quic/core/quic_udp_socket.h - quiche - Git at Google

 // Copyright 2019 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_
 #define QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_

 #include <cstddef>
 #include <cstdint>

 #include <type_traits>

 #include "net/third_party/quiche/src/quic/core/quic_types.h"
 #include "net/third_party/quiche/src/quic/core/quic_utils.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_ip_address.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_socket_address.h"

 namespace quic {

 #if defined(_WIN32)
 using QuicUdpSocketFd = SOCKET;
 const QuicUdpSocketFd kQuicInvalidSocketFd = INVALID_SOCKET;
 #else
 using QuicUdpSocketFd = int;
 const QuicUdpSocketFd kQuicInvalidSocketFd = -1;
 #endif

 const size_t kDefaultUdpPacketControlBufferSize = 512;

 enum class QuicUdpPacketInfoBit : uint8_t {
   DROPPED_PACKETS = 0,   // Read
   V4_SELF_IP,            // Read
   V6_SELF_IP,            // Read
   PEER_ADDRESS,          // Read & Write
   RECV_TIMESTAMP,        // Read
   TTL,                   // Read & Write
   GOOGLE_PACKET_HEADER,  // Read
   NUM_BITS,
 };
 static_assert(static_cast<size_t>(QuicUdpPacketInfoBit::NUM_BITS) <=
                   BitMask64::NumBits(),
               "BitMask64 not wide enough to hold all bits.");

 // BufferSpan points to an unowned buffer, copying this structure only copies
 // the pointer and length, not the buffer itself.
 struct QUIC_EXPORT_PRIVATE BufferSpan {
   BufferSpan(char* buffer, size_t buffer_len)
       : buffer(buffer), buffer_len(buffer_len) {}

   BufferSpan() = default;
   BufferSpan(const BufferSpan& other) = default;
   BufferSpan& operator=(const BufferSpan& other) = default;

   char* buffer = nullptr;
   size_t buffer_len = 0;
 };

 // QuicUdpPacketInfo contains per-packet information used for sending and
 // receiving.
 class QUIC_EXPORT_PRIVATE QuicUdpPacketInfo {
  public:
   BitMask64 bitmask() const { return bitmask_; }

   void Reset() { bitmask_.ClearAll(); }

   bool HasValue(QuicUdpPacketInfoBit bit) const { return bitmask_.IsSet(bit); }

   QuicPacketCount dropped_packets() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::DROPPED_PACKETS));
     return dropped_packets_;
   }

   void SetDroppedPackets(QuicPacketCount dropped_packets) {
     dropped_packets_ = dropped_packets;
     bitmask_.Set(QuicUdpPacketInfoBit::DROPPED_PACKETS);
   }

   const QuicIpAddress& self_v4_ip() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::V4_SELF_IP));
     return self_v4_ip_;
   }

   void SetSelfV4Ip(QuicIpAddress self_v4_ip) {
     self_v4_ip_ = self_v4_ip;
     bitmask_.Set(QuicUdpPacketInfoBit::V4_SELF_IP);
   }

   const QuicIpAddress& self_v6_ip() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::V6_SELF_IP));
     return self_v6_ip_;
   }

   void SetSelfV6Ip(QuicIpAddress self_v6_ip) {
     self_v6_ip_ = self_v6_ip;
     bitmask_.Set(QuicUdpPacketInfoBit::V6_SELF_IP);
   }

   void SetSelfIp(QuicIpAddress self_ip) {
     if (self_ip.IsIPv4()) {
       SetSelfV4Ip(self_ip);
     } else {
       SetSelfV6Ip(self_ip);
     }
   }

   const QuicSocketAddress& peer_address() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::PEER_ADDRESS));
     return peer_address_;
   }

   void SetPeerAddress(QuicSocketAddress peer_address) {
     peer_address_ = peer_address;
     bitmask_.Set(QuicUdpPacketInfoBit::PEER_ADDRESS);
   }

