ListDevices Delphi (ActiveX) Example
var
rest: TChilkatRest;
success: Integer;
authAws: TChilkatAuthAws;
json: TChilkatJsonObject;
sbRequestBody: TChilkatStringBuilder;
sbResponseBody: TChilkatStringBuilder;
respStatusCode: Integer;
jResp: TChilkatJsonObject;
arn: WideString;
availability: WideString;
carrier: WideString;
Architecture: WideString;
Clock: Integer;
Frequency: WideString;
fleetName: WideString;
fleetType: WideString;
formFactor: WideString;
heapSize: Integer;
image: WideString;
manufacturer: WideString;
memory: Integer;
model: WideString;
modelId: WideString;
name: WideString;
os: WideString;
platform: WideString;
radio: WideString;
remoteAccessEnabled: Integer;
remoteDebugEnabled: Integer;
Height: Integer;
Width: Integer;
j: Integer;
count_j: Integer;
deviceArn: WideString;
Arn: WideString;
Description: WideString;
Name: WideString;
PackageCleanup: Integer;
RebootAfterUse: Integer;
status: WideString;
udid: WideString;
k: Integer;
count_k: Integer;
strVal: WideString;
nextToken: WideString;
i: Integer;
count_i: Integer;
begin
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
rest := TChilkatRest.Create(Self);
authAws := TChilkatAuthAws.Create(Self);
authAws.AccessKey := 'AWS_ACCESS_KEY';
authAws.SecretKey := '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.)
authAws.Region := 'us-west-2';
authAws.ServiceName := 'devicefarm';
// SetAuthAws causes Chilkat to automatically add the following headers: Authorization, X-Amz-Date
rest.SetAuthAws(authAws.ControlInterface);
// URL: https://devicefarm.us-west-2.amazonaws.com/
// Use the same region as specified above.
success := rest.Connect('devicefarm.us-west-2.amazonaws.com',443,1,1);
if (success <> 1) then
begin
Memo1.Lines.Add('ConnectFailReason: ' + IntToStr(rest.ConnectFailReason));
Memo1.Lines.Add(rest.LastErrorText);
Exit;
end;
// 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 := TChilkatJsonObject.Create(Self);
json.UpdateString('arn','string');
json.UpdateString('filters[0].attribute','string');
json.UpdateString('filters[0].operator','string');
json.UpdateString('filters[0].values[0]','string');
json.UpdateString('nextToken','string');
// The JSON request body created by the above code:
// {
// "arn": "string",
// "filters": [
// {
// "attribute": "string",
// "operator": "string",
// "values": [
// "string"
// ]
// }
// ],
// "nextToken": "string"
// }
rest.AddHeader('Content-Type','application/x-amz-json-1.1');
rest.AddHeader('X-Amz-Target','DeviceFarm_20150623.ListDevices');
sbRequestBody := TChilkatStringBuilder.Create(Self);
json.EmitSb(sbRequestBody.ControlInterface);
sbResponseBody := TChilkatStringBuilder.Create(Self);
success := rest.FullRequestSb('POST','/',sbRequestBody.ControlInterface,sbResponseBody.ControlInterface);
if (success <> 1) then
begin
Memo1.Lines.Add(rest.LastErrorText);
Exit;
end;
respStatusCode := rest.ResponseStatusCode;
Memo1.Lines.Add('response status code = ' + IntToStr(respStatusCode));
if (respStatusCode <> 200) then
begin
Memo1.Lines.Add('Response Header:');
Memo1.Lines.Add(rest.ResponseHeader);
Memo1.Lines.Add('Response Body:');
Memo1.Lines.Add(sbResponseBody.GetAsString());
Exit;
end;
jResp := TChilkatJsonObject.Create(Self);
jResp.LoadSb(sbResponseBody.ControlInterface);
// 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
nextToken := jResp.StringOf('nextToken');
i := 0;
count_i := jResp.SizeOfArray('devices');
while i < count_i do
begin
jResp.I := i;
arn := jResp.StringOf('devices[i].arn');
