#include "ocstack.h"
#include "oic_malloc.h"
#include "ocpayload.h"
+#include "ocpayloadcbor.h"
#include "payload_logging.h"
#include "resourcemanager.h"
#include "pstatresource.h"
#include "srmresourcestrings.h"
#include "srmutility.h"
-#define TAG "SRM-PSTAT"
+#define TAG "OIC_SRM_PSTAT"
/** Default cbor payload size. This value is increased in case of CborErrorOutOfMemory.
* The value of payload size is increased until reaching below max cbor size. */
static const uint16_t CBOR_MAX_SIZE = 4400;
// PSTAT Map size - Number of mandatory items
-static const uint8_t PSTAT_MAP_SIZE = 7;
+static const uint8_t PSTAT_MAP_SIZE = 6;
+
+// Number of writeable property
+static const uint8_t WRITEABLE_PROPERTY_SIZE = 3;
static OicSecDpom_t gSm = SINGLE_SERVICE_CLIENT_DRIVEN;
static OicSecPstat_t gDefaultPstat =
static OCResourceHandle gPstatHandle = NULL;
+/**
+ * This method is internal method.
+ * the param roParsed is optionally used to know whether cborPayload has
+ * at least read only property value or not.
+ */
+static OCStackResult CBORPayloadToPstatBin(const uint8_t *cborPayload, const size_t size,
+ OicSecPstat_t **secPstat, bool *roParsed);
+
void DeletePstatBinData(OicSecPstat_t* pstat)
{
if (pstat)
}
}
-OCStackResult PstatToCBORPayload(const OicSecPstat_t *pstat, uint8_t **payload, size_t *size)
+OCStackResult PstatToCBORPayload(const OicSecPstat_t *pstat, uint8_t **payload, size_t *size,
+ bool writableOnly)
{
if (NULL == pstat || NULL == payload || NULL != *payload || NULL == size)
{
*size = 0;
OCStackResult ret = OC_STACK_ERROR;
-
+ size_t pstatMapSize = PSTAT_MAP_SIZE;
CborEncoder encoder;
CborEncoder pstatMap;
char* strUuid = NULL;
VERIFY_NON_NULL(TAG, outPayload, ERROR);
cbor_encoder_init(&encoder, outPayload, cborLen, 0);
- cborEncoderResult = cbor_encoder_create_map(&encoder, &pstatMap, PSTAT_MAP_SIZE);
+ if (false == writableOnly)
+ {
+ pstatMapSize += WRITEABLE_PROPERTY_SIZE;
+ }
+
+ cborEncoderResult = cbor_encoder_create_map(&encoder, &pstatMap, pstatMapSize);
VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Pstat Map.");
cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_ISOP_NAME,
cborEncoderResult = cbor_encode_boolean(&pstatMap, pstat->isOp);
VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding ISOP Name Value.");
- cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_DEVICE_ID_NAME,
- strlen(OIC_JSON_DEVICE_ID_NAME));
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Device Id Tag.");
- ret = ConvertUuidToStr(&pstat->deviceID, &strUuid);
- VERIFY_SUCCESS(TAG, OC_STACK_OK == ret , ERROR);
- cborEncoderResult = cbor_encode_text_string(&pstatMap, strUuid, strlen(strUuid));
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Device Id Value.");
- OICFree(strUuid);
- strUuid = NULL;
-
cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_CM_NAME,
strlen(OIC_JSON_CM_NAME));
VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding CM Name Tag.");
cborEncoderResult = cbor_encode_int(&pstatMap, pstat->om);
VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding OM Name Value.");
- cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_SM_NAME,
- strlen(OIC_JSON_SM_NAME));
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding SM Name Tag.");
- cborEncoderResult = cbor_encode_int(&pstatMap, pstat->sm[0]);
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding SM Name Value.");
-
- cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_ROWNERID_NAME,
- strlen(OIC_JSON_ROWNERID_NAME));
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding ROwner Id Tag.");
