wine/dlls/crypt32/msg.c

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C
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/*
* Copyright 2007 Juan Lang
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <stdarg.h>
#include "windef.h"
#include "winbase.h"
#include "wincrypt.h"
#include "snmp.h"
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#include "wine/debug.h"
#include "wine/exception.h"
#include "crypt32_private.h"
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WINE_DEFAULT_DEBUG_CHANNEL(crypt);
/* Called when a message's ref count reaches zero. Free any message-specific
* data here.
*/
typedef void (*CryptMsgCloseFunc)(HCRYPTMSG msg);
typedef BOOL (*CryptMsgGetParamFunc)(HCRYPTMSG hCryptMsg, DWORD dwParamType,
DWORD dwIndex, void *pvData, DWORD *pcbData);
typedef BOOL (*CryptMsgUpdateFunc)(HCRYPTMSG hCryptMsg, const BYTE *pbData,
DWORD cbData, BOOL fFinal);
typedef enum _CryptMsgState {
MsgStateInit,
MsgStateUpdated,
MsgStateFinalized
} CryptMsgState;
typedef struct _CryptMsgBase
{
LONG ref;
DWORD open_flags;
BOOL streamed;
CMSG_STREAM_INFO stream_info;
CryptMsgState state;
CryptMsgCloseFunc close;
CryptMsgUpdateFunc update;
CryptMsgGetParamFunc get_param;
} CryptMsgBase;
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static inline void CryptMsgBase_Init(CryptMsgBase *msg, DWORD dwFlags,
PCMSG_STREAM_INFO pStreamInfo, CryptMsgCloseFunc close,
CryptMsgGetParamFunc get_param, CryptMsgUpdateFunc update)
{
msg->ref = 1;
msg->open_flags = dwFlags;
if (pStreamInfo)
{
msg->streamed = TRUE;
memcpy(&msg->stream_info, pStreamInfo, sizeof(msg->stream_info));
}
else
{
msg->streamed = FALSE;
memset(&msg->stream_info, 0, sizeof(msg->stream_info));
}
msg->close = close;
msg->get_param = get_param;
msg->update = update;
msg->state = MsgStateInit;
}
typedef struct _CDataEncodeMsg
{
CryptMsgBase base;
DWORD bare_content_len;
LPBYTE bare_content;
} CDataEncodeMsg;
static const BYTE empty_data_content[] = { 0x04,0x00 };
static void CDataEncodeMsg_Close(HCRYPTMSG hCryptMsg)
{
CDataEncodeMsg *msg = (CDataEncodeMsg *)hCryptMsg;
if (msg->bare_content != empty_data_content)
LocalFree(msg->bare_content);
}
static WINAPI BOOL CRYPT_EncodeContentLength(DWORD dwCertEncodingType,
LPCSTR lpszStructType, const void *pvStructInfo, DWORD dwFlags,
PCRYPT_ENCODE_PARA pEncodePara, BYTE *pbEncoded, DWORD *pcbEncoded)
{
const CDataEncodeMsg *msg = (const CDataEncodeMsg *)pvStructInfo;
DWORD lenBytes;
BOOL ret = TRUE;
/* Trick: report bytes needed based on total message length, even though
* the message isn't available yet. The caller will use the length
* reported here to encode its length.
*/
CRYPT_EncodeLen(msg->base.stream_info.cbContent, NULL, &lenBytes);
if (!pbEncoded)
*pcbEncoded = 1 + lenBytes + msg->base.stream_info.cbContent;
else
{
if ((ret = CRYPT_EncodeEnsureSpace(dwFlags, pEncodePara, pbEncoded,
pcbEncoded, 1 + lenBytes)))
{
if (dwFlags & CRYPT_ENCODE_ALLOC_FLAG)
pbEncoded = *(BYTE **)pbEncoded;
*pbEncoded++ = ASN_OCTETSTRING;
CRYPT_EncodeLen(msg->base.stream_info.cbContent, pbEncoded,
&lenBytes);
}
}
return ret;
}
static BOOL CRYPT_EncodeDataContentInfoHeader(CDataEncodeMsg *msg,
CRYPT_DATA_BLOB *header)
{
BOOL ret;
if (msg->base.streamed && msg->base.stream_info.cbContent == 0xffffffff)
{
FIXME("unimplemented for indefinite-length encoding\n");
header->cbData = 0;
header->pbData = NULL;
ret = TRUE;
}
else
{
struct AsnConstructedItem constructed = { 0, msg,
CRYPT_EncodeContentLength };
struct AsnEncodeSequenceItem items[2] = {
{ szOID_RSA_data, CRYPT_AsnEncodeOid, 0 },
{ &constructed, CRYPT_AsnEncodeConstructed, 0 },
};
ret = CRYPT_AsnEncodeSequence(X509_ASN_ENCODING, items,
sizeof(items) / sizeof(items[0]), CRYPT_ENCODE_ALLOC_FLAG, NULL,
(LPBYTE)&header->pbData, &header->cbData);
if (ret)
{
/* Trick: subtract the content length from the reported length,
* as the actual content hasn't come yet.
