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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/redis/v20180412/RedisClient.h>
#include <tencentcloud/core/Executor.h>
#include <tencentcloud/core/Runnable.h>
using namespace TencentCloud;
using namespace TencentCloud::Redis::V20180412;
using namespace TencentCloud::Redis::V20180412::Model;
using namespace std;
namespace
{
const string VERSION = "2018-04-12";
const string ENDPOINT = "redis.tencentcloudapi.com";
}
RedisClient::RedisClient(const Credential &credential, const string ®ion) :
RedisClient(credential, region, ClientProfile())
{
}
RedisClient::RedisClient(const Credential &credential, const string ®ion, const ClientProfile &profile) :
AbstractClient(ENDPOINT, VERSION, credential, region, profile)
{
}
RedisClient::AddReplicationInstanceOutcome RedisClient::AddReplicationInstance(const AddReplicationInstanceRequest &request)
{
auto outcome = MakeRequest(request, "AddReplicationInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
AddReplicationInstanceResponse rsp = AddReplicationInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return AddReplicationInstanceOutcome(rsp);
else
return AddReplicationInstanceOutcome(o.GetError());
}
else
{
return AddReplicationInstanceOutcome(outcome.GetError());
}
}
void RedisClient::AddReplicationInstanceAsync(const AddReplicationInstanceRequest& request, const AddReplicationInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->AddReplicationInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::AddReplicationInstanceOutcomeCallable RedisClient::AddReplicationInstanceCallable(const AddReplicationInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<AddReplicationInstanceOutcome()>>(
[this, request]()
{
return this->AddReplicationInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::AllocateWanAddressOutcome RedisClient::AllocateWanAddress(const AllocateWanAddressRequest &request)
{
auto outcome = MakeRequest(request, "AllocateWanAddress");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
AllocateWanAddressResponse rsp = AllocateWanAddressResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return AllocateWanAddressOutcome(rsp);
else
return AllocateWanAddressOutcome(o.GetError());
}
else
{
return AllocateWanAddressOutcome(outcome.GetError());
}
}
void RedisClient::AllocateWanAddressAsync(const AllocateWanAddressRequest& request, const AllocateWanAddressAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->AllocateWanAddress(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::AllocateWanAddressOutcomeCallable RedisClient::AllocateWanAddressCallable(const AllocateWanAddressRequest &request)
{
auto task = std::make_shared<std::packaged_task<AllocateWanAddressOutcome()>>(
[this, request]()
{
return this->AllocateWanAddress(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ApplyParamsTemplateOutcome RedisClient::ApplyParamsTemplate(const ApplyParamsTemplateRequest &request)
{
auto outcome = MakeRequest(request, "ApplyParamsTemplate");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ApplyParamsTemplateResponse rsp = ApplyParamsTemplateResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ApplyParamsTemplateOutcome(rsp);
else
return ApplyParamsTemplateOutcome(o.GetError());
}
else
{
return ApplyParamsTemplateOutcome(outcome.GetError());
}
}
void RedisClient::ApplyParamsTemplateAsync(const ApplyParamsTemplateRequest& request, const ApplyParamsTemplateAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ApplyParamsTemplate(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ApplyParamsTemplateOutcomeCallable RedisClient::ApplyParamsTemplateCallable(const ApplyParamsTemplateRequest &request)
{
auto task = std::make_shared<std::packaged_task<ApplyParamsTemplateOutcome()>>(
[this, request]()
{
return this->ApplyParamsTemplate(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::AssociateSecurityGroupsOutcome RedisClient::AssociateSecurityGroups(const AssociateSecurityGroupsRequest &request)
{
auto outcome = MakeRequest(request, "AssociateSecurityGroups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
AssociateSecurityGroupsResponse rsp = AssociateSecurityGroupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return AssociateSecurityGroupsOutcome(rsp);
else
return AssociateSecurityGroupsOutcome(o.GetError());
}
else
{
return AssociateSecurityGroupsOutcome(outcome.GetError());
}
}
void RedisClient::AssociateSecurityGroupsAsync(const AssociateSecurityGroupsRequest& request, const AssociateSecurityGroupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->AssociateSecurityGroups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::AssociateSecurityGroupsOutcomeCallable RedisClient::AssociateSecurityGroupsCallable(const AssociateSecurityGroupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<AssociateSecurityGroupsOutcome()>>(
[this, request]()
{
return this->AssociateSecurityGroups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ChangeInstanceRoleOutcome RedisClient::ChangeInstanceRole(const ChangeInstanceRoleRequest &request)
{
auto outcome = MakeRequest(request, "ChangeInstanceRole");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ChangeInstanceRoleResponse rsp = ChangeInstanceRoleResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ChangeInstanceRoleOutcome(rsp);
else
return ChangeInstanceRoleOutcome(o.GetError());
}
else
{
return ChangeInstanceRoleOutcome(outcome.GetError());
}
}
void RedisClient::ChangeInstanceRoleAsync(const ChangeInstanceRoleRequest& request, const ChangeInstanceRoleAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ChangeInstanceRole(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ChangeInstanceRoleOutcomeCallable RedisClient::ChangeInstanceRoleCallable(const ChangeInstanceRoleRequest &request)
{
auto task = std::make_shared<std::packaged_task<ChangeInstanceRoleOutcome()>>(
[this, request]()
{
return this->ChangeInstanceRole(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ChangeMasterInstanceOutcome RedisClient::ChangeMasterInstance(const ChangeMasterInstanceRequest &request)
{
auto outcome = MakeRequest(request, "ChangeMasterInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ChangeMasterInstanceResponse rsp = ChangeMasterInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ChangeMasterInstanceOutcome(rsp);
else
return ChangeMasterInstanceOutcome(o.GetError());
}
else
{
return ChangeMasterInstanceOutcome(outcome.GetError());
}
}
void RedisClient::ChangeMasterInstanceAsync(const ChangeMasterInstanceRequest& request, const ChangeMasterInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ChangeMasterInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ChangeMasterInstanceOutcomeCallable RedisClient::ChangeMasterInstanceCallable(const ChangeMasterInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<ChangeMasterInstanceOutcome()>>(
[this, request]()
{
return this->ChangeMasterInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ChangeReplicaToMasterOutcome RedisClient::ChangeReplicaToMaster(const ChangeReplicaToMasterRequest &request)
{
auto outcome = MakeRequest(request, "ChangeReplicaToMaster");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ChangeReplicaToMasterResponse rsp = ChangeReplicaToMasterResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ChangeReplicaToMasterOutcome(rsp);
else
return ChangeReplicaToMasterOutcome(o.GetError());
}
else
{
return ChangeReplicaToMasterOutcome(outcome.GetError());
}
}
void RedisClient::ChangeReplicaToMasterAsync(const ChangeReplicaToMasterRequest& request, const ChangeReplicaToMasterAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ChangeReplicaToMaster(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ChangeReplicaToMasterOutcomeCallable RedisClient::ChangeReplicaToMasterCallable(const ChangeReplicaToMasterRequest &request)
{
auto task = std::make_shared<std::packaged_task<ChangeReplicaToMasterOutcome()>>(
[this, request]()
{
return this->ChangeReplicaToMaster(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CleanUpInstanceOutcome RedisClient::CleanUpInstance(const CleanUpInstanceRequest &request)
{
auto outcome = MakeRequest(request, "CleanUpInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CleanUpInstanceResponse rsp = CleanUpInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CleanUpInstanceOutcome(rsp);
else
return CleanUpInstanceOutcome(o.GetError());
}
else
{
return CleanUpInstanceOutcome(outcome.GetError());
}
}
void RedisClient::CleanUpInstanceAsync(const CleanUpInstanceRequest& request, const CleanUpInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CleanUpInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CleanUpInstanceOutcomeCallable RedisClient::CleanUpInstanceCallable(const CleanUpInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<CleanUpInstanceOutcome()>>(
[this, request]()
{
return this->CleanUpInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ClearInstanceOutcome RedisClient::ClearInstance(const ClearInstanceRequest &request)
{
auto outcome = MakeRequest(request, "ClearInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ClearInstanceResponse rsp = ClearInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ClearInstanceOutcome(rsp);
else
return ClearInstanceOutcome(o.GetError());
}
else
{
return ClearInstanceOutcome(outcome.GetError());
}
}
void RedisClient::ClearInstanceAsync(const ClearInstanceRequest& request, const ClearInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ClearInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ClearInstanceOutcomeCallable RedisClient::ClearInstanceCallable(const ClearInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<ClearInstanceOutcome()>>(
[this, request]()
{
return this->ClearInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CloneInstancesOutcome RedisClient::CloneInstances(const CloneInstancesRequest &request)
{
auto outcome = MakeRequest(request, "CloneInstances");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CloneInstancesResponse rsp = CloneInstancesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CloneInstancesOutcome(rsp);
else
return CloneInstancesOutcome(o.GetError());
}
else
{
return CloneInstancesOutcome(outcome.GetError());
}
}
void RedisClient::CloneInstancesAsync(const CloneInstancesRequest& request, const CloneInstancesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CloneInstances(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CloneInstancesOutcomeCallable RedisClient::CloneInstancesCallable(const CloneInstancesRequest &request)
{
auto task = std::make_shared<std::packaged_task<CloneInstancesOutcome()>>(
[this, request]()
{
return this->CloneInstances(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CloseSSLOutcome RedisClient::CloseSSL(const CloseSSLRequest &request)
{
auto outcome = MakeRequest(request, "CloseSSL");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CloseSSLResponse rsp = CloseSSLResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CloseSSLOutcome(rsp);
else
return CloseSSLOutcome(o.GetError());
}
else
{
return CloseSSLOutcome(outcome.GetError());
}
}
void RedisClient::CloseSSLAsync(const CloseSSLRequest& request, const CloseSSLAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CloseSSL(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CloseSSLOutcomeCallable RedisClient::CloseSSLCallable(const CloseSSLRequest &request)
{
auto task = std::make_shared<std::packaged_task<CloseSSLOutcome()>>(
[this, request]()
{
return this->CloseSSL(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CreateInstanceAccountOutcome RedisClient::CreateInstanceAccount(const CreateInstanceAccountRequest &request)
{
auto outcome = MakeRequest(request, "CreateInstanceAccount");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateInstanceAccountResponse rsp = CreateInstanceAccountResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateInstanceAccountOutcome(rsp);
else
return CreateInstanceAccountOutcome(o.GetError());
}
else
{
return CreateInstanceAccountOutcome(outcome.GetError());
}
}
void RedisClient::CreateInstanceAccountAsync(const CreateInstanceAccountRequest& request, const CreateInstanceAccountAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateInstanceAccount(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CreateInstanceAccountOutcomeCallable RedisClient::CreateInstanceAccountCallable(const CreateInstanceAccountRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateInstanceAccountOutcome()>>(
[this, request]()
{
return this->CreateInstanceAccount(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CreateInstancesOutcome RedisClient::CreateInstances(const CreateInstancesRequest &request)
{
auto outcome = MakeRequest(request, "CreateInstances");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateInstancesResponse rsp = CreateInstancesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateInstancesOutcome(rsp);
else
return CreateInstancesOutcome(o.GetError());
}
else
{
return CreateInstancesOutcome(outcome.GetError());
}
}
void RedisClient::CreateInstancesAsync(const CreateInstancesRequest& request, const CreateInstancesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateInstances(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CreateInstancesOutcomeCallable RedisClient::CreateInstancesCallable(const CreateInstancesRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateInstancesOutcome()>>(
[this, request]()
{
return this->CreateInstances(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CreateParamTemplateOutcome RedisClient::CreateParamTemplate(const CreateParamTemplateRequest &request)
{
auto outcome = MakeRequest(request, "CreateParamTemplate");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateParamTemplateResponse rsp = CreateParamTemplateResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateParamTemplateOutcome(rsp);
else
return CreateParamTemplateOutcome(o.GetError());
}
else
{
return CreateParamTemplateOutcome(outcome.GetError());
}
}