- ret = ConvertUuidToStr(&pstat->rownerID, &strUuid);
- VERIFY_SUCCESS(TAG, OC_STACK_OK == ret , ERROR);
- cborEncoderResult = cbor_encode_text_string(&pstatMap, strUuid, strlen(strUuid));
- VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding ROwner Id Value.");
- OICFree(strUuid);
- strUuid = NULL;
+ if (false == writableOnly)
+ {
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_SM_NAME,
+ strlen(OIC_JSON_SM_NAME));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding SM Name Tag.");
+ cborEncoderResult = cbor_encode_int(&pstatMap, pstat->sm[0]);
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding SM Name Value.");
+
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_DEVICE_ID_NAME,
+ strlen(OIC_JSON_DEVICE_ID_NAME));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Device Id Tag.");
+ ret = ConvertUuidToStr(&pstat->deviceID, &strUuid);
+ VERIFY_SUCCESS(TAG, OC_STACK_OK == ret , ERROR);
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, strUuid, strlen(strUuid));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Device Id Value.");
+ OICFree(strUuid);
+ strUuid = NULL;
+
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_ROWNERID_NAME,
+ strlen(OIC_JSON_ROWNERID_NAME));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding ROwner Id Tag.");
+ ret = ConvertUuidToStr(&pstat->rownerID, &strUuid);
+ VERIFY_SUCCESS(TAG, OC_STACK_OK == ret , ERROR);
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, strUuid, strlen(strUuid));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding ROwner Id Value.");
+ OICFree(strUuid);
+ strUuid = NULL;
+ }
+
+ //RT -- Mandatory
+ CborEncoder rtArray;
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_RT_NAME,
+ strlen(OIC_JSON_RT_NAME));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Addding RT Name Tag.");
+ cborEncoderResult = cbor_encoder_create_array(&pstatMap, &rtArray, 1);
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Addding RT Value.");
+ for (size_t i = 0; i < 1; i++)
+ {
+ cborEncoderResult = cbor_encode_text_string(&rtArray, OIC_RSRC_TYPE_SEC_PSTAT,
+ strlen(OIC_RSRC_TYPE_SEC_PSTAT));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding RT Value.");
+ }
+ cborEncoderResult = cbor_encoder_close_container(&pstatMap, &rtArray);
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Closing RT.");
+
+ //IF-- Mandatory
+ CborEncoder ifArray;
+ cborEncoderResult = cbor_encode_text_string(&pstatMap, OIC_JSON_IF_NAME,
+ strlen(OIC_JSON_IF_NAME));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Addding IF Name Tag.");
+ cborEncoderResult = cbor_encoder_create_array(&pstatMap, &ifArray, 1);
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Addding IF Value.");
+ for (size_t i = 0; i < 1; i++)
+ {
+ cborEncoderResult = cbor_encode_text_string(&ifArray, OC_RSRVD_INTERFACE_DEFAULT,
+ strlen(OC_RSRVD_INTERFACE_DEFAULT));
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding IF Value.");
+ }
+ cborEncoderResult = cbor_encoder_close_container(&pstatMap, &ifArray);
+ VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Closing IF.");
cborEncoderResult = cbor_encoder_close_container(&encoder, &pstatMap);
VERIFY_CBOR_SUCCESS(TAG, cborEncoderResult, "Failed Adding Closing PSTAT Map.");
if (CborNoError == cborEncoderResult)
{
- *size = encoder.ptr - outPayload;
+ *size = cbor_encoder_get_buffer_size(&encoder, outPayload);
*payload = outPayload;
ret = OC_STACK_OK;
}
{
// reallocate and try again!
OICFree(outPayload);
+ outPayload = NULL;
// Since the allocated initial memory failed, double the memory.
