hKey, "KeyExchangeKeyPair", 0, &dwValueType, pbKey, &dwLen) ==
1085 blobIn.pbData = pbKey;
1086 blobIn.cbData = dwLen;
1088 if (CryptUnprotectData(&blobIn, NULL, NULL, NULL, NULL,
1089 (dwFlags & CRYPT_MACHINE_KEYSET) ? CRYPTPROTECT_LOCAL_MACHINE : 0, &blobOut))
1091 if(RSAENH_CPImportKey(hKeyContainer, blobOut.pbData, blobOut.cbData, 0, 0,
1093 pKeyContainer->hKeyExchangeKeyPair = hCryptKey;
1094 HeapFree(GetProcessHeap(), 0, blobOut.pbData);
1097 HeapFree(GetProcessHeap(), 0, pbKey);
1101 if (RegQueryValueExA(hKey, "SignatureKeyPair", 0, &dwValueType, NULL, &dwLen) ==
1104 pbKey = HeapAlloc(GetProcessHeap(), 0, dwLen);
1107 if (RegQueryValueExA(hKey, "SignatureKeyPair", 0, &dwValueType, pbKey, &dwLen) ==
1110 blobIn.pbData = pbKey;
1111 blobIn.cbData = dwLen;
1113 if (CryptUnprotectData(&blobIn, NULL, NULL, NULL, NULL,
1114 (dwFlags & CRYPT_MACHINE_KEYSET) ? CRYPTPROTECT_LOCAL_MACHINE : 0, &blobOut))
1116 if(RSAENH_CPImportKey(hKeyContainer, blobOut.pbData, blobOut.cbData, 0, 0,
1118 pKeyContainer->hSignatureKeyPair = hCryptKey;
1119 HeapFree(GetProcessHeap(), 0, blobOut.pbData);
1122 HeapFree(GetProcessHeap(), 0, pbKey);
1127 return hKeyContainer;
1130 /******************************************************************************
1131 * build_hash_signature [Internal]
1133 * Builds a padded version of a hash to match the length of the RSA key modulus.
1136 * pbSignature [O] The padded hash object is stored here.
1137 * dwLen [I] Length of the pbSignature buffer.
1138 * aiAlgid [I] Algorithm identifier of the hash to be padded.
1139 * abHashValue [I] The value of the hash object.
1140 * dwHashLen [I] Length of the hash value.
1141 * dwFlags [I] Selection of padding algorithm.
1145 * Failure: FALSE (NTE_BAD_ALGID)
1147 static BOOL build_hash_signature(BYTE *pbSignature, DWORD dwLen, ALG_ID aiAlgid,
1148 CONST BYTE *abHashValue, DWORD dwHashLen, DWORD dwFlags)
1150 /* These prefixes are meant to be concatenated with hash values of the
1151 * respective kind to form a PKCS #7 DigestInfo. */
1152 static const struct tagOIDDescriptor {
1155 CONST BYTE abOID[18];
1156 } aOIDDescriptor[5] = {
1157 { CALG_MD2, 18, { 0x30, 0x20, 0x30, 0x0c, 0x06, 0x08, 0x2a, 0x86, 0x48,
1158 0x86, 0xf7, 0x0d, 0x02, 0x02, 0x05, 0x00, 0x04, 0x10 } },
1159 { CALG_MD4, 18, { 0x30, 0x20, 0x30, 0x0c, 0x06, 0x08, 0x2a, 0x86, 0x48,
1160 0x86, 0xf7, 0x0d, 0x02, 0x04, 0x05, 0x00, 0x04, 0x10 } },
1161 { CALG_MD5, 18, { 0x30, 0x20, 0x30, 0x0c, 0x06, 0x08, 0x2a, 0x86, 0x48,
1162 0x86, 0xf7, 0x0d, 0x02, 0x05, 0x05, 0x00, 0x04, 0x10 } },
1163 { CALG_SHA, 15, { 0x30, 0x21, 0x30, 0x09, 0x06, 0x05, 0x2b, 0x0e, 0x03,
1164 0x02, 0x1a, 0x05, 0x00, 0x04, 0x14 } },
1167 DWORD dwIdxOID, i, j;
1169 for (dwIdxOID = 0; aOIDDescriptor[dwIdxOID].aiAlgid; dwIdxOID++) {
1170 if (aOIDDescriptor[dwIdxOID].aiAlgid == aiAlgid) break;
1173 if (!aOIDDescriptor[dwIdxOID].aiAlgid) {
1174 SetLastError(NTE_BAD_ALGID);
1178 /* Build the padded signature */
1179 if (dwFlags & CRYPT_X931_FORMAT) {
1180 pbSignature[0] = 0x6b;
1181 for (i=1; i < dwLen - dwHashLen - 3; i++) {
1182 pbSignature[i] = 0xbb;
1184 pbSignature[i++] = 0xba;
1185 for (j=0; j < dwHashLen; j++, i++) {
1186 pbSignature[i] = abHashValue[j];
1188 pbSignature[i++] = 0x33;
1189 pbSignature[i++] = 0xcc;
1191 pbSignature[0] = 0x00;
1192 pbSignature[1] = 0x01;
1193 if (dwFlags & CRYPT_NOHASHOID) {
1194 for (i=2; i < dwLen - 1 - dwHashLen; i++) {
1195 pbSignature[i] = 0xff;
1197 pbSignature[i++] = 0x00;
1199 for (i=2; i < dwLen - 1 - aOIDDescriptor[dwIdxOID].dwLen - dwHashLen; i++) {
1200 pbSignature[i] = 0xff;
1202 pbSignature[i++] = 0x00;
1203 for (j=0; j < aOIDDescriptor[dwIdxOID].dwLen; j++) {
1204 pbSignature[i++] = aOIDDescriptor[dwIdxOID].abOID[j];
1207 for (j=0; j < dwHashLen; j++) {
1208 pbSignature[i++] = abHashValue[j];
1215 /******************************************************************************
1218 * This is an implementation of the 'P_hash' helper function for TLS1's PRF.
1219 * It is used exclusively by tls1_prf. For details see RFC 2246, chapter 5.
1220 * The pseudo random stream generated by this function is exclusive or'ed with
1221 * the data in pbBuffer.
1224 * hHMAC [I] HMAC object, which will be used in pseudo random generation
1225 * pblobSeed [I] Seed value
1226 * pbBuffer [I/O] Pseudo random stream will be xor'ed to the provided data
1227 * dwBufferLen [I] Number of pseudo random bytes desired
1233 static BOOL tls1_p(HCRYPTHASH hHMAC, CONST PCRYPT_DATA_BLOB pblobSeed, PBYTE pbBuffer, DWORD dwBufferLen)
1236 BYTE abAi[RSAENH_MAX_HASH_SIZE];
1239 if (!lookup_handle(&handle_table, hHMAC, RSAENH_MAGIC_HASH, (OBJECTHDR**)&pHMAC)) {
1240 SetLastError(NTE_BAD_HASH);
1244 /* compute A_1 = HMAC(seed) */
1246 update_hash(pHMAC, pblobSeed->pbData, pblobSeed->cbData);
1247 finalize_hash(pHMAC);
1248 memcpy(abAi, pHMAC->abHashValue, pHMAC->dwHashSize);
1251 /* compute HMAC(A_i + seed) */
1253 update_hash(pHMAC, abAi, pHMAC->dwHashSize);
1254 update_hash(pHMAC, pblobSeed->pbData, pblobSeed->cbData);
1255 finalize_hash(pHMAC);
1257 /* pseudo random stream := CONCAT_{i=1..n} ( HMAC(A_i + seed) ) */
1259 if (i >= dwBufferLen) break;
1260 pbBuffer[i] ^= pHMAC->abHashValue[i % pHMAC->dwHashSize];
1262 } while (i % pHMAC->dwHashSize);
1264 /* compute A_{i+1} = HMAC(A_i) */
1266 update_hash(pHMAC, abAi, pHMAC->dwHashSize);
1267 finalize_hash(pHMAC);
1268 memcpy(abAi, pHMAC->abHashValue, pHMAC->dwHashSize);
1269 } while (i < dwBufferLen);
1274 /******************************************************************************
1275 * tls1_prf [Internal]
1277 * TLS1 pseudo random function as specified in RFC 2246, chapter 5
1280 * hProv [I] Key container used to compute the pseudo random stream
1281 * hSecret [I] Key that holds the (pre-)master secret
1282 * pblobLabel [I] Descriptive label
1283 * pblobSeed [I] Seed value
1284 * pbBuffer [O] Pseudo random numbers will be stored here
1285 * dwBufferLen [I] Number of pseudo random bytes desired
1291 static BOOL tls1_prf(HCRYPTPROV hProv, HCRYPTPROV hSecret, CONST PCRYPT_DATA_BLOB pblobLabel,
1292 CONST PCRYPT_DATA_BLOB pblobSeed, PBYTE pbBuffer, DWORD dwBufferLen)
1294 HMAC_INFO hmacInfo = { 0, NULL, 0, NULL, 0 };
1295 HCRYPTHASH hHMAC = (HCRYPTHASH)INVALID_HANDLE_VALUE;
1296 HCRYPTKEY hHalfSecret = (HCRYPTKEY)INVALID_HANDLE_VALUE;
1297 CRYPTKEY *pHalfSecret, *pSecret;
1298 DWORD dwHalfSecretLen;
1299 BOOL result = FALSE;
1300 CRYPT_DATA_BLOB blobLabelSeed;
1302 TRACE("(hProv=%08lx, hSecret=%08lx, pblobLabel=%p, pblobSeed=%p, pbBuffer=%p, dwBufferLen=%d)\n",
1303 hProv, hSecret, pblobLabel, pblobSeed, pbBuffer, dwBufferLen);
1305 if (!lookup_handle(&handle_table, hSecret, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pSecret)) {
1306 SetLastError(NTE_FAIL);
1310 dwHalfSecretLen = (pSecret->dwKeyLen+1)/2;
1312 /* concatenation of the label and the seed */
1313 if (!concat_data_blobs(&blobLabelSeed, pblobLabel, pblobSeed)) goto exit;
1315 /* zero out the buffer, since two random streams will be xor'ed into it. */
1316 memset(pbBuffer, 0, dwBufferLen);
1318 /* build a 'fake' key, to hold the secret. CALG_SSL2_MASTER is used since it provides
1319 * the biggest range of valid key lengths. */
1320 hHalfSecret = new_key(hProv, CALG_SSL2_MASTER, MAKELONG(0,dwHalfSecretLen*8), &pHalfSecret);
1321 if (hHalfSecret == (HCRYPTKEY)INVALID_HANDLE_VALUE) goto exit;
1323 /* Derive an HMAC_MD5 hash and call the helper function. */
1324 memcpy(pHalfSecret->abKeyValue, pSecret->abKeyValue, dwHalfSecretLen);
1325 if (!RSAENH_CPCreateHash(hProv, CALG_HMAC, hHalfSecret, 0, &hHMAC)) goto exit;
1326 hmacInfo.HashAlgid = CALG_MD5;
1327 if (!RSAENH_CPSetHashParam(hProv, hHMAC, HP_HMAC_INFO, (BYTE*)&hmacInfo, 0)) goto exit;
1328 if (!tls1_p(hHMAC, &blobLabelSeed, pbBuffer, dwBufferLen)) goto exit;
1330 /* Reconfigure to HMAC_SHA hash and call helper function again. */
1331 memcpy(pHalfSecret->abKeyValue, pSecret->abKeyValue + (pSecret->dwKeyLen/2), dwHalfSecretLen);
1332 hmacInfo.HashAlgid = CALG_SHA;
1333 if (!RSAENH_CPSetHashParam(hProv, hHMAC, HP_HMAC_INFO, (BYTE*)&hmacInfo, 0)) goto exit;
1334 if (!tls1_p(hHMAC, &blobLabelSeed, pbBuffer, dwBufferLen)) goto exit;
1338 release_handle(&handle_table, hHalfSecret, RSAENH_MAGIC_KEY);
1339 if (hHMAC != (HCRYPTHASH)INVALID_HANDLE_VALUE) RSAENH_CPDestroyHash(hProv, hHMAC);
1340 free_data_blob(&blobLabelSeed);
1344 /******************************************************************************
1345 * pad_data [Internal]
1347 * Helper function for data padding according to PKCS1 #2
1350 * abData [I] The data to be padded
1351 * dwDataLen [I] Length of the data
1352 * abBuffer [O] Padded data will be stored here
1353 * dwBufferLen [I] Length of the buffer (also length of padded data)
1354 * dwFlags [I] Padding format (CRYPT_SSL2_FALLBACK)
1358 * Failure: FALSE (NTE_BAD_LEN, too much data to pad)
1360 static BOOL pad_data(CONST BYTE *abData, DWORD dwDataLen, BYTE *abBuffer, DWORD dwBufferLen,
1365 /* Ensure there is enough space for PKCS1 #2 padding */
1366 if (dwDataLen > dwBufferLen-11) {
1367 SetLastError(NTE_BAD_LEN);
1371 memmove(abBuffer + dwBufferLen - dwDataLen, abData, dwDataLen);
1374 abBuffer[1] = RSAENH_PKC_BLOCKTYPE;
1375 for (i=2; i < dwBufferLen - dwDataLen - 1; i++)
1376 do gen_rand_impl(&abBuffer[i], 1); while (!abBuffer[i]);
1377 if (dwFlags & CRYPT_SSL2_FALLBACK)
1378 for (i-=8; i < dwBufferLen - dwDataLen - 1; i++)
1385 /******************************************************************************
1386 * unpad_data [Internal]
1388 * Remove the PKCS1 padding from RSA decrypted data
1391 * abData [I] The padded data
1392 * dwDataLen [I] Length of the padded data
1393 * abBuffer [O] Data without padding will be stored here
1394 * dwBufferLen [I/O] I: Length of the buffer, O: Length of unpadded data
1395 * dwFlags [I] Currently none defined
1399 * Failure: FALSE, (NTE_BAD_DATA, no valid PKCS1 padding or buffer too small)
1401 static BOOL unpad_data(CONST BYTE *abData, DWORD dwDataLen, BYTE *abBuffer, DWORD *dwBufferLen,
1406 for (i=2; i<dwDataLen; i++)
1410 if ((i == dwDataLen) || (*dwBufferLen < dwDataLen - i - 1) ||
1411 (abData[0] != 0x00) || (abData[1] != RSAENH_PKC_BLOCKTYPE))
1413 SetLastError(NTE_BAD_DATA);
1417 *dwBufferLen = dwDataLen - i - 1;
1418 memmove(abBuffer, abData + i + 1, *dwBufferLen);
1422 /******************************************************************************
1423 * CPAcquireContext (RSAENH.@)
1425 * Acquire a handle to the key container specified by pszContainer
1428 * phProv [O] Pointer to the location the acquired handle will be written to.