availability := jResp.StringOf('devices[i].availability');
carrier := jResp.StringOf('devices[i].carrier');
Architecture := jResp.StringOf('devices[i].cpu.architecture');
Clock := jResp.IntOf('devices[i].cpu.clock');
Frequency := jResp.StringOf('devices[i].cpu.frequency');
fleetName := jResp.StringOf('devices[i].fleetName');
fleetType := jResp.StringOf('devices[i].fleetType');
formFactor := jResp.StringOf('devices[i].formFactor');
heapSize := jResp.IntOf('devices[i].heapSize');
image := jResp.StringOf('devices[i].image');
manufacturer := jResp.StringOf('devices[i].manufacturer');
memory := jResp.IntOf('devices[i].memory');
model := jResp.StringOf('devices[i].model');
modelId := jResp.StringOf('devices[i].modelId');
name := jResp.StringOf('devices[i].name');
os := jResp.StringOf('devices[i].os');
platform := jResp.StringOf('devices[i].platform');
radio := jResp.StringOf('devices[i].radio');
remoteAccessEnabled := jResp.IntOf('devices[i].remoteAccessEnabled');
remoteDebugEnabled := jResp.IntOf('devices[i].remoteDebugEnabled');
Height := jResp.IntOf('devices[i].resolution.height');
Width := jResp.IntOf('devices[i].resolution.width');
j := 0;
count_j := jResp.SizeOfArray('devices[i].instances');
while j < count_j do
begin
jResp.J := j;
arn := jResp.StringOf('devices[i].instances[j].arn');
deviceArn := jResp.StringOf('devices[i].instances[j].deviceArn');
Arn := jResp.StringOf('devices[i].instances[j].instanceProfile.arn');
Description := jResp.StringOf('devices[i].instances[j].instanceProfile.description');
Name := jResp.StringOf('devices[i].instances[j].instanceProfile.name');
PackageCleanup := jResp.IntOf('devices[i].instances[j].instanceProfile.packageCleanup');
RebootAfterUse := jResp.IntOf('devices[i].instances[j].instanceProfile.rebootAfterUse');
status := jResp.StringOf('devices[i].instances[j].status');
udid := jResp.StringOf('devices[i].instances[j].udid');
k := 0;
count_k := jResp.SizeOfArray('devices[i].instances[j].instanceProfile.excludeAppPackagesFromCleanup');
while k < count_k do
begin
jResp.K := k;
strVal := jResp.StringOf('devices[i].instances[j].instanceProfile.excludeAppPackagesFromCleanup[k]');
k := k + 1;
end;
k := 0;
count_k := jResp.SizeOfArray('devices[i].instances[j].labels');
while k < count_k do
begin
jResp.K := k;
strVal := jResp.StringOf('devices[i].instances[j].labels[k]');
k := k + 1;
end;
j := j + 1;
end;
i := i + 1;
end;
// A sample JSON response body parsed by the above code:
// {
// "devices": [
// {
// "arn": "string",
// "availability": "string",
// "carrier": "string",
// "cpu": {
// "architecture": "string",
// "clock": number,
// "frequency": "string"
// },
// "fleetName": "string",
// "fleetType": "string",
// "formFactor": "string",
// "heapSize": number,
// "image": "string",
// "instances": [
// {
// "arn": "string",
// "deviceArn": "string",
// "instanceProfile": {
// "arn": "string",
// "description": "string",
// "excludeAppPackagesFromCleanup": [
// "string"
// ],
// "name": "string",
// "packageCleanup": boolean,
// "rebootAfterUse": boolean
// },
// "labels": [
// "string"
// ],
// "status": "string",
// "udid": "string"
// }
// ],
// "manufacturer": "string",
// "memory": number,
// "model": "string",
// "modelId": "string",
// "name": "string",
// "os": "string",
// "platform": "string",
// "radio": "string",
// "remoteAccessEnabled": boolean,
// "remoteDebugEnabled": boolean,
// "resolution": {
// "height": number,
// "width": number
// }
// }
// ],
// "nextToken": "string"
// }