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IecpClient.cpp
4428 lines (3911 loc) · 157 KB
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IecpClient.cpp
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/*
* Copyright (c) 2017-2019 THL A29 Limited, a Tencent company. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <tencentcloud/iecp/v20210914/IecpClient.h>
#include <tencentcloud/core/Executor.h>
#include <tencentcloud/core/Runnable.h>
using namespace TencentCloud;
using namespace TencentCloud::Iecp::V20210914;
using namespace TencentCloud::Iecp::V20210914::Model;
using namespace std;
namespace
{
const string VERSION = "2021-09-14";
const string ENDPOINT = "iecp.tencentcloudapi.com";
}
IecpClient::IecpClient(const Credential &credential, const string ®ion) :
IecpClient(credential, region, ClientProfile())
{
}
IecpClient::IecpClient(const Credential &credential, const string ®ion, const ClientProfile &profile) :
AbstractClient(ENDPOINT, VERSION, credential, region, profile)
{
}
IecpClient::ApplyMarketComponentOutcome IecpClient::ApplyMarketComponent(const ApplyMarketComponentRequest &request)
{
auto outcome = MakeRequest(request, "ApplyMarketComponent");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ApplyMarketComponentResponse rsp = ApplyMarketComponentResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ApplyMarketComponentOutcome(rsp);
else
return ApplyMarketComponentOutcome(o.GetError());
}
else
{
return ApplyMarketComponentOutcome(outcome.GetError());
}
}
void IecpClient::ApplyMarketComponentAsync(const ApplyMarketComponentRequest& request, const ApplyMarketComponentAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ApplyMarketComponent(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::ApplyMarketComponentOutcomeCallable IecpClient::ApplyMarketComponentCallable(const ApplyMarketComponentRequest &request)
{
auto task = std::make_shared<std::packaged_task<ApplyMarketComponentOutcome()>>(
[this, request]()
{
return this->ApplyMarketComponent(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::BuildMessageRouteOutcome IecpClient::BuildMessageRoute(const BuildMessageRouteRequest &request)
{
auto outcome = MakeRequest(request, "BuildMessageRoute");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
BuildMessageRouteResponse rsp = BuildMessageRouteResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return BuildMessageRouteOutcome(rsp);
else
return BuildMessageRouteOutcome(o.GetError());
}
else
{
return BuildMessageRouteOutcome(outcome.GetError());
}
}
void IecpClient::BuildMessageRouteAsync(const BuildMessageRouteRequest& request, const BuildMessageRouteAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->BuildMessageRoute(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::BuildMessageRouteOutcomeCallable IecpClient::BuildMessageRouteCallable(const BuildMessageRouteRequest &request)
{
auto task = std::make_shared<std::packaged_task<BuildMessageRouteOutcome()>>(
[this, request]()
{
return this->BuildMessageRoute(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateApplicationVisualizationOutcome IecpClient::CreateApplicationVisualization(const CreateApplicationVisualizationRequest &request)
{
auto outcome = MakeRequest(request, "CreateApplicationVisualization");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateApplicationVisualizationResponse rsp = CreateApplicationVisualizationResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateApplicationVisualizationOutcome(rsp);
else
return CreateApplicationVisualizationOutcome(o.GetError());
}
else
{
return CreateApplicationVisualizationOutcome(outcome.GetError());
}
}
void IecpClient::CreateApplicationVisualizationAsync(const CreateApplicationVisualizationRequest& request, const CreateApplicationVisualizationAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateApplicationVisualization(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateApplicationVisualizationOutcomeCallable IecpClient::CreateApplicationVisualizationCallable(const CreateApplicationVisualizationRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateApplicationVisualizationOutcome()>>(
[this, request]()
{
return this->CreateApplicationVisualization(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateConfigMapOutcome IecpClient::CreateConfigMap(const CreateConfigMapRequest &request)
{
auto outcome = MakeRequest(request, "CreateConfigMap");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateConfigMapResponse rsp = CreateConfigMapResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateConfigMapOutcome(rsp);
else
return CreateConfigMapOutcome(o.GetError());
}
else
{
