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|
#include "stdafx.h"
#include <util/datetime/cputimer.h>
#include <util/draft/holder_vector.h>
#include <util/generic/utility.h>
#include <util/generic/vector.h>
#include <util/network/init.h>
#include <util/network/poller.h>
#include <library/cpp/deprecated/atomic/atomic.h>
#include <util/system/byteorder.h>
#include <util/system/defaults.h>
#include <util/system/error.h>
#include <util/system/event.h>
#include <util/system/thread.h>
#include <util/system/yassert.h>
#include <util/system/rwlock.h>
#include <util/system/env.h>
#include "socket.h"
#include "packet_queue.h"
#include "udp_recv_packet.h"
#include <array>
#include <stdlib.h>
///////////////////////////////////////////////////////////////////////////////
#ifndef _win_
#include <netinet/in.h>
#endif
#ifdef _linux_
#include <dlfcn.h> // dlsym
#endif
template <class T>
static T GetAddressOf(const char* name) {
#ifdef _linux_
if (!GetEnv("DISABLE_MMSG")) {
return (T)dlsym(RTLD_DEFAULT, name);
}
#endif
Y_UNUSED(name);
return nullptr;
}
///////////////////////////////////////////////////////////////////////////////
namespace NNetlibaSocket {
///////////////////////////////////////////////////////////////////////////////
struct timespec; // we use it only as NULL pointer
typedef int (*TSendMMsgFunc)(SOCKET, TMMsgHdr*, unsigned int, unsigned int);
typedef int (*TRecvMMsgFunc)(SOCKET, TMMsgHdr*, unsigned int, unsigned int, timespec*);
static const TSendMMsgFunc SendMMsgFunc = GetAddressOf<TSendMMsgFunc>("sendmmsg");
static const TRecvMMsgFunc RecvMMsgFunc = GetAddressOf<TRecvMMsgFunc>("recvmmsg");
///////////////////////////////////////////////////////////////////////////////
bool ReadTos(const TMsgHdr& msgHdr, ui8* tos) {
#ifdef _win_
Y_UNUSED(msgHdr);
Y_UNUSED(tos);
return false;
#else
cmsghdr* cmsg = CMSG_FIRSTHDR(&msgHdr);
if (!cmsg)
return false;
//Y_ASSERT(cmsg->cmsg_level == IPPROTO_IPV6);
//Y_ASSERT(cmsg->cmsg_type == IPV6_TCLASS);
if (cmsg->cmsg_len != CMSG_LEN(sizeof(int)))
return false;
*tos = *(ui8*)CMSG_DATA(cmsg);
return true;
#endif
}
bool ExtractDestinationAddress(TMsgHdr& msgHdr, sockaddr_in6* addrBuf) {
Zero(*addrBuf);
#ifdef _win_
Y_UNUSED(msgHdr);
Y_UNUSED(addrBuf);
return false;
#else
cmsghdr* cmsg;
for (cmsg = CMSG_FIRSTHDR(&msgHdr); cmsg != nullptr; cmsg = CMSG_NXTHDR(&msgHdr, cmsg)) {
if ((cmsg->cmsg_level == IPPROTO_IPV6) && (cmsg->cmsg_type == IPV6_PKTINFO)) {
in6_pktinfo* i = (in6_pktinfo*)CMSG_DATA(cmsg);
addrBuf->sin6_addr = i->ipi6_addr;
addrBuf->sin6_family = AF_INET6;
return true;
}
}
return false;
#endif
}
// all send and recv methods are thread safe!
class TAbstractSocket: public ISocket {
private:
SOCKET S;
mutable TSocketPoller Poller;
sockaddr_in6 SelfAddress;
int SendSysSocketSize;
int SendSysSocketSizePrev;
int CreateSocket(int netPort);
int DetectSelfAddress();
protected:
int SetSockOpt(int level, int option_name, const void* option_value, socklen_t option_len);
int OpenImpl(int port);
void CloseImpl();
void WaitImpl(float timeoutSec) const;
void CancelWaitImpl(const sockaddr_in6* address = nullptr); // NULL means "self"
ssize_t RecvMsgImpl(TMsgHdr* hdr, int flags);
TUdpRecvPacket* RecvImpl(TUdpHostRecvBufAlloc* buf, sockaddr_in6* srcAddr, sockaddr_in6* dstAddr);
int RecvMMsgImpl(TMMsgHdr* msgvec, unsigned int vlen, unsigned int flags, timespec* timeout);
bool IsFragmentationForbiden();
void ForbidFragmentation();
void EnableFragmentation();
//Shared state for setsockopt. Forbid simultaneous transfer while sender asking for specific options (i.e. DONOT_FRAG)
TRWMutex Mutex;
TAtomic RecvLag = 0;
public:
TAbstractSocket();
~TAbstractSocket() override;
#ifdef _unix_
void Reset(const TAbstractSocket& rhv);
#endif
bool IsValid() const override;
const sockaddr_in6& GetSelfAddress() const override;