   QuicWallTime receive_timestamp() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::RECV_TIMESTAMP));
     return receive_timestamp_;
   }

   void SetReceiveTimestamp(QuicWallTime receive_timestamp) {
     receive_timestamp_ = receive_timestamp;
     bitmask_.Set(QuicUdpPacketInfoBit::RECV_TIMESTAMP);
   }

   int ttl() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::TTL));
     return ttl_;
   }

   void SetTtl(int ttl) {
     ttl_ = ttl;
     bitmask_.Set(QuicUdpPacketInfoBit::TTL);
   }

   BufferSpan google_packet_headers() const {
     DCHECK(HasValue(QuicUdpPacketInfoBit::GOOGLE_PACKET_HEADER));
     return google_packet_headers_;
   }

   void SetGooglePacketHeaders(BufferSpan google_packet_headers) {
     google_packet_headers_ = google_packet_headers;
     bitmask_.Set(QuicUdpPacketInfoBit::GOOGLE_PACKET_HEADER);
   }

  private:
   BitMask64 bitmask_;
   QuicPacketCount dropped_packets_;
   QuicIpAddress self_v4_ip_;
   QuicIpAddress self_v6_ip_;
   QuicSocketAddress peer_address_;
   QuicWallTime receive_timestamp_ = QuicWallTime::Zero();
   int ttl_;
   BufferSpan google_packet_headers_;
 };

 // QuicUdpSocketApi provides a minimal set of apis for sending and receiving
 // udp packets. The low level udp socket apis differ between kernels and kernel
 // versions, the goal of QuicUdpSocketApi is to hide such differences.
 // We use non-static functions because it is easier to be mocked in tests when
 // needed.
 class QUIC_EXPORT_PRIVATE QuicUdpSocketApi {
  public:
   // Creates a non-blocking udp socket, sets the receive/send buffer and enable
   // receiving of self ip addresses on read.
   // If address_family == AF_INET6 and ipv6_only is true, receiving of IPv4 self
   // addresses is disabled. This is only necessary for IPv6 sockets on iOS - all
   // other platforms can ignore this parameter. Return kQuicInvalidSocketFd if
   // failed.
   QuicUdpSocketFd Create(int address_family,
                          int receive_buffer_size,
                          int send_buffer_size,
                          bool ipv6_only = false);

   // Closes |fd|. No-op if |fd| equals to kQuicInvalidSocketFd.
   void Destroy(QuicUdpSocketFd fd);

   // Bind |fd| to |address|. If |address|'s port number is 0, kernel will choose
   // a random port to bind to. Caller can use QuicSocketAddress::FromSocket(fd)
   // to get the bound random port.
   bool Bind(QuicUdpSocketFd fd, QuicSocketAddress address);

   // Enable receiving of various per-packet information. Return true if the
   // corresponding information can be received on read.
   bool EnableDroppedPacketCount(QuicUdpSocketFd fd);
   bool EnableReceiveTimestamp(QuicUdpSocketFd fd);
   bool EnableReceiveTtlForV4(QuicUdpSocketFd fd);
   bool EnableReceiveTtlForV6(QuicUdpSocketFd fd);

   // Wait for |fd| to become readable, up to |timeout|.
   // Return true if |fd| is readable upon return.
   bool WaitUntilReadable(QuicUdpSocketFd fd, QuicTime::Delta timeout);

   struct QUIC_EXPORT_PRIVATE ReadPacketResult {
     bool ok = false;
     QuicUdpPacketInfo packet_info;
     BufferSpan packet_buffer;
     BufferSpan control_buffer;