return CreateConfigMapOutcome(outcome.GetError());
}
}
void IecpClient::CreateConfigMapAsync(const CreateConfigMapRequest& request, const CreateConfigMapAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateConfigMap(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateConfigMapOutcomeCallable IecpClient::CreateConfigMapCallable(const CreateConfigMapRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateConfigMapOutcome()>>(
[this, request]()
{
return this->CreateConfigMap(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeNodeOutcome IecpClient::CreateEdgeNode(const CreateEdgeNodeRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeNode");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeNodeResponse rsp = CreateEdgeNodeResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeNodeOutcome(rsp);
else
return CreateEdgeNodeOutcome(o.GetError());
}
else
{
return CreateEdgeNodeOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeNodeAsync(const CreateEdgeNodeRequest& request, const CreateEdgeNodeAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeNode(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeNodeOutcomeCallable IecpClient::CreateEdgeNodeCallable(const CreateEdgeNodeRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeNodeOutcome()>>(
[this, request]()
{
return this->CreateEdgeNode(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeNodeBatchOutcome IecpClient::CreateEdgeNodeBatch(const CreateEdgeNodeBatchRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeNodeBatch");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeNodeBatchResponse rsp = CreateEdgeNodeBatchResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeNodeBatchOutcome(rsp);
else
return CreateEdgeNodeBatchOutcome(o.GetError());
}
else
{
return CreateEdgeNodeBatchOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeNodeBatchAsync(const CreateEdgeNodeBatchRequest& request, const CreateEdgeNodeBatchAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeNodeBatch(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeNodeBatchOutcomeCallable IecpClient::CreateEdgeNodeBatchCallable(const CreateEdgeNodeBatchRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeNodeBatchOutcome()>>(
[this, request]()
{
return this->CreateEdgeNodeBatch(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeNodeGroupOutcome IecpClient::CreateEdgeNodeGroup(const CreateEdgeNodeGroupRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeNodeGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeNodeGroupResponse rsp = CreateEdgeNodeGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeNodeGroupOutcome(rsp);
else
return CreateEdgeNodeGroupOutcome(o.GetError());
}
else
{
return CreateEdgeNodeGroupOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeNodeGroupAsync(const CreateEdgeNodeGroupRequest& request, const CreateEdgeNodeGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeNodeGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeNodeGroupOutcomeCallable IecpClient::CreateEdgeNodeGroupCallable(const CreateEdgeNodeGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeNodeGroupOutcome()>>(
[this, request]()
{
return this->CreateEdgeNodeGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeNodeUnitTemplateOutcome IecpClient::CreateEdgeNodeUnitTemplate(const CreateEdgeNodeUnitTemplateRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeNodeUnitTemplate");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeNodeUnitTemplateResponse rsp = CreateEdgeNodeUnitTemplateResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeNodeUnitTemplateOutcome(rsp);
else
return CreateEdgeNodeUnitTemplateOutcome(o.GetError());
}
else
{
return CreateEdgeNodeUnitTemplateOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeNodeUnitTemplateAsync(const CreateEdgeNodeUnitTemplateRequest& request, const CreateEdgeNodeUnitTemplateAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeNodeUnitTemplate(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeNodeUnitTemplateOutcomeCallable IecpClient::CreateEdgeNodeUnitTemplateCallable(const CreateEdgeNodeUnitTemplateRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeNodeUnitTemplateOutcome()>>(
[this, request]()
{
return this->CreateEdgeNodeUnitTemplate(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeUnitApplicationVisualizationOutcome IecpClient::CreateEdgeUnitApplicationVisualization(const CreateEdgeUnitApplicationVisualizationRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeUnitApplicationVisualization");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeUnitApplicationVisualizationResponse rsp = CreateEdgeUnitApplicationVisualizationResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeUnitApplicationVisualizationOutcome(rsp);
