Remove broken validation check logic
[platform/upstream/iotivity.git] / resource / csdk / stack / src / ocstack.c
1 //******************************************************************
2 //
3 // Copyright 2014 Intel Mobile Communications GmbH All Rights Reserved.
4 //
5 //-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
6 //
7 // Licensed under the Apache License, Version 2.0 (the "License");
8 // you may not use this file except in compliance with the License.
9 // You may obtain a copy of the License at
10 //
11 //      http://www.apache.org/licenses/LICENSE-2.0
12 //
13 // Unless required by applicable law or agreed to in writing, software
14 // distributed under the License is distributed on an "AS IS" BASIS,
15 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
16 // See the License for the specific language governing permissions and
17 // limitations under the License.
18 //
19 //-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
20
21
22 //-----------------------------------------------------------------------------
23 // Includes
24 //-----------------------------------------------------------------------------
25
26 // Defining _POSIX_C_SOURCE macro with 200112L (or greater) as value
27 // causes header files to expose definitions
28 // corresponding to the POSIX.1-2001 base
29 // specification (excluding the XSI extension).
30 // For POSIX.1-2001 base specification,
31 // Refer http://pubs.opengroup.org/onlinepubs/009695399/
32 #define _POSIX_C_SOURCE 200112L
33 #ifndef __STDC_FORMAT_MACROS
34 #define __STDC_FORMAT_MACROS
35 #endif
36 #ifndef __STDC_LIMIT_MACROS
37 #define __STDC_LIMIT_MACROS
38 #endif
39 #include <inttypes.h>
40 #include <string.h>
41 #include <ctype.h>
42
43 #include "ocstack.h"
44 #include "ocstackinternal.h"
45 #include "ocresourcehandler.h"
46 #include "occlientcb.h"
47 #include "ocobserve.h"
48 #include "ocrandom.h"
49 #include "oic_malloc.h"
50 #include "oic_string.h"
51 #include "logger.h"
52 #include "ocserverrequest.h"
53 #include "secureresourcemanager.h"
54 #include "doxmresource.h"
55 #include "cacommon.h"
56 #include "cainterface.h"
57 #include "ocpayload.h"
58 #include "ocpayloadcbor.h"
59
60 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
61 #include "routingutility.h"
62 #ifdef ROUTING_GATEWAY
63 #include "routingmanager.h"
64 #endif
65 #endif
66
67 #ifdef TCP_ADAPTER
68 #include "oickeepalive.h"
69 #endif
70
71 //#ifdef DIRECT_PAIRING
72 #include "directpairing.h"
73 //#endif
74
75 #ifdef WITH_ARDUINO
76 #include "Time.h"
77 #else
78 #include <sys/time.h>
79 #endif
80 #include "coap_time.h"
81 #include "utlist.h"
82 #include "pdu.h"
83
84 #ifndef ARDUINO
85 #include <arpa/inet.h>
86 #endif
87
88 #ifndef UINT32_MAX
89 #define UINT32_MAX   (0xFFFFFFFFUL)
90 #endif
91
92 //-----------------------------------------------------------------------------
93 // Typedefs
94 //-----------------------------------------------------------------------------
95 typedef enum
96 {
97     OC_STACK_UNINITIALIZED = 0,
98     OC_STACK_INITIALIZED,
99     OC_STACK_UNINIT_IN_PROGRESS
100 } OCStackState;
101
102 #ifdef WITH_PRESENCE
103 typedef enum
104 {
105     OC_PRESENCE_UNINITIALIZED = 0,
106     OC_PRESENCE_INITIALIZED
107 } OCPresenceState;
108 #endif
109
110 //-----------------------------------------------------------------------------
111 // Private variables
112 //-----------------------------------------------------------------------------
113 static OCStackState stackState = OC_STACK_UNINITIALIZED;
114
115 OCResource *headResource = NULL;
116 static OCResource *tailResource = NULL;
117 static OCResourceHandle platformResource = {0};
118 static OCResourceHandle deviceResource = {0};
119 #ifdef WITH_PRESENCE
120 static OCPresenceState presenceState = OC_PRESENCE_UNINITIALIZED;
121 static PresenceResource presenceResource;
122 static uint8_t PresenceTimeOutSize = 0;
123 static uint32_t PresenceTimeOut[] = {50, 75, 85, 95, 100};
124 #endif
125
126 static OCMode myStackMode;
127 #ifdef RA_ADAPTER
128 //TODO: revisit this design
129 static bool gRASetInfo = false;
130 #endif
131 OCDeviceEntityHandler defaultDeviceHandler;
132 void* defaultDeviceHandlerCallbackParameter = NULL;
133 static const char COAP_TCP[] = "coap+tcp:";
134
135 //#ifdef DIRECT_PAIRING
136 OCDirectPairingCB gDirectpairingCallback = NULL;
137 //#endif
138
139 //-----------------------------------------------------------------------------
140 // Macros
141 //-----------------------------------------------------------------------------
142 #define TAG  "OIC_RI_STACK"
143 #define VERIFY_SUCCESS(op, successCode) { if ((op) != (successCode)) \
144             {OIC_LOG_V(FATAL, TAG, "%s failed!!", #op); goto exit;} }
145 #define VERIFY_NON_NULL(arg, logLevel, retVal) { if (!(arg)) { OIC_LOG((logLevel), \
146              TAG, #arg " is NULL"); return (retVal); } }
147 #define VERIFY_NON_NULL_NR(arg, logLevel) { if (!(arg)) { OIC_LOG((logLevel), \
148              TAG, #arg " is NULL"); return; } }
149 #define VERIFY_NON_NULL_V(arg) { if (!arg) {OIC_LOG(FATAL, TAG, #arg " is NULL");\
150     goto exit;} }
151
152 //TODO: we should allow the server to define this
153 #define MAX_OBSERVE_AGE (0x2FFFFUL)
154
155 #define MILLISECONDS_PER_SECOND   (1000)
156
157 //-----------------------------------------------------------------------------
158 // Private internal function prototypes
159 //-----------------------------------------------------------------------------
160
161 /**
162  * Generate handle of OCDoResource invocation for callback management.
163  *
164  * @return Generated OCDoResource handle.
165  */
166 static OCDoHandle GenerateInvocationHandle();
167
168 /**
169  * Initialize resource data structures, variables, etc.
170  *
171  * @return ::OC_STACK_OK on success, some other value upon failure.
172  */
173 static OCStackResult initResources();
174
175 /**
176  * Add a resource to the end of the linked list of resources.
177  *
178  * @param resource Resource to be added
179  */
180 static void insertResource(OCResource *resource);
181
182 /**
183  * Find a resource in the linked list of resources.
184  *
185  * @param resource Resource to be found.
186  * @return Pointer to resource that was found in the linked list or NULL if the resource was not
187  *         found.
188  */
189 static OCResource *findResource(OCResource *resource);
190
191 /**
192  * Insert a resource type into a resource's resource type linked list.
193  * If resource type already exists, it will not be inserted and the
194  * resourceType will be free'd.
195  * resourceType->next should be null to avoid memory leaks.
196  * Function returns silently for null args.
197  *
198  * @param resource Resource where resource type is to be inserted.
199  * @param resourceType Resource type to be inserted.
200  */
201 static void insertResourceType(OCResource *resource,
202         OCResourceType *resourceType);
203
204 /**
205  * Get a resource type at the specified index within a resource.
206  *
207  * @param handle Handle of resource.
208  * @param index Index of resource type.
209  *
210  * @return Pointer to resource type if found, NULL otherwise.
211  */
212 static OCResourceType *findResourceTypeAtIndex(OCResourceHandle handle,
213         uint8_t index);
214
215 /**
216  * Insert a resource interface into a resource's resource interface linked list.
217  * If resource interface already exists, it will not be inserted and the
218  * resourceInterface will be free'd.
219  * resourceInterface->next should be null to avoid memory leaks.
220  *
221  * @param resource Resource where resource interface is to be inserted.
222  * @param resourceInterface Resource interface to be inserted.
223  */
224 static void insertResourceInterface(OCResource *resource,
225         OCResourceInterface *resourceInterface);
226
227 /**
228  * Get a resource interface at the specified index within a resource.
229  *
230  * @param handle Handle of resource.
231  * @param index Index of resource interface.
232  *
233  * @return Pointer to resource interface if found, NULL otherwise.
234  */
235 static OCResourceInterface *findResourceInterfaceAtIndex(
236         OCResourceHandle handle, uint8_t index);
237
238 /**
239  * Delete all of the dynamically allocated elements that were created for the resource type.
240  *
241  * @param resourceType Specified resource type.
242  */
243 static void deleteResourceType(OCResourceType *resourceType);
244
245 /**
246  * Delete all of the dynamically allocated elements that were created for the resource interface.
247  *
248  * @param resourceInterface Specified resource interface.
249  */
250 static void deleteResourceInterface(OCResourceInterface *resourceInterface);
251
252 /**
253  * Delete all of the dynamically allocated elements that were created for the resource.
254  *
255  * @param resource Specified resource.
256  */
257 static void deleteResourceElements(OCResource *resource);
258
259 /**
260  * Delete resource specified by handle.  Deletes resource and all resourcetype and resourceinterface
261  * linked lists.
262  *
263  * @param handle Handle of resource to be deleted.
264  *
265  * @return ::OC_STACK_OK on success, some other value upon failure.
266  */
267 static OCStackResult deleteResource(OCResource *resource);
268
269 /**
270  * Delete all of the resources in the resource list.
271  */
272 static void deleteAllResources();
273
274 /**
275  * Increment resource sequence number.  Handles rollover.
276  *
277  * @param resPtr Pointer to resource.
278  */
279 static void incrementSequenceNumber(OCResource * resPtr);
280
281 /**
282  * Verify the lengths of the URI and the query separately.
283  *
284  * @param inputUri Input URI and query.
285  * @param uriLen The length of the initial URI with query.
286  * @return ::OC_STACK_OK on success, some other value upon failure.
287  */
288 static OCStackResult verifyUriQueryLength(const char * inputUri,
289         uint16_t uriLen);
290
291 /*
292  * Attempts to initialize every network interface that the CA Layer might have compiled in.
293  *
294  * Note: At least one interface must succeed to initialize. If all calls to @ref CASelectNetwork
295  * return something other than @ref CA_STATUS_OK, then this function fails.
296  *
297  * @return ::CA_STATUS_OK on success, some other value upon failure.
298  */
299 static CAResult_t OCSelectNetwork();
300
301 /**
302  * Get the CoAP ticks after the specified number of milli-seconds.
303  *
304  * @param afterMilliSeconds Milli-seconds.
305  * @return
306  *     CoAP ticks
307  */
308 static uint32_t GetTicks(uint32_t afterMilliSeconds);
309
310 /**
311  * Convert CAResponseResult_t to OCStackResult.
312  *
313  * @param caCode CAResponseResult_t code.
314  * @return ::OC_STACK_OK on success, some other value upon failure.
315  */
316 static OCStackResult CAToOCStackResult(CAResponseResult_t caCode);
317
318 /**
319  * Convert OCStackResult to CAResponseResult_t.
320  *
321  * @param caCode OCStackResult code.
322  * @param method OCMethod method the return code replies to.
323  * @return ::CA_CONTENT on OK, some other value upon failure.
324  */
325 static CAResponseResult_t OCToCAStackResult(OCStackResult ocCode, OCMethod method);
326
327 /**
328  * Convert OCTransportFlags_t to CATransportModifiers_t.
329  *
330  * @param ocConType OCTransportFlags_t input.
331  * @return CATransportFlags
332  */
333 static CATransportFlags_t OCToCATransportFlags(OCTransportFlags ocConType);
334
335 /**
336  * Convert CATransportFlags_t to OCTransportModifiers_t.
337  *
338  * @param caConType CATransportFlags_t input.
339  * @return OCTransportFlags
340  */
341 static OCTransportFlags CAToOCTransportFlags(CATransportFlags_t caConType);
342
343 /**
344  * Handle response from presence request.
345  *
346  * @param endPoint CA remote endpoint.
347  * @param responseInfo CA response info.
348  * @return ::OC_STACK_OK on success, some other value upon failure.
349  */
350 static OCStackResult HandlePresenceResponse(const CAEndpoint_t *endPoint,
351         const CAResponseInfo_t *responseInfo);
352
353 /**
354  * This function will be called back by CA layer when a response is received.
355  *
356  * @param endPoint CA remote endpoint.
357  * @param responseInfo CA response info.
358  */
359 static void HandleCAResponses(const CAEndpoint_t* endPoint,
360         const CAResponseInfo_t* responseInfo);
361
362 /**
363  * This function will be called back by CA layer when a request is received.
364  *
365  * @param endPoint CA remote endpoint.
366  * @param requestInfo CA request info.
367  */
368 static void HandleCARequests(const CAEndpoint_t* endPoint,
369         const CARequestInfo_t* requestInfo);
370
371 /**
372  * Extract query from a URI.
373  *
374  * @param uri Full URI with query.
375  * @param query Pointer to string that will contain query.
376  * @param newURI Pointer to string that will contain URI.
377  * @return ::OC_STACK_OK on success, some other value upon failure.
378  */
379 static OCStackResult getQueryFromUri(const char * uri, char** resourceType, char ** newURI);
380
381 /**
382  * Finds a resource type in an OCResourceType link-list.
383  *
384  * @param resourceTypeList The link-list to be searched through.
385  * @param resourceTypeName The key to search for.
386  *
387  * @return Resource type that matches the key (ie. resourceTypeName) or
388  *      NULL if there is either an invalid parameter or this function was unable to find the key.
389  */
390 static OCResourceType *findResourceType(OCResourceType * resourceTypeList,
391         const char * resourceTypeName);
392
393 /**
394  * Reset presence TTL for a ClientCB struct. ttlLevel will be set to 0.
395  * TTL will be set to maxAge.
396  *
397  * @param cbNode Callback Node for which presence ttl is to be reset.
398  * @param maxAge New value of ttl in seconds.
399
400  * @return ::OC_STACK_OK on success, some other value upon failure.
401  */
402 static OCStackResult ResetPresenceTTL(ClientCB *cbNode, uint32_t maxAgeSeconds);
403
404 /**
405  * Ensure the accept header option is set appropriatly before sending the requests and routing
406  * header option is updated with destination.
407  *
408  * @param object CA remote endpoint.
409  * @param requestInfo CA request info.
410  *
411  * @return ::OC_STACK_OK on success, some other value upon failure.
412  */
413 static OCStackResult OCSendRequest(const CAEndpoint_t *object, CARequestInfo_t *requestInfo);
414
415 //-----------------------------------------------------------------------------
416 // Internal functions
417 //-----------------------------------------------------------------------------
418
419 uint32_t GetTicks(uint32_t afterMilliSeconds)
420 {
421     coap_tick_t now;
422     coap_ticks(&now);
423
424     // Guard against overflow of uint32_t
425     if (afterMilliSeconds <= ((UINT32_MAX - (uint32_t)now) * MILLISECONDS_PER_SECOND) /
426                              COAP_TICKS_PER_SECOND)
427     {
428         return now + (afterMilliSeconds * COAP_TICKS_PER_SECOND)/MILLISECONDS_PER_SECOND;
429     }
430     else
431     {
432         return UINT32_MAX;
433     }
434 }
435
436 void CopyEndpointToDevAddr(const CAEndpoint_t *in, OCDevAddr *out)
437 {
438     VERIFY_NON_NULL_NR(in, FATAL);
439     VERIFY_NON_NULL_NR(out, FATAL);
440
441     out->adapter = (OCTransportAdapter)in->adapter;
442     out->flags = CAToOCTransportFlags(in->flags);
443     OICStrcpy(out->addr, sizeof(out->addr), in->addr);
444     out->port = in->port;
445     out->interface = in->interface;
446 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
447     memcpy(out->routeData, in->routeData, sizeof(out->routeData));
448 #endif
449 }
450
451 void CopyDevAddrToEndpoint(const OCDevAddr *in, CAEndpoint_t *out)
452 {
453     VERIFY_NON_NULL_NR(in, FATAL);
454     VERIFY_NON_NULL_NR(out, FATAL);
455
456     out->adapter = (CATransportAdapter_t)in->adapter;
457     out->flags = OCToCATransportFlags(in->flags);
458     OICStrcpy(out->addr, sizeof(out->addr), in->addr);
459 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
460     memcpy(out->routeData, in->routeData, sizeof(out->routeData));
461 #endif
462     out->port = in->port;
463     out->interface = in->interface;
464 }
465
466 void FixUpClientResponse(OCClientResponse *cr)
467 {
468     VERIFY_NON_NULL_NR(cr, FATAL);
469
470     cr->addr = &cr->devAddr;
471     cr->connType = (OCConnectivityType)
472         ((cr->devAddr.adapter << CT_ADAPTER_SHIFT) | (cr->devAddr.flags & CT_MASK_FLAGS));
473 }
474
475 static OCStackResult OCSendRequest(const CAEndpoint_t *object, CARequestInfo_t *requestInfo)
476 {
477     VERIFY_NON_NULL(object, FATAL, OC_STACK_INVALID_PARAM);
478     VERIFY_NON_NULL(requestInfo, FATAL, OC_STACK_INVALID_PARAM);
479
480 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
481     OCStackResult rmResult = RMAddInfo(object->routeData, requestInfo, true, NULL);
482     if (OC_STACK_OK != rmResult)
483     {
484         OIC_LOG(ERROR, TAG, "Add destination option failed");
485         return rmResult;
486     }
487 #endif
488
489     // OC stack prefer CBOR encoded payloads.
490     requestInfo->info.acceptFormat = CA_FORMAT_APPLICATION_CBOR;
491     CAResult_t result = CASendRequest(object, requestInfo);
492     if(CA_STATUS_OK != result)
493     {
494         OIC_LOG_V(ERROR, TAG, "CASendRequest failed with CA error %u", result);
495         return CAResultToOCResult(result);
496     }
497     return OC_STACK_OK;
498 }
499 //-----------------------------------------------------------------------------
500 // Internal API function
501 //-----------------------------------------------------------------------------
502
503 // This internal function is called to update the stack with the status of
504 // observers and communication failures
505 OCStackResult OCStackFeedBack(CAToken_t token, uint8_t tokenLength, uint8_t status)
506 {
507     OCStackResult result = OC_STACK_ERROR;
508     ResourceObserver * observer = NULL;
509     OCEntityHandlerRequest ehRequest = {0};
510
511     switch(status)
512     {
513     case OC_OBSERVER_NOT_INTERESTED:
514         OIC_LOG(DEBUG, TAG, "observer not interested in our notifications");
515         observer = GetObserverUsingToken (token, tokenLength);
516         if(observer)
517         {
518             result = FormOCEntityHandlerRequest(&ehRequest,
519                                                 (OCRequestHandle)NULL,
520                                                 OC_REST_NOMETHOD,
521                                                 &observer->devAddr,
522                                                 (OCResourceHandle)NULL,
523                                                 NULL, PAYLOAD_TYPE_REPRESENTATION,
524                                                 NULL, 0, 0, NULL,
525                                                 OC_OBSERVE_DEREGISTER,
526                                                 observer->observeId);
527             if(result != OC_STACK_OK)
528             {
529                 return result;
530             }
531             observer->resource->entityHandler(OC_OBSERVE_FLAG, &ehRequest,
532                             observer->resource->entityHandlerCallbackParam);
533         }
534
535         result = DeleteObserverUsingToken (token, tokenLength);
536         if(result == OC_STACK_OK)
537         {
538             OIC_LOG(DEBUG, TAG, "Removed observer successfully");
539         }
540         else
541         {
542             result = OC_STACK_OK;
543             OIC_LOG(DEBUG, TAG, "Observer Removal failed");
544         }
545         break;
546
547     case OC_OBSERVER_STILL_INTERESTED:
548         OIC_LOG(DEBUG, TAG, "observer still interested, reset the failedCount");
549         observer = GetObserverUsingToken (token, tokenLength);
550         if(observer)
551         {
552             observer->forceHighQos = 0;
553             observer->failedCommCount = 0;
554             result = OC_STACK_OK;
555         }
556         else
557         {
558             result = OC_STACK_OBSERVER_NOT_FOUND;
559         }
560         break;
561
562     case OC_OBSERVER_FAILED_COMM:
563         OIC_LOG(DEBUG, TAG, "observer is unreachable");
564         observer = GetObserverUsingToken (token, tokenLength);
565         if(observer)
566         {
567             if(observer->failedCommCount >= MAX_OBSERVER_FAILED_COMM)
568             {
569                 result = FormOCEntityHandlerRequest(&ehRequest,
570                                                     (OCRequestHandle)NULL,
571                                                     OC_REST_NOMETHOD,
572                                                     &observer->devAddr,
573                                                     (OCResourceHandle)NULL,
574                                                     NULL, PAYLOAD_TYPE_REPRESENTATION,
575                                                     NULL, 0, 0, NULL,
576                                                     OC_OBSERVE_DEREGISTER,
577                                                     observer->observeId);
578                 if(result != OC_STACK_OK)
579                 {
580                     return OC_STACK_ERROR;
581                 }
582                 observer->resource->entityHandler(OC_OBSERVE_FLAG, &ehRequest,
583                                     observer->resource->entityHandlerCallbackParam);
584
585                 result = DeleteObserverUsingToken (token, tokenLength);
586                 if(result == OC_STACK_OK)
587                 {
588                     OIC_LOG(DEBUG, TAG, "Removed observer successfully");
589                 }
590                 else
591                 {
592                     result = OC_STACK_OK;
593                     OIC_LOG(DEBUG, TAG, "Observer Removal failed");
594                 }
595             }
596             else
597             {
598                 observer->failedCommCount++;
599                 result = OC_STACK_CONTINUE;
600             }
601             observer->forceHighQos = 1;
602             OIC_LOG_V(DEBUG, TAG, "Failed count for this observer is %d",observer->failedCommCount);
603         }
604         break;
605     default:
606         OIC_LOG(ERROR, TAG, "Unknown status");
607         result = OC_STACK_ERROR;
608         break;
609         }
610     return result;
611 }
612 OCStackResult CAToOCStackResult(CAResponseResult_t caCode)
613 {
614     OCStackResult ret = OC_STACK_ERROR;
615
616     switch(caCode)
617     {
618         case CA_CREATED:
619             ret = OC_STACK_RESOURCE_CREATED;
620             break;
621         case CA_DELETED:
622             ret = OC_STACK_RESOURCE_DELETED;
623             break;
624         case CA_CHANGED:
625         case CA_CONTENT:
626         case CA_VALID:
627             ret = OC_STACK_OK;
628             break;
629         case CA_BAD_REQ:
630             ret = OC_STACK_INVALID_QUERY;
631             break;
632         case CA_UNAUTHORIZED_REQ:
633             ret = OC_STACK_UNAUTHORIZED_REQ;
634             break;
635         case CA_BAD_OPT:
636             ret = OC_STACK_INVALID_OPTION;
637             break;
638         case CA_NOT_FOUND:
639             ret = OC_STACK_NO_RESOURCE;
640             break;
641         case CA_RETRANSMIT_TIMEOUT:
642             ret = OC_STACK_COMM_ERROR;
643             break;
644         default:
645             break;
646     }
647     return ret;
648 }
649
650 CAResponseResult_t OCToCAStackResult(OCStackResult ocCode, OCMethod method)
651 {
652     CAResponseResult_t ret = CA_INTERNAL_SERVER_ERROR;
653
654     switch(ocCode)
655     {
656         case OC_STACK_OK:
657            switch (method)
658            {
659                case OC_REST_PUT:
660                case OC_REST_POST:
661                    // This Response Code is like HTTP 204 "No Content" but only used in
662                    // response to POST and PUT requests.