*/
header->cbData -= msg->base.stream_info.cbContent;
}
}
return ret;
}
static BOOL CDataEncodeMsg_Update(HCRYPTMSG hCryptMsg, const BYTE *pbData,
DWORD cbData, BOOL fFinal)
{
CDataEncodeMsg *msg = (CDataEncodeMsg *)hCryptMsg;
BOOL ret = FALSE;
if (msg->base.streamed)
{
__TRY
{
if (msg->base.state != MsgStateUpdated)
{
CRYPT_DATA_BLOB header;
ret = CRYPT_EncodeDataContentInfoHeader(msg, &header);
if (ret)
{
ret = msg->base.stream_info.pfnStreamOutput(
msg->base.stream_info.pvArg, header.pbData, header.cbData,
FALSE);
LocalFree(header.pbData);
}
}
if (!fFinal)
ret = msg->base.stream_info.pfnStreamOutput(
msg->base.stream_info.pvArg, (BYTE *)pbData, cbData,
FALSE);
else
{
if (msg->base.stream_info.cbContent == 0xffffffff)
{
BYTE indefinite_trailer[6] = { 0 };
ret = msg->base.stream_info.pfnStreamOutput(
msg->base.stream_info.pvArg, (BYTE *)pbData, cbData,
FALSE);
if (ret)
ret = msg->base.stream_info.pfnStreamOutput(
msg->base.stream_info.pvArg, indefinite_trailer,
sizeof(indefinite_trailer), TRUE);
}
else
ret = msg->base.stream_info.pfnStreamOutput(
msg->base.stream_info.pvArg, (BYTE *)pbData, cbData, TRUE);
}
}
__EXCEPT_PAGE_FAULT
{
SetLastError(STATUS_ACCESS_VIOLATION);
}
__ENDTRY;
}
else
{
if (!fFinal)
{
if (msg->base.open_flags & CMSG_DETACHED_FLAG)
SetLastError(E_INVALIDARG);
else
SetLastError(CRYPT_E_MSG_ERROR);
}
else
{
if (!cbData)
SetLastError(E_INVALIDARG);
else
{
CRYPT_DATA_BLOB blob = { cbData, (LPBYTE)pbData };
/* non-streamed data messages don't allow non-final updates,
* don't bother checking whether data already exist, they can't.