void RedisClient::CreateParamTemplateAsync(const CreateParamTemplateRequest& request, const CreateParamTemplateAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateParamTemplate(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CreateParamTemplateOutcomeCallable RedisClient::CreateParamTemplateCallable(const CreateParamTemplateRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateParamTemplateOutcome()>>(
[this, request]()
{
return this->CreateParamTemplate(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::CreateReplicationGroupOutcome RedisClient::CreateReplicationGroup(const CreateReplicationGroupRequest &request)
{
auto outcome = MakeRequest(request, "CreateReplicationGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
CreateReplicationGroupResponse rsp = CreateReplicationGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return CreateReplicationGroupOutcome(rsp);
else
return CreateReplicationGroupOutcome(o.GetError());
}
else
{
return CreateReplicationGroupOutcome(outcome.GetError());
}
}
void RedisClient::CreateReplicationGroupAsync(const CreateReplicationGroupRequest& request, const CreateReplicationGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->CreateReplicationGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::CreateReplicationGroupOutcomeCallable RedisClient::CreateReplicationGroupCallable(const CreateReplicationGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<CreateReplicationGroupOutcome()>>(
[this, request]()
{
return this->CreateReplicationGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DeleteInstanceAccountOutcome RedisClient::DeleteInstanceAccount(const DeleteInstanceAccountRequest &request)
{
auto outcome = MakeRequest(request, "DeleteInstanceAccount");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteInstanceAccountResponse rsp = DeleteInstanceAccountResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteInstanceAccountOutcome(rsp);
else
return DeleteInstanceAccountOutcome(o.GetError());
}
else
{
return DeleteInstanceAccountOutcome(outcome.GetError());
}
}
void RedisClient::DeleteInstanceAccountAsync(const DeleteInstanceAccountRequest& request, const DeleteInstanceAccountAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteInstanceAccount(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DeleteInstanceAccountOutcomeCallable RedisClient::DeleteInstanceAccountCallable(const DeleteInstanceAccountRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteInstanceAccountOutcome()>>(
[this, request]()
{
return this->DeleteInstanceAccount(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DeleteParamTemplateOutcome RedisClient::DeleteParamTemplate(const DeleteParamTemplateRequest &request)
{
auto outcome = MakeRequest(request, "DeleteParamTemplate");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteParamTemplateResponse rsp = DeleteParamTemplateResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteParamTemplateOutcome(rsp);
else
return DeleteParamTemplateOutcome(o.GetError());
}
else
{
return DeleteParamTemplateOutcome(outcome.GetError());
}
}
void RedisClient::DeleteParamTemplateAsync(const DeleteParamTemplateRequest& request, const DeleteParamTemplateAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteParamTemplate(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DeleteParamTemplateOutcomeCallable RedisClient::DeleteParamTemplateCallable(const DeleteParamTemplateRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteParamTemplateOutcome()>>(
[this, request]()
{
return this->DeleteParamTemplate(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DeleteReplicationInstanceOutcome RedisClient::DeleteReplicationInstance(const DeleteReplicationInstanceRequest &request)
{
auto outcome = MakeRequest(request, "DeleteReplicationInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DeleteReplicationInstanceResponse rsp = DeleteReplicationInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DeleteReplicationInstanceOutcome(rsp);
else
return DeleteReplicationInstanceOutcome(o.GetError());
}
else
{
return DeleteReplicationInstanceOutcome(outcome.GetError());
}
}
void RedisClient::DeleteReplicationInstanceAsync(const DeleteReplicationInstanceRequest& request, const DeleteReplicationInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DeleteReplicationInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DeleteReplicationInstanceOutcomeCallable RedisClient::DeleteReplicationInstanceCallable(const DeleteReplicationInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<DeleteReplicationInstanceOutcome()>>(
[this, request]()
{
return this->DeleteReplicationInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeAutoBackupConfigOutcome RedisClient::DescribeAutoBackupConfig(const DescribeAutoBackupConfigRequest &request)
{
auto outcome = MakeRequest(request, "DescribeAutoBackupConfig");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeAutoBackupConfigResponse rsp = DescribeAutoBackupConfigResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeAutoBackupConfigOutcome(rsp);
else
return DescribeAutoBackupConfigOutcome(o.GetError());
}
else
{
return DescribeAutoBackupConfigOutcome(outcome.GetError());
}
}
void RedisClient::DescribeAutoBackupConfigAsync(const DescribeAutoBackupConfigRequest& request, const DescribeAutoBackupConfigAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeAutoBackupConfig(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeAutoBackupConfigOutcomeCallable RedisClient::DescribeAutoBackupConfigCallable(const DescribeAutoBackupConfigRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeAutoBackupConfigOutcome()>>(
[this, request]()
{
return this->DescribeAutoBackupConfig(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeBackupDetailOutcome RedisClient::DescribeBackupDetail(const DescribeBackupDetailRequest &request)
{
auto outcome = MakeRequest(request, "DescribeBackupDetail");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeBackupDetailResponse rsp = DescribeBackupDetailResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeBackupDetailOutcome(rsp);
else
return DescribeBackupDetailOutcome(o.GetError());
}
else
{
return DescribeBackupDetailOutcome(outcome.GetError());
}
}
void RedisClient::DescribeBackupDetailAsync(const DescribeBackupDetailRequest& request, const DescribeBackupDetailAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeBackupDetail(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeBackupDetailOutcomeCallable RedisClient::DescribeBackupDetailCallable(const DescribeBackupDetailRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeBackupDetailOutcome()>>(
[this, request]()
{
return this->DescribeBackupDetail(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeBackupDownloadRestrictionOutcome RedisClient::DescribeBackupDownloadRestriction(const DescribeBackupDownloadRestrictionRequest &request)
{
auto outcome = MakeRequest(request, "DescribeBackupDownloadRestriction");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeBackupDownloadRestrictionResponse rsp = DescribeBackupDownloadRestrictionResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeBackupDownloadRestrictionOutcome(rsp);
else
return DescribeBackupDownloadRestrictionOutcome(o.GetError());
}
else
{
return DescribeBackupDownloadRestrictionOutcome(outcome.GetError());
}
}
void RedisClient::DescribeBackupDownloadRestrictionAsync(const DescribeBackupDownloadRestrictionRequest& request, const DescribeBackupDownloadRestrictionAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeBackupDownloadRestriction(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeBackupDownloadRestrictionOutcomeCallable RedisClient::DescribeBackupDownloadRestrictionCallable(const DescribeBackupDownloadRestrictionRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeBackupDownloadRestrictionOutcome()>>(
[this, request]()
{
return this->DescribeBackupDownloadRestriction(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeBackupUrlOutcome RedisClient::DescribeBackupUrl(const DescribeBackupUrlRequest &request)
{
auto outcome = MakeRequest(request, "DescribeBackupUrl");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeBackupUrlResponse rsp = DescribeBackupUrlResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeBackupUrlOutcome(rsp);
else
return DescribeBackupUrlOutcome(o.GetError());
}
else
{
return DescribeBackupUrlOutcome(outcome.GetError());
}
}
void RedisClient::DescribeBackupUrlAsync(const DescribeBackupUrlRequest& request, const DescribeBackupUrlAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeBackupUrl(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeBackupUrlOutcomeCallable RedisClient::DescribeBackupUrlCallable(const DescribeBackupUrlRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeBackupUrlOutcome()>>(
[this, request]()
{
return this->DescribeBackupUrl(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeBandwidthRangeOutcome RedisClient::DescribeBandwidthRange(const DescribeBandwidthRangeRequest &request)
{
auto outcome = MakeRequest(request, "DescribeBandwidthRange");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeBandwidthRangeResponse rsp = DescribeBandwidthRangeResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeBandwidthRangeOutcome(rsp);
else
return DescribeBandwidthRangeOutcome(o.GetError());
}
else
{
return DescribeBandwidthRangeOutcome(outcome.GetError());
}
}
void RedisClient::DescribeBandwidthRangeAsync(const DescribeBandwidthRangeRequest& request, const DescribeBandwidthRangeAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeBandwidthRange(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeBandwidthRangeOutcomeCallable RedisClient::DescribeBandwidthRangeCallable(const DescribeBandwidthRangeRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeBandwidthRangeOutcome()>>(
[this, request]()
{
return this->DescribeBandwidthRange(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeCommonDBInstancesOutcome RedisClient::DescribeCommonDBInstances(const DescribeCommonDBInstancesRequest &request)
{
auto outcome = MakeRequest(request, "DescribeCommonDBInstances");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeCommonDBInstancesResponse rsp = DescribeCommonDBInstancesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeCommonDBInstancesOutcome(rsp);
else
return DescribeCommonDBInstancesOutcome(o.GetError());
}
else
{
return DescribeCommonDBInstancesOutcome(outcome.GetError());
}
}
void RedisClient::DescribeCommonDBInstancesAsync(const DescribeCommonDBInstancesRequest& request, const DescribeCommonDBInstancesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeCommonDBInstances(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeCommonDBInstancesOutcomeCallable RedisClient::DescribeCommonDBInstancesCallable(const DescribeCommonDBInstancesRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeCommonDBInstancesOutcome()>>(
[this, request]()
{
return this->DescribeCommonDBInstances(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeDBSecurityGroupsOutcome RedisClient::DescribeDBSecurityGroups(const DescribeDBSecurityGroupsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeDBSecurityGroups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeDBSecurityGroupsResponse rsp = DescribeDBSecurityGroupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeDBSecurityGroupsOutcome(rsp);
else
return DescribeDBSecurityGroupsOutcome(o.GetError());
}
else
{
return DescribeDBSecurityGroupsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeDBSecurityGroupsAsync(const DescribeDBSecurityGroupsRequest& request, const DescribeDBSecurityGroupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeDBSecurityGroups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeDBSecurityGroupsOutcomeCallable RedisClient::DescribeDBSecurityGroupsCallable(const DescribeDBSecurityGroupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeDBSecurityGroupsOutcome()>>(
[this, request]()
{
return this->DescribeDBSecurityGroups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeGlobalReplicationAreaOutcome RedisClient::DescribeGlobalReplicationArea(const DescribeGlobalReplicationAreaRequest &request)
{
auto outcome = MakeRequest(request, "DescribeGlobalReplicationArea");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeGlobalReplicationAreaResponse rsp = DescribeGlobalReplicationAreaResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeGlobalReplicationAreaOutcome(rsp);
else
return DescribeGlobalReplicationAreaOutcome(o.GetError());
}
else
{
return DescribeGlobalReplicationAreaOutcome(outcome.GetError());
}
}
void RedisClient::DescribeGlobalReplicationAreaAsync(const DescribeGlobalReplicationAreaRequest& request, const DescribeGlobalReplicationAreaAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeGlobalReplicationArea(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeGlobalReplicationAreaOutcomeCallable RedisClient::DescribeGlobalReplicationAreaCallable(const DescribeGlobalReplicationAreaRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeGlobalReplicationAreaOutcome()>>(
[this, request]()
{
return this->DescribeGlobalReplicationArea(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceAccountOutcome RedisClient::DescribeInstanceAccount(const DescribeInstanceAccountRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceAccount");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceAccountResponse rsp = DescribeInstanceAccountResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceAccountOutcome(rsp);
else
return DescribeInstanceAccountOutcome(o.GetError());
}
else
{
return DescribeInstanceAccountOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceAccountAsync(const DescribeInstanceAccountRequest& request, const DescribeInstanceAccountAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceAccount(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceAccountOutcomeCallable RedisClient::DescribeInstanceAccountCallable(const DescribeInstanceAccountRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceAccountOutcome()>>(
[this, request]()
{
return this->DescribeInstanceAccount(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceBackupsOutcome RedisClient::DescribeInstanceBackups(const DescribeInstanceBackupsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceBackups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceBackupsResponse rsp = DescribeInstanceBackupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceBackupsOutcome(rsp);