1429 * pszContainer [I] Name of the desired key container. See Notes
1430 * dwFlags [I] Flags. See Notes.
1431 * pVTable [I] Pointer to a PVTableProvStruct containing callbacks.
1438 * If pszContainer is NULL or points to a zero length string the user's login
1439 * name will be used as the key container name.
1441 * If the CRYPT_NEW_KEYSET flag is set in dwFlags a new keyset will be created.
1442 * If a keyset with the given name already exists, the function fails and sets
1443 * last error to NTE_EXISTS. If CRYPT_NEW_KEYSET is not set and the specified
1444 * key container does not exist, function fails and sets last error to
1447 BOOL WINAPI RSAENH_CPAcquireContext(HCRYPTPROV *phProv, LPSTR pszContainer,
1448 DWORD dwFlags, PVTableProvStruc pVTable)
1450 CHAR szKeyContainerName[MAX_PATH];
1451 CHAR szRegKey[MAX_PATH];
1453 TRACE("(phProv=%p, pszContainer=%s, dwFlags=%08x, pVTable=%p)\n", phProv,
1454 debugstr_a(pszContainer), dwFlags, pVTable);
1456 if (pszContainer && *pszContainer)
1458 lstrcpynA(szKeyContainerName, pszContainer, MAX_PATH);
1462 DWORD dwLen = sizeof(szKeyContainerName);
1463 if (!GetUserNameA(szKeyContainerName, &dwLen)) return FALSE;
1466 switch (dwFlags & (CRYPT_NEWKEYSET|CRYPT_VERIFYCONTEXT|CRYPT_DELETEKEYSET))
1469 *phProv = read_key_container(szKeyContainerName, dwFlags, pVTable);
1472 case CRYPT_DELETEKEYSET:
1473 if (snprintf(szRegKey, MAX_PATH, RSAENH_REGKEY, szKeyContainerName) >= MAX_PATH) {
1474 SetLastError(NTE_BAD_KEYSET_PARAM);
1478 if (dwFlags & CRYPT_MACHINE_KEYSET)
1479 hRootKey = HKEY_LOCAL_MACHINE;
1481 hRootKey = HKEY_CURRENT_USER;
1482 if (!RegDeleteKeyA(hRootKey, szRegKey)) {
1483 SetLastError(ERROR_SUCCESS);
1486 SetLastError(NTE_BAD_KEYSET);
1492 case CRYPT_NEWKEYSET:
1493 *phProv = read_key_container(szKeyContainerName, dwFlags, pVTable);
1494 if (*phProv != (HCRYPTPROV)INVALID_HANDLE_VALUE)
1496 release_handle(&handle_table, *phProv, RSAENH_MAGIC_CONTAINER);
1497 TRACE("Can't create new keyset, already exists\n");
1498 SetLastError(NTE_EXISTS);
1501 *phProv = new_key_container(szKeyContainerName, dwFlags, pVTable);
1504 case CRYPT_VERIFYCONTEXT|CRYPT_NEWKEYSET:
1505 case CRYPT_VERIFYCONTEXT:
1507 TRACE("pszContainer should be NULL\n");
1508 SetLastError(NTE_BAD_FLAGS);
1511 *phProv = new_key_container("", dwFlags, pVTable);
1515 *phProv = (HCRYPTPROV)INVALID_HANDLE_VALUE;
1516 SetLastError(NTE_BAD_FLAGS);
1520 if (*phProv != (HCRYPTPROV)INVALID_HANDLE_VALUE) {
1521 SetLastError(ERROR_SUCCESS);
1528 /******************************************************************************
1529 * CPCreateHash (RSAENH.@)
1531 * CPCreateHash creates and initalizes a new hash object.
1534 * hProv [I] Handle to the key container to which the new hash will belong.
1535 * Algid [I] Identifies the hash algorithm, which will be used for the hash.
1536 * hKey [I] Handle to a session key applied for keyed hashes.
1537 * dwFlags [I] Currently no flags defined. Must be zero.
1538 * phHash [O] Points to the location where a handle to the new hash will be stored.
1545 * hKey is a handle to a session key applied in keyed hashes like MAC and HMAC.
1546 * If a normal hash object is to be created (like e.g. MD2 or SHA1) hKey must be zero.
1548 BOOL WINAPI RSAENH_CPCreateHash(HCRYPTPROV hProv, ALG_ID Algid, HCRYPTKEY hKey, DWORD dwFlags,
1551 CRYPTKEY *pCryptKey;
1552 CRYPTHASH *pCryptHash;
1553 const PROV_ENUMALGS_EX *peaAlgidInfo;
1555 TRACE("(hProv=%08lx, Algid=%08x, hKey=%08lx, dwFlags=%08x, phHash=%p)\n", hProv, Algid, hKey,
1558 peaAlgidInfo = get_algid_info(hProv, Algid);
1559 if (!peaAlgidInfo) return FALSE;
1563 SetLastError(NTE_BAD_FLAGS);
1567 if (Algid == CALG_MAC || Algid == CALG_HMAC || Algid == CALG_SCHANNEL_MASTER_HASH ||
1568 Algid == CALG_TLS1PRF)
1570 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey)) {
1571 SetLastError(NTE_BAD_KEY);
1575 if ((Algid == CALG_MAC) && (GET_ALG_TYPE(pCryptKey->aiAlgid) != ALG_TYPE_BLOCK)) {
1576 SetLastError(NTE_BAD_KEY);
1580 if ((Algid == CALG_SCHANNEL_MASTER_HASH || Algid == CALG_TLS1PRF) &&
1581 (pCryptKey->aiAlgid != CALG_TLS1_MASTER))
1583 SetLastError(NTE_BAD_KEY);
1587 if ((Algid == CALG_TLS1PRF) && (pCryptKey->dwState != RSAENH_KEYSTATE_MASTERKEY)) {
1588 SetLastError(NTE_BAD_KEY_STATE);
1593 *phHash = (HCRYPTHASH)new_object(&handle_table, sizeof(CRYPTHASH), RSAENH_MAGIC_HASH,
1594 destroy_hash, (OBJECTHDR**)&pCryptHash);
1595 if (!pCryptHash) return FALSE;
1597 pCryptHash->aiAlgid = Algid;
1598 pCryptHash->hKey = hKey;
1599 pCryptHash->hProv = hProv;
1600 pCryptHash->dwState = RSAENH_HASHSTATE_HASHING;
1601 pCryptHash->pHMACInfo = (PHMAC_INFO)NULL;
1602 pCryptHash->dwHashSize = peaAlgidInfo->dwDefaultLen >> 3;
1603 init_data_blob(&pCryptHash->tpPRFParams.blobLabel);
1604 init_data_blob(&pCryptHash->tpPRFParams.blobSeed);
1606 if (Algid == CALG_SCHANNEL_MASTER_HASH) {
1607 static const char keyex[] = "key expansion";
1608 BYTE key_expansion[sizeof keyex];
1609 CRYPT_DATA_BLOB blobRandom, blobKeyExpansion = { 13, key_expansion };
1611 memcpy( key_expansion, keyex, sizeof keyex );
1613 if (pCryptKey->dwState != RSAENH_KEYSTATE_MASTERKEY) {
1614 static const char msec[] = "master secret";
1615 BYTE master_secret[sizeof msec];
1616 CRYPT_DATA_BLOB blobLabel = { 13, master_secret };
1617 BYTE abKeyValue[48];
1619 memcpy( master_secret, msec, sizeof msec );
1621 /* See RFC 2246, chapter 8.1 */
1622 if (!concat_data_blobs(&blobRandom,
1623 &pCryptKey->siSChannelInfo.blobClientRandom,
1624 &pCryptKey->siSChannelInfo.blobServerRandom))
1628 tls1_prf(hProv, hKey, &blobLabel, &blobRandom, abKeyValue, 48);
1629 pCryptKey->dwState = RSAENH_KEYSTATE_MASTERKEY;
1630 memcpy(pCryptKey->abKeyValue, abKeyValue, 48);
1631 free_data_blob(&blobRandom);
1634 /* See RFC 2246, chapter 6.3 */
1635 if (!concat_data_blobs(&blobRandom,
1636 &pCryptKey->siSChannelInfo.blobServerRandom,
1637 &pCryptKey->siSChannelInfo.blobClientRandom))
1641 tls1_prf(hProv, hKey, &blobKeyExpansion, &blobRandom, pCryptHash->abHashValue,
1642 RSAENH_MAX_HASH_SIZE);
1643 free_data_blob(&blobRandom);
1646 return init_hash(pCryptHash);
1649 /******************************************************************************
1650 * CPDestroyHash (RSAENH.@)
1652 * Releases the handle to a hash object. The object is destroyed if it's reference
1653 * count reaches zero.
1656 * hProv [I] Handle to the key container to which the hash object belongs.
1657 * hHash [I] Handle to the hash object to be released.
1663 BOOL WINAPI RSAENH_CPDestroyHash(HCRYPTPROV hProv, HCRYPTHASH hHash)
1665 TRACE("(hProv=%08lx, hHash=%08lx)\n", hProv, hHash);
1667 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
1669 SetLastError(NTE_BAD_UID);
1673 if (!release_handle(&handle_table, hHash, RSAENH_MAGIC_HASH))
1675 SetLastError(NTE_BAD_HASH);
1682 /******************************************************************************
1683 * CPDestroyKey (RSAENH.@)
1685 * Releases the handle to a key object. The object is destroyed if it's reference
1686 * count reaches zero.
1689 * hProv [I] Handle to the key container to which the key object belongs.
1690 * hKey [I] Handle to the key object to be released.
1696 BOOL WINAPI RSAENH_CPDestroyKey(HCRYPTPROV hProv, HCRYPTKEY hKey)
1698 TRACE("(hProv=%08lx, hKey=%08lx)\n", hProv, hKey);
1700 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
1702 SetLastError(NTE_BAD_UID);
1706 if (!release_handle(&handle_table, hKey, RSAENH_MAGIC_KEY))
1708 SetLastError(NTE_BAD_KEY);
1715 /******************************************************************************
1716 * CPDuplicateHash (RSAENH.@)
1718 * Clones a hash object including it's current state.
1721 * hUID [I] Handle to the key container the hash belongs to.
1722 * hHash [I] Handle to the hash object to be cloned.
1723 * pdwReserved [I] Reserved. Must be NULL.
1724 * dwFlags [I] No flags are currently defined. Must be 0.
1725 * phHash [O] Handle to the cloned hash object.
1731 BOOL WINAPI RSAENH_CPDuplicateHash(HCRYPTPROV hUID, HCRYPTHASH hHash, DWORD *pdwReserved,
1732 DWORD dwFlags, HCRYPTHASH *phHash)
1734 CRYPTHASH *pSrcHash, *pDestHash;
1736 TRACE("(hUID=%08lx, hHash=%08lx, pdwReserved=%p, dwFlags=%08x, phHash=%p)\n", hUID, hHash,
1737 pdwReserved, dwFlags, phHash);
1739 if (!is_valid_handle(&handle_table, hUID, RSAENH_MAGIC_CONTAINER))
1741 SetLastError(NTE_BAD_UID);
1745 if (!lookup_handle(&handle_table, hHash, RSAENH_MAGIC_HASH, (OBJECTHDR**)&pSrcHash))
1747 SetLastError(NTE_BAD_HASH);
1751 if (!phHash || pdwReserved || dwFlags)
1753 SetLastError(ERROR_INVALID_PARAMETER);
1757 *phHash = (HCRYPTHASH)new_object(&handle_table, sizeof(CRYPTHASH), RSAENH_MAGIC_HASH,
1758 destroy_hash, (OBJECTHDR**)&pDestHash);
1759 if (*phHash != (HCRYPTHASH)INVALID_HANDLE_VALUE)
1761 memcpy(pDestHash, pSrcHash, sizeof(CRYPTHASH));
1762 duplicate_hash_impl(pSrcHash->aiAlgid, &pSrcHash->context, &pDestHash->context);
1763 copy_hmac_info(&pDestHash->pHMACInfo, pSrcHash->pHMACInfo);
1764 copy_data_blob(&pDestHash->tpPRFParams.blobLabel, &pSrcHash->tpPRFParams.blobLabel);
1765 copy_data_blob(&pDestHash->tpPRFParams.blobSeed, &pSrcHash->tpPRFParams.blobSeed);
1768 return *phHash != (HCRYPTHASH)INVALID_HANDLE_VALUE;
1771 /******************************************************************************
1772 * CPDuplicateKey (RSAENH.@)
1774 * Clones a key object including it's current state.