*/
ret = CryptEncodeObjectEx(X509_ASN_ENCODING, X509_OCTET_STRING,
&blob, CRYPT_ENCODE_ALLOC_FLAG, NULL, &msg->bare_content,
&msg->bare_content_len);
}
}
}
return ret;
}
static BOOL CRYPT_CopyParam(void *pvData, DWORD *pcbData, const BYTE *src,
DWORD len)
{
BOOL ret = TRUE;
if (!pvData)
*pcbData = len;
else if (*pcbData < len)
{
*pcbData = len;
SetLastError(ERROR_MORE_DATA);
ret = FALSE;
}
else
{
*pcbData = len;
memcpy(pvData, src, len);
}
return ret;
}
static BOOL CDataEncodeMsg_GetParam(HCRYPTMSG hCryptMsg, DWORD dwParamType,
DWORD dwIndex, void *pvData, DWORD *pcbData)
{
CDataEncodeMsg *msg = (CDataEncodeMsg *)hCryptMsg;
BOOL ret = FALSE;
switch (dwParamType)
{
case CMSG_CONTENT_PARAM:
if (msg->base.streamed)
SetLastError(E_INVALIDARG);
else
{
CRYPT_CONTENT_INFO info;
char rsa_data[] = "1.2.840.113549.1.7.1";
info.pszObjId = rsa_data;
info.Content.cbData = msg->bare_content_len;
info.Content.pbData = msg->bare_content;
ret = CryptEncodeObject(X509_ASN_ENCODING, PKCS_CONTENT_INFO, &info,
pvData, pcbData);
}
break;
case CMSG_BARE_CONTENT_PARAM:
if (msg->base.streamed)
SetLastError(E_INVALIDARG);
else
ret = CRYPT_CopyParam(pvData, pcbData, msg->bare_content,
msg->bare_content_len);
break;
default:
SetLastError(CRYPT_E_INVALID_MSG_TYPE);
}
return ret;
}
static HCRYPTMSG CDataEncodeMsg_Open(DWORD dwFlags, const void *pvMsgEncodeInfo,
LPSTR pszInnerContentObjID, PCMSG_STREAM_INFO pStreamInfo)
{
CDataEncodeMsg *msg;
if (pvMsgEncodeInfo)
{
SetLastError(E_INVALIDARG);
return NULL;
}
msg = CryptMemAlloc(sizeof(CDataEncodeMsg));
if (msg)
{
CryptMsgBase_Init((CryptMsgBase *)msg, dwFlags, pStreamInfo,
CDataEncodeMsg_Close, CDataEncodeMsg_GetParam, CDataEncodeMsg_Update);
msg->bare_content_len = sizeof(empty_data_content);
msg->bare_content = (LPBYTE)empty_data_content;
}
return (HCRYPTMSG)msg;
}
typedef struct _CHashEncodeMsg
{
CryptMsgBase base;
HCRYPTPROV prov;
HCRYPTHASH hash;
CRYPT_DATA_BLOB data;
} CHashEncodeMsg;
static void CHashEncodeMsg_Close(HCRYPTMSG hCryptMsg)
{
CHashEncodeMsg *msg = (CHashEncodeMsg *)hCryptMsg;
CryptMemFree(msg->data.pbData);
CryptDestroyHash(msg->hash);
if (msg->base.open_flags & CMSG_CRYPT_RELEASE_CONTEXT_FLAG)
CryptReleaseContext(msg->prov, 0);
}
static BOOL CRYPT_EncodePKCSDigestedData(CHashEncodeMsg *msg, void *pvData,
DWORD *pcbData)
{
BOOL ret;
ALG_ID algID;
DWORD size = sizeof(algID);
ret = CryptGetHashParam(msg->hash, HP_ALGID, (BYTE *)&algID, &size, 0);
if (ret)
{
CRYPT_ALGORITHM_IDENTIFIER algoId = { 0 };
DWORD version = CMSG_HASHED_DATA_PKCS_1_5_VERSION;
struct AsnEncodeSequenceItem items[7] = { { 0 } };
DWORD cItem = 0;
CRYPT_DATA_BLOB hash = { 0, NULL };
CRYPT_CONTENT_INFO contentInfo = { NULL, { 0, NULL } };
char oid_rsa_data[] = szOID_RSA_data;
items[cItem].pvStructInfo = &version;
items[cItem].encodeFunc = CRYPT_AsnEncodeInt;
cItem++;
algoId.pszObjId = (LPSTR)CertAlgIdToOID(algID);
/* FIXME: what about algoId.Parameters? */
items[cItem].pvStructInfo = &algoId;
items[cItem].encodeFunc = CRYPT_AsnEncodeAlgorithmIdWithNullParams;
