577 lines
17 KiB
C++
577 lines
17 KiB
C++
// Copyright 2014 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "Common/Network.h"
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#include <algorithm>
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#include <bit>
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#include <string_view>
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#include <vector>
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#ifndef _WIN32
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#include <netinet/in.h>
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#include <string.h>
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#include <sys/socket.h>
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#include <sys/types.h>
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#else
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#include <WinSock2.h>
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#endif
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#include <fmt/format.h>
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#include "Common/BitUtils.h"
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#include "Common/CommonFuncs.h"
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#include "Common/Random.h"
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#include "Common/StringUtil.h"
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namespace Common
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{
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MACAddress GenerateMacAddress(const MACConsumer type)
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{
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constexpr std::array<u8, 3> oui_bba{{0x00, 0x09, 0xbf}};
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constexpr std::array<u8, 3> oui_ios{{0x00, 0x17, 0xab}};
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MACAddress mac{};
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switch (type)
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{
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case MACConsumer::BBA:
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std::ranges::copy(oui_bba, mac.begin());
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break;
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case MACConsumer::IOS:
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std::ranges::copy(oui_ios, mac.begin());
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break;
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}
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// Generate the 24-bit NIC-specific portion of the MAC address.
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Random::Generate(&mac[3], 3);
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return mac;
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}
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std::string MacAddressToString(const MACAddress& mac)
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{
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return fmt::format("{:02x}:{:02x}:{:02x}:{:02x}:{:02x}:{:02x}", mac[0], mac[1], mac[2], mac[3],
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mac[4], mac[5]);
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}
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std::optional<MACAddress> StringToMacAddress(std::string_view mac_string)
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{
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if (mac_string.empty())
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return std::nullopt;
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int x = 0;
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MACAddress mac{};
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for (size_t i = 0; i < mac_string.size() && x < (MAC_ADDRESS_SIZE * 2); ++i)
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{
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char c = Common::ToLower(mac_string.at(i));
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if (c >= '0' && c <= '9')
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{
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mac[x / 2] |= (c - '0') << ((x & 1) ? 0 : 4);
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++x;
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}
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else if (c >= 'a' && c <= 'f')
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{
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mac[x / 2] |= (c - 'a' + 10) << ((x & 1) ? 0 : 4);
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++x;
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}
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}
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// A valid 48-bit MAC address consists of 6 octets, where each
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// nibble is a character in the MAC address, making 12 characters
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// in total.
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if (x / 2 != MAC_ADDRESS_SIZE)
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return std::nullopt;
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return std::make_optional(mac);
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}
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EthernetHeader::EthernetHeader() = default;
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EthernetHeader::EthernetHeader(u16 ether_type) : ethertype(htons(ether_type))
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{
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}
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EthernetHeader::EthernetHeader(const MACAddress& dest, const MACAddress& src, u16 ether_type)
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: destination(dest), source(src), ethertype(htons(ether_type))
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{
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}
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u16 EthernetHeader::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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IPv4Header::IPv4Header() = default;
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IPv4Header::IPv4Header(u16 data_size, u8 ip_proto, const sockaddr_in& from, const sockaddr_in& to)
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{
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version_ihl = 0x45;
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total_len = htons(Size() + data_size);
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flags_fragment_offset = htons(0x4000);
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ttl = 0x40;
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protocol = ip_proto;
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std::memcpy(source_addr.data(), &from.sin_addr, IPV4_ADDR_LEN);
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std::memcpy(destination_addr.data(), &to.sin_addr, IPV4_ADDR_LEN);
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header_checksum = htons(ComputeNetworkChecksum(this, Size()));
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}
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u16 IPv4Header::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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u8 IPv4Header::DefinedSize() const
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{
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return (version_ihl & 0xf) * 4;
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}
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TCPHeader::TCPHeader() = default;
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TCPHeader::TCPHeader(const sockaddr_in& from, const sockaddr_in& to, u32 seq, const u8* data,
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u16 length)
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{
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std::memcpy(&source_port, &from.sin_port, 2);
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std::memcpy(&destination_port, &to.sin_port, 2);
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sequence_number = htonl(seq);
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// TODO: Write flags
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// Write data offset
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std::memset(&properties, 0x50, 1);
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window_size = 0xFFFF;
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// Compute the TCP checksum with its pseudo header
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const u32 source_addr = ntohl(from.sin_addr.s_addr);
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const u32 destination_addr = ntohl(to.sin_addr.s_addr);
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const u32 initial_value = (source_addr >> 16) + (source_addr & 0xFFFF) +
