//
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
+#include "iotivity_config.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
+#ifdef HAVE_UNISTD_H
#include <unistd.h>
+#endif
+#ifdef HAVE_WINDOWS_H
+#include <windows.h>
+#endif
#include <signal.h>
+#ifdef HAVE_PTHREAD_H
#include <pthread.h>
+#endif
#include "ocstack.h"
#include "logger.h"
-#include "cJSON.h"
+#include "ocpayload.h"
#include "ocserverbasicops.h"
#include "common.h"
+
int gQuitFlag = 0;
static LEDResource LED;
char *gResourceUri= (char *)"/a/led";
-//File containing Server's Identity and the PSK credentials
+//Secure Virtual Resource database for Iotivity Server
+//It contains Server's Identity and the PSK credentials
//of other devices which the server trusts
-//This can be generated using 'gen_sec_bin' application
-static char CRED_FILE[] = "server_cred.bin";
+static char CRED_FILE[] = "oic_svr_db_server.dat";
+
+OCRepPayload* getPayload(const char* uri, int64_t power, bool state)
+{
+ OCRepPayload* payload = OCRepPayloadCreate();
+ if(!payload)
+ {
+ OIC_LOG(ERROR, TAG, PCF("Failed to allocate Payload"));
+ return nullptr;
+ }
+
+ OCRepPayloadSetUri(payload, uri);
+ OCRepPayloadSetPropBool(payload, "state", state);
+ OCRepPayloadSetPropInt(payload, "power", power);
+
+ return payload;
+}
//This function takes the request as an input and returns the response
-//in JSON format.
-char* constructJsonResponse (OCEntityHandlerRequest *ehRequest)
+OCRepPayload* constructResponse (OCEntityHandlerRequest *ehRequest)
{
- cJSON *json = cJSON_CreateObject();
- cJSON *format;
- char *jsonResponse;
+ if(ehRequest->payload && ehRequest->payload->type != PAYLOAD_TYPE_REPRESENTATION)
+ {
+ OIC_LOG(ERROR, TAG, PCF("Incoming payload not a representation"));
+ return nullptr;
+ }
+
+ OCRepPayload* input = reinterpret_cast<OCRepPayload*>(ehRequest->payload);
+
LEDResource *currLEDResource = &LED;
if (ehRequest->resource == gLedInstance[0].handle)
{
currLEDResource = &gLedInstance[0];
- gResourceUri = (char *) "a/led/0";
+ gResourceUri = (char *) "/a/led/0";
}
else if (ehRequest->resource == gLedInstance[1].handle)
{
currLEDResource = &gLedInstance[1];
- gResourceUri = (char *) "a/led/1";
+ gResourceUri = (char *) "/a/led/1";
}
- if(OC_REST_PUT == ehRequest->method)
+ if(OC_REST_PUT == ehRequest->method
+ || OC_REST_POST == ehRequest->method)
{
- cJSON *putJson = cJSON_Parse(ehRequest->reqJSONPayload);
- if(!putJson)
+ // Get pointer to query
+ int64_t pow;
+ if(OCRepPayloadGetPropInt(input, "power", &pow))
{
- OC_LOG_V(ERROR, TAG, "Failed to parse JSON: %s", ehRequest->reqJSONPayload);
- return NULL;
+ currLEDResource->power =pow;
}
- currLEDResource->state = ( !strcmp(cJSON_GetObjectItem(putJson,"state")->valuestring ,
- "on") ? true:false);
- currLEDResource->power = cJSON_GetObjectItem(putJson,"power")->valuedouble;
- cJSON_Delete(putJson);
+ bool state;
+ if(OCRepPayloadGetPropBool(input, "state", &state))
+ {
+ currLEDResource->state = state;
+ }
}
- cJSON_AddStringToObject(json,"href",gResourceUri);
- cJSON_AddItemToObject(json, "rep", format=cJSON_CreateObject());