cItem++;
/* Quirk: OID is only encoded messages if an update has happened */
if (msg->base.state != MsgStateInit)
contentInfo.pszObjId = oid_rsa_data;
if (!(msg->base.open_flags & CMSG_DETACHED_FLAG) && msg->data.cbData)
{
ret = CRYPT_AsnEncodeOctets(0, NULL, &msg->data,
CRYPT_ENCODE_ALLOC_FLAG, NULL,
(LPBYTE)&contentInfo.Content.pbData,
&contentInfo.Content.cbData);
}
items[cItem].pvStructInfo = &contentInfo;
items[cItem].encodeFunc =
CRYPT_AsnEncodePKCSContentInfoInternal;
cItem++;
if (msg->base.state == MsgStateFinalized)
{
size = sizeof(DWORD);
ret = CryptGetHashParam(msg->hash, HP_HASHSIZE,
(LPBYTE)&hash.cbData, &size, 0);
if (ret)
{
hash.pbData = CryptMemAlloc(hash.cbData);
ret = CryptGetHashParam(msg->hash, HP_HASHVAL, hash.pbData,
&hash.cbData, 0);
}
}
items[cItem].pvStructInfo = &hash;
items[cItem].encodeFunc = CRYPT_AsnEncodeOctets;
cItem++;
if (ret)
ret = CRYPT_AsnEncodeSequence(X509_ASN_ENCODING, items, cItem,
0, NULL, pvData, pcbData);
CryptMemFree(hash.pbData);
LocalFree(contentInfo.Content.pbData);
}
return ret;
}
static BOOL CHashEncodeMsg_GetParam(HCRYPTMSG hCryptMsg, DWORD dwParamType,
DWORD dwIndex, void *pvData, DWORD *pcbData)
{
CHashEncodeMsg *msg = (CHashEncodeMsg *)hCryptMsg;
BOOL ret = FALSE;
TRACE("(%p, %d, %d, %p, %p)\n", hCryptMsg, dwParamType, dwIndex,
pvData, pcbData);
switch (dwParamType)
{
case CMSG_BARE_CONTENT_PARAM:
if (msg->base.streamed)
SetLastError(E_INVALIDARG);
else
ret = CRYPT_EncodePKCSDigestedData(msg, pvData, pcbData);
break;
case CMSG_CONTENT_PARAM:
{
CRYPT_CONTENT_INFO info;
ret = CryptMsgGetParam(hCryptMsg, CMSG_BARE_CONTENT_PARAM, 0, NULL,
&info.Content.cbData);
if (ret)
{
info.Content.pbData = CryptMemAlloc(info.Content.cbData);
if (info.Content.pbData)
{
ret = CryptMsgGetParam(hCryptMsg, CMSG_BARE_CONTENT_PARAM, 0,
info.Content.pbData, &info.Content.cbData);
if (ret)
{
char oid_rsa_hashed[] = szOID_RSA_hashedData;
info.pszObjId = oid_rsa_hashed;
ret = CryptEncodeObjectEx(X509_ASN_ENCODING,
PKCS_CONTENT_INFO, &info, 0, NULL, pvData, pcbData);
}
CryptMemFree(info.Content.pbData);
}
else
ret = FALSE;
}
break;
}
case CMSG_COMPUTED_HASH_PARAM:
ret = CryptGetHashParam(msg->hash, HP_HASHVAL, (BYTE *)pvData, pcbData,
0);
break;
case CMSG_VERSION_PARAM:
if (msg->base.state != MsgStateFinalized)
SetLastError(CRYPT_E_MSG_ERROR);
else
{
DWORD version = CMSG_HASHED_DATA_PKCS_1_5_VERSION;
/* Since the data are always encoded as octets, the version is
* always 0 (see rfc3852, section 7)
*/
ret = CRYPT_CopyParam(pvData, pcbData, (const BYTE *)&version,
sizeof(version));
}
break;
default:
ret = FALSE;
}
return ret;
}
static BOOL CHashEncodeMsg_Update(HCRYPTMSG hCryptMsg, const BYTE *pbData,
DWORD cbData, BOOL fFinal)
{
CHashEncodeMsg *msg = (CHashEncodeMsg *)hCryptMsg;
BOOL ret = FALSE;
TRACE("(%p, %p, %d, %d)\n", hCryptMsg, pbData, cbData, fFinal);
if (msg->base.streamed || (msg->base.open_flags & CMSG_DETACHED_FLAG))
{
/* Doesn't do much, as stream output is never called, and you
* can't get the content.
