#include "VpnPacket.hpp" #include "VpnPeer.hpp" #include const size_t VpnPacket::VPN_HEADER_BYTES = 8; const size_t VpnControlPacket::TLV_HEADER_BYTES = 3; static const size_t OUTER_HEADERS_BYTES = 40 /* IPv6 header */ + 8 /* UDP header */; // We use a TUN device, hence we don't have a layer 2 header. static const int DATA_SEQNO_POS = 0, DATA_CTRLBIT_POS = 4, DATA_TIMESTAMP_POS = 4; VpnPacket::VpnPacket(size_t mtu, bool inbound) : _peer(nullptr), _inbound(inbound), _data_space(mtu-OUTER_HEADERS_BYTES), _data_size(VPN_HEADER_BYTES), _reception_timestamp(0) { _data = (char*) malloc(sizeof(char) * (mtu - OUTER_HEADERS_BYTES)); } VpnPacket::~VpnPacket() { free(_data); } VpnPacket::VpnPacket(VpnPacket&& move_from) : _peer(move_from._peer), _inbound(move_from._inbound), _data(std::move(move_from._data)), _data_space(move_from._data_space), _data_size(move_from._data_size), _reception_timestamp(move_from._reception_timestamp) {} size_t VpnPacket::get_tunnelled_mtu(size_t udp_mtu) { return udp_mtu - OUTER_HEADERS_BYTES - VPN_HEADER_BYTES; } void VpnPacket::set_peer(VpnPeer* peer) { _peer = peer; if(_peer && _inbound) _peer->got_inbound_packet(*this); } uint32_t VpnPacket::get_seqno() const { return ntohl(*(uint32_t*)(_data + DATA_SEQNO_POS)); } uint32_t VpnPacket::get_sending_timestamp() const { return ntohl( *(uint32_t*)(_data + DATA_TIMESTAMP_POS) & 0x7fffffffUL ); } bool VpnPacket::is_control() const { return *(unsigned char*)(_data + DATA_CTRLBIT_POS) & 0x80; } void VpnPacket::set_control(bool is_control) { unsigned char* ctrl_field = (unsigned char*) (_data + DATA_CTRLBIT_POS); *ctrl_field &= 0x7f; if(is_control) *ctrl_field |= 0x80; } void VpnPacket::prepare_for_sending() { uint32_t* ts_field = (uint32_t*) (_data + DATA_TIMESTAMP_POS); *ts_field &= htonl(0x80000000UL); *(uint32_t*)(_data + DATA_SEQNO_POS) = htonl(next_seqno()); *ts_field |= htonl(to_us_timestamp(current_us_timestamp())); } void VpnPacket::upon_reception() { _reception_timestamp = to_us_timestamp(current_us_timestamp()); } uint32_t VpnPacket::next_seqno() { if(!_peer) { fprintf(stderr, "ERROR: trying to get seqno without peer.\n"); return 0; } return _peer->next_seqno(); } VpnControlPacket::VpnControlPacket(size_t mtu, bool inbound) : VpnPacket(mtu, inbound) { set_control(true); } VpnControlPacket::VpnControlPacket(VpnPacket&& move_from) : VpnPacket(std::move(move_from)) {} VpnPacketTLV VpnControlPacket::first_tlv() { return VpnPacketTLV(*this, 0); } VpnDataPacket::VpnDataPacket(size_t mtu, bool inbound) : VpnPacket(mtu, inbound), _ipv6_parsed(false) { set_control(false); } VpnDataPacket::VpnDataPacket(VpnPacket&& move_from) : VpnPacket(std::move(move_from)), _ipv6_parsed(false) {} bool VpnDataPacket::parse_as_ipv6(bool reparse) { if(_ipv6_parsed && !reparse) return true; _ipv6_parsed = parse_ipv6_header(get_payload(), get_payload_size(), _ipv6_header); return _ipv6_parsed; } VpnPacketTLV::VpnPacketTLV(VpnControlPacket& packet, size_t payload_offset) : _packet(packet), _tlv_pos(payload_offset) {} VpnPacketTLV::VpnPacketTLV(const VpnPacketTLV& other) : _packet(other._packet), _tlv_pos(other._tlv_pos) {} VpnPacketTLV VpnPacketTLV::create( VpnControlPacket& packet, VpnPacketTLV::PayloadType type) { VpnPacketTLV tlv = VpnPacketTLV(packet, packet.get_payload_size()); packet.increase_payload_size(VpnControlPacket::TLV_HEADER_BYTES); char* data = tlv.get_data(); data[0] = type; *(uint16_t*)(data+1) = 0; // Set len to 0 return tlv; } VpnPacketTLV VpnPacketTLV::next_tlv() { size_t next_offset = _tlv_pos + get_payload_size(); return VpnPacketTLV(_packet, next_offset); } void VpnPacketTLV::seek_next_tlv() { _tlv_pos = _tlv_pos + VpnControlPacket::TLV_HEADER_BYTES + get_payload_size(); } uint16_t VpnPacketTLV::get_payload_size() const { return *(uint16_t*)(get_data() + 1); } void VpnPacketTLV::set_payload_size(uint16_t size) { uint16_t* data_size_ptr = (uint16_t*)(get_data() + 1); uint16_t old_size = *data_size_ptr; *data_size_ptr = size; _packet.increase_payload_size(size - old_size); } uint16_t VpnPacketTLV::get_payload_space() const { return _packet.get_payload_space() - _packet.get_payload_size() + get_payload_size(); } VpnPacketTLV::PayloadType VpnPacketTLV::get_type() const { return (PayloadType)(*(uint8_t*)(get_data())); } void VpnPacketTLV::set_type(VpnPacketTLV::PayloadType type) { *(uint8_t*)(get_data()) = (uint8_t) type; } /* ========== VpnTlvLossReport ========== */ const uint32_t VpnTlvLossReport::REP_SEQNO_POS = 0, VpnTlvLossReport::REP_LOSS_POS = 4; VpnTlvLossReport::VpnTlvLossReport( VpnControlPacket& packet, size_t payload_offset) : VpnPacketTLV(packet, payload_offset) {} VpnTlvLossReport::VpnTlvLossReport(const VpnPacketTLV& other) : VpnPacketTLV(other) {} VpnTlvLossReport VpnTlvLossReport::create(VpnControlPacket& packet) { VpnTlvLossReport tlv = VpnPacketTLV::create(packet, VpnPacketTLV::PAYLOAD_TYPE_LOSS_REPORT); tlv.set_payload_size(8); memset(tlv.get_payload(), 0, 8); return tlv; } uint32_t VpnTlvLossReport::get_report_seqno() const { return ntohl(*(uint32_t*)(get_payload() + REP_SEQNO_POS)); } void VpnTlvLossReport::set_report_seqno(uint32_t seqno) { *(uint32_t*)(get_payload() + REP_SEQNO_POS) = htonl(seqno); } uint32_t VpnTlvLossReport::get_losses() const { return ntohl(*(uint32_t*)(get_payload() + REP_LOSS_POS)); } void VpnTlvLossReport::set_losses(uint32_t losses) { *(uint32_t*)(get_payload() + REP_LOSS_POS) = htonl(losses); } /* ========== VpnTlvRTTQ ========== */ VpnTlvRTTQ::VpnTlvRTTQ(VpnControlPacket& packet, size_t payload_offset) : VpnPacketTLV(packet, payload_offset) {} VpnTlvRTTQ::VpnTlvRTTQ(const VpnPacketTLV& other) : VpnPacketTLV(other) {} VpnTlvRTTQ VpnTlvRTTQ::create(VpnControlPacket& packet) { return VpnPacketTLV::create(packet, VpnPacketTLV::PAYLOAD_TYPE_RTTQ); } /* ========== VpnTlvRTTA ========== */ const uint32_t VpnTlvRTTA::EXP_TS_POS = 0, VpnTlvRTTA::RECV_TS_POS = 4; VpnTlvRTTA::VpnTlvRTTA(VpnControlPacket& packet, size_t payload_offset) : VpnPacketTLV(packet, payload_offset) {} VpnTlvRTTA::VpnTlvRTTA(const VpnPacketTLV& other) : VpnPacketTLV(other) {} VpnTlvRTTA VpnTlvRTTA::create(VpnControlPacket& packet) { VpnTlvRTTA tlv = VpnPacketTLV::create(packet, VpnPacketTLV::PAYLOAD_TYPE_RTTA); tlv.set_payload_size(8); memset(tlv.get_payload(), 0, 8); return tlv; } uint32_t VpnTlvRTTA::get_exp_ts() const { return ntohl(*(uint32_t*)(get_payload() + EXP_TS_POS)); } void VpnTlvRTTA::set_exp_ts(uint32_t ts) { *(uint32_t*)(get_payload() + EXP_TS_POS) = htonl(ts); } uint32_t VpnTlvRTTA::get_recv_ts() const { return ntohl(*(uint32_t*)(get_payload() + RECV_TS_POS)); } void VpnTlvRTTA::set_recv_ts(uint32_t ts) { *(uint32_t*)(get_payload() + RECV_TS_POS) = htonl(ts); }