int GetNetworkOrderPort() const override;
int GetPort() const override;
int GetSockOpt(int level, int option_name, void* option_value, socklen_t* option_len) override;
// send all packets to this and only this address by default
int Connect(const struct sockaddr* address, socklen_t address_len) override;
void CancelWaitHost(const sockaddr_in6 addr) override;
bool IsSendMMsgSupported() const override;
int SendMMsg(TMMsgHdr* msgvec, unsigned int vlen, unsigned int flags) override;
ssize_t SendMsg(const TMsgHdr* hdr, int flags, const EFragFlag frag) override;
bool IncreaseSendBuff() override;
int GetSendSysSocketSize() override;
void SetRecvLagTime(NHPTimer::STime time) override;
};
TAbstractSocket::TAbstractSocket()
: S(INVALID_SOCKET)
, SendSysSocketSize(0)
, SendSysSocketSizePrev(0)
{
Zero(SelfAddress);
}
TAbstractSocket::~TAbstractSocket() {
CloseImpl();
}
#ifdef _unix_
void TAbstractSocket::Reset(const TAbstractSocket& rhv) {
Close();
S = dup(rhv.S);
SelfAddress = rhv.SelfAddress;
}
#endif
int TAbstractSocket::CreateSocket(int netPort) {
if (IsValid()) {
Y_ASSERT(0);
return 0;
}
S = socket(AF_INET6, SOCK_DGRAM, IPPROTO_UDP);
if (S == INVALID_SOCKET) {
return -1;
}
{
int flag = 0;
Y_ABORT_UNLESS(SetSockOpt(IPPROTO_IPV6, IPV6_V6ONLY, (const char*)&flag, sizeof(flag)) == 0, "IPV6_V6ONLY failed");
}
{
int flag = 1;
Y_ABORT_UNLESS(SetSockOpt(SOL_SOCKET, SO_REUSEADDR, (const char*)&flag, sizeof(flag)) == 0, "SO_REUSEADDR failed");
}
#if defined(_win_)
unsigned long dummy = 1;
ioctlsocket(S, FIONBIO, &dummy);
#else
Y_ABORT_UNLESS(fcntl(S, F_SETFL, O_NONBLOCK) == 0, "fnctl failed: %s (errno = %d)", LastSystemErrorText(), LastSystemError());
Y_ABORT_UNLESS(fcntl(S, F_SETFD, FD_CLOEXEC) == 0, "fnctl failed: %s (errno = %d)", LastSystemErrorText(), LastSystemError());
{
int flag = 1;
#ifndef IPV6_RECVPKTINFO /* Darwin platforms require this */
Y_ABORT_UNLESS(SetSockOpt(IPPROTO_IPV6, IPV6_PKTINFO, (const char*)&flag, sizeof(flag)) == 0, "IPV6_PKTINFO failed");
#else
Y_ABORT_UNLESS(SetSockOpt(IPPROTO_IPV6, IPV6_RECVPKTINFO, (const char*)&flag, sizeof(flag)) == 0, "IPV6_RECVPKTINFO failed");
#endif
}
#endif
Poller.WaitRead(S, nullptr);
{
// bind socket
sockaddr_in6 name;
Zero(name);
name.sin6_family = AF_INET6;
name.sin6_addr = in6addr_any;
name.sin6_port = netPort;
if (bind(S, (sockaddr*)&name, sizeof(name)) != 0) {
fprintf(stderr, "netliba_socket could not bind to port %d: %s (errno = %d)\n", InetToHost((ui16)netPort), LastSystemErrorText(), LastSystemError());
CloseImpl(); // we call this CloseImpl after Poller initialization
return -1;
}
}
//Default behavior is allowing fragmentation (according to netliba v6 behavior)
//If we want to sent packet with DF flag we have to use SendMsg()
EnableFragmentation();
{
socklen_t sz = sizeof(SendSysSocketSize);
if (GetSockOpt(SOL_SOCKET, SO_SNDBUF, &SendSysSocketSize, &sz)) {
fprintf(stderr, "Can`t get SO_SNDBUF");
}
}
return 0;
}
bool TAbstractSocket::IsValid() const {
return S != INVALID_SOCKET;
}
int TAbstractSocket::DetectSelfAddress() {
socklen_t nameLen = sizeof(SelfAddress);
if (getsockname(S, (sockaddr*)&SelfAddress, &nameLen) != 0) { // actually we use only sin6_port
return -1;
}
Y_ASSERT(SelfAddress.sin6_family == AF_INET6);
SelfAddress.sin6_addr = in6addr_loopback;
return 0;
}
const sockaddr_in6& TAbstractSocket::GetSelfAddress() const {
return SelfAddress;
}
int TAbstractSocket::GetNetworkOrderPort() const {
return SelfAddress.sin6_port;
}
int TAbstractSocket::GetPort() const {
return InetToHost((ui16)SelfAddress.sin6_port);
}
int TAbstractSocket::SetSockOpt(int level, int option_name, const void* option_value, socklen_t option_len) {
const int rv = setsockopt(S, level, option_name, (const char*)option_value, option_len);