663                    ret = CA_CHANGED;
664                    break;
665                case OC_REST_GET:
666                    // This Response Code is like HTTP 200 "OK" but only used in response to
667                    // GET requests.
668                    ret = CA_CONTENT;
669                    break;
670                default:
671                    // This should not happen but,
672                    // give it a value just in case but output an error
673                    ret = CA_CONTENT;
674                    OIC_LOG_V(ERROR, TAG, "Unexpected OC_STACK_OK return code for method [%d].", method);
675             }
676             break;
677         case OC_STACK_RESOURCE_CREATED:
678             ret = CA_CREATED;
679             break;
680         case OC_STACK_RESOURCE_DELETED:
681             ret = CA_DELETED;
682             break;
683         case OC_STACK_INVALID_QUERY:
684             ret = CA_BAD_REQ;
685             break;
686         case OC_STACK_INVALID_OPTION:
687             ret = CA_BAD_OPT;
688             break;
689         case OC_STACK_NO_RESOURCE:
690             ret = CA_NOT_FOUND;
691             break;
692         case OC_STACK_COMM_ERROR:
693             ret = CA_RETRANSMIT_TIMEOUT;
694             break;
695         case OC_STACK_UNAUTHORIZED_REQ:
696             ret = CA_UNAUTHORIZED_REQ;
697             break;
698         default:
699             break;
700     }
701     return ret;
702 }
703
704 CATransportFlags_t OCToCATransportFlags(OCTransportFlags ocFlags)
705 {
706     CATransportFlags_t caFlags = (CATransportFlags_t)ocFlags;
707
708     // supply default behavior.
709     if ((caFlags & (CA_IPV6|CA_IPV4)) == 0)
710     {
711         caFlags = (CATransportFlags_t)(caFlags|CA_IPV6|CA_IPV4);
712     }
713     if ((caFlags & OC_MASK_SCOPE) == 0)
714     {
715         caFlags = (CATransportFlags_t)(caFlags|OC_SCOPE_LINK);
716     }
717     return caFlags;
718 }
719
720 OCTransportFlags CAToOCTransportFlags(CATransportFlags_t caFlags)
721 {
722     return (OCTransportFlags)caFlags;
723 }
724
725 static OCStackResult ResetPresenceTTL(ClientCB *cbNode, uint32_t maxAgeSeconds)
726 {
727     uint32_t lowerBound  = 0;
728     uint32_t higherBound = 0;
729
730     if (!cbNode || !cbNode->presence || !cbNode->presence->timeOut)
731     {
732         return OC_STACK_INVALID_PARAM;
733     }
734
735     OIC_LOG_V(INFO, TAG, "Update presence TTL, time is %u", GetTicks(0));
736
737     cbNode->presence->TTL = maxAgeSeconds;
738
739     for (int index = 0; index < PresenceTimeOutSize; index++)
740     {
741         // Guard against overflow
742         if (cbNode->presence->TTL < (UINT32_MAX/(MILLISECONDS_PER_SECOND*PresenceTimeOut[index]))
743                                      * 100)
744         {
745             lowerBound = GetTicks((PresenceTimeOut[index] *
746                                   cbNode->presence->TTL *
747                                   MILLISECONDS_PER_SECOND)/100);
748         }
749         else
750         {
751             lowerBound = GetTicks(UINT32_MAX);
752         }
753
754         if (cbNode->presence->TTL < (UINT32_MAX/(MILLISECONDS_PER_SECOND*PresenceTimeOut[index+1]))
755                                      * 100)
756         {
757             higherBound = GetTicks((PresenceTimeOut[index + 1] *
758                                    cbNode->presence->TTL *
759                                    MILLISECONDS_PER_SECOND)/100);
760         }
761         else
762         {
763             higherBound = GetTicks(UINT32_MAX);
764         }
765
766         cbNode->presence->timeOut[index] = OCGetRandomRange(lowerBound, higherBound);
767
768         OIC_LOG_V(DEBUG, TAG, "lowerBound timeout  %d", lowerBound);
769         OIC_LOG_V(DEBUG, TAG, "higherBound timeout %d", higherBound);
770         OIC_LOG_V(DEBUG, TAG, "timeOut entry  %d", cbNode->presence->timeOut[index]);
771     }
772
773     cbNode->presence->TTLlevel = 0;
774
775     OIC_LOG_V(DEBUG, TAG, "this TTL level %d", cbNode->presence->TTLlevel);
776     return OC_STACK_OK;
777 }
778
779 const char *convertTriggerEnumToString(OCPresenceTrigger trigger)
780 {
781     if (trigger == OC_PRESENCE_TRIGGER_CREATE)
782     {
783         return OC_RSRVD_TRIGGER_CREATE;
784     }
785     else if (trigger == OC_PRESENCE_TRIGGER_CHANGE)
786     {
787         return OC_RSRVD_TRIGGER_CHANGE;
788     }
789     else
790     {
791         return OC_RSRVD_TRIGGER_DELETE;
792     }
793 }
794
795 OCPresenceTrigger convertTriggerStringToEnum(const char * triggerStr)
796 {
797     if(!triggerStr)
798     {
799         return OC_PRESENCE_TRIGGER_CREATE;
800     }
801     else if(strcmp(triggerStr, OC_RSRVD_TRIGGER_CREATE) == 0)
802     {
803         return OC_PRESENCE_TRIGGER_CREATE;
804     }
805     else if(strcmp(triggerStr, OC_RSRVD_TRIGGER_CHANGE) == 0)
806     {
807         return OC_PRESENCE_TRIGGER_CHANGE;
808     }
809     else
810     {
811         return OC_PRESENCE_TRIGGER_DELETE;
812     }
813 }
814
815 /**
816  * The cononical presence allows constructed URIs to be string compared.
817  *
818  * requestUri must be a char array of size CA_MAX_URI_LENGTH
819  */
820 static int FormCanonicalPresenceUri(const CAEndpoint_t *endpoint, char *resourceUri,
821         char *presenceUri)
822 {
823     VERIFY_NON_NULL(endpoint   , FATAL, OC_STACK_INVALID_PARAM);
824     VERIFY_NON_NULL(resourceUri, FATAL, OC_STACK_INVALID_PARAM);
825     VERIFY_NON_NULL(presenceUri, FATAL, OC_STACK_INVALID_PARAM);
826
827     CAEndpoint_t *ep = (CAEndpoint_t *)endpoint;
828
829     if (ep->adapter == CA_ADAPTER_IP)
830     {
831         if ((ep->flags & CA_IPV6) && !(ep->flags & CA_IPV4))
832         {
833             if ('\0' == ep->addr[0])  // multicast
834             {
835                 return snprintf(presenceUri, CA_MAX_URI_LENGTH, OC_RSRVD_PRESENCE_URI);
836             }
837             else
838             {
839                 return snprintf(presenceUri, CA_MAX_URI_LENGTH, "coap://[%s]:%u%s",
840                         ep->addr, ep->port, OC_RSRVD_PRESENCE_URI);
841             }
842         }
843         else
844         {
845             if ('\0' == ep->addr[0])  // multicast
846             {
847                 OICStrcpy(ep->addr, sizeof(ep->addr), OC_MULTICAST_IP);
848                 ep->port = OC_MULTICAST_PORT;
849             }
850             return snprintf(presenceUri, CA_MAX_URI_LENGTH, "coap://%s:%u%s",
851                     ep->addr, ep->port, OC_RSRVD_PRESENCE_URI);
852         }
853     }
854
855     // might work for other adapters (untested, but better than nothing)
856     return snprintf(presenceUri, CA_MAX_URI_LENGTH, "coap://%s%s", ep->addr,
857                     OC_RSRVD_PRESENCE_URI);
858 }
859
860
861 OCStackResult HandlePresenceResponse(const CAEndpoint_t *endpoint,
862                             const CAResponseInfo_t *responseInfo)
863 {
864     VERIFY_NON_NULL(endpoint, FATAL, OC_STACK_INVALID_PARAM);
865     VERIFY_NON_NULL(responseInfo, FATAL, OC_STACK_INVALID_PARAM);
866
867     OCStackApplicationResult cbResult = OC_STACK_DELETE_TRANSACTION;
868     ClientCB * cbNode = NULL;
869     char *resourceTypeName = NULL;
870     OCClientResponse response = {.devAddr = {.adapter = OC_DEFAULT_ADAPTER}};
871     OCStackResult result = OC_STACK_ERROR;
872     uint32_t maxAge = 0;
873     int uriLen;
874     char presenceUri[CA_MAX_URI_LENGTH];
875
876     int presenceSubscribe = 0;
877     int multicastPresenceSubscribe = 0;
878
879     if (responseInfo->result != CA_CONTENT)
880     {
881         OIC_LOG_V(ERROR, TAG, "HandlePresenceResponse failed %d", responseInfo->result);
882         return OC_STACK_ERROR;
883     }
884
885     // check for unicast presence
886     uriLen = FormCanonicalPresenceUri(endpoint, OC_RSRVD_PRESENCE_URI, presenceUri);
887     if (uriLen < 0 || (size_t)uriLen >= sizeof (presenceUri))
888     {
889         return OC_STACK_INVALID_URI;
890     }
891
892     cbNode = GetClientCB(NULL, 0, NULL, presenceUri);
893     if (cbNode)
894     {
895         presenceSubscribe = 1;
896     }
897     else
898     {
899         // check for multiicast presence
900         CAEndpoint_t ep = { .adapter = endpoint->adapter,
901                             .flags = endpoint->flags };
902
903         uriLen = FormCanonicalPresenceUri(&ep, OC_RSRVD_PRESENCE_URI, presenceUri);
904
905         cbNode = GetClientCB(NULL, 0, NULL, presenceUri);
906         if (cbNode)
907         {
908             multicastPresenceSubscribe = 1;
909         }
910     }
911
912     if (!presenceSubscribe && !multicastPresenceSubscribe)
913     {
914         OIC_LOG(ERROR, TAG, "Received a presence notification, but no callback, ignoring");
915         goto exit;
916     }
917
918     response.payload = NULL;
919     response.result = OC_STACK_OK;
920
921     CopyEndpointToDevAddr(endpoint, &response.devAddr);
922     FixUpClientResponse(&response);
923
924     if (responseInfo->info.payload)
925     {
926         result = OCParsePayload(&response.payload,
927                 PAYLOAD_TYPE_PRESENCE,
928                 responseInfo->info.payload,
929                 responseInfo->info.payloadSize);
930
931         if(result != OC_STACK_OK)
932         {
933             OIC_LOG(ERROR, TAG, "Presence parse failed");
934             goto exit;
935         }
936         if(!response.payload || response.payload->type != PAYLOAD_TYPE_PRESENCE)
937         {
938             OIC_LOG(ERROR, TAG, "Presence payload was wrong type");
939             result = OC_STACK_ERROR;
940             goto exit;
941         }
942         response.sequenceNumber = ((OCPresencePayload*)response.payload)->sequenceNumber;
943         resourceTypeName = ((OCPresencePayload*)response.payload)->resourceType;
944         maxAge = ((OCPresencePayload*)response.payload)->maxAge;
945     }
946
947     if (presenceSubscribe)
948     {
949         if(cbNode->sequenceNumber == response.sequenceNumber)
950         {
951             OIC_LOG(INFO, TAG, "No presence change");
952             ResetPresenceTTL(cbNode, maxAge);
953             OIC_LOG_V(INFO, TAG, "ResetPresenceTTL - TTLlevel:%d\n", cbNode->presence->TTLlevel);
954             goto exit;
955         }
956
957         if(maxAge == 0)
958         {
959             OIC_LOG(INFO, TAG, "Stopping presence");
960             response.result = OC_STACK_PRESENCE_STOPPED;
961             if(cbNode->presence)
962             {
963                 OICFree(cbNode->presence->timeOut);
964                 OICFree(cbNode->presence);
965                 cbNode->presence = NULL;
966             }
967         }
968         else
969         {
970             if(!cbNode->presence)
971             {
972                 cbNode->presence = (OCPresence *)OICMalloc(sizeof (OCPresence));
973
974                 if(!(cbNode->presence))
975                 {
976                     OIC_LOG(ERROR, TAG, "Could not allocate memory for cbNode->presence");
977                     result = OC_STACK_NO_MEMORY;
978                     goto exit;
979                 }
980
981                 VERIFY_NON_NULL_V(cbNode->presence);
982                 cbNode->presence->timeOut = NULL;
983                 cbNode->presence->timeOut = (uint32_t *)
984                         OICMalloc(PresenceTimeOutSize * sizeof(uint32_t));
985                 if(!(cbNode->presence->timeOut)){
986                     OIC_LOG(ERROR, TAG,
987                                   "Could not allocate memory for cbNode->presence->timeOut");
988                     OICFree(cbNode->presence);
989                     result = OC_STACK_NO_MEMORY;
990                     goto exit;
991                 }
992             }
993
994             ResetPresenceTTL(cbNode, maxAge);
995
996             cbNode->sequenceNumber = response.sequenceNumber;
997
998             // Ensure that a filter is actually applied.
999             if( resourceTypeName && cbNode->filterResourceType)
1000             {
1001                 if(!findResourceType(cbNode->filterResourceType, resourceTypeName))
1002                 {
1003                     goto exit;
1004                 }
1005             }
1006         }
1007     }
1008     else
1009     {
1010         // This is the multicast case
1011         OCMulticastNode* mcNode = NULL;
1012         mcNode = GetMCPresenceNode(presenceUri);
1013
1014         if(mcNode != NULL)
1015         {
1016             if(mcNode->nonce == response.sequenceNumber)
1017             {
1018                 OIC_LOG(INFO, TAG, "No presence change (Multicast)");
1019                 goto exit;
1020             }
1021             mcNode->nonce = response.sequenceNumber;
1022
1023             if(maxAge == 0)
1024             {
1025                 OIC_LOG(INFO, TAG, "Stopping presence");
1026                 response.result = OC_STACK_PRESENCE_STOPPED;
1027             }
1028         }
1029         else
1030         {
1031             char* uri = OICStrdup(presenceUri);
1032             if (!uri)
1033             {
1034                 OIC_LOG(INFO, TAG,
1035                     "No Memory for URI to store in the presence node");
1036                 result = OC_STACK_NO_MEMORY;
1037                 goto exit;
1038             }
1039
1040             result = AddMCPresenceNode(&mcNode, uri, response.sequenceNumber);
1041             if(result == OC_STACK_NO_MEMORY)
1042             {
1043                 OIC_LOG(INFO, TAG,
1044                     "No Memory for Multicast Presence Node");
1045                 OICFree(uri);
1046                 goto exit;
1047             }
1048             // presence node now owns uri
1049         }
1050
1051         // Ensure that a filter is actually applied.
1052         if(resourceTypeName && cbNode->filterResourceType)
1053         {
1054             if(!findResourceType(cbNode->filterResourceType, resourceTypeName))
1055             {
1056                 goto exit;
1057             }
1058         }
1059     }
1060
1061     cbResult = cbNode->callBack(cbNode->context, cbNode->handle, &response);
1062
1063     if (cbResult == OC_STACK_DELETE_TRANSACTION)
1064     {
1065         FindAndDeleteClientCB(cbNode);
1066     }
1067
1068 exit:
1069     OCPayloadDestroy(response.payload);
1070     return result;
1071 }
1072
1073 void OCHandleResponse(const CAEndpoint_t* endPoint, const CAResponseInfo_t* responseInfo)
1074 {
1075     OIC_LOG(DEBUG, TAG, "Enter OCHandleResponse");
1076
1077     if(responseInfo->info.resourceUri &&
1078         strcmp(responseInfo->info.resourceUri, OC_RSRVD_PRESENCE_URI) == 0)
1079     {
1080         HandlePresenceResponse(endPoint, responseInfo);
1081         return;
1082     }
1083
1084     ClientCB *cbNode = GetClientCB(responseInfo->info.token,
1085             responseInfo->info.tokenLength, NULL, NULL);
1086
1087     ResourceObserver * observer = GetObserverUsingToken (responseInfo->info.token,
1088             responseInfo->info.tokenLength);
1089
1090     if(cbNode)
1091     {
1092         OIC_LOG(INFO, TAG, "There is a cbNode associated with the response token");
1093         if(responseInfo->result == CA_EMPTY)
1094         {
1095             OIC_LOG(INFO, TAG, "Receiving A ACK/RESET for this token");
1096             // We do not have a case for the client to receive a RESET
1097             if(responseInfo->info.type == CA_MSG_ACKNOWLEDGE)
1098             {
1099                 //This is the case of receiving an ACK on a request to a slow resource!
1100                 OIC_LOG(INFO, TAG, "This is a pure ACK");
1101                 //TODO: should we inform the client
1102                 //      app that at least the request was received at the server?