1777 * hUID [I] Handle to the key container the hash belongs to.
1778 * hKey [I] Handle to the key object to be cloned.
1779 * pdwReserved [I] Reserved. Must be NULL.
1780 * dwFlags [I] No flags are currently defined. Must be 0.
1781 * phHash [O] Handle to the cloned key object.
1787 BOOL WINAPI RSAENH_CPDuplicateKey(HCRYPTPROV hUID, HCRYPTKEY hKey, DWORD *pdwReserved,
1788 DWORD dwFlags, HCRYPTKEY *phKey)
1790 CRYPTKEY *pSrcKey, *pDestKey;
1792 TRACE("(hUID=%08lx, hKey=%08lx, pdwReserved=%p, dwFlags=%08x, phKey=%p)\n", hUID, hKey,
1793 pdwReserved, dwFlags, phKey);
1795 if (!is_valid_handle(&handle_table, hUID, RSAENH_MAGIC_CONTAINER))
1797 SetLastError(NTE_BAD_UID);
1801 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pSrcKey))
1803 SetLastError(NTE_BAD_KEY);
1807 if (!phKey || pdwReserved || dwFlags)
1809 SetLastError(ERROR_INVALID_PARAMETER);
1813 *phKey = (HCRYPTKEY)new_object(&handle_table, sizeof(CRYPTKEY), RSAENH_MAGIC_KEY, destroy_key,
1814 (OBJECTHDR**)&pDestKey);
1815 if (*phKey != (HCRYPTKEY)INVALID_HANDLE_VALUE)
1817 memcpy(pDestKey, pSrcKey, sizeof(CRYPTKEY));
1818 copy_data_blob(&pDestKey->siSChannelInfo.blobServerRandom,
1819 &pSrcKey->siSChannelInfo.blobServerRandom);
1820 copy_data_blob(&pDestKey->siSChannelInfo.blobClientRandom,
1821 &pSrcKey->siSChannelInfo.blobClientRandom);
1822 duplicate_key_impl(pSrcKey->aiAlgid, &pSrcKey->context, &pDestKey->context);
1831 /******************************************************************************
1832 * CPEncrypt (RSAENH.@)
1837 * hProv [I] The key container hKey and hHash belong to.
1838 * hKey [I] The key used to encrypt the data.
1839 * hHash [I] An optional hash object for parallel hashing. See notes.
1840 * Final [I] Indicates if this is the last block of data to encrypt.
1841 * dwFlags [I] Currently no flags defined. Must be zero.
1842 * pbData [I/O] Pointer to the data to encrypt. Encrypted data will also be stored there.
1843 * pdwDataLen [I/O] I: Length of data to encrypt, O: Length of encrypted data.
1844 * dwBufLen [I] Size of the buffer at pbData.
1851 * If a hash object handle is provided in hHash, it will be updated with the plaintext.
1852 * This is useful for message signatures.
1854 * This function uses the standard WINAPI protocol for querying data of dynamic length.
1856 BOOL WINAPI RSAENH_CPEncrypt(HCRYPTPROV hProv, HCRYPTKEY hKey, HCRYPTHASH hHash, BOOL Final,
1857 DWORD dwFlags, BYTE *pbData, DWORD *pdwDataLen, DWORD dwBufLen)
1859 CRYPTKEY *pCryptKey;
1860 BYTE *in, out[RSAENH_MAX_BLOCK_SIZE], o[RSAENH_MAX_BLOCK_SIZE];
1861 DWORD dwEncryptedLen, i, j, k;
1863 TRACE("(hProv=%08lx, hKey=%08lx, hHash=%08lx, Final=%d, dwFlags=%08x, pbData=%p, "
1864 "pdwDataLen=%p, dwBufLen=%d)\n", hProv, hKey, hHash, Final, dwFlags, pbData, pdwDataLen,
1867 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
1869 SetLastError(NTE_BAD_UID);
1875 SetLastError(NTE_BAD_FLAGS);
1879 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey))
1881 SetLastError(NTE_BAD_KEY);
1885 if (pCryptKey->dwState == RSAENH_KEYSTATE_IDLE)
1886 pCryptKey->dwState = RSAENH_KEYSTATE_ENCRYPTING;
1888 if (pCryptKey->dwState != RSAENH_KEYSTATE_ENCRYPTING)
1890 SetLastError(NTE_BAD_DATA);
1894 if (is_valid_handle(&handle_table, hHash, RSAENH_MAGIC_HASH)) {
1895 if (!RSAENH_CPHashData(hProv, hHash, pbData, *pdwDataLen, 0)) return FALSE;
1898 if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_BLOCK) {
1899 if (!Final && (*pdwDataLen % pCryptKey->dwBlockLen)) {
1900 SetLastError(NTE_BAD_DATA);
1904 dwEncryptedLen = (*pdwDataLen/pCryptKey->dwBlockLen+(Final?1:0))*pCryptKey->dwBlockLen;
1906 if (pbData == NULL) {
1907 *pdwDataLen = dwEncryptedLen;
1911 for (i=*pdwDataLen; i<dwEncryptedLen && i<dwBufLen; i++) pbData[i] = dwEncryptedLen - *pdwDataLen;
1912 *pdwDataLen = dwEncryptedLen;
1914 if (*pdwDataLen > dwBufLen)
1916 SetLastError(ERROR_MORE_DATA);
1920 for (i=0, in=pbData; i<*pdwDataLen; i+=pCryptKey->dwBlockLen, in+=pCryptKey->dwBlockLen) {
1921 switch (pCryptKey->dwMode) {
1922 case CRYPT_MODE_ECB:
1923 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context, in, out,
1927 case CRYPT_MODE_CBC:
1928 for (j=0; j<pCryptKey->dwBlockLen; j++) in[j] ^= pCryptKey->abChainVector[j];
1929 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context, in, out,
1931 memcpy(pCryptKey->abChainVector, out, pCryptKey->dwBlockLen);
1934 case CRYPT_MODE_CFB:
1935 for (j=0; j<pCryptKey->dwBlockLen; j++) {
1936 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context,
1937 pCryptKey->abChainVector, o, RSAENH_ENCRYPT);
1938 out[j] = in[j] ^ o[0];
1939 for (k=0; k<pCryptKey->dwBlockLen-1; k++)
1940 pCryptKey->abChainVector[k] = pCryptKey->abChainVector[k+1];
1941 pCryptKey->abChainVector[k] = out[j];
1946 SetLastError(NTE_BAD_ALGID);
1949 memcpy(in, out, pCryptKey->dwBlockLen);
1951 } else if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_STREAM) {
1952 if (pbData == NULL) {
1953 *pdwDataLen = dwBufLen;
1956 encrypt_stream_impl(pCryptKey->aiAlgid, &pCryptKey->context, pbData, *pdwDataLen);
1957 } else if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_RSA) {
1958 if (pCryptKey->aiAlgid == CALG_RSA_SIGN) {
1959 SetLastError(NTE_BAD_KEY);
1963 *pdwDataLen = pCryptKey->dwBlockLen;
1966 if (dwBufLen < pCryptKey->dwBlockLen) {
1967 SetLastError(ERROR_MORE_DATA);
1970 if (!pad_data(pbData, *pdwDataLen, pbData, pCryptKey->dwBlockLen, dwFlags)) return FALSE;
1971 encrypt_block_impl(pCryptKey->aiAlgid, PK_PUBLIC, &pCryptKey->context, pbData, pbData, RSAENH_ENCRYPT);
1972 *pdwDataLen = pCryptKey->dwBlockLen;
1975 SetLastError(NTE_BAD_TYPE);
1979 if (Final) setup_key(pCryptKey);
1984 /******************************************************************************
1985 * CPDecrypt (RSAENH.@)
1990 * hProv [I] The key container hKey and hHash belong to.
1991 * hKey [I] The key used to decrypt the data.
1992 * hHash [I] An optional hash object for parallel hashing. See notes.
1993 * Final [I] Indicates if this is the last block of data to decrypt.
1994 * dwFlags [I] Currently no flags defined. Must be zero.
1995 * pbData [I/O] Pointer to the data to decrypt. Plaintext will also be stored there.
1996 * pdwDataLen [I/O] I: Length of ciphertext, O: Length of plaintext.
2003 * If a hash object handle is provided in hHash, it will be updated with the plaintext.
2004 * This is useful for message signatures.
2006 * This function uses the standard WINAPI protocol for querying data of dynamic length.
2008 BOOL WINAPI RSAENH_CPDecrypt(HCRYPTPROV hProv, HCRYPTKEY hKey, HCRYPTHASH hHash, BOOL Final,
2009 DWORD dwFlags, BYTE *pbData, DWORD *pdwDataLen)
2011 CRYPTKEY *pCryptKey;
2012 BYTE *in, out[RSAENH_MAX_BLOCK_SIZE], o[RSAENH_MAX_BLOCK_SIZE];
2016 TRACE("(hProv=%08lx, hKey=%08lx, hHash=%08lx, Final=%d, dwFlags=%08x, pbData=%p, "
2017 "pdwDataLen=%p)\n", hProv, hKey, hHash, Final, dwFlags, pbData, pdwDataLen);
2019 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2021 SetLastError(NTE_BAD_UID);
2027 SetLastError(NTE_BAD_FLAGS);
2031 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey))
2033 SetLastError(NTE_BAD_KEY);
2037 if (pCryptKey->dwState == RSAENH_KEYSTATE_IDLE)
2038 pCryptKey->dwState = RSAENH_KEYSTATE_DECRYPTING;
2040 if (pCryptKey->dwState != RSAENH_KEYSTATE_DECRYPTING)
2042 SetLastError(NTE_BAD_DATA);
2048 if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_BLOCK) {
2049 for (i=0, in=pbData; i<*pdwDataLen; i+=pCryptKey->dwBlockLen, in+=pCryptKey->dwBlockLen) {
2050 switch (pCryptKey->dwMode) {
2051 case CRYPT_MODE_ECB:
2052 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context, in, out,
2056 case CRYPT_MODE_CBC:
2057 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context, in, out,
2059 for (j=0; j<pCryptKey->dwBlockLen; j++) out[j] ^= pCryptKey->abChainVector[j];
2060 memcpy(pCryptKey->abChainVector, in, pCryptKey->dwBlockLen);
2063 case CRYPT_MODE_CFB:
2064 for (j=0; j<pCryptKey->dwBlockLen; j++) {
2065 encrypt_block_impl(pCryptKey->aiAlgid, 0, &pCryptKey->context,
2066 pCryptKey->abChainVector, o, RSAENH_ENCRYPT);
2067 out[j] = in[j] ^ o[0];
2068 for (k=0; k<pCryptKey->dwBlockLen-1; k++)
2069 pCryptKey->abChainVector[k] = pCryptKey->abChainVector[k+1];
2070 pCryptKey->abChainVector[k] = in[j];
2075 SetLastError(NTE_BAD_ALGID);
2078 memcpy(in, out, pCryptKey->dwBlockLen);
2080 if (Final) *pdwDataLen -= pbData[*pdwDataLen-1];
2082 } else if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_STREAM) {
2083 encrypt_stream_impl(pCryptKey->aiAlgid, &pCryptKey->context, pbData, *pdwDataLen);
2084 } else if (GET_ALG_TYPE(pCryptKey->aiAlgid) == ALG_TYPE_RSA) {
2085 if (pCryptKey->aiAlgid == CALG_RSA_SIGN) {
2086 SetLastError(NTE_BAD_KEY);
2089 encrypt_block_impl(pCryptKey->aiAlgid, PK_PRIVATE, &pCryptKey->context, pbData, pbData, RSAENH_DECRYPT);
2090 if (!unpad_data(pbData, pCryptKey->dwBlockLen, pbData, pdwDataLen, dwFlags)) return FALSE;
2093 SetLastError(NTE_BAD_TYPE);
2097 if (Final) setup_key(pCryptKey);
2099 if (is_valid_handle(&handle_table, hHash, RSAENH_MAGIC_HASH)) {
2100 if (*pdwDataLen>dwMax ||
2101 !RSAENH_CPHashData(hProv, hHash, pbData, *pdwDataLen, 0)) return FALSE;
2107 /******************************************************************************
2108 * CPExportKey (RSAENH.@)
2110 * Export a key into a binary large object (BLOB).