- cJSON_AddStringToObject(format, "state", (char *) (currLEDResource->state ? "on":"off"));
- cJSON_AddNumberToObject(format, "power", currLEDResource->power);
-
- jsonResponse = cJSON_Print(json);
- cJSON_Delete(json);
- return jsonResponse;
+ return getPayload(gResourceUri, currLEDResource->power, currLEDResource->state);
}
OCEntityHandlerResult ProcessGetRequest (OCEntityHandlerRequest *ehRequest,
- char *payload, size_t maxPayloadSize)
+ OCRepPayload **payload)
{
OCEntityHandlerResult ehResult;
- char *getResp = constructJsonResponse(ehRequest);
+ OCRepPayload *getResp = constructResponse(ehRequest);
+
if(getResp)
{
- if (maxPayloadSize > strlen (getResp))
- {
- strcpy(payload, getResp);
- ehResult = OC_EH_OK;
- }
- else
- {
- OC_LOG_V (INFO, TAG, "Response buffer: %d bytes is too small",
- maxPayloadSize);
- ehResult = OC_EH_ERROR;
- }
-
- free(getResp);
+ *payload = getResp;
+ ehResult = OC_EH_OK;
}
else
{
}
OCEntityHandlerResult ProcessPutRequest (OCEntityHandlerRequest *ehRequest,
- char *payload, size_t maxPayloadSize)
+ OCRepPayload **payload)
{
OCEntityHandlerResult ehResult;
- char *putResp = constructJsonResponse(ehRequest);
+ OCRepPayload *putResp = constructResponse(ehRequest);
if(putResp)
{
- if (maxPayloadSize > strlen (putResp))
- {
- strcpy(payload, putResp);
- ehResult = OC_EH_OK;
- }
- else
- {
- OC_LOG_V (INFO, TAG, "Response buffer: %d bytes is too small",
- maxPayloadSize);
- ehResult = OC_EH_ERROR;
- }
-
- free(putResp);
+ *payload = putResp;
+ ehResult = OC_EH_OK;
}
else
{
}
OCEntityHandlerResult ProcessPostRequest (OCEntityHandlerRequest *ehRequest,
- char *payload, size_t maxPayloadSize)
+ OCEntityHandlerResponse *response, OCRepPayload **payload)
{
- char *respPLPost_led = NULL;
- cJSON *json;
- cJSON *format;
- OCEntityHandlerResult ehResult;
+ OCRepPayload *respPLPost_led = nullptr;
+ OCEntityHandlerResult ehResult = OC_EH_OK;
/*
* The entity handler determines how to process a POST request.
* resource is created with default representation (if representation is included in
* POST payload it can be used as initial values) as long as the instance is
* lesser than max new instance count. Once max instance count is reached, POST on
- * /a/led updated the representation of /a/led (just like PUT)
+ * /a/led updated the representation of /a/led.
*/
if (ehRequest->resource == LED.handle)
int newLedUriLength = strlen(newLedUri);
snprintf (newLedUri + newLedUriLength, sizeof(newLedUri)-newLedUriLength, "%d", gCurrLedInstance);
- json = cJSON_CreateObject();
-
- cJSON_AddStringToObject(json,"href",gResourceUri);
- cJSON_AddItemToObject(json, "rep", format=cJSON_CreateObject());
- cJSON_AddStringToObject(format, "createduri", (char *) newLedUri);
+ respPLPost_led = OCRepPayloadCreate();
+ OCRepPayloadSetUri(respPLPost_led, gResourceUri);
+ OCRepPayloadSetPropString(respPLPost_led, "createduri", newLedUri);
if (0 == createLEDResource (newLedUri, &gLedInstance[gCurrLedInstance], false, 0))
{
- OC_LOG (INFO, TAG, "Created new LED instance");
+ OIC_LOG (INFO, TAG, "Created new LED instance");
gLedInstance[gCurrLedInstance].state = 0;
