tunsafe-clang15/network_bsd.cpp

// SPDX-License-Identifier: AGPL-1.0-only
// Copyright (C) 2018 Ludvig Strigeus <info@tunsafe.com>. All Rights Reserved.
#include "network_bsd_common.h"
#include "tunsafe_endian.h"
#include "util.h"

#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <netinet/in.h>
#include <string.h>
#include <arpa/inet.h>
#include <sys/stat.h>
#include <stdlib.h>
#include <errno.h>
#include <assert.h>
#include <signal.h>

static Packet *freelist;

void FreePacket(Packet *packet) {
  packet->next = freelist;
  freelist = packet;
}

Packet *AllocPacket() {
  Packet *p = freelist;
  if (p) {
    freelist = p->next;
  } else {
    p = (Packet*)malloc(kPacketAllocSize);  
    if (p == NULL) {
      RERROR("Allocation failure");
      abort();
    }
  }
  p->data = p->data_buf + Packet::HEADROOM_BEFORE;
  p->size = 0;
  return p;
}

void FreePackets() {
  Packet *p;
  while ( (p = freelist ) != NULL) {
    freelist = p->next;
    free(p);
  }
}

class TunsafeBackendBsdImpl : public TunsafeBackendBsd {
public:
  TunsafeBackendBsdImpl();
  virtual ~TunsafeBackendBsdImpl();

  virtual void RunLoopInner() override;
  virtual bool InitializeTun(char devname[16]) override;

  // -- from TunInterface
  virtual void WriteTunPacket(Packet *packet) override;

  // -- from UdpInterface
  virtual bool Initialize(int listen_port) override;
  virtual void WriteUdpPacket(Packet *packet) override;

  virtual void HandleSigAlrm() override { got_sig_alarm_ = true; }
  virtual void HandleExit() override { exit_ = true; }
  
private:
  bool ReadFromUdp(bool overload);
  bool ReadFromTun();
  bool WriteToUdp();
  bool WriteToTun();

  void SetUdpFd(int fd);
  void SetTunFd(int fd);
  inline void RecomputeMaxFd() { max_fd_ = ((tun_fd_>udp_fd_) ? tun_fd_ : udp_fd_) + 1; }

  int tun_fd_, udp_fd_, max_fd_;
  bool got_sig_alarm_;
  bool exit_;

  bool tun_readable_, tun_writable_;
  bool udp_readable_, udp_writable_;

  Packet *tun_queue_, **tun_queue_end_;
  Packet *udp_queue_, **udp_queue_end_;

  Packet *read_packet_;

  fd_set readfds_, writefds_;
};

TunsafeBackendBsdImpl::TunsafeBackendBsdImpl() 
    : tun_fd_(-1),
      udp_fd_(-1),
      tun_readable_(false),
      tun_writable_(false),
      udp_readable_(false),
      udp_writable_(false),
      got_sig_alarm_(false),
      exit_(false),
      tun_queue_(NULL),
      tun_queue_end_(&tun_queue_),
      udp_queue_(NULL),
      udp_queue_end_(&udp_queue_),
      read_packet_(NULL) {
  RecomputeMaxFd();

  FD_ZERO(&readfds_);
  FD_ZERO(&writefds_);
  read_packet_ = AllocPacket();
}

TunsafeBackendBsdImpl::~TunsafeBackendBsdImpl() {
  if (read_packet_)
    FreePacket(read_packet_);
}

void TunsafeBackendBsdImpl::SetUdpFd(int fd) {
  udp_fd_ = fd;
  RecomputeMaxFd();
  udp_writable_ = true;
}

void TunsafeBackendBsdImpl::SetTunFd(int fd) {
  tun_fd_ = fd;
  RecomputeMaxFd();
  tun_writable_ = true;
}


bool TunsafeBackendBsdImpl::ReadFromUdp(bool overload) {
  socklen_t sin_len;
  sin_len = sizeof(read_packet_->addr.sin);
  int r = recvfrom(udp_fd_, read_packet_->data, kPacketCapacity, 0,
                   (sockaddr*)&read_packet_->addr.sin, &sin_len);
  if (r >= 0) {
//    printf("Read %d bytes from UDP\n", r);
    read_packet_->sin_size = sin_len;
    read_packet_->size = r;
    if (processor_) {
      processor_->HandleUdpPacket(read_packet_, overload);
      read_packet_ = AllocPacket();
    }
    return true;        
  } else {
    if (errno != EAGAIN) {
      fprintf(stderr, "Read from UDP failed\n");
    }
    udp_readable_ = false;
    return false;
  }
}