1103             }
1104         }
1105         else if(responseInfo->result == CA_RETRANSMIT_TIMEOUT)
1106         {
1107             OIC_LOG(INFO, TAG, "Receiving A Timeout for this token");
1108             OIC_LOG(INFO, TAG, "Calling into application address space");
1109
1110             OCClientResponse response =
1111                 {.devAddr = {.adapter = OC_DEFAULT_ADAPTER}};
1112             CopyEndpointToDevAddr(endPoint, &response.devAddr);
1113             FixUpClientResponse(&response);
1114             response.resourceUri = responseInfo->info.resourceUri;
1115             memcpy(response.identity.id, responseInfo->info.identity.id,
1116                                                 sizeof (response.identity.id));
1117             response.identity.id_length = responseInfo->info.identity.id_length;
1118
1119             response.result = CAToOCStackResult(responseInfo->result);
1120             cbNode->callBack(cbNode->context,
1121                     cbNode->handle, &response);
1122             FindAndDeleteClientCB(cbNode);
1123         }
1124         else
1125         {
1126             OIC_LOG(INFO, TAG, "This is a regular response, A client call back is found");
1127             OIC_LOG(INFO, TAG, "Calling into application address space");
1128
1129             OCClientResponse response =
1130                 {.devAddr = {.adapter = OC_DEFAULT_ADAPTER}};
1131             response.sequenceNumber = OC_OBSERVE_NO_OPTION;
1132             CopyEndpointToDevAddr(endPoint, &response.devAddr);
1133             FixUpClientResponse(&response);
1134             response.resourceUri = responseInfo->info.resourceUri;
1135             memcpy(response.identity.id, responseInfo->info.identity.id,
1136                                                 sizeof (response.identity.id));
1137             response.identity.id_length = responseInfo->info.identity.id_length;
1138
1139             response.result = CAToOCStackResult(responseInfo->result);
1140
1141             if(responseInfo->info.payload &&
1142                responseInfo->info.payloadSize)
1143             {
1144                 OCPayloadType type = PAYLOAD_TYPE_INVALID;
1145                 // check the security resource
1146                 if (SRMIsSecurityResourceURI(cbNode->requestUri))
1147                 {
1148                     type = PAYLOAD_TYPE_SECURITY;
1149                 }
1150                 else if (cbNode->method == OC_REST_DISCOVER)
1151                 {
1152                     if (strncmp(OC_RSRVD_WELL_KNOWN_URI,cbNode->requestUri,
1153                                 sizeof(OC_RSRVD_WELL_KNOWN_URI) - 1) == 0)
1154                     {
1155                         type = PAYLOAD_TYPE_DISCOVERY;
1156                     }
1157                     else if (strcmp(cbNode->requestUri, OC_RSRVD_DEVICE_URI) == 0)
1158                     {
1159                         type = PAYLOAD_TYPE_DEVICE;
1160                     }
1161                     else if (strcmp(cbNode->requestUri, OC_RSRVD_PLATFORM_URI) == 0)
1162                     {
1163                         type = PAYLOAD_TYPE_PLATFORM;
1164                     }
1165 #ifdef ROUTING_GATEWAY
1166                     else if (strcmp(cbNode->requestUri, OC_RSRVD_GATEWAY_URI) == 0)
1167                     {
1168                         type = PAYLOAD_TYPE_REPRESENTATION;
1169                     }
1170 #endif
1171                     else if (strcmp(cbNode->requestUri, OC_RSRVD_RD_URI) == 0)
1172                     {
1173                         type = PAYLOAD_TYPE_RD;
1174                     }
1175 #ifdef TCP_ADAPTER
1176                     else if (strcmp(cbNode->requestUri, KEEPALIVE_RESOURCE_URI) == 0)
1177                     {
1178                         type = PAYLOAD_TYPE_REPRESENTATION;
1179                     }
1180 #endif
1181                     else
1182                     {
1183                         OIC_LOG_V(ERROR, TAG, "Unknown Payload type in Discovery: %d %s",
1184                                 cbNode->method, cbNode->requestUri);
1185                         return;
1186                     }
1187                 }
1188                 else if (cbNode->method == OC_REST_GET ||
1189                          cbNode->method == OC_REST_PUT ||
1190                          cbNode->method == OC_REST_POST ||
1191                          cbNode->method == OC_REST_OBSERVE ||
1192                          cbNode->method == OC_REST_OBSERVE_ALL ||
1193                          cbNode->method == OC_REST_DELETE)
1194                 {
1195                     char targetUri[MAX_URI_LENGTH];
1196                     snprintf(targetUri, MAX_URI_LENGTH, "%s?rt=%s",
1197                             OC_RSRVD_RD_URI, OC_RSRVD_RESOURCE_TYPE_RDPUBLISH);
1198                     if (strcmp(targetUri, cbNode->requestUri) == 0)
1199                     {
1200                         type = PAYLOAD_TYPE_RD;
1201                     }
1202                     else if (strcmp(OC_RSRVD_PLATFORM_URI, cbNode->requestUri) == 0)
1203                     {
1204                         type = PAYLOAD_TYPE_PLATFORM;
1205                     }
1206                     else if (strcmp(OC_RSRVD_DEVICE_URI, cbNode->requestUri) == 0)
1207                     {
1208                         type = PAYLOAD_TYPE_DEVICE;
1209                     }
1210                     if (type == PAYLOAD_TYPE_INVALID)
1211                     {
1212                         OIC_LOG_V(INFO, TAG, "Assuming PAYLOAD_TYPE_REPRESENTATION: %d %s",
1213                                 cbNode->method, cbNode->requestUri);
1214                         type = PAYLOAD_TYPE_REPRESENTATION;
1215                     }
1216                 }
1217                 else
1218                 {
1219                     OIC_LOG_V(ERROR, TAG, "Unknown Payload type: %d %s",
1220                             cbNode->method, cbNode->requestUri);
1221                     return;
1222                 }
1223
1224                 if(OC_STACK_OK != OCParsePayload(&response.payload,
1225                             type,
1226                             responseInfo->info.payload,
1227                             responseInfo->info.payloadSize))
1228                 {
1229                     OIC_LOG(ERROR, TAG, "Error converting payload");
1230                     OCPayloadDestroy(response.payload);
1231                     return;
1232                 }
1233             }
1234
1235             response.numRcvdVendorSpecificHeaderOptions = 0;
1236             if(responseInfo->info.numOptions > 0)
1237             {
1238                 int start = 0;
1239                 //First option always with option ID is COAP_OPTION_OBSERVE if it is available.
1240                 if(responseInfo->info.options[0].optionID == COAP_OPTION_OBSERVE)
1241                 {
1242                     size_t i;
1243                     uint32_t observationOption;
1244                     uint8_t* optionData = (uint8_t*)responseInfo->info.options[0].optionData;
1245                     for (observationOption=0, i=0;
1246                             i<sizeof(uint32_t) && i<responseInfo->info.options[0].optionLength;
1247                             i++)
1248                     {
1249                         observationOption =
1250                             (observationOption << 8) | optionData[i];
1251                     }
1252                     response.sequenceNumber = observationOption;
1253
1254                     response.numRcvdVendorSpecificHeaderOptions = responseInfo->info.numOptions - 1;
1255                     start = 1;
1256                 }
1257                 else
1258                 {
1259                     response.numRcvdVendorSpecificHeaderOptions = responseInfo->info.numOptions;
1260                 }
1261
1262                 if(response.numRcvdVendorSpecificHeaderOptions > MAX_HEADER_OPTIONS)
1263                 {
1264                     OIC_LOG(ERROR, TAG, "#header options are more than MAX_HEADER_OPTIONS");
1265                     OCPayloadDestroy(response.payload);
1266                     return;
1267                 }
1268
1269                 for (uint8_t i = start; i < responseInfo->info.numOptions; i++)
1270                 {
1271                     memcpy (&(response.rcvdVendorSpecificHeaderOptions[i-start]),
1272                             &(responseInfo->info.options[i]), sizeof(OCHeaderOption));
1273                 }
1274             }
1275
1276             if (cbNode->method == OC_REST_OBSERVE &&
1277                 response.sequenceNumber > OC_OFFSET_SEQUENCE_NUMBER &&
1278                 response.sequenceNumber <= cbNode->sequenceNumber)
1279             {
1280                 OIC_LOG_V(INFO, TAG, "Received stale notification. Number :%d",
1281                                                  response.sequenceNumber);
1282             }
1283             else
1284             {
1285                 OCStackApplicationResult appFeedback = cbNode->callBack(cbNode->context,
1286                                                                         cbNode->handle,
1287                                                                         &response);
1288                 cbNode->sequenceNumber = response.sequenceNumber;
1289
1290                 if (appFeedback == OC_STACK_DELETE_TRANSACTION)
1291                 {
1292                     FindAndDeleteClientCB(cbNode);
1293                 }
1294                 else
1295                 {
1296                     // To keep discovery callbacks active.
1297                     cbNode->TTL = GetTicks(MAX_CB_TIMEOUT_SECONDS *
1298                                             MILLISECONDS_PER_SECOND);
1299                 }
1300             }
1301
1302             //Need to send ACK when the response is CON
1303             if(responseInfo->info.type == CA_MSG_CONFIRM)
1304             {
1305                 SendDirectStackResponse(endPoint, responseInfo->info.messageId, CA_EMPTY,
1306                         CA_MSG_ACKNOWLEDGE, 0, NULL, NULL, 0, NULL);
1307             }
1308
1309             OCPayloadDestroy(response.payload);
1310         }
1311         return;
1312     }
1313
1314     if(observer)
1315     {
1316         OIC_LOG(INFO, TAG, "There is an observer associated with the response token");
1317         if(responseInfo->result == CA_EMPTY)
1318         {
1319             OIC_LOG(INFO, TAG, "Receiving A ACK/RESET for this token");
1320             if(responseInfo->info.type == CA_MSG_RESET)
1321             {
1322                 OIC_LOG(INFO, TAG, "This is a RESET");
1323                 OCStackFeedBack(responseInfo->info.token, responseInfo->info.tokenLength,
1324                         OC_OBSERVER_NOT_INTERESTED);
1325             }
1326             else if(responseInfo->info.type == CA_MSG_ACKNOWLEDGE)
1327             {
1328                 OIC_LOG(INFO, TAG, "This is a pure ACK");
1329                 OCStackFeedBack(responseInfo->info.token, responseInfo->info.tokenLength,
1330                         OC_OBSERVER_STILL_INTERESTED);
1331             }
1332         }
1333         else if(responseInfo->result == CA_RETRANSMIT_TIMEOUT)
1334         {
1335             OIC_LOG(INFO, TAG, "Receiving Time Out for an observer");
1336             OCStackFeedBack(responseInfo->info.token, responseInfo->info.tokenLength,
1337                     OC_OBSERVER_FAILED_COMM);
1338         }
1339         return;
1340     }
1341
1342     if(!cbNode && !observer)
1343     {
1344         if(myStackMode == OC_CLIENT || myStackMode == OC_CLIENT_SERVER
1345            || myStackMode == OC_GATEWAY)
1346         {
1347             OIC_LOG(INFO, TAG, "This is a client, but no cbNode was found for token");
1348             if(responseInfo->result == CA_EMPTY)
1349             {
1350                 OIC_LOG(INFO, TAG, "Receiving CA_EMPTY in the ocstack");
1351             }
1352             else
1353             {
1354                 OIC_LOG(INFO, TAG, "Received a message without callbacks. Sending RESET");
1355                 SendDirectStackResponse(endPoint, responseInfo->info.messageId, CA_EMPTY,
1356                         CA_MSG_RESET, 0, NULL, NULL, 0, NULL);
1357             }
1358         }
1359
1360         if(myStackMode == OC_SERVER || myStackMode == OC_CLIENT_SERVER
1361            || myStackMode == OC_GATEWAY)
1362         {
1363             OIC_LOG(INFO, TAG, "This is a server, but no observer was found for token");
1364             if (responseInfo->info.type == CA_MSG_ACKNOWLEDGE)
1365             {
1366                 OIC_LOG_V(INFO, TAG, "Received ACK at server for messageId : %d",
1367                                             responseInfo->info.messageId);
1368             }
1369             if (responseInfo->info.type == CA_MSG_RESET)
1370             {
1371                 OIC_LOG_V(INFO, TAG, "Received RESET at server for messageId : %d",
1372                                             responseInfo->info.messageId);
1373             }
1374         }
1375
1376         return;
1377     }
1378
1379     OIC_LOG(INFO, TAG, "Exit HandleCAResponses");
1380 }
1381
1382 void HandleCAResponses(const CAEndpoint_t* endPoint, const CAResponseInfo_t* responseInfo)
1383 {
1384     VERIFY_NON_NULL_NR(endPoint, FATAL);
1385     VERIFY_NON_NULL_NR(responseInfo, FATAL);
1386
1387     OIC_LOG(INFO, TAG, "Enter HandleCAResponses");
1388
1389 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
1390 #ifdef ROUTING_GATEWAY
1391     bool needRIHandling = false;
1392     /*
1393      * Routing manager is going to update either of endpoint or response or both.
1394      * This typecasting is done to avoid unnecessary duplication of Endpoint and responseInfo
1395      * RM can update "routeData" option in endPoint so that future RI requests can be sent to proper
1396      * destination.
1397      */
1398     OCStackResult ret = RMHandleResponse((CAResponseInfo_t *)responseInfo, (CAEndpoint_t *)endPoint,
1399                                          &needRIHandling);
1400     if(ret != OC_STACK_OK || !needRIHandling)
1401     {
1402         OIC_LOG_V(INFO, TAG, "Routing status![%d]. Not forwarding to RI", ret);
1403         return;
1404     }
1405 #endif
1406
1407     /*
1408      * Put source in sender endpoint so that the next packet from application can be routed to
1409      * proper destination and remove "RM" coap header option before passing request / response to
1410      * RI as this option will make no sense to either RI or application.
1411      */
1412     RMUpdateInfo((CAHeaderOption_t **) &(responseInfo->info.options),
1413                  (uint8_t *) &(responseInfo->info.numOptions),
1414                  (CAEndpoint_t *) endPoint);
1415 #endif
1416
1417     OCHandleResponse(endPoint, responseInfo);
1418
1419     OIC_LOG(INFO, TAG, "Exit HandleCAResponses");
1420 }
1421
1422 /*
1423  * This function handles error response from CA
1424  * code shall be added to handle the errors
1425  */
1426 void HandleCAErrorResponse(const CAEndpoint_t *endPoint, const CAErrorInfo_t *errrorInfo)
1427 {
1428     OIC_LOG(INFO, TAG, "Enter HandleCAErrorResponse");
1429
1430     if(NULL == endPoint)
1431     {
1432         OIC_LOG(ERROR, TAG, "endPoint is NULL");
1433         return;
1434     }
1435
1436     if(NULL == errrorInfo)
1437     {
1438         OIC_LOG(ERROR, TAG, "errrorInfo is NULL");
1439         return;
1440     }
1441     OIC_LOG(INFO, TAG, "Exit HandleCAErrorResponse");
1442 }
1443
1444 /*
1445  * This function sends out Direct Stack Responses. These are responses that are not coming
1446  * from the application entity handler. These responses have no payload and are usually ACKs,
1447  * RESETs or some error conditions that were caught by the stack.
1448  */
1449 OCStackResult SendDirectStackResponse(const CAEndpoint_t* endPoint, const uint16_t coapID,
1450         const CAResponseResult_t responseResult, const CAMessageType_t type,
1451         const uint8_t numOptions, const CAHeaderOption_t *options,
1452         CAToken_t token, uint8_t tokenLength, const char *resourceUri)
1453 {
1454     OIC_LOG(DEBUG, TAG, "Entering SendDirectStackResponse");
1455     CAResponseInfo_t respInfo = {
1456         .result = responseResult
1457     };
1458     respInfo.info.messageId = coapID;
1459     respInfo.info.numOptions = numOptions;
1460
1461     if (respInfo.info.numOptions)
1462     {
1463         respInfo.info.options =
1464             (CAHeaderOption_t *)OICCalloc(respInfo.info.numOptions, sizeof(CAHeaderOption_t));
1465         memcpy (respInfo.info.options, options,
1466                 sizeof(CAHeaderOption_t) * respInfo.info.numOptions);
1467
1468     }
1469
1470     respInfo.info.payload = NULL;
1471     respInfo.info.token = token;
1472     respInfo.info.tokenLength = tokenLength;
1473     respInfo.info.type = type;
1474     respInfo.info.resourceUri = OICStrdup (resourceUri);
1475     respInfo.info.acceptFormat = CA_FORMAT_UNDEFINED;
1476
1477 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
1478     // Add the destination to route option from the endpoint->routeData.
1479     bool doPost = false;
1480     OCStackResult result = RMAddInfo(endPoint->routeData, &respInfo, false, &doPost);
1481     if(OC_STACK_OK != result)
1482     {
1483         OIC_LOG_V(ERROR, TAG, "Add routing option failed [%d]", result);
1484         return result;
1485     }
1486     if (doPost)
1487     {
1488         OIC_LOG(DEBUG, TAG, "Sending a POST message for EMPTY ACK in Client Mode");
1489         CARequestInfo_t reqInfo = {.method = CA_POST };
1490         /* The following initialization is not done in a single initializer block as in
1491          * arduino, .c file is compiled as .cpp and moves it from C99 to C++11.  The latter
1492          * does not have designated initalizers. This is a work-around for now.
1493          */
1494         reqInfo.info.type = CA_MSG_NONCONFIRM;
1495         reqInfo.info.messageId = coapID;
1496         reqInfo.info.tokenLength = tokenLength;
1497         reqInfo.info.token = token;
1498         reqInfo.info.numOptions = respInfo.info.numOptions;
1499         reqInfo.info.payload = NULL;
1500         reqInfo.info.resourceUri = OICStrdup (OC_RSRVD_GATEWAY_URI);
1501         if (reqInfo.info.numOptions)
1502         {
1503             reqInfo.info.options =
1504                 (CAHeaderOption_t *)OICCalloc(reqInfo.info.numOptions, sizeof(CAHeaderOption_t));
1505             if (NULL == reqInfo.info.options)
1506             {
1507                 OIC_LOG(ERROR, TAG, "Calloc failed");
1508                 return OC_STACK_NO_MEMORY;
1509             }
1510             memcpy (reqInfo.info.options, respInfo.info.options,
1511                     sizeof(CAHeaderOption_t) * reqInfo.info.numOptions);
1512
1513         }
1514         CAResult_t caResult = CASendRequest(endPoint, &reqInfo);
1515         OICFree (reqInfo.info.resourceUri);
1516         OICFree (reqInfo.info.options);
1517         OICFree (respInfo.info.resourceUri);
1518         OICFree (respInfo.info.options);
1519         if (CA_STATUS_OK != caResult)
1520         {
1521             OIC_LOG(ERROR, TAG, "CASendRequest error");
1522             return CAResultToOCResult(caResult);
1523         }
1524     }
1525     else
1526 #endif
1527     {
1528         CAResult_t caResult = CASendResponse(endPoint, &respInfo);
1529
1530         // resourceUri in the info field is cloned in the CA layer and
1531         // thus ownership is still here.
1532         OICFree (respInfo.info.resourceUri);
1533         OICFree (respInfo.info.options);
1534         if(CA_STATUS_OK != caResult)
1535         {
1536             OIC_LOG(ERROR, TAG, "CASendResponse error");
1537             return CAResultToOCResult(caResult);
1538         }
1539     }
1540     OIC_LOG(DEBUG, TAG, "Exit SendDirectStackResponse");
1541     return OC_STACK_OK;
1542 }
1543
1544 OCStackResult HandleStackRequests(OCServerProtocolRequest * protocolRequest)
1545 {
1546     OIC_LOG(INFO, TAG, "Entering HandleStackRequests (OCStack Layer)");
1547     OCStackResult result = OC_STACK_ERROR;
1548     if(!protocolRequest)
1549     {
1550         OIC_LOG(ERROR, TAG, "protocolRequest is NULL");
1551         return OC_STACK_INVALID_PARAM;
1552     }
1553
1554     OCServerRequest * request = GetServerRequestUsingToken(protocolRequest->requestToken,
1555             protocolRequest->tokenLength);
1556     if(!request)
1557     {
1558         OIC_LOG(INFO, TAG, "This is a new Server Request");
1559         result = AddServerRequest(&request, protocolRequest->coapID,
1560                 protocolRequest->delayedResNeeded, 0, protocolRequest->method,
1561                 protocolRequest->numRcvdVendorSpecificHeaderOptions,
1562                 protocolRequest->observationOption, protocolRequest->qos,
1563                 protocolRequest->query, protocolRequest->rcvdVendorSpecificHeaderOptions,
1564                 protocolRequest->payload, protocolRequest->requestToken,
1565                 protocolRequest->tokenLength, protocolRequest->resourceUrl,
1566                 protocolRequest->reqTotalSize, protocolRequest->acceptFormat,
1567                 &protocolRequest->devAddr);
1568         if (OC_STACK_OK != result)
1569         {
1570             OIC_LOG(ERROR, TAG, "Error adding server request");
1571             return result;
1572         }
1573
1574         if(!request)
1575         {
1576             OIC_LOG(ERROR, TAG, "Out of Memory");
1577             return OC_STACK_NO_MEMORY;
1578         }
1579
1580         if(!protocolRequest->reqMorePacket)
1581         {
1582             request->requestComplete = 1;
1583         }
1584     }
1585     else
1586     {
1587         OIC_LOG(INFO, TAG, "This is either a repeated or blocked Server Request");
1588     }
1589
1590     if(request->requestComplete)
1591     {
1592         OIC_LOG(INFO, TAG, "This Server Request is complete");
1593         ResourceHandling resHandling = OC_RESOURCE_VIRTUAL;
1594         OCResource *resource = NULL;
1595         result = DetermineResourceHandling (request, &resHandling, &resource);
1596         if (result == OC_STACK_OK)
1597         {
1598             result = ProcessRequest(resHandling, resource, request);
1599         }
1600     }
1601     else
1602     {
1603         OIC_LOG(INFO, TAG, "This Server Request is incomplete");
1604         result = OC_STACK_CONTINUE;
1605     }
1606     return result;
1607 }
1608
1609 void OCHandleRequests(const CAEndpoint_t* endPoint, const CARequestInfo_t* requestInfo)
1610 {
1611     OIC_LOG(DEBUG, TAG, "Enter OCHandleRequests");
1612
1613 #ifdef TCP_ADAPTER
1614     if (requestInfo->info.resourceUri &&
1615             strcmp(requestInfo->info.resourceUri, KEEPALIVE_RESOURCE_URI) == 0)
1616     {
1617         HandleKeepAliveRequest(endPoint, requestInfo);
1618         return;
1619     }
1620 #endif
1621
1622     OCStackResult requestResult = OC_STACK_ERROR;
1623
1624     if(myStackMode == OC_CLIENT)
1625     {
1626         //TODO: should the client be responding to requests?
