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// LuaTCPLink.cpp
// Implements the cLuaTCPLink class representing a Lua wrapper for the cTCPLink class and the callbacks it needs
#include "Globals.h"
#include "LuaTCPLink.h"
#include "LuaServerHandle.h"
cLuaTCPLink::cLuaTCPLink(cLuaState::cTableRefPtr && a_Callbacks):
m_Callbacks(std::move(a_Callbacks))
{
}
cLuaTCPLink::cLuaTCPLink(cLuaState::cTableRefPtr && a_Callbacks, cLuaServerHandleWPtr a_ServerHandle):
m_Callbacks(std::move(a_Callbacks)),
m_Server(std::move(a_ServerHandle))
{
}
cLuaTCPLink::~cLuaTCPLink()
{
// If the link is still open, close it:
auto link = m_Link;
if (link != nullptr)
{
link->Close();
}
Terminated();
}
bool cLuaTCPLink::Send(const AString & a_Data)
{
// If running in SSL mode, push the data into the SSL context instead:
if (m_SslContext != nullptr)
{
m_SslContext->Send(a_Data);
return true;
}
// Safely grab a copy of the link:
auto link = m_Link;
if (link == nullptr)
{
return false;
}
// Send the data:
return link->Send(a_Data);
}
AString cLuaTCPLink::GetLocalIP(void) const
{
// Safely grab a copy of the link:
auto link = m_Link;
if (link == nullptr)
{
return "";
}
// Get the IP address:
return link->GetLocalIP();
}
UInt16 cLuaTCPLink::GetLocalPort(void) const
{
// Safely grab a copy of the link:
auto link = m_Link;
if (link == nullptr)
{
return 0;
}
// Get the port:
return link->GetLocalPort();
}
AString cLuaTCPLink::GetRemoteIP(void) const
{
// Safely grab a copy of the link:
cTCPLinkPtr link = m_Link;
if (link == nullptr)
{
return "";
}
// Get the IP address:
return link->GetRemoteIP();
}
UInt16 cLuaTCPLink::GetRemotePort(void) const
{
// Safely grab a copy of the link:
cTCPLinkPtr link = m_Link;
if (link == nullptr)
{
return 0;
}
// Get the port:
return link->GetRemotePort();
}
void cLuaTCPLink::Shutdown(void)
{
// Safely grab a copy of the link and shut it down:
cTCPLinkPtr link = m_Link;
if (link != nullptr)
{
if (m_SslContext != nullptr)
{
m_SslContext->NotifyClose();
m_SslContext->ResetSelf();
m_SslContext.reset();
}
link->Shutdown();
}
}
void cLuaTCPLink::Close(void)
{
// If the link is still open, close it:
cTCPLinkPtr link = m_Link;
if (link != nullptr)
{
if (m_SslContext != nullptr)
{
m_SslContext->NotifyClose();
m_SslContext->ResetSelf();
m_SslContext.reset();
}
link->Close();
}
Terminated();
}
AString cLuaTCPLink::StartTLSClient(
const AString & a_OwnCertData,
const AString & a_OwnPrivKeyData,
const AString & a_OwnPrivKeyPassword
)
{
// Check preconditions:
if (m_SslContext != nullptr)
{
return "TLS is already active on this link";
}
if (
(a_OwnCertData.empty() && !a_OwnPrivKeyData.empty()) ||
(!a_OwnCertData.empty() && a_OwnPrivKeyData.empty())
)
{
return "Either provide both the certificate and private key, or neither";
}
// Create the SSL context:
m_SslContext.reset(new cLinkSslContext(*this));
m_SslContext->Initialize(true);
// Create the peer cert, if required:
if (!a_OwnCertData.empty() && !a_OwnPrivKeyData.empty())
{
auto OwnCert = std::make_shared<cX509Cert>();
int res = OwnCert->Parse(a_OwnCertData.data(), a_OwnCertData.size());
if (res != 0)
{
m_SslContext.reset();
return Printf("Cannot parse peer certificate: -0x%x", res);
