fixed typo in configure error message
[public/netxms.git] / include / nxcpapi.h
CommitLineData
9fa031cd 1/*
0d9c1b96 2** NetXMS - Network Management System
9f2ad16c 3** NXCP API
68f384ea 4** Copyright (C) 2003-2010 Victor Kirhenshtein
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5**
6** This program is free software; you can redistribute it and/or modify
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7** it under the terms of the GNU Lesser General Public License as published by
8** the Free Software Foundation; either version 3 of the License, or
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9** (at your option) any later version.
10**
11** This program is distributed in the hope that it will be useful,
12** but WITHOUT ANY WARRANTY; without even the implied warranty of
13** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14** GNU General Public License for more details.
15**
68f384ea 16** You should have received a copy of the GNU Lesser General Public License
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17** along with this program; if not, write to the Free Software
18** Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
19**
9f2ad16c 20** File: nxcpapi.h
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21**
22**/
23
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24#ifndef _nxcpapi_h_
25#define _nxcpapi_h_
0d9c1b96 26
9f2ad16c 27#include <nms_util.h>
bf6fb6c3 28#include <nms_threads.h>
8c290af0 29
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30#ifdef _WIN32
31#include <wincrypt.h>
32#endif
33
4af351c7 34/**
b368969c 35 * Temporary buffer structure for RecvNXCPMessage() function
4af351c7 36 */
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37typedef struct
38{
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39 UINT32 bufferSize;
40 UINT32 bufferPos;
43a6f3ca 41 char buffer[NXCP_TEMP_BUF_SIZE];
b368969c 42} NXCP_BUFFER;
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43
44
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45#ifdef __cplusplus
46
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47struct MessageField;
48
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49/**
50 * Parsed NXCP message
51 */
b368969c 52class LIBNETXMS_EXPORTABLE NXCPMessage
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53{
54private:
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55 UINT16 m_code;
56 UINT16 m_flags;
5c44534b 57 UINT32 m_id;
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58 MessageField *m_fields; // Message fields
59 int m_version; // Protocol version
60 BYTE *m_data; // binary data
61 size_t m_dataSize; // binary data size
0d9c1b96 62
712b2760 63 void *set(UINT32 fieldId, BYTE type, const void *value, bool isSigned = false, size_t size = 0);
8f238fd7 64 void *get(UINT32 fieldId, BYTE requiredType, BYTE *fieldType = NULL);
b368969c 65 NXCP_MESSAGE_FIELD *find(UINT32 fieldId);
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66
67public:
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68 NXCPMessage(int version = NXCP_VERSION);
69 NXCPMessage(NXCPMessage *msg);
70 NXCPMessage(NXCP_MESSAGE *rawMag, int version = NXCP_VERSION);
71 ~NXCPMessage();
0d9c1b96 72
b368969c 73 NXCP_MESSAGE *createMessage();
0d9c1b96 74
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75 UINT16 getCode() { return m_code; }
76 void setCode(UINT16 code) { m_code = code; }
0d9c1b96 77
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78 UINT32 getId() { return m_id; }
