xref: /titanic_41/usr/src/cmd/lms/LMEConnection.h (revision 5e01956f3000408c2a2c5a08c8d0acf2c2a9d8ee)
1 /*******************************************************************************
2  * Copyright (C) 2004-2008 Intel Corp. All rights reserved.
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions are met:
6  *
7  *  - Redistributions of source code must retain the above copyright notice,
8  *    this list of conditions and the following disclaimer.
9  *
10  *  - Redistributions in binary form must reproduce the above copyright notice,
11  *    this list of conditions and the following disclaimer in the documentation
12  *    and/or other materials provided with the distribution.
13  *
14  *  - Neither the name of Intel Corp. nor the names of its
15  *    contributors may be used to endorse or promote products derived from this
16  *    software without specific prior written permission.
17  *
18  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
19  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
20  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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27  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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29  *******************************************************************************/
30 
31 #ifndef __LME_CONNECTION_H__
32 #define __LME_CONNECTION_H__
33 
34 #if defined(__sun) || defined(_LINUX)
35 #include "HECIUnix.h"
36 #else
37 #include "HECIWin.h"
38 #endif
39 
40 #include <map>
41 #include <string>
42 #include "LMS_if.h"
43 #include "Thread.h"
44 #include "Semaphore.h"
45 #include "Event.h"
46 #include "ATNetworkTool.h"
47 
48 
49 struct AuthMethodData {
50 };
51 
52 struct AuthPasswordData : AuthMethodData {
53 	std::string Password;
54 };
55 
56 struct LMEMessage {
57 
58 	LMEMessage(APF_MESSAGE_TYPE type) :
59 		MessageType(type) {}
60 
61 	const APF_MESSAGE_TYPE MessageType;
62 };
63 
64 struct LMEDisconnectMessage : LMEMessage {
65 
66 	LMEDisconnectMessage(APF_DISCONNECT_REASON_CODE reasonCode) :
67 		LMEMessage(APF_DISCONNECT),
68 		ReasonCode(reasonCode) {}
69 
70 	APF_DISCONNECT_REASON_CODE ReasonCode;
71 };
72 
73 struct LMEServiceRequestMessage : LMEMessage {
74 
75 	LMEServiceRequestMessage(std::string serviceName = "") :
76 		LMEMessage(APF_SERVICE_REQUEST),
77 		ServiceName(serviceName) {}
78 
79 	std::string ServiceName;
80 };
81 
82 struct LMEGlobalRequestMessage : LMEMessage {
83 
84 	enum REQUEST_TYPE {
85 		TCP_FORWARD_REQUEST,
86 		TCP_FORWARD_CANCEL_REQUEST,
87 		UDP_SEND_TO
88 	};
89 
90 	LMEGlobalRequestMessage(REQUEST_TYPE type) :
91 		LMEMessage(APF_GLOBAL_REQUEST),
92 		RequestType(type) {}
93 
94 	const REQUEST_TYPE RequestType;
95 };
96 
97 struct LMEProtocolVersionMessage : LMEMessage {
98 
99 	LMEProtocolVersionMessage(UINT32 majorVersion = 0,
100 				  UINT32 minorVersion = 0,
101 				  APF_TRIGGER_REASON triggerReason = LME_REQUEST) :
102 		LMEMessage(APF_PROTOCOLVERSION),
103 		MajorVersion(majorVersion),
104 		MinorVersion(minorVersion),
105 		TriggerReason(triggerReason) {}
106 
107 	UINT32 MajorVersion;
108 	UINT32 MinorVersion;
109 	APF_TRIGGER_REASON TriggerReason;
110 
111 	struct LMEProtocolVersionMessage &operator=(const struct LMEProtocolVersionMessage &y)
112 	{
113 		if (this != &y) {
114 			this->MajorVersion = y.MajorVersion;
115 			this->MinorVersion = y.MinorVersion;
116 		}
117 		return *this;
118 	};
119 	bool operator<(const struct LMEProtocolVersionMessage &y) const
120 	{
121 		if (this->MajorVersion != y.MajorVersion) {
122 			return (this->MajorVersion < y.MajorVersion);
123 		}
124 		return (this->MinorVersion < y.MinorVersion);
125 	}
126 	bool operator>(const struct LMEProtocolVersionMessage &y) const
127 	{
128 		if (this->MajorVersion != y.MajorVersion) {
129 			return (this->MajorVersion > y.MajorVersion);
130 		}
131 		return (this->MinorVersion > y.MinorVersion);
132 	}
133 };
134 
135 struct LMEUserAuthRequestMessage : LMEMessage {
136 