- cborLen += encoder.ptr - encoder.end;
+ cborLen += cbor_encoder_get_buffer_size(&encoder, encoder.end);
cborEncoderResult = CborNoError;
- ret = PstatToCBORPayload(pstat, payload, &cborLen);
+ ret = PstatToCBORPayload(pstat, payload, &cborLen, writableOnly);
if (OC_STACK_OK == ret)
{
*size = cborLen;
OCStackResult CBORPayloadToPstat(const uint8_t *cborPayload, const size_t size,
OicSecPstat_t **secPstat)
{
+ return CBORPayloadToPstatBin(cborPayload, size, secPstat, NULL);
+}
+
+static OCStackResult CBORPayloadToPstatBin(const uint8_t *cborPayload, const size_t size,
+ OicSecPstat_t **secPstat, bool *roParsed)
+{
if (NULL == cborPayload || NULL == secPstat || NULL != *secPstat || 0 == size)
{
return OC_STACK_INVALID_PARAM;
cborFindResult = cbor_value_get_boolean(&pstatMap, &pstat->isOp);
VERIFY_CBOR_SUCCESS(TAG, cborFindResult, "Failed Finding isOp Value.");
}
+ else
+ {
+ pstat->isOp = gPstat->isOp;
+ cborFindResult = CborNoError;
+ }
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_DEVICE_ID_NAME, &pstatMap);
if (CborNoError == cborFindResult && cbor_value_is_text_string(&pstatMap))
VERIFY_SUCCESS(TAG, OC_STACK_OK == ret, ERROR);
OICFree(strUuid );
strUuid = NULL;
+
+ }
+ else
+ {
+ memcpy(&pstat->deviceID, &gPstat->deviceID, sizeof(OicUuid_t));
+ cborFindResult = CborNoError;
}
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_CM_NAME, &pstatMap);
if (CborNoError == cborFindResult && cbor_value_is_integer(&pstatMap))
{
- cborFindResult = cbor_value_get_int(&pstatMap, (int *) &pstat->cm);
+ int cm;
+
+ cborFindResult = cbor_value_get_int(&pstatMap, &cm);
VERIFY_CBOR_SUCCESS(TAG, cborFindResult, "Failed Finding CM.");
+ pstat->cm = (OicSecDpm_t)cm;
+ }
+ else
+ {
+ pstat->cm = gPstat->cm;
+ cborFindResult = CborNoError;
}
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_TM_NAME, &pstatMap);
if (CborNoError == cborFindResult && cbor_value_is_integer(&pstatMap))
{
- cborFindResult = cbor_value_get_int(&pstatMap, (int *) &pstat->tm);
+ int tm;
+
+ cborFindResult = cbor_value_get_int(&pstatMap, &tm);
VERIFY_CBOR_SUCCESS(TAG, cborFindResult, "Failed Finding TM.");
+ pstat->tm = (OicSecDpm_t)tm;
+ }
+ else
+ {
+ pstat->tm = gPstat->tm;
+ cborFindResult = CborNoError;
}
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_OM_NAME, &pstatMap);
if (CborNoError == cborFindResult && cbor_value_is_integer(&pstatMap))
{
- cborFindResult = cbor_value_get_int(&pstatMap, (int *) &pstat->om);
+ int om;
+
+ cborFindResult = cbor_value_get_int(&pstatMap, &om);
VERIFY_CBOR_SUCCESS(TAG, cborFindResult, "Failed Finding OM.");
+ pstat->om = (OicSecDpom_t)om;
+ }
+ else
+ {
+ pstat->om = gPstat->om;
+ cborFindResult = CborNoError;
}
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_SM_NAME, &pstatMap);
if (CborNoError == cborFindResult && cbor_value_is_integer(&pstatMap))
{
+ int sm;
+
pstat->smLen = 1;
pstat->sm = (OicSecDpom_t*)OICCalloc(pstat->smLen, sizeof(OicSecDpom_t));
- cborFindResult = cbor_value_get_int(&pstatMap, (int *) &pstat->sm[0]);
+ VERIFY_NON_NULL(TAG, pstat->sm, ERROR);
+ cborFindResult = cbor_value_get_int(&pstatMap, &sm);