else
return DescribeInstanceBackupsOutcome(o.GetError());
}
else
{
return DescribeInstanceBackupsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceBackupsAsync(const DescribeInstanceBackupsRequest& request, const DescribeInstanceBackupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceBackups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceBackupsOutcomeCallable RedisClient::DescribeInstanceBackupsCallable(const DescribeInstanceBackupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceBackupsOutcome()>>(
[this, request]()
{
return this->DescribeInstanceBackups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceDTSInfoOutcome RedisClient::DescribeInstanceDTSInfo(const DescribeInstanceDTSInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceDTSInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceDTSInfoResponse rsp = DescribeInstanceDTSInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceDTSInfoOutcome(rsp);
else
return DescribeInstanceDTSInfoOutcome(o.GetError());
}
else
{
return DescribeInstanceDTSInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceDTSInfoAsync(const DescribeInstanceDTSInfoRequest& request, const DescribeInstanceDTSInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceDTSInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceDTSInfoOutcomeCallable RedisClient::DescribeInstanceDTSInfoCallable(const DescribeInstanceDTSInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceDTSInfoOutcome()>>(
[this, request]()
{
return this->DescribeInstanceDTSInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceDealDetailOutcome RedisClient::DescribeInstanceDealDetail(const DescribeInstanceDealDetailRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceDealDetail");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceDealDetailResponse rsp = DescribeInstanceDealDetailResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceDealDetailOutcome(rsp);
else
return DescribeInstanceDealDetailOutcome(o.GetError());
}
else
{
return DescribeInstanceDealDetailOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceDealDetailAsync(const DescribeInstanceDealDetailRequest& request, const DescribeInstanceDealDetailAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceDealDetail(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceDealDetailOutcomeCallable RedisClient::DescribeInstanceDealDetailCallable(const DescribeInstanceDealDetailRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceDealDetailOutcome()>>(
[this, request]()
{
return this->DescribeInstanceDealDetail(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceEventsOutcome RedisClient::DescribeInstanceEvents(const DescribeInstanceEventsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceEvents");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceEventsResponse rsp = DescribeInstanceEventsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceEventsOutcome(rsp);
else
return DescribeInstanceEventsOutcome(o.GetError());
}
else
{
return DescribeInstanceEventsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceEventsAsync(const DescribeInstanceEventsRequest& request, const DescribeInstanceEventsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceEvents(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceEventsOutcomeCallable RedisClient::DescribeInstanceEventsCallable(const DescribeInstanceEventsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceEventsOutcome()>>(
[this, request]()
{
return this->DescribeInstanceEvents(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceLogDeliveryOutcome RedisClient::DescribeInstanceLogDelivery(const DescribeInstanceLogDeliveryRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceLogDelivery");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceLogDeliveryResponse rsp = DescribeInstanceLogDeliveryResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceLogDeliveryOutcome(rsp);
else
return DescribeInstanceLogDeliveryOutcome(o.GetError());
}
else
{
return DescribeInstanceLogDeliveryOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceLogDeliveryAsync(const DescribeInstanceLogDeliveryRequest& request, const DescribeInstanceLogDeliveryAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceLogDelivery(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceLogDeliveryOutcomeCallable RedisClient::DescribeInstanceLogDeliveryCallable(const DescribeInstanceLogDeliveryRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceLogDeliveryOutcome()>>(
[this, request]()
{
return this->DescribeInstanceLogDelivery(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorBigKeyOutcome RedisClient::DescribeInstanceMonitorBigKey(const DescribeInstanceMonitorBigKeyRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorBigKey");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorBigKeyResponse rsp = DescribeInstanceMonitorBigKeyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorBigKeyOutcome(rsp);
else
return DescribeInstanceMonitorBigKeyOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorBigKeyOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorBigKeyAsync(const DescribeInstanceMonitorBigKeyRequest& request, const DescribeInstanceMonitorBigKeyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorBigKey(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorBigKeyOutcomeCallable RedisClient::DescribeInstanceMonitorBigKeyCallable(const DescribeInstanceMonitorBigKeyRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorBigKeyOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorBigKey(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorBigKeySizeDistOutcome RedisClient::DescribeInstanceMonitorBigKeySizeDist(const DescribeInstanceMonitorBigKeySizeDistRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorBigKeySizeDist");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorBigKeySizeDistResponse rsp = DescribeInstanceMonitorBigKeySizeDistResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorBigKeySizeDistOutcome(rsp);
else
return DescribeInstanceMonitorBigKeySizeDistOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorBigKeySizeDistOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorBigKeySizeDistAsync(const DescribeInstanceMonitorBigKeySizeDistRequest& request, const DescribeInstanceMonitorBigKeySizeDistAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorBigKeySizeDist(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorBigKeySizeDistOutcomeCallable RedisClient::DescribeInstanceMonitorBigKeySizeDistCallable(const DescribeInstanceMonitorBigKeySizeDistRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorBigKeySizeDistOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorBigKeySizeDist(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorBigKeyTypeDistOutcome RedisClient::DescribeInstanceMonitorBigKeyTypeDist(const DescribeInstanceMonitorBigKeyTypeDistRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorBigKeyTypeDist");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorBigKeyTypeDistResponse rsp = DescribeInstanceMonitorBigKeyTypeDistResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorBigKeyTypeDistOutcome(rsp);
else
return DescribeInstanceMonitorBigKeyTypeDistOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorBigKeyTypeDistOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorBigKeyTypeDistAsync(const DescribeInstanceMonitorBigKeyTypeDistRequest& request, const DescribeInstanceMonitorBigKeyTypeDistAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorBigKeyTypeDist(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorBigKeyTypeDistOutcomeCallable RedisClient::DescribeInstanceMonitorBigKeyTypeDistCallable(const DescribeInstanceMonitorBigKeyTypeDistRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorBigKeyTypeDistOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorBigKeyTypeDist(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorHotKeyOutcome RedisClient::DescribeInstanceMonitorHotKey(const DescribeInstanceMonitorHotKeyRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorHotKey");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorHotKeyResponse rsp = DescribeInstanceMonitorHotKeyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorHotKeyOutcome(rsp);
else
return DescribeInstanceMonitorHotKeyOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorHotKeyOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorHotKeyAsync(const DescribeInstanceMonitorHotKeyRequest& request, const DescribeInstanceMonitorHotKeyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorHotKey(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorHotKeyOutcomeCallable RedisClient::DescribeInstanceMonitorHotKeyCallable(const DescribeInstanceMonitorHotKeyRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorHotKeyOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorHotKey(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorSIPOutcome RedisClient::DescribeInstanceMonitorSIP(const DescribeInstanceMonitorSIPRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorSIP");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorSIPResponse rsp = DescribeInstanceMonitorSIPResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorSIPOutcome(rsp);
else
return DescribeInstanceMonitorSIPOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorSIPOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorSIPAsync(const DescribeInstanceMonitorSIPRequest& request, const DescribeInstanceMonitorSIPAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorSIP(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorSIPOutcomeCallable RedisClient::DescribeInstanceMonitorSIPCallable(const DescribeInstanceMonitorSIPRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorSIPOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorSIP(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorTookDistOutcome RedisClient::DescribeInstanceMonitorTookDist(const DescribeInstanceMonitorTookDistRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorTookDist");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorTookDistResponse rsp = DescribeInstanceMonitorTookDistResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorTookDistOutcome(rsp);
else
return DescribeInstanceMonitorTookDistOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorTookDistOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorTookDistAsync(const DescribeInstanceMonitorTookDistRequest& request, const DescribeInstanceMonitorTookDistAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorTookDist(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorTookDistOutcomeCallable RedisClient::DescribeInstanceMonitorTookDistCallable(const DescribeInstanceMonitorTookDistRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorTookDistOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorTookDist(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorTopNCmdOutcome RedisClient::DescribeInstanceMonitorTopNCmd(const DescribeInstanceMonitorTopNCmdRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorTopNCmd");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorTopNCmdResponse rsp = DescribeInstanceMonitorTopNCmdResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorTopNCmdOutcome(rsp);
else
return DescribeInstanceMonitorTopNCmdOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorTopNCmdOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorTopNCmdAsync(const DescribeInstanceMonitorTopNCmdRequest& request, const DescribeInstanceMonitorTopNCmdAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorTopNCmd(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorTopNCmdOutcomeCallable RedisClient::DescribeInstanceMonitorTopNCmdCallable(const DescribeInstanceMonitorTopNCmdRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorTopNCmdOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorTopNCmd(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceMonitorTopNCmdTookOutcome RedisClient::DescribeInstanceMonitorTopNCmdTook(const DescribeInstanceMonitorTopNCmdTookRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceMonitorTopNCmdTook");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceMonitorTopNCmdTookResponse rsp = DescribeInstanceMonitorTopNCmdTookResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceMonitorTopNCmdTookOutcome(rsp);
else
return DescribeInstanceMonitorTopNCmdTookOutcome(o.GetError());
}
else
{
return DescribeInstanceMonitorTopNCmdTookOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceMonitorTopNCmdTookAsync(const DescribeInstanceMonitorTopNCmdTookRequest& request, const DescribeInstanceMonitorTopNCmdTookAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceMonitorTopNCmdTook(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceMonitorTopNCmdTookOutcomeCallable RedisClient::DescribeInstanceMonitorTopNCmdTookCallable(const DescribeInstanceMonitorTopNCmdTookRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceMonitorTopNCmdTookOutcome()>>(
[this, request]()
{
return this->DescribeInstanceMonitorTopNCmdTook(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceNodeInfoOutcome RedisClient::DescribeInstanceNodeInfo(const DescribeInstanceNodeInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceNodeInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceNodeInfoResponse rsp = DescribeInstanceNodeInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceNodeInfoOutcome(rsp);
else
return DescribeInstanceNodeInfoOutcome(o.GetError());
}
else
{
return DescribeInstanceNodeInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceNodeInfoAsync(const DescribeInstanceNodeInfoRequest& request, const DescribeInstanceNodeInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceNodeInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceNodeInfoOutcomeCallable RedisClient::DescribeInstanceNodeInfoCallable(const DescribeInstanceNodeInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceNodeInfoOutcome()>>(
[this, request]()
{