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(destination_addr >> 16) + (destination_addr & 0xFFFF) + IPProto() +
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Size() + length;
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u32 tcp_checksum = ComputeNetworkChecksum(this, Size(), initial_value);
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tcp_checksum += ComputeNetworkChecksum(data, length);
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while (tcp_checksum > 0xFFFF)
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tcp_checksum = (tcp_checksum >> 16) + (tcp_checksum & 0xFFFF);
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checksum = htons(static_cast<u16>(tcp_checksum));
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}
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TCPHeader::TCPHeader(const sockaddr_in& from, const sockaddr_in& to, u32 seq, u32 ack, u16 flags)
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{
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source_port = from.sin_port;
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destination_port = to.sin_port;
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sequence_number = htonl(seq);
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acknowledgement_number = htonl(ack);
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properties = htons(flags);
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window_size = 0x7c;
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checksum = 0;
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}
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u8 TCPHeader::GetHeaderSize() const
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{
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return (ntohs(properties) & 0xf000) >> 10;
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}
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u16 TCPHeader::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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u8 TCPHeader::IPProto() const
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{
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return static_cast<u8>(IPPROTO_TCP);
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}
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UDPHeader::UDPHeader() = default;
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UDPHeader::UDPHeader(const sockaddr_in& from, const sockaddr_in& to, u16 data_length)
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{
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std::memcpy(&source_port, &from.sin_port, 2);
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std::memcpy(&destination_port, &to.sin_port, 2);
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length = htons(Size() + data_length);
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}
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u16 UDPHeader::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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u8 UDPHeader::IPProto() const
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{
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return static_cast<u8>(IPPROTO_UDP);
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}
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ARPHeader::ARPHeader() = default;
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ARPHeader::ARPHeader(u32 from_ip, const MACAddress& from_mac, u32 to_ip, const MACAddress& to_mac)
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{
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hardware_type = htons(BBA_HARDWARE_TYPE);
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protocol_type = IPV4_HEADER_TYPE;
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hardware_size = MAC_ADDRESS_SIZE;
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protocol_size = IPV4_ADDR_LEN;
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opcode = 0x200;
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sender_ip = from_ip;
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target_ip = to_ip;
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targer_address = to_mac;
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sender_address = from_mac;
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}
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u16 ARPHeader::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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DHCPBody::DHCPBody() = default;
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DHCPBody::DHCPBody(u32 transaction, const MACAddress& client_address, u32 new_ip, u32 serv_ip)
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{
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transaction_id = transaction;
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message_type = DHCPConst::MESSAGE_REPLY;
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hardware_type = BBA_HARDWARE_TYPE;
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hardware_addr = MAC_ADDRESS_SIZE;
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client_mac = client_address;
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your_ip = new_ip;
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server_ip = serv_ip;
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}
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DHCPPacket::DHCPPacket() = default;
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DHCPPacket::DHCPPacket(const std::vector<u8>& data)
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{
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if (data.size() < DHCPBody::SIZE)
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return;
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body = Common::BitCastPtr<DHCPBody>(data.data());
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std::size_t offset = DHCPBody::SIZE;
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while (offset < data.size() - 1)
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{
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const u8 fnc = data[offset];
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if (fnc == 0)
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{
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++offset;
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continue;
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}
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if (fnc == 255)
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break;
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const u8 len = data[offset + 1];
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const auto opt_begin = data.begin() + offset;
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offset += 2 + len;
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if (offset > data.size())
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break;
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const auto opt_end = data.begin() + offset;
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options.emplace_back(opt_begin, opt_end);
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}
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}
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void DHCPPacket::AddOption(u8 fnc, const std::vector<u8>& params)
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{
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if (params.size() > 255)
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return;
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std::vector<u8> opt = {fnc, u8(params.size())};
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opt.insert(opt.end(), params.begin(), params.end());
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options.emplace_back(std::move(opt));
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}
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std::vector<u8> DHCPPacket::Build() const
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{
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const u8* body_ptr = reinterpret_cast<const u8*>(&body);
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std::vector<u8> result(body_ptr, body_ptr + DHCPBody::SIZE);
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for (auto& opt : options)
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{
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result.insert(result.end(), opt.begin(), opt.end());
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}
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const std::vector<u8> no_option = {255, 0, 0, 0};
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result.insert(result.end(), no_option.begin(), no_option.end());
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return result;
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}
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// Compute the network checksum with a 32-bit accumulator using the
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// "Normal" order, see RFC 1071 for more details.