Y_DEBUG_ABORT_UNLESS(rv == 0, "SetSockOpt failed: %s (errno = %d)", LastSystemErrorText(), LastSystemError());
return rv;
}
int TAbstractSocket::GetSockOpt(int level, int option_name, void* option_value, socklen_t* option_len) {
const int rv = getsockopt(S, level, option_name, (char*)option_value, option_len);
Y_DEBUG_ABORT_UNLESS(rv == 0, "GetSockOpt failed: %s (errno = %d)", LastSystemErrorText(), LastSystemError());
return rv;
}
bool TAbstractSocket::IsFragmentationForbiden() {
#if defined(_win_)
DWORD flag = 0;
socklen_t sz = sizeof(flag);
Y_ABORT_UNLESS(GetSockOpt(IPPROTO_IP, IP_DONTFRAGMENT, (char*)&flag, &sz) == 0, "");
return flag;
#elif defined(_linux_)
int flag = 0;
socklen_t sz = sizeof(flag);
Y_ABORT_UNLESS(GetSockOpt(IPPROTO_IPV6, IPV6_MTU_DISCOVER, (char*)&flag, &sz) == 0, "");
return flag == IPV6_PMTUDISC_DO;
#elif !defined(_darwin_)
int flag = 0;
socklen_t sz = sizeof(flag);
Y_ABORT_UNLESS(GetSockOpt(IPPROTO_IPV6, IPV6_DONTFRAG, (char*)&flag, &sz) == 0, "");
return flag;
#endif
return false;
}
void TAbstractSocket::ForbidFragmentation() {
// do not fragment ping packets
#if defined(_win_)
DWORD flag = 1;
SetSockOpt(IPPROTO_IP, IP_DONTFRAGMENT, (const char*)&flag, sizeof(flag));
#elif defined(_linux_)
int flag = IP_PMTUDISC_DO;
SetSockOpt(IPPROTO_IP, IP_MTU_DISCOVER, (const char*)&flag, sizeof(flag));
flag = IPV6_PMTUDISC_DO;
SetSockOpt(IPPROTO_IPV6, IPV6_MTU_DISCOVER, (const char*)&flag, sizeof(flag));
#elif !defined(_darwin_)
int flag = 1;
//SetSockOpt(IPPROTO_IP, IP_DONTFRAG, (const char*)&flag, sizeof(flag));
SetSockOpt(IPPROTO_IPV6, IPV6_DONTFRAG, (const char*)&flag, sizeof(flag));
#endif
}
void TAbstractSocket::EnableFragmentation() {
#if defined(_win_)
DWORD flag = 0;
SetSockOpt(IPPROTO_IP, IP_DONTFRAGMENT, (const char*)&flag, sizeof(flag));
#elif defined(_linux_)
int flag = IP_PMTUDISC_WANT;
SetSockOpt(IPPROTO_IP, IP_MTU_DISCOVER, (const char*)&flag, sizeof(flag));
flag = IPV6_PMTUDISC_WANT;
SetSockOpt(IPPROTO_IPV6, IPV6_MTU_DISCOVER, (const char*)&flag, sizeof(flag));
#elif !defined(_darwin_)
int flag = 0;
//SetSockOpt(IPPROTO_IP, IP_DONTFRAG, (const char*)&flag, sizeof(flag));
SetSockOpt(IPPROTO_IPV6, IPV6_DONTFRAG, (const char*)&flag, sizeof(flag));
#endif
}
int TAbstractSocket::Connect(const sockaddr* address, socklen_t address_len) {
Y_ASSERT(IsValid());
return connect(S, address, address_len);
}
void TAbstractSocket::CancelWaitHost(const sockaddr_in6 addr) {
CancelWaitImpl(&addr);
}
bool TAbstractSocket::IsSendMMsgSupported() const {
return SendMMsgFunc != nullptr;
}
int TAbstractSocket::SendMMsg(TMMsgHdr* msgvec, unsigned int vlen, unsigned int flags) {
Y_ASSERT(IsValid());
Y_ABORT_UNLESS(SendMMsgFunc, "sendmmsg is not supported!");
TReadGuard rg(Mutex);
static bool checked = 0;
Y_ABORT_UNLESS(checked || (checked = !IsFragmentationForbiden()), "Send methods of this class expect default EnableFragmentation behavior");
return SendMMsgFunc(S, msgvec, vlen, flags);
}
ssize_t TAbstractSocket::SendMsg(const TMsgHdr* hdr, int flags, const EFragFlag frag) {
Y_ASSERT(IsValid());
#ifdef _win32_
static bool checked = 0;
Y_ABORT_UNLESS(hdr->msg_iov->iov_len == 1, "Scatter/gather is currenly not supported on Windows");
if (hdr->Tos || frag == FF_DONT_FRAG) {
TWriteGuard wg(Mutex);
if (frag == FF_DONT_FRAG) {
ForbidFragmentation();
} else {
Y_ABORT_UNLESS(checked || (checked = !IsFragmentationForbiden()), "Send methods of this class expect default EnableFragmentation behavior");
}
int originalTos;
if (hdr->Tos) {
socklen_t sz = sizeof(originalTos);
Y_ABORT_UNLESS(GetSockOpt(IPPROTO_IP, IP_TOS, (char*)&originalTos, &sz) == 0, "");
Y_ABORT_UNLESS(SetSockOpt(IPPROTO_IP, IP_TOS, (char*)&hdr->Tos, sizeof(hdr->Tos)) == 0, "");
}
const ssize_t rv = sendto(S, hdr->msg_iov->iov_base, hdr->msg_iov->iov_len, flags, (sockaddr*)hdr->msg_name, hdr->msg_namelen);