return this->DescribeInstanceNodeInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceParamRecordsOutcome RedisClient::DescribeInstanceParamRecords(const DescribeInstanceParamRecordsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceParamRecords");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceParamRecordsResponse rsp = DescribeInstanceParamRecordsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceParamRecordsOutcome(rsp);
else
return DescribeInstanceParamRecordsOutcome(o.GetError());
}
else
{
return DescribeInstanceParamRecordsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceParamRecordsAsync(const DescribeInstanceParamRecordsRequest& request, const DescribeInstanceParamRecordsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceParamRecords(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceParamRecordsOutcomeCallable RedisClient::DescribeInstanceParamRecordsCallable(const DescribeInstanceParamRecordsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceParamRecordsOutcome()>>(
[this, request]()
{
return this->DescribeInstanceParamRecords(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceParamsOutcome RedisClient::DescribeInstanceParams(const DescribeInstanceParamsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceParams");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceParamsResponse rsp = DescribeInstanceParamsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceParamsOutcome(rsp);
else
return DescribeInstanceParamsOutcome(o.GetError());
}
else
{
return DescribeInstanceParamsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceParamsAsync(const DescribeInstanceParamsRequest& request, const DescribeInstanceParamsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceParams(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceParamsOutcomeCallable RedisClient::DescribeInstanceParamsCallable(const DescribeInstanceParamsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceParamsOutcome()>>(
[this, request]()
{
return this->DescribeInstanceParams(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceSecurityGroupOutcome RedisClient::DescribeInstanceSecurityGroup(const DescribeInstanceSecurityGroupRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceSecurityGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceSecurityGroupResponse rsp = DescribeInstanceSecurityGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceSecurityGroupOutcome(rsp);
else
return DescribeInstanceSecurityGroupOutcome(o.GetError());
}
else
{
return DescribeInstanceSecurityGroupOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceSecurityGroupAsync(const DescribeInstanceSecurityGroupRequest& request, const DescribeInstanceSecurityGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceSecurityGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceSecurityGroupOutcomeCallable RedisClient::DescribeInstanceSecurityGroupCallable(const DescribeInstanceSecurityGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceSecurityGroupOutcome()>>(
[this, request]()
{
return this->DescribeInstanceSecurityGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceShardsOutcome RedisClient::DescribeInstanceShards(const DescribeInstanceShardsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceShards");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceShardsResponse rsp = DescribeInstanceShardsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceShardsOutcome(rsp);
else
return DescribeInstanceShardsOutcome(o.GetError());
}
else
{
return DescribeInstanceShardsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceShardsAsync(const DescribeInstanceShardsRequest& request, const DescribeInstanceShardsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceShards(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceShardsOutcomeCallable RedisClient::DescribeInstanceShardsCallable(const DescribeInstanceShardsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceShardsOutcome()>>(
[this, request]()
{
return this->DescribeInstanceShards(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceSpecBandwidthOutcome RedisClient::DescribeInstanceSpecBandwidth(const DescribeInstanceSpecBandwidthRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceSpecBandwidth");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceSpecBandwidthResponse rsp = DescribeInstanceSpecBandwidthResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceSpecBandwidthOutcome(rsp);
else
return DescribeInstanceSpecBandwidthOutcome(o.GetError());
}
else
{
return DescribeInstanceSpecBandwidthOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceSpecBandwidthAsync(const DescribeInstanceSpecBandwidthRequest& request, const DescribeInstanceSpecBandwidthAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceSpecBandwidth(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceSpecBandwidthOutcomeCallable RedisClient::DescribeInstanceSpecBandwidthCallable(const DescribeInstanceSpecBandwidthRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceSpecBandwidthOutcome()>>(
[this, request]()
{
return this->DescribeInstanceSpecBandwidth(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceSupportFeatureOutcome RedisClient::DescribeInstanceSupportFeature(const DescribeInstanceSupportFeatureRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceSupportFeature");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceSupportFeatureResponse rsp = DescribeInstanceSupportFeatureResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceSupportFeatureOutcome(rsp);
else
return DescribeInstanceSupportFeatureOutcome(o.GetError());
}
else
{
return DescribeInstanceSupportFeatureOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceSupportFeatureAsync(const DescribeInstanceSupportFeatureRequest& request, const DescribeInstanceSupportFeatureAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceSupportFeature(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceSupportFeatureOutcomeCallable RedisClient::DescribeInstanceSupportFeatureCallable(const DescribeInstanceSupportFeatureRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceSupportFeatureOutcome()>>(
[this, request]()
{
return this->DescribeInstanceSupportFeature(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstanceZoneInfoOutcome RedisClient::DescribeInstanceZoneInfo(const DescribeInstanceZoneInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstanceZoneInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstanceZoneInfoResponse rsp = DescribeInstanceZoneInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstanceZoneInfoOutcome(rsp);
else
return DescribeInstanceZoneInfoOutcome(o.GetError());
}
else
{
return DescribeInstanceZoneInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstanceZoneInfoAsync(const DescribeInstanceZoneInfoRequest& request, const DescribeInstanceZoneInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstanceZoneInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstanceZoneInfoOutcomeCallable RedisClient::DescribeInstanceZoneInfoCallable(const DescribeInstanceZoneInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstanceZoneInfoOutcome()>>(
[this, request]()
{
return this->DescribeInstanceZoneInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeInstancesOutcome RedisClient::DescribeInstances(const DescribeInstancesRequest &request)
{
auto outcome = MakeRequest(request, "DescribeInstances");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeInstancesResponse rsp = DescribeInstancesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeInstancesOutcome(rsp);
else
return DescribeInstancesOutcome(o.GetError());
}
else
{
return DescribeInstancesOutcome(outcome.GetError());
}
}
void RedisClient::DescribeInstancesAsync(const DescribeInstancesRequest& request, const DescribeInstancesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeInstances(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeInstancesOutcomeCallable RedisClient::DescribeInstancesCallable(const DescribeInstancesRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeInstancesOutcome()>>(
[this, request]()
{
return this->DescribeInstances(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeMaintenanceWindowOutcome RedisClient::DescribeMaintenanceWindow(const DescribeMaintenanceWindowRequest &request)
{
auto outcome = MakeRequest(request, "DescribeMaintenanceWindow");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeMaintenanceWindowResponse rsp = DescribeMaintenanceWindowResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeMaintenanceWindowOutcome(rsp);
else
return DescribeMaintenanceWindowOutcome(o.GetError());
}
else
{
return DescribeMaintenanceWindowOutcome(outcome.GetError());
}
}
void RedisClient::DescribeMaintenanceWindowAsync(const DescribeMaintenanceWindowRequest& request, const DescribeMaintenanceWindowAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeMaintenanceWindow(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeMaintenanceWindowOutcomeCallable RedisClient::DescribeMaintenanceWindowCallable(const DescribeMaintenanceWindowRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeMaintenanceWindowOutcome()>>(
[this, request]()
{
return this->DescribeMaintenanceWindow(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeParamTemplateInfoOutcome RedisClient::DescribeParamTemplateInfo(const DescribeParamTemplateInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeParamTemplateInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeParamTemplateInfoResponse rsp = DescribeParamTemplateInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeParamTemplateInfoOutcome(rsp);
else
return DescribeParamTemplateInfoOutcome(o.GetError());
}
else
{
return DescribeParamTemplateInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeParamTemplateInfoAsync(const DescribeParamTemplateInfoRequest& request, const DescribeParamTemplateInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeParamTemplateInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeParamTemplateInfoOutcomeCallable RedisClient::DescribeParamTemplateInfoCallable(const DescribeParamTemplateInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeParamTemplateInfoOutcome()>>(
[this, request]()
{
return this->DescribeParamTemplateInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeParamTemplatesOutcome RedisClient::DescribeParamTemplates(const DescribeParamTemplatesRequest &request)
{
auto outcome = MakeRequest(request, "DescribeParamTemplates");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeParamTemplatesResponse rsp = DescribeParamTemplatesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeParamTemplatesOutcome(rsp);
else
return DescribeParamTemplatesOutcome(o.GetError());
}
else
{
return DescribeParamTemplatesOutcome(outcome.GetError());
}
}
void RedisClient::DescribeParamTemplatesAsync(const DescribeParamTemplatesRequest& request, const DescribeParamTemplatesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeParamTemplates(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeParamTemplatesOutcomeCallable RedisClient::DescribeParamTemplatesCallable(const DescribeParamTemplatesRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeParamTemplatesOutcome()>>(
[this, request]()
{
return this->DescribeParamTemplates(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeProductInfoOutcome RedisClient::DescribeProductInfo(const DescribeProductInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeProductInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeProductInfoResponse rsp = DescribeProductInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeProductInfoOutcome(rsp);
else
return DescribeProductInfoOutcome(o.GetError());
}
else
{
return DescribeProductInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeProductInfoAsync(const DescribeProductInfoRequest& request, const DescribeProductInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeProductInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeProductInfoOutcomeCallable RedisClient::DescribeProductInfoCallable(const DescribeProductInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeProductInfoOutcome()>>(
[this, request]()
{
return this->DescribeProductInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeProjectSecurityGroupOutcome RedisClient::DescribeProjectSecurityGroup(const DescribeProjectSecurityGroupRequest &request)
{
auto outcome = MakeRequest(request, "DescribeProjectSecurityGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeProjectSecurityGroupResponse rsp = DescribeProjectSecurityGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeProjectSecurityGroupOutcome(rsp);
else
return DescribeProjectSecurityGroupOutcome(o.GetError());
}
else
{
return DescribeProjectSecurityGroupOutcome(outcome.GetError());
}
}
void RedisClient::DescribeProjectSecurityGroupAsync(const DescribeProjectSecurityGroupRequest& request, const DescribeProjectSecurityGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeProjectSecurityGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeProjectSecurityGroupOutcomeCallable RedisClient::DescribeProjectSecurityGroupCallable(const DescribeProjectSecurityGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeProjectSecurityGroupOutcome()>>(
[this, request]()
{
return this->DescribeProjectSecurityGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeProjectSecurityGroupsOutcome RedisClient::DescribeProjectSecurityGroups(const DescribeProjectSecurityGroupsRequest &request)
{
auto outcome = MakeRequest(request, "DescribeProjectSecurityGroups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeProjectSecurityGroupsResponse rsp = DescribeProjectSecurityGroupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeProjectSecurityGroupsOutcome(rsp);
else
return DescribeProjectSecurityGroupsOutcome(o.GetError());
}
else
{
return DescribeProjectSecurityGroupsOutcome(outcome.GetError());
}
}
void RedisClient::DescribeProjectSecurityGroupsAsync(const DescribeProjectSecurityGroupsRequest& request, const DescribeProjectSecurityGroupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeProjectSecurityGroups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeProjectSecurityGroupsOutcomeCallable RedisClient::DescribeProjectSecurityGroupsCallable(const DescribeProjectSecurityGroupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeProjectSecurityGroupsOutcome()>>(
