Get rid of the template stuff that didn't work well for this situation.

This commit is contained in:
Sijmen 2020-12-27 00:20:57 +01:00
parent 41ee2d9777
commit 74a92bc9d5
Signed by: vijfhoek
GPG key ID: DAF7821E067D9C48
9 changed files with 186 additions and 379 deletions

View file

@ -369,14 +369,14 @@ void InitialiseLCD()
void updateNetwork()
{
size_t size;
unsigned int size = 0;
uint8_t ipBuffer[USPI_FRAME_BUFFER_SIZE];
if (!USPiEthernetAvailable() || !USPiReceiveFrame(ipBuffer, &size))
{
return;
}
auto header = EthernetFrameHeader::Deserialize(ipBuffer);
auto ethernetHeader = EthernetFrameHeader::Deserialize(ipBuffer);
static bool announcementSent = false;
if (!announcementSent)
@ -385,13 +385,13 @@ void updateNetwork()
announcementSent = true;
}
switch (header.type)
switch (ethernetHeader.type)
{
case ETHERTYPE_ARP:
HandleArpFrame(ipBuffer);
HandleArpFrame(ethernetHeader, ipBuffer + ethernetHeader.SerializedLength());
break;
case ETHERTYPE_IPV4:
HandleIpv4Frame(ipBuffer);
HandleIpv4Packet(ethernetHeader, ipBuffer + ethernetHeader.SerializedLength());
break;
}
}

View file

@ -24,6 +24,20 @@ struct Ipv4ArpPacket
operation(operation)
{}
constexpr std::size_t SerializedLength() const
{
return
sizeof(hardwareType) +
sizeof(protocolType) +
sizeof(hardwareAddressLength) +
sizeof(protocolAddressLength) +
sizeof(operation) +
senderMac.size() +
sizeof(senderIp) +
targetMac.size() +
sizeof(targetIp);
}
std::size_t Serialize(std::uint8_t* buffer)
{
buffer[0] = hardwareType >> 8;
@ -34,7 +48,7 @@ struct Ipv4ArpPacket
buffer[5] = protocolAddressLength;
buffer[6] = operation >> 8;
buffer[7] = operation;
memcpy(buffer + 8, senderMac.data(), 6);
buffer[14] = senderIp >> 24;
@ -71,5 +85,4 @@ struct Ipv4ArpPacket
return self;
}
} __attribute__((packed));
};

View file

@ -21,10 +21,10 @@ struct EthernetFrameHeader
constexpr static std::size_t SerializedLength()
{
return sizeof(EthernetFrameHeader);
return sizeof(macDestination) + sizeof(macSource) + sizeof(type);
}
std::size_t Serialize(uint8_t* buffer)
std::size_t Serialize(uint8_t* buffer) const
{
std::size_t i = 0;
@ -43,75 +43,9 @@ struct EthernetFrameHeader
static EthernetFrameHeader Deserialize(const uint8_t* buffer)
{
EthernetFrameHeader self;
memcpy(self.macDestination.data(), buffer + 0, self.macDestination.size());
memcpy(self.macSource.data(), buffer + 6, self.macSource.size());
std::memcpy(self.macDestination.data(), buffer + 0, self.macDestination.size());
std::memcpy(self.macSource.data(), buffer + 6, self.macSource.size());
self.type = buffer[12] << 8 | buffer[13];
return self;
}
} __attribute__((packed));
template <class T>
struct EthernetFrame
{
EthernetFrameHeader header;
T payload;
std::uint32_t crc;
EthernetFrame() {}
EthernetFrame(std::uint16_t type, T payload) : header(type), payload(payload)
{}
EthernetFrame(
MacAddress macDestination,
MacAddress macSource,
std::uint16_t type,
T payload
) : header(macDestination, macSource, type), payload(payload)
{}
std::size_t Serialize(uint8_t* buffer)
{
std::size_t i = 0;
i += header.Serialize(buffer);
std::size_t payload_size = payload.Serialize(buffer + i);
i += payload_size;
// Pad data to 46 bytes
for (; payload_size < 46; payload_size++) {
buffer[i++] = 0;
}
crc = Crc32(buffer, i);
buffer[i++] = crc;
buffer[i++] = crc >> 8;
buffer[i++] = crc >> 16;
buffer[i++] = crc >> 24;
return i;
}
static EthernetFrame<T> Deserialize(const uint8_t* buffer)
{
EthernetFrame<T> self;
self.header = EthernetFrameHeader::Deserialize(buffer);
size_t i = sizeof(EthernetFrameHeader);
// XXX Might want to base this on actual deserialized data, might not match.
std::size_t payloadSize = sizeof(T);
self.payload = T::Deserialize(buffer + i);
// Skip the padding
i += std::max(payloadSize, std::size_t{46});
self.crc =
buffer[i] << 24 | buffer[i + 1] << 16 | buffer[i + 2] << 8 | buffer[i + 3];
i += 4;
return self;
}
} __attribute__((packed));
};

