/**
 * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
 * SPDX-License-Identifier: Apache-2.0.
 */

#include <aws/core/utils/Outcome.h>
#include <aws/core/auth/AWSAuthSigner.h>
#include <aws/core/client/CoreErrors.h>
#include <aws/core/client/RetryStrategy.h>
#include <aws/core/http/HttpClient.h>
#include <aws/core/http/HttpResponse.h>
#include <aws/core/http/HttpClientFactory.h>
#include <aws/core/auth/AWSCredentialsProviderChain.h>
#include <aws/core/utils/json/JsonSerializer.h>
#include <aws/core/utils/memory/stl/AWSStringStream.h>
#include <aws/core/utils/threading/Executor.h>
#include <aws/core/utils/DNS.h>
#include <aws/core/utils/logging/LogMacros.h>

#include <aws/iotsecuretunneling/IoTSecureTunnelingClient.h>
#include <aws/iotsecuretunneling/IoTSecureTunnelingEndpoint.h>
#include <aws/iotsecuretunneling/IoTSecureTunnelingErrorMarshaller.h>
#include <aws/iotsecuretunneling/model/CloseTunnelRequest.h>
#include <aws/iotsecuretunneling/model/DescribeTunnelRequest.h>
#include <aws/iotsecuretunneling/model/ListTagsForResourceRequest.h>
#include <aws/iotsecuretunneling/model/ListTunnelsRequest.h>
#include <aws/iotsecuretunneling/model/OpenTunnelRequest.h>
#include <aws/iotsecuretunneling/model/TagResourceRequest.h>
#include <aws/iotsecuretunneling/model/UntagResourceRequest.h>

using namespace Aws;
using namespace Aws::Auth;
using namespace Aws::Client;
using namespace Aws::IoTSecureTunneling;
using namespace Aws::IoTSecureTunneling::Model;
using namespace Aws::Http;
using namespace Aws::Utils::Json;

static const char* SERVICE_NAME = "IoTSecuredTunneling";
static const char* ALLOCATION_TAG = "IoTSecureTunnelingClient";


IoTSecureTunnelingClient::IoTSecureTunnelingClient(const Client::ClientConfiguration& clientConfiguration) :
  BASECLASS(clientConfiguration,
    Aws::MakeShared<AWSAuthV4Signer>(ALLOCATION_TAG, Aws::MakeShared<DefaultAWSCredentialsProviderChain>(ALLOCATION_TAG),
        SERVICE_NAME, Aws::Region::ComputeSignerRegion(clientConfiguration.region)),
    Aws::MakeShared<IoTSecureTunnelingErrorMarshaller>(ALLOCATION_TAG)),
    m_executor(clientConfiguration.executor)
{
  init(clientConfiguration);
}

IoTSecureTunnelingClient::IoTSecureTunnelingClient(const AWSCredentials& credentials, const Client::ClientConfiguration& clientConfiguration) :
  BASECLASS(clientConfiguration,
    Aws::MakeShared<AWSAuthV4Signer>(ALLOCATION_TAG, Aws::MakeShared<SimpleAWSCredentialsProvider>(ALLOCATION_TAG, credentials),
         SERVICE_NAME, Aws::Region::ComputeSignerRegion(clientConfiguration.region)),
    Aws::MakeShared<IoTSecureTunnelingErrorMarshaller>(ALLOCATION_TAG)),
    m_executor(clientConfiguration.executor)
{
  init(clientConfiguration);
}

IoTSecureTunnelingClient::IoTSecureTunnelingClient(const std::shared_ptr<AWSCredentialsProvider>& credentialsProvider,
  const Client::ClientConfiguration& clientConfiguration) :
  BASECLASS(clientConfiguration,
    Aws::MakeShared<AWSAuthV4Signer>(ALLOCATION_TAG, credentialsProvider,
         SERVICE_NAME, Aws::Region::ComputeSignerRegion(clientConfiguration.region)),
    Aws::MakeShared<IoTSecureTunnelingErrorMarshaller>(ALLOCATION_TAG)),
    m_executor(clientConfiguration.executor)
{
  init(clientConfiguration);
}

IoTSecureTunnelingClient::~IoTSecureTunnelingClient()
{
}

void IoTSecureTunnelingClient::init(const ClientConfiguration& config)
{
  SetServiceClientName("IoTSecureTunneling");
  m_configScheme = SchemeMapper::ToString(config.scheme);
  if (config.endpointOverride.empty())
  {
      m_uri = m_configScheme + "://" + IoTSecureTunnelingEndpoint::ForRegion(config.region, config.useDualStack);
  }
  else
  {
      OverrideEndpoint(config.endpointOverride);
  }
}

void IoTSecureTunnelingClient::OverrideEndpoint(const Aws::String& endpoint)
{
  if (endpoint.compare(0, 7, "http://") == 0 || endpoint.compare(0, 8, "https://") == 0)
  {
      m_uri = endpoint;
  }
  else
  {
      m_uri = m_configScheme + "://" + endpoint;
  }
}