[this, request]()
{
return this->DescribeProjectSecurityGroups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeProxySlowLogOutcome RedisClient::DescribeProxySlowLog(const DescribeProxySlowLogRequest &request)
{
auto outcome = MakeRequest(request, "DescribeProxySlowLog");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeProxySlowLogResponse rsp = DescribeProxySlowLogResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeProxySlowLogOutcome(rsp);
else
return DescribeProxySlowLogOutcome(o.GetError());
}
else
{
return DescribeProxySlowLogOutcome(outcome.GetError());
}
}
void RedisClient::DescribeProxySlowLogAsync(const DescribeProxySlowLogRequest& request, const DescribeProxySlowLogAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeProxySlowLog(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeProxySlowLogOutcomeCallable RedisClient::DescribeProxySlowLogCallable(const DescribeProxySlowLogRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeProxySlowLogOutcome()>>(
[this, request]()
{
return this->DescribeProxySlowLog(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeRedisClusterOverviewOutcome RedisClient::DescribeRedisClusterOverview(const DescribeRedisClusterOverviewRequest &request)
{
auto outcome = MakeRequest(request, "DescribeRedisClusterOverview");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeRedisClusterOverviewResponse rsp = DescribeRedisClusterOverviewResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeRedisClusterOverviewOutcome(rsp);
else
return DescribeRedisClusterOverviewOutcome(o.GetError());
}
else
{
return DescribeRedisClusterOverviewOutcome(outcome.GetError());
}
}
void RedisClient::DescribeRedisClusterOverviewAsync(const DescribeRedisClusterOverviewRequest& request, const DescribeRedisClusterOverviewAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeRedisClusterOverview(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeRedisClusterOverviewOutcomeCallable RedisClient::DescribeRedisClusterOverviewCallable(const DescribeRedisClusterOverviewRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeRedisClusterOverviewOutcome()>>(
[this, request]()
{
return this->DescribeRedisClusterOverview(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeRedisClustersOutcome RedisClient::DescribeRedisClusters(const DescribeRedisClustersRequest &request)
{
auto outcome = MakeRequest(request, "DescribeRedisClusters");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeRedisClustersResponse rsp = DescribeRedisClustersResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeRedisClustersOutcome(rsp);
else
return DescribeRedisClustersOutcome(o.GetError());
}
else
{
return DescribeRedisClustersOutcome(outcome.GetError());
}
}
void RedisClient::DescribeRedisClustersAsync(const DescribeRedisClustersRequest& request, const DescribeRedisClustersAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeRedisClusters(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeRedisClustersOutcomeCallable RedisClient::DescribeRedisClustersCallable(const DescribeRedisClustersRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeRedisClustersOutcome()>>(
[this, request]()
{
return this->DescribeRedisClusters(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeReplicationGroupOutcome RedisClient::DescribeReplicationGroup(const DescribeReplicationGroupRequest &request)
{
auto outcome = MakeRequest(request, "DescribeReplicationGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeReplicationGroupResponse rsp = DescribeReplicationGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeReplicationGroupOutcome(rsp);
else
return DescribeReplicationGroupOutcome(o.GetError());
}
else
{
return DescribeReplicationGroupOutcome(outcome.GetError());
}
}
void RedisClient::DescribeReplicationGroupAsync(const DescribeReplicationGroupRequest& request, const DescribeReplicationGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeReplicationGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeReplicationGroupOutcomeCallable RedisClient::DescribeReplicationGroupCallable(const DescribeReplicationGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeReplicationGroupOutcome()>>(
[this, request]()
{
return this->DescribeReplicationGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeReplicationGroupInstanceOutcome RedisClient::DescribeReplicationGroupInstance(const DescribeReplicationGroupInstanceRequest &request)
{
auto outcome = MakeRequest(request, "DescribeReplicationGroupInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeReplicationGroupInstanceResponse rsp = DescribeReplicationGroupInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeReplicationGroupInstanceOutcome(rsp);
else
return DescribeReplicationGroupInstanceOutcome(o.GetError());
}
else
{
return DescribeReplicationGroupInstanceOutcome(outcome.GetError());
}
}
void RedisClient::DescribeReplicationGroupInstanceAsync(const DescribeReplicationGroupInstanceRequest& request, const DescribeReplicationGroupInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeReplicationGroupInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeReplicationGroupInstanceOutcomeCallable RedisClient::DescribeReplicationGroupInstanceCallable(const DescribeReplicationGroupInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeReplicationGroupInstanceOutcome()>>(
[this, request]()
{
return this->DescribeReplicationGroupInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeSSLStatusOutcome RedisClient::DescribeSSLStatus(const DescribeSSLStatusRequest &request)
{
auto outcome = MakeRequest(request, "DescribeSSLStatus");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeSSLStatusResponse rsp = DescribeSSLStatusResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeSSLStatusOutcome(rsp);
else
return DescribeSSLStatusOutcome(o.GetError());
}
else
{
return DescribeSSLStatusOutcome(outcome.GetError());
}
}
void RedisClient::DescribeSSLStatusAsync(const DescribeSSLStatusRequest& request, const DescribeSSLStatusAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeSSLStatus(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeSSLStatusOutcomeCallable RedisClient::DescribeSSLStatusCallable(const DescribeSSLStatusRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeSSLStatusOutcome()>>(
[this, request]()
{
return this->DescribeSSLStatus(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeSecondLevelBackupInfoOutcome RedisClient::DescribeSecondLevelBackupInfo(const DescribeSecondLevelBackupInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeSecondLevelBackupInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeSecondLevelBackupInfoResponse rsp = DescribeSecondLevelBackupInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeSecondLevelBackupInfoOutcome(rsp);
else
return DescribeSecondLevelBackupInfoOutcome(o.GetError());
}
else
{
return DescribeSecondLevelBackupInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeSecondLevelBackupInfoAsync(const DescribeSecondLevelBackupInfoRequest& request, const DescribeSecondLevelBackupInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeSecondLevelBackupInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeSecondLevelBackupInfoOutcomeCallable RedisClient::DescribeSecondLevelBackupInfoCallable(const DescribeSecondLevelBackupInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeSecondLevelBackupInfoOutcome()>>(
[this, request]()
{
return this->DescribeSecondLevelBackupInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeSlowLogOutcome RedisClient::DescribeSlowLog(const DescribeSlowLogRequest &request)
{
auto outcome = MakeRequest(request, "DescribeSlowLog");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeSlowLogResponse rsp = DescribeSlowLogResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeSlowLogOutcome(rsp);
else
return DescribeSlowLogOutcome(o.GetError());
}
else
{
return DescribeSlowLogOutcome(outcome.GetError());
}
}
void RedisClient::DescribeSlowLogAsync(const DescribeSlowLogRequest& request, const DescribeSlowLogAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeSlowLog(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeSlowLogOutcomeCallable RedisClient::DescribeSlowLogCallable(const DescribeSlowLogRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeSlowLogOutcome()>>(
[this, request]()
{
return this->DescribeSlowLog(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeTaskInfoOutcome RedisClient::DescribeTaskInfo(const DescribeTaskInfoRequest &request)
{
auto outcome = MakeRequest(request, "DescribeTaskInfo");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeTaskInfoResponse rsp = DescribeTaskInfoResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeTaskInfoOutcome(rsp);
else
return DescribeTaskInfoOutcome(o.GetError());
}
else
{
return DescribeTaskInfoOutcome(outcome.GetError());
}
}
void RedisClient::DescribeTaskInfoAsync(const DescribeTaskInfoRequest& request, const DescribeTaskInfoAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeTaskInfo(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeTaskInfoOutcomeCallable RedisClient::DescribeTaskInfoCallable(const DescribeTaskInfoRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeTaskInfoOutcome()>>(
[this, request]()
{
return this->DescribeTaskInfo(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeTaskListOutcome RedisClient::DescribeTaskList(const DescribeTaskListRequest &request)
{
auto outcome = MakeRequest(request, "DescribeTaskList");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeTaskListResponse rsp = DescribeTaskListResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeTaskListOutcome(rsp);
else
return DescribeTaskListOutcome(o.GetError());
}
else
{
return DescribeTaskListOutcome(outcome.GetError());
}
}
void RedisClient::DescribeTaskListAsync(const DescribeTaskListRequest& request, const DescribeTaskListAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeTaskList(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeTaskListOutcomeCallable RedisClient::DescribeTaskListCallable(const DescribeTaskListRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeTaskListOutcome()>>(
[this, request]()
{
return this->DescribeTaskList(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DescribeTendisSlowLogOutcome RedisClient::DescribeTendisSlowLog(const DescribeTendisSlowLogRequest &request)
{
auto outcome = MakeRequest(request, "DescribeTendisSlowLog");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DescribeTendisSlowLogResponse rsp = DescribeTendisSlowLogResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DescribeTendisSlowLogOutcome(rsp);
else
return DescribeTendisSlowLogOutcome(o.GetError());
}
else
{
return DescribeTendisSlowLogOutcome(outcome.GetError());
}
}
void RedisClient::DescribeTendisSlowLogAsync(const DescribeTendisSlowLogRequest& request, const DescribeTendisSlowLogAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DescribeTendisSlowLog(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DescribeTendisSlowLogOutcomeCallable RedisClient::DescribeTendisSlowLogCallable(const DescribeTendisSlowLogRequest &request)
{
auto task = std::make_shared<std::packaged_task<DescribeTendisSlowLogOutcome()>>(
[this, request]()
{
return this->DescribeTendisSlowLog(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DestroyPostpaidInstanceOutcome RedisClient::DestroyPostpaidInstance(const DestroyPostpaidInstanceRequest &request)
{
auto outcome = MakeRequest(request, "DestroyPostpaidInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DestroyPostpaidInstanceResponse rsp = DestroyPostpaidInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DestroyPostpaidInstanceOutcome(rsp);
else
return DestroyPostpaidInstanceOutcome(o.GetError());
}
else
{
return DestroyPostpaidInstanceOutcome(outcome.GetError());
}
}
void RedisClient::DestroyPostpaidInstanceAsync(const DestroyPostpaidInstanceRequest& request, const DestroyPostpaidInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DestroyPostpaidInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DestroyPostpaidInstanceOutcomeCallable RedisClient::DestroyPostpaidInstanceCallable(const DestroyPostpaidInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<DestroyPostpaidInstanceOutcome()>>(
[this, request]()
{
return this->DestroyPostpaidInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DestroyPrepaidInstanceOutcome RedisClient::DestroyPrepaidInstance(const DestroyPrepaidInstanceRequest &request)
{
auto outcome = MakeRequest(request, "DestroyPrepaidInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DestroyPrepaidInstanceResponse rsp = DestroyPrepaidInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DestroyPrepaidInstanceOutcome(rsp);
else
return DestroyPrepaidInstanceOutcome(o.GetError());
}
else
{
return DestroyPrepaidInstanceOutcome(outcome.GetError());
}
}
void RedisClient::DestroyPrepaidInstanceAsync(const DestroyPrepaidInstanceRequest& request, const DestroyPrepaidInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DestroyPrepaidInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DestroyPrepaidInstanceOutcomeCallable RedisClient::DestroyPrepaidInstanceCallable(const DestroyPrepaidInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<DestroyPrepaidInstanceOutcome()>>(
[this, request]()
{
return this->DestroyPrepaidInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DisableReplicaReadonlyOutcome RedisClient::DisableReplicaReadonly(const DisableReplicaReadonlyRequest &request)
{
auto outcome = MakeRequest(request, "DisableReplicaReadonly");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DisableReplicaReadonlyResponse rsp = DisableReplicaReadonlyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DisableReplicaReadonlyOutcome(rsp);
else
return DisableReplicaReadonlyOutcome(o.GetError());
}
else
{
return DisableReplicaReadonlyOutcome(outcome.GetError());
}
}
void RedisClient::DisableReplicaReadonlyAsync(const DisableReplicaReadonlyRequest& request, const DisableReplicaReadonlyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DisableReplicaReadonly(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DisableReplicaReadonlyOutcomeCallable RedisClient::DisableReplicaReadonlyCallable(const DisableReplicaReadonlyRequest &request)