*/
ret = CryptHashData(msg->hash, pbData, cbData, 0);
}
else
{
if (!fFinal)
SetLastError(CRYPT_E_MSG_ERROR);
else
{
ret = CryptHashData(msg->hash, pbData, cbData, 0);
if (ret)
{
msg->data.pbData = CryptMemAlloc(cbData);
if (msg->data.pbData)
{
memcpy(msg->data.pbData + msg->data.cbData, pbData, cbData);
msg->data.cbData += cbData;
}
else
ret = FALSE;
}
}
}
return ret;
}
static HCRYPTMSG CHashEncodeMsg_Open(DWORD dwFlags, const void *pvMsgEncodeInfo,
LPSTR pszInnerContentObjID, PCMSG_STREAM_INFO pStreamInfo)
{
CHashEncodeMsg *msg;
const CMSG_HASHED_ENCODE_INFO *info =
(const CMSG_HASHED_ENCODE_INFO *)pvMsgEncodeInfo;
HCRYPTPROV prov;
ALG_ID algID;
if (info->cbSize != sizeof(CMSG_HASHED_ENCODE_INFO))
{
SetLastError(E_INVALIDARG);
return NULL;
}
if (!(algID = CertOIDToAlgId(info->HashAlgorithm.pszObjId)))
{
SetLastError(CRYPT_E_UNKNOWN_ALGO);
return NULL;
}
if (info->hCryptProv)
prov = info->hCryptProv;
else
{
prov = CRYPT_GetDefaultProvider();
dwFlags &= ~CMSG_CRYPT_RELEASE_CONTEXT_FLAG;
}
msg = CryptMemAlloc(sizeof(CHashEncodeMsg));
if (msg)
{
CryptMsgBase_Init((CryptMsgBase *)msg, dwFlags, pStreamInfo,
CHashEncodeMsg_Close, CHashEncodeMsg_GetParam, CHashEncodeMsg_Update);
msg->prov = prov;
msg->data.cbData = 0;
msg->data.pbData = NULL;
if (!CryptCreateHash(prov, algID, 0, 0, &msg->hash))
{
CryptMsgClose(msg);
msg = NULL;
}
}
return (HCRYPTMSG)msg;
}
static inline const char *MSG_TYPE_STR(DWORD type)
{
switch (type)
{
#define _x(x) case (x): return #x
_x(CMSG_DATA);
_x(CMSG_SIGNED);
_x(CMSG_ENVELOPED);
_x(CMSG_SIGNED_AND_ENVELOPED);
_x(CMSG_HASHED);
_x(CMSG_ENCRYPTED);
#undef _x
default:
return wine_dbg_sprintf("unknown (%d)", type);
}
}
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HCRYPTMSG WINAPI CryptMsgOpenToEncode(DWORD dwMsgEncodingType, DWORD dwFlags,
DWORD dwMsgType, const void *pvMsgEncodeInfo, LPSTR pszInnerContentObjID,
PCMSG_STREAM_INFO pStreamInfo)
{
HCRYPTMSG msg = NULL;
TRACE("(%08x, %08x, %08x, %p, %s, %p)\n", dwMsgEncodingType, dwFlags,
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dwMsgType, pvMsgEncodeInfo, debugstr_a(pszInnerContentObjID), pStreamInfo);
if (GET_CMSG_ENCODING_TYPE(dwMsgEncodingType) != PKCS_7_ASN_ENCODING)
{
SetLastError(E_INVALIDARG);
return NULL;
}
switch (dwMsgType)
{
case CMSG_DATA:
msg = CDataEncodeMsg_Open(dwFlags, pvMsgEncodeInfo,
pszInnerContentObjID, pStreamInfo);
break;
case CMSG_HASHED:
msg = CHashEncodeMsg_Open(dwFlags, pvMsgEncodeInfo,
pszInnerContentObjID, pStreamInfo);
break;
case CMSG_SIGNED:
case CMSG_ENVELOPED:
FIXME("unimplemented for type %s\n", MSG_TYPE_STR(dwMsgType));
break;
case CMSG_SIGNED_AND_ENVELOPED:
case CMSG_ENCRYPTED:
/* defined but invalid, fall through */
default:
SetLastError(CRYPT_E_INVALID_MSG_TYPE);
}
return msg;
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}
typedef struct _CDecodeMsg
{
CryptMsgBase base;
DWORD type;
HCRYPTPROV crypt_prov;
CRYPT_DATA_BLOB msg_data;
PCRYPT_DATA_BLOB data; /* for type == CMSG_DATA */
} CDecodeMsg;
static void CDecodeMsg_Close(HCRYPTMSG hCryptMsg)
{
CDecodeMsg *msg = (CDecodeMsg *)hCryptMsg;
if (msg->base.open_flags & CMSG_CRYPT_RELEASE_CONTEXT_FLAG)
CryptReleaseContext(msg->crypt_prov, 0);
CryptMemFree(msg->msg_data.pbData);
LocalFree(msg->data);
}
static BOOL CDecodeMsg_CopyData(CDecodeMsg *msg, const BYTE *pbData,
DWORD cbData)
{
BOOL ret = TRUE;
if (cbData)
{
if (msg->msg_data.cbData)
msg->msg_data.pbData = CryptMemRealloc(msg->msg_data.pbData,
msg->msg_data.cbData + cbData);
else
msg->msg_data.pbData = CryptMemAlloc(cbData);
if (msg->msg_data.pbData)
{
memcpy(msg->msg_data.pbData + msg->msg_data.cbData, pbData, cbData);
msg->msg_data.cbData += cbData;
}
else
ret = FALSE;
}
return ret;
}
/* Decodes the content in blob as the type given, and updates the value
* (type, parameters, etc.) of msg based on what blob contains.