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u16 ComputeNetworkChecksum(const void* data, u16 length, u32 initial_value)
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{
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u32 checksum = initial_value;
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std::size_t index = 0;
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const std::string_view data_view{reinterpret_cast<const char*>(data), length};
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for (u8 b : data_view)
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{
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const bool is_hi = index++ % 2 == 0;
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checksum += is_hi ? b << 8 : b;
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}
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while (checksum > 0xFFFF)
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checksum = (checksum >> 16) + (checksum & 0xFFFF);
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return ~static_cast<u16>(checksum);
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}
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// Compute the TCP checksum with its pseudo header
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u16 ComputeTCPNetworkChecksum(const IPAddress& from, const IPAddress& to, const void* data,
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u16 length, u8 protocol)
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{
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const u32 source_addr = ntohl(std::bit_cast<u32>(from));
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const u32 destination_addr = ntohl(std::bit_cast<u32>(to));
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const u32 initial_value = (source_addr >> 16) + (source_addr & 0xFFFF) +
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(destination_addr >> 16) + (destination_addr & 0xFFFF) + protocol +
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length;
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const u32 tcp_checksum = ComputeNetworkChecksum(data, length, initial_value);
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return htons(static_cast<u16>(tcp_checksum));
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}
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template <typename Container, typename T>
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static inline void InsertObj(Container* container, const T& obj)
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{
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static_assert(std::is_trivially_copyable_v<T>);
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const u8* const ptr = reinterpret_cast<const u8*>(&obj);
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container->insert(container->end(), ptr, ptr + sizeof(obj));
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}
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ARPPacket::ARPPacket() = default;
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u16 ARPPacket::Size() const
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{
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return static_cast<u16>(SIZE);
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}
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ARPPacket::ARPPacket(const MACAddress& destination, const MACAddress& source)
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{
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eth_header.destination = destination;
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eth_header.source = source;
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eth_header.ethertype = htons(ARP_ETHERTYPE);
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}
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std::vector<u8> ARPPacket::Build() const
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{
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std::vector<u8> result;
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result.reserve(EthernetHeader::SIZE + ARPHeader::SIZE);
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InsertObj(&result, eth_header);
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InsertObj(&result, arp_header);
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return result;
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}
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TCPPacket::TCPPacket() = default;
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TCPPacket::TCPPacket(const MACAddress& destination, const MACAddress& source,
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const sockaddr_in& from, const sockaddr_in& to, u32 seq, u32 ack, u16 flags)
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: eth_header(destination, source, IPV4_ETHERTYPE),
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ip_header(Common::TCPHeader::SIZE, IPPROTO_TCP, from, to),
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tcp_header(from, to, seq, ack, flags)
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{
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}
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std::vector<u8> TCPPacket::Build() const
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{
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std::vector<u8> result;
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result.reserve(Size()); // Useful not to invalidate .data() pointers
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// Copy data
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InsertObj(&result, eth_header);
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u8* const ip_ptr = result.data() + result.size();
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InsertObj(&result, ip_header);
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result.insert(result.end(), ipv4_options.begin(), ipv4_options.end());