bool TunsafeBackendBsdImpl::WriteToUdp() {
  assert(udp_writable_);
//  RINFO("Send %d bytes to %s", (int)udp_queue_->size, inet_ntoa(udp_queue_->sin.sin_addr));
  int r = sendto(udp_fd_, udp_queue_->data, udp_queue_->size, 0, 
                 (sockaddr*)&udp_queue_->addr.sin, sizeof(udp_queue_->addr.sin));
  if (r < 0) {
    if (errno == EAGAIN) {
      udp_writable_ = false;
      return false;
    }
    perror("Write to UDP failed");
  } else {
    if (r != udp_queue_->size)
      perror("Write to udp incomplete!");
//    else
//      RINFO("Wrote %d bytes to UDP", r);
  }
  Packet *next = udp_queue_->next;
  FreePacket(udp_queue_);
  if ((udp_queue_ = next) != NULL) return true;
  udp_queue_end_ = &udp_queue_;
  return false;
}

static inline bool IsCompatibleProto(uint32 v) {
  return v == AF_INET || v == AF_INET6;
}

bool TunsafeBackendBsdImpl::ReadFromTun() {
  assert(tun_readable_);
  Packet *packet = read_packet_;
  int r = read(tun_fd_, packet->data - TUN_PREFIX_BYTES, kPacketCapacity + TUN_PREFIX_BYTES);
  if (r >= 0) {
//    printf("Read %d bytes from TUN\n", r);
    packet->size = r - TUN_PREFIX_BYTES;
    if (r >= TUN_PREFIX_BYTES && (!TUN_PREFIX_BYTES || IsCompatibleProto(ReadBE32(packet->data - TUN_PREFIX_BYTES))) && processor_) {
//      printf("%X %X %X %X %X %X %X %X\n",
//        read_packet_->data[0], read_packet_->data[1], read_packet_->data[2], read_packet_->data[3], 
//        read_packet_->data[4], read_packet_->data[5], read_packet_->data[6], read_packet_->data[7]);
      read_packet_ = AllocPacket();
      processor_->HandleTunPacket(packet);
    }
    return true;        
  } else {
    if (errno != EAGAIN) {
      fprintf(stderr, "Read from tun failed\n");
    }
    tun_readable_ = false;
    return false;
  }
}

static uint32 GetProtoFromPacket(const uint8 *data, size_t size) {
  return size < 1 || (data[0] >> 4) != 6 ? AF_INET : AF_INET6;
}

bool TunsafeBackendBsdImpl::WriteToTun() {
  assert(tun_writable_);
  if (TUN_PREFIX_BYTES) {
    WriteBE32(tun_queue_->data - TUN_PREFIX_BYTES, GetProtoFromPacket(tun_queue_->data, tun_queue_->size));
  }
  int r = write(tun_fd_, tun_queue_->data - TUN_PREFIX_BYTES, tun_queue_->size + TUN_PREFIX_BYTES);
  if (r < 0) {
    if (errno == EAGAIN) {
      tun_writable_ = false;
      return false;
    }
    RERROR("Write to tun failed");
  } else {
    r -= TUN_PREFIX_BYTES;
    if (r != tun_queue_->size)
      RERROR("Write to tun incomplete!");
//    else
//      RINFO("Wrote %d bytes to TUN", r);
  }  
  Packet *next = tun_queue_->next;
  FreePacket(tun_queue_);
  if ((tun_queue_ = next) != NULL) return true;
  tun_queue_end_ = &tun_queue_;
  return false;
}

bool TunsafeBackendBsdImpl::InitializeTun(char devname[16]) {
  int tun_fd = open_tun(devname, 16);
  if (tun_fd < 0) { RERROR("Error opening tun device"); return false; }
  fcntl(tun_fd, F_SETFD, FD_CLOEXEC);
  fcntl(tun_fd, F_SETFL, O_NONBLOCK);
  SetTunFd(tun_fd);
  return true;  
}

void TunsafeBackendBsdImpl::WriteTunPacket(Packet *packet) override {
  assert(tun_fd_ >= 0);
  Packet *queue_is_used = tun_queue_;
  *tun_queue_end_ = packet;
  tun_queue_end_ = &packet->next;
  packet->next = NULL;
  if (!queue_is_used)
    WriteToTun();
}