79 void setId(UINT32 id) { m_id = id; }
0d9c1b96 80
6be0a20b 81 bool isEndOfFile() { return (m_flags & MF_END_OF_FILE) ? true : false; }
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82 bool isEndOfSequence() { return (m_flags & MF_END_OF_SEQUENCE) ? true : false; }
83 bool isReverseOrder() { return (m_flags & MF_REVERSE_ORDER) ? true : false; }
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84 bool isBinary() { return (m_flags & MF_BINARY) ? true : false; }
85
86 BYTE *getBinaryData() { return m_data; }
87 size_t getBinaryDataSize() { return m_dataSize; }
4af351c7 88
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89 bool isFieldExist(UINT32 fieldId) { return find(fieldId) != NULL; }
90 int getFieldType(UINT32 fieldId);
91
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92 void setField(UINT32 fieldId, INT16 value) { set(fieldId, NXCP_DT_INT16, &value, true); }
93 void setField(UINT32 fieldId, UINT16 value) { set(fieldId, NXCP_DT_INT16, &value, false); }
94 void setField(UINT32 fieldId, INT32 value) { set(fieldId, NXCP_DT_INT32, &value, true); }
95 void setField(UINT32 fieldId, UINT32 value) { set(fieldId, NXCP_DT_INT32, &value, false); }
96 void setField(UINT32 fieldId, INT64 value) { set(fieldId, NXCP_DT_INT64, &value, true); }
97 void setField(UINT32 fieldId, UINT64 value) { set(fieldId, NXCP_DT_INT64, &value, false); }
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98 void setField(UINT32 fieldId, double value) { set(fieldId, NXCP_DT_FLOAT, &value); }
99 void setField(UINT32 fieldId, const TCHAR *value) { if (value != NULL) set(fieldId, NXCP_DT_STRING, value); }
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100 void setField(UINT32 fieldId, const TCHAR *value, size_t maxLen) { if (value != NULL) set(fieldId, NXCP_DT_STRING, value, false, maxLen); }
101 void setField(UINT32 fieldId, BYTE *value, size_t size) { set(fieldId, NXCP_DT_BINARY, value, false, size); }
102 void setField(UINT32 fieldId, const InetAddress &value) { set(fieldId, NXCP_DT_INETADDR, (void *)&value); }
35f836fe 103#ifdef UNICODE
b368969c 104 void setFieldFromMBString(UINT32 fieldId, const char *value);
35f836fe 105#else
b368969c 106 void setFieldFromMBString(UINT32 fieldId, const char *value) { set(fieldId, NXCP_DT_STRING, value); }
35f836fe 107#endif
b368969c 108 void setFieldFromTime(UINT32 fieldId, time_t value) { UINT64 t = (UINT64)value; set(fieldId, NXCP_DT_INT64, &t); }
14149881 109 void setFieldFromInt32Array(UINT32 fieldId, size_t numElements, const UINT32 *elements);
b368969c 110 void setFieldFromInt32Array(UINT32 fieldId, IntegerArray<UINT32> *data);
8f238fd7 111 bool setFieldFromFile(UINT32 fieldId, const TCHAR *pszFileName);
967893bb 112
4101571e 113 INT16 getFieldAsInt16(UINT32 fieldId);
b368969c 114 UINT16 getFieldAsUInt16(UINT32 fieldId);
4101571e 115 INT32 getFieldAsInt32(UINT32 fieldId);
b368969c 116 UINT32 getFieldAsUInt32(UINT32 fieldId);
4101571e 117 INT64 getFieldAsInt64(UINT32 fieldId);
b368969c 118 UINT64 getFieldAsUInt64(UINT32 fieldId);
4101571e 119 double getFieldAsDouble(UINT32 fieldId);
d6bbfa4e 120 bool getFieldAsBoolean(UINT32 fieldId);
8f238fd7 121 time_t getFieldAsTime(UINT32 fieldId);
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122 UINT32 getFieldAsInt32Array(UINT32 fieldId, UINT32 numElements, UINT32 *buffer);
123 UINT32 getFieldAsInt32Array(UINT32 fieldId, IntegerArray<UINT32> *data);
ac14e3e6 124 BYTE *getBinaryFieldPtr(UINT32 fieldId, size_t *size);