if (hdr->Tos) {
Y_ABORT_UNLESS(SetSockOpt(IPPROTO_IP, IP_TOS, (char*)&originalTos, sizeof(originalTos)) == 0, "");
}
if (frag == FF_DONT_FRAG) {
EnableFragmentation();
}
return rv;
}
TReadGuard rg(Mutex);
Y_ABORT_UNLESS(checked || (checked = !IsFragmentationForbiden()), "Send methods of this class expect default EnableFragmentation behavior");
return sendto(S, hdr->msg_iov->iov_base, hdr->msg_iov->iov_len, flags, (sockaddr*)hdr->msg_name, hdr->msg_namelen);
#else
if (frag == FF_DONT_FRAG) {
TWriteGuard wg(Mutex);
ForbidFragmentation();
const ssize_t rv = sendmsg(S, hdr, flags);
EnableFragmentation();
return rv;
}
TReadGuard rg(Mutex);
#ifndef _darwin_
static bool checked = 0;
Y_ABORT_UNLESS(checked || (checked = !IsFragmentationForbiden()), "Send methods of this class expect default EnableFragmentation behavior");
#endif
return sendmsg(S, hdr, flags);
#endif
}
bool TAbstractSocket::IncreaseSendBuff() {
int buffSize;
socklen_t sz = sizeof(buffSize);
if (GetSockOpt(SOL_SOCKET, SO_SNDBUF, &buffSize, &sz)) {
return false;
}
// worst case: 200000 pps * 8k * 0.01sec = 16Mb so 32Mb hard limit is reasonable value
if (buffSize < 0 || buffSize > (1 << 25)) {
fprintf(stderr, "GetSockOpt returns wrong or too big value for SO_SNDBUF: %d\n", buffSize);
return false;
}
//linux returns the doubled value. man 7 socket:
//
// SO_SNDBUF
// Sets or gets the maximum socket send buffer in bytes. The ker-
// nel doubles this value (to allow space for bookkeeping overhead)
// when it is set using setsockopt(), and this doubled value is
// returned by getsockopt(). The default value is set by the
// wmem_default sysctl and the maximum allowed value is set by the
// wmem_max sysctl. The minimum (doubled) value for this option is
// 2048.
//
#ifndef _linux_
buffSize += buffSize;
#endif
// false if previous value was less than current value.
// It means setsockopt was not successful. (for example: system limits)
// we will try to set it again but return false
const bool rv = !(buffSize <= SendSysSocketSizePrev);
if (SetSockOpt(SOL_SOCKET, SO_SNDBUF, &buffSize, sz) == 0) {
SendSysSocketSize = buffSize;
SendSysSocketSizePrev = buffSize;
return rv;
}
return false;
}
int TAbstractSocket::GetSendSysSocketSize() {
return SendSysSocketSize;
}
void TAbstractSocket::SetRecvLagTime(NHPTimer::STime time) {
AtomicSet(RecvLag, time);
}
int TAbstractSocket::OpenImpl(int port) {
Y_ASSERT(!IsValid());
const int netPort = port ? htons((u_short)port) : 0;
#ifdef _freebsd_
// alternative OS
if (netPort == 0) {
static ui64 pp = GetCycleCount();
for (int attempt = 0; attempt < 100; ++attempt) {
const int tryPort = htons((pp & 0x3fff) + 0xc000);
++pp;
if (CreateSocket(tryPort) != 0) {
Y_ASSERT(!IsValid());
continue;
}
if (DetectSelfAddress() != 0 || tryPort != SelfAddress.sin6_port) {
// FreeBSD suck!
CloseImpl();
Y_ASSERT(!IsValid());
continue;
}
break;
}
if (!IsValid()) {
return -1;
}
} else {
if (CreateSocket(netPort) != 0) {
Y_ASSERT(!IsValid());
return -1;
}
}
#else
// regular OS
if (CreateSocket(netPort) != 0) {
Y_ASSERT(!IsValid());
return -1;
}
#endif
if (IsValid() && DetectSelfAddress() != 0) {
CloseImpl();
Y_ASSERT(!IsValid());
return -1;
}
Y_ASSERT(IsValid());
return 0;
}
void TAbstractSocket::CloseImpl() {
if (IsValid()) {
Poller.Unwait(S);
Y_ABORT_UNLESS(closesocket(S) == 0, "closesocket failed: %s (errno = %d)", LastSystemErrorText(), LastSystemError());
}
S = INVALID_SOCKET;
}
void TAbstractSocket::WaitImpl(float timeoutSec) const {
Y_ABORT_UNLESS(IsValid(), "something went wrong");
Poller.WaitT(TDuration::Seconds(timeoutSec));
}
void TAbstractSocket::CancelWaitImpl(const sockaddr_in6* address) {
Y_ASSERT(IsValid());
// darwin ignores packets with msg_iovlen == 0, also windows implementation uses sendto of first iovec.