1627         return;
1628     }
1629
1630     OCServerProtocolRequest serverRequest = {0};
1631
1632     OIC_LOG_V(INFO, TAG, "Endpoint URI : %s", requestInfo->info.resourceUri);
1633
1634     char * uriWithoutQuery = NULL;
1635     char * query  = NULL;
1636
1637     requestResult = getQueryFromUri(requestInfo->info.resourceUri, &query, &uriWithoutQuery);
1638
1639     if (requestResult != OC_STACK_OK || !uriWithoutQuery)
1640     {
1641         OIC_LOG_V(ERROR, TAG, "getQueryFromUri() failed with OC error code %d\n", requestResult);
1642         return;
1643     }
1644     OIC_LOG_V(INFO, TAG, "URI without query: %s", uriWithoutQuery);
1645     OIC_LOG_V(INFO, TAG, "Query : %s", query);
1646
1647     if(strlen(uriWithoutQuery) < MAX_URI_LENGTH)
1648     {
1649         OICStrcpy(serverRequest.resourceUrl, sizeof(serverRequest.resourceUrl), uriWithoutQuery);
1650         OICFree(uriWithoutQuery);
1651     }
1652     else
1653     {
1654         OIC_LOG(ERROR, TAG, "URI length exceeds MAX_URI_LENGTH.");
1655         OICFree(uriWithoutQuery);
1656         OICFree(query);
1657         return;
1658     }
1659
1660     if(query)
1661     {
1662         if(strlen(query) < MAX_QUERY_LENGTH)
1663         {
1664             OICStrcpy(serverRequest.query, sizeof(serverRequest.query), query);
1665             OICFree(query);
1666         }
1667         else
1668         {
1669             OIC_LOG(ERROR, TAG, "Query length exceeds MAX_QUERY_LENGTH.");
1670             OICFree(query);
1671             return;
1672         }
1673     }
1674
1675     if ((requestInfo->info.payload) && (0 < requestInfo->info.payloadSize))
1676     {
1677         serverRequest.reqTotalSize = requestInfo->info.payloadSize;
1678         serverRequest.payload = (uint8_t *) OICMalloc(requestInfo->info.payloadSize);
1679         memcpy (serverRequest.payload, requestInfo->info.payload,
1680                 requestInfo->info.payloadSize);
1681     }
1682     else
1683     {
1684         serverRequest.reqTotalSize = 0;
1685     }
1686
1687     switch (requestInfo->method)
1688     {
1689         case CA_GET:
1690             serverRequest.method = OC_REST_GET;
1691             break;
1692         case CA_PUT:
1693             serverRequest.method = OC_REST_PUT;
1694             break;
1695         case CA_POST:
1696             serverRequest.method = OC_REST_POST;
1697             break;
1698         case CA_DELETE:
1699             serverRequest.method = OC_REST_DELETE;
1700             break;
1701         default:
1702             OIC_LOG_V(ERROR, TAG, "Received CA method %d not supported", requestInfo->method);
1703             SendDirectStackResponse(endPoint, requestInfo->info.messageId, CA_BAD_REQ,
1704                         requestInfo->info.type, requestInfo->info.numOptions,
1705                         requestInfo->info.options, requestInfo->info.token,
1706                         requestInfo->info.tokenLength, requestInfo->info.resourceUri);
1707             OICFree(serverRequest.payload);
1708             return;
1709     }
1710
1711     OIC_LOG_BUFFER(INFO, TAG, (const uint8_t *)requestInfo->info.token,
1712             requestInfo->info.tokenLength);
1713
1714     serverRequest.tokenLength = requestInfo->info.tokenLength;
1715     if (serverRequest.tokenLength) {
1716         // Non empty token
1717         serverRequest.requestToken = (CAToken_t)OICMalloc(requestInfo->info.tokenLength);
1718
1719         if (!serverRequest.requestToken)
1720         {
1721             OIC_LOG(FATAL, TAG, "Allocation for token failed.");
1722             SendDirectStackResponse(endPoint, requestInfo->info.messageId, CA_INTERNAL_SERVER_ERROR,
1723                     requestInfo->info.type, requestInfo->info.numOptions,
1724                     requestInfo->info.options, requestInfo->info.token,
1725                     requestInfo->info.tokenLength, requestInfo->info.resourceUri);
1726             OICFree(serverRequest.payload);
1727             return;
1728         }
1729         memcpy(serverRequest.requestToken, requestInfo->info.token, requestInfo->info.tokenLength);
1730     }
1731
1732     switch (requestInfo->info.acceptFormat)
1733     {
1734         case CA_FORMAT_APPLICATION_CBOR:
1735             serverRequest.acceptFormat = OC_FORMAT_CBOR;
1736             break;
1737         case CA_FORMAT_UNDEFINED:
1738             serverRequest.acceptFormat = OC_FORMAT_UNDEFINED;
1739             break;
1740         default:
1741             serverRequest.acceptFormat = OC_FORMAT_UNSUPPORTED;
1742     }
1743
1744     if (requestInfo->info.type == CA_MSG_CONFIRM)
1745     {
1746         serverRequest.qos = OC_HIGH_QOS;
1747     }
1748     else
1749     {
1750         serverRequest.qos = OC_LOW_QOS;
1751     }
1752     // CA does not need the following field
1753     // Are we sure CA does not need them? how is it responding to multicast
1754     serverRequest.delayedResNeeded = 0;
1755
1756     serverRequest.coapID = requestInfo->info.messageId;
1757
1758     CopyEndpointToDevAddr(endPoint, &serverRequest.devAddr);
1759
1760     // copy vendor specific header options
1761     uint8_t tempNum = (requestInfo->info.numOptions);
1762
1763     // Assume no observation requested and it is a pure GET.
1764     // If obs registration/de-registration requested it'll be fetched from the
1765     // options in GetObserveHeaderOption()
1766     serverRequest.observationOption = OC_OBSERVE_NO_OPTION;
1767
1768     GetObserveHeaderOption(&serverRequest.observationOption, requestInfo->info.options, &tempNum);
1769     if (requestInfo->info.numOptions > MAX_HEADER_OPTIONS)
1770     {
1771         OIC_LOG(ERROR, TAG,
1772                 "The request info numOptions is greater than MAX_HEADER_OPTIONS");
1773         SendDirectStackResponse(endPoint, requestInfo->info.messageId, CA_BAD_OPT,
1774                 requestInfo->info.type, requestInfo->info.numOptions,
1775                 requestInfo->info.options, requestInfo->info.token,
1776                 requestInfo->info.tokenLength, requestInfo->info.resourceUri);
1777         OICFree(serverRequest.payload);
1778         OICFree(serverRequest.requestToken);
1779         return;
1780     }
1781     serverRequest.numRcvdVendorSpecificHeaderOptions = tempNum;
1782     if (serverRequest.numRcvdVendorSpecificHeaderOptions)
1783     {
1784         memcpy (&(serverRequest.rcvdVendorSpecificHeaderOptions), requestInfo->info.options,
1785             sizeof(CAHeaderOption_t)*tempNum);
1786     }
1787
1788     requestResult = HandleStackRequests (&serverRequest);
1789
1790     // Send ACK to client as precursor to slow response
1791     if(requestResult == OC_STACK_SLOW_RESOURCE)
1792     {
1793         SendDirectStackResponse(endPoint, requestInfo->info.messageId, CA_EMPTY,
1794                     CA_MSG_ACKNOWLEDGE,0, NULL, NULL, 0, NULL);
1795     }
1796     else if(requestResult != OC_STACK_OK)
1797     {
1798         OIC_LOG_V(ERROR, TAG, "HandleStackRequests failed. error: %d", requestResult);
1799
1800         CAResponseResult_t stackResponse =
1801             OCToCAStackResult(requestResult, serverRequest.method);
1802
1803         SendDirectStackResponse(endPoint, requestInfo->info.messageId, stackResponse,
1804                 requestInfo->info.type, requestInfo->info.numOptions,
1805                 requestInfo->info.options, requestInfo->info.token,
1806                 requestInfo->info.tokenLength, requestInfo->info.resourceUri);
1807     }
1808     // requestToken is fed to HandleStackRequests, which then goes to AddServerRequest.
1809     // The token is copied in there, and is thus still owned by this function.
1810     OICFree(serverRequest.payload);
1811     OICFree(serverRequest.requestToken);
1812     OIC_LOG(INFO, TAG, "Exit OCHandleRequests");
1813 }
1814
1815 //This function will be called back by CA layer when a request is received
1816 void HandleCARequests(const CAEndpoint_t* endPoint, const CARequestInfo_t* requestInfo)
1817 {
1818     OIC_LOG(INFO, TAG, "Enter HandleCARequests");
1819     if(!endPoint)
1820     {
1821         OIC_LOG(ERROR, TAG, "endPoint is NULL");
1822         return;
1823     }
1824
1825     if(!requestInfo)
1826     {
1827         OIC_LOG(ERROR, TAG, "requestInfo is NULL");
1828         return;
1829     }
1830
1831 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
1832 #ifdef ROUTING_GATEWAY
1833     bool needRIHandling = false;
1834     bool isEmptyMsg = false;
1835     /*
1836      * Routing manager is going to update either of endpoint or request or both.
1837      * This typecasting is done to avoid unnecessary duplication of Endpoint and requestInfo
1838      * RM can update "routeData" option in endPoint so that future RI requests can be sent to proper
1839      * destination. It can also remove "RM" coap header option before passing request / response to
1840      * RI as this option will make no sense to either RI or application.
1841      */
1842     OCStackResult ret = RMHandleRequest((CARequestInfo_t *)requestInfo, (CAEndpoint_t *)endPoint,
1843                                         &needRIHandling, &isEmptyMsg);
1844     if(OC_STACK_OK != ret || !needRIHandling)
1845     {
1846         OIC_LOG_V(INFO, TAG, "Routing status![%d]. Not forwarding to RI", ret);
1847         return;
1848     }
1849 #endif
1850
1851     /*
1852      * Put source in sender endpoint so that the next packet from application can be routed to
1853      * proper destination and remove RM header option.
1854      */
1855     RMUpdateInfo((CAHeaderOption_t **) &(requestInfo->info.options),
1856                  (uint8_t *) &(requestInfo->info.numOptions),
1857                  (CAEndpoint_t *) endPoint);
1858
1859 #ifdef ROUTING_GATEWAY
1860     if (isEmptyMsg)
1861     {
1862         /*
1863          * In Gateways, the MSGType in route option is used to check if the actual
1864          * response is EMPTY message(4 bytes CoAP Header).  In case of Client, the
1865          * EMPTY response is sent in the form of POST request which need to be changed
1866          * to a EMPTY response by RM.  This translation is done in this part of the code.
1867          */
1868         OIC_LOG(INFO, TAG, "This is a Empty response from the Client");
1869         CAResponseInfo_t respInfo = {.result = CA_EMPTY,
1870                                      .info.messageId = requestInfo->info.messageId,
1871                                      .info.type = CA_MSG_ACKNOWLEDGE};
1872         OCHandleResponse(endPoint, &respInfo);
1873     }
1874     else
1875 #endif
1876 #endif
1877     {
1878         // Normal handling of the packet
1879         OCHandleRequests(endPoint, requestInfo);
1880     }
1881     OIC_LOG(INFO, TAG, "Exit HandleCARequests");
1882 }
1883
1884 bool validatePlatformInfo(OCPlatformInfo info)
1885 {
1886
1887     if (!info.platformID)
1888     {
1889         OIC_LOG(ERROR, TAG, "No platform ID found.");
1890         return false;
1891     }
1892
1893     if (info.manufacturerName)
1894     {
1895         size_t lenManufacturerName = strlen(info.manufacturerName);
1896
1897         if(lenManufacturerName == 0 || lenManufacturerName > MAX_MANUFACTURER_NAME_LENGTH)
1898         {
1899             OIC_LOG(ERROR, TAG, "Manufacturer name fails length requirements.");
1900             return false;
1901         }
1902     }
1903     else
1904     {
1905         OIC_LOG(ERROR, TAG, "No manufacturer name present");
1906         return false;
1907     }
1908
1909     if (info.manufacturerUrl)
1910     {
1911         if(strlen(info.manufacturerUrl) > MAX_MANUFACTURER_URL_LENGTH)
1912         {
1913             OIC_LOG(ERROR, TAG, "Manufacturer url fails length requirements.");
1914             return false;
1915         }
1916     }
1917     return true;
1918 }
1919
1920 //-----------------------------------------------------------------------------
1921 // Public APIs
1922 //-----------------------------------------------------------------------------
1923 #ifdef RA_ADAPTER
1924 OCStackResult OCSetRAInfo(const OCRAInfo_t *raInfo)
1925 {
1926     if (!raInfo           ||
1927         !raInfo->username ||
1928         !raInfo->hostname ||
1929         !raInfo->xmpp_domain)
1930     {
1931
1932         return OC_STACK_INVALID_PARAM;
1933     }
1934     OCStackResult result = CAResultToOCResult(CASetRAInfo((const CARAInfo_t *) raInfo));
1935     gRASetInfo = (result == OC_STACK_OK)? true : false;
1936
1937     return result;
1938 }
1939 #endif
1940
1941 OCStackResult OCInit(const char *ipAddr, uint16_t port, OCMode mode)
1942 {
1943     (void) ipAddr;
1944     (void) port;
1945     return OCInit1(mode, OC_DEFAULT_FLAGS, OC_DEFAULT_FLAGS);
1946 }
1947
1948 OCStackResult OCInit1(OCMode mode, OCTransportFlags serverFlags, OCTransportFlags clientFlags)
1949 {
1950     if(stackState == OC_STACK_INITIALIZED)
1951     {
1952         OIC_LOG(INFO, TAG, "Subsequent calls to OCInit() without calling \
1953                 OCStop() between them are ignored.");
1954         return OC_STACK_OK;
1955     }
1956
1957 #ifndef ROUTING_GATEWAY
1958     if (OC_GATEWAY == mode)
1959     {
1960         OIC_LOG(ERROR, TAG, "Routing Manager not supported");
1961         return OC_STACK_INVALID_PARAM;
1962     }
1963 #endif
1964
1965 #ifdef RA_ADAPTER
1966     if(!gRASetInfo)
1967     {
1968         OIC_LOG(ERROR, TAG, "Need to call OCSetRAInfo before calling OCInit");
1969         return OC_STACK_ERROR;
1970     }
1971 #endif
1972
1973     OCStackResult result = OC_STACK_ERROR;
1974     OIC_LOG(INFO, TAG, "Entering OCInit");
1975
1976     // Validate mode
1977     if (!((mode == OC_CLIENT) || (mode == OC_SERVER) || (mode == OC_CLIENT_SERVER)
1978         || (mode == OC_GATEWAY)))
1979     {
1980         OIC_LOG(ERROR, TAG, "Invalid mode");
1981         return OC_STACK_ERROR;
1982     }
1983     myStackMode = mode;
1984
1985     if (mode == OC_CLIENT || mode == OC_CLIENT_SERVER || mode == OC_GATEWAY)
1986     {
1987         caglobals.client = true;
1988     }
1989     if (mode == OC_SERVER || mode == OC_CLIENT_SERVER || mode == OC_GATEWAY)
1990     {
1991         caglobals.server = true;
1992     }
1993
1994     caglobals.serverFlags = (CATransportFlags_t)serverFlags;
1995     if (!(caglobals.serverFlags & CA_IPFAMILY_MASK))
1996     {
1997         caglobals.serverFlags = (CATransportFlags_t)(caglobals.serverFlags|CA_IPV4|CA_IPV6);
1998     }
1999     caglobals.clientFlags = (CATransportFlags_t)clientFlags;
2000     if (!(caglobals.clientFlags & CA_IPFAMILY_MASK))
2001     {
2002         caglobals.clientFlags = (CATransportFlags_t)(caglobals.clientFlags|CA_IPV4|CA_IPV6);
2003     }
2004
2005     defaultDeviceHandler = NULL;
2006     defaultDeviceHandlerCallbackParameter = NULL;
2007
2008     result = CAResultToOCResult(CAInitialize());
2009     VERIFY_SUCCESS(result, OC_STACK_OK);
2010
2011     result = CAResultToOCResult(OCSelectNetwork());
2012     VERIFY_SUCCESS(result, OC_STACK_OK);
2013
2014     switch (myStackMode)
2015     {
2016         case OC_CLIENT:
2017             CARegisterHandler(HandleCARequests, HandleCAResponses, HandleCAErrorResponse);
2018             result = CAResultToOCResult(CAStartDiscoveryServer());
2019             OIC_LOG(INFO, TAG, "Client mode: CAStartDiscoveryServer");
2020             break;
2021         case OC_SERVER:
2022             SRMRegisterHandler(HandleCARequests, HandleCAResponses, HandleCAErrorResponse);
2023             result = CAResultToOCResult(CAStartListeningServer());
2024             OIC_LOG(INFO, TAG, "Server mode: CAStartListeningServer");
2025             break;
2026         case OC_CLIENT_SERVER:
2027         case OC_GATEWAY:
2028             SRMRegisterHandler(HandleCARequests, HandleCAResponses, HandleCAErrorResponse);
2029             result = CAResultToOCResult(CAStartListeningServer());
2030             if(result == OC_STACK_OK)
2031             {
2032                 result = CAResultToOCResult(CAStartDiscoveryServer());
2033             }
2034             break;
2035     }
2036     VERIFY_SUCCESS(result, OC_STACK_OK);
2037
2038 #ifdef TCP_ADAPTER
2039     CARegisterKeepAliveHandler(HandleKeepAliveConnCB, HandleKeepAliveDisconnCB);
2040 #endif
2041
2042 #ifdef WITH_PRESENCE
2043     PresenceTimeOutSize = sizeof (PresenceTimeOut) / sizeof (PresenceTimeOut[0]) - 1;
2044 #endif // WITH_PRESENCE
2045
2046     //Update Stack state to initialized
2047     stackState = OC_STACK_INITIALIZED;
2048
2049     // Initialize resource
2050     if(myStackMode != OC_CLIENT)
2051     {
2052         result = initResources();
2053     }
2054
2055     // Initialize the SRM Policy Engine
2056     if(result == OC_STACK_OK)
2057     {
2058         result = SRMInitPolicyEngine();
2059         // TODO after BeachHead delivery: consolidate into single SRMInit()
2060     }
2061 #if defined (ROUTING_GATEWAY) || defined (ROUTING_EP)
2062     RMSetStackMode(mode);
2063 #ifdef ROUTING_GATEWAY
2064     if (OC_GATEWAY == myStackMode)
2065     {
2066         result = RMInitialize();
2067     }
2068 #endif
2069 #endif
2070
2071 #ifdef TCP_ADAPTER
2072     if(result == OC_STACK_OK)
2073     {
2074         result = InitializeKeepAlive(myStackMode);
2075     }
2076 #endif
2077
2078 exit:
2079     if(result != OC_STACK_OK)
2080     {
2081         OIC_LOG(ERROR, TAG, "Stack initialization error");
2082         deleteAllResources();
2083         CATerminate();
2084         stackState = OC_STACK_UNINITIALIZED;
2085     }
2086     return result;
2087 }
2088
2089 OCStackResult OCStop()
2090 {
2091     OIC_LOG(INFO, TAG, "Entering OCStop");
2092
2093     if (stackState == OC_STACK_UNINIT_IN_PROGRESS)
2094     {
2095         OIC_LOG(DEBUG, TAG, "Stack already stopping, exiting");
2096         return OC_STACK_OK;
2097     }
2098     else if (stackState != OC_STACK_INITIALIZED)
2099     {
2100         OIC_LOG(ERROR, TAG, "Stack not initialized");
2101         return OC_STACK_ERROR;
2102     }
2103
2104     stackState = OC_STACK_UNINIT_IN_PROGRESS;
2105
2106 #ifdef WITH_PRESENCE
2107     // Ensure that the TTL associated with ANY and ALL presence notifications originating from
2108     // here send with the code "OC_STACK_PRESENCE_STOPPED" result.