     void Reset(size_t packet_buffer_length) {
       ok = false;
       packet_info.Reset();
       packet_buffer.buffer_len = packet_buffer_length;
     }
   };
   // Read a packet from |fd|:
   // packet_info_interested: Bitmask indicating what information caller wants to
   //                         receive into |result->packet_info|.
   // result->packet_info:    Received per packet information.
   // result->packet_buffer:  The packet buffer, to be filled with packet data.
   //                         |result->packet_buffer.buffer_len| is set to the
   //                         packet length on a successful return.
   // result->control_buffer: The control buffer, used by ReadPacket internally.
   //                         It is recommended to be
   //                         |kDefaultUdpPacketControlBufferSize| bytes.
   // result->ok:             True iff a packet is successfully received.
   //
   // If |*result| is reused for subsequent ReadPacket() calls, caller needs to
   // call result->Reset() before each ReadPacket().
   void ReadPacket(QuicUdpSocketFd fd,
                   BitMask64 packet_info_interested,
                   ReadPacketResult* result);

   using ReadPacketResults = std::vector<ReadPacketResult>;
   // Read up to |results->size()| packets from |fd|. The meaning of each element
   // in |*results| has been documented on top of |ReadPacket|.
   // Return the number of elements populated into |*results|, note it is
   // possible for some of the populated elements to have ok=false.
   size_t ReadMultiplePackets(QuicUdpSocketFd fd,
                              BitMask64 packet_info_interested,
                              ReadPacketResults* results);

   // Write a packet to |fd|.
   // packet_buffer, packet_buffer_len:  The packet buffer to write.
   // packet_info:                       The per packet information to set.
   WriteResult WritePacket(QuicUdpSocketFd fd,
                           const char* packet_buffer,
                           size_t packet_buffer_len,
                           const QuicUdpPacketInfo& packet_info);

  protected:
   bool SetupSocket(QuicUdpSocketFd fd,
                    int address_family,
                    int receive_buffer_size,
                    int send_buffer_size,
                    bool ipv6_only);
   bool EnableReceiveSelfIpAddressForV4(QuicUdpSocketFd fd);
   bool EnableReceiveSelfIpAddressForV6(QuicUdpSocketFd fd);
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_
	// Copyright 2019 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_
	#define QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_

	#include <cstddef>
	#include <cstdint>

	#include <type_traits>

	#include "net/third_party/quiche/src/quic/core/quic_types.h"
	#include "net/third_party/quiche/src/quic/core/quic_utils.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_ip_address.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_socket_address.h"

	namespace quic {

	#if defined(_WIN32)
	using QuicUdpSocketFd = SOCKET;
	const QuicUdpSocketFd kQuicInvalidSocketFd = INVALID_SOCKET;
	#else
	using QuicUdpSocketFd = int;
	const QuicUdpSocketFd kQuicInvalidSocketFd = -1;
	#endif

	const size_t kDefaultUdpPacketControlBufferSize = 512;

	enum class QuicUdpPacketInfoBit : uint8_t {
	DROPPED_PACKETS = 0, // Read
	V4_SELF_IP, // Read
	V6_SELF_IP, // Read
	PEER_ADDRESS, // Read & Write
	RECV_TIMESTAMP, // Read
	TTL, // Read & Write
	GOOGLE_PACKET_HEADER, // Read
	NUM_BITS,
	};
	static_assert(static_cast<size_t>(QuicUdpPacketInfoBit::NUM_BITS) <=
	BitMask64::NumBits(),
	"BitMask64 not wide enough to hold all bits.");

	// BufferSpan points to an unowned buffer, copying this structure only copies
	// the pointer and length, not the buffer itself.
	struct QUIC_EXPORT_PRIVATE BufferSpan {
	BufferSpan(char* buffer, size_t buffer_len)
	: buffer(buffer), buffer_len(buffer_len) {}

	BufferSpan() = default;
	BufferSpan(const BufferSpan& other) = default;
	BufferSpan& operator=(const BufferSpan& other) = default;

	char* buffer = nullptr;
	size_t buffer_len = 0;
	};