TIoVec v = CreateIoVec(nullptr, 0);
TMsgHdr hdr = CreateSendMsgHdr((address ? *address : SelfAddress), v, nullptr);
// send self fake packet
TAbstractSocket::SendMsg(&hdr, 0, FF_ALLOW_FRAG);
}
ssize_t TAbstractSocket::RecvMsgImpl(TMsgHdr* hdr, int flags) {
Y_ASSERT(IsValid());
#ifdef _win32_
Y_ABORT_UNLESS(hdr->msg_iov->iov_len == 1, "Scatter/gather is currenly not supported on Windows");
return recvfrom(S, hdr->msg_iov->iov_base, hdr->msg_iov->iov_len, flags, (sockaddr*)hdr->msg_name, &hdr->msg_namelen);
#else
return recvmsg(S, hdr, flags);
#endif
}
TUdpRecvPacket* TAbstractSocket::RecvImpl(TUdpHostRecvBufAlloc* buf, sockaddr_in6* srcAddr, sockaddr_in6* dstAddr) {
Y_ASSERT(IsValid());
const TIoVec iov = CreateIoVec(buf->GetDataPtr(), buf->GetBufSize());
char controllBuffer[CTRL_BUFFER_SIZE]; //used to get dst address from socket
TMsgHdr hdr = CreateRecvMsgHdr(srcAddr, iov, controllBuffer);
const ssize_t rv = TAbstractSocket::RecvMsgImpl(&hdr, 0);
if (rv < 0) {
Y_ASSERT(LastSystemError() == EAGAIN || LastSystemError() == EWOULDBLOCK);
return nullptr;
}
if (dstAddr && !ExtractDestinationAddress(hdr, dstAddr)) {
//fprintf(stderr, "can`t get destination ip\n");
}
// we extract packet and allocate new buffer only if packet arrived
TUdpRecvPacket* result = buf->ExtractPacket();
result->DataStart = 0;
result->DataSize = (int)rv;
return result;
}
// thread-safe
int TAbstractSocket::RecvMMsgImpl(TMMsgHdr* msgvec, unsigned int vlen, unsigned int flags, timespec* timeout) {
Y_ASSERT(IsValid());
Y_ABORT_UNLESS(RecvMMsgFunc, "recvmmsg is not supported!");
return RecvMMsgFunc(S, msgvec, vlen, flags, timeout);
}
///////////////////////////////////////////////////////////////////////////////
class TSocket: public TAbstractSocket {
public:
int Open(int port) override;
void Close() override;
void Wait(float timeoutSec, int netlibaVersion) const override;
void CancelWait(int netlibaVersion) override;
bool IsRecvMsgSupported() const override;
ssize_t RecvMsg(TMsgHdr* hdr, int flags) override;
TUdpRecvPacket* Recv(sockaddr_in6* srcAddr, sockaddr_in6* dstAddr, int netlibaVersion) override;
private:
TUdpHostRecvBufAlloc RecvBuf;
};
int TSocket::Open(int port) {
return OpenImpl(port);
}
void TSocket::Close() {
CloseImpl();
}
void TSocket::Wait(float timeoutSec, int netlibaVersion) const {
Y_UNUSED(netlibaVersion);
WaitImpl(timeoutSec);
}
void TSocket::CancelWait(int netlibaVersion) {
Y_UNUSED(netlibaVersion);
CancelWaitImpl();
}
bool TSocket::IsRecvMsgSupported() const {
return true;
}
ssize_t TSocket::RecvMsg(TMsgHdr* hdr, int flags) {
return RecvMsgImpl(hdr, flags);
}
TUdpRecvPacket* TSocket::Recv(sockaddr_in6* srcAddr, sockaddr_in6* dstAddr, int netlibaVersion) {
Y_UNUSED(netlibaVersion);
return RecvImpl(&RecvBuf, srcAddr, dstAddr);
}
///////////////////////////////////////////////////////////////////////////////
class TTryToRecvMMsgSocket: public TAbstractSocket {
private:
THolderVector<TUdpHostRecvBufAlloc> RecvPackets;
TVector<sockaddr_in6> RecvPacketsSrcAddresses;
TVector<TIoVec> RecvPacketsIoVecs;
size_t RecvPacketsBegin; // first non returned to user
size_t RecvPacketsHeadersEnd; // next after last one with data
TVector<TMMsgHdr> RecvPacketsHeaders;
TVector<std::array<char, CTRL_BUFFER_SIZE>> RecvPacketsCtrlBuffers;
int FillRecvBuffers();
public:
static bool IsRecvMMsgSupported();
// Tests showed best performance on queue size 128 (+7%).
// If memory is limited you can use 12 - it gives +4%.
// Do not use lower values - for example recvmmsg with 1 element is 3% slower that recvmsg!
// (tested with junk/f0b0s/neTBasicSocket_queue_test).