* It doesn't just use msg's type, to allow a recursive call from an implicitly
* typed message once the outer content info has been decoded.
*/
static BOOL CDecodeMsg_DecodeContent(CDecodeMsg *msg, CRYPT_DER_BLOB *blob,
DWORD type)
{
BOOL ret;
DWORD size;
switch (type)
{
case CMSG_DATA:
ret = CryptDecodeObjectEx(X509_ASN_ENCODING, X509_OCTET_STRING,
blob->pbData, blob->cbData, CRYPT_DECODE_ALLOC_FLAG, NULL,
(LPBYTE)&msg->data, &size);
if (ret)
msg->type = CMSG_DATA;
break;
case CMSG_HASHED:
case CMSG_ENVELOPED:
case CMSG_SIGNED:
FIXME("unimplemented for type %s\n", MSG_TYPE_STR(type));
ret = TRUE;
break;
default:
{
CRYPT_CONTENT_INFO *info;
ret = CryptDecodeObjectEx(X509_ASN_ENCODING, PKCS_CONTENT_INFO,
msg->msg_data.pbData, msg->msg_data.cbData, CRYPT_DECODE_ALLOC_FLAG,
NULL, (LPBYTE)&info, &size);
if (ret)
{
if (!strcmp(info->pszObjId, szOID_RSA_data))
ret = CDecodeMsg_DecodeContent(msg, &info->Content, CMSG_DATA);
else if (!strcmp(info->pszObjId, szOID_RSA_digestedData))
ret = CDecodeMsg_DecodeContent(msg, &info->Content,
CMSG_HASHED);
else if (!strcmp(info->pszObjId, szOID_RSA_envelopedData))
ret = CDecodeMsg_DecodeContent(msg, &info->Content,
CMSG_ENVELOPED);
else if (!strcmp(info->pszObjId, szOID_RSA_signedData))
ret = CDecodeMsg_DecodeContent(msg, &info->Content,
CMSG_SIGNED);
else
{
SetLastError(CRYPT_E_INVALID_MSG_TYPE);
ret = FALSE;
}
LocalFree(info);
}
}
}
return ret;
}
static BOOL CDecodeMsg_Update(HCRYPTMSG hCryptMsg, const BYTE *pbData,
DWORD cbData, BOOL fFinal)
{
CDecodeMsg *msg = (CDecodeMsg *)hCryptMsg;
BOOL ret = FALSE;
TRACE("(%p, %p, %d, %d)\n", hCryptMsg, pbData, cbData, fFinal);
if (msg->base.streamed)
{
ret = CDecodeMsg_CopyData(msg, pbData, cbData);
FIXME("(%p, %p, %d, %d): streamed update stub\n", hCryptMsg, pbData,
cbData, fFinal);
}
else
{
if (!fFinal)
SetLastError(CRYPT_E_MSG_ERROR);
else
{
ret = CDecodeMsg_CopyData(msg, pbData, cbData);
if (ret)
ret = CDecodeMsg_DecodeContent(msg, &msg->msg_data, msg->type);
}
}
return ret;
}
static BOOL CDecodeMsg_GetParam(HCRYPTMSG hCryptMsg, DWORD dwParamType,
DWORD dwIndex, void *pvData, DWORD *pcbData)
{
CDecodeMsg *msg = (CDecodeMsg *)hCryptMsg;
BOOL ret = FALSE;
switch (dwParamType)
{
case CMSG_TYPE_PARAM:
ret = CRYPT_CopyParam(pvData, pcbData, (const BYTE *)&msg->type,
sizeof(msg->type));
break;
default:
FIXME("unimplemented for parameter %d\n", dwParamType);
SetLastError(CRYPT_E_INVALID_MSG_TYPE);
}
return ret;
}