VERIFY_CBOR_SUCCESS(TAG, cborFindResult, "Failed Finding SM.");
+ pstat->sm[0] = (OicSecDpom_t)sm;
+ if (roParsed)
+ {
+ *roParsed = true;
+ }
+ }
+ else
+ {
+ VERIFY_NON_NULL(TAG, gPstat, ERROR);
+ pstat->smLen = gPstat->smLen;
+ pstat->sm = (OicSecDpom_t*)OICCalloc(pstat->smLen, sizeof(OicSecDpom_t));
+ VERIFY_NON_NULL(TAG, pstat->sm, ERROR);
+ *pstat->sm = *gPstat->sm;
+ cborFindResult = CborNoError;
}
cborFindResult = cbor_value_map_find_value(&pstatCbor, OIC_JSON_ROWNERID_NAME, &pstatMap);
OICFree(strUuid );
strUuid = NULL;
}
+ else
+ {
+ VERIFY_NON_NULL(TAG, gPstat, ERROR);
+ memcpy(pstat->rownerID.id, gPstat->rownerID.id, sizeof(gPstat->rownerID.id));
+ cborFindResult = CborNoError;
+ }
*secPstat = pstat;
ret = OC_STACK_OK;
size_t size = 0;
uint8_t *cborPayload = NULL;
- OCStackResult ret = PstatToCBORPayload(pstat, &cborPayload, &size);
+ OCStackResult ret = PstatToCBORPayload(pstat, &cborPayload, &size, false);
if (OC_STACK_OK == ret)
{
if (OC_STACK_OK == UpdateSecureResourceInPS(OIC_JSON_PSTAT_NAME, cborPayload, size))
return bRet;
}
+static bool ValidateQuery(const char * query)
+{
+ OIC_LOG (DEBUG, TAG, "In ValidateQuery");
+ if(NULL == gPstat)
+ {
+ return false;
+ }
+
+ bool bInterfaceQry = false; // does querystring contains 'if' query ?
+ bool bInterfaceMatch = false; // does 'if' query matches with oic.if.baseline ?
+
+ OicParseQueryIter_t parseIter = {.attrPos = NULL};
+
+ ParseQueryIterInit((unsigned char*)query, &parseIter);
+
+ while (GetNextQuery(&parseIter))
+ {
+ if (strncasecmp((char *)parseIter.attrPos, OC_RSRVD_INTERFACE, parseIter.attrLen) == 0)
+ {
+ bInterfaceQry = true;
+ if ((strncasecmp((char *)parseIter.valPos, OC_RSRVD_INTERFACE_DEFAULT, parseIter.valLen) == 0))
+ {
+ bInterfaceMatch = true;
+ }
+ }
+ }
+ return (bInterfaceQry ? bInterfaceMatch: true);
+}
+
+#ifdef MULTIPLE_OWNER
+bool IsValidPstatAccessForSubOwner(const uint8_t *cborPayload, size_t size)
+{
+ OicSecPstat_t* pstat = NULL;
+ bool isValidPstat = true;
+
+ OIC_LOG_BUFFER(DEBUG, TAG, cborPayload, size);
+ VERIFY_NON_NULL(TAG, cborPayload, ERROR);
+ VERIFY_SUCCESS(TAG, 0 != size, ERROR);
+ VERIFY_SUCCESS(TAG, OC_STACK_OK == CBORPayloadToPstat(cborPayload, size, &pstat), ERROR);
+ VERIFY_NON_NULL(TAG, pstat, ERROR);
+
+ if (RESET & pstat->cm)
+ {
+ OIC_LOG(ERROR, TAG, "SubOwner can't reset the server.");
+ isValidPstat = false;
+ }
+
+exit:
+ DeletePstatBinData(pstat);
+ return isValidPstat;
+}
+#endif //MULTIPLE_OWNER
/**
* The entity handler determines how to process a GET request.
*/
static OCEntityHandlerResult HandlePstatGetRequest (const OCEntityHandlerRequest * ehRequest)
{
+ OCEntityHandlerResult ehRet = OC_EH_OK;
+
OIC_LOG(INFO, TAG, "HandlePstatGetRequest processing GET request");
- // Convert ACL data into CBOR for transmission
+ //Checking if Get request is a query.
+ if (ehRequest->query)
+ {
+ OIC_LOG_V(DEBUG,TAG,"query:%s",ehRequest->query);
+ OIC_LOG(DEBUG, TAG, "HandlePstatGetRequest processing query");
+ if (!ValidateQuery(ehRequest->query))
+ {
+ ehRet = OC_EH_ERROR;
+ }
+ }
+
+ /*
+ * For GET or Valid Query request return doxm resource CBOR payload.
