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#pragma once
#include "http_client_options.h"
#include <util/datetime/base.h>
#include <util/generic/hash.h>
#include <util/generic/ptr.h>
#include <util/generic/strbuf.h>
#include <util/generic/yexception.h>
#include <util/network/socket.h>
#include <library/cpp/http/io/stream.h>
#include <library/cpp/http/misc/httpcodes.h>
#include <library/cpp/openssl/io/stream.h>
class TNetworkAddress;
class IOutputStream;
class TSocket;
namespace NPrivate {
class THttpConnection;
}
/*!
* HTTPS is supported in two modes.
* HTTPS verification enabled by default in TKeepAliveHttpClient and disabled by default in TSimpleHttpClient.
* HTTPS verification requires valid private certificate on server side and valid public certificate on client side.
*
* For client:
* Uses builtin certs.
* Also uses default CA path /etc/ssl/certs/ - can be provided with debian package: ca-certificates.deb.
* It can be expanded with ENV: SSL_CERT_DIR.
*/
/*!
* TKeepAliveHttpClient can keep connection alive with HTTP and HTTPS only if you use the same instance of class.
* It closes connection on every socket/network error and throws error.
* For example, HTTP code == 500 is NOT error - connection will be still open.
* It is THREAD UNSAFE because it stores connection state in attributes.
* If you need thread safe client, look at TSimpleHttpClient
*/
class TKeepAliveHttpClient {
public:
using THeaders = THashMap<TString, TString>;
using THttpCode = unsigned;
public:
TKeepAliveHttpClient(const TString& host,
ui32 port,
TDuration socketTimeout = TDuration::Seconds(5),
TDuration connectTimeout = TDuration::Seconds(30));
THttpCode DoGet(const TStringBuf relativeUrl,
IOutputStream* output = nullptr,
const THeaders& headers = THeaders(),
THttpHeaders* outHeaders = nullptr);
// builds post request from headers and body
THttpCode DoPost(const TStringBuf relativeUrl,
const TStringBuf body,
IOutputStream* output = nullptr,
const THeaders& headers = THeaders(),
THttpHeaders* outHeaders = nullptr);
// builds request with any HTTP method from headers and body
THttpCode DoRequest(const TStringBuf method,
const TStringBuf relativeUrl,
const TStringBuf body,
IOutputStream* output = nullptr,
const THeaders& inHeaders = THeaders(),
THttpHeaders* outHeaders = nullptr);
// requires already well-formed request
THttpCode DoRequestRaw(const TStringBuf raw,
IOutputStream* output = nullptr,
THttpHeaders* outHeaders = nullptr);
void DisableVerificationForHttps();
void SetClientCertificate(const TOpenSslClientIO::TOptions::TClientCert& options);
void ResetConnection();
const TString& GetHost() const {
return Host;
}
ui32 GetPort() const {
return Port;
}
private:
template <class T>
THttpCode DoRequestReliable(const T& raw,
IOutputStream* output,
THttpHeaders* outHeaders);
TVector<IOutputStream::TPart> FormRequest(TStringBuf method, const TStringBuf relativeUrl,
TStringBuf body,
const THeaders& headers, TStringBuf contentLength) const;
THttpCode ReadAndTransferHttp(THttpInput& input, IOutputStream* output, THttpHeaders* outHeaders) const;
bool CreateNewConnectionIfNeeded(); // Returns true if now we have a new connection.
private:
using TVerifyCert = TOpenSslClientIO::TOptions::TVerifyCert;
using TClientCert = TOpenSslClientIO::TOptions::TClientCert;
const TString Host;
const ui32 Port;
const TDuration SocketTimeout;
const TDuration ConnectTimeout;
const bool IsHttps;
THolder<NPrivate::THttpConnection> Connection;
bool IsClosingRequired;
TMaybe<TClientCert> ClientCertificate;
TMaybe<TVerifyCert> HttpsVerification;
private:
THttpInput* GetHttpInput();
using TIfResponseRequired = std::function<bool(const THttpInput&)>;
TIfResponseRequired IfResponseRequired;
friend class TSimpleHttpClient;
friend class TRedirectableHttpClient;
};
class THttpRequestException: public yexception {
private:
int StatusCode;
public:
THttpRequestException(int statusCode = 0);
int GetStatusCode() const;
};
/*!
* TSimpleHttpClient can NOT keep connection alive.
* It closes connection after each request.
* HTTP code < 200 || code >= 300 is error - exception will be thrown.
