CreateInterconnect C Example
#include <C_CkRest.h>
#include <C_CkAuthAws.h>
#include <C_CkJsonObject.h>
#include <C_CkStringBuilder.h>
void ChilkatSample(void)
{
HCkRest rest;
BOOL success;
HCkAuthAws authAws;
HCkJsonObject json;
HCkStringBuilder sbRequestBody;
HCkStringBuilder sbResponseBody;
int respStatusCode;
HCkJsonObject jResp;
const char *key;
const char *value;
const char *awsDevice;
const char *awsDeviceV2;
const char *awsLogicalDeviceId;
const char *bandwidth;
const char *hasLogicalRedundancy;
const char *interconnectId;
const char *interconnectName;
const char *interconnectState;
int jumboFrameCapable;
const char *lagId;
int loaIssueTime;
const char *location;
const char *providerName;
const char *region;
int i;
int count_i;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
rest = CkRest_Create();
authAws = CkAuthAws_Create();
CkAuthAws_putAccessKey(authAws,"AWS_ACCESS_KEY");
CkAuthAws_putSecretKey(authAws,"AWS_SECRET_KEY");
// Don't forget to change the region to your particular region. (Also make the same change in the call to Connect below.)
CkAuthAws_putRegion(authAws,"us-west-2");
CkAuthAws_putServiceName(authAws,"directconnect");
// SetAuthAws causes Chilkat to automatically add the following headers: Authorization, X-Amz-Date
CkRest_SetAuthAws(rest,authAws);
// URL: https://directconnect.us-west-2.amazonaws.com/
// Use the same region as specified above.
success = CkRest_Connect(rest,"directconnect.us-west-2.amazonaws.com",443,TRUE,TRUE);
if (success != TRUE) {
printf("ConnectFailReason: %d\n",CkRest_getConnectFailReason(rest));
printf("%s\n",CkRest_lastErrorText(rest));
CkRest_Dispose(rest);
CkAuthAws_Dispose(authAws);
return;
}
// The following code creates the JSON request body.
// The JSON created by this code is shown below.
// Use this online tool to generate code from sample JSON:
// Generate Code to Create JSON
json = CkJsonObject_Create();
CkJsonObject_UpdateString(json,"bandwidth","string");
CkJsonObject_UpdateString(json,"interconnectName","string");
CkJsonObject_UpdateString(json,"lagId","string");
CkJsonObject_UpdateString(json,"location","string");
CkJsonObject_UpdateString(json,"providerName","string");
CkJsonObject_UpdateString(json,"tags[0].key","string");
CkJsonObject_UpdateString(json,"tags[0].value","string");
// The JSON request body created by the above code:
// {
// "bandwidth": "string",
// "interconnectName": "string",
// "lagId": "string",
// "location": "string",
// "providerName": "string",
// "tags": [
// {
// "key": "string",
// "value": "string"
// }
// ]
// }
CkRest_AddHeader(rest,"Content-Type","application/x-amz-json-1.1");
CkRest_AddHeader(rest,"X-Amz-Target","OvertureService.CreateInterconnect");
sbRequestBody = CkStringBuilder_Create();
CkJsonObject_EmitSb(json,sbRequestBody);
sbResponseBody = CkStringBuilder_Create();
success = CkRest_FullRequestSb(rest,"POST","/",sbRequestBody,sbResponseBody);
if (success != TRUE) {
printf("%s\n",CkRest_lastErrorText(rest));
CkRest_Dispose(rest);
CkAuthAws_Dispose(authAws);
CkJsonObject_Dispose(json);
CkStringBuilder_Dispose(sbRequestBody);
CkStringBuilder_Dispose(sbResponseBody);
return;
}
respStatusCode = CkRest_getResponseStatusCode(rest);
printf("response status code = %d\n",respStatusCode);
if (respStatusCode != 200) {
printf("Response Header:\n");
printf("%s\n",CkRest_responseHeader(rest));
printf("Response Body:\n");
printf("%s\n",CkStringBuilder_getAsString(sbResponseBody));
CkRest_Dispose(rest);
CkAuthAws_Dispose(authAws);
CkJsonObject_Dispose(json);
CkStringBuilder_Dispose(sbRequestBody);
CkStringBuilder_Dispose(sbResponseBody);
return;
}
jResp = CkJsonObject_Create();
CkJsonObject_LoadSb(jResp,sbResponseBody);
// The following code parses the JSON response.
// A sample JSON response is shown below the sample code.
// Use this online tool to generate parsing code from sample JSON:
// Generate Parsing Code from JSON
// Chilkat functions returning "const char *" return a pointer to temporary internal memory owned and managed by Chilkat.
// See this example explaining how this memory should be used: const char * functions.
awsDevice = CkJsonObject_stringOf(jResp,"awsDevice");
awsDeviceV2 = CkJsonObject_stringOf(jResp,"awsDeviceV2");
awsLogicalDeviceId = CkJsonObject_stringOf(jResp,"awsLogicalDeviceId");
bandwidth = CkJsonObject_stringOf(jResp,"bandwidth");
hasLogicalRedundancy = CkJsonObject_stringOf(jResp,"hasLogicalRedundancy");
interconnectId = CkJsonObject_stringOf(jResp,"interconnectId");
interconnectName = CkJsonObject_stringOf(jResp,"interconnectName");
interconnectState = CkJsonObject_stringOf(jResp,"interconnectState");
jumboFrameCapable = CkJsonObject_IntOf(jResp,"jumboFrameCapable");
lagId = CkJsonObject_stringOf(jResp,"lagId");
loaIssueTime = CkJsonObject_IntOf(jResp,"loaIssueTime");
location = CkJsonObject_stringOf(jResp,"location");
providerName = CkJsonObject_stringOf(jResp,"providerName");
region = CkJsonObject_stringOf(jResp,"region");
i = 0;
count_i = CkJsonObject_SizeOfArray(jResp,"tags");
while (i < count_i) {
CkJsonObject_putI(jResp,i);
key = CkJsonObject_stringOf(jResp,"tags[i].key");
value = CkJsonObject_stringOf(jResp,"tags[i].value");
i = i + 1;
}
// A sample JSON response body parsed by the above code:
// {
// "awsDevice": "string",
// "awsDeviceV2": "string",
// "awsLogicalDeviceId": "string",
// "bandwidth": "string",
// "hasLogicalRedundancy": "string",
// "interconnectId": "string",
// "interconnectName": "string",
// "interconnectState": "string",
// "jumboFrameCapable": boolean,
// "lagId": "string",
// "loaIssueTime": number,
// "location": "string",
// "providerName": "string",
// "region": "string",
// "tags": [
// {
// "key": "string",
// "value": "string"
// }
// ]
// }
CkRest_Dispose(rest);
CkAuthAws_Dispose(authAws);
CkJsonObject_Dispose(json);
CkStringBuilder_Dispose(sbRequestBody);
CkStringBuilder_Dispose(sbResponseBody);
CkJsonObject_Dispose(jResp);
}