{
auto task = std::make_shared<std::packaged_task<DisableReplicaReadonlyOutcome()>>(
[this, request]()
{
return this->DisableReplicaReadonly(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::DisassociateSecurityGroupsOutcome RedisClient::DisassociateSecurityGroups(const DisassociateSecurityGroupsRequest &request)
{
auto outcome = MakeRequest(request, "DisassociateSecurityGroups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
DisassociateSecurityGroupsResponse rsp = DisassociateSecurityGroupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return DisassociateSecurityGroupsOutcome(rsp);
else
return DisassociateSecurityGroupsOutcome(o.GetError());
}
else
{
return DisassociateSecurityGroupsOutcome(outcome.GetError());
}
}
void RedisClient::DisassociateSecurityGroupsAsync(const DisassociateSecurityGroupsRequest& request, const DisassociateSecurityGroupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->DisassociateSecurityGroups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::DisassociateSecurityGroupsOutcomeCallable RedisClient::DisassociateSecurityGroupsCallable(const DisassociateSecurityGroupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<DisassociateSecurityGroupsOutcome()>>(
[this, request]()
{
return this->DisassociateSecurityGroups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::EnableReplicaReadonlyOutcome RedisClient::EnableReplicaReadonly(const EnableReplicaReadonlyRequest &request)
{
auto outcome = MakeRequest(request, "EnableReplicaReadonly");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
EnableReplicaReadonlyResponse rsp = EnableReplicaReadonlyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return EnableReplicaReadonlyOutcome(rsp);
else
return EnableReplicaReadonlyOutcome(o.GetError());
}
else
{
return EnableReplicaReadonlyOutcome(outcome.GetError());
}
}
void RedisClient::EnableReplicaReadonlyAsync(const EnableReplicaReadonlyRequest& request, const EnableReplicaReadonlyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->EnableReplicaReadonly(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::EnableReplicaReadonlyOutcomeCallable RedisClient::EnableReplicaReadonlyCallable(const EnableReplicaReadonlyRequest &request)
{
auto task = std::make_shared<std::packaged_task<EnableReplicaReadonlyOutcome()>>(
[this, request]()
{
return this->EnableReplicaReadonly(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::InquiryPriceCreateInstanceOutcome RedisClient::InquiryPriceCreateInstance(const InquiryPriceCreateInstanceRequest &request)
{
auto outcome = MakeRequest(request, "InquiryPriceCreateInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
InquiryPriceCreateInstanceResponse rsp = InquiryPriceCreateInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return InquiryPriceCreateInstanceOutcome(rsp);
else
return InquiryPriceCreateInstanceOutcome(o.GetError());
}
else
{
return InquiryPriceCreateInstanceOutcome(outcome.GetError());
}
}
void RedisClient::InquiryPriceCreateInstanceAsync(const InquiryPriceCreateInstanceRequest& request, const InquiryPriceCreateInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->InquiryPriceCreateInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::InquiryPriceCreateInstanceOutcomeCallable RedisClient::InquiryPriceCreateInstanceCallable(const InquiryPriceCreateInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<InquiryPriceCreateInstanceOutcome()>>(
[this, request]()
{
return this->InquiryPriceCreateInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::InquiryPriceRenewInstanceOutcome RedisClient::InquiryPriceRenewInstance(const InquiryPriceRenewInstanceRequest &request)
{
auto outcome = MakeRequest(request, "InquiryPriceRenewInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
InquiryPriceRenewInstanceResponse rsp = InquiryPriceRenewInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return InquiryPriceRenewInstanceOutcome(rsp);
else
return InquiryPriceRenewInstanceOutcome(o.GetError());
}
else
{
return InquiryPriceRenewInstanceOutcome(outcome.GetError());
}
}
void RedisClient::InquiryPriceRenewInstanceAsync(const InquiryPriceRenewInstanceRequest& request, const InquiryPriceRenewInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->InquiryPriceRenewInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::InquiryPriceRenewInstanceOutcomeCallable RedisClient::InquiryPriceRenewInstanceCallable(const InquiryPriceRenewInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<InquiryPriceRenewInstanceOutcome()>>(
[this, request]()
{
return this->InquiryPriceRenewInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::InquiryPriceUpgradeInstanceOutcome RedisClient::InquiryPriceUpgradeInstance(const InquiryPriceUpgradeInstanceRequest &request)
{
auto outcome = MakeRequest(request, "InquiryPriceUpgradeInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
InquiryPriceUpgradeInstanceResponse rsp = InquiryPriceUpgradeInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return InquiryPriceUpgradeInstanceOutcome(rsp);
else
return InquiryPriceUpgradeInstanceOutcome(o.GetError());
}
else
{
return InquiryPriceUpgradeInstanceOutcome(outcome.GetError());
}
}
void RedisClient::InquiryPriceUpgradeInstanceAsync(const InquiryPriceUpgradeInstanceRequest& request, const InquiryPriceUpgradeInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->InquiryPriceUpgradeInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::InquiryPriceUpgradeInstanceOutcomeCallable RedisClient::InquiryPriceUpgradeInstanceCallable(const InquiryPriceUpgradeInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<InquiryPriceUpgradeInstanceOutcome()>>(
[this, request]()
{
return this->InquiryPriceUpgradeInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::KillMasterGroupOutcome RedisClient::KillMasterGroup(const KillMasterGroupRequest &request)
{
auto outcome = MakeRequest(request, "KillMasterGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
KillMasterGroupResponse rsp = KillMasterGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return KillMasterGroupOutcome(rsp);
else
return KillMasterGroupOutcome(o.GetError());
}
else
{
return KillMasterGroupOutcome(outcome.GetError());
}
}
void RedisClient::KillMasterGroupAsync(const KillMasterGroupRequest& request, const KillMasterGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->KillMasterGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::KillMasterGroupOutcomeCallable RedisClient::KillMasterGroupCallable(const KillMasterGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<KillMasterGroupOutcome()>>(
[this, request]()
{
return this->KillMasterGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ManualBackupInstanceOutcome RedisClient::ManualBackupInstance(const ManualBackupInstanceRequest &request)
{
auto outcome = MakeRequest(request, "ManualBackupInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ManualBackupInstanceResponse rsp = ManualBackupInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ManualBackupInstanceOutcome(rsp);
else
return ManualBackupInstanceOutcome(o.GetError());
}
else
{
return ManualBackupInstanceOutcome(outcome.GetError());
}
}
void RedisClient::ManualBackupInstanceAsync(const ManualBackupInstanceRequest& request, const ManualBackupInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ManualBackupInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ManualBackupInstanceOutcomeCallable RedisClient::ManualBackupInstanceCallable(const ManualBackupInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<ManualBackupInstanceOutcome()>>(
[this, request]()
{
return this->ManualBackupInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModfiyInstancePasswordOutcome RedisClient::ModfiyInstancePassword(const ModfiyInstancePasswordRequest &request)
{
auto outcome = MakeRequest(request, "ModfiyInstancePassword");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModfiyInstancePasswordResponse rsp = ModfiyInstancePasswordResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModfiyInstancePasswordOutcome(rsp);
else
return ModfiyInstancePasswordOutcome(o.GetError());
}
else
{
return ModfiyInstancePasswordOutcome(outcome.GetError());
}
}
void RedisClient::ModfiyInstancePasswordAsync(const ModfiyInstancePasswordRequest& request, const ModfiyInstancePasswordAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModfiyInstancePassword(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModfiyInstancePasswordOutcomeCallable RedisClient::ModfiyInstancePasswordCallable(const ModfiyInstancePasswordRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModfiyInstancePasswordOutcome()>>(
[this, request]()
{
return this->ModfiyInstancePassword(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyAutoBackupConfigOutcome RedisClient::ModifyAutoBackupConfig(const ModifyAutoBackupConfigRequest &request)
{
auto outcome = MakeRequest(request, "ModifyAutoBackupConfig");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyAutoBackupConfigResponse rsp = ModifyAutoBackupConfigResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyAutoBackupConfigOutcome(rsp);
else
return ModifyAutoBackupConfigOutcome(o.GetError());
}
else
{
return ModifyAutoBackupConfigOutcome(outcome.GetError());
}
}
void RedisClient::ModifyAutoBackupConfigAsync(const ModifyAutoBackupConfigRequest& request, const ModifyAutoBackupConfigAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyAutoBackupConfig(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyAutoBackupConfigOutcomeCallable RedisClient::ModifyAutoBackupConfigCallable(const ModifyAutoBackupConfigRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyAutoBackupConfigOutcome()>>(
[this, request]()
{
return this->ModifyAutoBackupConfig(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyBackupDownloadRestrictionOutcome RedisClient::ModifyBackupDownloadRestriction(const ModifyBackupDownloadRestrictionRequest &request)
{
auto outcome = MakeRequest(request, "ModifyBackupDownloadRestriction");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyBackupDownloadRestrictionResponse rsp = ModifyBackupDownloadRestrictionResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyBackupDownloadRestrictionOutcome(rsp);
else
return ModifyBackupDownloadRestrictionOutcome(o.GetError());
}
else
{
return ModifyBackupDownloadRestrictionOutcome(outcome.GetError());
}
}
void RedisClient::ModifyBackupDownloadRestrictionAsync(const ModifyBackupDownloadRestrictionRequest& request, const ModifyBackupDownloadRestrictionAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyBackupDownloadRestriction(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyBackupDownloadRestrictionOutcomeCallable RedisClient::ModifyBackupDownloadRestrictionCallable(const ModifyBackupDownloadRestrictionRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyBackupDownloadRestrictionOutcome()>>(
[this, request]()
{
return this->ModifyBackupDownloadRestriction(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyConnectionConfigOutcome RedisClient::ModifyConnectionConfig(const ModifyConnectionConfigRequest &request)
{
auto outcome = MakeRequest(request, "ModifyConnectionConfig");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyConnectionConfigResponse rsp = ModifyConnectionConfigResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyConnectionConfigOutcome(rsp);
else
return ModifyConnectionConfigOutcome(o.GetError());
}
else
{
return ModifyConnectionConfigOutcome(outcome.GetError());
}
}
void RedisClient::ModifyConnectionConfigAsync(const ModifyConnectionConfigRequest& request, const ModifyConnectionConfigAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyConnectionConfig(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyConnectionConfigOutcomeCallable RedisClient::ModifyConnectionConfigCallable(const ModifyConnectionConfigRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyConnectionConfigOutcome()>>(
[this, request]()
{
return this->ModifyConnectionConfig(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyDBInstanceSecurityGroupsOutcome RedisClient::ModifyDBInstanceSecurityGroups(const ModifyDBInstanceSecurityGroupsRequest &request)
{
auto outcome = MakeRequest(request, "ModifyDBInstanceSecurityGroups");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyDBInstanceSecurityGroupsResponse rsp = ModifyDBInstanceSecurityGroupsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyDBInstanceSecurityGroupsOutcome(rsp);
else
return ModifyDBInstanceSecurityGroupsOutcome(o.GetError());
}
else
{
return ModifyDBInstanceSecurityGroupsOutcome(outcome.GetError());
}
}
void RedisClient::ModifyDBInstanceSecurityGroupsAsync(const ModifyDBInstanceSecurityGroupsRequest& request, const ModifyDBInstanceSecurityGroupsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyDBInstanceSecurityGroups(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyDBInstanceSecurityGroupsOutcomeCallable RedisClient::ModifyDBInstanceSecurityGroupsCallable(const ModifyDBInstanceSecurityGroupsRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyDBInstanceSecurityGroupsOutcome()>>(
[this, request]()
{
return this->ModifyDBInstanceSecurityGroups(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceOutcome RedisClient::ModifyInstance(const ModifyInstanceRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceResponse rsp = ModifyInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceOutcome(rsp);
else
return ModifyInstanceOutcome(o.GetError());
}
else
{
return ModifyInstanceOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceAsync(const ModifyInstanceRequest& request, const ModifyInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceOutcomeCallable RedisClient::ModifyInstanceCallable(const ModifyInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceOutcome()>>(
[this, request]()
{
return this->ModifyInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceAccountOutcome RedisClient::ModifyInstanceAccount(const ModifyInstanceAccountRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceAccount");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceAccountResponse rsp = ModifyInstanceAccountResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceAccountOutcome(rsp);