// Called to initialize udp
bool TunsafeBackendBsdImpl::Initialize(int listen_port) override {
  int udp_fd = open_udp(listen_port);
  if (udp_fd < 0) { RERROR("Error opening udp"); return false; }
  fcntl(udp_fd, F_SETFD, FD_CLOEXEC);
  fcntl(udp_fd, F_SETFL, O_NONBLOCK);
  SetUdpFd(udp_fd);
  return true;
}

void TunsafeBackendBsdImpl::WriteUdpPacket(Packet *packet) override {
  assert(udp_fd_ >= 0);
  Packet *queue_is_used = udp_queue_;
  *udp_queue_end_ = packet;
  udp_queue_end_ = &packet->next;
  packet->next = NULL;
  if (!queue_is_used)
    WriteToUdp();
}

void TunsafeBackendBsdImpl::RunLoopInner() {
  int free_packet_interval = 10;
  int overload_ctr = 0;

  while (!exit_) {
    int n = -1;

    // This is not fully signal safe.
    if (got_sig_alarm_) {
      got_sig_alarm_ = false;
      processor_->SecondLoop();

      if (free_packet_interval == 0) {
        FreePackets();
        free_packet_interval = 10;
      }
      free_packet_interval--;

      overload_ctr -= (overload_ctr != 0);
    }

    if (tun_fd_ >= 0) {
      FD_SET(tun_fd_, &readfds_);
      if (tun_writable_) FD_CLR(tun_fd_, &writefds_); else FD_SET(tun_fd_, &writefds_);
    }

    if (udp_fd_ >= 0) {
      FD_SET(udp_fd_, &readfds_);
      if (udp_writable_) FD_CLR(udp_fd_, &writefds_); else FD_SET(udp_fd_, &writefds_);
    }

    n = select(max_fd_, &readfds_, &writefds_, NULL, NULL);
    if (n == -1) {
      if (errno != EINTR) {
        fprintf(stderr, "select failed\n");
        break;
      }
    } else {
      if (tun_fd_ >= 0) {
        tun_readable_ = (FD_ISSET(tun_fd_, &readfds_) != 0);
        tun_writable_ |= (FD_ISSET(tun_fd_, &writefds_) != 0);
      }
      if (udp_fd_ >= 0) {
        udp_readable_ = (FD_ISSET(udp_fd_, &readfds_) != 0);
        udp_writable_ |= (FD_ISSET(udp_fd_, &writefds_) != 0);
      }
    }
    
    bool overload = (overload_ctr != 0);

    for(int loop = 0; ; loop++) {
      // Whenever we don't finish set overload ctr.
      if (loop == 256) {
        overload_ctr = 4;
        break;
      }
      bool more_work = false;
      if (tun_queue_ != NULL && tun_writable_) more_work |= WriteToTun();
      if (udp_queue_ != NULL && udp_writable_) more_work |= WriteToUdp();
      if (tun_readable_)                       more_work |= ReadFromTun();
      if (udp_readable_)                       more_work |= ReadFromUdp(overload);
      if (!more_work)
        break;
    }    

    processor_->RunAllMainThreadScheduled();
  }  
}

TunsafeBackendBsd *CreateTunsafeBackendBsd() {
  return new TunsafeBackendBsdImpl;
}
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`// SPDX-License-Identifier: AGPL-1.0-only`
			`// Copyright (C) 2018 Ludvig Strigeus <info@tunsafe.com>. All Rights Reserved.`
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`#include "network_bsd_common.h"`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`#include "tunsafe_endian.h"`
			`#include "util.h"`

			`#include <stdio.h>`
			`#include <unistd.h>`
			`#include <fcntl.h>`
			`#include <sys/ioctl.h>`
			`#include <net/if.h>`
			`#include <netinet/in.h>`
			`#include <string.h>`
			`#include <arpa/inet.h>`
			`#include <sys/stat.h>`
			`#include <stdlib.h>`
			`#include <errno.h>`
			`#include <assert.h>`
			`#include <signal.h>`

			`static Packet *freelist;`

			`void FreePacket(Packet *packet) {`
			`packet->next = freelist;`
			`freelist = packet;`
			`}`