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u8* const tcp_ptr = result.data() + result.size();
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InsertObj(&result, tcp_header);
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result.insert(result.end(), tcp_options.begin(), tcp_options.end());
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result.insert(result.end(), data.begin(), data.end());
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// Adjust size and checksum fields
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const u16 tcp_length = static_cast<u16>(TCPHeader::SIZE + tcp_options.size() + data.size());
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const u16 tcp_properties =
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(ntohs(tcp_header.properties) & 0xfff) |
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(static_cast<u16>((tcp_options.size() + TCPHeader::SIZE) & 0x3c) << 10);
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Common::BitCastPtr<u16>(tcp_ptr + offsetof(TCPHeader, properties)) = htons(tcp_properties);
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const u16 ip_header_size = static_cast<u16>(IPv4Header::SIZE + ipv4_options.size());
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const u16 ip_total_len = ip_header_size + tcp_length;
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Common::BitCastPtr<u16>(ip_ptr + offsetof(IPv4Header, total_len)) = htons(ip_total_len);
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auto ip_checksum_bitcast_ptr =
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Common::BitCastPtr<u16>(ip_ptr + offsetof(IPv4Header, header_checksum));
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ip_checksum_bitcast_ptr = u16(0);
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ip_checksum_bitcast_ptr = htons(Common::ComputeNetworkChecksum(ip_ptr, ip_header_size));
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auto checksum_bitcast_ptr = Common::BitCastPtr<u16>(tcp_ptr + offsetof(TCPHeader, checksum));
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checksum_bitcast_ptr = u16(0);
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checksum_bitcast_ptr = ComputeTCPNetworkChecksum(
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ip_header.source_addr, ip_header.destination_addr, tcp_ptr, tcp_length, IPPROTO_TCP);
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return result;
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}
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u16 TCPPacket::Size() const
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{
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return static_cast<u16>(MIN_SIZE + data.size() + ipv4_options.size() + tcp_options.size());
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}
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UDPPacket::UDPPacket() = default;
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UDPPacket::UDPPacket(const MACAddress& destination, const MACAddress& source,
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const sockaddr_in& from, const sockaddr_in& to, const std::vector<u8>& payload)
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: eth_header(destination, source, IPV4_ETHERTYPE),
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ip_header(static_cast<u16>(payload.size() + Common::UDPHeader::SIZE), IPPROTO_UDP, from, to),
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udp_header(from, to, static_cast<u16>(payload.size())), data(payload)
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{
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}
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std::vector<u8> UDPPacket::Build() const
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{
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std::vector<u8> result;
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result.reserve(Size()); // Useful not to invalidate .data() pointers
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// Copy data
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InsertObj(&result, eth_header);
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u8* const ip_ptr = result.data() + result.size();
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InsertObj(&result, ip_header);
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result.insert(result.end(), ipv4_options.begin(), ipv4_options.end());
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u8* const udp_ptr = result.data() + result.size();
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InsertObj(&result, udp_header);
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result.insert(result.end(), data.begin(), data.end());
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// Adjust size and checksum fields
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const u16 udp_length = static_cast<u16>(UDPHeader::SIZE + data.size());
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Common::BitCastPtr<u16>(udp_ptr + offsetof(UDPHeader, length)) = htons(udp_length);
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const u16 ip_header_size = static_cast<u16>(IPv4Header::SIZE + ipv4_options.size());
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const u16 ip_total_len = ip_header_size + udp_length;
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Common::BitCastPtr<u16>(ip_ptr + offsetof(IPv4Header, total_len)) = htons(ip_total_len);
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auto ip_checksum_bitcast_ptr =
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Common::BitCastPtr<u16>(ip_ptr + offsetof(IPv4Header, header_checksum));
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ip_checksum_bitcast_ptr = u16(0);
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ip_checksum_bitcast_ptr = htons(Common::ComputeNetworkChecksum(ip_ptr, ip_header_size));