2113 * hProv [I] Key container from which a key is to be exported.
2114 * hKey [I] Key to be exported.
2115 * hPubKey [I] Key used to encrypt sensitive BLOB data.
2116 * dwBlobType [I] SIMPLEBLOB, PUBLICKEYBLOB or PRIVATEKEYBLOB.
2117 * dwFlags [I] Currently none defined.
2118 * pbData [O] Pointer to a buffer where the BLOB will be written to.
2119 * pdwDataLen [I/O] I: Size of buffer at pbData, O: Size of BLOB
2125 BOOL WINAPI RSAENH_CPExportKey(HCRYPTPROV hProv, HCRYPTKEY hKey, HCRYPTKEY hPubKey,
2126 DWORD dwBlobType, DWORD dwFlags, BYTE *pbData, DWORD *pdwDataLen)
2128 CRYPTKEY *pCryptKey, *pPubKey;
2129 BLOBHEADER *pBlobHeader = (BLOBHEADER*)pbData;
2130 RSAPUBKEY *pRSAPubKey = (RSAPUBKEY*)(pBlobHeader+1);
2131 ALG_ID *pAlgid = (ALG_ID*)(pBlobHeader+1);
2134 TRACE("(hProv=%08lx, hKey=%08lx, hPubKey=%08lx, dwBlobType=%08x, dwFlags=%08x, pbData=%p,"
2135 "pdwDataLen=%p)\n", hProv, hKey, hPubKey, dwBlobType, dwFlags, pbData, pdwDataLen);
2137 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2139 SetLastError(NTE_BAD_UID);
2143 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey))
2145 SetLastError(NTE_BAD_KEY);
2149 if (dwFlags & CRYPT_SSL2_FALLBACK) {
2150 if (pCryptKey->aiAlgid != CALG_SSL2_MASTER) {
2151 SetLastError(NTE_BAD_KEY);
2156 switch ((BYTE)dwBlobType)
2159 if (!lookup_handle(&handle_table, hPubKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pPubKey)){
2160 SetLastError(NTE_BAD_PUBLIC_KEY); /* FIXME: error_code? */
2164 if (!(GET_ALG_CLASS(pCryptKey->aiAlgid)&(ALG_CLASS_DATA_ENCRYPT|ALG_CLASS_MSG_ENCRYPT))) {
2165 SetLastError(NTE_BAD_KEY); /* FIXME: error code? */
2169 dwDataLen = sizeof(BLOBHEADER) + sizeof(ALG_ID) + pPubKey->dwBlockLen;
2171 if (*pdwDataLen < dwDataLen) {
2172 SetLastError(ERROR_MORE_DATA);
2173 *pdwDataLen = dwDataLen;
2177 pBlobHeader->bType = SIMPLEBLOB;
2178 pBlobHeader->bVersion = CUR_BLOB_VERSION;
2179 pBlobHeader->reserved = 0;
2180 pBlobHeader->aiKeyAlg = pCryptKey->aiAlgid;
2182 *pAlgid = pPubKey->aiAlgid;
2184 if (!pad_data(pCryptKey->abKeyValue, pCryptKey->dwKeyLen, (BYTE*)(pAlgid+1),
2185 pPubKey->dwBlockLen, dwFlags))
2190 encrypt_block_impl(pPubKey->aiAlgid, PK_PUBLIC, &pPubKey->context, (BYTE*)(pAlgid+1),
2191 (BYTE*)(pAlgid+1), RSAENH_ENCRYPT);
2193 *pdwDataLen = dwDataLen;
2197 if (is_valid_handle(&handle_table, hPubKey, RSAENH_MAGIC_KEY)) {
2198 SetLastError(NTE_BAD_KEY); /* FIXME: error code? */
2202 if ((pCryptKey->aiAlgid != CALG_RSA_KEYX) && (pCryptKey->aiAlgid != CALG_RSA_SIGN)) {
2203 SetLastError(NTE_BAD_KEY);
2207 dwDataLen = sizeof(BLOBHEADER) + sizeof(RSAPUBKEY) + pCryptKey->dwKeyLen;
2209 if (*pdwDataLen < dwDataLen) {
2210 SetLastError(ERROR_MORE_DATA);
2211 *pdwDataLen = dwDataLen;
2215 pBlobHeader->bType = PUBLICKEYBLOB;
2216 pBlobHeader->bVersion = CUR_BLOB_VERSION;
2217 pBlobHeader->reserved = 0;
2218 pBlobHeader->aiKeyAlg = pCryptKey->aiAlgid;
2220 pRSAPubKey->magic = RSAENH_MAGIC_RSA1;
2221 pRSAPubKey->bitlen = pCryptKey->dwKeyLen << 3;
2223 export_public_key_impl((BYTE*)(pRSAPubKey+1), &pCryptKey->context,
2224 pCryptKey->dwKeyLen, &pRSAPubKey->pubexp);
2226 *pdwDataLen = dwDataLen;
2229 case PRIVATEKEYBLOB:
2230 if ((pCryptKey->aiAlgid != CALG_RSA_KEYX) && (pCryptKey->aiAlgid != CALG_RSA_SIGN)) {
2231 SetLastError(NTE_BAD_KEY);
2235 dwDataLen = sizeof(BLOBHEADER) + sizeof(RSAPUBKEY) +
2236 2 * pCryptKey->dwKeyLen + 5 * ((pCryptKey->dwKeyLen + 1) >> 1);
2238 if (*pdwDataLen < dwDataLen) {
2239 SetLastError(ERROR_MORE_DATA);
2240 *pdwDataLen = dwDataLen;
2244 pBlobHeader->bType = PRIVATEKEYBLOB;
2245 pBlobHeader->bVersion = CUR_BLOB_VERSION;
2246 pBlobHeader->reserved = 0;
2247 pBlobHeader->aiKeyAlg = pCryptKey->aiAlgid;
2249 pRSAPubKey->magic = RSAENH_MAGIC_RSA2;
2250 pRSAPubKey->bitlen = pCryptKey->dwKeyLen << 3;
2252 export_private_key_impl((BYTE*)(pRSAPubKey+1), &pCryptKey->context,
2253 pCryptKey->dwKeyLen, &pRSAPubKey->pubexp);
2255 *pdwDataLen = dwDataLen;
2259 SetLastError(NTE_BAD_TYPE); /* FIXME: error code? */
2264 /******************************************************************************
2265 * CPImportKey (RSAENH.@)
2267 * Import a BLOB'ed key into a key container.
2270 * hProv [I] Key container into which the key is to be imported.
2271 * pbData [I] Pointer to a buffer which holds the BLOB.
2272 * dwDataLen [I] Length of data in buffer at pbData.
2273 * hPubKey [I] Key used to decrypt sensitive BLOB data.
2274 * dwFlags [I] Currently none defined.
2275 * phKey [O] Handle to the imported key.
2281 BOOL WINAPI RSAENH_CPImportKey(HCRYPTPROV hProv, CONST BYTE *pbData, DWORD dwDataLen,
2282 HCRYPTKEY hPubKey, DWORD dwFlags, HCRYPTKEY *phKey)
2284 KEYCONTAINER *pKeyContainer;
2285 CRYPTKEY *pCryptKey, *pPubKey;
2286 CONST BLOBHEADER *pBlobHeader = (CONST BLOBHEADER*)pbData;
2287 CONST RSAPUBKEY *pRSAPubKey = (CONST RSAPUBKEY*)(pBlobHeader+1);
2288 CONST ALG_ID *pAlgid = (CONST ALG_ID*)(pBlobHeader+1);
2289 CONST BYTE *pbKeyStream = (CONST BYTE*)(pAlgid + 1);
2295 TRACE("(hProv=%08lx, pbData=%p, dwDataLen=%d, hPubKey=%08lx, dwFlags=%08x, phKey=%p)\n",
2296 hProv, pbData, dwDataLen, hPubKey, dwFlags, phKey);
2298 if (!lookup_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER,
2299 (OBJECTHDR**)&pKeyContainer))
2301 SetLastError(NTE_BAD_UID);
2305 if (dwDataLen < sizeof(BLOBHEADER) ||
2306 pBlobHeader->bVersion != CUR_BLOB_VERSION ||
2307 pBlobHeader->reserved != 0)
2309 SetLastError(NTE_BAD_DATA);
2313 switch (pBlobHeader->bType)
2315 case PRIVATEKEYBLOB:
2316 if ((dwDataLen < sizeof(BLOBHEADER) + sizeof(RSAPUBKEY)) ||
2317 (pRSAPubKey->magic != RSAENH_MAGIC_RSA2) ||
2318 (dwDataLen < sizeof(BLOBHEADER) + sizeof(RSAPUBKEY) +
2319 (2 * pRSAPubKey->bitlen >> 3) + (5 * ((pRSAPubKey->bitlen+8)>>4))))
2321 SetLastError(NTE_BAD_DATA);
2325 *phKey = new_key(hProv, pBlobHeader->aiKeyAlg, MAKELONG(0,pRSAPubKey->bitlen), &pCryptKey);
2326 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE) return FALSE;
2327 setup_key(pCryptKey);
2328 ret = import_private_key_impl((CONST BYTE*)(pRSAPubKey+1), &pCryptKey->context,
2329 pRSAPubKey->bitlen/8, pRSAPubKey->pubexp);
2331 switch (pBlobHeader->aiKeyAlg)
2335 TRACE("installing signing key\n");
2336 RSAENH_CPDestroyKey(hProv, pKeyContainer->hSignatureKeyPair);
2337 copy_handle(&handle_table, *phKey, RSAENH_MAGIC_KEY,
2338 &pKeyContainer->hSignatureKeyPair);
2340 case AT_KEYEXCHANGE:
2342 TRACE("installing key exchange key\n");
2343 RSAENH_CPDestroyKey(hProv, pKeyContainer->hKeyExchangeKeyPair);
2344 copy_handle(&handle_table, *phKey, RSAENH_MAGIC_KEY,
2345 &pKeyContainer->hKeyExchangeKeyPair);
2352 if ((dwDataLen < sizeof(BLOBHEADER) + sizeof(RSAPUBKEY)) ||
2353 (pRSAPubKey->magic != RSAENH_MAGIC_RSA1) ||
2354 (dwDataLen < sizeof(BLOBHEADER) + sizeof(RSAPUBKEY) + (pRSAPubKey->bitlen >> 3)))
2356 SetLastError(NTE_BAD_DATA);
2360 /* Since this is a public key blob, only the public key is
2361 * available, so only signature verification is possible.
2363 algID = pBlobHeader->aiKeyAlg;
2364 *phKey = new_key(hProv, algID, MAKELONG(0,pRSAPubKey->bitlen), &pCryptKey);
2365 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE) return FALSE;
2366 setup_key(pCryptKey);
2367 ret = import_public_key_impl((CONST BYTE*)(pRSAPubKey+1), &pCryptKey->context,
2368 pRSAPubKey->bitlen >> 3, pRSAPubKey->pubexp);
2370 switch (pBlobHeader->aiKeyAlg)
2372 case AT_KEYEXCHANGE:
2374 TRACE("installing public key\n");
2375 RSAENH_CPDestroyKey(hProv, pKeyContainer->hKeyExchangeKeyPair);
2376 copy_handle(&handle_table, *phKey, RSAENH_MAGIC_KEY,
2377 &pKeyContainer->hKeyExchangeKeyPair);
2384 if (!lookup_handle(&handle_table, hPubKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pPubKey) ||
2385 pPubKey->aiAlgid != CALG_RSA_KEYX)
2387 SetLastError(NTE_BAD_PUBLIC_KEY); /* FIXME: error code? */
2391 if (dwDataLen < sizeof(BLOBHEADER)+sizeof(ALG_ID)+pPubKey->dwBlockLen)
2393 SetLastError(NTE_BAD_DATA); /* FIXME: error code */
2397 pbDecrypted = HeapAlloc(GetProcessHeap(), 0, pPubKey->dwBlockLen);
2398 if (!pbDecrypted) return FALSE;
2399 encrypt_block_impl(pPubKey->aiAlgid, PK_PRIVATE, &pPubKey->context, pbKeyStream, pbDecrypted,
2402 dwKeyLen = RSAENH_MAX_KEY_SIZE;
2403 if (!unpad_data(pbDecrypted, pPubKey->dwBlockLen, pbDecrypted, &dwKeyLen, dwFlags)) {
2404 HeapFree(GetProcessHeap(), 0, pbDecrypted);
2408 *phKey = new_key(hProv, pBlobHeader->aiKeyAlg, dwKeyLen<<19, &pCryptKey);
2409 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE)
2411 HeapFree(GetProcessHeap(), 0, pbDecrypted);
2414 memcpy(pCryptKey->abKeyValue, pbDecrypted, dwKeyLen);
2415 HeapFree(GetProcessHeap(), 0, pbDecrypted);
2416 setup_key(pCryptKey);
2420 SetLastError(NTE_BAD_TYPE); /* FIXME: error code? */
2425 /******************************************************************************
2426 * CPGenKey (RSAENH.@)
2428 * Generate a key in the key container
2431 * hProv [I] Key container for which a key is to be generated.