else
return ModifyInstanceAccountOutcome(o.GetError());
}
else
{
return ModifyInstanceAccountOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceAccountAsync(const ModifyInstanceAccountRequest& request, const ModifyInstanceAccountAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceAccount(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceAccountOutcomeCallable RedisClient::ModifyInstanceAccountCallable(const ModifyInstanceAccountRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceAccountOutcome()>>(
[this, request]()
{
return this->ModifyInstanceAccount(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceAvailabilityZonesOutcome RedisClient::ModifyInstanceAvailabilityZones(const ModifyInstanceAvailabilityZonesRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceAvailabilityZones");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceAvailabilityZonesResponse rsp = ModifyInstanceAvailabilityZonesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceAvailabilityZonesOutcome(rsp);
else
return ModifyInstanceAvailabilityZonesOutcome(o.GetError());
}
else
{
return ModifyInstanceAvailabilityZonesOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceAvailabilityZonesAsync(const ModifyInstanceAvailabilityZonesRequest& request, const ModifyInstanceAvailabilityZonesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceAvailabilityZones(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceAvailabilityZonesOutcomeCallable RedisClient::ModifyInstanceAvailabilityZonesCallable(const ModifyInstanceAvailabilityZonesRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceAvailabilityZonesOutcome()>>(
[this, request]()
{
return this->ModifyInstanceAvailabilityZones(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceBackupModeOutcome RedisClient::ModifyInstanceBackupMode(const ModifyInstanceBackupModeRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceBackupMode");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceBackupModeResponse rsp = ModifyInstanceBackupModeResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceBackupModeOutcome(rsp);
else
return ModifyInstanceBackupModeOutcome(o.GetError());
}
else
{
return ModifyInstanceBackupModeOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceBackupModeAsync(const ModifyInstanceBackupModeRequest& request, const ModifyInstanceBackupModeAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceBackupMode(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceBackupModeOutcomeCallable RedisClient::ModifyInstanceBackupModeCallable(const ModifyInstanceBackupModeRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceBackupModeOutcome()>>(
[this, request]()
{
return this->ModifyInstanceBackupMode(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceEventOutcome RedisClient::ModifyInstanceEvent(const ModifyInstanceEventRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceEvent");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceEventResponse rsp = ModifyInstanceEventResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceEventOutcome(rsp);
else
return ModifyInstanceEventOutcome(o.GetError());
}
else
{
return ModifyInstanceEventOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceEventAsync(const ModifyInstanceEventRequest& request, const ModifyInstanceEventAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceEvent(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceEventOutcomeCallable RedisClient::ModifyInstanceEventCallable(const ModifyInstanceEventRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceEventOutcome()>>(
[this, request]()
{
return this->ModifyInstanceEvent(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceLogDeliveryOutcome RedisClient::ModifyInstanceLogDelivery(const ModifyInstanceLogDeliveryRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceLogDelivery");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceLogDeliveryResponse rsp = ModifyInstanceLogDeliveryResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceLogDeliveryOutcome(rsp);
else
return ModifyInstanceLogDeliveryOutcome(o.GetError());
}
else
{
return ModifyInstanceLogDeliveryOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceLogDeliveryAsync(const ModifyInstanceLogDeliveryRequest& request, const ModifyInstanceLogDeliveryAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceLogDelivery(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceLogDeliveryOutcomeCallable RedisClient::ModifyInstanceLogDeliveryCallable(const ModifyInstanceLogDeliveryRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceLogDeliveryOutcome()>>(
[this, request]()
{
return this->ModifyInstanceLogDelivery(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceParamsOutcome RedisClient::ModifyInstanceParams(const ModifyInstanceParamsRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceParams");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceParamsResponse rsp = ModifyInstanceParamsResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceParamsOutcome(rsp);
else
return ModifyInstanceParamsOutcome(o.GetError());
}
else
{
return ModifyInstanceParamsOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceParamsAsync(const ModifyInstanceParamsRequest& request, const ModifyInstanceParamsAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceParams(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceParamsOutcomeCallable RedisClient::ModifyInstanceParamsCallable(const ModifyInstanceParamsRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceParamsOutcome()>>(
[this, request]()
{
return this->ModifyInstanceParams(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstancePasswordOutcome RedisClient::ModifyInstancePassword(const ModifyInstancePasswordRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstancePassword");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstancePasswordResponse rsp = ModifyInstancePasswordResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstancePasswordOutcome(rsp);
else
return ModifyInstancePasswordOutcome(o.GetError());
}
else
{
return ModifyInstancePasswordOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstancePasswordAsync(const ModifyInstancePasswordRequest& request, const ModifyInstancePasswordAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstancePassword(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstancePasswordOutcomeCallable RedisClient::ModifyInstancePasswordCallable(const ModifyInstancePasswordRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstancePasswordOutcome()>>(
[this, request]()
{
return this->ModifyInstancePassword(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyInstanceReadOnlyOutcome RedisClient::ModifyInstanceReadOnly(const ModifyInstanceReadOnlyRequest &request)
{
auto outcome = MakeRequest(request, "ModifyInstanceReadOnly");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyInstanceReadOnlyResponse rsp = ModifyInstanceReadOnlyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyInstanceReadOnlyOutcome(rsp);
else
return ModifyInstanceReadOnlyOutcome(o.GetError());
}
else
{
return ModifyInstanceReadOnlyOutcome(outcome.GetError());
}
}
void RedisClient::ModifyInstanceReadOnlyAsync(const ModifyInstanceReadOnlyRequest& request, const ModifyInstanceReadOnlyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyInstanceReadOnly(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyInstanceReadOnlyOutcomeCallable RedisClient::ModifyInstanceReadOnlyCallable(const ModifyInstanceReadOnlyRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyInstanceReadOnlyOutcome()>>(
[this, request]()
{
return this->ModifyInstanceReadOnly(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyMaintenanceWindowOutcome RedisClient::ModifyMaintenanceWindow(const ModifyMaintenanceWindowRequest &request)
{
auto outcome = MakeRequest(request, "ModifyMaintenanceWindow");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyMaintenanceWindowResponse rsp = ModifyMaintenanceWindowResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyMaintenanceWindowOutcome(rsp);
else
return ModifyMaintenanceWindowOutcome(o.GetError());
}
else
{
return ModifyMaintenanceWindowOutcome(outcome.GetError());
}
}
void RedisClient::ModifyMaintenanceWindowAsync(const ModifyMaintenanceWindowRequest& request, const ModifyMaintenanceWindowAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyMaintenanceWindow(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyMaintenanceWindowOutcomeCallable RedisClient::ModifyMaintenanceWindowCallable(const ModifyMaintenanceWindowRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyMaintenanceWindowOutcome()>>(
[this, request]()
{
return this->ModifyMaintenanceWindow(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyNetworkConfigOutcome RedisClient::ModifyNetworkConfig(const ModifyNetworkConfigRequest &request)
{
auto outcome = MakeRequest(request, "ModifyNetworkConfig");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyNetworkConfigResponse rsp = ModifyNetworkConfigResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyNetworkConfigOutcome(rsp);
else
return ModifyNetworkConfigOutcome(o.GetError());
}
else
{
return ModifyNetworkConfigOutcome(outcome.GetError());
}
}
void RedisClient::ModifyNetworkConfigAsync(const ModifyNetworkConfigRequest& request, const ModifyNetworkConfigAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyNetworkConfig(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyNetworkConfigOutcomeCallable RedisClient::ModifyNetworkConfigCallable(const ModifyNetworkConfigRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyNetworkConfigOutcome()>>(
[this, request]()
{
return this->ModifyNetworkConfig(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyParamTemplateOutcome RedisClient::ModifyParamTemplate(const ModifyParamTemplateRequest &request)
{
auto outcome = MakeRequest(request, "ModifyParamTemplate");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyParamTemplateResponse rsp = ModifyParamTemplateResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyParamTemplateOutcome(rsp);
else
return ModifyParamTemplateOutcome(o.GetError());
}
else
{
return ModifyParamTemplateOutcome(outcome.GetError());
}
}
void RedisClient::ModifyParamTemplateAsync(const ModifyParamTemplateRequest& request, const ModifyParamTemplateAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyParamTemplate(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyParamTemplateOutcomeCallable RedisClient::ModifyParamTemplateCallable(const ModifyParamTemplateRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyParamTemplateOutcome()>>(
[this, request]()
{
return this->ModifyParamTemplate(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ModifyReplicationGroupOutcome RedisClient::ModifyReplicationGroup(const ModifyReplicationGroupRequest &request)
{
auto outcome = MakeRequest(request, "ModifyReplicationGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ModifyReplicationGroupResponse rsp = ModifyReplicationGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ModifyReplicationGroupOutcome(rsp);
else
return ModifyReplicationGroupOutcome(o.GetError());
}
else
{
return ModifyReplicationGroupOutcome(outcome.GetError());
}
}
void RedisClient::ModifyReplicationGroupAsync(const ModifyReplicationGroupRequest& request, const ModifyReplicationGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ModifyReplicationGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ModifyReplicationGroupOutcomeCallable RedisClient::ModifyReplicationGroupCallable(const ModifyReplicationGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<ModifyReplicationGroupOutcome()>>(
[this, request]()
{
return this->ModifyReplicationGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::OpenSSLOutcome RedisClient::OpenSSL(const OpenSSLRequest &request)
{
auto outcome = MakeRequest(request, "OpenSSL");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
OpenSSLResponse rsp = OpenSSLResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return OpenSSLOutcome(rsp);
else
return OpenSSLOutcome(o.GetError());
}
else
{
return OpenSSLOutcome(outcome.GetError());
}
}
void RedisClient::OpenSSLAsync(const OpenSSLRequest& request, const OpenSSLAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->OpenSSL(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::OpenSSLOutcomeCallable RedisClient::OpenSSLCallable(const OpenSSLRequest &request)
{
auto task = std::make_shared<std::packaged_task<OpenSSLOutcome()>>(
[this, request]()
{
return this->OpenSSL(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ReleaseWanAddressOutcome RedisClient::ReleaseWanAddress(const ReleaseWanAddressRequest &request)
{
auto outcome = MakeRequest(request, "ReleaseWanAddress");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ReleaseWanAddressResponse rsp = ReleaseWanAddressResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ReleaseWanAddressOutcome(rsp);
else
return ReleaseWanAddressOutcome(o.GetError());
}
else
{
return ReleaseWanAddressOutcome(outcome.GetError());
}
}
void RedisClient::ReleaseWanAddressAsync(const ReleaseWanAddressRequest& request, const ReleaseWanAddressAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ReleaseWanAddress(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ReleaseWanAddressOutcomeCallable RedisClient::ReleaseWanAddressCallable(const ReleaseWanAddressRequest &request)
{
auto task = std::make_shared<std::packaged_task<ReleaseWanAddressOutcome()>>(
[this, request]()
{
return this->ReleaseWanAddress(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::RemoveReplicationGroupOutcome RedisClient::RemoveReplicationGroup(const RemoveReplicationGroupRequest &request)
{
auto outcome = MakeRequest(request, "RemoveReplicationGroup");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
RemoveReplicationGroupResponse rsp = RemoveReplicationGroupResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return RemoveReplicationGroupOutcome(rsp);
else
return RemoveReplicationGroupOutcome(o.GetError());