			`Packet *AllocPacket() {`
			`Packet *p = freelist;`
			`if (p) {`
			`freelist = p->next;`
			`} else {`
			`p = (Packet*)malloc(kPacketAllocSize);`
			`if (p == NULL) {`
			`RERROR("Allocation failure");`
			`abort();`
			`}`
			`}`
			`p->data = p->data_buf + Packet::HEADROOM_BEFORE;`
			`p->size = 0;`
			`return p;`
			`}`

			`void FreePackets() {`
			`Packet *p;`
			`while ( (p = freelist ) != NULL) {`
			`freelist = p->next;`
			`free(p);`
			`}`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`class TunsafeBackendBsdImpl : public TunsafeBackendBsd {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`public:`
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`TunsafeBackendBsdImpl();`
			`virtual ~TunsafeBackendBsdImpl();`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`virtual void RunLoopInner() override;`
			`virtual bool InitializeTun(char devname[16]) override;`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00
			`// -- from TunInterface`
			`virtual void WriteTunPacket(Packet *packet) override;`

			`// -- from UdpInterface`
			`virtual bool Initialize(int listen_port) override;`
			`virtual void WriteUdpPacket(Packet *packet) override;`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`virtual void HandleSigAlrm() override { got_sig_alarm_ = true; }`
			`virtual void HandleExit() override { exit_ = true; }`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00
			`private:`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`bool ReadFromUdp(bool overload);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`bool ReadFromTun();`
			`bool WriteToUdp();`
			`bool WriteToTun();`

			`void SetUdpFd(int fd);`
			`void SetTunFd(int fd);`
			`inline void RecomputeMaxFd() { max_fd_ = ((tun_fd_>udp_fd_) ? tun_fd_ : udp_fd_) + 1; }`

			`int tun_fd_, udp_fd_, max_fd_;`
			`bool got_sig_alarm_;`
			`bool exit_;`

			`bool tun_readable_, tun_writable_;`
			`bool udp_readable_, udp_writable_;`

			`Packet tun_queue_, *tun_queue_end_;`
			`Packet udp_queue_, *udp_queue_end_;`

			`Packet *read_packet_;`

			`fd_set readfds_, writefds_;`
			`};`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`TunsafeBackendBsdImpl::TunsafeBackendBsdImpl()`
			`: tun_fd_(-1),`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`udp_fd_(-1),`
			`tun_readable_(false),`
			`tun_writable_(false),`
			`udp_readable_(false),`
			`udp_writable_(false),`
			`got_sig_alarm_(false),`
			`exit_(false),`
			`tun_queue_(NULL),`
			`tun_queue_end_(&tun_queue_),`
			`udp_queue_(NULL),`
			`udp_queue_end_(&udp_queue_),`
			`read_packet_(NULL) {`
			`RecomputeMaxFd();`

			`FD_ZERO(&readfds_);`
			`FD_ZERO(&writefds_);`
			`read_packet_ = AllocPacket();`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`TunsafeBackendBsdImpl::~TunsafeBackendBsdImpl() {`
			`if (read_packet_)`
			`FreePacket(read_packet_);`
			`}`

			`void TunsafeBackendBsdImpl::SetUdpFd(int fd) {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`udp_fd_ = fd;`
			`RecomputeMaxFd();`
			`udp_writable_ = true;`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`void TunsafeBackendBsdImpl::SetTunFd(int fd) {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`tun_fd_ = fd;`
			`RecomputeMaxFd();`
			`tun_writable_ = true;`
			`}`


Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`bool TunsafeBackendBsdImpl::ReadFromUdp(bool overload) {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`socklen_t sin_len;`
			`sin_len = sizeof(read_packet_->addr.sin);`
			`int r = recvfrom(udp_fd_, read_packet_->data, kPacketCapacity, 0,`
			`(sockaddr*)&read_packet_->addr.sin, &sin_len);`
			`if (r >= 0) {`
			`// printf("Read %d bytes from UDP\n", r);`
			`read_packet_->sin_size = sin_len;`
			`read_packet_->size = r;`
			`if (processor_) {`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`processor_->HandleUdpPacket(read_packet_, overload);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`read_packet_ = AllocPacket();`
			`}`
			`return true;`
			`} else {`
			`if (errno != EAGAIN) {`
			`fprintf(stderr, "Read from UDP failed\n");`
			`}`
			`udp_readable_ = false;`
			`return false;`
			`}`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`bool TunsafeBackendBsdImpl::WriteToUdp() {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`assert(udp_writable_);`
			`// RINFO("Send %d bytes to %s", (int)udp_queue_->size, inet_ntoa(udp_queue_->sin.sin_addr));`
			`int r = sendto(udp_fd_, udp_queue_->data, udp_queue_->size, 0,`
			`(sockaddr*)&udp_queue_->addr.sin, sizeof(udp_queue_->addr.sin));`
			`if (r < 0) {`
			`if (errno == EAGAIN) {`
			`udp_writable_ = false;`
			`return false;`
			`}`
			`perror("Write to UDP failed");`
			`} else {`
			`if (r != udp_queue_->size)`
			`perror("Write to udp incomplete!");`
			`// else`
			`// RINFO("Wrote %d bytes to UDP", r);`
			`}`
			`Packet *next = udp_queue_->next;`
			`FreePacket(udp_queue_);`
			`if ((udp_queue_ = next) != NULL) return true;`
			`udp_queue_end_ = &udp_queue_;`
			`return false;`
			`}`

			`static inline bool IsCompatibleProto(uint32 v) {`
			`return v == AF_INET \|\| v == AF_INET6;`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`bool TunsafeBackendBsdImpl::ReadFromTun() {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`assert(tun_readable_);`
			`Packet *packet = read_packet_;`
			`int r = read(tun_fd_, packet->data - TUN_PREFIX_BYTES, kPacketCapacity + TUN_PREFIX_BYTES);`
			`if (r >= 0) {`
			`// printf("Read %d bytes from TUN\n", r);`
			`packet->size = r - TUN_PREFIX_BYTES;`
			`if (r >= TUN_PREFIX_BYTES && (!TUN_PREFIX_BYTES \|\| IsCompatibleProto(ReadBE32(packet->data - TUN_PREFIX_BYTES))) && processor_) {`
			`// printf("%X %X %X %X %X %X %X %X\n",`
			`// read_packet_->data[0], read_packet_->data[1], read_packet_->data[2], read_packet_->data[3],`
			`// read_packet_->data[4], read_packet_->data[5], read_packet_->data[6], read_packet_->data[7]);`
			`read_packet_ = AllocPacket();`
			`processor_->HandleTunPacket(packet);`
			`}`
			`return true;`
			`} else {`
			`if (errno != EAGAIN) {`
			`fprintf(stderr, "Read from tun failed\n");`
			`}`
			`tun_readable_ = false;`
			`return false;`
			`}`
			`}`

			`static uint32 GetProtoFromPacket(const uint8 *data, size_t size) {`
			`return size < 1 \|\| (data[0] >> 4) != 6 ? AF_INET : AF_INET6;`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`bool TunsafeBackendBsdImpl::WriteToTun() {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`assert(tun_writable_);`
			`if (TUN_PREFIX_BYTES) {`
			`WriteBE32(tun_queue_->data - TUN_PREFIX_BYTES, GetProtoFromPacket(tun_queue_->data, tun_queue_->size));`
			`}`
			`int r = write(tun_fd_, tun_queue_->data - TUN_PREFIX_BYTES, tun_queue_->size + TUN_PREFIX_BYTES);`
			`if (r < 0) {`
			`if (errno == EAGAIN) {`
			`tun_writable_ = false;`
			`return false;`
			`}`
			`RERROR("Write to tun failed");`
			`} else {`
			`r -= TUN_PREFIX_BYTES;`
			`if (r != tun_queue_->size)`
			`RERROR("Write to tun incomplete!");`
			`// else`
			`// RINFO("Wrote %d bytes to TUN", r);`
			`}`
			`Packet *next = tun_queue_->next;`
			`FreePacket(tun_queue_);`
			`if ((tun_queue_ = next) != NULL) return true;`
			`tun_queue_end_ = &tun_queue_;`
			`return false;`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`bool TunsafeBackendBsdImpl::InitializeTun(char devname[16]) {`
			`int tun_fd = open_tun(devname, 16);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`if (tun_fd < 0) { RERROR("Error opening tun device"); return false; }`
			`fcntl(tun_fd, F_SETFD, FD_CLOEXEC);`
			`fcntl(tun_fd, F_SETFL, O_NONBLOCK);`
			`SetTunFd(tun_fd);`
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`return true;`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`void TunsafeBackendBsdImpl::WriteTunPacket(Packet *packet) override {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`assert(tun_fd_ >= 0);`
			`Packet *queue_is_used = tun_queue_;`
			`*tun_queue_end_ = packet;`
			`tun_queue_end_ = &packet->next;`
			`packet->next = NULL;`
			`if (!queue_is_used)`
			`WriteToTun();`
			`}`