2432 * Algid [I] Crypto algorithm identifier for the key to be generated.
2433 * dwFlags [I] Upper 16 bits: Binary length of key. Lower 16 bits: Flags. See Notes
2434 * phKey [O] Handle to the generated key.
2441 * Flags currently not considered.
2444 * Private key-exchange- and signature-keys can be generated with Algid AT_KEYEXCHANGE
2445 * and AT_SIGNATURE values.
2447 BOOL WINAPI RSAENH_CPGenKey(HCRYPTPROV hProv, ALG_ID Algid, DWORD dwFlags, HCRYPTKEY *phKey)
2449 KEYCONTAINER *pKeyContainer;
2450 CRYPTKEY *pCryptKey;
2452 TRACE("(hProv=%08lx, aiAlgid=%d, dwFlags=%08x, phKey=%p)\n", hProv, Algid, dwFlags, phKey);
2454 if (!lookup_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER,
2455 (OBJECTHDR**)&pKeyContainer))
2457 /* MSDN: hProv not containing valid context handle */
2458 SetLastError(NTE_BAD_UID);
2466 *phKey = new_key(hProv, CALG_RSA_SIGN, dwFlags, &pCryptKey);
2468 new_key_impl(pCryptKey->aiAlgid, &pCryptKey->context, pCryptKey->dwKeyLen);
2469 setup_key(pCryptKey);
2470 if (Algid == AT_SIGNATURE) {
2471 RSAENH_CPDestroyKey(hProv, pKeyContainer->hSignatureKeyPair);
2472 copy_handle(&handle_table, *phKey, RSAENH_MAGIC_KEY,
2473 &pKeyContainer->hSignatureKeyPair);
2478 case AT_KEYEXCHANGE:
2480 *phKey = new_key(hProv, CALG_RSA_KEYX, dwFlags, &pCryptKey);
2482 new_key_impl(pCryptKey->aiAlgid, &pCryptKey->context, pCryptKey->dwKeyLen);
2483 setup_key(pCryptKey);
2484 if (Algid == AT_KEYEXCHANGE) {
2485 RSAENH_CPDestroyKey(hProv, pKeyContainer->hKeyExchangeKeyPair);
2486 copy_handle(&handle_table, *phKey, RSAENH_MAGIC_KEY,
2487 &pKeyContainer->hKeyExchangeKeyPair);
2497 case CALG_PCT1_MASTER:
2498 case CALG_SSL2_MASTER:
2499 case CALG_SSL3_MASTER:
2500 case CALG_TLS1_MASTER:
2501 *phKey = new_key(hProv, Algid, dwFlags, &pCryptKey);
2503 gen_rand_impl(pCryptKey->abKeyValue, RSAENH_MAX_KEY_SIZE);
2505 case CALG_SSL3_MASTER:
2506 pCryptKey->abKeyValue[0] = RSAENH_SSL3_VERSION_MAJOR;
2507 pCryptKey->abKeyValue[1] = RSAENH_SSL3_VERSION_MINOR;
2510 case CALG_TLS1_MASTER:
2511 pCryptKey->abKeyValue[0] = RSAENH_TLS1_VERSION_MAJOR;
2512 pCryptKey->abKeyValue[1] = RSAENH_TLS1_VERSION_MINOR;
2515 setup_key(pCryptKey);
2520 /* MSDN: Algorithm not supported specified by Algid */
2521 SetLastError(NTE_BAD_ALGID);
2525 return *phKey != (HCRYPTKEY)INVALID_HANDLE_VALUE;
2528 /******************************************************************************
2529 * CPGenRandom (RSAENH.@)
2531 * Generate a random byte stream.
2534 * hProv [I] Key container that is used to generate random bytes.
2535 * dwLen [I] Specifies the number of requested random data bytes.
2536 * pbBuffer [O] Random bytes will be stored here.
2542 BOOL WINAPI RSAENH_CPGenRandom(HCRYPTPROV hProv, DWORD dwLen, BYTE *pbBuffer)
2544 TRACE("(hProv=%08lx, dwLen=%d, pbBuffer=%p)\n", hProv, dwLen, pbBuffer);
2546 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2548 /* MSDN: hProv not containing valid context handle */
2549 SetLastError(NTE_BAD_UID);
2553 return gen_rand_impl(pbBuffer, dwLen);
2556 /******************************************************************************
2557 * CPGetHashParam (RSAENH.@)
2559 * Query parameters of an hash object.
2562 * hProv [I] The kea container, which the hash belongs to.
2563 * hHash [I] The hash object that is to be queried.
2564 * dwParam [I] Specifies the parameter that is to be queried.
2565 * pbData [I] Pointer to the buffer where the parameter value will be stored.
2566 * pdwDataLen [I/O] I: Buffer length at pbData, O: Length of the parameter value.
2567 * dwFlags [I] None currently defined.
2574 * Valid dwParams are: HP_ALGID, HP_HASHSIZE, HP_HASHVALUE. The hash will be
2575 * finalized if HP_HASHVALUE is queried.
2577 BOOL WINAPI RSAENH_CPGetHashParam(HCRYPTPROV hProv, HCRYPTHASH hHash, DWORD dwParam, BYTE *pbData,
2578 DWORD *pdwDataLen, DWORD dwFlags)
2580 CRYPTHASH *pCryptHash;
2582 TRACE("(hProv=%08lx, hHash=%08lx, dwParam=%08x, pbData=%p, pdwDataLen=%p, dwFlags=%08x)\n",
2583 hProv, hHash, dwParam, pbData, pdwDataLen, dwFlags);
2585 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2587 SetLastError(NTE_BAD_UID);
2593 SetLastError(NTE_BAD_FLAGS);
2597 if (!lookup_handle(&handle_table, hHash, RSAENH_MAGIC_HASH,
2598 (OBJECTHDR**)&pCryptHash))
2600 SetLastError(NTE_BAD_HASH);
2606 SetLastError(ERROR_INVALID_PARAMETER);
2613 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptHash->aiAlgid,
2617 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptHash->dwHashSize,
2621 if (pCryptHash->aiAlgid == CALG_TLS1PRF) {
2622 return tls1_prf(hProv, pCryptHash->hKey, &pCryptHash->tpPRFParams.blobLabel,
2623 &pCryptHash->tpPRFParams.blobSeed, pbData, *pdwDataLen);
2626 if ( pbData == NULL ) {
2627 *pdwDataLen = pCryptHash->dwHashSize;
2631 if (pbData && (pCryptHash->dwState != RSAENH_HASHSTATE_FINISHED))
2633 finalize_hash(pCryptHash);
2634 pCryptHash->dwState = RSAENH_HASHSTATE_FINISHED;
2637 return copy_param(pbData, pdwDataLen, (CONST BYTE*)pCryptHash->abHashValue,
2638 pCryptHash->dwHashSize);
2641 SetLastError(NTE_BAD_TYPE);
2646 /******************************************************************************
2647 * CPSetKeyParam (RSAENH.@)
2649 * Set a parameter of a key object
2652 * hProv [I] The key container to which the key belongs.
2653 * hKey [I] The key for which a parameter is to be set.
2654 * dwParam [I] Parameter type. See Notes.
2655 * pbData [I] Pointer to the parameter value.
2656 * dwFlags [I] Currently none defined.
2663 * Defined dwParam types are:
2664 * - KP_MODE: Values MODE_CBC, MODE_ECB, MODE_CFB.
2665 * - KP_MODE_BITS: Shift width for cipher feedback mode. (Currently ignored by MS CSP's)
2666 * - KP_PERMISSIONS: Or'ed combination of CRYPT_ENCRYPT, CRYPT_DECRYPT,
2667 * CRYPT_EXPORT, CRYPT_READ, CRYPT_WRITE, CRYPT_MAC
2668 * - KP_IV: Initialization vector
2670 BOOL WINAPI RSAENH_CPSetKeyParam(HCRYPTPROV hProv, HCRYPTKEY hKey, DWORD dwParam, BYTE *pbData,
2673 CRYPTKEY *pCryptKey;
2675 TRACE("(hProv=%08lx, hKey=%08lx, dwParam=%08x, pbData=%p, dwFlags=%08x)\n", hProv, hKey,
2676 dwParam, pbData, dwFlags);
2678 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2680 SetLastError(NTE_BAD_UID);
2685 SetLastError(NTE_BAD_FLAGS);
2689 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey))
2691 SetLastError(NTE_BAD_KEY);
2697 pCryptKey->dwMode = *(DWORD*)pbData;
2701 pCryptKey->dwModeBits = *(DWORD*)pbData;
2704 case KP_PERMISSIONS:
2705 pCryptKey->dwPermissions = *(DWORD*)pbData;
2709 memcpy(pCryptKey->abInitVector, pbData, pCryptKey->dwBlockLen);
2712 case KP_SCHANNEL_ALG:
2713 switch (((PSCHANNEL_ALG)pbData)->dwUse) {
2714 case SCHANNEL_ENC_KEY:
2715 memcpy(&pCryptKey->siSChannelInfo.saEncAlg, pbData, sizeof(SCHANNEL_ALG));
2718 case SCHANNEL_MAC_KEY:
2719 memcpy(&pCryptKey->siSChannelInfo.saMACAlg, pbData, sizeof(SCHANNEL_ALG));
2723 SetLastError(NTE_FAIL); /* FIXME: error code */
2728 case KP_CLIENT_RANDOM:
2729 return copy_data_blob(&pCryptKey->siSChannelInfo.blobClientRandom, (PCRYPT_DATA_BLOB)pbData);
2731 case KP_SERVER_RANDOM:
2732 return copy_data_blob(&pCryptKey->siSChannelInfo.blobServerRandom, (PCRYPT_DATA_BLOB)pbData);
2735 SetLastError(NTE_BAD_TYPE);
2740 /******************************************************************************
2741 * CPGetKeyParam (RSAENH.@)
2743 * Query a key parameter.
2746 * hProv [I] The key container, which the key belongs to.
2747 * hHash [I] The key object that is to be queried.
2748 * dwParam [I] Specifies the parameter that is to be queried.
2749 * pbData [I] Pointer to the buffer where the parameter value will be stored.
2750 * pdwDataLen [I/O] I: Buffer length at pbData, O: Length of the parameter value.
2751 * dwFlags [I] None currently defined.
2758 * Defined dwParam types are:
2759 * - KP_MODE: Values MODE_CBC, MODE_ECB, MODE_CFB.
2760 * - KP_MODE_BITS: Shift width for cipher feedback mode.
2761 * (Currently ignored by MS CSP's - always eight)
2762 * - KP_PERMISSIONS: Or'ed combination of CRYPT_ENCRYPT, CRYPT_DECRYPT,
2763 * CRYPT_EXPORT, CRYPT_READ, CRYPT_WRITE, CRYPT_MAC
2764 * - KP_IV: Initialization vector.
2765 * - KP_KEYLEN: Bitwidth of the key.
2766 * - KP_BLOCKLEN: Size of a block cipher block.
2767 * - KP_SALT: Salt value.
2769 BOOL WINAPI RSAENH_CPGetKeyParam(HCRYPTPROV hProv, HCRYPTKEY hKey, DWORD dwParam, BYTE *pbData,
2770 DWORD *pdwDataLen, DWORD dwFlags)
2772 CRYPTKEY *pCryptKey;
2775 TRACE("(hProv=%08lx, hKey=%08lx, dwParam=%08x, pbData=%p, pdwDataLen=%p dwFlags=%08x)\n",
2776 hProv, hKey, dwParam, pbData, pdwDataLen, dwFlags);
2778 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
2780 SetLastError(NTE_BAD_UID);
2785 SetLastError(NTE_BAD_FLAGS);
2789 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pCryptKey))
2791 SetLastError(NTE_BAD_KEY);
2798 return copy_param(pbData, pdwDataLen, (CONST BYTE*)pCryptKey->abInitVector,
2799 pCryptKey->dwBlockLen);
2802 return copy_param(pbData, pdwDataLen,
2803 (CONST BYTE*)&pCryptKey->abKeyValue[pCryptKey->dwKeyLen], pCryptKey->dwSaltLen);
2806 dwBitLen = pCryptKey->dwKeyLen << 3;
2807 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwBitLen, sizeof(DWORD));
2810 dwBitLen = pCryptKey->dwBlockLen << 3;
2811 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwBitLen, sizeof(DWORD));
2814 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptKey->dwMode, sizeof(DWORD));
2817 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptKey->dwModeBits,
2820 case KP_PERMISSIONS:
2821 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptKey->dwPermissions,
2825 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&pCryptKey->aiAlgid, sizeof(DWORD));
2828 SetLastError(NTE_BAD_TYPE);
2833 /******************************************************************************
2834 * CPGetProvParam (RSAENH.@)
2836 * Query a CSP parameter.
2839 * hProv [I] The key container that is to be queried.
2840 * dwParam [I] Specifies the parameter that is to be queried.
2841 * pbData [I] Pointer to the buffer where the parameter value will be stored.
2842 * pdwDataLen [I/O] I: Buffer length at pbData, O: Length of the parameter value.
2843 * dwFlags [I] CRYPT_FIRST: Start enumeration (for PP_ENUMALGS{_EX}).