+ * For non-valid query return NULL json payload.
+ * A device will 'always' have a default Pstat, so PstatToCBORPayload will
+ * return valid pstat resource json.
+ */
size_t size = 0;
uint8_t *payload = NULL;
- OCStackResult res = PstatToCBORPayload(gPstat, &payload, &size);
-
- // A device should always have a default pstat. Therefore, payload should never be NULL.
- OCEntityHandlerResult ehRet = (res == OC_STACK_OK) ? OC_EH_OK : OC_EH_ERROR;
-
- // Send response payload to request originator
- if (OC_STACK_OK != SendSRMResponse(ehRequest, ehRet, payload, size))
+ if (ehRet == OC_EH_OK)
{
- ehRet = OC_EH_ERROR;
- OIC_LOG(ERROR, TAG, "SendSRMResponse failed in HandlePstatGetRequest");
+ if(OC_STACK_OK != PstatToCBORPayload(gPstat, &payload, &size, false))
+ {
+ OIC_LOG(WARNING, TAG, "PstatToCBORPayload failed in HandlePstatGetRequest");
+ }
}
+
+ // Send response payload to request originator
+ ehRet = ((SendSRMResponse(ehRequest, ehRet, payload, size)) == OC_STACK_OK) ?
+ OC_EH_OK : OC_EH_ERROR;
OICFree(payload);
return ehRet;
}
* resource or create a new resource.
* For pstat, it updates only tm and om.
*/
-static OCEntityHandlerResult HandlePstatPostRequest(const OCEntityHandlerRequest *ehRequest)
+static OCEntityHandlerResult HandlePstatPostRequest(OCEntityHandlerRequest *ehRequest)
{
OCEntityHandlerResult ehRet = OC_EH_ERROR;
OIC_LOG(INFO, TAG, "HandlePstatPostRequest processing POST request");
OicSecPstat_t *pstat = NULL;
+ static uint16_t previousMsgId = 0;
+ bool isDuplicatedMsg = false;
- if (ehRequest->payload)
+ if (ehRequest->payload && NULL != gPstat)
{
uint8_t *payload = ((OCSecurityPayload *) ehRequest->payload)->securityData;
size_t size = ((OCSecurityPayload *) ehRequest->payload)->payloadSize;
VERIFY_NON_NULL(TAG, payload, ERROR);
- OCStackResult ret = CBORPayloadToPstat(payload, size, &pstat);
+ bool roParsed = false;
+ OCStackResult ret = CBORPayloadToPstatBin(payload, size, &pstat, &roParsed);
VERIFY_NON_NULL(TAG, pstat, ERROR);
if (OC_STACK_OK == ret)
{
- if (false == (pstat->cm & TAKE_OWNER) && false == pstat->isOp)
+ bool validReq = false;
+
+ /*
+ * message ID is supported for CoAP over UDP only according to RFC 7252
+ * So we should check message ID to prevent duplicate request handling in case of OC_ADAPTER_IP.
+ * In case of other transport adapter, duplicate message check is not required.
+ */
+ if (OC_ADAPTER_IP == ehRequest->devAddr.adapter &&
+ previousMsgId == ehRequest->messageID)
{
- gPstat->cm = pstat->cm;
- OIC_LOG (INFO, TAG, "State changed to Ready for Provisioning");
+ isDuplicatedMsg = true;
}
- else if (false == (pstat->cm & TAKE_OWNER) && true == pstat->isOp)
+
+ if (true == roParsed)
{
- gPstat->isOp =pstat->isOp;
- OIC_LOG (INFO, TAG, "State changed to Ready for Normal Operation");
+ OIC_LOG(ERROR, TAG, "Not acceptable request because of read-only properties");
+ ehRet = OC_EH_NOT_ACCEPTABLE;
+ goto exit;
}
- else
+
+ //operation mode(om) should be one of supported modes(sm)
+ for(size_t i = 0; i < gPstat->smLen; i++)
{
- OIC_LOG(DEBUG, TAG, "Invalid Device provisionig state");
+ if(gPstat->sm[i] == pstat->om)
+ {
+ validReq = true;
+ break;
+ }
}
- if (pstat->om != MULTIPLE_SERVICE_SERVER_DRIVEN && gPstat)
+
+ if(!validReq)
{
- /*
- * Check if the operation mode is in the supported provisioning services
- * operation mode list.