2109     presenceResource.presenceTTL = 0;
2110 #endif // WITH_PRESENCE
2111
2112 #ifdef ROUTING_GATEWAY
2113     if (OC_GATEWAY == myStackMode)
2114     {
2115         RMTerminate();
2116     }
2117 #endif
2118
2119 #ifdef TCP_ADAPTER
2120     TerminateKeepAlive(myStackMode);
2121 #endif
2122
2123     // Free memory dynamically allocated for resources
2124     deleteAllResources();
2125     DeleteDeviceInfo();
2126     DeletePlatformInfo();
2127     CATerminate();
2128     // Remove all observers
2129     DeleteObserverList();
2130     // Remove all the client callbacks
2131     DeleteClientCBList();
2132
2133     // De-init the SRM Policy Engine
2134     // TODO after BeachHead delivery: consolidate into single SRMDeInit()
2135     SRMDeInitPolicyEngine();
2136
2137
2138     stackState = OC_STACK_UNINITIALIZED;
2139     return OC_STACK_OK;
2140 }
2141
2142 OCStackResult OCStartMulticastServer()
2143 {
2144     if(stackState != OC_STACK_INITIALIZED)
2145     {
2146         OIC_LOG(ERROR, TAG, "OCStack is not initalized. Cannot start multicast server.");
2147         return OC_STACK_ERROR;
2148     }
2149     CAResult_t ret = CAStartListeningServer();
2150     if (CA_STATUS_OK != ret)
2151     {
2152         OIC_LOG_V(ERROR, TAG, "Failed starting listening server: %d", ret);
2153         return OC_STACK_ERROR;
2154     }
2155     return OC_STACK_OK;
2156 }
2157
2158 OCStackResult OCStopMulticastServer()
2159 {
2160     CAResult_t ret = CAStopListeningServer();
2161     if (CA_STATUS_OK != ret)
2162     {
2163         OIC_LOG_V(ERROR, TAG, "Failed stopping listening server: %d", ret);
2164         return OC_STACK_ERROR;
2165     }
2166     return OC_STACK_OK;
2167 }
2168
2169 CAMessageType_t qualityOfServiceToMessageType(OCQualityOfService qos)
2170 {
2171     switch (qos)
2172     {
2173         case OC_HIGH_QOS:
2174             return CA_MSG_CONFIRM;
2175         case OC_LOW_QOS:
2176         case OC_MEDIUM_QOS:
2177         case OC_NA_QOS:
2178         default:
2179             return CA_MSG_NONCONFIRM;
2180     }
2181 }
2182
2183 OCStackResult verifyUriQueryLength(const char *inputUri, uint16_t uriLen)
2184 {
2185     char *query;
2186
2187     query = strchr (inputUri, '?');
2188
2189     if (query != NULL)
2190     {
2191         if((query - inputUri) > MAX_URI_LENGTH)
2192         {
2193             return OC_STACK_INVALID_URI;
2194         }
2195
2196         if((inputUri + uriLen - 1 - query) > MAX_QUERY_LENGTH)
2197         {
2198             return OC_STACK_INVALID_QUERY;
2199         }
2200     }
2201     else if(uriLen > MAX_URI_LENGTH)
2202     {
2203         return OC_STACK_INVALID_URI;
2204     }
2205     return OC_STACK_OK;
2206 }
2207
2208 /**
2209  *  A request uri consists of the following components in order:
2210  *                              example
2211  *  optionally one of
2212  *      CoAP over UDP prefix    "coap://"
2213  *      CoAP over TCP prefix    "coap+tcp://"
2214  *  optionally one of
2215  *      IPv6 address            "[1234::5678]"
2216  *      IPv4 address            "192.168.1.1"
2217  *  optional port               ":5683"
2218  *  resource uri                "/oc/core..."
2219  *
2220  *  for PRESENCE requests, extract resource type.
2221  */
2222 static OCStackResult ParseRequestUri(const char *fullUri,
2223                                         OCTransportAdapter adapter,
2224                                         OCTransportFlags flags,
2225                                         OCDevAddr **devAddr,
2226                                         char **resourceUri,
2227                                         char **resourceType)
2228 {
2229     VERIFY_NON_NULL(fullUri, FATAL, OC_STACK_INVALID_CALLBACK);
2230
2231     OCStackResult result = OC_STACK_OK;
2232     OCDevAddr *da = NULL;
2233     char *colon = NULL;
2234     char *end;
2235
2236     // provide defaults for all returned values
2237     if (devAddr)
2238     {
2239         *devAddr = NULL;
2240     }
2241     if (resourceUri)
2242     {
2243         *resourceUri = NULL;
2244     }
2245     if (resourceType)
2246     {
2247         *resourceType = NULL;
2248     }
2249
2250     // delimit url prefix, if any
2251     const char *start = fullUri;
2252     char *slash2 = strstr(start, "//");
2253     if (slash2)
2254     {
2255         start = slash2 + 2;
2256     }
2257     char *slash = strchr(start, '/');
2258     if (!slash)
2259     {
2260         return OC_STACK_INVALID_URI;
2261     }
2262
2263     // process url scheme
2264     size_t prefixLen = slash2 - fullUri;
2265     bool istcp = false;
2266     if (prefixLen)
2267     {
2268         if ((prefixLen == sizeof(COAP_TCP) - 1) && (!strncmp(fullUri, COAP_TCP, prefixLen)))
2269         {
2270             istcp = true;
2271         }
2272     }
2273
2274     // TODO: this logic should come in with unit tests exercising the various strings
2275     // processs url prefix, if any
2276     size_t urlLen = slash - start;
2277     // port
2278     uint16_t port = 0;
2279     size_t len = 0;
2280     if (urlLen && devAddr)
2281     {   // construct OCDevAddr
2282         if (start[0] == '[')
2283         {   // ipv6 address
2284             char *close = strchr(++start, ']');
2285             if (!close || close > slash)
2286             {
2287                 return OC_STACK_INVALID_URI;
2288             }
2289             end = close;
2290             if (close[1] == ':')
2291             {
2292                 colon = close + 1;
2293             }
2294             adapter = (OCTransportAdapter)(adapter | OC_ADAPTER_IP);
2295             flags = (OCTransportFlags)(flags | OC_IP_USE_V6);
2296         }
2297         else
2298         {
2299             char *dot = strchr(start, '.');
2300             if (dot && dot < slash)
2301             {   // ipv4 address
2302                 colon = strchr(start, ':');
2303                 end = (colon && colon < slash) ? colon : slash;
2304
2305                 if (istcp)
2306                 {   // coap over tcp
2307                     adapter = (OCTransportAdapter)(adapter | OC_ADAPTER_TCP);
2308                 }
2309                 else
2310                 {
2311                     adapter = (OCTransportAdapter)(adapter | OC_ADAPTER_IP);
2312                     flags = (OCTransportFlags)(flags | OC_IP_USE_V4);
2313                 }
2314             }
2315             else
2316             {   // MAC address
2317                 end = slash;
2318             }
2319         }
2320         len = end - start;
2321         if (len >= sizeof(da->addr))
2322         {
2323             return OC_STACK_INVALID_URI;
2324         }
2325         // collect port, if any
2326         if (colon && colon < slash)
2327         {
2328             for (colon++; colon < slash; colon++)
2329             {
2330                 char c = colon[0];
2331                 if (c < '0' || c > '9')
2332                 {
2333                     return OC_STACK_INVALID_URI;
2334                 }
2335                 port = 10 * port + c - '0';
2336             }
2337         }
2338
2339         len = end - start;
2340         if (len >= sizeof(da->addr))
2341         {
2342             return OC_STACK_INVALID_URI;
2343         }
2344
2345         da = (OCDevAddr *)OICCalloc(sizeof (OCDevAddr), 1);
2346         if (!da)
2347         {
2348             return OC_STACK_NO_MEMORY;
2349         }
2350         OICStrcpyPartial(da->addr, sizeof(da->addr), start, len);
2351         da->port = port;
2352         da->adapter = adapter;
2353         da->flags = flags;
2354         if (!strncmp(fullUri, "coaps:", 6))
2355         {
2356             da->flags = (OCTransportFlags)(da->flags|CA_SECURE);
2357         }
2358         *devAddr = da;
2359     }
2360
2361     // process resource uri, if any
2362     if (slash)
2363     {   // request uri and query
2364         size_t ulen = strlen(slash); // resource uri length
2365         size_t tlen = 0;      // resource type length
2366         char *type = NULL;
2367
2368         static const char strPresence[] = "/oic/ad?rt=";
2369         static const size_t lenPresence = sizeof(strPresence) - 1;
2370         if (!strncmp(slash, strPresence, lenPresence))
2371         {
2372             type = slash + lenPresence;
2373             tlen = ulen - lenPresence;
2374         }
2375         // resource uri
2376         if (resourceUri)
2377         {
2378             *resourceUri = (char *)OICMalloc(ulen + 1);
2379             if (!*resourceUri)
2380             {
2381                 result = OC_STACK_NO_MEMORY;
2382                 goto error;
2383             }
2384             strcpy(*resourceUri, slash);
2385         }
2386         // resource type
2387         if (type && resourceType)
2388         {
2389             *resourceType = (char *)OICMalloc(tlen + 1);
2390             if (!*resourceType)
2391             {
2392                 result = OC_STACK_NO_MEMORY;
2393                 goto error;
2394             }
2395
2396             OICStrcpy(*resourceType, (tlen+1), type);
2397         }
2398     }
2399
2400     return OC_STACK_OK;
2401
2402 error:
2403     // free all returned values
2404     if (devAddr)
2405     {
2406         OICFree(*devAddr);
2407     }
2408     if (resourceUri)
2409     {
2410         OICFree(*resourceUri);
2411     }
2412     if (resourceType)
2413     {
2414         OICFree(*resourceType);
2415     }
2416     return result;
2417 }
2418
2419 static OCStackResult OCPreparePresence(CAEndpoint_t *endpoint,
2420                                         char *resourceUri, char **requestUri)
2421 {
2422     char uri[CA_MAX_URI_LENGTH];
2423
2424     FormCanonicalPresenceUri(endpoint, resourceUri, uri);
2425
2426     *requestUri = OICStrdup(uri);
2427     if (!*requestUri)
2428     {
2429         return OC_STACK_NO_MEMORY;
2430     }
2431
2432     return OC_STACK_OK;
2433 }
2434
2435 /**
2436  * Discover or Perform requests on a specified resource
2437  */
2438 OCStackResult OCDoResource(OCDoHandle *handle,
2439                             OCMethod method,
2440                             const char *requestUri,
2441                             const OCDevAddr *destination,
2442                             OCPayload* payload,
2443                             OCConnectivityType connectivityType,
2444                             OCQualityOfService qos,
2445                             OCCallbackData *cbData,
2446                             OCHeaderOption *options,
2447                             uint8_t numOptions)
2448 {
2449     OIC_LOG(INFO, TAG, "Entering OCDoResource");
2450
2451     // Validate input parameters
2452     VERIFY_NON_NULL(cbData, FATAL, OC_STACK_INVALID_CALLBACK);
2453     VERIFY_NON_NULL(cbData->cb, FATAL, OC_STACK_INVALID_CALLBACK);
2454     VERIFY_NON_NULL(requestUri , FATAL, OC_STACK_INVALID_URI);
2455
2456     OCStackResult result = OC_STACK_ERROR;
2457     CAResult_t caResult;
2458     CAToken_t token = NULL;
2459     uint8_t tokenLength = CA_MAX_TOKEN_LEN;
2460     ClientCB *clientCB = NULL;
2461     OCDoHandle resHandle = NULL;
2462     CAEndpoint_t endpoint = {.adapter = CA_DEFAULT_ADAPTER};
2463     OCDevAddr tmpDevAddr = { OC_DEFAULT_ADAPTER };
2464     uint32_t ttl = 0;
2465     OCTransportAdapter adapter;
2466     OCTransportFlags flags;
2467     // the request contents are put here
2468     CARequestInfo_t requestInfo = {.method = CA_GET};
2469     // requestUri  will be parsed into the following three variables
2470     OCDevAddr *devAddr = NULL;
2471     char *resourceUri = NULL;
2472     char *resourceType = NULL;
2473
2474     /*
2475      * Support original behavior with address on resourceUri argument.
2476      */
2477     adapter = (OCTransportAdapter)(connectivityType >> CT_ADAPTER_SHIFT);
2478     flags = (OCTransportFlags)(connectivityType & CT_MASK_FLAGS);
2479
2480     result = ParseRequestUri(requestUri, adapter, flags, &devAddr, &resourceUri, &resourceType);
2481
2482     if (result != OC_STACK_OK)
2483     {
2484         OIC_LOG_V(DEBUG, TAG, "Unable to parse uri: %s", requestUri);
2485         goto exit;
2486     }
2487
2488     switch (method)
2489     {
2490     case OC_REST_GET:
2491     case OC_REST_OBSERVE:
2492     case OC_REST_OBSERVE_ALL:
2493     case OC_REST_CANCEL_OBSERVE:
2494         requestInfo.method = CA_GET;
2495         break;
2496     case OC_REST_PUT:
2497         requestInfo.method = CA_PUT;
2498         break;
2499     case OC_REST_POST:
2500         requestInfo.method = CA_POST;
2501         break;
2502     case OC_REST_DELETE:
2503         requestInfo.method = CA_DELETE;
2504         break;
2505     case OC_REST_DISCOVER:
2506         qos = OC_LOW_QOS;
2507         if (destination || devAddr)
2508         {
2509             requestInfo.isMulticast = false;
2510         }
2511         else
2512         {
2513             tmpDevAddr.adapter = adapter;
2514             tmpDevAddr.flags = flags;
2515             destination = &tmpDevAddr;
2516             requestInfo.isMulticast = true;
2517         }
2518         // CA_DISCOVER will become GET and isMulticast
2519         requestInfo.method = CA_GET;
2520         break;
2521 #ifdef WITH_PRESENCE
2522     case OC_REST_PRESENCE:
2523         // Replacing method type with GET because "presence"
2524         // is a stack layer only implementation.
2525         requestInfo.method = CA_GET;
2526         break;
2527 #endif
2528     default:
2529         result = OC_STACK_INVALID_METHOD;
2530         goto exit;
2531     }
2532
2533     if (!devAddr && !destination)
2534     {
2535         OIC_LOG(DEBUG, TAG, "no devAddr and no destination");
2536         result = OC_STACK_INVALID_PARAM;
2537         goto exit;
2538     }
2539
2540     /* If not original behavior, use destination argument */
2541     if (destination && !devAddr)
2542     {
2543         devAddr = (OCDevAddr *)OICMalloc(sizeof (OCDevAddr));
2544         if (!devAddr)
2545         {
2546             result = OC_STACK_NO_MEMORY;
2547             goto exit;
2548         }
2549         *devAddr = *destination;
2550     }
2551
2552     resHandle = GenerateInvocationHandle();
2553     if (!resHandle)
2554     {
2555         result = OC_STACK_NO_MEMORY;
2556         goto exit;
2557     }
2558
2559     caResult = CAGenerateToken(&token, tokenLength);
2560     if (caResult != CA_STATUS_OK)
2561     {
2562         OIC_LOG(ERROR, TAG, "CAGenerateToken error");
2563         result= OC_STACK_ERROR;
2564         goto exit;
2565     }
2566
2567     // fill in request data
2568     requestInfo.info.type = qualityOfServiceToMessageType(qos);
2569     requestInfo.info.token = token;
2570     requestInfo.info.tokenLength = tokenLength;
2571     requestInfo.info.resourceUri = resourceUri;
2572
2573     if ((method == OC_REST_OBSERVE) || (method == OC_REST_OBSERVE_ALL))
2574     {
2575         result = CreateObserveHeaderOption (&(requestInfo.info.options),
2576                                     options, numOptions, OC_OBSERVE_REGISTER);
2577         if (result != OC_STACK_OK)
2578         {
2579             goto exit;
2580         }
2581         requestInfo.info.numOptions = numOptions + 1;
2582     }
2583     else
2584     {
2585         requestInfo.info.numOptions = numOptions;
2586         requestInfo.info.options =
2587             (CAHeaderOption_t*) OICCalloc(numOptions, sizeof(CAHeaderOption_t));
2588         memcpy(requestInfo.info.options, (CAHeaderOption_t*)options,
2589                numOptions * sizeof(CAHeaderOption_t));
2590     }
2591
2592     CopyDevAddrToEndpoint(devAddr, &endpoint);
2593
2594     if(payload)
2595     {
2596         if((result =
2597             OCConvertPayload(payload, &requestInfo.info.payload, &requestInfo.info.payloadSize))
2598                 != OC_STACK_OK)
2599         {
2600             OIC_LOG(ERROR, TAG, "Failed to create CBOR Payload");
2601             goto exit;
2602         }
2603         requestInfo.info.payloadFormat = CA_FORMAT_APPLICATION_CBOR;
2604     }
2605     else
2606     {
2607         requestInfo.info.payload = NULL;
2608         requestInfo.info.payloadSize = 0;
2609         requestInfo.info.payloadFormat = CA_FORMAT_UNDEFINED;
2610     }
2611
2612     if (result != OC_STACK_OK)
2613     {
2614         OIC_LOG(ERROR, TAG, "CACreateEndpoint error");
2615         goto exit;
2616     }
2617
2618     // prepare for response
2619 #ifdef WITH_PRESENCE
2620     if (method == OC_REST_PRESENCE)
2621     {
2622         char *presenceUri = NULL;
2623         result = OCPreparePresence(&endpoint, resourceUri, &presenceUri);
2624         if (OC_STACK_OK != result)
2625         {
2626             goto exit;
2627         }
2628
2629         // Assign full presence uri as coap://ip:port/oic/ad to add to callback list.
2630         // Presence notification will form a canonical uri to
2631         // look for callbacks into the application.
2632         resourceUri = presenceUri;
2633     }
2634 #endif
2635
2636     ttl = GetTicks(MAX_CB_TIMEOUT_SECONDS * MILLISECONDS_PER_SECOND);
2637     result = AddClientCB(&clientCB, cbData, token, tokenLength, &resHandle,
2638                             method, devAddr, resourceUri, resourceType, ttl);
2639     if (OC_STACK_OK != result)
2640     {
2641         goto exit;
2642     }
2643
2644     devAddr = NULL;       // Client CB list entry now owns it
2645     resourceUri = NULL;   // Client CB list entry now owns it
2646     resourceType = NULL;  // Client CB list entry now owns it
2647
2648     // send request
2649     result = OCSendRequest(&endpoint, &requestInfo);
2650     if (OC_STACK_OK != result)
2651     {
2652         goto exit;
2653     }
2654
2655     if (handle)
2656     {
2657         *handle = resHandle;
2658     }
2659
2660 exit:
2661     if (result != OC_STACK_OK)
2662     {
2663         OIC_LOG(ERROR, TAG, "OCDoResource error");
2664         FindAndDeleteClientCB(clientCB);
2665         CADestroyToken(token);
2666         if (handle)
2667         {
2668             *handle = NULL;
2669         }
2670         OICFree(resHandle);
2671     }
2672
2673     // This is the owner of the payload object, so we free it
2674     OCPayloadDestroy(payload);
2675     OICFree(requestInfo.info.payload);
2676     OICFree(devAddr);
2677     OICFree(resourceUri);
2678     OICFree(resourceType);
2679     OICFree(requestInfo.info.options);
2680     return result;
2681 }
2682
2683 OCStackResult OCCancel(OCDoHandle handle, OCQualityOfService qos, OCHeaderOption * options,
2684         uint8_t numOptions)
2685 {
2686     /*
2687      * This ftn is implemented one of two ways in the case of observation:
2688      *
2689      * 1. qos == OC_NON_CONFIRMABLE. When observe is unobserved..
2690      *      Remove the callback associated on client side.
2691      *      When the next notification comes in from server,
2692      *      reply with RESET message to server.
2693      *      Keep in mind that the server will react to RESET only
2694      *      if the last notification was sent as CON
2695      *
2696      * 2. qos == OC_CONFIRMABLE. When OCCancel is called,
2697      *      and it is associated with an observe request
2698      *      (i.e. ClientCB->method == OC_REST_OBSERVE || OC_REST_OBSERVE_ALL),
2699      *      Send CON Observe request to server with
2700      *      observe flag = OC_RESOURCE_OBSERVE_DEREGISTER.
2701      *      Remove the callback associated on client side.