* It is THREAD SAFE because it stores only consts.
*/
class TSimpleHttpClient {
protected:
using TVerifyCert = TKeepAliveHttpClient::TVerifyCert;
const TString Host;
const ui32 Port;
const TDuration SocketTimeout;
const TDuration ConnectTimeout;
bool HttpsVerification = false;
public:
using THeaders = TKeepAliveHttpClient::THeaders;
using TOptions = TSimpleHttpClientOptions;
public:
explicit TSimpleHttpClient(const TOptions& options);
TSimpleHttpClient(const TString& host, ui32 port,
TDuration socketTimeout = TDuration::Seconds(5), TDuration connectTimeout = TDuration::Seconds(30));
void EnableVerificationForHttps();
void DoGet(const TStringBuf relativeUrl, IOutputStream* output, const THeaders& headers = THeaders()) const;
// builds post request from headers and body
void DoPost(const TStringBuf relativeUrl, TStringBuf body, IOutputStream* output, const THeaders& headers = THeaders()) const;
// requires already well-formed post request
void DoPostRaw(const TStringBuf relativeUrl, TStringBuf rawRequest, IOutputStream* output) const;
virtual ~TSimpleHttpClient();
private:
TKeepAliveHttpClient CreateClient() const;
virtual void PrepareClient(TKeepAliveHttpClient& cl) const;
virtual void ProcessResponse(const TStringBuf relativeUrl, THttpInput& input, IOutputStream* output, const unsigned statusCode) const;
};
class TRedirectableHttpClient: public TSimpleHttpClient {
public:
TRedirectableHttpClient(const TString& host, ui32 port, TDuration socketTimeout = TDuration::Seconds(5),
TDuration connectTimeout = TDuration::Seconds(30));
private:
void PrepareClient(TKeepAliveHttpClient& cl) const override;
void ProcessResponse(const TStringBuf relativeUrl, THttpInput& input, IOutputStream* output, const unsigned statusCode) const override;
};
namespace NPrivate {
class THttpConnection {
public:
THttpConnection(const TString& host,
ui32 port,
TDuration sockTimeout,
TDuration connTimeout,
bool isHttps,
const TMaybe<TOpenSslClientIO::TOptions::TClientCert>& clientCert,
const TMaybe<TOpenSslClientIO::TOptions::TVerifyCert>& verifyCert);
bool IsOk() const {
return IsNotSocketClosedByOtherSide(Socket);
}
template <typename TContainer>
void Write(const TContainer& request) {
HttpOut->Write(request.data(), request.size());
HttpIn = Ssl ? MakeHolder<THttpInput>(Ssl.Get())
: MakeHolder<THttpInput>(&SocketIn);
HttpOut->Flush();
}
THttpInput* GetHttpInput() {
return HttpIn.Get();
}
private:
static TNetworkAddress Resolve(const TString& host, ui32 port);
static TSocket Connect(TNetworkAddress& addr,
TDuration sockTimeout,
TDuration connTimeout,
const TString& host,
ui32 port);
private:
TNetworkAddress Addr;
TSocket Socket;
TSocketInput SocketIn;
TSocketOutput SocketOut;
THolder<TOpenSslClientIO> Ssl;
THolder<THttpInput> HttpIn;
THolder<THttpOutput> HttpOut;
};
}
template <class T>
TKeepAliveHttpClient::THttpCode TKeepAliveHttpClient::DoRequestReliable(const T& raw,
IOutputStream* output,
THttpHeaders* outHeaders) {
for (int i = 0; i < 2; ++i) {
const bool haveNewConnection = CreateNewConnectionIfNeeded();
const bool couldRetry = !haveNewConnection && i == 0; // Actually old connection could be already closed by server,
// so we should try one more time in this case.
try {
Connection->Write(raw);
THttpCode code = ReadAndTransferHttp(*Connection->GetHttpInput(), output, outHeaders);
if (!Connection->GetHttpInput()->IsKeepAlive()) {
IsClosingRequired = true;
}
return code;
} catch (const TSystemError& e) {
Connection.Reset();
if (!couldRetry || e.Status() != EPIPE) {
throw;
}
} catch (const THttpReadException&) { // Actually old connection is already closed by server
Connection.Reset();
if (!couldRetry) {
throw;
}
} catch (const std::exception&) {
Connection.Reset();
throw;
}
}
Y_FAIL(); // We should never be here.
return 0;
}
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