TTryToRecvMMsgSocket(const size_t recvQueueSize = 128);
~TTryToRecvMMsgSocket() override;
int Open(int port) override;
void Close() override;
void Wait(float timeoutSec, int netlibaVersion) const override;
void CancelWait(int netlibaVersion) override;
bool IsRecvMsgSupported() const override {
return false;
}
ssize_t RecvMsg(TMsgHdr* hdr, int flags) override {
Y_UNUSED(hdr);
Y_UNUSED(flags);
Y_ABORT_UNLESS(false, "Use TBasicSocket for RecvMsg call! TRecvMMsgSocket implementation must use memcpy which is suboptimal and thus forbidden!");
}
TUdpRecvPacket* Recv(sockaddr_in6* addr, sockaddr_in6* dstAddr, int netlibaVersion) override;
};
TTryToRecvMMsgSocket::TTryToRecvMMsgSocket(const size_t recvQueueSize)
: RecvPacketsBegin(0)
, RecvPacketsHeadersEnd(0)
{
// recvmmsg is not supported - will act like TSocket,
// we can't just VERIFY - TTryToRecvMMsgSocket is used as base class for TDualStackSocket.
if (!IsRecvMMsgSupported()) {
RecvPackets.reserve(1);
RecvPackets.PushBack(new TUdpHostRecvBufAlloc);
return;
}
RecvPackets.reserve(recvQueueSize);
for (size_t i = 0; i != recvQueueSize; ++i) {
RecvPackets.PushBack(new TUdpHostRecvBufAlloc);
}
RecvPacketsSrcAddresses.resize(recvQueueSize);
RecvPacketsIoVecs.resize(recvQueueSize);
RecvPacketsHeaders.resize(recvQueueSize);
RecvPacketsCtrlBuffers.resize(recvQueueSize);
for (size_t i = 0; i != recvQueueSize; ++i) {
TMMsgHdr& mhdr = RecvPacketsHeaders[i];
Zero(mhdr);
RecvPacketsIoVecs[i] = CreateIoVec(RecvPackets[i]->GetDataPtr(), RecvPackets[i]->GetBufSize());
char* buf = RecvPacketsCtrlBuffers[i].data();
memset(buf, 0, CTRL_BUFFER_SIZE);
mhdr.msg_hdr = CreateRecvMsgHdr(&RecvPacketsSrcAddresses[i], RecvPacketsIoVecs[i], buf);
}
}
TTryToRecvMMsgSocket::~TTryToRecvMMsgSocket() {
Close();
}
int TTryToRecvMMsgSocket::Open(int port) {
return OpenImpl(port);
}
void TTryToRecvMMsgSocket::Close() {
CloseImpl();
}
void TTryToRecvMMsgSocket::Wait(float timeoutSec, int netlibaVersion) const {
Y_UNUSED(netlibaVersion);
Y_ASSERT(RecvPacketsBegin == RecvPacketsHeadersEnd || IsRecvMMsgSupported());
if (RecvPacketsBegin == RecvPacketsHeadersEnd) {
WaitImpl(timeoutSec);
}
}
void TTryToRecvMMsgSocket::CancelWait(int netlibaVersion) {
Y_UNUSED(netlibaVersion);
CancelWaitImpl();
}
bool TTryToRecvMMsgSocket::IsRecvMMsgSupported() {
return RecvMMsgFunc != nullptr;
}
int TTryToRecvMMsgSocket::FillRecvBuffers() {
Y_ASSERT(IsRecvMMsgSupported());
Y_ASSERT(RecvPacketsBegin <= RecvPacketsHeadersEnd);
if (RecvPacketsBegin < RecvPacketsHeadersEnd) {
return RecvPacketsHeadersEnd - RecvPacketsBegin;
}
// no packets left from last recvmmsg call
for (size_t i = 0; i != RecvPacketsHeadersEnd; ++i) { // reinit only used by last recvmmsg call headers
RecvPacketsIoVecs[i] = CreateIoVec(RecvPackets[i]->GetDataPtr(), RecvPackets[i]->GetBufSize());
}
RecvPacketsBegin = RecvPacketsHeadersEnd = 0;
const int r = RecvMMsgImpl(&RecvPacketsHeaders[0], (unsigned int)RecvPacketsHeaders.size(), 0, nullptr);
if (r >= 0) {
RecvPacketsHeadersEnd = r;
} else {
Y_ASSERT(LastSystemError() == EAGAIN || LastSystemError() == EWOULDBLOCK);
}
return r;
}
// not thread-safe
TUdpRecvPacket* TTryToRecvMMsgSocket::Recv(sockaddr_in6* fromAddress, sockaddr_in6* dstAddr, int) {
// act like TSocket
if (!IsRecvMMsgSupported()) {
return RecvImpl(RecvPackets[0], fromAddress, dstAddr);
}
if (FillRecvBuffers() <= 0) {
return nullptr;
}
TUdpRecvPacket* result = RecvPackets[RecvPacketsBegin]->ExtractPacket();
TMMsgHdr& mmsgHdr = RecvPacketsHeaders[RecvPacketsBegin];
result->DataSize = (ssize_t)mmsgHdr.msg_len;
if (dstAddr && !ExtractDestinationAddress(mmsgHdr.msg_hdr, dstAddr)) {
// fprintf(stderr, "can`t get destination ip\n");
}
*fromAddress = RecvPacketsSrcAddresses[RecvPacketsBegin];
//we must clean ctrlbuffer to be able to use it later
#ifndef _win_
memset(mmsgHdr.msg_hdr.msg_control, 0, CTRL_BUFFER_SIZE);
mmsgHdr.msg_hdr.msg_controllen = CTRL_BUFFER_SIZE;
#endif
RecvPacketsBegin++;
return result;
}
///////////////////////////////////////////////////////////////////////////////
/* TODO: too slow, needs to be optimized
template<size_t TTNumRecvThreads>
class TMTRecvSocket: public TAbstractSocket
{
private:
typedef TLockFreePacketQueue<TTNumRecvThreads> TPacketQueue;