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125 TCHAR *getFieldAsString(UINT32 fieldId, TCHAR *buffer = NULL, size_t bufferSize = 0);
126 char *getFieldAsMBString(UINT32 fieldId, char *buffer = NULL, size_t bufferSize = 0);
127 char *getFieldAsUtf8String(UINT32 fieldId, char *buffer = NULL, size_t bufferSize = 0);
128 UINT32 getFieldAsBinary(UINT32 fieldId, BYTE *buffer, size_t bufferSize);
712b2760 129 InetAddress getFieldAsInetAddress(UINT32 fieldId);
4101571e 130
b368969c 131 void deleteAllFields();
e44ac467 132
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133 void disableEncryption() { m_flags |= MF_DONT_ENCRYPT; }
134 void setEndOfSequence() { m_flags |= MF_END_OF_SEQUENCE; }
135 void setReverseOrderFlag() { m_flags |= MF_REVERSE_ORDER; }
934f53da 136
b368969c 137 static String dump(NXCP_MESSAGE *msg, int version);
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138};
139
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140/**
141 * Message waiting queue element structure
142 */
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143typedef struct
144{
b368969c 145 void *msg; // Pointer to message, either to NXCPMessage object or raw message
14149881 146 UINT64 sequence; // Sequence number
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147 UINT32 id; // Message ID
148 UINT32 ttl; // Message time-to-live in milliseconds
149 UINT16 code; // Message code
150 UINT16 isBinary; // 1 for binary (raw) messages
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151} WAIT_QUEUE_ELEMENT;
152
4af351c7 153/**
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154 * Max number of waiting threads in message queue
155 */
156#define MAX_MSGQUEUE_WAITERS 32
157
158/**
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159 * Message waiting queue class
160 */
9f2ad16c 161class LIBNETXMS_EXPORTABLE MsgWaitQueue
deaa4491 162{
deaa4491 163private:
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164#ifdef _WIN32
165 CRITICAL_SECTION m_mutex;
166 HANDLE m_wakeupEvents[MAX_MSGQUEUE_WAITERS];
167 BYTE m_waiters[MAX_MSGQUEUE_WAITERS];
168#else
169 pthread_mutex_t m_mutex;
170 pthread_cond_t m_wakeupCondition;
171#endif
172 CONDITION m_stopCondition;
173 UINT32 m_holdTime;
174 int m_size;
175 int m_allocated;
176 WAIT_QUEUE_ELEMENT *m_elements;
14149881 177 UINT64 m_sequence;
ccdbbb52 178 THREAD m_hHkThread;
deaa4491 179
c17f6cbc 180 void housekeeperThread();
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181 void *waitForMessageInternal(UINT16 isBinary, UINT16 code, UINT32 id, UINT32 timeout);
182
183 void lock()
184 {
185#ifdef _WIN32
186 EnterCriticalSection(&m_mutex);
187#else
188 pthread_mutex_lock(&m_mutex);
189#endif
190 }
191
192 void unlock()
193 {
194#ifdef _WIN32
195 LeaveCriticalSection(&m_mutex);
196#else
197 pthread_mutex_unlock(&m_mutex);
198#endif
199 }
cc022855 200
c17f6cbc 201 static THREAD_RESULT THREAD_CALL mwqThreadStarter(void *);
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202
203public:
204 MsgWaitQueue();
205 ~MsgWaitQueue();
206
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207 void put(NXCPMessage *pMsg);
208 void put(NXCP_MESSAGE *pMsg);
209 NXCPMessage *waitForMessage(WORD wCode, UINT32 dwId, UINT32 dwTimeOut)
deaa4491 210 {
b368969c 211 return (NXCPMessage *)waitForMessageInternal(0, wCode, dwId, dwTimeOut);
deaa4491 212 }
b368969c 213 NXCP_MESSAGE *waitForRawMessage(WORD wCode, UINT32 dwId, UINT32 dwTimeOut)
deaa4491 214 {