else
return CreateEdgeUnitApplicationVisualizationOutcome(o.GetError());
}
else
{
return CreateEdgeUnitApplicationVisualizationOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeUnitApplicationVisualizationAsync(const CreateEdgeUnitApplicationVisualizationRequest& request, const CreateEdgeUnitApplicationVisualizationAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeUnitApplicationVisualization(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeUnitApplicationVisualizationOutcomeCallable IecpClient::CreateEdgeUnitApplicationVisualizationCallable(const CreateEdgeUnitApplicationVisualizationRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeUnitApplicationVisualizationOutcome()>>(
[this, request]()
{
return this->CreateEdgeUnitApplicationVisualization(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeUnitApplicationYamlOutcome IecpClient::CreateEdgeUnitApplicationYaml(const CreateEdgeUnitApplicationYamlRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeUnitApplicationYaml");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeUnitApplicationYamlResponse rsp = CreateEdgeUnitApplicationYamlResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeUnitApplicationYamlOutcome(rsp);
else
return CreateEdgeUnitApplicationYamlOutcome(o.GetError());
}
else
{
return CreateEdgeUnitApplicationYamlOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeUnitApplicationYamlAsync(const CreateEdgeUnitApplicationYamlRequest& request, const CreateEdgeUnitApplicationYamlAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeUnitApplicationYaml(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeUnitApplicationYamlOutcomeCallable IecpClient::CreateEdgeUnitApplicationYamlCallable(const CreateEdgeUnitApplicationYamlRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeUnitApplicationYamlOutcome()>>(
[this, request]()
{
return this->CreateEdgeUnitApplicationYaml(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeUnitCloudOutcome IecpClient::CreateEdgeUnitCloud(const CreateEdgeUnitCloudRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeUnitCloud");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeUnitCloudResponse rsp = CreateEdgeUnitCloudResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeUnitCloudOutcome(rsp);
else
return CreateEdgeUnitCloudOutcome(o.GetError());
}
else
{
return CreateEdgeUnitCloudOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeUnitCloudAsync(const CreateEdgeUnitCloudRequest& request, const CreateEdgeUnitCloudAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeUnitCloud(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeUnitCloudOutcomeCallable IecpClient::CreateEdgeUnitCloudCallable(const CreateEdgeUnitCloudRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeUnitCloudOutcome()>>(
[this, request]()
{
return this->CreateEdgeUnitCloud(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateEdgeUnitDevicesOutcome IecpClient::CreateEdgeUnitDevices(const CreateEdgeUnitDevicesRequest &request)
{
auto outcome = MakeRequest(request, "CreateEdgeUnitDevices");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateEdgeUnitDevicesResponse rsp = CreateEdgeUnitDevicesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateEdgeUnitDevicesOutcome(rsp);
else
return CreateEdgeUnitDevicesOutcome(o.GetError());
}
else
{
return CreateEdgeUnitDevicesOutcome(outcome.GetError());
}
}
void IecpClient::CreateEdgeUnitDevicesAsync(const CreateEdgeUnitDevicesRequest& request, const CreateEdgeUnitDevicesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateEdgeUnitDevices(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateEdgeUnitDevicesOutcomeCallable IecpClient::CreateEdgeUnitDevicesCallable(const CreateEdgeUnitDevicesRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateEdgeUnitDevicesOutcome()>>(
[this, request]()
{
return this->CreateEdgeUnitDevices(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateIotDeviceOutcome IecpClient::CreateIotDevice(const CreateIotDeviceRequest &request)
{
auto outcome = MakeRequest(request, "CreateIotDevice");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateIotDeviceResponse rsp = CreateIotDeviceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateIotDeviceOutcome(rsp);
else
return CreateIotDeviceOutcome(o.GetError());
}
else
{
return CreateIotDeviceOutcome(outcome.GetError());
}
}
void IecpClient::CreateIotDeviceAsync(const CreateIotDeviceRequest& request, const CreateIotDeviceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateIotDevice(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateIotDeviceOutcomeCallable IecpClient::CreateIotDeviceCallable(const CreateIotDeviceRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateIotDeviceOutcome()>>(