}
auto OwnPrivKey = std::make_shared<cCryptoKey>();
res = OwnPrivKey->ParsePrivate(a_OwnPrivKeyData.data(), a_OwnPrivKeyData.size(), a_OwnPrivKeyPassword);
if (res != 0)
{
m_SslContext.reset();
return Printf("Cannot parse peer private key: -0x%x", res);
}
m_SslContext->SetOwnCert(OwnCert, OwnPrivKey);
}
m_SslContext->SetSelf(cLinkSslContextWPtr(m_SslContext));
// Start the handshake:
m_SslContext->Handshake();
return "";
}
AString cLuaTCPLink::StartTLSServer(
const AString & a_OwnCertData,
const AString & a_OwnPrivKeyData,
const AString & a_OwnPrivKeyPassword,
const AString & a_StartTLSData
)
{
// Check preconditions:
if (m_SslContext != nullptr)
{
return "TLS is already active on this link";
}
if (a_OwnCertData.empty() || a_OwnPrivKeyData.empty())
{
return "Provide the server certificate and private key";
}
// Create the SSL context:
m_SslContext.reset(new cLinkSslContext(*this));
m_SslContext->Initialize(false);
// Create the peer cert:
auto OwnCert = std::make_shared<cX509Cert>();
int res = OwnCert->Parse(a_OwnCertData.data(), a_OwnCertData.size());
if (res != 0)
{
m_SslContext.reset();
return Printf("Cannot parse server certificate: -0x%x", res);
}
auto OwnPrivKey = std::make_shared<cCryptoKey>();
res = OwnPrivKey->ParsePrivate(a_OwnPrivKeyData.data(), a_OwnPrivKeyData.size(), a_OwnPrivKeyPassword);
if (res != 0)
{
m_SslContext.reset();
return Printf("Cannot parse server private key: -0x%x", res);
}
m_SslContext->SetOwnCert(OwnCert, OwnPrivKey);
m_SslContext->SetSelf(cLinkSslContextWPtr(m_SslContext));
// Push the initial data:
m_SslContext->StoreReceivedData(a_StartTLSData.data(), a_StartTLSData.size());
// Start the handshake:
m_SslContext->Handshake();
return "";
}
void cLuaTCPLink::Terminated(void)
{
// Disable the callbacks:
if (m_Callbacks->IsValid())
{
m_Callbacks->Clear();
}
// If the managing server is still alive, let it know we're terminating:
auto Server = m_Server.lock();
if (Server != nullptr)
{
Server->RemoveLink(this);
}
// If the link is still open, close it:
{
auto link= m_Link;
if (link != nullptr)
{
link->Close();
m_Link.reset();
}
}
// If the SSL context still exists, free it:
m_SslContext.reset();
}
void cLuaTCPLink::ReceivedCleartextData(const char * a_Data, size_t a_NumBytes)
{
// Call the callback:
m_Callbacks->CallTableFn("OnReceivedData", this, AString(a_Data, a_NumBytes));
}
void cLuaTCPLink::OnConnected(cTCPLink & a_Link)
{
// Call the callback:
m_Callbacks->CallTableFn("OnConnected", this);
}
void cLuaTCPLink::OnError(int a_ErrorCode, const AString & a_ErrorMsg)
{
// Call the callback:
m_Callbacks->CallTableFn("OnError", this, a_ErrorCode, a_ErrorMsg);
// Terminate all processing on the link:
Terminated();
}
void cLuaTCPLink::OnLinkCreated(cTCPLinkPtr a_Link)
{
// Store the cTCPLink for later use:
m_Link = a_Link;
}
void cLuaTCPLink::OnReceivedData(const char * a_Data, size_t a_Length)
{
// If we're running in SSL mode, put the data into the SSL decryptor:
auto sslContext = m_SslContext;
if (sslContext != nullptr)
{
sslContext->StoreReceivedData(a_Data, a_Length);
return;
}
// Call the callback:
m_Callbacks->CallTableFn("OnReceivedData", this, AString(a_Data, a_Length));
}
void cLuaTCPLink::OnRemoteClosed(void)