- */
- for (size_t i=0; i< gPstat->smLen; i++)
+ OIC_LOG_V(ERROR, TAG, "%d is unsupported Operation Mode", (int) pstat->om);
+ ehRet = OC_EH_BAD_REQ;
+ goto exit;
+ }
+ validReq = false;
+
+ //Currently, IoTivity only supports Single Service Client Directed provisioning
+ if (pstat->om == SINGLE_SERVICE_CLIENT_DRIVEN)
+ {
+ if ((pstat->cm & RESET) && false == pstat->isOp)
+ {
+ validReq = true;
+ OIC_LOG(INFO, TAG, "State changed to Ready for Reset");
+ }
+ else if ((pstat->cm & TAKE_OWNER) && false == pstat->isOp)
+ {
+ validReq = true;
+ OIC_LOG (INFO, TAG, "State changed to Ready for Ownership transfer");
+ }
+ else if (false == (pstat->cm & TAKE_OWNER) && false == pstat->isOp)
+ {
+ validReq = true;
+ OIC_LOG(INFO, TAG, "State changed to Ready for Provisioning");
+ }
+ else if (false == (pstat->cm & TAKE_OWNER) && true == pstat->isOp)
+ {
+ validReq = true;
+ OIC_LOG (INFO, TAG, "State changed to Ready for Normal Operation");
+ }
+ else
{
- if(gPstat->sm[i] == pstat->om)
- {
- gPstat->om = pstat->om;
- break;
- }
+ OIC_LOG(DEBUG, TAG, "Invalid Device provisionig state");
+ OIC_LOG_BUFFER(DEBUG, TAG, payload, size);
+ ehRet = OC_EH_BAD_REQ;
+ goto exit;
}
}
+
+ if (!validReq)
+ {
+ OIC_LOG(DEBUG, TAG, "Bad request for PSTAT");
+ ehRet = OC_EH_BAD_REQ;
+ goto exit;
+ }
+
+ gPstat->isOp = pstat->isOp;
+ gPstat->om = pstat->om;
+ gPstat->tm = pstat->tm;
+ gPstat->cm = pstat->cm;
+ memcpy(&(gPstat->deviceID), &(pstat->deviceID), sizeof(OicUuid_t));
+ memcpy(&(gPstat->rownerID), &(pstat->rownerID), sizeof(OicUuid_t));
+
// Convert pstat data into CBOR for update to persistent storage
if (UpdatePersistentStorage(gPstat))
{
ehRet = OC_EH_OK;
}
+ if (true == (pstat->cm & RESET))
+ {
+ if (OC_STACK_OK != SendSRMResponse(ehRequest, ehRet, NULL, 0))
+ {
+ ehRet = OC_EH_ERROR;
+ OIC_LOG(ERROR, TAG, "SendSRMResponse failed in HandlePstatPostRequest");
+ DeletePstatBinData(pstat);
+ return ehRet;
+ }
+ ret = ResetSecureResourceInPS();
+ if (OC_STACK_OK == ret)
+ {
+ ehRet = OC_EH_OK;
+ }
+ DeletePstatBinData(pstat);
+ return ehRet;
+ }
}
}
exit:
- if(OC_EH_OK != ehRet)
- {
- /*
- * If some error is occured while ownership transfer,
- * ownership transfer related resource should be revert back to initial status.
- */
- RestoreDoxmToInitState();
- RestorePstatToInitState();
- }
- //Send payload to request originator
- if(OC_STACK_OK != SendSRMResponse(ehRequest, ehRet, NULL, 0))
- {
- ehRet = OC_EH_ERROR;
- OIC_LOG (ERROR, TAG, "SendSRMResponse failed in HandlePstatPostRequest");
- }
+ if(OC_EH_OK != ehRet)
+ {
+ /*
+ * If some error is occured while ownership transfer,
+ * ownership transfer related resource should be revert back to initial status.