gLedInstance[gCurrLedInstance].power = 0;
gCurrLedInstance++;
- respPLPost_led = cJSON_Print(json);
+ strncpy ((char *)response->resourceUri, newLedUri, MAX_URI_LENGTH);
+ ehResult = OC_EH_RESOURCE_CREATED;
}
-
- cJSON_Delete(json);
}
else
{
- respPLPost_led = constructJsonResponse(ehRequest);
+ respPLPost_led = constructResponse(ehRequest);
}
}
else
{
if (i == 0)
{
- respPLPost_led = constructJsonResponse(ehRequest);
+ respPLPost_led = constructResponse(ehRequest);
break;
}
else if (i == 1)
{
- respPLPost_led = constructJsonResponse(ehRequest);
+ respPLPost_led = constructResponse(ehRequest);
}
}
}
}
- if ((respPLPost_led != NULL) && (maxPayloadSize > strlen (respPLPost_led)))
+ if (respPLPost_led != NULL)
{
- strcpy(payload, respPLPost_led);
+ *payload = respPLPost_led;
ehResult = OC_EH_OK;
}
else
{
- OC_LOG_V (INFO, TAG, "Response buffer: %d bytes is too small",
- maxPayloadSize);
+ OIC_LOG_V (INFO, TAG, "Payload was NULL");
ehResult = OC_EH_ERROR;
}
- free(respPLPost_led);
-
return ehResult;
}
OCEntityHandlerResult
OCEntityHandlerCb (OCEntityHandlerFlag flag,
- OCEntityHandlerRequest *entityHandlerRequest)
+ OCEntityHandlerRequest *entityHandlerRequest,
+ void* /*callbackParam*/)
{
- OC_LOG_V (INFO, TAG, "Inside entity handler - flags: 0x%x", flag);
+ OIC_LOG_V (INFO, TAG, "Inside entity handler - flags: 0x%x", flag);
OCEntityHandlerResult ehResult = OC_EH_ERROR;
- OCEntityHandlerResponse response;
- char payload[MAX_RESPONSE_LENGTH] = {0};
-
- if (flag & OC_INIT_FLAG)
+ OCEntityHandlerResponse response = { 0, 0, OC_EH_ERROR, 0, 0, { },{ 0 }, false };
+ // Validate pointer
+ if (!entityHandlerRequest)
{
- OC_LOG (INFO, TAG, "Flag includes OC_INIT_FLAG");
- ehResult = OC_EH_OK;
+ OIC_LOG (ERROR, TAG, "Invalid request pointer");
+ return OC_EH_ERROR;
}
+
+ OCRepPayload* payload = nullptr;
+
if (flag & OC_REQUEST_FLAG)
{
- OC_LOG (INFO, TAG, "Flag includes OC_REQUEST_FLAG");
+ OIC_LOG (INFO, TAG, "Flag includes OC_REQUEST_FLAG");
if (entityHandlerRequest)
{
if (OC_REST_GET == entityHandlerRequest->method)
{
- OC_LOG (INFO, TAG, "Received OC_REST_GET from client");
- ehResult = ProcessGetRequest (entityHandlerRequest, payload, sizeof(payload));
+ OIC_LOG (INFO, TAG, "Received OC_REST_GET from client");
+ ehResult = ProcessGetRequest (entityHandlerRequest, &payload);
}
else if (OC_REST_PUT == entityHandlerRequest->method)
{
- OC_LOG (INFO, TAG, "Received OC_REST_PUT from client");
- ehResult = ProcessPutRequest (entityHandlerRequest, payload, sizeof(payload));
+ OIC_LOG (INFO, TAG, "Received OC_REST_PUT from client");
+ ehResult = ProcessPutRequest (entityHandlerRequest, &payload);
}
else if (OC_REST_POST == entityHandlerRequest->method)
{
- OC_LOG (INFO, TAG, "Received OC_REST_POST from client");
- ehResult = ProcessPostRequest (entityHandlerRequest, payload, sizeof(payload));
+ OIC_LOG (INFO, TAG, "Received OC_REST_POST from client");
+ ehResult = ProcessPostRequest (entityHandlerRequest, &response, &payload);
}
else
{
- OC_LOG_V (INFO, TAG, "Received unsupported method %d from client",
+ OIC_LOG_V (INFO, TAG, "Received unsupported method %d from client",