[this, request]()
{
return this->CreateIotDevice(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateMessageRouteOutcome IecpClient::CreateMessageRoute(const CreateMessageRouteRequest &request)
{
auto outcome = MakeRequest(request, "CreateMessageRoute");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateMessageRouteResponse rsp = CreateMessageRouteResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateMessageRouteOutcome(rsp);
else
return CreateMessageRouteOutcome(o.GetError());
}
else
{
return CreateMessageRouteOutcome(outcome.GetError());
}
}
void IecpClient::CreateMessageRouteAsync(const CreateMessageRouteRequest& request, const CreateMessageRouteAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateMessageRoute(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateMessageRouteOutcomeCallable IecpClient::CreateMessageRouteCallable(const CreateMessageRouteRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateMessageRouteOutcome()>>(
[this, request]()
{
return this->CreateMessageRoute(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateNamespaceOutcome IecpClient::CreateNamespace(const CreateNamespaceRequest &request)
{
auto outcome = MakeRequest(request, "CreateNamespace");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateNamespaceResponse rsp = CreateNamespaceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateNamespaceOutcome(rsp);
else
return CreateNamespaceOutcome(o.GetError());
}
else
{
return CreateNamespaceOutcome(outcome.GetError());
}
}
void IecpClient::CreateNamespaceAsync(const CreateNamespaceRequest& request, const CreateNamespaceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateNamespace(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateNamespaceOutcomeCallable IecpClient::CreateNamespaceCallable(const CreateNamespaceRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateNamespaceOutcome()>>(
[this, request]()
{
return this->CreateNamespace(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateSecretOutcome IecpClient::CreateSecret(const CreateSecretRequest &request)
{
auto outcome = MakeRequest(request, "CreateSecret");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateSecretResponse rsp = CreateSecretResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateSecretOutcome(rsp);
else
return CreateSecretOutcome(o.GetError());
}
else
{
return CreateSecretOutcome(outcome.GetError());
}
}
void IecpClient::CreateSecretAsync(const CreateSecretRequest& request, const CreateSecretAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateSecret(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateSecretOutcomeCallable IecpClient::CreateSecretCallable(const CreateSecretRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateSecretOutcome()>>(
[this, request]()
{
return this->CreateSecret(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateUpdateNodeUnitOutcome IecpClient::CreateUpdateNodeUnit(const CreateUpdateNodeUnitRequest &request)
{
auto outcome = MakeRequest(request, "CreateUpdateNodeUnit");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateUpdateNodeUnitResponse rsp = CreateUpdateNodeUnitResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateUpdateNodeUnitOutcome(rsp);
else
return CreateUpdateNodeUnitOutcome(o.GetError());
}
else
{
return CreateUpdateNodeUnitOutcome(outcome.GetError());
}
}
void IecpClient::CreateUpdateNodeUnitAsync(const CreateUpdateNodeUnitRequest& request, const CreateUpdateNodeUnitAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateUpdateNodeUnit(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateUpdateNodeUnitOutcomeCallable IecpClient::CreateUpdateNodeUnitCallable(const CreateUpdateNodeUnitRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateUpdateNodeUnitOutcome()>>(
[this, request]()
{
return this->CreateUpdateNodeUnit(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::CreateUserTokenOutcome IecpClient::CreateUserToken(const CreateUserTokenRequest &request)
{
auto outcome = MakeRequest(request, "CreateUserToken");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateUserTokenResponse rsp = CreateUserTokenResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateUserTokenOutcome(rsp);
else
return CreateUserTokenOutcome(o.GetError());
}
else
{
return CreateUserTokenOutcome(outcome.GetError());
}
}