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HCRYPTMSG WINAPI CryptMsgOpenToDecode(DWORD dwMsgEncodingType, DWORD dwFlags,
DWORD dwMsgType, HCRYPTPROV hCryptProv, PCERT_INFO pRecipientInfo,
PCMSG_STREAM_INFO pStreamInfo)
{
CDecodeMsg *msg;
TRACE("(%08x, %08x, %08x, %08lx, %p, %p)\n", dwMsgEncodingType,
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dwFlags, dwMsgType, hCryptProv, pRecipientInfo, pStreamInfo);
if (GET_CMSG_ENCODING_TYPE(dwMsgEncodingType) != PKCS_7_ASN_ENCODING)
{
SetLastError(E_INVALIDARG);
return NULL;
}
msg = CryptMemAlloc(sizeof(CDecodeMsg));
if (msg)
{
CryptMsgBase_Init((CryptMsgBase *)msg, dwFlags, pStreamInfo,
CDecodeMsg_Close, CDecodeMsg_GetParam, CDecodeMsg_Update);
msg->type = dwMsgType;
if (hCryptProv)
msg->crypt_prov = hCryptProv;
else
{
msg->crypt_prov = CRYPT_GetDefaultProvider();
msg->base.open_flags &= ~CMSG_CRYPT_RELEASE_CONTEXT_FLAG;
}
msg->msg_data.cbData = 0;
msg->msg_data.pbData = NULL;
msg->data = NULL;
}
return msg;
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}
HCRYPTMSG WINAPI CryptMsgDuplicate(HCRYPTMSG hCryptMsg)
{
TRACE("(%p)\n", hCryptMsg);
if (hCryptMsg)
{
CryptMsgBase *msg = (CryptMsgBase *)hCryptMsg;
InterlockedIncrement(&msg->ref);
}
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return hCryptMsg;
}
BOOL WINAPI CryptMsgClose(HCRYPTMSG hCryptMsg)
{
TRACE("(%p)\n", hCryptMsg);
if (hCryptMsg)
{
CryptMsgBase *msg = (CryptMsgBase *)hCryptMsg;
if (InterlockedDecrement(&msg->ref) == 0)
{
TRACE("freeing %p\n", msg);
if (msg->close)
msg->close(msg);
CryptMemFree(msg);
}
}
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return TRUE;
}
BOOL WINAPI CryptMsgUpdate(HCRYPTMSG hCryptMsg, const BYTE *pbData,
DWORD cbData, BOOL fFinal)
{
CryptMsgBase *msg = (CryptMsgBase *)hCryptMsg;
BOOL ret = FALSE;
TRACE("(%p, %p, %d, %d)\n", hCryptMsg, pbData, cbData, fFinal);
if (msg->state == MsgStateFinalized)
SetLastError(CRYPT_E_MSG_ERROR);
else
{
ret = msg->update(hCryptMsg, pbData, cbData, fFinal);
msg->state = MsgStateUpdated;
if (fFinal)
msg->state = MsgStateFinalized;
}
return ret;
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}
BOOL WINAPI CryptMsgGetParam(HCRYPTMSG hCryptMsg, DWORD dwParamType,
DWORD dwIndex, void *pvData, DWORD *pcbData)
{
CryptMsgBase *msg = (CryptMsgBase *)hCryptMsg;
TRACE("(%p, %d, %d, %p, %p)\n", hCryptMsg, dwParamType, dwIndex,
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pvData, pcbData);
return msg->get_param(hCryptMsg, dwParamType, dwIndex, pvData, pcbData);
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}