2702      */
2703     OCStackResult ret = OC_STACK_OK;
2704     CAEndpoint_t endpoint = {.adapter = CA_DEFAULT_ADAPTER};
2705     CARequestInfo_t requestInfo = {.method = CA_GET};
2706
2707     if(!handle)
2708     {
2709         return OC_STACK_INVALID_PARAM;
2710     }
2711
2712     ClientCB *clientCB = GetClientCB(NULL, 0, handle, NULL);
2713     if (!clientCB)
2714     {
2715         OIC_LOG(ERROR, TAG, "Callback not found. Called OCCancel on same resource twice?");
2716         return OC_STACK_ERROR;
2717     }
2718
2719     switch (clientCB->method)
2720     {
2721         case OC_REST_OBSERVE:
2722         case OC_REST_OBSERVE_ALL:
2723
2724             OIC_LOG_V(INFO, TAG, "Canceling observation for resource %s",
2725                                         clientCB->requestUri);
2726             if (qos != OC_HIGH_QOS)
2727             {
2728                 FindAndDeleteClientCB(clientCB);
2729                 break;
2730             }
2731
2732             OIC_LOG(INFO, TAG, "Cancelling observation as CONFIRMABLE");
2733
2734             requestInfo.info.type = qualityOfServiceToMessageType(qos);
2735             requestInfo.info.token = clientCB->token;
2736             requestInfo.info.tokenLength = clientCB->tokenLength;
2737
2738             if (CreateObserveHeaderOption (&(requestInfo.info.options),
2739                     options, numOptions, OC_OBSERVE_DEREGISTER) != OC_STACK_OK)
2740             {
2741                 return OC_STACK_ERROR;
2742             }
2743             requestInfo.info.numOptions = numOptions + 1;
2744             requestInfo.info.resourceUri = OICStrdup (clientCB->requestUri);
2745
2746             CopyDevAddrToEndpoint(clientCB->devAddr, &endpoint);
2747
2748             ret = OCSendRequest(&endpoint, &requestInfo);
2749
2750             if (requestInfo.info.options)
2751             {
2752                 OICFree (requestInfo.info.options);
2753             }
2754             if (requestInfo.info.resourceUri)
2755             {
2756                 OICFree (requestInfo.info.resourceUri);
2757             }
2758
2759             break;
2760
2761         case OC_REST_DISCOVER:
2762             OIC_LOG_V(INFO, TAG, "Cancelling discovery callback for resource %s",
2763                                            clientCB->requestUri);
2764             FindAndDeleteClientCB(clientCB);
2765             break;
2766
2767 #ifdef WITH_PRESENCE
2768         case OC_REST_PRESENCE:
2769             FindAndDeleteClientCB(clientCB);
2770             break;
2771 #endif
2772
2773         default:
2774             ret = OC_STACK_INVALID_METHOD;
2775             break;
2776     }
2777
2778     return ret;
2779 }
2780
2781 /**
2782  * @brief   Register Persistent storage callback.
2783  * @param   persistentStorageHandler [IN] Pointers to open, read, write, close & unlink handlers.
2784  * @return
2785  *     OC_STACK_OK    - No errors; Success
2786  *     OC_STACK_INVALID_PARAM - Invalid parameter
2787  */
2788 OCStackResult OCRegisterPersistentStorageHandler(OCPersistentStorage* persistentStorageHandler)
2789 {
2790     OIC_LOG(INFO, TAG, "RegisterPersistentStorageHandler !!");
2791     if(!persistentStorageHandler)
2792     {
2793         OIC_LOG(ERROR, TAG, "The persistent storage handler is invalid");
2794         return OC_STACK_INVALID_PARAM;
2795     }
2796     else
2797     {
2798         if( !persistentStorageHandler->open ||
2799                 !persistentStorageHandler->close ||
2800                 !persistentStorageHandler->read ||
2801                 !persistentStorageHandler->unlink ||
2802                 !persistentStorageHandler->write)
2803         {
2804             OIC_LOG(ERROR, TAG, "The persistent storage handler is invalid");
2805             return OC_STACK_INVALID_PARAM;
2806         }
2807     }
2808     return SRMRegisterPersistentStorageHandler(persistentStorageHandler);
2809 }
2810
2811 #ifdef WITH_PRESENCE
2812
2813 OCStackResult OCProcessPresence()
2814 {
2815     OCStackResult result = OC_STACK_OK;
2816
2817     // the following line floods the log with messages that are irrelevant
2818     // to most purposes.  Uncomment as needed.
2819     //OIC_LOG(INFO, TAG, "Entering RequestPresence");
2820     ClientCB* cbNode = NULL;
2821     OCClientResponse clientResponse;
2822     OCStackApplicationResult cbResult = OC_STACK_DELETE_TRANSACTION;
2823
2824     LL_FOREACH(cbList, cbNode)
2825     {
2826         if (OC_REST_PRESENCE != cbNode->method || !cbNode->presence)
2827         {
2828             continue;
2829         }
2830
2831         uint32_t now = GetTicks(0);
2832         OIC_LOG_V(DEBUG, TAG, "this TTL level %d",
2833                                                 cbNode->presence->TTLlevel);
2834         OIC_LOG_V(DEBUG, TAG, "current ticks %d", now);
2835
2836         if (cbNode->presence->TTLlevel > PresenceTimeOutSize)
2837         {
2838             goto exit;
2839         }
2840
2841         if (cbNode->presence->TTLlevel < PresenceTimeOutSize)
2842         {
2843             OIC_LOG_V(DEBUG, TAG, "timeout ticks %d",
2844                     cbNode->presence->timeOut[cbNode->presence->TTLlevel]);
2845         }
2846         if (cbNode->presence->TTLlevel >= PresenceTimeOutSize)
2847         {
2848             OIC_LOG(DEBUG, TAG, "No more timeout ticks");
2849
2850             clientResponse.sequenceNumber = 0;
2851             clientResponse.result = OC_STACK_PRESENCE_TIMEOUT;
2852             clientResponse.devAddr = *cbNode->devAddr;
2853             FixUpClientResponse(&clientResponse);
2854             clientResponse.payload = NULL;
2855
2856             // Increment the TTLLevel (going to a next state), so we don't keep
2857             // sending presence notification to client.
2858             cbNode->presence->TTLlevel++;
2859             OIC_LOG_V(DEBUG, TAG, "moving to TTL level %d",
2860                                         cbNode->presence->TTLlevel);
2861
2862             cbResult = cbNode->callBack(cbNode->context, cbNode->handle, &clientResponse);
2863             if (cbResult == OC_STACK_DELETE_TRANSACTION)
2864             {
2865                 FindAndDeleteClientCB(cbNode);
2866             }
2867         }
2868
2869         if (now < cbNode->presence->timeOut[cbNode->presence->TTLlevel])
2870         {
2871             continue;
2872         }
2873
2874         CAEndpoint_t endpoint = {.adapter = CA_DEFAULT_ADAPTER};
2875         CAInfo_t requestData = {.type = CA_MSG_CONFIRM};
2876         CARequestInfo_t requestInfo = {.method = CA_GET};
2877
2878         OIC_LOG(DEBUG, TAG, "time to test server presence");
2879
2880         CopyDevAddrToEndpoint(cbNode->devAddr, &endpoint);
2881
2882         requestData.type = CA_MSG_NONCONFIRM;
2883         requestData.token = cbNode->token;
2884         requestData.tokenLength = cbNode->tokenLength;
2885         requestData.resourceUri = OC_RSRVD_PRESENCE_URI;
2886         requestInfo.method = CA_GET;
2887         requestInfo.info = requestData;
2888
2889         result = OCSendRequest(&endpoint, &requestInfo);
2890         if (OC_STACK_OK != result)
2891         {
2892             goto exit;
2893         }
2894
2895         cbNode->presence->TTLlevel++;
2896         OIC_LOG_V(DEBUG, TAG, "moving to TTL level %d", cbNode->presence->TTLlevel);
2897     }
2898 exit:
2899     if (result != OC_STACK_OK)
2900     {
2901         OIC_LOG(ERROR, TAG, "OCProcessPresence error");
2902     }
2903
2904     return result;
2905 }
2906 #endif // WITH_PRESENCE
2907
2908 OCStackResult OCProcess()
2909 {
2910 #ifdef WITH_PRESENCE
2911     OCProcessPresence();
2912 #endif
2913     CAHandleRequestResponse();
2914
2915 #ifdef ROUTING_GATEWAY
2916     RMProcess();
2917 #endif
2918
2919 #ifdef TCP_ADAPTER
2920     ProcessKeepAlive();
2921 #endif
2922     return OC_STACK_OK;
2923 }
2924
2925 #ifdef WITH_PRESENCE
2926 OCStackResult OCStartPresence(const uint32_t ttl)
2927 {
2928     uint8_t tokenLength = CA_MAX_TOKEN_LEN;
2929     OCChangeResourceProperty(
2930             &(((OCResource *)presenceResource.handle)->resourceProperties),
2931             OC_ACTIVE, 1);
2932
2933     if (OC_MAX_PRESENCE_TTL_SECONDS < ttl)
2934     {
2935         presenceResource.presenceTTL = OC_MAX_PRESENCE_TTL_SECONDS;
2936         OIC_LOG(INFO, TAG, "Setting Presence TTL to max value");
2937     }
2938     else if (0 == ttl)
2939     {
2940         presenceResource.presenceTTL = OC_DEFAULT_PRESENCE_TTL_SECONDS;
2941         OIC_LOG(INFO, TAG, "Setting Presence TTL to default value");
2942     }
2943     else
2944     {
2945         presenceResource.presenceTTL = ttl;
2946     }
2947     OIC_LOG_V(DEBUG, TAG, "Presence TTL is %" PRIu32 " seconds", presenceResource.presenceTTL);
2948
2949     if (OC_PRESENCE_UNINITIALIZED == presenceState)
2950     {
2951         presenceState = OC_PRESENCE_INITIALIZED;
2952
2953         OCDevAddr devAddr = { OC_DEFAULT_ADAPTER };
2954
2955         CAToken_t caToken = NULL;
2956         CAResult_t caResult = CAGenerateToken(&caToken, tokenLength);
2957         if (caResult != CA_STATUS_OK)
2958         {
2959             OIC_LOG(ERROR, TAG, "CAGenerateToken error");
2960             CADestroyToken(caToken);
2961             return OC_STACK_ERROR;
2962         }
2963
2964         AddObserver(OC_RSRVD_PRESENCE_URI, NULL, 0, caToken, tokenLength,
2965                 (OCResource *)presenceResource.handle, OC_LOW_QOS, OC_FORMAT_UNDEFINED, &devAddr);
2966         CADestroyToken(caToken);
2967     }
2968
2969     // Each time OCStartPresence is called
2970     // a different random 32-bit integer number is used
2971     ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
2972
2973     return SendPresenceNotification(((OCResource *)presenceResource.handle)->rsrcType,
2974             OC_PRESENCE_TRIGGER_CREATE);
2975 }
2976
2977 OCStackResult OCStopPresence()
2978 {
2979     OCStackResult result = OC_STACK_ERROR;
2980
2981     if(presenceResource.handle)
2982     {
2983         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
2984
2985     // make resource inactive
2986     result = OCChangeResourceProperty(
2987             &(((OCResource *) presenceResource.handle)->resourceProperties),
2988             OC_ACTIVE, 0);
2989     }
2990
2991     if(result != OC_STACK_OK)
2992     {
2993         OIC_LOG(ERROR, TAG,
2994                       "Changing the presence resource properties to ACTIVE not successful");
2995         return result;
2996     }
2997
2998     return SendStopNotification();
2999 }
3000 #endif
3001
3002 OCStackResult OCSetDefaultDeviceEntityHandler(OCDeviceEntityHandler entityHandler,
3003                                             void* callbackParameter)
3004 {
3005     defaultDeviceHandler = entityHandler;
3006     defaultDeviceHandlerCallbackParameter = callbackParameter;
3007
3008     return OC_STACK_OK;
3009 }
3010
3011 OCStackResult OCSetPlatformInfo(OCPlatformInfo platformInfo)
3012 {
3013     OIC_LOG(INFO, TAG, "Entering OCSetPlatformInfo");
3014
3015     if(myStackMode ==  OC_SERVER || myStackMode == OC_CLIENT_SERVER || myStackMode == OC_GATEWAY)
3016     {
3017         if (validatePlatformInfo(platformInfo))
3018         {
3019             return SavePlatformInfo(platformInfo);
3020         }
3021         else
3022         {
3023             return OC_STACK_INVALID_PARAM;
3024         }
3025     }
3026     else
3027     {
3028         return OC_STACK_ERROR;
3029     }
3030 }
3031
3032 OCStackResult OCSetDeviceInfo(OCDeviceInfo deviceInfo)
3033 {
3034     OIC_LOG(INFO, TAG, "Entering OCSetDeviceInfo");
3035
3036     if (!deviceInfo.deviceName || deviceInfo.deviceName[0] == '\0')
3037     {
3038         OIC_LOG(ERROR, TAG, "Null or empty device name.");
3039         return OC_STACK_INVALID_PARAM;
3040     }
3041
3042     return SaveDeviceInfo(deviceInfo);
3043 }
3044
3045 OCStackResult OCCreateResource(OCResourceHandle *handle,
3046         const char *resourceTypeName,
3047         const char *resourceInterfaceName,
3048         const char *uri, OCEntityHandler entityHandler,
3049         void* callbackParam,
3050         uint8_t resourceProperties)
3051 {
3052
3053     OCResource *pointer = NULL;
3054     OCStackResult result = OC_STACK_ERROR;
3055
3056     OIC_LOG(INFO, TAG, "Entering OCCreateResource");
3057
3058     if(myStackMode == OC_CLIENT)
3059     {
3060         return OC_STACK_INVALID_PARAM;
3061     }
3062     // Validate parameters
3063     if(!uri || uri[0]=='\0' || strlen(uri)>=MAX_URI_LENGTH )
3064     {
3065         OIC_LOG(ERROR, TAG, "URI is empty or too long");
3066         return OC_STACK_INVALID_URI;
3067     }
3068     // Is it presented during resource discovery?
3069     if (!handle || !resourceTypeName || resourceTypeName[0] == '\0' )
3070     {
3071         OIC_LOG(ERROR, TAG, "Input parameter is NULL");
3072         return OC_STACK_INVALID_PARAM;
3073     }
3074
3075     if(!resourceInterfaceName || strlen(resourceInterfaceName) == 0)
3076     {
3077         resourceInterfaceName = OC_RSRVD_INTERFACE_DEFAULT;
3078     }
3079
3080     // Make sure resourceProperties bitmask has allowed properties specified
3081     if (resourceProperties
3082             > (OC_ACTIVE | OC_DISCOVERABLE | OC_OBSERVABLE | OC_SLOW | OC_SECURE |
3083                OC_EXPLICIT_DISCOVERABLE))
3084     {
3085         OIC_LOG(ERROR, TAG, "Invalid property");
3086         return OC_STACK_INVALID_PARAM;
3087     }
3088
3089     // If the headResource is NULL, then no resources have been created...
3090     pointer = headResource;
3091     if (pointer)
3092     {
3093         // At least one resources is in the resource list, so we need to search for
3094         // repeated URLs, which are not allowed.  If a repeat is found, exit with an error
3095         while (pointer)
3096         {
3097             if (strncmp(uri, pointer->uri, MAX_URI_LENGTH) == 0)
3098             {
3099                 OIC_LOG_V(ERROR, TAG, "Resource %s already exists", uri);
3100                 return OC_STACK_INVALID_PARAM;
3101             }
3102             pointer = pointer->next;
3103         }
3104     }
3105     // Create the pointer and insert it into the resource list
3106     pointer = (OCResource *) OICCalloc(1, sizeof(OCResource));
3107     if (!pointer)
3108     {
3109         result = OC_STACK_NO_MEMORY;
3110         goto exit;
3111     }
3112     pointer->sequenceNum = OC_OFFSET_SEQUENCE_NUMBER;
3113
3114     insertResource(pointer);
3115
3116     // Set the uri
3117     pointer->uri = OICStrdup(uri);
3118     if (!pointer->uri)
3119     {
3120         result = OC_STACK_NO_MEMORY;
3121         goto exit;
3122     }
3123
3124     // Set properties.  Set OC_ACTIVE
3125     pointer->resourceProperties = (OCResourceProperty) (resourceProperties
3126             | OC_ACTIVE);
3127
3128     // Add the resourcetype to the resource
3129     result = BindResourceTypeToResource(pointer, resourceTypeName);
3130     if (result != OC_STACK_OK)
3131     {
3132         OIC_LOG(ERROR, TAG, "Error adding resourcetype");
3133         goto exit;
3134     }
3135
3136     // Add the resourceinterface to the resource
3137     result = BindResourceInterfaceToResource(pointer, resourceInterfaceName);
3138     if (result != OC_STACK_OK)
3139     {
3140         OIC_LOG(ERROR, TAG, "Error adding resourceinterface");
3141         goto exit;
3142     }
3143
3144     // If an entity handler has been passed, attach it to the newly created
3145     // resource.  Otherwise, set the default entity handler.
3146     if (entityHandler)
3147     {
3148         pointer->entityHandler = entityHandler;
3149         pointer->entityHandlerCallbackParam = callbackParam;
3150     }
3151     else
3152     {
3153         pointer->entityHandler = defaultResourceEHandler;
3154         pointer->entityHandlerCallbackParam = NULL;
3155     }
3156
3157     // Initialize a pointer indicating child resources in case of collection
3158     pointer->rsrcChildResourcesHead = NULL;
3159
3160     *handle = pointer;
3161     result = OC_STACK_OK;
3162
3163 #ifdef WITH_PRESENCE
3164     if (presenceResource.handle)
3165     {
3166         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3167         SendPresenceNotification(pointer->rsrcType, OC_PRESENCE_TRIGGER_CREATE);
3168     }
3169 #endif
3170 exit:
3171     if (result != OC_STACK_OK)
3172     {
3173         // Deep delete of resource and other dynamic elements that it contains
3174         deleteResource(pointer);
3175     }
3176     return result;
3177 }
3178
3179 OCStackResult OCBindResource(
3180         OCResourceHandle collectionHandle, OCResourceHandle resourceHandle)
3181 {
3182     OCResource *resource = NULL;
3183     OCChildResource *tempChildResource = NULL;
3184     OCChildResource *newChildResource = NULL;
3185
3186     OIC_LOG(INFO, TAG, "Entering OCBindResource");
3187
3188     // Validate parameters
3189     VERIFY_NON_NULL(collectionHandle, ERROR, OC_STACK_ERROR);
3190     VERIFY_NON_NULL(resourceHandle, ERROR, OC_STACK_ERROR);
3191     // Container cannot contain itself
3192     if (collectionHandle == resourceHandle)
3193     {
3194         OIC_LOG(ERROR, TAG, "Added handle equals collection handle");
3195         return OC_STACK_INVALID_PARAM;
3196     }
3197
3198     // Use the handle to find the resource in the resource linked list
3199     resource = findResource((OCResource *) collectionHandle);
3200     if (!resource)
3201     {
3202         OIC_LOG(ERROR, TAG, "Collection handle not found");
3203         return OC_STACK_INVALID_PARAM;
3204     }
3205
3206     // Look for an open slot to add add the child resource.
3207     // If found, add it and return success
3208
3209     tempChildResource = resource->rsrcChildResourcesHead;
3210
3211     while(resource->rsrcChildResourcesHead && tempChildResource->next)
3212     {
3213         // TODO: what if one of child resource was deregistered without unbinding?
3214         tempChildResource = tempChildResource->next;
3215     }
3216
3217     // Do memory allocation for child resource
3218     newChildResource = (OCChildResource *) OICCalloc(1, sizeof(OCChildResource));
3219     if(!newChildResource)
3220     {
3221         OIC_LOG(ERROR, TAG, "Adding new child resource is failed due to memory allocation failure");
3222         return OC_STACK_ERROR;
3223     }
3224
3225     newChildResource->rsrcResource = (OCResource *) resourceHandle;
3226     newChildResource->next = NULL;
3227
3228     if(!resource->rsrcChildResourcesHead)
3229     {
3230         resource->rsrcChildResourcesHead = newChildResource;
3231     }
3232     else {
3233         tempChildResource->next = newChildResource;
3234     }
3235
3236     OIC_LOG(INFO, TAG, "resource bound");
3237
3238 #ifdef WITH_PRESENCE
3239     if (presenceResource.handle)
3240     {
3241         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3242         SendPresenceNotification(((OCResource *) resourceHandle)->rsrcType,
3243                 OC_PRESENCE_TRIGGER_CHANGE);
3244     }
3245 #endif
3246
3247     return OC_STACK_OK;
3248 }
3249
3250 OCStackResult OCUnBindResource(
3251         OCResourceHandle collectionHandle, OCResourceHandle resourceHandle)
3252 {
3253     OCResource *resource = NULL;
3254     OCChildResource *tempChildResource = NULL;
3255     OCChildResource *tempLastChildResource = NULL;
3256
3257     OIC_LOG(INFO, TAG, "Entering OCUnBindResource");
3258
3259     // Validate parameters
3260     VERIFY_NON_NULL(collectionHandle, ERROR, OC_STACK_ERROR);
3261     VERIFY_NON_NULL(resourceHandle, ERROR, OC_STACK_ERROR);
3262     // Container cannot contain itself
3263     if (collectionHandle == resourceHandle)
3264     {
3265         OIC_LOG(ERROR, TAG, "removing handle equals collection handle");
3266         return OC_STACK_INVALID_PARAM;
3267     }
3268
3269     // Use the handle to find the resource in the resource linked list
3270     resource = findResource((OCResource *) collectionHandle);
3271     if (!resource)
3272     {
3273         OIC_LOG(ERROR, TAG, "Collection handle not found");
3274         return OC_STACK_INVALID_PARAM;
3275     }
3276
3277     // Look for an open slot to add add the child resource.
3278     // If found, add it and return success
3279     if(!resource->rsrcChildResourcesHead)
3280     {
3281         OIC_LOG(INFO, TAG, "resource not found in collection");
3282
3283         // Unable to add resourceHandle, so return error
3284         return OC_STACK_ERROR;
3285
3286     }
3287
3288     tempChildResource = resource->rsrcChildResourcesHead;
3289
3290     while (tempChildResource)
3291     {
3292         if(tempChildResource->rsrcResource == resourceHandle)
3293         {
3294             // if resource going to be unbinded is the head one.