void IecpClient::CreateUserTokenAsync(const CreateUserTokenRequest& request, const CreateUserTokenAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateUserToken(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::CreateUserTokenOutcomeCallable IecpClient::CreateUserTokenCallable(const CreateUserTokenRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateUserTokenOutcome()>>(
[this, request]()
{
return this->CreateUserToken(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::DeleteApplicationsOutcome IecpClient::DeleteApplications(const DeleteApplicationsRequest &request)
{
auto outcome = MakeRequest(request, "DeleteApplications");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteApplicationsResponse rsp = DeleteApplicationsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteApplicationsOutcome(rsp);
else
return DeleteApplicationsOutcome(o.GetError());
}
else
{
return DeleteApplicationsOutcome(outcome.GetError());
}
}
void IecpClient::DeleteApplicationsAsync(const DeleteApplicationsRequest& request, const DeleteApplicationsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteApplications(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::DeleteApplicationsOutcomeCallable IecpClient::DeleteApplicationsCallable(const DeleteApplicationsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteApplicationsOutcome()>>(
[this, request]()
{
return this->DeleteApplications(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::DeleteConfigMapOutcome IecpClient::DeleteConfigMap(const DeleteConfigMapRequest &request)
{
auto outcome = MakeRequest(request, "DeleteConfigMap");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteConfigMapResponse rsp = DeleteConfigMapResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteConfigMapOutcome(rsp);
else
return DeleteConfigMapOutcome(o.GetError());
}
else
{
return DeleteConfigMapOutcome(outcome.GetError());
}
}
void IecpClient::DeleteConfigMapAsync(const DeleteConfigMapRequest& request, const DeleteConfigMapAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteConfigMap(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::DeleteConfigMapOutcomeCallable IecpClient::DeleteConfigMapCallable(const DeleteConfigMapRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteConfigMapOutcome()>>(
[this, request]()
{
return this->DeleteConfigMap(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::DeleteEdgeNodeGroupOutcome IecpClient::DeleteEdgeNodeGroup(const DeleteEdgeNodeGroupRequest &request)
{
auto outcome = MakeRequest(request, "DeleteEdgeNodeGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteEdgeNodeGroupResponse rsp = DeleteEdgeNodeGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteEdgeNodeGroupOutcome(rsp);
else
return DeleteEdgeNodeGroupOutcome(o.GetError());
}
else
{
return DeleteEdgeNodeGroupOutcome(outcome.GetError());
}
}
void IecpClient::DeleteEdgeNodeGroupAsync(const DeleteEdgeNodeGroupRequest& request, const DeleteEdgeNodeGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteEdgeNodeGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::DeleteEdgeNodeGroupOutcomeCallable IecpClient::DeleteEdgeNodeGroupCallable(const DeleteEdgeNodeGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteEdgeNodeGroupOutcome()>>(
[this, request]()
{
return this->DeleteEdgeNodeGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::DeleteEdgeNodeUnitTemplatesOutcome IecpClient::DeleteEdgeNodeUnitTemplates(const DeleteEdgeNodeUnitTemplatesRequest &request)
{
auto outcome = MakeRequest(request, "DeleteEdgeNodeUnitTemplates");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteEdgeNodeUnitTemplatesResponse rsp = DeleteEdgeNodeUnitTemplatesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteEdgeNodeUnitTemplatesOutcome(rsp);
else
return DeleteEdgeNodeUnitTemplatesOutcome(o.GetError());
}
else
{
return DeleteEdgeNodeUnitTemplatesOutcome(outcome.GetError());
}
}
void IecpClient::DeleteEdgeNodeUnitTemplatesAsync(const DeleteEdgeNodeUnitTemplatesRequest& request, const DeleteEdgeNodeUnitTemplatesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteEdgeNodeUnitTemplates(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
IecpClient::DeleteEdgeNodeUnitTemplatesOutcomeCallable IecpClient::DeleteEdgeNodeUnitTemplatesCallable(const DeleteEdgeNodeUnitTemplatesRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteEdgeNodeUnitTemplatesOutcome()>>(
[this, request]()
{
return this->DeleteEdgeNodeUnitTemplates(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
IecpClient::DeleteEdgeNodesOutcome IecpClient::DeleteEdgeNodes(const DeleteEdgeNodesRequest &request)
{
auto outcome = MakeRequest(request, "DeleteEdgeNodes");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteEdgeNodesResponse rsp = DeleteEdgeNodesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteEdgeNodesOutcome(rsp);
else