b368969c 215 return (NXCP_MESSAGE *)waitForMessageInternal(1, wCode, dwId, dwTimeOut);
deaa4491 216 }
cc022855 217
c17f6cbc 218 void clear();
f128c07c 219 void setHoldTime(UINT32 holdTime) { m_holdTime = holdTime; }
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220};
221
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222/**
223 * NXCP encryption context
224 */
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225class LIBNETXMS_EXPORTABLE NXCPEncryptionContext : public RefCountObject
226{
227private:
228 int m_cipher;
229 BYTE *m_sessionKey;
230 int m_keyLength;
231 BYTE m_iv[EVP_MAX_IV_LENGTH];
e4e091f0 232#ifdef _WITH_ENCRYPTION
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233 EVP_CIPHER_CTX m_encryptor;
234 EVP_CIPHER_CTX m_decryptor;
db05c2af 235 MUTEX m_encryptorLock;
e4e091f0 236#endif
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237
238 NXCPEncryptionContext();
e6336a90 239 bool initCipher(int cipher);
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240
241public:
b368969c 242 static NXCPEncryptionContext *create(NXCPMessage *msg, RSA *privateKey);
967893bb 243 static NXCPEncryptionContext *create(UINT32 ciphers);
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244
245 virtual ~NXCPEncryptionContext();
246
b368969c 247 NXCP_ENCRYPTED_MESSAGE *encryptMessage(NXCP_MESSAGE *msg);
6be0a20b 248 bool decryptMessage(NXCP_ENCRYPTED_MESSAGE *msg, BYTE *decryptionBuffer);
e6336a90 249
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250 int getCipher() { return m_cipher; }
251 BYTE *getSessionKey() { return m_sessionKey; }
252 int getKeyLength() { return m_keyLength; }
253 BYTE *getIV() { return m_iv; }
254};
255
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256/**
257 * Message receiver result codes
258 */
259enum MessageReceiverResult
260{
261 MSGRECV_SUCCESS = 0,
262 MSGRECV_CLOSED = 1,
263 MSGRECV_TIMEOUT = 2,
264 MSGRECV_COMM_FAILURE = 3,
265 MSGRECV_DECRYPTION_FAILURE = 4
266};
267
268/**
269 * Message receiver - abstract base class
270 */
271class LIBNETXMS_EXPORTABLE AbstractMessageReceiver
272{
273private:
274 BYTE *m_buffer;
275 BYTE *m_decryptionBuffer;
276 NXCPEncryptionContext *m_encryptionContext;
277 size_t m_initialSize;
278 size_t m_size;
279 size_t m_maxSize;
280 size_t m_dataSize;
281 size_t m_bytesToSkip;
282
b368969c 283 NXCPMessage *getMessageFromBuffer();
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284
285protected:
286 virtual int readBytes(BYTE *buffer, size_t size, UINT32 timeout) = 0;
287
288public:
289 AbstractMessageReceiver(size_t initialSize, size_t maxSize);
290 virtual ~AbstractMessageReceiver();
291
292 void setEncryptionContext(NXCPEncryptionContext *ctx) { m_encryptionContext = ctx; }
293
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294 NXCPMessage *readMessage(UINT32 timeout, MessageReceiverResult *result);
295 NXCP_MESSAGE *getRawMessageBuffer() { return (NXCP_MESSAGE *)m_buffer; }
296
297 static const TCHAR *resultToText(MessageReceiverResult result);
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298};
299
300/**
301 * Message receiver - socket implementation
302 */
303class LIBNETXMS_EXPORTABLE SocketMessageReceiver : public AbstractMessageReceiver
304{
305private:
306 SOCKET m_socket;
307
308protected:
309 virtual int readBytes(BYTE *buffer, size_t size, UINT32 timeout);
310
311public:
312 SocketMessageReceiver(SOCKET socket, size_t initialSize, size_t maxSize);
313 virtual ~SocketMessageReceiver();
314};
315
316/**
317 * Message receiver - UNIX socket/named pipe implementation