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auto checksum_bitcast_ptr = Common::BitCastPtr<u16>(udp_ptr + offsetof(UDPHeader, checksum));
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checksum_bitcast_ptr = u16(0);
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checksum_bitcast_ptr = ComputeTCPNetworkChecksum(
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ip_header.source_addr, ip_header.destination_addr, udp_ptr, udp_length, IPPROTO_UDP);
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return result;
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}
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u16 UDPPacket::Size() const
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{
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return static_cast<u16>(MIN_SIZE + data.size() + ipv4_options.size());
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}
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PacketView::PacketView(const u8* ptr, std::size_t size) : m_ptr(ptr), m_size(size)
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{
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}
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std::optional<u16> PacketView::GetEtherType() const
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{
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if (m_size < EthernetHeader::SIZE)
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return std::nullopt;
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const std::size_t offset = offsetof(EthernetHeader, ethertype);
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return ntohs(Common::BitCastPtr<u16>(m_ptr + offset));
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}
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std::optional<ARPPacket> PacketView::GetARPPacket() const
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{
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if (m_size < ARPPacket::SIZE)
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return std::nullopt;
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return Common::BitCastPtr<ARPPacket>(m_ptr);
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}
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std::optional<u8> PacketView::GetIPProto() const
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{
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if (m_size < EthernetHeader::SIZE + IPv4Header::SIZE)
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return std::nullopt;
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return m_ptr[EthernetHeader::SIZE + offsetof(IPv4Header, protocol)];
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}
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std::optional<TCPPacket> PacketView::GetTCPPacket() const
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{
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if (m_size < TCPPacket::MIN_SIZE)
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return std::nullopt;
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|
TCPPacket result;
|
|
result.eth_header = Common::BitCastPtr<EthernetHeader>(m_ptr);
|
|
result.ip_header = Common::BitCastPtr<IPv4Header>(m_ptr + EthernetHeader::SIZE);
|
|
const u16 offset = result.ip_header.DefinedSize() + EthernetHeader::SIZE;
|
|
if (m_size < offset + TCPHeader::SIZE)
|
|
return std::nullopt;
|
|
result.ipv4_options =
|
|
std::vector<u8>(m_ptr + EthernetHeader::SIZE + IPv4Header::SIZE, m_ptr + offset);
|
|
result.tcp_header = Common::BitCastPtr<TCPHeader>(m_ptr + offset);
|
|
const u16 data_offset = result.tcp_header.GetHeaderSize() + offset;
|
|
|
|
const u16 total_len = ntohs(result.ip_header.total_len);
|
|
const std::size_t end = EthernetHeader::SIZE + total_len;
|
|
|
|
if (m_size < end || end < data_offset)
|
|
return std::nullopt;
|
|
|
|
result.tcp_options = std::vector<u8>(m_ptr + offset + TCPHeader::SIZE, m_ptr + data_offset);
|
|
result.data = std::vector<u8>(m_ptr + data_offset, m_ptr + end);
|
|
|
|
return result;
|
|
}
|
|
|
|
std::optional<UDPPacket> PacketView::GetUDPPacket() const
|
|
{
|
|
if (m_size < UDPPacket::MIN_SIZE)
|
|
return std::nullopt;
|
|
UDPPacket result;
|
|
result.eth_header = Common::BitCastPtr<EthernetHeader>(m_ptr);
|
|
result.ip_header = Common::BitCastPtr<IPv4Header>(m_ptr + EthernetHeader::SIZE);
|
|
const u16 offset = result.ip_header.DefinedSize() + EthernetHeader::SIZE;
|
|
if (m_size < offset + UDPHeader::SIZE)
|
|
return std::nullopt;
|
|
result.ipv4_options =
|
|
std::vector<u8>(m_ptr + EthernetHeader::SIZE + IPv4Header::SIZE, m_ptr + offset);
|
|
result.udp_header = Common::BitCastPtr<UDPHeader>(m_ptr + offset);
|
|
const u16 data_offset = UDPHeader::SIZE + offset;
|
|
|
|
const u16 total_len = ntohs(result.udp_header.length);
|
|
const std::size_t end = offset + total_len;
|
|
|
|
if (m_size < end || end < data_offset)
|
|
return std::nullopt;
|
|
|
|
result.data = std::vector<u8>(m_ptr + data_offset, m_ptr + end);
|
|
|
|
return result;
|
|
}
|
|
|
|
NetworkErrorState SaveNetworkErrorState()
|
|
{
|
|
return {
|
|
errno,
|
|
#ifdef _WIN32
|
|
WSAGetLastError(),
|
|
#endif
|
|
};
|
|
}
|
|
|
|
void RestoreNetworkErrorState(const NetworkErrorState& state)
|
|
{
|
|
errno = state.error;
|
|
#ifdef _WIN32
|
|
WSASetLastError(state.wsa_error);
|
|
#endif
|
|
}
|
|
|
|
const char* DecodeNetworkError(s32 error_code)
|
|
{
|
|
thread_local char buffer[1024];
|
|
|
|
#ifdef _WIN32
|
|
FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS |
|
|
FORMAT_MESSAGE_MAX_WIDTH_MASK,
|
|
nullptr, error_code, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), buffer,
|
|
sizeof(buffer), nullptr);
|
|
return buffer;
|
|
#else
|
|
return Common::StrErrorWrapper(error_code, buffer, sizeof(buffer));
|
|
#endif
|
|
}
|
|
|
|
const char* StrNetworkError()
|
|
{
|
|
#ifdef _WIN32
|
|
const s32 error_code = WSAGetLastError();
|
|
#else
|
|
const s32 error_code = errno;
|
|
#endif
|
|
return DecodeNetworkError(error_code);
|
|
}
|
|
} // namespace Common
|