137 	LMEUserAuthRequestMessage(std::string username = "",
138 				  std::string serviceName = "",
139 				  std::string methodName = "",
140 				  AuthMethodData *methodData = NULL) :
141 		LMEMessage(APF_USERAUTH_REQUEST),
142 		Username(username),
143 		ServiceName(ServiceName),
144 		MethodName(methodName),
145 		MethodData(methodData) {}
146 
147 	std::string Username;
148 	std::string ServiceName;
149 	std::string MethodName;
150 
151 	AuthMethodData *MethodData;
152 };
153 
154 
155 struct LMETcpForwardRequestMessage : LMEGlobalRequestMessage {
156 
157 	LMETcpForwardRequestMessage(std::string address = "", UINT32 port = 0) :
158 		LMEGlobalRequestMessage(TCP_FORWARD_REQUEST),
159 		Address(address),
160 		Port(port) {}
161 
162 	std::string Address;
163 	UINT32 Port;
164 };
165 
166 struct LMETcpForwardCancelRequestMessage : LMEGlobalRequestMessage {
167 
168 	LMETcpForwardCancelRequestMessage(std::string address = "", UINT32 port = 0) :
169 		LMEGlobalRequestMessage(TCP_FORWARD_CANCEL_REQUEST),
170 		Address(address),
171 		Port(port) {}
172 
173 	std::string Address;
174 	UINT32 Port;
175 };
176 
177 struct LMEUdpSendToMessage : LMEGlobalRequestMessage {
178 
179 	LMEUdpSendToMessage(std::string address = "", UINT32 port = 0,
180 			    UINT32 dataLength = 0, UINT8 *data = NULL) :
181 		LMEGlobalRequestMessage(UDP_SEND_TO),
182 		Address(address),
183 		Port(port),
184 		DataLength(dataLength)
185 	{
186 		if ((data != NULL) && (dataLength != 0)) {
187 			Data = new UINT8[dataLength];
188 			memcpy(Data, data, dataLength);
189 		} else {
190 			Data = NULL;
191 		}
192 
193 	}
194 
195 	~LMEUdpSendToMessage()
196 	{
197 		if (Data != NULL) {
198 			delete[] Data;
199 			Data = NULL;
200 		}
201 	}
202 
203 	std::string Address;
204 	UINT32 Port;
205 	UINT32 DataLength;
206 	UINT8 *Data;
207 };
208 
209 struct LMEChannelOpenRequestMessage : LMEMessage {
210 
211 	enum CHANNEL_TYPE {
212 		FORWARDED,
213 		DIRECT
214 	};
215 
216 	LMEChannelOpenRequestMessage(CHANNEL_TYPE channelType = FORWARDED,
217 				     UINT32 senderChannel = 0,
218 				     UINT32 initialWindow = 0,
219 				     std::string address = "", UINT32 port = 0) :
220 		LMEMessage(APF_CHANNEL_OPEN),
221 		ChannelType(channelType),
222 		SenderChannel(senderChannel),
223 		InitialWindow(initialWindow),
224 		Address(address),
225 		Port(port) {}
226 
227 	CHANNEL_TYPE ChannelType;
228 	UINT32 SenderChannel;
229 	UINT32 InitialWindow;
230 	std::string Address;
231 	UINT32 Port;
232 };
233 
234 struct LMEChannelOpenReplaySuccessMessage : LMEMessage {
235 
236 	LMEChannelOpenReplaySuccessMessage(UINT32 recipientChannel = 0,
237 					   UINT32 senderChannel = 0,
238 					   UINT32 initialWindow = 0) :
239 		LMEMessage(APF_CHANNEL_OPEN_CONFIRMATION),
240 		RecipientChannel(recipientChannel),
241 		SenderChannel(senderChannel),
242 		InitialWindow(initialWindow) {}
243 
244 	UINT32 RecipientChannel;
245 	UINT32 SenderChannel;
246 	UINT32 InitialWindow;
247 };
248 
249 struct LMEChannelOpenReplayFailureMessage : LMEMessage {
250 
251 	LMEChannelOpenReplayFailureMessage(UINT32 recipientChannel = 0,
252 	    OPEN_FAILURE_REASON reasonCode = OPEN_FAILURE_REASON_ADMINISTRATIVELY_PROHIBITED) :
253 		LMEMessage(APF_CHANNEL_OPEN_FAILURE),
254 		RecipientChannel(recipientChannel),
255 		ReasonCode(reasonCode) {}
256 
257 	UINT32 RecipientChannel;
258 	OPEN_FAILURE_REASON ReasonCode;
259 };
260 
261 struct LMEChannelCloseMessage : LMEMessage {
262 
263 	LMEChannelCloseMessage(UINT32 recipientChannel = 0) :
264 		LMEMessage(APF_CHANNEL_CLOSE),
265 		RecipientChannel(recipientChannel) {}
266 
267 	UINT32 RecipientChannel;
268 };
269 
270 struct LMEChannelDataMessage : LMEMessage {
271 
272 	LMEChannelDataMessage(UINT32 recipientChannel = 0,
273 			      UINT32 dataLength = 0,
274 			      UINT8 *data = NULL) :
275 		LMEMessage(APF_CHANNEL_DATA),
276 		RecipientChannel(recipientChannel),
277 		DataLength(dataLength)
278 	{
279 		if ((data != NULL) && (dataLength != 0)) {
280 			Data = new UINT8[dataLength];
281 			memcpy(Data, data, dataLength);