3295             if( tempChildResource == resource->rsrcChildResourcesHead )
3296             {
3297                 OCChildResource *temp = resource->rsrcChildResourcesHead->next;
3298                 OICFree(resource->rsrcChildResourcesHead);
3299                 resource->rsrcChildResourcesHead = temp;
3300                 temp = NULL;
3301             }
3302             else
3303             {
3304                 OCChildResource *temp = tempChildResource->next;
3305                 OICFree(tempChildResource);
3306                 tempLastChildResource->next = temp;
3307                 temp = NULL;
3308             }
3309
3310             OIC_LOG(INFO, TAG, "resource unbound");
3311
3312             // Send notification when resource is unbounded successfully.
3313 #ifdef WITH_PRESENCE
3314             if (presenceResource.handle)
3315             {
3316                 ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3317                 SendPresenceNotification(((OCResource *) resourceHandle)->rsrcType,
3318                         OC_PRESENCE_TRIGGER_CHANGE);
3319             }
3320 #endif
3321             tempChildResource = NULL;
3322             tempLastChildResource = NULL;
3323
3324             return OC_STACK_OK;
3325
3326         }
3327
3328         tempLastChildResource = tempChildResource;
3329         tempChildResource = tempChildResource->next;
3330     }
3331
3332     OIC_LOG(INFO, TAG, "resource not found in collection");
3333
3334     tempChildResource = NULL;
3335     tempLastChildResource = NULL;
3336
3337     // Unable to add resourceHandle, so return error
3338     return OC_STACK_ERROR;
3339 }
3340
3341 // Precondition is that the parameter has been checked to not equal NULL.
3342 static bool ValidateResourceTypeInterface(const char *resourceItemName)
3343 {
3344     if (resourceItemName[0] < 'a' || resourceItemName[0] > 'z')
3345     {
3346         return false;
3347     }
3348
3349     size_t index = 1;
3350     while (resourceItemName[index] != '\0')
3351     {
3352         if (resourceItemName[index] != '.' &&
3353                 resourceItemName[index] != '-' &&
3354                 (resourceItemName[index] < 'a' || resourceItemName[index] > 'z') &&
3355                 (resourceItemName[index] < '0' || resourceItemName[index] > '9'))
3356         {
3357             return false;
3358         }
3359         ++index;
3360     }
3361
3362     return true;
3363 }
3364 OCStackResult BindResourceTypeToResource(OCResource* resource,
3365                                             const char *resourceTypeName)
3366 {
3367     OCResourceType *pointer = NULL;
3368     char *str = NULL;
3369     OCStackResult result = OC_STACK_ERROR;
3370
3371     VERIFY_NON_NULL(resourceTypeName, ERROR, OC_STACK_INVALID_PARAM);
3372
3373     if (!ValidateResourceTypeInterface(resourceTypeName))
3374     {
3375         OIC_LOG(ERROR, TAG, "resource type illegal (see RFC 6690)");
3376         return OC_STACK_INVALID_PARAM;
3377     }
3378
3379     pointer = (OCResourceType *) OICCalloc(1, sizeof(OCResourceType));
3380     if (!pointer)
3381     {
3382         result = OC_STACK_NO_MEMORY;
3383         goto exit;
3384     }
3385
3386     str = OICStrdup(resourceTypeName);
3387     if (!str)
3388     {
3389         result = OC_STACK_NO_MEMORY;
3390         goto exit;
3391     }
3392     pointer->resourcetypename = str;
3393
3394     insertResourceType(resource, pointer);
3395     result = OC_STACK_OK;
3396
3397     exit:
3398     if (result != OC_STACK_OK)
3399     {
3400         OICFree(pointer);
3401         OICFree(str);
3402     }
3403
3404     return result;
3405 }
3406
3407 OCStackResult BindResourceInterfaceToResource(OCResource* resource,
3408         const char *resourceInterfaceName)
3409 {
3410     OCResourceInterface *pointer = NULL;
3411     char *str = NULL;
3412     OCStackResult result = OC_STACK_ERROR;
3413
3414     VERIFY_NON_NULL(resourceInterfaceName, ERROR, OC_STACK_INVALID_PARAM);
3415
3416     if (!ValidateResourceTypeInterface(resourceInterfaceName))
3417     {
3418         OIC_LOG(ERROR, TAG, "resource /interface illegal (see RFC 6690)");
3419         return OC_STACK_INVALID_PARAM;
3420     }
3421
3422     OIC_LOG_V(INFO, TAG, "Binding %s interface to %s", resourceInterfaceName, resource->uri);
3423
3424     pointer = (OCResourceInterface *) OICCalloc(1, sizeof(OCResourceInterface));
3425     if (!pointer)
3426     {
3427         result = OC_STACK_NO_MEMORY;
3428         goto exit;
3429     }
3430
3431     str = OICStrdup(resourceInterfaceName);
3432     if (!str)
3433     {
3434         result = OC_STACK_NO_MEMORY;
3435         goto exit;
3436     }
3437     pointer->name = str;
3438
3439     // Bind the resourceinterface to the resource
3440     insertResourceInterface(resource, pointer);
3441
3442     result = OC_STACK_OK;
3443
3444     exit:
3445     if (result != OC_STACK_OK)
3446     {
3447         OICFree(pointer);
3448         OICFree(str);
3449     }
3450
3451     return result;
3452 }
3453
3454 OCStackResult OCBindResourceTypeToResource(OCResourceHandle handle,
3455         const char *resourceTypeName)
3456 {
3457
3458     OCStackResult result = OC_STACK_ERROR;
3459     OCResource *resource = NULL;
3460
3461     resource = findResource((OCResource *) handle);
3462     if (!resource)
3463     {
3464         OIC_LOG(ERROR, TAG, "Resource not found");
3465         return OC_STACK_ERROR;
3466     }
3467
3468     result = BindResourceTypeToResource(resource, resourceTypeName);
3469
3470 #ifdef WITH_PRESENCE
3471     if(presenceResource.handle)
3472     {
3473         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3474         SendPresenceNotification(resource->rsrcType, OC_PRESENCE_TRIGGER_CHANGE);
3475     }
3476 #endif
3477
3478     return result;
3479 }
3480
3481 OCStackResult OCBindResourceInterfaceToResource(OCResourceHandle handle,
3482         const char *resourceInterfaceName)
3483 {
3484
3485     OCStackResult result = OC_STACK_ERROR;
3486     OCResource *resource = NULL;
3487
3488     resource = findResource((OCResource *) handle);
3489     if (!resource)
3490     {
3491         OIC_LOG(ERROR, TAG, "Resource not found");
3492         return OC_STACK_ERROR;
3493     }
3494
3495     result = BindResourceInterfaceToResource(resource, resourceInterfaceName);
3496
3497 #ifdef WITH_PRESENCE
3498     if (presenceResource.handle)
3499     {
3500         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3501         SendPresenceNotification(resource->rsrcType, OC_PRESENCE_TRIGGER_CHANGE);
3502     }
3503 #endif
3504
3505     return result;
3506 }
3507
3508 OCStackResult OCGetNumberOfResources(uint8_t *numResources)
3509 {
3510     OCResource *pointer = headResource;
3511
3512     VERIFY_NON_NULL(numResources, ERROR, OC_STACK_INVALID_PARAM);
3513     *numResources = 0;
3514     while (pointer)
3515     {
3516         *numResources = *numResources + 1;
3517         pointer = pointer->next;
3518     }
3519     return OC_STACK_OK;
3520 }
3521
3522 OCResourceHandle OCGetResourceHandle(uint8_t index)
3523 {
3524     OCResource *pointer = headResource;
3525
3526     for( uint8_t i = 0; i < index && pointer; ++i)
3527     {
3528         pointer = pointer->next;
3529     }
3530     return (OCResourceHandle) pointer;
3531 }
3532
3533 OCStackResult OCDeleteResource(OCResourceHandle handle)
3534 {
3535     if (!handle)
3536     {
3537         OIC_LOG(ERROR, TAG, "Invalid handle for deletion");
3538         return OC_STACK_INVALID_PARAM;
3539     }
3540
3541     OCResource *resource = findResource((OCResource *) handle);
3542     if (resource == NULL)
3543     {
3544         OIC_LOG(ERROR, TAG, "Resource not found");
3545         return OC_STACK_NO_RESOURCE;
3546     }
3547
3548     if (deleteResource((OCResource *) handle) != OC_STACK_OK)
3549     {
3550         OIC_LOG(ERROR, TAG, "Error deleting resource");
3551         return OC_STACK_ERROR;
3552     }
3553
3554     return OC_STACK_OK;
3555 }
3556
3557 const char *OCGetResourceUri(OCResourceHandle handle)
3558 {
3559     OCResource *resource = NULL;
3560
3561     resource = findResource((OCResource *) handle);
3562     if (resource)
3563     {
3564         return resource->uri;
3565     }
3566     return (const char *) NULL;
3567 }
3568
3569 OCResourceProperty OCGetResourceProperties(OCResourceHandle handle)
3570 {
3571     OCResource *resource = NULL;
3572
3573     resource = findResource((OCResource *) handle);
3574     if (resource)
3575     {
3576         return resource->resourceProperties;
3577     }
3578     return (OCResourceProperty)-1;
3579 }
3580
3581 OCStackResult OCGetNumberOfResourceTypes(OCResourceHandle handle,
3582         uint8_t *numResourceTypes)
3583 {
3584     OCResource *resource = NULL;
3585     OCResourceType *pointer = NULL;
3586
3587     VERIFY_NON_NULL(numResourceTypes, ERROR, OC_STACK_INVALID_PARAM);
3588     VERIFY_NON_NULL(handle, ERROR, OC_STACK_INVALID_PARAM);
3589
3590     *numResourceTypes = 0;
3591
3592     resource = findResource((OCResource *) handle);
3593     if (resource)
3594     {
3595         pointer = resource->rsrcType;
3596         while (pointer)
3597         {
3598             *numResourceTypes = *numResourceTypes + 1;
3599             pointer = pointer->next;
3600         }
3601     }
3602     return OC_STACK_OK;
3603 }
3604
3605 const char *OCGetResourceTypeName(OCResourceHandle handle, uint8_t index)
3606 {
3607     OCResourceType *resourceType = NULL;
3608
3609     resourceType = findResourceTypeAtIndex(handle, index);
3610     if (resourceType)
3611     {
3612         return resourceType->resourcetypename;
3613     }
3614     return (const char *) NULL;
3615 }
3616
3617 OCStackResult OCGetNumberOfResourceInterfaces(OCResourceHandle handle,
3618         uint8_t *numResourceInterfaces)
3619 {
3620     OCResourceInterface *pointer = NULL;
3621     OCResource *resource = NULL;
3622
3623     VERIFY_NON_NULL(handle, ERROR, OC_STACK_INVALID_PARAM);
3624     VERIFY_NON_NULL(numResourceInterfaces, ERROR, OC_STACK_INVALID_PARAM);
3625
3626     *numResourceInterfaces = 0;
3627     resource = findResource((OCResource *) handle);
3628     if (resource)
3629     {
3630         pointer = resource->rsrcInterface;
3631         while (pointer)
3632         {
3633             *numResourceInterfaces = *numResourceInterfaces + 1;
3634             pointer = pointer->next;
3635         }
3636     }
3637     return OC_STACK_OK;
3638 }
3639
3640 const char *OCGetResourceInterfaceName(OCResourceHandle handle, uint8_t index)
3641 {
3642     OCResourceInterface *resourceInterface = NULL;
3643
3644     resourceInterface = findResourceInterfaceAtIndex(handle, index);
3645     if (resourceInterface)
3646     {
3647         return resourceInterface->name;
3648     }
3649     return (const char *) NULL;
3650 }
3651
3652 OCResourceHandle OCGetResourceHandleFromCollection(OCResourceHandle collectionHandle,
3653         uint8_t index)
3654 {
3655     OCResource *resource = NULL;
3656     OCChildResource *tempChildResource = NULL;
3657     uint8_t num = 0;
3658
3659     resource = findResource((OCResource *) collectionHandle);
3660     if (!resource)
3661     {
3662         return NULL;
3663     }
3664
3665     tempChildResource = resource->rsrcChildResourcesHead;
3666
3667     while(tempChildResource)
3668     {
3669         if( num == index )
3670         {
3671             return tempChildResource->rsrcResource;
3672         }
3673         num++;
3674         tempChildResource = tempChildResource->next;
3675     }
3676
3677     // In this case, the number of resource handles in the collection exceeds the index
3678     tempChildResource = NULL;
3679     return NULL;
3680 }
3681
3682 OCStackResult OCBindResourceHandler(OCResourceHandle handle,
3683         OCEntityHandler entityHandler,
3684         void* callbackParam)
3685 {
3686     OCResource *resource = NULL;
3687
3688     // Validate parameters
3689     VERIFY_NON_NULL(handle, ERROR, OC_STACK_INVALID_PARAM);
3690
3691     // Use the handle to find the resource in the resource linked list
3692     resource = findResource((OCResource *)handle);
3693     if (!resource)
3694     {
3695         OIC_LOG(ERROR, TAG, "Resource not found");
3696         return OC_STACK_ERROR;
3697     }
3698
3699     // Bind the handler
3700     resource->entityHandler = entityHandler;
3701     resource->entityHandlerCallbackParam = callbackParam;
3702
3703 #ifdef WITH_PRESENCE
3704     if (presenceResource.handle)
3705     {
3706         ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
3707         SendPresenceNotification(resource->rsrcType, OC_PRESENCE_TRIGGER_CHANGE);
3708     }
3709 #endif
3710
3711     return OC_STACK_OK;
3712 }
3713
3714 OCEntityHandler OCGetResourceHandler(OCResourceHandle handle)
3715 {
3716     OCResource *resource = NULL;
3717
3718     resource = findResource((OCResource *)handle);
3719     if (!resource)
3720     {
3721         OIC_LOG(ERROR, TAG, "Resource not found");
3722         return NULL;
3723     }
3724
3725     // Bind the handler
3726     return resource->entityHandler;
3727 }
3728
3729 void incrementSequenceNumber(OCResource * resPtr)
3730 {
3731     // Increment the sequence number
3732     resPtr->sequenceNum += 1;
3733     if (resPtr->sequenceNum == MAX_SEQUENCE_NUMBER)
3734     {
3735         resPtr->sequenceNum = OC_OFFSET_SEQUENCE_NUMBER+1;
3736     }
3737     return;
3738 }
3739
3740 #ifdef WITH_PRESENCE
3741 OCStackResult SendPresenceNotification(OCResourceType *resourceType,
3742         OCPresenceTrigger trigger)
3743 {
3744     OCResource *resPtr = NULL;
3745     OCStackResult result = OC_STACK_ERROR;
3746     OCMethod method = OC_REST_PRESENCE;
3747     uint32_t maxAge = 0;
3748     resPtr = findResource((OCResource *) presenceResource.handle);
3749     if(NULL == resPtr)
3750     {
3751         return OC_STACK_NO_RESOURCE;
3752     }
3753
3754     if((((OCResource *) presenceResource.handle)->resourceProperties) & OC_ACTIVE)
3755     {
3756         maxAge = presenceResource.presenceTTL;
3757
3758         result = SendAllObserverNotification(method, resPtr, maxAge,
3759                 trigger, resourceType, OC_LOW_QOS);
3760     }
3761
3762     return result;
3763 }
3764
3765 OCStackResult SendStopNotification()
3766 {
3767     OCResource *resPtr = NULL;
3768     OCStackResult result = OC_STACK_ERROR;
3769     OCMethod method = OC_REST_PRESENCE;
3770     resPtr = findResource((OCResource *) presenceResource.handle);
3771     if(NULL == resPtr)
3772     {
3773         return OC_STACK_NO_RESOURCE;
3774     }
3775
3776     // maxAge is 0. ResourceType is NULL.
3777     result = SendAllObserverNotification(method, resPtr, 0, OC_PRESENCE_TRIGGER_DELETE,
3778             NULL, OC_LOW_QOS);
3779
3780     return result;
3781 }
3782
3783 #endif // WITH_PRESENCE
3784 OCStackResult OCNotifyAllObservers(OCResourceHandle handle, OCQualityOfService qos)
3785 {
3786     OCResource *resPtr = NULL;
3787     OCStackResult result = OC_STACK_ERROR;
3788     OCMethod method = OC_REST_NOMETHOD;
3789     uint32_t maxAge = 0;
3790
3791     OIC_LOG(INFO, TAG, "Notifying all observers");
3792 #ifdef WITH_PRESENCE
3793     if(handle == presenceResource.handle)
3794     {
3795         return OC_STACK_OK;
3796     }
3797 #endif // WITH_PRESENCE
3798     VERIFY_NON_NULL(handle, ERROR, OC_STACK_ERROR);
3799
3800     // Verify that the resource exists
3801     resPtr = findResource ((OCResource *) handle);
3802     if (NULL == resPtr)
3803     {
3804         return OC_STACK_NO_RESOURCE;
3805     }
3806     else
3807     {
3808         //only increment in the case of regular observing (not presence)
3809         incrementSequenceNumber(resPtr);
3810         method = OC_REST_OBSERVE;
3811         maxAge = MAX_OBSERVE_AGE;
3812 #ifdef WITH_PRESENCE
3813         result = SendAllObserverNotification (method, resPtr, maxAge,
3814                 OC_PRESENCE_TRIGGER_DELETE, NULL, qos);
3815 #else
3816         result = SendAllObserverNotification (method, resPtr, maxAge, qos);
3817 #endif
3818         return result;
3819     }
3820 }
3821
3822 OCStackResult
3823 OCNotifyListOfObservers (OCResourceHandle handle,
3824                          OCObservationId  *obsIdList,
3825                          uint8_t          numberOfIds,
3826                          const OCRepPayload       *payload,
3827                          OCQualityOfService qos)
3828 {
3829     OIC_LOG(INFO, TAG, "Entering OCNotifyListOfObservers");
3830
3831     OCResource *resPtr = NULL;
3832     //TODO: we should allow the server to define this
3833     uint32_t maxAge = MAX_OBSERVE_AGE;
3834
3835     VERIFY_NON_NULL(handle, ERROR, OC_STACK_ERROR);
3836     VERIFY_NON_NULL(obsIdList, ERROR, OC_STACK_ERROR);
3837     VERIFY_NON_NULL(payload, ERROR, OC_STACK_ERROR);
3838
3839     resPtr = findResource ((OCResource *) handle);
3840     if (NULL == resPtr || myStackMode == OC_CLIENT)
3841     {
3842         return OC_STACK_NO_RESOURCE;
3843     }
3844     else
3845     {
3846         incrementSequenceNumber(resPtr);
3847     }
3848     return (SendListObserverNotification(resPtr, obsIdList, numberOfIds,
3849             payload, maxAge, qos));
3850 }
3851
3852 OCStackResult OCDoResponse(OCEntityHandlerResponse *ehResponse)
3853 {
3854     OCStackResult result = OC_STACK_ERROR;
3855     OCServerRequest *serverRequest = NULL;
3856
3857     OIC_LOG(INFO, TAG, "Entering OCDoResponse");
3858
3859     // Validate input parameters
3860     VERIFY_NON_NULL(ehResponse, ERROR, OC_STACK_INVALID_PARAM);
3861     VERIFY_NON_NULL(ehResponse->requestHandle, ERROR, OC_STACK_INVALID_PARAM);
3862
3863     // Normal response
3864     // Get pointer to request info
3865     serverRequest = GetServerRequestUsingHandle((OCServerRequest *)ehResponse->requestHandle);
3866     if(serverRequest)
3867     {
3868         // response handler in ocserverrequest.c. Usually HandleSingleResponse.