}
else
{
return RemoveReplicationGroupOutcome(outcome.GetError());
}
}
void RedisClient::RemoveReplicationGroupAsync(const RemoveReplicationGroupRequest& request, const RemoveReplicationGroupAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->RemoveReplicationGroup(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::RemoveReplicationGroupOutcomeCallable RedisClient::RemoveReplicationGroupCallable(const RemoveReplicationGroupRequest &request)
{
auto task = std::make_shared<std::packaged_task<RemoveReplicationGroupOutcome()>>(
[this, request]()
{
return this->RemoveReplicationGroup(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::RemoveReplicationInstanceOutcome RedisClient::RemoveReplicationInstance(const RemoveReplicationInstanceRequest &request)
{
auto outcome = MakeRequest(request, "RemoveReplicationInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
RemoveReplicationInstanceResponse rsp = RemoveReplicationInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return RemoveReplicationInstanceOutcome(rsp);
else
return RemoveReplicationInstanceOutcome(o.GetError());
}
else
{
return RemoveReplicationInstanceOutcome(outcome.GetError());
}
}
void RedisClient::RemoveReplicationInstanceAsync(const RemoveReplicationInstanceRequest& request, const RemoveReplicationInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->RemoveReplicationInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::RemoveReplicationInstanceOutcomeCallable RedisClient::RemoveReplicationInstanceCallable(const RemoveReplicationInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<RemoveReplicationInstanceOutcome()>>(
[this, request]()
{
return this->RemoveReplicationInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::RenewInstanceOutcome RedisClient::RenewInstance(const RenewInstanceRequest &request)
{
auto outcome = MakeRequest(request, "RenewInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
RenewInstanceResponse rsp = RenewInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return RenewInstanceOutcome(rsp);
else
return RenewInstanceOutcome(o.GetError());
}
else
{
return RenewInstanceOutcome(outcome.GetError());
}
}
void RedisClient::RenewInstanceAsync(const RenewInstanceRequest& request, const RenewInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->RenewInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::RenewInstanceOutcomeCallable RedisClient::RenewInstanceCallable(const RenewInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<RenewInstanceOutcome()>>(
[this, request]()
{
return this->RenewInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::ResetPasswordOutcome RedisClient::ResetPassword(const ResetPasswordRequest &request)
{
auto outcome = MakeRequest(request, "ResetPassword");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
ResetPasswordResponse rsp = ResetPasswordResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return ResetPasswordOutcome(rsp);
else
return ResetPasswordOutcome(o.GetError());
}
else
{
return ResetPasswordOutcome(outcome.GetError());
}
}
void RedisClient::ResetPasswordAsync(const ResetPasswordRequest& request, const ResetPasswordAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->ResetPassword(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::ResetPasswordOutcomeCallable RedisClient::ResetPasswordCallable(const ResetPasswordRequest &request)
{
auto task = std::make_shared<std::packaged_task<ResetPasswordOutcome()>>(
[this, request]()
{
return this->ResetPassword(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::RestoreInstanceOutcome RedisClient::RestoreInstance(const RestoreInstanceRequest &request)
{
auto outcome = MakeRequest(request, "RestoreInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
RestoreInstanceResponse rsp = RestoreInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return RestoreInstanceOutcome(rsp);
else
return RestoreInstanceOutcome(o.GetError());
}
else
{
return RestoreInstanceOutcome(outcome.GetError());
}
}
void RedisClient::RestoreInstanceAsync(const RestoreInstanceRequest& request, const RestoreInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->RestoreInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::RestoreInstanceOutcomeCallable RedisClient::RestoreInstanceCallable(const RestoreInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<RestoreInstanceOutcome()>>(
[this, request]()
{
return this->RestoreInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::StartupInstanceOutcome RedisClient::StartupInstance(const StartupInstanceRequest &request)
{
auto outcome = MakeRequest(request, "StartupInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
StartupInstanceResponse rsp = StartupInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return StartupInstanceOutcome(rsp);
else
return StartupInstanceOutcome(o.GetError());
}
else
{
return StartupInstanceOutcome(outcome.GetError());
}
}
void RedisClient::StartupInstanceAsync(const StartupInstanceRequest& request, const StartupInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->StartupInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::StartupInstanceOutcomeCallable RedisClient::StartupInstanceCallable(const StartupInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<StartupInstanceOutcome()>>(
[this, request]()
{
return this->StartupInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::SwitchAccessNewInstanceOutcome RedisClient::SwitchAccessNewInstance(const SwitchAccessNewInstanceRequest &request)
{
auto outcome = MakeRequest(request, "SwitchAccessNewInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
SwitchAccessNewInstanceResponse rsp = SwitchAccessNewInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return SwitchAccessNewInstanceOutcome(rsp);
else
return SwitchAccessNewInstanceOutcome(o.GetError());
}
else
{
return SwitchAccessNewInstanceOutcome(outcome.GetError());
}
}
void RedisClient::SwitchAccessNewInstanceAsync(const SwitchAccessNewInstanceRequest& request, const SwitchAccessNewInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->SwitchAccessNewInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::SwitchAccessNewInstanceOutcomeCallable RedisClient::SwitchAccessNewInstanceCallable(const SwitchAccessNewInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<SwitchAccessNewInstanceOutcome()>>(
[this, request]()
{
return this->SwitchAccessNewInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::SwitchInstanceVipOutcome RedisClient::SwitchInstanceVip(const SwitchInstanceVipRequest &request)
{
auto outcome = MakeRequest(request, "SwitchInstanceVip");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
SwitchInstanceVipResponse rsp = SwitchInstanceVipResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return SwitchInstanceVipOutcome(rsp);
else
return SwitchInstanceVipOutcome(o.GetError());
}
else
{
return SwitchInstanceVipOutcome(outcome.GetError());
}
}
void RedisClient::SwitchInstanceVipAsync(const SwitchInstanceVipRequest& request, const SwitchInstanceVipAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->SwitchInstanceVip(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::SwitchInstanceVipOutcomeCallable RedisClient::SwitchInstanceVipCallable(const SwitchInstanceVipRequest &request)
{
auto task = std::make_shared<std::packaged_task<SwitchInstanceVipOutcome()>>(
[this, request]()
{
return this->SwitchInstanceVip(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::SwitchProxyOutcome RedisClient::SwitchProxy(const SwitchProxyRequest &request)
{
auto outcome = MakeRequest(request, "SwitchProxy");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
SwitchProxyResponse rsp = SwitchProxyResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return SwitchProxyOutcome(rsp);
else
return SwitchProxyOutcome(o.GetError());
}
else
{
return SwitchProxyOutcome(outcome.GetError());
}
}
void RedisClient::SwitchProxyAsync(const SwitchProxyRequest& request, const SwitchProxyAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->SwitchProxy(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::SwitchProxyOutcomeCallable RedisClient::SwitchProxyCallable(const SwitchProxyRequest &request)
{
auto task = std::make_shared<std::packaged_task<SwitchProxyOutcome()>>(
[this, request]()
{
return this->SwitchProxy(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::UpgradeInstanceOutcome RedisClient::UpgradeInstance(const UpgradeInstanceRequest &request)
{
auto outcome = MakeRequest(request, "UpgradeInstance");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
UpgradeInstanceResponse rsp = UpgradeInstanceResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return UpgradeInstanceOutcome(rsp);
else
return UpgradeInstanceOutcome(o.GetError());
}
else
{
return UpgradeInstanceOutcome(outcome.GetError());
}
}
void RedisClient::UpgradeInstanceAsync(const UpgradeInstanceRequest& request, const UpgradeInstanceAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->UpgradeInstance(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::UpgradeInstanceOutcomeCallable RedisClient::UpgradeInstanceCallable(const UpgradeInstanceRequest &request)
{
auto task = std::make_shared<std::packaged_task<UpgradeInstanceOutcome()>>(
[this, request]()
{
return this->UpgradeInstance(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::UpgradeInstanceVersionOutcome RedisClient::UpgradeInstanceVersion(const UpgradeInstanceVersionRequest &request)
{
auto outcome = MakeRequest(request, "UpgradeInstanceVersion");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
UpgradeInstanceVersionResponse rsp = UpgradeInstanceVersionResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return UpgradeInstanceVersionOutcome(rsp);
else
return UpgradeInstanceVersionOutcome(o.GetError());
}
else
{
return UpgradeInstanceVersionOutcome(outcome.GetError());
}
}
void RedisClient::UpgradeInstanceVersionAsync(const UpgradeInstanceVersionRequest& request, const UpgradeInstanceVersionAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->UpgradeInstanceVersion(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::UpgradeInstanceVersionOutcomeCallable RedisClient::UpgradeInstanceVersionCallable(const UpgradeInstanceVersionRequest &request)
{
auto task = std::make_shared<std::packaged_task<UpgradeInstanceVersionOutcome()>>(
[this, request]()
{
return this->UpgradeInstanceVersion(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::UpgradeProxyVersionOutcome RedisClient::UpgradeProxyVersion(const UpgradeProxyVersionRequest &request)
{
auto outcome = MakeRequest(request, "UpgradeProxyVersion");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
UpgradeProxyVersionResponse rsp = UpgradeProxyVersionResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return UpgradeProxyVersionOutcome(rsp);
else
return UpgradeProxyVersionOutcome(o.GetError());
}
else
{
return UpgradeProxyVersionOutcome(outcome.GetError());
}
}
void RedisClient::UpgradeProxyVersionAsync(const UpgradeProxyVersionRequest& request, const UpgradeProxyVersionAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->UpgradeProxyVersion(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::UpgradeProxyVersionOutcomeCallable RedisClient::UpgradeProxyVersionCallable(const UpgradeProxyVersionRequest &request)
{
auto task = std::make_shared<std::packaged_task<UpgradeProxyVersionOutcome()>>(
[this, request]()
{
return this->UpgradeProxyVersion(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::UpgradeSmallVersionOutcome RedisClient::UpgradeSmallVersion(const UpgradeSmallVersionRequest &request)
{
auto outcome = MakeRequest(request, "UpgradeSmallVersion");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
UpgradeSmallVersionResponse rsp = UpgradeSmallVersionResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return UpgradeSmallVersionOutcome(rsp);
else
return UpgradeSmallVersionOutcome(o.GetError());
}
else
{
return UpgradeSmallVersionOutcome(outcome.GetError());
}
}
void RedisClient::UpgradeSmallVersionAsync(const UpgradeSmallVersionRequest& request, const UpgradeSmallVersionAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->UpgradeSmallVersion(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::UpgradeSmallVersionOutcomeCallable RedisClient::UpgradeSmallVersionCallable(const UpgradeSmallVersionRequest &request)
{
auto task = std::make_shared<std::packaged_task<UpgradeSmallVersionOutcome()>>(
[this, request]()
{
return this->UpgradeSmallVersion(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
RedisClient::UpgradeVersionToMultiAvailabilityZonesOutcome RedisClient::UpgradeVersionToMultiAvailabilityZones(const UpgradeVersionToMultiAvailabilityZonesRequest &request)
{
auto outcome = MakeRequest(request, "UpgradeVersionToMultiAvailabilityZones");
if (outcome.IsSuccess())
{
auto r = outcome.GetResult();
string payload = string(r.Body(), r.BodySize());
UpgradeVersionToMultiAvailabilityZonesResponse rsp = UpgradeVersionToMultiAvailabilityZonesResponse();
auto o = rsp.Deserialize(payload);
if (o.IsSuccess())
return UpgradeVersionToMultiAvailabilityZonesOutcome(rsp);
else
return UpgradeVersionToMultiAvailabilityZonesOutcome(o.GetError());
}
else
{
return UpgradeVersionToMultiAvailabilityZonesOutcome(outcome.GetError());
}
}
void RedisClient::UpgradeVersionToMultiAvailabilityZonesAsync(const UpgradeVersionToMultiAvailabilityZonesRequest& request, const UpgradeVersionToMultiAvailabilityZonesAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context)
{
auto fn = [this, request, handler, context]()
{
handler(this, request, this->UpgradeVersionToMultiAvailabilityZones(request), context);
};
Executor::GetInstance()->Submit(new Runnable(fn));
}
RedisClient::UpgradeVersionToMultiAvailabilityZonesOutcomeCallable RedisClient::UpgradeVersionToMultiAvailabilityZonesCallable(const UpgradeVersionToMultiAvailabilityZonesRequest &request)
{
auto task = std::make_shared<std::packaged_task<UpgradeVersionToMultiAvailabilityZonesOutcome()>>(
[this, request]()
{
return this->UpgradeVersionToMultiAvailabilityZones(request);
}
);
Executor::GetInstance()->Submit(new Runnable([task]() { (*task)(); }));
return task->get_future();
}
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