			`// Called to initialize udp`
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`bool TunsafeBackendBsdImpl::Initialize(int listen_port) override {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`int udp_fd = open_udp(listen_port);`
			`if (udp_fd < 0) { RERROR("Error opening udp"); return false; }`
			`fcntl(udp_fd, F_SETFD, FD_CLOEXEC);`
			`fcntl(udp_fd, F_SETFL, O_NONBLOCK);`
			`SetUdpFd(udp_fd);`
			`return true;`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`void TunsafeBackendBsdImpl::WriteUdpPacket(Packet *packet) override {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`assert(udp_fd_ >= 0);`
			`Packet *queue_is_used = udp_queue_;`
			`*udp_queue_end_ = packet;`
			`udp_queue_end_ = &packet->next;`
			`packet->next = NULL;`
			`if (!queue_is_used)`
			`WriteToUdp();`
			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`void TunsafeBackendBsdImpl::RunLoopInner() {`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`int free_packet_interval = 10;`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`int overload_ctr = 0;`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00
			`while (!exit_) {`
			`int n = -1;`

			`// This is not fully signal safe.`
			`if (got_sig_alarm_) {`
			`got_sig_alarm_ = false;`
			`processor_->SecondLoop();`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`if (free_packet_interval == 0) {`
			`FreePackets();`
			`free_packet_interval = 10;`
			`}`
			`free_packet_interval--;`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00
			`overload_ctr -= (overload_ctr != 0);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`}`

			`if (tun_fd_ >= 0) {`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`FD_SET(tun_fd_, &readfds_);`
			`if (tun_writable_) FD_CLR(tun_fd_, &writefds_); else FD_SET(tun_fd_, &writefds_);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`}`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`if (udp_fd_ >= 0) {`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`FD_SET(udp_fd_, &readfds_);`
			`if (udp_writable_) FD_CLR(udp_fd_, &writefds_); else FD_SET(udp_fd_, &writefds_);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`}`

Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`n = select(max_fd_, &readfds_, &writefds_, NULL, NULL);`
			`if (n == -1) {`
			`if (errno != EINTR) {`
			`fprintf(stderr, "select failed\n");`
			`break;`
			`}`
			`} else {`
			`if (tun_fd_ >= 0) {`
			`tun_readable_ = (FD_ISSET(tun_fd_, &readfds_) != 0);`
			`tun_writable_ \|= (FD_ISSET(tun_fd_, &writefds_) != 0);`
			`}`
			`if (udp_fd_ >= 0) {`
			`udp_readable_ = (FD_ISSET(udp_fd_, &readfds_) != 0);`
			`udp_writable_ \|= (FD_ISSET(udp_fd_, &writefds_) != 0);`
			`}`
			`}`

			`bool overload = (overload_ctr != 0);`

			`for(int loop = 0; ; loop++) {`
			`// Whenever we don't finish set overload ctr.`
			`if (loop == 256) {`
			`overload_ctr = 4;`
			`break;`
			`}`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`bool more_work = false;`
			`if (tun_queue_ != NULL && tun_writable_) more_work \|= WriteToTun();`
			`if (udp_queue_ != NULL && udp_writable_) more_work \|= WriteToUdp();`
			`if (tun_readable_) more_work \|= ReadFromTun();`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00			`if (udp_readable_) more_work \|= ReadFromUdp(overload);`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`if (!more_work)`
			`break;`
			`}`
Handle packet overload on non-windows - Also ensure RunAllMainThreadScheduled(); gets called on non-windows 2018-08-12 05:38:54 -05:00
			`processor_->RunAllMainThreadScheduled();`
Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`}`
Make it print Connection established like on Windows 2018-08-08 16:58:04 -05:00			`}`

Split out common code between the multithreaded and singlethreaded bsd impl Also do not use the multithreaded one by default - too untested. 2018-08-08 18:31:59 -05:00			`TunsafeBackendBsd *CreateTunsafeBackendBsd() {`
			`return new TunsafeBackendBsdImpl;`
TunSafe open source (Same as 1.3-rc3 version) 2018-08-08 06:12:38 -05:00			`}`