%PDF-
%PDF-
Mini Shell
Mini Shell
/*
* Copyright (C) 2004-2018 ZNC, see the NOTICE file for details.
*
* 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.
*/
#ifndef ZNC_SOCKET_H
#define ZNC_SOCKET_H
#include <znc/zncconfig.h>
#include <znc/Csocket.h>
#include <znc/Threads.h>
#include <znc/Translation.h>
class CModule;
class CZNCSock : public Csock, protected CCoreTranslationMixin {
public:
CZNCSock(int timeout = 60);
CZNCSock(const CString& sHost, u_short port, int timeout = 60);
~CZNCSock() {}
int ConvertAddress(const struct sockaddr_storage* pAddr, socklen_t iAddrLen,
CString& sIP, u_short* piPort) const override;
#ifdef HAVE_LIBSSL
int VerifyPeerCertificate(int iPreVerify,
X509_STORE_CTX* pStoreCTX) override;
void SSLHandShakeFinished() override;
bool SNIConfigureClient(CString& sHostname) override;
#endif
void SetHostToVerifySSL(const CString& sHost) {
m_sHostToVerifySSL = sHost;
}
CString GetSSLPeerFingerprint() const;
void SetSSLTrustedPeerFingerprints(const SCString& ssFPs) {
m_ssTrustedFingerprints = ssFPs;
}
void SetTrustAllCerts(bool bTrustAll) { m_bTrustAllCerts = bTrustAll; }
bool GetTrustAllCerts() const { return m_bTrustAllCerts; }
void SetTrustPKI(bool bTrustPKI) { m_bTrustPKI = bTrustPKI; }
bool GetTrustPKI() const { return m_bTrustPKI; }
void SetEncoding(const CString&);
virtual CString GetRemoteIP() const { return Csock::GetRemoteIP(); }
protected:
// All existing errno codes seem to be in range 1-300
enum {
errnoBadSSLCert = 12569,
};
private:
CString m_sHostToVerifySSL;
SCString m_ssTrustedFingerprints;
SCString m_ssCertVerificationErrors;
bool m_bTrustAllCerts = false;
bool m_bTrustPKI = true;
};
enum EAddrType { ADDR_IPV4ONLY, ADDR_IPV6ONLY, ADDR_ALL };
class CSockManager : public TSocketManager<CZNCSock>,
private CCoreTranslationMixin {
public:
CSockManager();
virtual ~CSockManager();
bool ListenHost(u_short iPort, const CString& sSockName,
const CString& sBindHost, bool bSSL = false,
int iMaxConns = SOMAXCONN, CZNCSock* pcSock = nullptr,
u_int iTimeout = 0, EAddrType eAddr = ADDR_ALL) {
CSListener L(iPort, sBindHost);
L.SetSockName(sSockName);
L.SetIsSSL(bSSL);
L.SetTimeout(iTimeout);
L.SetMaxConns(iMaxConns);
#ifdef HAVE_IPV6
switch (eAddr) {
case ADDR_IPV4ONLY:
L.SetAFRequire(CSSockAddr::RAF_INET);
break;
case ADDR_IPV6ONLY:
L.SetAFRequire(CSSockAddr::RAF_INET6);
break;
case ADDR_ALL:
L.SetAFRequire(CSSockAddr::RAF_ANY);
break;
}
#endif
return Listen(L, pcSock);
}
bool ListenAll(u_short iPort, const CString& sSockName, bool bSSL = false,
int iMaxConns = SOMAXCONN, CZNCSock* pcSock = nullptr,
u_int iTimeout = 0, EAddrType eAddr = ADDR_ALL) {
return ListenHost(iPort, sSockName, "", bSSL, iMaxConns, pcSock,
iTimeout, eAddr);
}
u_short ListenRand(const CString& sSockName, const CString& sBindHost,
bool bSSL = false, int iMaxConns = SOMAXCONN,
CZNCSock* pcSock = nullptr, u_int iTimeout = 0,
EAddrType eAddr = ADDR_ALL) {
unsigned short uPort = 0;
CSListener L(0, sBindHost);
L.SetSockName(sSockName);
L.SetIsSSL(bSSL);
L.SetTimeout(iTimeout);
L.SetMaxConns(iMaxConns);
#ifdef HAVE_IPV6
switch (eAddr) {
case ADDR_IPV4ONLY:
L.SetAFRequire(CSSockAddr::RAF_INET);
break;
case ADDR_IPV6ONLY:
L.SetAFRequire(CSSockAddr::RAF_INET6);
break;
case ADDR_ALL:
L.SetAFRequire(CSSockAddr::RAF_ANY);
break;
}
#endif
Listen(L, pcSock, &uPort);
return uPort;
}
u_short ListenAllRand(const CString& sSockName, bool bSSL = false,
int iMaxConns = SOMAXCONN, CZNCSock* pcSock = nullptr,
u_int iTimeout = 0, EAddrType eAddr = ADDR_ALL) {
return (ListenRand(sSockName, "", bSSL, iMaxConns, pcSock, iTimeout,
eAddr));
}
void Connect(const CString& sHostname, u_short iPort,
const CString& sSockName, int iTimeout = 60, bool bSSL = false,
const CString& sBindHost = "", CZNCSock* pcSock = nullptr);
unsigned int GetAnonConnectionCount(const CString& sIP) const;
void DelSockByAddr(Csock* pcSock) override;
private:
void FinishConnect(const CString& sHostname, u_short iPort,
const CString& sSockName, int iTimeout, bool bSSL,
const CString& sBindHost, CZNCSock* pcSock);
std::map<Csock*, bool /* deleted */> m_InFlightDnsSockets;
#ifdef HAVE_PTHREAD
class CThreadMonitorFD;
friend class CThreadMonitorFD;
#endif
#ifdef HAVE_THREADED_DNS
struct TDNSTask {
TDNSTask()
: sHostname(""),
iPort(0),
sSockName(""),
iTimeout(0),
bSSL(false),
sBindhost(""),
pcSock(nullptr),
bDoneTarget(false),