entityHandlerRequest->method);
ehResult = OC_EH_ERROR;
}
- if (ehResult == OC_EH_OK)
+ if (ehResult == OC_EH_OK && ehResult != OC_EH_FORBIDDEN)
{
// Format the response. Note this requires some info about the request
response.requestHandle = entityHandlerRequest->requestHandle;
response.resourceHandle = entityHandlerRequest->resource;
response.ehResult = ehResult;
- response.payload = payload;
- response.payloadSize = strlen(payload);
+ response.payload = reinterpret_cast<OCPayload*>(payload);
response.numSendVendorSpecificHeaderOptions = 0;
memset(response.sendVendorSpecificHeaderOptions, 0, sizeof response.sendVendorSpecificHeaderOptions);
memset(response.resourceUri, 0, sizeof(response.resourceUri));
// Send the response
if (OCDoResponse(&response) != OC_STACK_OK)
{
- OC_LOG(ERROR, TAG, "Error sending response");
+ OIC_LOG(ERROR, TAG, "Error sending response");
ehResult = OC_EH_ERROR;
}
}
}
}
+
+ OCRepPayloadDestroy(payload);
return ehResult;
}
}
}
-int main(int argc, char* argv[])
+FILE* server_fopen(const char *path, const char *mode)
+{
+ (void)path;
+ return fopen(CRED_FILE, mode);
+}
+
+int main(int /*argc*/, char* /*argv*/[])
{
struct timespec timeout;
- OC_LOG(DEBUG, TAG, "OCServer is starting...");
+ OIC_LOG(DEBUG, TAG, "OCServer is starting...");
+
+ // Initialize Persistent Storage for SVR database
+ OCPersistentStorage ps = { server_fopen, fread, fwrite, fclose, unlink };
+ OCRegisterPersistentStorageHandler(&ps);
if (OCInit(NULL, 0, OC_SERVER) != OC_STACK_OK)
{
- OC_LOG(ERROR, TAG, "OCStack init error");
+ OIC_LOG(ERROR, TAG, "OCStack init error");
return 0;
}
/*
- * Read DTLS PSK credentials from persistent storage and
- * set in the OC stack.
- */
- if (SetCredentials(CRED_FILE) != OC_STACK_OK)
- {
- OC_LOG(ERROR, TAG, "SetCredentials failed");
- return 0;
- }
- /*
* Declare and create the example resource: LED
*/
createLEDResource(gResourceUri, &LED, false, 0);
timeout.tv_nsec = 100000000L;
// Break from loop with Ctrl-C
- OC_LOG(INFO, TAG, "Entering ocserver main loop...");
+ OIC_LOG(INFO, TAG, "Entering ocserver main loop...");
signal(SIGINT, handleSigInt);
while (!gQuitFlag)
{
if (OCProcess() != OC_STACK_OK)
{
- OC_LOG(ERROR, TAG, "OCStack process error");
+ OIC_LOG(ERROR, TAG, "OCStack process error");
return 0;
}
nanosleep(&timeout, NULL);
}
- OC_LOG(INFO, TAG, "Exiting ocserver main loop...");
+ OIC_LOG(INFO, TAG, "Exiting ocserver main loop...");
if (OCStop() != OC_STACK_OK)
{
- OC_LOG(ERROR, TAG, "OCStack process error");
+ OIC_LOG(ERROR, TAG, "OCStack process error");
}
return 0;
{
if (!uri)
{
- OC_LOG(ERROR, TAG, "Resource URI cannot be NULL");
+ OIC_LOG(ERROR, TAG, "Resource URI cannot be NULL");
return -1;
}
ledResource->power= resourcePower;
OCStackResult res = OCCreateResource(&(ledResource->handle),
"core.led",
- "oc.mi.def",
+ OC_RSRVD_INTERFACE_DEFAULT,
uri,
OCEntityHandlerCb,
+ NULL,
OC_DISCOVERABLE|OC_OBSERVABLE | OC_SECURE);
- OC_LOG_V(INFO, TAG, "Created LED resource with result: %s", getResult(res));
+ OIC_LOG_V(INFO, TAG, "Created LED resource with result: %s", getResult(res));
return 0;
}