CloseTunnelOutcome IoTSecureTunnelingClient::CloseTunnel(const CloseTunnelRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return CloseTunnelOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

CloseTunnelOutcomeCallable IoTSecureTunnelingClient::CloseTunnelCallable(const CloseTunnelRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< CloseTunnelOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->CloseTunnel(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::CloseTunnelAsync(const CloseTunnelRequest& request, const CloseTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->CloseTunnelAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::CloseTunnelAsyncHelper(const CloseTunnelRequest& request, const CloseTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, CloseTunnel(request), context);
}

DescribeTunnelOutcome IoTSecureTunnelingClient::DescribeTunnel(const DescribeTunnelRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return DescribeTunnelOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

DescribeTunnelOutcomeCallable IoTSecureTunnelingClient::DescribeTunnelCallable(const DescribeTunnelRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< DescribeTunnelOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->DescribeTunnel(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::DescribeTunnelAsync(const DescribeTunnelRequest& request, const DescribeTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->DescribeTunnelAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::DescribeTunnelAsyncHelper(const DescribeTunnelRequest& request, const DescribeTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, DescribeTunnel(request), context);
}

ListTagsForResourceOutcome IoTSecureTunnelingClient::ListTagsForResource(const ListTagsForResourceRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return ListTagsForResourceOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

ListTagsForResourceOutcomeCallable IoTSecureTunnelingClient::ListTagsForResourceCallable(const ListTagsForResourceRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< ListTagsForResourceOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->ListTagsForResource(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::ListTagsForResourceAsync(const ListTagsForResourceRequest& request, const ListTagsForResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->ListTagsForResourceAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::ListTagsForResourceAsyncHelper(const ListTagsForResourceRequest& request, const ListTagsForResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, ListTagsForResource(request), context);
}

ListTunnelsOutcome IoTSecureTunnelingClient::ListTunnels(const ListTunnelsRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return ListTunnelsOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

ListTunnelsOutcomeCallable IoTSecureTunnelingClient::ListTunnelsCallable(const ListTunnelsRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< ListTunnelsOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->ListTunnels(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::ListTunnelsAsync(const ListTunnelsRequest& request, const ListTunnelsResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->ListTunnelsAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::ListTunnelsAsyncHelper(const ListTunnelsRequest& request, const ListTunnelsResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, ListTunnels(request), context);
}

OpenTunnelOutcome IoTSecureTunnelingClient::OpenTunnel(const OpenTunnelRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return OpenTunnelOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

OpenTunnelOutcomeCallable IoTSecureTunnelingClient::OpenTunnelCallable(const OpenTunnelRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< OpenTunnelOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->OpenTunnel(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::OpenTunnelAsync(const OpenTunnelRequest& request, const OpenTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->OpenTunnelAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::OpenTunnelAsyncHelper(const OpenTunnelRequest& request, const OpenTunnelResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, OpenTunnel(request), context);
}

TagResourceOutcome IoTSecureTunnelingClient::TagResource(const TagResourceRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return TagResourceOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

TagResourceOutcomeCallable IoTSecureTunnelingClient::TagResourceCallable(const TagResourceRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< TagResourceOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->TagResource(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::TagResourceAsync(const TagResourceRequest& request, const TagResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->TagResourceAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::TagResourceAsyncHelper(const TagResourceRequest& request, const TagResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, TagResource(request), context);
}

UntagResourceOutcome IoTSecureTunnelingClient::UntagResource(const UntagResourceRequest& request) const
{
  Aws::Http::URI uri = m_uri;
  Aws::StringStream ss;
  ss << "/";
  uri.SetPath(uri.GetPath() + ss.str());
  return UntagResourceOutcome(MakeRequest(uri, request, Aws::Http::HttpMethod::HTTP_POST, Aws::Auth::SIGV4_SIGNER));
}

UntagResourceOutcomeCallable IoTSecureTunnelingClient::UntagResourceCallable(const UntagResourceRequest& request) const
{
  auto task = Aws::MakeShared< std::packaged_task< UntagResourceOutcome() > >(ALLOCATION_TAG, [this, request](){ return this->UntagResource(request); } );
  auto packagedFunction = [task]() { (*task)(); };
  m_executor->Submit(packagedFunction);
  return task->get_future();
}

void IoTSecureTunnelingClient::UntagResourceAsync(const UntagResourceRequest& request, const UntagResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  m_executor->Submit( [this, request, handler, context](){ this->UntagResourceAsyncHelper( request, handler, context ); } );
}

void IoTSecureTunnelingClient::UntagResourceAsyncHelper(const UntagResourceRequest& request, const UntagResourceResponseReceivedHandler& handler, const std::shared_ptr<const Aws::Client::AsyncCallerContext>& context) const
{
  handler(this, request, UntagResource(request), context);
}