3869         result = serverRequest->ehResponseHandler(ehResponse);
3870     }
3871
3872     return result;
3873 }
3874
3875 //#ifdef DIRECT_PAIRING
3876 const OCDPDev_t* OCDiscoverDirectPairingDevices(unsigned short waittime)
3877 {
3878     OIC_LOG(INFO, TAG, "Start OCDiscoverDirectPairingDevices");
3879     if(OC_STACK_OK != DPDeviceDiscovery(waittime))
3880     {
3881         OIC_LOG(ERROR, TAG, "Fail to discover Direct-Pairing device");
3882         return NULL;
3883     }
3884
3885     return (const OCDPDev_t*)DPGetDiscoveredDevices();
3886 }
3887
3888 const OCDPDev_t* OCGetDirectPairedDevices()
3889 {
3890     return (const OCDPDev_t*)DPGetPairedDevices();
3891 }
3892
3893 void DirectPairingCB (OCDirectPairingDev_t * peer, OCStackResult result)
3894 {
3895     if (gDirectpairingCallback)
3896     {
3897         gDirectpairingCallback((OCDPDev_t*)peer, result);
3898         gDirectpairingCallback = NULL;
3899     }
3900 }
3901
3902 OCStackResult OCDoDirectPairing(OCDPDev_t* peer, OCPrm_t pmSel, char *pinNumber,
3903                                                      OCDirectPairingCB resultCallback)
3904 {
3905     OIC_LOG(INFO, TAG, "Start OCDoDirectPairing");
3906     if(NULL ==  peer || NULL == resultCallback)
3907     {
3908         OIC_LOG(ERROR, TAG, "Invalid parameters");
3909         return OC_STACK_INVALID_PARAM;
3910     }
3911
3912     gDirectpairingCallback = resultCallback;
3913     return DPDirectPairing((OCDirectPairingDev_t*)peer, (OicSecPrm_t)pmSel,
3914                                            pinNumber, DirectPairingCB);
3915 }
3916 //#endif // DIRECT_PAIRING
3917
3918 //-----------------------------------------------------------------------------
3919 // Private internal function definitions
3920 //-----------------------------------------------------------------------------
3921 static OCDoHandle GenerateInvocationHandle()
3922 {
3923     OCDoHandle handle = NULL;
3924     // Generate token here, it will be deleted when the transaction is deleted
3925     handle = (OCDoHandle) OICMalloc(sizeof(uint8_t[CA_MAX_TOKEN_LEN]));
3926     if (handle)
3927     {
3928         OCFillRandomMem((uint8_t*)handle, sizeof(uint8_t[CA_MAX_TOKEN_LEN]));
3929     }
3930
3931     return handle;
3932 }
3933
3934 #ifdef WITH_PRESENCE
3935 OCStackResult OCChangeResourceProperty(OCResourceProperty * inputProperty,
3936         OCResourceProperty resourceProperties, uint8_t enable)
3937 {
3938     if (!inputProperty)
3939     {
3940         return OC_STACK_INVALID_PARAM;
3941     }
3942     if (resourceProperties
3943             > (OC_ACTIVE | OC_DISCOVERABLE | OC_OBSERVABLE | OC_SLOW))
3944     {
3945         OIC_LOG(ERROR, TAG, "Invalid property");
3946         return OC_STACK_INVALID_PARAM;
3947     }
3948     if(!enable)
3949     {
3950         *inputProperty = (OCResourceProperty) (*inputProperty & ~(resourceProperties));
3951     }
3952     else
3953     {
3954         *inputProperty = (OCResourceProperty) (*inputProperty | resourceProperties);
3955     }
3956     return OC_STACK_OK;
3957 }
3958 #endif
3959
3960 OCStackResult initResources()
3961 {
3962     OCStackResult result = OC_STACK_OK;
3963
3964     headResource = NULL;
3965     tailResource = NULL;
3966     // Init Virtual Resources
3967 #ifdef WITH_PRESENCE
3968     presenceResource.presenceTTL = OC_DEFAULT_PRESENCE_TTL_SECONDS;
3969
3970     result = OCCreateResource(&presenceResource.handle,
3971             OC_RSRVD_RESOURCE_TYPE_PRESENCE,
3972             "core.r",
3973             OC_RSRVD_PRESENCE_URI,
3974             NULL,
3975             NULL,
3976             OC_OBSERVABLE);
3977     //make resource inactive
3978     result = OCChangeResourceProperty(
3979             &(((OCResource *) presenceResource.handle)->resourceProperties),
3980             OC_ACTIVE, 0);
3981 #endif
3982 #ifndef WITH_ARDUINO
3983     if (result == OC_STACK_OK)
3984     {
3985         result = SRMInitSecureResources();
3986     }
3987 #endif
3988
3989     if(result == OC_STACK_OK)
3990     {
3991         result = OCCreateResource(&deviceResource,
3992                                   OC_RSRVD_RESOURCE_TYPE_DEVICE,
3993                                   OC_RSRVD_INTERFACE_DEFAULT,
3994                                   OC_RSRVD_DEVICE_URI,
3995                                   NULL,
3996                                   NULL,
3997                                   OC_DISCOVERABLE);
3998         if(result == OC_STACK_OK)
3999         {
4000             result = BindResourceInterfaceToResource((OCResource *)deviceResource,
4001                                                      OC_RSRVD_INTERFACE_READ);
4002         }
4003     }
4004
4005     if(result == OC_STACK_OK)
4006     {
4007         result = OCCreateResource(&platformResource,
4008                                   OC_RSRVD_RESOURCE_TYPE_PLATFORM,
4009                                   OC_RSRVD_INTERFACE_DEFAULT,
4010                                   OC_RSRVD_PLATFORM_URI,
4011                                   NULL,
4012                                   NULL,
4013                                   OC_DISCOVERABLE);
4014         if(result == OC_STACK_OK)
4015         {
4016             result = BindResourceInterfaceToResource((OCResource *)platformResource,
4017                                                      OC_RSRVD_INTERFACE_READ);
4018         }
4019     }
4020
4021     return result;
4022 }
4023
4024 void insertResource(OCResource *resource)
4025 {
4026     if (!headResource)
4027     {
4028         headResource = resource;
4029         tailResource = resource;
4030     }
4031     else
4032     {
4033         tailResource->next = resource;
4034         tailResource = resource;
4035     }
4036     resource->next = NULL;
4037 }
4038
4039 OCResource *findResource(OCResource *resource)
4040 {
4041     OCResource *pointer = headResource;
4042
4043     while (pointer)
4044     {
4045         if (pointer == resource)
4046         {
4047             return resource;
4048         }
4049         pointer = pointer->next;
4050     }
4051     return NULL;
4052 }
4053
4054 void deleteAllResources()
4055 {
4056     OCResource *pointer = headResource;
4057     OCResource *temp = NULL;
4058
4059     while (pointer)
4060     {
4061         temp = pointer->next;
4062 #ifdef WITH_PRESENCE
4063         if (pointer != (OCResource *) presenceResource.handle)
4064         {
4065 #endif // WITH_PRESENCE
4066             deleteResource(pointer);
4067 #ifdef WITH_PRESENCE
4068         }
4069 #endif // WITH_PRESENCE
4070         pointer = temp;
4071     }
4072
4073     SRMDeInitSecureResources();
4074
4075 #ifdef WITH_PRESENCE
4076     // Ensure that the last resource to be deleted is the presence resource. This allows for all
4077     // presence notification attributed to their deletion to be processed.
4078     deleteResource((OCResource *) presenceResource.handle);
4079 #endif // WITH_PRESENCE
4080 }
4081
4082 OCStackResult deleteResource(OCResource *resource)
4083 {
4084     OCResource *prev = NULL;
4085     OCResource *temp = NULL;
4086     if(!resource)
4087     {
4088         OIC_LOG(DEBUG,TAG,"resource is NULL");
4089         return OC_STACK_INVALID_PARAM;
4090     }
4091
4092     OIC_LOG_V (INFO, TAG, "Deleting resource %s", resource->uri);
4093
4094     temp = headResource;
4095     while (temp)
4096     {
4097         if (temp == resource)
4098         {
4099             // Invalidate all Resource Properties.
4100             resource->resourceProperties = (OCResourceProperty) 0;
4101 #ifdef WITH_PRESENCE
4102             if(resource != (OCResource *) presenceResource.handle)
4103             {
4104 #endif // WITH_PRESENCE
4105                 OCNotifyAllObservers((OCResourceHandle)resource, OC_HIGH_QOS);
4106 #ifdef WITH_PRESENCE
4107             }
4108
4109             if(presenceResource.handle)
4110             {
4111                 ((OCResource *)presenceResource.handle)->sequenceNum = OCGetRandom();
4112                 SendPresenceNotification(resource->rsrcType, OC_PRESENCE_TRIGGER_DELETE);
4113             }
4114 #endif
4115             // Only resource in list.
4116             if (temp == headResource && temp == tailResource)
4117             {
4118                 headResource = NULL;
4119                 tailResource = NULL;
4120             }
4121             // Deleting head.
4122             else if (temp == headResource)
4123             {
4124                 headResource = temp->next;
4125             }
4126             // Deleting tail.
4127             else if (temp == tailResource)
4128             {
4129                 tailResource = prev;
4130                 tailResource->next = NULL;
4131             }
4132             else
4133             {
4134                 prev->next = temp->next;
4135             }
4136
4137             deleteResourceElements(temp);
4138             OICFree(temp);
4139             return OC_STACK_OK;
4140         }
4141         else
4142         {
4143             prev = temp;
4144             temp = temp->next;
4145         }
4146     }
4147
4148     return OC_STACK_ERROR;
4149 }
4150
4151 void deleteResourceElements(OCResource *resource)
4152 {
4153     if (!resource)
4154     {
4155         return;
4156     }
4157
4158     OICFree(resource->uri);
4159     deleteResourceType(resource->rsrcType);
4160     deleteResourceInterface(resource->rsrcInterface);
4161 }
4162
4163 void deleteResourceType(OCResourceType *resourceType)
4164 {
4165     OCResourceType *pointer = resourceType;
4166     OCResourceType *next = NULL;
4167
4168     while (pointer)
4169     {
4170         next = pointer->next;
4171         OICFree(pointer->resourcetypename);
4172         OICFree(pointer);
4173         pointer = next;
4174     }
4175 }
4176
4177 void deleteResourceInterface(OCResourceInterface *resourceInterface)
4178 {
4179     OCResourceInterface *pointer = resourceInterface;
4180     OCResourceInterface *next = NULL;
4181
4182     while (pointer)
4183     {
4184         next = pointer->next;
4185         OICFree(pointer->name);
4186         OICFree(pointer);
4187         pointer = next;
4188     }
4189 }
4190
4191 void insertResourceType(OCResource *resource, OCResourceType *resourceType)
4192 {
4193     OCResourceType *pointer = NULL;
4194     OCResourceType *previous = NULL;
4195     if (!resource || !resourceType)
4196     {
4197         return;
4198     }
4199     // resource type list is empty.
4200     else if (!resource->rsrcType)
4201     {
4202         resource->rsrcType = resourceType;
4203     }
4204     else
4205     {
4206         pointer = resource->rsrcType;
4207
4208         while (pointer)
4209         {
4210             if (!strcmp(resourceType->resourcetypename, pointer->resourcetypename))
4211             {
4212                 OIC_LOG_V(INFO, TAG, "Type %s already exists", resourceType->resourcetypename);
4213                 OICFree(resourceType->resourcetypename);
4214                 OICFree(resourceType);
4215                 return;
4216             }
4217             previous = pointer;
4218             pointer = pointer->next;
4219         }
4220         previous->next = resourceType;
4221     }
4222     resourceType->next = NULL;
4223
4224     OIC_LOG_V(INFO, TAG, "Added type %s to %s", resourceType->resourcetypename, resource->uri);
4225 }
4226
4227 OCResourceType *findResourceTypeAtIndex(OCResourceHandle handle, uint8_t index)
4228 {
4229     OCResource *resource = NULL;
4230     OCResourceType *pointer = NULL;
4231
4232     // Find the specified resource
4233     resource = findResource((OCResource *) handle);
4234     if (!resource)
4235     {
4236         return NULL;
4237     }
4238
4239     // Make sure a resource has a resourcetype
4240     if (!resource->rsrcType)
4241     {
4242         return NULL;
4243     }
4244
4245     // Iterate through the list
4246     pointer = resource->rsrcType;
4247     for(uint8_t i = 0; i< index && pointer; ++i)
4248     {
4249         pointer = pointer->next;
4250     }
4251     return pointer;
4252 }
4253
4254 OCResourceType *findResourceType(OCResourceType * resourceTypeList, const char * resourceTypeName)
4255 {
4256     if(resourceTypeList && resourceTypeName)
4257     {
4258         OCResourceType * rtPointer = resourceTypeList;
4259         while(resourceTypeName && rtPointer)
4260         {
4261             if(rtPointer->resourcetypename &&
4262                     strcmp(resourceTypeName, (const char *)
4263                     (rtPointer->resourcetypename)) == 0)
4264             {
4265                 break;
4266             }
4267             rtPointer = rtPointer->next;
4268         }
4269         return rtPointer;
4270     }
4271     return NULL;
4272 }
4273
4274 /*
4275  * Insert a new interface into interface linked list only if not already present.
4276  * If alredy present, 2nd arg is free'd.
4277  * Default interface will always be first if present.
4278  */
4279 void insertResourceInterface(OCResource *resource, OCResourceInterface *newInterface)
4280 {
4281     OCResourceInterface *pointer = NULL;
4282     OCResourceInterface *previous = NULL;
4283
4284     newInterface->next = NULL;
4285
4286     OCResourceInterface **firstInterface = &(resource->rsrcInterface);
4287
4288     if (!*firstInterface)
4289     {
4290         *firstInterface = newInterface;
4291     }
4292     else if (strcmp(newInterface->name, OC_RSRVD_INTERFACE_DEFAULT) == 0)
4293     {
4294         if (strcmp((*firstInterface)->name, OC_RSRVD_INTERFACE_DEFAULT) == 0)
4295         {
4296             OICFree(newInterface->name);
4297             OICFree(newInterface);
4298             return;
4299         }
4300         else
4301         {
4302             newInterface->next = *firstInterface;
4303             *firstInterface = newInterface;
4304         }
4305     }
4306     else
4307     {
4308         pointer = *firstInterface;
4309         while (pointer)
4310         {
4311             if (strcmp(newInterface->name, pointer->name) == 0)
4312             {
4313                 OICFree(newInterface->name);
4314                 OICFree(newInterface);
4315                 return;
4316             }
4317             previous = pointer;
4318             pointer = pointer->next;
4319         }
4320         previous->next = newInterface;
4321     }
4322 }
4323
4324 OCResourceInterface *findResourceInterfaceAtIndex(OCResourceHandle handle,
4325         uint8_t index)
4326 {
4327     OCResource *resource = NULL;
4328     OCResourceInterface *pointer = NULL;
4329
4330     // Find the specified resource
4331     resource = findResource((OCResource *) handle);
4332     if (!resource)
4333     {
4334         return NULL;
4335     }
4336
4337     // Make sure a resource has a resourceinterface
4338     if (!resource->rsrcInterface)
4339     {
4340         return NULL;
4341     }
4342
4343     // Iterate through the list
4344     pointer = resource->rsrcInterface;
4345
4346     for (uint8_t i = 0; i < index && pointer; ++i)
4347     {
4348         pointer = pointer->next;
4349     }
4350     return pointer;
4351 }
4352
4353 /*
4354  * This function splits the uri using the '?' delimiter.
4355  * "uriWithoutQuery" is the block of characters between the beginning
4356  * till the delimiter or '\0' which ever comes first.
4357  * "query" is whatever is to the right of the delimiter if present.
4358  * No delimiter sets the query to NULL.
4359  * If either are present, they will be malloc'ed into the params 2, 3.
4360  * The first param, *uri is left untouched.
4361
4362  * NOTE: This function does not account for whitespace at the end of the uri NOR
4363  *       malformed uri's with '??'. Whitespace at the end will be assumed to be
4364  *       part of the query.
4365  */
4366 OCStackResult getQueryFromUri(const char * uri, char** query, char ** uriWithoutQuery)
4367 {
4368     if(!uri)
4369     {
4370         return OC_STACK_INVALID_URI;
4371     }
4372     if(!query || !uriWithoutQuery)
4373     {
4374         return OC_STACK_INVALID_PARAM;
4375     }
4376
4377     *query           = NULL;
4378     *uriWithoutQuery = NULL;
4379
4380     size_t uriWithoutQueryLen = 0;
4381     size_t queryLen = 0;
4382     size_t uriLen = strlen(uri);
4383
4384     char *pointerToDelimiter = strstr(uri, "?");
4385
4386     uriWithoutQueryLen = pointerToDelimiter == NULL ? uriLen : (size_t)(pointerToDelimiter - uri);
4387     queryLen = pointerToDelimiter == NULL ? 0 : uriLen - uriWithoutQueryLen - 1;
4388
4389     if (uriWithoutQueryLen)
4390     {
4391         *uriWithoutQuery =  (char *) OICCalloc(uriWithoutQueryLen + 1, 1);
4392         if (!*uriWithoutQuery)
4393         {
4394             goto exit;
4395         }
4396         OICStrcpy(*uriWithoutQuery, uriWithoutQueryLen +1, uri);
4397     }
4398     if (queryLen)
4399     {
4400         *query = (char *) OICCalloc(queryLen + 1, 1);
4401         if (!*query)
4402         {
4403             OICFree(*uriWithoutQuery);
4404             *uriWithoutQuery = NULL;
4405             goto exit;
4406         }
4407         OICStrcpy(*query, queryLen + 1, pointerToDelimiter + 1);
4408     }
4409
4410     return OC_STACK_OK;
4411
4412     exit:
4413         return OC_STACK_NO_MEMORY;
4414 }
4415
4416 static const OicUuid_t* OCGetServerInstanceID(void)
4417 {
4418     static bool generated = false;
4419     static OicUuid_t sid;
4420     if (generated)
4421     {
4422         return &sid;
4423     }
4424
4425     if (RAND_UUID_OK != OCGenerateUuid(sid.id))
4426     {
4427         OIC_LOG(FATAL, TAG, "Generate UUID for Server Instance failed!");
4428         return NULL;
4429     }
4430     generated = true;
4431     return &sid;
4432 }
4433
4434 const char* OCGetServerInstanceIDString(void)
4435 {
4436     static bool generated = false;
4437     static char sidStr[UUID_STRING_SIZE];
4438
4439     if(generated)
4440     {
4441         return sidStr;
4442     }
4443
4444     const OicUuid_t *sid = OCGetServerInstanceID();
4445     if(OCConvertUuidToString(sid->id, sidStr) != RAND_UUID_OK)
4446     {
4447         OIC_LOG(FATAL, TAG, "Generate UUID String for Server Instance failed!");
4448         return NULL;
4449     }
4450
4451     generated = true;
4452     return sidStr;
4453 }
4454
4455 CAResult_t OCSelectNetwork()
4456 {
4457     CAResult_t retResult = CA_STATUS_FAILED;
4458     CAResult_t caResult = CA_STATUS_OK;
4459
4460     CATransportAdapter_t connTypes[] = {
4461             CA_ADAPTER_IP,
4462             CA_ADAPTER_RFCOMM_BTEDR,
4463             CA_ADAPTER_GATT_BTLE,
4464             CA_ADAPTER_NFC
4465 #ifdef RA_ADAPTER
4466             ,CA_ADAPTER_REMOTE_ACCESS
4467 #endif
4468
4469 #ifdef TCP_ADAPTER
4470             ,CA_ADAPTER_TCP
4471 #endif
4472         };
4473     int numConnTypes = sizeof(connTypes)/sizeof(connTypes[0]);
4474
4475     for(int i = 0; i<numConnTypes; i++)
4476     {
4477         // Ignore CA_NOT_SUPPORTED error. The CA Layer may have not compiled in the interface.
4478         if(caResult == CA_STATUS_OK || caResult == CA_NOT_SUPPORTED)
4479         {
4480            caResult = CASelectNetwork(connTypes[i]);
4481            if(caResult == CA_STATUS_OK)
4482            {
4483                retResult = CA_STATUS_OK;
4484            }
4485         }
4486     }
4487
4488     if(retResult != CA_STATUS_OK)
4489     {
4490         return caResult; // Returns error of appropriate transport that failed fatally.
4491     }
4492
4493     return retResult;
4494 }
4495
4496 OCStackResult CAResultToOCResult(CAResult_t caResult)
4497 {
4498     switch (caResult)
4499     {
4500         case CA_STATUS_OK:
4501             return OC_STACK_OK;
4502         case CA_STATUS_INVALID_PARAM:
4503             return OC_STACK_INVALID_PARAM;
4504         case CA_ADAPTER_NOT_ENABLED:
4505             return OC_STACK_ADAPTER_NOT_ENABLED;
4506         case CA_SERVER_STARTED_ALREADY:
4507             return OC_STACK_OK;
4508         case CA_SERVER_NOT_STARTED:
4509             return OC_STACK_ERROR;
4510         case CA_DESTINATION_NOT_REACHABLE:
4511             return OC_STACK_COMM_ERROR;
4512         case CA_SOCKET_OPERATION_FAILED:
4513             return OC_STACK_COMM_ERROR;
4514         case CA_SEND_FAILED:
4515             return OC_STACK_COMM_ERROR;
4516         case CA_RECEIVE_FAILED:
4517             return OC_STACK_COMM_ERROR;
4518         case CA_MEMORY_ALLOC_FAILED:
4519             return OC_STACK_NO_MEMORY;
4520         case CA_REQUEST_TIMEOUT:
4521             return OC_STACK_TIMEOUT;
4522         case CA_DESTINATION_DISCONNECTED:
4523             return OC_STACK_COMM_ERROR;
4524         case CA_STATUS_FAILED:
4525             return OC_STACK_ERROR;
4526         case CA_NOT_SUPPORTED:
4527             return OC_STACK_NOTIMPL;
4528         default:
4529             return OC_STACK_ERROR;
4530     }
4531 }