static void* RecvThreadFunc(void* that)
{
static_cast<TMTRecvSocket*>(that)->RecvLoop();
return NULL;
}
void RecvLoop()
{
TBestUnixRecvSocket impl;
impl.Reset(*this);
while (AtomicAdd(NumThreadsToDie, 0) == -1) {
sockaddr_in6 addr;
TUdpRecvPacket* packet = impl.Recv(&addr, NETLIBA_ANY_VERSION);
if (!packet) {
impl.Wait(0.0001, NETLIBA_ANY_VERSION); // so small tiomeout because we can't guarantee that 1 thread won't get all packets
continue;
}
Queue.Push(packet, addr);
}
if (AtomicDecrement(NumThreadsToDie)) {
impl.CancelWait(NETLIBA_ANY_VERSION);
} else {
AllThreadsAreDead.Signal();
}
}
THolderVector<TThread> RecvThreads;
TAtomic NumThreadsToDie;
TSystemEvent AllThreadsAreDead;
TPacketQueue Queue;
public:
TMTRecvSocket()
: NumThreadsToDie(-1) {}
~TMTRecvSocket()
{
Close();
}
int Open(int port)
{
if (OpenImpl(port) != 0) {
Y_ASSERT(!IsValid());
return -1;
}
NumThreadsToDie = -1;
RecvThreads.reserve(TTNumRecvThreads);
for (size_t i = 0; i != TTNumRecvThreads; ++i) {
RecvThreads.PushBack(new TThread(TThread::TParams(RecvThreadFunc, this).SetName("nl12_recv_skt")));
RecvThreads.back()->Start();
RecvThreads.back()->Detach();
}
return 0;
}
void Close()
{
if (!IsValid()) {
return;
}
AtomicSwap(&NumThreadsToDie, (int)RecvThreads.size());
CancelWaitImpl();
Y_ABORT_UNLESS(AllThreadsAreDead.WaitT(TDuration::Seconds(30)), "TMTRecvSocket destruction failed");
CloseImpl();
}
void Wait(float timeoutSec, int netlibaVersion) const
{
Y_UNUSED(netlibaVersion);
Queue.GetEvent().WaitT(TDuration::Seconds(timeoutSec));
}
void CancelWait(int netlibaVersion)
{
Y_UNUSED(netlibaVersion);
Queue.GetEvent().Signal();
}
TUdpRecvPacket* Recv(sockaddr_in6 *addr, int netlibaVersion)
{
Y_UNUSED(netlibaVersion);
TUdpRecvPacket* result;
if (!Queue.Pop(&result, addr)) {
return NULL;
}
return result;
}
bool IsRecvMsgSupported() const { return false; }
ssize_t RecvMsg(TMsgHdr* hdr, int flags) { Y_ABORT_UNLESS(false, "Use TBasicSocket for RecvMsg call! TMTRecvSocket implementation must use memcpy which is suboptimal and thus forbidden!"); }
};
*/
///////////////////////////////////////////////////////////////////////////////
// Send.*, Recv, Wait and CancelWait are thread-safe.
class TDualStackSocket: public TTryToRecvMMsgSocket {
private:
typedef TTryToRecvMMsgSocket TBase;
typedef TLockFreePacketQueue<1> TPacketQueue;
static void* RecvThreadFunc(void* that);
void RecvLoop();
struct TFilteredPacketQueue {
enum EPushResult {
PR_FULL = 0,
PR_OK = 1,
PR_FILTERED = 2
};
const ui8 F1;
const ui8 F2;
const ui8 CmdPos;
TFilteredPacketQueue(ui8 f1, ui8 f2, ui8 cmdPos)
: F1(f1)
, F2(f2)
, CmdPos(cmdPos)
{
}
bool Pop(TUdpRecvPacket** packet, sockaddr_in6* srcAddr, sockaddr_in6* dstAddr) {
return Queue.Pop(packet, srcAddr, dstAddr);
}
ui8 Push(TUdpRecvPacket* packet, const TPacketMeta& meta) {
if (Queue.IsDataPartFull()) {
const ui8 cmd = packet->Data.get()[CmdPos];
if (cmd == F1 || cmd == F2)
return PR_FILTERED;
}
return Queue.Push(packet, meta); //false - PR_FULL, true - PR_OK
}
TPacketQueue Queue;
};
TFilteredPacketQueue& GetRecvQueue(int netlibaVersion) const;
TSystemEvent& GetQueueEvent(const TFilteredPacketQueue& queue) const;
TThread RecvThread;
TAtomic ShouldDie;
TSystemEvent DieEvent;
mutable TFilteredPacketQueue RecvQueue6;
mutable TFilteredPacketQueue RecvQueue12;
public:
TDualStackSocket();
~TDualStackSocket() override;
int Open(int port) override;
void Close() override;
void Wait(float timeoutSec, int netlibaVersion) const override;
void CancelWait(int netlibaVersion) override;
bool IsRecvMsgSupported() const override {
return false;
}
ssize_t RecvMsg(TMsgHdr* hdr, int flags) override {
Y_UNUSED(hdr);
Y_UNUSED(flags);
Y_ABORT_UNLESS(false, "Use TBasicSocket for RecvMsg call! TDualStackSocket implementation must use memcpy which is suboptimal and thus forbidden!");
}
TUdpRecvPacket* Recv(sockaddr_in6* addr, sockaddr_in6* dstAddr, int netlibaVersion) override;
};
TDualStackSocket::TDualStackSocket()
: RecvThread(TThread::TParams(RecvThreadFunc, this).SetName("nl12_dual_stack"))
, ShouldDie(0)
, RecvQueue6(NNetliba::DATA, NNetliba::DATA_SMALL, NNetliba::CMD_POS)
, RecvQueue12(NNetliba_v12::DATA, NNetliba_v12::DATA_SMALL, NNetliba_v12::CMD_POS)
{
}
// virtual functions don't work in dtors!