2849 * Defined dwParam types:
2850 * - PP_CONTAINER: Name of the key container.
2851 * - PP_NAME: Name of the cryptographic service provider.
2852 * - PP_SIG_KEYSIZE_INC: RSA signature keywidth granularity in bits.
2853 * - PP_KEYX_KEYSIZE_INC: RSA key-exchange keywidth granularity in bits.
2854 * - PP_ENUMALGS{_EX}: Query provider capabilities.
2856 BOOL WINAPI RSAENH_CPGetProvParam(HCRYPTPROV hProv, DWORD dwParam, BYTE *pbData,
2857 DWORD *pdwDataLen, DWORD dwFlags)
2859 KEYCONTAINER *pKeyContainer;
2860 PROV_ENUMALGS provEnumalgs;
2862 CHAR szRSABase[MAX_PATH];
2863 HKEY hKey, hRootKey;
2865 /* This is for dwParam 41, which does not seem to be documented
2866 * on MSDN. IE6 SP1 asks for it in the 'About' dialog, however.
2867 * Returning this BLOB seems to satisfy IE. The marked 0x00 seem
2868 * to be 'don't care's. If you know anything more specific about
2869 * provider parameter 41, please report to wine-devel@winehq.org */
2870 static CONST BYTE abWTF[96] = {
2871 0xb0, 0x25, 0x63, 0x86, 0x9c, 0xab, 0xb6, 0x37,
2872 0xe8, 0x82, /**/0x00,/**/ 0x72, 0x06, 0xb2, /**/0x00,/**/ 0x3b,
2873 0x60, 0x35, /**/0x00,/**/ 0x3b, 0x88, 0xce, /**/0x00,/**/ 0x82,
2874 0xbc, 0x7a, /**/0x00,/**/ 0xb7, 0x4f, 0x7e, /**/0x00,/**/ 0xde,
2875 0x92, 0xf1, /**/0x00,/**/ 0x83, 0xea, 0x5e, /**/0x00,/**/ 0xc8,
2876 0x12, 0x1e, 0xd4, 0x06, 0xf7, 0x66, /**/0x00,/**/ 0x01,
2877 0x29, 0xa4, /**/0x00,/**/ 0xf8, 0x24, 0x0c, /**/0x00,/**/ 0x33,
2878 0x06, 0x80, /**/0x00,/**/ 0x02, 0x46, 0x0b, /**/0x00,/**/ 0x6d,
2879 0x5b, 0xca, /**/0x00,/**/ 0x9a, 0x10, 0xf0, /**/0x00,/**/ 0x05,
2880 0x19, 0xd0, /**/0x00,/**/ 0x2c, 0xf6, 0x27, /**/0x00,/**/ 0xaa,
2881 0x7c, 0x6f, /**/0x00,/**/ 0xb9, 0xd8, 0x72, /**/0x00,/**/ 0x03,
2882 0xf3, 0x81, /**/0x00,/**/ 0xfa, 0xe8, 0x26, /**/0x00,/**/ 0xca
2885 TRACE("(hProv=%08lx, dwParam=%08x, pbData=%p, pdwDataLen=%p, dwFlags=%08x)\n",
2886 hProv, dwParam, pbData, pdwDataLen, dwFlags);
2889 SetLastError(ERROR_INVALID_PARAMETER);
2893 if (!lookup_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER,
2894 (OBJECTHDR**)&pKeyContainer))
2896 /* MSDN: hProv not containing valid context handle */
2897 SetLastError(NTE_BAD_UID);
2904 case PP_UNIQUE_CONTAINER:/* MSDN says we can return the same value as PP_CONTAINER */
2905 return copy_param(pbData, pdwDataLen, (CONST BYTE*)pKeyContainer->szName,
2906 strlen(pKeyContainer->szName)+1);
2909 return copy_param(pbData, pdwDataLen, (CONST BYTE*)pKeyContainer->szProvName,
2910 strlen(pKeyContainer->szProvName)+1);
2913 dwTemp = PROV_RSA_FULL;
2914 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2917 dwTemp = AT_SIGNATURE | AT_KEYEXCHANGE;
2918 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2920 case PP_KEYSET_TYPE:
2921 dwTemp = pKeyContainer->dwFlags & CRYPT_MACHINE_KEYSET;
2922 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2925 dwTemp = CRYPT_SEC_DESCR;
2926 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2928 case PP_SIG_KEYSIZE_INC:
2929 case PP_KEYX_KEYSIZE_INC:
2931 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2934 dwTemp = CRYPT_IMPL_SOFTWARE;
2935 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2938 dwTemp = 0x00000200;
2939 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&dwTemp, sizeof(dwTemp));
2941 case PP_ENUMCONTAINERS:
2942 if ((dwFlags & CRYPT_FIRST) == CRYPT_FIRST) pKeyContainer->dwEnumContainersCtr = 0;
2945 *pdwDataLen = (DWORD)MAX_PATH + 1;
2949 sprintf(szRSABase, RSAENH_REGKEY, "");
2951 if (dwFlags & CRYPT_MACHINE_KEYSET) {
2952 hRootKey = HKEY_LOCAL_MACHINE;
2954 hRootKey = HKEY_CURRENT_USER;
2957 if (RegOpenKeyExA(hRootKey, szRSABase, 0, KEY_READ, &hKey) != ERROR_SUCCESS)
2959 SetLastError(ERROR_NO_MORE_ITEMS);
2963 dwTemp = *pdwDataLen;
2964 switch (RegEnumKeyExA(hKey, pKeyContainer->dwEnumContainersCtr, (LPSTR)pbData, &dwTemp,
2965 NULL, NULL, NULL, NULL))
2967 case ERROR_MORE_DATA:
2968 *pdwDataLen = (DWORD)MAX_PATH + 1;
2971 pKeyContainer->dwEnumContainersCtr++;
2975 case ERROR_NO_MORE_ITEMS:
2977 SetLastError(ERROR_NO_MORE_ITEMS);
2983 case PP_ENUMALGS_EX:
2984 if (((pKeyContainer->dwEnumAlgsCtr >= RSAENH_MAX_ENUMALGS-1) ||
2985 (!aProvEnumAlgsEx[pKeyContainer->dwPersonality]
2986 [pKeyContainer->dwEnumAlgsCtr+1].aiAlgid)) &&
2987 ((dwFlags & CRYPT_FIRST) != CRYPT_FIRST))
2989 SetLastError(ERROR_NO_MORE_ITEMS);
2993 if (dwParam == PP_ENUMALGS) {
2994 if (pbData && (*pdwDataLen >= sizeof(PROV_ENUMALGS)))
2995 pKeyContainer->dwEnumAlgsCtr = ((dwFlags & CRYPT_FIRST) == CRYPT_FIRST) ?
2996 0 : pKeyContainer->dwEnumAlgsCtr+1;
2998 provEnumalgs.aiAlgid = aProvEnumAlgsEx
2999 [pKeyContainer->dwPersonality][pKeyContainer->dwEnumAlgsCtr].aiAlgid;
3000 provEnumalgs.dwBitLen = aProvEnumAlgsEx
3001 [pKeyContainer->dwPersonality][pKeyContainer->dwEnumAlgsCtr].dwDefaultLen;
3002 provEnumalgs.dwNameLen = aProvEnumAlgsEx
3003 [pKeyContainer->dwPersonality][pKeyContainer->dwEnumAlgsCtr].dwNameLen;
3004 memcpy(provEnumalgs.szName, aProvEnumAlgsEx
3005 [pKeyContainer->dwPersonality][pKeyContainer->dwEnumAlgsCtr].szName,
3008 return copy_param(pbData, pdwDataLen, (CONST BYTE*)&provEnumalgs,
3009 sizeof(PROV_ENUMALGS));
3011 if (pbData && (*pdwDataLen >= sizeof(PROV_ENUMALGS_EX)))
3012 pKeyContainer->dwEnumAlgsCtr = ((dwFlags & CRYPT_FIRST) == CRYPT_FIRST) ?
3013 0 : pKeyContainer->dwEnumAlgsCtr+1;
3015 return copy_param(pbData, pdwDataLen,
3016 (CONST BYTE*)&aProvEnumAlgsEx
3017 [pKeyContainer->dwPersonality][pKeyContainer->dwEnumAlgsCtr],
3018 sizeof(PROV_ENUMALGS_EX));
3021 case 41: /* Undocumented. Asked for by IE About dialog */
3022 return copy_param(pbData, pdwDataLen, abWTF, sizeof(abWTF));
3025 /* MSDN: Unknown parameter number in dwParam */
3026 SetLastError(NTE_BAD_TYPE);
3031 /******************************************************************************
3032 * CPDeriveKey (RSAENH.@)
3034 * Derives a key from a hash value.
3037 * hProv [I] Key container for which a key is to be generated.
3038 * Algid [I] Crypto algorithm identifier for the key to be generated.
3039 * hBaseData [I] Hash from whose value the key will be derived.
3040 * dwFlags [I] See Notes.
3041 * phKey [O] The generated key.
3049 * - CRYPT_EXPORTABLE: Key can be exported.
3050 * - CRYPT_NO_SALT: No salt is used for 40 bit keys.
3051 * - CRYPT_CREATE_SALT: Use remaining bits as salt value.
3053 BOOL WINAPI RSAENH_CPDeriveKey(HCRYPTPROV hProv, ALG_ID Algid, HCRYPTHASH hBaseData,
3054 DWORD dwFlags, HCRYPTKEY *phKey)
3056 CRYPTKEY *pCryptKey, *pMasterKey;
3057 CRYPTHASH *pCryptHash;
3058 BYTE abHashValue[RSAENH_MAX_HASH_SIZE*2];
3061 TRACE("(hProv=%08lx, Algid=%d, hBaseData=%08lx, dwFlags=%08x phKey=%p)\n", hProv, Algid,
3062 hBaseData, dwFlags, phKey);
3064 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
3066 SetLastError(NTE_BAD_UID);
3070 if (!lookup_handle(&handle_table, hBaseData, RSAENH_MAGIC_HASH,
3071 (OBJECTHDR**)&pCryptHash))
3073 SetLastError(NTE_BAD_HASH);
3079 SetLastError(ERROR_INVALID_PARAMETER);
3083 switch (GET_ALG_CLASS(Algid))
3085 case ALG_CLASS_DATA_ENCRYPT:
3086 *phKey = new_key(hProv, Algid, dwFlags, &pCryptKey);
3087 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE) return FALSE;
3090 * We derive the key material from the hash.
3091 * If the hash value is not large enough for the claimed key, we have to construct
3092 * a larger binary value based on the hash. This is documented in MSDN: CryptDeriveKey.
3094 dwLen = RSAENH_MAX_HASH_SIZE;
3095 RSAENH_CPGetHashParam(pCryptHash->hProv, hBaseData, HP_HASHVAL, abHashValue, &dwLen, 0);
3097 if (dwLen < pCryptKey->dwKeyLen) {
3098 BYTE pad1[RSAENH_HMAC_DEF_PAD_LEN], pad2[RSAENH_HMAC_DEF_PAD_LEN];
3099 BYTE old_hashval[RSAENH_MAX_HASH_SIZE];
3102 memcpy(old_hashval, pCryptHash->abHashValue, RSAENH_MAX_HASH_SIZE);
3104 for (i=0; i<RSAENH_HMAC_DEF_PAD_LEN; i++) {
3105 pad1[i] = RSAENH_HMAC_DEF_IPAD_CHAR ^ (i<dwLen ? abHashValue[i] : 0);
3106 pad2[i] = RSAENH_HMAC_DEF_OPAD_CHAR ^ (i<dwLen ? abHashValue[i] : 0);
3109 init_hash(pCryptHash);
3110 update_hash(pCryptHash, pad1, RSAENH_HMAC_DEF_PAD_LEN);
3111 finalize_hash(pCryptHash);
3112 memcpy(abHashValue, pCryptHash->abHashValue, pCryptHash->dwHashSize);
3114 init_hash(pCryptHash);
3115 update_hash(pCryptHash, pad2, RSAENH_HMAC_DEF_PAD_LEN);
3116 finalize_hash(pCryptHash);
3117 memcpy(abHashValue+pCryptHash->dwHashSize, pCryptHash->abHashValue,
3118 pCryptHash->dwHashSize);
3120 memcpy(pCryptHash->abHashValue, old_hashval, RSAENH_MAX_HASH_SIZE);
3123 memcpy(pCryptKey->abKeyValue, abHashValue,
3124 RSAENH_MIN(pCryptKey->dwKeyLen, sizeof(pCryptKey->abKeyValue)));
3127 case ALG_CLASS_MSG_ENCRYPT:
3128 if (!lookup_handle(&handle_table, pCryptHash->hKey, RSAENH_MAGIC_KEY,
3129 (OBJECTHDR**)&pMasterKey))
3131 SetLastError(NTE_FAIL); /* FIXME error code */
3137 /* See RFC 2246, chapter 6.3 Key calculation */
3138 case CALG_SCHANNEL_ENC_KEY:
3139 *phKey = new_key(hProv, pMasterKey->siSChannelInfo.saEncAlg.Algid,
3140 MAKELONG(LOWORD(dwFlags),pMasterKey->siSChannelInfo.saEncAlg.cBits),
3142 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE) return FALSE;
3143 memcpy(pCryptKey->abKeyValue,
3144 pCryptHash->abHashValue + (
3145 2 * (pMasterKey->siSChannelInfo.saMACAlg.cBits / 8) +
3146 ((dwFlags & CRYPT_SERVER) ?