+ */
+ const OicSecDoxm_t* doxm = GetDoxmResourceData();
+ if(doxm)
+ {
+ if(!doxm->owned)
+ {
+ OIC_LOG(WARNING, TAG, "The operation failed during handle DOXM request");
+
+ if (!isDuplicatedMsg)
+ {
+#if defined (__WITH_TLS__) || defined(__WITH_DTLS__)
+ InvokeOtmEventHandler(ehRequest->devAddr.addr, ehRequest->devAddr.port,
+ NULL, OIC_OTM_ERROR);
+#endif
+ RestoreDoxmToInitState();
+ RestorePstatToInitState();
+ OIC_LOG(WARNING, TAG, "DOXM will be reverted.");
+ }
+ }
+ }
+ else
+ {
+ OIC_LOG(ERROR, TAG, "Invalid DOXM resource.");
+ }
+ }
+ else
+ {
+ if(ehRequest->devAddr.adapter == OC_ADAPTER_IP)
+ {
+ previousMsgId = ehRequest->messageID;
+ }
+ }
+
+ // Send response payload to request originator
+ ehRet = ((SendSRMResponse(ehRequest, ehRet, NULL, 0)) == OC_STACK_OK) ?
+ OC_EH_OK : OC_EH_ERROR;
+
DeletePstatBinData(pstat);
return ehRet;
}
ehRet = HandlePstatPostRequest(ehRequest);
break;
default:
- ehRet = OC_EH_ERROR;
- SendSRMResponse(ehRequest, ehRet, NULL, 0);
+ ehRet = ((SendSRMResponse(ehRequest, ehRet, NULL, 0)) == OC_STACK_OK) ?
+ OC_EH_OK : OC_EH_ERROR;
break;
}
}
memcpy(prevId.id, gPstat->rownerID.id, sizeof(prevId.id));
memcpy(gPstat->rownerID.id, newROwner->id, sizeof(newROwner->id));
- ret = PstatToCBORPayload(gPstat, &cborPayload, &size);
+ ret = PstatToCBORPayload(gPstat, &cborPayload, &size, false);
VERIFY_SUCCESS(TAG, OC_STACK_OK == ret, ERROR);
ret = UpdateSecureResourceInPS(OIC_JSON_PSTAT_NAME, cborPayload, size);
}
return retVal;
}
+
+OCStackResult SetPstatSelfOwnership(const OicUuid_t* newROwner)
+{
+ OCStackResult ret = OC_STACK_ERROR;
+ uint8_t *cborPayload = NULL;
+ size_t size = 0;
+
+ if(NULL == gPstat)
+ {
+ ret = OC_STACK_NO_RESOURCE;
+ return ret;
+ }
+
+ if( newROwner && (false == gPstat->isOp) && (true == (TAKE_OWNER && gPstat->cm)) )
+ {
+ gPstat->cm = (OicSecDpm_t)(gPstat->cm & (~TAKE_OWNER));
+ gPstat->isOp = true;
+
+ memcpy(gPstat->deviceID.id, newROwner->id, sizeof(newROwner->id));
+ memcpy(gPstat->rownerID.id, newROwner->id, sizeof(newROwner->id));
+
+ ret = PstatToCBORPayload(gPstat, &cborPayload, &size, false);
+ VERIFY_SUCCESS(TAG, OC_STACK_OK == ret, ERROR);
+
+ ret = UpdateSecureResourceInPS(OIC_JSON_PSTAT_NAME, cborPayload, size);
+ VERIFY_SUCCESS(TAG, OC_STACK_OK == ret, ERROR);
+
+ OICFree(cborPayload);
+ }
+ else
+ {
+ OIC_LOG(ERROR, TAG, "The state of PSTAT is not Ready For OTM");
+ }
+
+ return ret;
+
+exit:
+ OICFree(cborPayload);
+ return ret;
+}
+