TDualStackSocket::~TDualStackSocket() {
Close();
sockaddr_in6 srcAdd;
sockaddr_in6 dstAddr;
TUdpRecvPacket* ptr = nullptr;
while (GetRecvQueue(NETLIBA_ANY_VERSION).Pop(&ptr, &srcAdd, &dstAddr)) {
delete ptr;
}
while (GetRecvQueue(NETLIBA_V12_VERSION).Pop(&ptr, &srcAdd, &dstAddr)) {
delete ptr;
}
}
int TDualStackSocket::Open(int port) {
if (TBase::Open(port) != 0) {
Y_ASSERT(!IsValid());
return -1;
}
AtomicSet(ShouldDie, 0);
DieEvent.Reset();
RecvThread.Start();
RecvThread.Detach();
return 0;
}
void TDualStackSocket::Close() {
if (!IsValid()) {
return;
}
AtomicSwap(&ShouldDie, 1);
CancelWaitImpl();
Y_ABORT_UNLESS(DieEvent.WaitT(TDuration::Seconds(30)), "TDualStackSocket::Close failed");
TBase::Close();
}
TDualStackSocket::TFilteredPacketQueue& TDualStackSocket::GetRecvQueue(int netlibaVersion) const {
return netlibaVersion == NETLIBA_V12_VERSION ? RecvQueue12 : RecvQueue6;
}
TSystemEvent& TDualStackSocket::GetQueueEvent(const TFilteredPacketQueue& queue) const {
return queue.Queue.GetEvent();
}
void* TDualStackSocket::RecvThreadFunc(void* that) {
SetHighestThreadPriority();
static_cast<TDualStackSocket*>(that)->RecvLoop();
return nullptr;
}
void TDualStackSocket::RecvLoop() {
for (;;) {
TUdpRecvPacket* p = nullptr;
sockaddr_in6 srcAddr;
sockaddr_in6 dstAddr;
while (AtomicAdd(ShouldDie, 0) == 0 && (p = TBase::Recv(&srcAddr, &dstAddr, NETLIBA_ANY_VERSION))) {
Y_ASSERT(p->DataStart == 0);
if (p->DataSize < 12) {
continue;
}
TFilteredPacketQueue& q = GetRecvQueue(p->Data.get()[8]);
const ui8 res = q.Push(p, {srcAddr, dstAddr});
if (res == TFilteredPacketQueue::PR_OK) {
GetQueueEvent(q).Signal();
} else {
// simulate OS behavior on buffer overflow - drop packets.
const NHPTimer::STime time = AtomicGet(RecvLag);
const float sec = NHPTimer::GetSeconds(time);
fprintf(stderr, "TDualStackSocket::RecvLoop netliba v%d queue overflow, recv lag: %f sec, dropping packet, res: %u\n",
&q == &RecvQueue12 ? 12 : 6, sec, res);
delete p;
}
}
if (AtomicAdd(ShouldDie, 0)) {
DieEvent.Signal();
return;
}
TBase::Wait(0.1f, NETLIBA_ANY_VERSION);
}
}
void TDualStackSocket::Wait(float timeoutSec, int netlibaVersion) const {
TFilteredPacketQueue& q = GetRecvQueue(netlibaVersion);
if (q.Queue.IsEmpty()) {
GetQueueEvent(q).Reset();
if (q.Queue.IsEmpty()) {
GetQueueEvent(q).WaitT(TDuration::Seconds(timeoutSec));
}
}
}
void TDualStackSocket::CancelWait(int netlibaVersion) {
GetQueueEvent(GetRecvQueue(netlibaVersion)).Signal();
}
// thread-safe
TUdpRecvPacket* TDualStackSocket::Recv(sockaddr_in6* srcAddr, sockaddr_in6* dstAddr, int netlibaVersion) {
TUdpRecvPacket* result = nullptr;
if (!GetRecvQueue(netlibaVersion).Pop(&result, srcAddr, dstAddr)) {
return nullptr;
}
return result;
}
///////////////////////////////////////////////////////////////////////////////
TIntrusivePtr<ISocket> CreateSocket() {
return new TSocket();
}
TIntrusivePtr<ISocket> CreateDualStackSocket() {
return new TDualStackSocket();
}
TIntrusivePtr<ISocket> CreateBestRecvSocket() {
// TSocket is faster than TRecvMMsgFunc in case of unsupported recvmmsg
if (!TTryToRecvMMsgSocket::IsRecvMMsgSupported()) {
return new TSocket();
}
return new TTryToRecvMMsgSocket();
}
}
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