3147 (pMasterKey->siSChannelInfo.saEncAlg.cBits / 8) : 0)),
3148 pMasterKey->siSChannelInfo.saEncAlg.cBits / 8);
3149 memcpy(pCryptKey->abInitVector,
3150 pCryptHash->abHashValue + (
3151 2 * (pMasterKey->siSChannelInfo.saMACAlg.cBits / 8) +
3152 2 * (pMasterKey->siSChannelInfo.saEncAlg.cBits / 8) +
3153 ((dwFlags & CRYPT_SERVER) ? pCryptKey->dwBlockLen : 0)),
3154 pCryptKey->dwBlockLen);
3157 case CALG_SCHANNEL_MAC_KEY:
3158 *phKey = new_key(hProv, Algid,
3159 MAKELONG(LOWORD(dwFlags),pMasterKey->siSChannelInfo.saMACAlg.cBits),
3161 if (*phKey == (HCRYPTKEY)INVALID_HANDLE_VALUE) return FALSE;
3162 memcpy(pCryptKey->abKeyValue,
3163 pCryptHash->abHashValue + ((dwFlags & CRYPT_SERVER) ?
3164 pMasterKey->siSChannelInfo.saMACAlg.cBits / 8 : 0),
3165 pMasterKey->siSChannelInfo.saMACAlg.cBits / 8);
3169 SetLastError(NTE_BAD_ALGID);
3175 SetLastError(NTE_BAD_ALGID);
3179 setup_key(pCryptKey);
3183 /******************************************************************************
3184 * CPGetUserKey (RSAENH.@)
3186 * Returns a handle to the user's private key-exchange- or signature-key.
3189 * hProv [I] The key container from which a user key is requested.
3190 * dwKeySpec [I] AT_KEYEXCHANGE or AT_SIGNATURE
3191 * phUserKey [O] Handle to the requested key or INVALID_HANDLE_VALUE in case of failure.
3198 * A newly created key container does not contain private user key. Create them with CPGenKey.
3200 BOOL WINAPI RSAENH_CPGetUserKey(HCRYPTPROV hProv, DWORD dwKeySpec, HCRYPTKEY *phUserKey)
3202 KEYCONTAINER *pKeyContainer;
3204 TRACE("(hProv=%08lx, dwKeySpec=%08x, phUserKey=%p)\n", hProv, dwKeySpec, phUserKey);
3206 if (!lookup_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER,
3207 (OBJECTHDR**)&pKeyContainer))
3209 /* MSDN: hProv not containing valid context handle */
3210 SetLastError(NTE_BAD_UID);
3216 case AT_KEYEXCHANGE:
3217 copy_handle(&handle_table, pKeyContainer->hKeyExchangeKeyPair, RSAENH_MAGIC_KEY,
3222 copy_handle(&handle_table, pKeyContainer->hSignatureKeyPair, RSAENH_MAGIC_KEY,
3227 *phUserKey = (HCRYPTKEY)INVALID_HANDLE_VALUE;
3230 if (*phUserKey == (HCRYPTKEY)INVALID_HANDLE_VALUE)
3232 /* MSDN: dwKeySpec parameter specifies nonexistent key */
3233 SetLastError(NTE_NO_KEY);
3240 /******************************************************************************
3241 * CPHashData (RSAENH.@)
3243 * Updates a hash object with the given data.
3246 * hProv [I] Key container to which the hash object belongs.
3247 * hHash [I] Hash object which is to be updated.
3248 * pbData [I] Pointer to data with which the hash object is to be updated.
3249 * dwDataLen [I] Length of the data.
3250 * dwFlags [I] Currently none defined.
3257 * The actual hash value is queried with CPGetHashParam, which will finalize
3258 * the hash. Updating a finalized hash will fail with a last error NTE_BAD_HASH_STATE.
3260 BOOL WINAPI RSAENH_CPHashData(HCRYPTPROV hProv, HCRYPTHASH hHash, CONST BYTE *pbData,
3261 DWORD dwDataLen, DWORD dwFlags)
3263 CRYPTHASH *pCryptHash;
3265 TRACE("(hProv=%08lx, hHash=%08lx, pbData=%p, dwDataLen=%d, dwFlags=%08x)\n",
3266 hProv, hHash, pbData, dwDataLen, dwFlags);
3270 SetLastError(NTE_BAD_FLAGS);
3274 if (!lookup_handle(&handle_table, hHash, RSAENH_MAGIC_HASH,
3275 (OBJECTHDR**)&pCryptHash))
3277 SetLastError(NTE_BAD_HASH);
3281 if (!get_algid_info(hProv, pCryptHash->aiAlgid) || pCryptHash->aiAlgid == CALG_SSL3_SHAMD5)
3283 SetLastError(NTE_BAD_ALGID);
3287 if (pCryptHash->dwState != RSAENH_HASHSTATE_HASHING)
3289 SetLastError(NTE_BAD_HASH_STATE);
3293 update_hash(pCryptHash, pbData, dwDataLen);
3297 /******************************************************************************
3298 * CPHashSessionKey (RSAENH.@)
3300 * Updates a hash object with the binary representation of a symmetric key.
3303 * hProv [I] Key container to which the hash object belongs.
3304 * hHash [I] Hash object which is to be updated.
3305 * hKey [I] The symmetric key, whose binary value will be added to the hash.
3306 * dwFlags [I] CRYPT_LITTLE_ENDIAN, if the binary key value shall be interpreted as little endian.
3312 BOOL WINAPI RSAENH_CPHashSessionKey(HCRYPTPROV hProv, HCRYPTHASH hHash, HCRYPTKEY hKey,
3315 BYTE abKeyValue[RSAENH_MAX_KEY_SIZE], bTemp;
3319 TRACE("(hProv=%08lx, hHash=%08lx, hKey=%08lx, dwFlags=%08x)\n", hProv, hHash, hKey, dwFlags);
3321 if (!lookup_handle(&handle_table, hKey, RSAENH_MAGIC_KEY, (OBJECTHDR**)&pKey) ||
3322 (GET_ALG_CLASS(pKey->aiAlgid) != ALG_CLASS_DATA_ENCRYPT))
3324 SetLastError(NTE_BAD_KEY);
3328 if (dwFlags & ~CRYPT_LITTLE_ENDIAN) {
3329 SetLastError(NTE_BAD_FLAGS);
3333 memcpy(abKeyValue, pKey->abKeyValue, pKey->dwKeyLen);
3334 if (!(dwFlags & CRYPT_LITTLE_ENDIAN)) {
3335 for (i=0; i<pKey->dwKeyLen/2; i++) {
3336 bTemp = abKeyValue[i];
3337 abKeyValue[i] = abKeyValue[pKey->dwKeyLen-i-1];
3338 abKeyValue[pKey->dwKeyLen-i-1] = bTemp;
3342 return RSAENH_CPHashData(hProv, hHash, abKeyValue, pKey->dwKeyLen, 0);
3345 /******************************************************************************
3346 * CPReleaseContext (RSAENH.@)
3348 * Release a key container.
3351 * hProv [I] Key container to be released.
3352 * dwFlags [I] Currently none defined.
3358 BOOL WINAPI RSAENH_CPReleaseContext(HCRYPTPROV hProv, DWORD dwFlags)
3360 TRACE("(hProv=%08lx, dwFlags=%08x)\n", hProv, dwFlags);
3362 if (!release_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
3364 /* MSDN: hProv not containing valid context handle */
3365 SetLastError(NTE_BAD_UID);
3370 SetLastError(NTE_BAD_FLAGS);
3377 /******************************************************************************
3378 * CPSetHashParam (RSAENH.@)
3380 * Set a parameter of a hash object
3383 * hProv [I] The key container to which the key belongs.
3384 * hHash [I] The hash object for which a parameter is to be set.
3385 * dwParam [I] Parameter type. See Notes.
3386 * pbData [I] Pointer to the parameter value.
3387 * dwFlags [I] Currently none defined.
3394 * Currently only the HP_HMAC_INFO dwParam type is defined.
3395 * The HMAC_INFO struct will be deep copied into the hash object.
3396 * See Internet RFC 2104 for details on the HMAC algorithm.
3398 BOOL WINAPI RSAENH_CPSetHashParam(HCRYPTPROV hProv, HCRYPTHASH hHash, DWORD dwParam,
3399 BYTE *pbData, DWORD dwFlags)
3401 CRYPTHASH *pCryptHash;
3402 CRYPTKEY *pCryptKey;
3405 TRACE("(hProv=%08lx, hHash=%08lx, dwParam=%08x, pbData=%p, dwFlags=%08x)\n",
3406 hProv, hHash, dwParam, pbData, dwFlags);
3408 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
3410 SetLastError(NTE_BAD_UID);
3415 SetLastError(NTE_BAD_FLAGS);
3419 if (!lookup_handle(&handle_table, hHash, RSAENH_MAGIC_HASH,
3420 (OBJECTHDR**)&pCryptHash))
3422 SetLastError(NTE_BAD_HASH);
3428 free_hmac_info(pCryptHash->pHMACInfo);
3429 if (!copy_hmac_info(&pCryptHash->pHMACInfo, (PHMAC_INFO)pbData)) return FALSE;
3431 if (!lookup_handle(&handle_table, pCryptHash->hKey, RSAENH_MAGIC_KEY,
3432 (OBJECTHDR**)&pCryptKey))
3434 SetLastError(NTE_FAIL); /* FIXME: correct error code? */
3438 for (i=0; i<RSAENH_MIN(pCryptKey->dwKeyLen,pCryptHash->pHMACInfo->cbInnerString); i++) {
3439 pCryptHash->pHMACInfo->pbInnerString[i] ^= pCryptKey->abKeyValue[i];
3441 for (i=0; i<RSAENH_MIN(pCryptKey->dwKeyLen,pCryptHash->pHMACInfo->cbOuterString); i++) {
3442 pCryptHash->pHMACInfo->pbOuterString[i] ^= pCryptKey->abKeyValue[i];
3445 init_hash(pCryptHash);
3449 memcpy(pCryptHash->abHashValue, pbData, pCryptHash->dwHashSize);
3450 pCryptHash->dwState = RSAENH_HASHSTATE_FINISHED;
3453 case HP_TLS1PRF_SEED:
3454 return copy_data_blob(&pCryptHash->tpPRFParams.blobSeed, (PCRYPT_DATA_BLOB)pbData);
3456 case HP_TLS1PRF_LABEL:
3457 return copy_data_blob(&pCryptHash->tpPRFParams.blobLabel, (PCRYPT_DATA_BLOB)pbData);
3460 SetLastError(NTE_BAD_TYPE);
3465 /******************************************************************************
3466 * CPSetProvParam (RSAENH.@)
3468 BOOL WINAPI RSAENH_CPSetProvParam(HCRYPTPROV hProv, DWORD dwParam, BYTE *pbData, DWORD dwFlags)
3474 /******************************************************************************
3475 * CPSignHash (RSAENH.@)
3477 * Sign a hash object
3480 * hProv [I] The key container, to which the hash object belongs.
3481 * hHash [I] The hash object to be signed.
3482 * dwKeySpec [I] AT_SIGNATURE or AT_KEYEXCHANGE: Key used to generate the signature.
3483 * sDescription [I] Should be NULL for security reasons.
3484 * dwFlags [I] 0, CRYPT_NOHASHOID or CRYPT_X931_FORMAT: Format of the signature.
3485 * pbSignature [O] Buffer, to which the signature will be stored. May be NULL to query SigLen.