318 */
319class LIBNETXMS_EXPORTABLE PipeMessageReceiver : public AbstractMessageReceiver
320{
321private:
322 HPIPE m_pipe;
323#ifdef _WIN32
324 HANDLE m_readEvent;
325#endif
326
327protected:
328 virtual int readBytes(BYTE *buffer, size_t size, UINT32 timeout);
329
330public:
331 PipeMessageReceiver(HPIPE pipe, size_t initialSize, size_t maxSize);
332 virtual ~PipeMessageReceiver();
333};
334
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335#else /* __cplusplus */
336
b368969c 337typedef void NXCPMessage;
98abc9f1 338typedef void NXCPEncryptionContext;
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339
340#endif
341
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342
343//
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344// Functions
345//
346
347#ifdef __cplusplus
0d9c1b96 348
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349int LIBNETXMS_EXPORTABLE RecvNXCPMessage(SOCKET hSocket, NXCP_MESSAGE *pMsg,
350 NXCP_BUFFER *pBuffer, UINT32 dwMaxMsgSize,
98abc9f1 351 NXCPEncryptionContext **ppCtx,
967893bb 352 BYTE *pDecryptionBuffer, UINT32 dwTimeout);
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353int LIBNETXMS_EXPORTABLE RecvNXCPMessageEx(SOCKET hSocket, NXCP_MESSAGE **msgBuffer,
354 NXCP_BUFFER *nxcpBuffer, UINT32 *bufferSize,
cc022855 355 NXCPEncryptionContext **ppCtx,
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356 BYTE **decryptionBuffer, UINT32 dwTimeout,
357 UINT32 maxMsgSize);
b368969c 358NXCP_MESSAGE LIBNETXMS_EXPORTABLE *CreateRawNXCPMessage(WORD wCode, UINT32 dwId, WORD flags,
967893bb 359 UINT32 dwDataSize, void *pData,
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360 NXCP_MESSAGE *pBuffer);
361TCHAR LIBNETXMS_EXPORTABLE *NXCPMessageCodeName(WORD wCode, TCHAR *buffer);
967893bb 362BOOL LIBNETXMS_EXPORTABLE SendFileOverNXCP(SOCKET hSocket, UINT32 dwId, const TCHAR *pszFile,
cc022855 363 NXCPEncryptionContext *pCtx, long offset,
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364 void (* progressCallback)(INT64, void *), void *cbArg,
365 MUTEX mutex);
366BOOL LIBNETXMS_EXPORTABLE NXCPGetPeerProtocolVersion(SOCKET hSocket, int *pnVersion, MUTEX mutex);
cc022855 367
bf6fb6c3 368bool LIBNETXMS_EXPORTABLE InitCryptoLib(UINT32 dwEnabledCiphers, void (*debugCallback)(int, const TCHAR *, va_list args));
967893bb 369UINT32 LIBNETXMS_EXPORTABLE CSCPGetSupportedCiphers();
b368969c 370NXCP_ENCRYPTED_MESSAGE LIBNETXMS_EXPORTABLE *NXCPEncryptMessage(NXCPEncryptionContext *pCtx, NXCP_MESSAGE *pMsg);
bf6fb6c3 371bool LIBNETXMS_EXPORTABLE NXCPDecryptMessage(NXCPEncryptionContext *pCtx,
6be0a20b 372 NXCP_ENCRYPTED_MESSAGE *pMsg,
e44ac467 373 BYTE *pDecryptionBuffer);
b368969c 374UINT32 LIBNETXMS_EXPORTABLE SetupEncryptionContext(NXCPMessage *pMsg,
98abc9f1 375 NXCPEncryptionContext **ppCtx,
b368969c 376 NXCPMessage **ppResponse,
4bd3d6c5 377 RSA *pPrivateKey, int nNXCPVersion);
b368969c 378void LIBNETXMS_EXPORTABLE PrepareKeyRequestMsg(NXCPMessage *pMsg, RSA *pServerKey, bool useX509Format);
3aa0061c 379RSA LIBNETXMS_EXPORTABLE *LoadRSAKeys(const TCHAR *pszKeyFile);
15cf5acc 380
bb8136f7 381#ifdef _WIN32
967893bb 382BOOL LIBNETXMS_EXPORTABLE SignMessageWithCAPI(BYTE *pMsg, UINT32 dwMsgLen, const CERT_CONTEXT *pCert,
b368969c 383 BYTE *pBuffer, size_t bufferSize, UINT32 *pdwSigLen);
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384#endif
385
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386#endif
387
9f2ad16c 388#endif /* _nxcpapi_h_ */