{
// If running in SSL mode and there's data left in the SSL contect, report it:
auto sslContext = m_SslContext;
if (sslContext != nullptr)
{
sslContext->FlushBuffers();
}
// Call the callback:
m_Callbacks->CallTableFn("OnRemoteClosed", this);
// Terminate all processing on the link:
Terminated();
}
////////////////////////////////////////////////////////////////////////////////
// cLuaTCPLink::cLinkSslContext:
cLuaTCPLink::cLinkSslContext::cLinkSslContext(cLuaTCPLink & a_Link):
m_Link(a_Link)
{
}
void cLuaTCPLink::cLinkSslContext::SetSelf(cLinkSslContextWPtr a_Self)
{
m_Self = a_Self;
}
void cLuaTCPLink::cLinkSslContext::ResetSelf(void)
{
m_Self.reset();
}
void cLuaTCPLink::cLinkSslContext::StoreReceivedData(const char * a_Data, size_t a_NumBytes)
{
// Hold self alive for the duration of this function
cLinkSslContextPtr Self(m_Self);
m_EncryptedData.append(a_Data, a_NumBytes);
// Try to finish a pending handshake:
TryFinishHandshaking();
// Flush any cleartext data that can be "received":
FlushBuffers();
}
void cLuaTCPLink::cLinkSslContext::FlushBuffers(void)
{
// Hold self alive for the duration of this function
cLinkSslContextPtr Self(m_Self);
// If the handshake didn't complete yet, bail out:
if (!HasHandshaken())
{
return;
}
char Buffer[1024];
int NumBytes;
while ((NumBytes = ReadPlain(Buffer, sizeof(Buffer))) > 0)
{
m_Link.ReceivedCleartextData(Buffer, static_cast<size_t>(NumBytes));
if (m_Self.expired())
{
// The callback closed the SSL context, bail out
return;
}
}
}
void cLuaTCPLink::cLinkSslContext::TryFinishHandshaking(void)
{
// Hold self alive for the duration of this function
cLinkSslContextPtr Self(m_Self);
// If the handshake hasn't finished yet, retry:
if (!HasHandshaken())
{
Handshake();
}
// If the handshake succeeded, write all the queued plaintext data:
if (HasHandshaken())
{
WritePlain(m_CleartextData.data(), m_CleartextData.size());
m_CleartextData.clear();
}
}
void cLuaTCPLink::cLinkSslContext::Send(const AString & a_Data)
{
// Hold self alive for the duration of this function
cLinkSslContextPtr Self(m_Self);
// If the handshake hasn't completed yet, queue the data:
if (!HasHandshaken())
{
m_CleartextData.append(a_Data);
TryFinishHandshaking();
return;
}
// The connection is all set up, write the cleartext data into the SSL context:
WritePlain(a_Data.data(), a_Data.size());
FlushBuffers();
}
int cLuaTCPLink::cLinkSslContext::ReceiveEncrypted(unsigned char * a_Buffer, size_t a_NumBytes)
{
// Hold self alive for the duration of this function
cLinkSslContextPtr Self(m_Self);
// If there's nothing queued in the buffer, report empty buffer:
if (m_EncryptedData.empty())
{
return POLARSSL_ERR_NET_WANT_READ;
}
// Copy as much data as possible to the provided buffer:
size_t BytesToCopy = std::min(a_NumBytes, m_EncryptedData.size());
memcpy(a_Buffer, m_EncryptedData.data(), BytesToCopy);
m_EncryptedData.erase(0, BytesToCopy);
return static_cast<int>(BytesToCopy);
}
int cLuaTCPLink::cLinkSslContext::SendEncrypted(const unsigned char * a_Buffer, size_t a_NumBytes)
{
m_Link.m_Link->Send(a_Buffer, a_NumBytes);
return static_cast<int>(a_NumBytes);
}
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