282 		} else {
283 			Data = NULL;
284 		}
285 	}
286 
287 	~LMEChannelDataMessage()
288 	{
289 		if (Data != NULL) {
290 			delete[] Data;
291 			Data = NULL;
292 		}
293 	}
294 
295 	const UINT32 RecipientChannel;
296 	const UINT32 DataLength;
297 	UINT8 *Data;
298 };
299 
300 struct LMEChannelWindowAdjustMessage : LMEMessage {
301 
302 	LMEChannelWindowAdjustMessage(UINT32 recipientChannel = 0,
303 				      UINT32 bytesToAdd = 0) :
304 		LMEMessage(APF_CHANNEL_WINDOW_ADJUST),
305 		RecipientChannel(recipientChannel),
306 		BytesToAdd(bytesToAdd) {}
307 
308 	UINT32 RecipientChannel;
309 	UINT32 BytesToAdd;
310 };
311 
312 typedef void (*HECICallback)(void *param, void *buffer, unsigned int len, int *status);
313 
314 class LMEConnection
315 {
316 public:
317 	LMEConnection(bool verbose = false);
318 	~LMEConnection();
319 
320 	bool Init(HECICallback cb, void *param);
321 	bool IsInitialized();
322 	bool Disconnect(APF_DISCONNECT_REASON_CODE reasonCode);
323 	bool ServiceAccept(std::string serviceName);
324 	bool UserAuthSuccess();
325 	bool ProtocolVersion(const LMEProtocolVersionMessage versionMessage);
326 	bool TcpForwardReplySuccess(UINT32 port);
327 	bool TcpForwardReplyFailure();
328 	bool TcpForwardCancelReplySuccess();
329 	bool TcpForwardCancelReplyFailure();
330 	bool ChannelOpenForwardedRequest(UINT32 sender, UINT32 connectedPort,
331 					 std::string originatorIP, UINT32 originatorPort);
332 	bool ChannelOpenReplaySuccess(UINT32 recipient, UINT32 sender);
333 	bool ChannelOpenReplayFailure(UINT32 recipient, UINT32 reason);
334 	bool ChannelClose(UINT32 recipient);
335 	int  ChannelData(UINT32 recipient, UINT32 len, unsigned char *buffer);
336 	bool ChannelWindowAdjust(UINT32 recipient, UINT32 len);
337 
338 	//BACKWARD COMPATIBLE PUBLIC - BEGIN
339 	bool CompatProtocolVersion();
340 	bool CompatRequestIPFQDN();
341 	bool CompatOpenConnection(in_port_t mePort, ATAddress addr, unsigned int &connID);
342 	int  CompatSendMessage(UINT8 connID, UINT32 len, unsigned char *buffer);
343 	void CompatCloseConnection(int connID, int status);
344 	//BACKWARD COMPATIBLE PUBLIC - END
345 
346 	void Deinit();
347 	unsigned int GetHeciBufferSize() const;
348 
349 	enum INIT_STATES {
350 		INIT_STATE_DISCONNECTED = 0,
351 		INIT_STATE_CONNECTING,
352 		INIT_STATE_CONNECTED
353 	};
354 
355 	static const UINT32 RX_WINDOW_SIZE;
356 
357 	unsigned char protocolVer;
358 
359 private:
360 	static const GUID _guid;
361 
362 	static void _rxThreadFunc(void *param);
363 
364 	void _doRX();
365 	int _receiveMessage(unsigned char *buffer, int len);
366 	int _sendMessage(unsigned char *buffer, int len);
367 	bool _checkMinMsgSize(unsigned char *buf, unsigned int bytesRead);
368 	void _apfGlobalRequest(unsigned char *rxBuffer, unsigned int bytesRead, int *status);
369 	void _apfUserAuthRequest(unsigned char *rxBuffer, unsigned int bytesRead, int *status);
370 	void _apfChannelOpen(unsigned char *rxBuffer, unsigned int bytesRead, int *status);
371 	void _apfChannelOpenDirect(unsigned char *rxBuffer, unsigned int bytesRead, UINT32 *senderChannel, int *status);
372 
373 
374 	unsigned char _reqID;
375 	unsigned char *_txBuffer;
376 	Thread *_rxThread;
377 	HECICallback _cb;
378 	void *_cbParam;
379 	Semaphore _initLock;
380 	Semaphore _sendMessageLock;
381 	INIT_STATES _initState;
382 	Event _threadStartedEvent;
383 #if defined(__sun) || defined(_LINUX)
384 	HECILinux _heci;
385 #else
386 	HECIWin _heci;
387 #endif
388 
389 	//BACKWARD COMPATIBLE PRIVATE - BEGIN
390 	static const GUID _guidCompat;
391 
392 	void _doRXCompat();
393 
394 	struct CompatConnection {
395 		Event *event;
396 		int connID;
397 		UINT8 status;
398 	};
399 	typedef std::map<int, CompatConnection> CompatConnMap;
400 	CompatConnMap _compatPendingConnections;
401 	Semaphore _compatMapLock;
402 #if defined(__sun) || defined(_LINUX)
403 	HECILinux _heciCompat;
404 #else
405 	HECIWin _heciCompat;
406 #endif
407 	//BACKWARD COMPATIBLE PRIVATE - END
408 
409 	HECI *_pHeci;
410 };
411 
412 #endif
413