3486 * pdwSigLen [I/O] Size of the buffer (in), Length of the signature (out)
3492 BOOL WINAPI RSAENH_CPSignHash(HCRYPTPROV hProv, HCRYPTHASH hHash, DWORD dwKeySpec,
3493 LPCWSTR sDescription, DWORD dwFlags, BYTE *pbSignature,
3496 HCRYPTKEY hCryptKey;
3497 CRYPTKEY *pCryptKey;
3499 BYTE abHashValue[RSAENH_MAX_HASH_SIZE];
3502 TRACE("(hProv=%08lx, hHash=%08lx, dwKeySpec=%08x, sDescription=%s, dwFlags=%08x, "
3503 "pbSignature=%p, pdwSigLen=%p)\n", hProv, hHash, dwKeySpec, debugstr_w(sDescription),
3504 dwFlags, pbSignature, pdwSigLen);
3506 if (dwFlags & ~(CRYPT_NOHASHOID|CRYPT_X931_FORMAT)) {
3507 SetLastError(NTE_BAD_FLAGS);
3511 if (!RSAENH_CPGetUserKey(hProv, dwKeySpec, &hCryptKey)) return FALSE;
3513 if (!lookup_handle(&handle_table, hCryptKey, RSAENH_MAGIC_KEY,
3514 (OBJECTHDR**)&pCryptKey))
3516 SetLastError(NTE_NO_KEY);
3521 *pdwSigLen = pCryptKey->dwKeyLen;
3524 if (pCryptKey->dwKeyLen > *pdwSigLen)
3526 SetLastError(ERROR_MORE_DATA);
3527 *pdwSigLen = pCryptKey->dwKeyLen;
3530 *pdwSigLen = pCryptKey->dwKeyLen;
3533 if (!RSAENH_CPHashData(hProv, hHash, (CONST BYTE*)sDescription,
3534 (DWORD)lstrlenW(sDescription)*sizeof(WCHAR), 0))
3540 dwHashLen = sizeof(DWORD);
3541 if (!RSAENH_CPGetHashParam(hProv, hHash, HP_ALGID, (BYTE*)&aiAlgid, &dwHashLen, 0)) return FALSE;
3543 dwHashLen = RSAENH_MAX_HASH_SIZE;
3544 if (!RSAENH_CPGetHashParam(hProv, hHash, HP_HASHVAL, abHashValue, &dwHashLen, 0)) return FALSE;
3547 if (!build_hash_signature(pbSignature, *pdwSigLen, aiAlgid, abHashValue, dwHashLen, dwFlags)) {
3551 return encrypt_block_impl(pCryptKey->aiAlgid, PK_PRIVATE, &pCryptKey->context, pbSignature, pbSignature, RSAENH_ENCRYPT);
3554 /******************************************************************************
3555 * CPVerifySignature (RSAENH.@)
3557 * Verify the signature of a hash object.
3560 * hProv [I] The key container, to which the hash belongs.
3561 * hHash [I] The hash for which the signature is verified.
3562 * pbSignature [I] The binary signature.
3563 * dwSigLen [I] Length of the signature BLOB.
3564 * hPubKey [I] Public key used to verify the signature.
3565 * sDescription [I] Should be NULL for security reasons.
3566 * dwFlags [I] 0, CRYPT_NOHASHOID or CRYPT_X931_FORMAT: Format of the signature.
3569 * Success: TRUE (Signature is valid)
3570 * Failure: FALSE (GetLastError() == NTE_BAD_SIGNATURE, if signature is invalid)
3572 BOOL WINAPI RSAENH_CPVerifySignature(HCRYPTPROV hProv, HCRYPTHASH hHash, CONST BYTE *pbSignature,
3573 DWORD dwSigLen, HCRYPTKEY hPubKey, LPCWSTR sDescription,
3576 BYTE *pbConstructed = NULL, *pbDecrypted = NULL;
3577 CRYPTKEY *pCryptKey;
3580 BYTE abHashValue[RSAENH_MAX_HASH_SIZE];
3583 TRACE("(hProv=%08lx, hHash=%08lx, pbSignature=%p, dwSigLen=%d, hPubKey=%08lx, sDescription=%s, "
3584 "dwFlags=%08x)\n", hProv, hHash, pbSignature, dwSigLen, hPubKey, debugstr_w(sDescription),
3587 if (dwFlags & ~(CRYPT_NOHASHOID|CRYPT_X931_FORMAT)) {
3588 SetLastError(NTE_BAD_FLAGS);
3592 if (!is_valid_handle(&handle_table, hProv, RSAENH_MAGIC_CONTAINER))
3594 SetLastError(NTE_BAD_UID);
3598 if (!lookup_handle(&handle_table, hPubKey, RSAENH_MAGIC_KEY,
3599 (OBJECTHDR**)&pCryptKey))
3601 SetLastError(NTE_BAD_KEY);
3605 /* in Microsoft implementation, the signature length is checked before
3606 * the signature pointer.
3608 if (dwSigLen != pCryptKey->dwKeyLen)
3610 SetLastError(NTE_BAD_SIGNATURE);
3614 if (!hHash || !pbSignature)
3616 SetLastError(ERROR_INVALID_PARAMETER);
3621 if (!RSAENH_CPHashData(hProv, hHash, (CONST BYTE*)sDescription,
3622 (DWORD)lstrlenW(sDescription)*sizeof(WCHAR), 0))
3628 dwHashLen = sizeof(DWORD);
3629 if (!RSAENH_CPGetHashParam(hProv, hHash, HP_ALGID, (BYTE*)&aiAlgid, &dwHashLen, 0)) return FALSE;
3631 dwHashLen = RSAENH_MAX_HASH_SIZE;
3632 if (!RSAENH_CPGetHashParam(hProv, hHash, HP_HASHVAL, abHashValue, &dwHashLen, 0)) return FALSE;
3634 pbConstructed = HeapAlloc(GetProcessHeap(), 0, dwSigLen);
3635 if (!pbConstructed) {
3636 SetLastError(NTE_NO_MEMORY);
3640 pbDecrypted = HeapAlloc(GetProcessHeap(), 0, dwSigLen);
3642 SetLastError(NTE_NO_MEMORY);
3646 if (!encrypt_block_impl(pCryptKey->aiAlgid, PK_PUBLIC, &pCryptKey->context, pbSignature, pbDecrypted,
3652 if (!build_hash_signature(pbConstructed, dwSigLen, aiAlgid, abHashValue, dwHashLen, dwFlags)) {
3656 if (memcmp(pbDecrypted, pbConstructed, dwSigLen)) {
3657 SetLastError(NTE_BAD_SIGNATURE);
3663 HeapFree(GetProcessHeap(), 0, pbConstructed);
3664 HeapFree(GetProcessHeap(), 0, pbDecrypted);
3668 static const WCHAR szProviderKeys[4][97] = {
3669 { 'S','o','f','t','w','a','r','e','\\',
3670 'M','i','c','r','o','s','o','f','t','\\','C','r','y','p','t','o','g','r',
3671 'a','p','h','y','\\','D','e','f','a','u','l','t','s','\\','P','r','o','v',
3672 'i','d','e','r','\\','M','i','c','r','o','s','o','f','t',' ','B','a','s',
3673 'e',' ','C','r','y','p','t','o','g','r','a','p','h','i','c',' ','P','r',
3674 'o','v','i','d','e','r',' ','v','1','.','0',0 },
3675 { 'S','o','f','t','w','a','r','e','\\',
3676 'M','i','c','r','o','s','o','f','t','\\','C','r','y','p','t','o','g','r',
3677 'a','p','h','y','\\','D','e','f','a','u','l','t','s','\\','P','r','o','v',
3678 'i','d','e','r','\\','M','i','c','r','o','s','o','f','t',' ',
3679 'E','n','h','a','n','c','e','d',
3680 ' ','C','r','y','p','t','o','g','r','a','p','h','i','c',' ','P','r',
3681 'o','v','i','d','e','r',' ','v','1','.','0',0 },
3682 { 'S','o','f','t','w','a','r','e','\\',
3683 'M','i','c','r','o','s','o','f','t','\\','C','r','y','p','t','o','g','r',
3684 'a','p','h','y','\\','D','e','f','a','u','l','t','s','\\','P','r','o','v',
3685 'i','d','e','r','\\','M','i','c','r','o','s','o','f','t',' ','S','t','r','o','n','g',
3686 ' ','C','r','y','p','t','o','g','r','a','p','h','i','c',' ','P','r',
3687 'o','v','i','d','e','r',0 },
3688 { 'S','o','f','t','w','a','r','e','\\','M','i','c','r','o','s','o','f','t','\\',
3689 'C','r','y','p','t','o','g','r','a','p','h','y','\\','D','e','f','a','u','l','t','s','\\',
3690 'P','r','o','v','i','d','e','r','\\','M','i','c','r','o','s','o','f','t',' ',
3691 'R','S','A',' ','S','C','h','a','n','n','e','l',' ',
3692 'C','r','y','p','t','o','g','r','a','p','h','i','c',' ','P','r','o','v','i','d','e','r',0 }
3694 static const WCHAR szDefaultKeys[2][65] = {
3695 { 'S','o','f','t','w','a','r','e','\\',
3696 'M','i','c','r','o','s','o','f','t','\\','C','r','y','p','t','o','g','r',
3697 'a','p','h','y','\\','D','e','f','a','u','l','t','s','\\','P','r','o','v',
3698 'i','d','e','r',' ','T','y','p','e','s','\\','T','y','p','e',' ','0','0','1',0 },
3699 { 'S','o','f','t','w','a','r','e','\\',
3700 'M','i','c','r','o','s','o','f','t','\\','C','r','y','p','t','o','g','r',
3701 'a','p','h','y','\\','D','e','f','a','u','l','t','s','\\','P','r','o','v',
3702 'i','d','e','r',' ','T','y','p','e','s','\\','T','y','p','e',' ','0','1','2',0 }
3706 /******************************************************************************
3707 * DllRegisterServer (RSAENH.@)
3709 * Dll self registration.
3718 * Registers the following keys:
3719 * - HKLM\Software\Microsoft\Cryptography\Defaults\Provider\
3720 * Microsoft Base Cryptographic Provider v1.0
3721 * - HKLM\Software\Microsoft\Cryptography\Defaults\Provider\
3722 * Microsoft Enhanced Cryptographic Provider
3723 * - HKLM\Software\Microsoft\Cryptography\Defaults\Provider\
3724 * Microsoft Strong Cryptographpic Provider
3725 * - HKLM\Software\Microsoft\Cryptography\Defaults\Provider Types\Type 001
3727 HRESULT WINAPI DllRegisterServer(void)
3734 for (i=0; i<4; i++) {
3735 apiRet = RegCreateKeyExW(HKEY_LOCAL_MACHINE, szProviderKeys[i], 0, NULL,
3736 REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &key, &dp);
3738 if (apiRet == ERROR_SUCCESS)
3740 if (dp == REG_CREATED_NEW_KEY)
3742 static const WCHAR szImagePath[] = { 'I','m','a','g','e',' ','P','a','t','h',0 };
3743 static const WCHAR szRSABase[] = { 'r','s','a','e','n','h','.','d','l','l',0 };
3744 static const WCHAR szType[] = { 'T','y','p','e',0 };
3745 static const WCHAR szSignature[] = { 'S','i','g','n','a','t','u','r','e',0 };
3746 DWORD type = (i == 3) ? PROV_RSA_SCHANNEL : PROV_RSA_FULL;
3747 DWORD sign = 0xdeadbeef;
3748 RegSetValueExW(key, szImagePath, 0, REG_SZ, (const BYTE *)szRSABase,
3749 (lstrlenW(szRSABase) + 1) * sizeof(WCHAR));
3750 RegSetValueExW(key, szType, 0, REG_DWORD, (LPBYTE)&type, sizeof(type));
3751 RegSetValueExW(key, szSignature, 0, REG_BINARY, (LPBYTE)&sign, sizeof(sign));
3757 for (i=0; i<2; i++) {
3758 apiRet = RegCreateKeyExW(HKEY_LOCAL_MACHINE, szDefaultKeys[i], 0, NULL,
3759 REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, &key, &dp);
3760 if (apiRet == ERROR_SUCCESS)
3762 if (dp == REG_CREATED_NEW_KEY)
3764 static const WCHAR szName[] = { 'N','a','m','e',0 };
3765 static const WCHAR szRSAName[2][46] = {
3766 { 'M','i','c','r','o','s','o','f','t',' ', 'B','a','s','e',' ',
3767 'C','r','y','p','t','o','g','r','a','p','h','i','c',' ',
3768 'P','r','o','v','i','d','e','r',' ','v','1','.','0',0 },
3769 { 'M','i','c','r','o','s','o','f','t',' ','R','S','A',' ',
3770 'S','C','h','a','n','n','e','l',' ',
3771 'C','r','y','p','t','o','g','r','a','p','h','i','c',' ',
3772 'P','r','o','v','i','d','e','r',0 } };
3773 static const WCHAR szTypeName[] = { 'T','y','p','e','N','a','m','e',0 };
3774 static const WCHAR szRSATypeName[2][38] = {
3775 { 'R','S','A',' ','F','u','l','l',' ',
3776 '(','S','i','g','n','a','t','u','r','e',' ','a','n','d',' ',
3777 'K','e','y',' ','E','x','c','h','a','n','g','e',')',0 },
3778 { 'R','S','A',' ','S','C','h','a','n','n','e','l',0 } };
3780 RegSetValueExW(key, szName, 0, REG_SZ,
3781 (const BYTE *)szRSAName[i], lstrlenW(szRSAName[i])*sizeof(WCHAR)+sizeof(WCHAR));
3782 RegSetValueExW(key, szTypeName, 0, REG_SZ,
3783 (const BYTE *)szRSATypeName[i], lstrlenW(szRSATypeName[i])*sizeof(WCHAR)+sizeof(WCHAR));
3789 return HRESULT_FROM_WIN32(apiRet);
3792 /******************************************************************************
3793 * DllUnregisterServer (RSAENH.@)
3795 * Dll self unregistration.
3803 * For the relevant keys see DllRegisterServer.
3805 HRESULT WINAPI DllUnregisterServer(void)
3807 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szProviderKeys[0]);
3808 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szProviderKeys[1]);
3809 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szProviderKeys[2]);
3810 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szProviderKeys[3]);
3811 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szDefaultKeys[0]);
3812 RegDeleteKeyW(HKEY_LOCAL_MACHINE, szDefaultKeys[1]);