	// QuicUdpPacketInfo contains per-packet information used for sending and
	// receiving.
	class QUIC_EXPORT_PRIVATE QuicUdpPacketInfo {
	public:
	BitMask64 bitmask() const { return bitmask_; }

	void Reset() { bitmask_.ClearAll(); }

	bool HasValue(QuicUdpPacketInfoBit bit) const { return bitmask_.IsSet(bit); }

	QuicPacketCount dropped_packets() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::DROPPED_PACKETS));
	return dropped_packets_;
	}

	void SetDroppedPackets(QuicPacketCount dropped_packets) {
	dropped_packets_ = dropped_packets;
	bitmask_.Set(QuicUdpPacketInfoBit::DROPPED_PACKETS);
	}

	const QuicIpAddress& self_v4_ip() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::V4_SELF_IP));
	return self_v4_ip_;
	}

	void SetSelfV4Ip(QuicIpAddress self_v4_ip) {
	self_v4_ip_ = self_v4_ip;
	bitmask_.Set(QuicUdpPacketInfoBit::V4_SELF_IP);
	}

	const QuicIpAddress& self_v6_ip() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::V6_SELF_IP));
	return self_v6_ip_;
	}

	void SetSelfV6Ip(QuicIpAddress self_v6_ip) {
	self_v6_ip_ = self_v6_ip;
	bitmask_.Set(QuicUdpPacketInfoBit::V6_SELF_IP);
	}

	void SetSelfIp(QuicIpAddress self_ip) {
	if (self_ip.IsIPv4()) {
	SetSelfV4Ip(self_ip);
	} else {
	SetSelfV6Ip(self_ip);
	}
	}

	const QuicSocketAddress& peer_address() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::PEER_ADDRESS));
	return peer_address_;
	}

	void SetPeerAddress(QuicSocketAddress peer_address) {
	peer_address_ = peer_address;
	bitmask_.Set(QuicUdpPacketInfoBit::PEER_ADDRESS);
	}

	QuicWallTime receive_timestamp() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::RECV_TIMESTAMP));
	return receive_timestamp_;
	}

	void SetReceiveTimestamp(QuicWallTime receive_timestamp) {
	receive_timestamp_ = receive_timestamp;
	bitmask_.Set(QuicUdpPacketInfoBit::RECV_TIMESTAMP);
	}

	int ttl() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::TTL));
	return ttl_;
	}

	void SetTtl(int ttl) {
	ttl_ = ttl;
	bitmask_.Set(QuicUdpPacketInfoBit::TTL);
	}

	BufferSpan google_packet_headers() const {
	DCHECK(HasValue(QuicUdpPacketInfoBit::GOOGLE_PACKET_HEADER));
	return google_packet_headers_;
	}

	void SetGooglePacketHeaders(BufferSpan google_packet_headers) {
	google_packet_headers_ = google_packet_headers;
	bitmask_.Set(QuicUdpPacketInfoBit::GOOGLE_PACKET_HEADER);
	}

	private:
	BitMask64 bitmask_;
	QuicPacketCount dropped_packets_;
	QuicIpAddress self_v4_ip_;
	QuicIpAddress self_v6_ip_;
	QuicSocketAddress peer_address_;
	QuicWallTime receive_timestamp_ = QuicWallTime::Zero();
	int ttl_;
	BufferSpan google_packet_headers_;
	};

	// QuicUdpSocketApi provides a minimal set of apis for sending and receiving
	// udp packets. The low level udp socket apis differ between kernels and kernel
	// versions, the goal of QuicUdpSocketApi is to hide such differences.
	// We use non-static functions because it is easier to be mocked in tests when
	// needed.
	class QUIC_EXPORT_PRIVATE QuicUdpSocketApi {
	public:
	// Creates a non-blocking udp socket, sets the receive/send buffer and enable
	// receiving of self ip addresses on read.
	// If address_family == AF_INET6 and ipv6_only is true, receiving of IPv4 self
	// addresses is disabled. This is only necessary for IPv6 sockets on iOS - all
	// other platforms can ignore this parameter. Return kQuicInvalidSocketFd if
	// failed.
	QuicUdpSocketFd Create(int address_family,
	int receive_buffer_size,
	int send_buffer_size,
	bool ipv6_only = false);