bDoneBind(false),
aiTarget(nullptr),
aiBind(nullptr) {}
TDNSTask(const TDNSTask&) = delete;
TDNSTask& operator=(const TDNSTask&) = delete;
CString sHostname;
u_short iPort;
CString sSockName;
int iTimeout;
bool bSSL;
CString sBindhost;
CZNCSock* pcSock;
bool bDoneTarget;
bool bDoneBind;
addrinfo* aiTarget;
addrinfo* aiBind;
};
class CDNSJob : public CJob {
public:
CDNSJob()
: sHostname(""),
task(nullptr),
pManager(nullptr),
bBind(false),
iRes(0),
aiResult(nullptr) {}
CDNSJob(const CDNSJob&) = delete;
CDNSJob& operator=(const CDNSJob&) = delete;
CString sHostname;
TDNSTask* task;
CSockManager* pManager;
bool bBind;
int iRes;
addrinfo* aiResult;
void runThread() override;
void runMain() override;
};
void StartTDNSThread(TDNSTask* task, bool bBind);
void SetTDNSThreadFinished(TDNSTask* task, bool bBind, addrinfo* aiResult);
static void* TDNSThread(void* argument);
#endif
protected:
};
/**
* @class CSocket
* @brief Base Csock implementation to be used by modules
*
* By all means, this class should be used as a base for sockets originating from modules. It handles removing instances of itself
* from the module as it unloads, and simplifies use in general.
* - EnableReadLine is default to true in this class
* - MaxBuffer for readline is set to 10240, in the event this is reached the socket is closed (@see ReachedMaxBuffer)
*/
class CSocket : public CZNCSock {
public:
/**
* @brief ctor
* @param pModule the module this sock instance is associated to
*/
CSocket(CModule* pModule);
/**
* @brief ctor
* @param pModule the module this sock instance is associated to
* @param sHostname the hostname being connected to
* @param uPort the port being connected to
* @param iTimeout the timeout period for this specific sock
*/
CSocket(CModule* pModule, const CString& sHostname, unsigned short uPort,
int iTimeout = 60);
virtual ~CSocket();
CSocket(const CSocket&) = delete;
CSocket& operator=(const CSocket&) = delete;
using Csock::Connect;
using Csock::Listen;
//! This defaults to closing the socket, feel free to override
void ReachedMaxBuffer() override;
void SockError(int iErrno, const CString& sDescription) override;
//! This limits the global connections from this IP to defeat DoS attacks, feel free to override. The ACL used is provided by the main interface @see CZNC::AllowConnectionFrom
bool ConnectionFrom(const CString& sHost, unsigned short uPort) override;
//! Ease of use Connect, assigns to the manager and is subsequently tracked
bool Connect(const CString& sHostname, unsigned short uPort,
bool bSSL = false, unsigned int uTimeout = 60);
//! Ease of use Listen, assigned to the manager and is subsequently tracked
bool Listen(unsigned short uPort, bool bSSL, unsigned int uTimeout = 0);
// Getters
CModule* GetModule() const;
// !Getters
#ifndef SWIG
// Translation. As opposed to CCoreTranslationMixin, this one uses module.mo
CString t_s(const CString& sEnglish, const CString& sContext = "") const;
CInlineFormatMessage t_f(const CString& sEnglish,
const CString& sContext = "") const;
CInlineFormatMessage t_p(const CString& sEnglish, const CString& sEnglishes,
int iNum, const CString& sContext) const;
CDelayedTranslation t_d(const CString& sEnglish,
const CString& sContext = "") const;
#endif
private:
protected:
CModule*
m_pModule; //!< pointer to the module that this sock instance belongs to
};
/**
* @class CIRCSocket
* @brief Base IRC socket for client<->ZNC, and ZNC<->server
*/
class CIRCSocket : public CZNCSock {
public:
#ifdef HAVE_ICU
/**
* @brief Allow IRC control characters to appear even if protocol encoding explicitly disallows them.
*
* E.g. ISO-2022-JP disallows 0x0F, which in IRC means "reset format",
* so by default it gets replaced with U+FFFD ("replacement character").
* https://code.google.com/p/chromium/issues/detail?id=277062#c3
*
* In case if protocol encoding uses these code points for something else, the encoding takes preference,
* and they are not IRC control characters anymore.
*/
void IcuExtToUCallback(UConverterToUnicodeArgs* toArgs,
const char* codeUnits, int32_t length,
UConverterCallbackReason reason,
UErrorCode* err) override;
void IcuExtFromUCallback(UConverterFromUnicodeArgs* fromArgs,
const UChar* codeUnits, int32_t length,
UChar32 codePoint, UConverterCallbackReason reason,
UErrorCode* err) override;
#endif
};
#endif /* ZNC_SOCKET_H */
Zerion Mini Shell 1.0