	// Closes \|fd\|. No-op if \|fd\| equals to kQuicInvalidSocketFd.
	void Destroy(QuicUdpSocketFd fd);

	// Bind \|fd\| to \|address\|. If \|address\|'s port number is 0, kernel will choose
	// a random port to bind to. Caller can use QuicSocketAddress::FromSocket(fd)
	// to get the bound random port.
	bool Bind(QuicUdpSocketFd fd, QuicSocketAddress address);

	// Enable receiving of various per-packet information. Return true if the
	// corresponding information can be received on read.
	bool EnableDroppedPacketCount(QuicUdpSocketFd fd);
	bool EnableReceiveTimestamp(QuicUdpSocketFd fd);
	bool EnableReceiveTtlForV4(QuicUdpSocketFd fd);
	bool EnableReceiveTtlForV6(QuicUdpSocketFd fd);

	// Wait for \|fd\| to become readable, up to \|timeout\|.
	// Return true if \|fd\| is readable upon return.
	bool WaitUntilReadable(QuicUdpSocketFd fd, QuicTime::Delta timeout);

	struct QUIC_EXPORT_PRIVATE ReadPacketResult {
	bool ok = false;
	QuicUdpPacketInfo packet_info;
	BufferSpan packet_buffer;
	BufferSpan control_buffer;

	void Reset(size_t packet_buffer_length) {
	ok = false;
	packet_info.Reset();
	packet_buffer.buffer_len = packet_buffer_length;
	}
	};
	// Read a packet from \|fd\|:
	// packet_info_interested: Bitmask indicating what information caller wants to
	// receive into \|result->packet_info\|.
	// result->packet_info: Received per packet information.
	// result->packet_buffer: The packet buffer, to be filled with packet data.
	// \|result->packet_buffer.buffer_len\| is set to the
	// packet length on a successful return.
	// result->control_buffer: The control buffer, used by ReadPacket internally.
	// It is recommended to be
	// \|kDefaultUdpPacketControlBufferSize\| bytes.
	// result->ok: True iff a packet is successfully received.
	//
	// If \|*result\| is reused for subsequent ReadPacket() calls, caller needs to
	// call result->Reset() before each ReadPacket().
	void ReadPacket(QuicUdpSocketFd fd,
	BitMask64 packet_info_interested,
	ReadPacketResult* result);

	using ReadPacketResults = std::vector<ReadPacketResult>;
	// Read up to \|results->size()\| packets from \|fd\|. The meaning of each element
	// in \|*results\| has been documented on top of \|ReadPacket\|.
	// Return the number of elements populated into \|*results\|, note it is
	// possible for some of the populated elements to have ok=false.
	size_t ReadMultiplePackets(QuicUdpSocketFd fd,
	BitMask64 packet_info_interested,
	ReadPacketResults* results);

	// Write a packet to \|fd\|.
	// packet_buffer, packet_buffer_len: The packet buffer to write.
	// packet_info: The per packet information to set.
	WriteResult WritePacket(QuicUdpSocketFd fd,
	const char* packet_buffer,
	size_t packet_buffer_len,
	const QuicUdpPacketInfo& packet_info);

	protected:
	bool SetupSocket(QuicUdpSocketFd fd,
	int address_family,
	int receive_buffer_size,
	int send_buffer_size,
	bool ipv6_only);
	bool EnableReceiveSelfIpAddressForV4(QuicUdpSocketFd fd);
	bool EnableReceiveSelfIpAddressForV6(QuicUdpSocketFd fd);
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_QUIC_UDP_SOCKET_H_