View file

@ -19,6 +19,11 @@ struct IcmpPacketHeader
type(type), code(code), checksum(0)
{}
constexpr static std::size_t SerializedLength()
{
return sizeof(type) + sizeof(code) + sizeof(checksum);
}
std::size_t Serialize(uint8_t* buffer) const
{
size_t i = 0;
@ -37,93 +42,21 @@ struct IcmpPacketHeader
self.checksum = buffer[2] << 8 | buffer[3];
return self;
}
} __attribute__((packed));
};
template <class T>
struct IcmpPacket
{
IcmpPacketHeader header;
T payload;
IcmpPacket() {}
IcmpPacket(std::uint8_t type, std::uint8_t code) :
header(type, code)
{}
IcmpPacket(std::uint8_t type, std::uint8_t code, T payload) :
header(type, code), payload(payload)
{}
std::size_t Serialize(uint8_t* buffer)
{
std::size_t i = 0;
header.checksum = 0;
i += header.Serialize(buffer);
i += payload.Serialize(buffer + i);
uint16_t checksum = InternetChecksum(buffer, i);
buffer[2] = checksum;
buffer[3] = checksum >> 8;
return i;
}
static IcmpPacket<T> Deserialize(const uint8_t* buffer)
{
IcmpPacket<T> self;
self.header = IcmpPacketHeader::Deserialize(buffer);
self.payload = T::Deserialize(buffer + sizeof(IcmpPacketHeader));
return self;
}
} __attribute__((packed));
template <class T>
struct IcmpEchoRequest
{
uint16_t identifier;
uint16_t sequenceNumber;
T data;
IcmpEchoRequest() {}
IcmpEchoRequest(T data) : identifier(0), sequenceNumber(0), data(data)
{}
size_t Serialize(uint8_t* buffer)
{
size_t i = 0;
buffer[i++] = identifier >> 8;
buffer[i++] = identifier;
buffer[i++] = sequenceNumber >> 8;
buffer[i++] = sequenceNumber;
memcpy(buffer + i, &data, sizeof(T));
i += sizeof(T);
return i;
}
static IcmpEchoRequest<T> Deserialize(const uint8_t* buffer)
{
IcmpEchoRequest self;
self.identifier = buffer[0] << 8 | buffer[1];
self.sequenceNumber = buffer[2] << 8 | buffer[3];
memcpy(self.data, buffer + 4, sizeof(T));
return self;
}
} __attribute__((packed));
template <>
struct IcmpEchoRequest<void>
struct IcmpEchoHeader
{
uint16_t identifier;
uint16_t sequenceNumber;
IcmpEchoRequest() : identifier(0), sequenceNumber(0)
{}
IcmpEchoHeader() : IcmpEchoHeader(0, 0) {}
IcmpEchoHeader(uint16_t identifier, uint16_t sequenceNumber) :
identifier(identifier), sequenceNumber(sequenceNumber) {}
constexpr static size_t SerializedLength()
{
return sizeof(identifier) + sizeof(sequenceNumber);
}
size_t Serialize(uint8_t* buffer)
{
@ -135,47 +68,11 @@ struct IcmpEchoRequest<void>
return i;
}
static IcmpEchoRequest Deserialize(const uint8_t* buffer)
static IcmpEchoHeader Deserialize(const uint8_t* buffer)
{
IcmpEchoRequest self;
IcmpEchoHeader self;
self.identifier = buffer[0] << 8 | buffer[1];
self.sequenceNumber = buffer[2] << 8 | buffer[3];
return self;
}
} __attribute__((packed));
template <class T>
struct IcmpEchoResponse
{
uint16_t identifier;
uint16_t sequenceNumber;
T data;
IcmpEchoResponse() {}
IcmpEchoResponse(T data) : identifier(0), sequenceNumber(0), data(data)
{}
size_t Serialize(uint8_t* buffer)
{
size_t i = 0;
buffer[i++] = identifier >> 8;
buffer[i++] = identifier;
buffer[i++] = sequenceNumber >> 8;
buffer[i++] = sequenceNumber;
memcpy(buffer + i, &data, sizeof(T));
i += sizeof(T);
return i;
}
static IcmpEchoResponse<T> Deserialize(const uint8_t* buffer)
{
IcmpEchoResponse self;
self.identifier = buffer[0] << 8 | buffer[1];
self.sequenceNumber = buffer[2] << 8 | buffer[3];
memcpy(self.data, buffer + 4, sizeof(T));
return self;
}
} __attribute__((packed));
};

View file

@ -10,14 +10,14 @@ enum IpProtocols
struct Ipv4Header
{
unsigned int version : 4;
unsigned int ihl : 4;
unsigned int dscp : 6;
unsigned int ecn : 2;
uint8_t version;
uint8_t ihl;
uint8_t dscp;
uint8_t ecn;
uint16_t totalLength;
uint16_t identification;
unsigned int flags : 3;
unsigned int fragmentOffset : 13;
uint8_t flags;
uint16_t fragmentOffset;
uint8_t ttl;
uint8_t protocol;
uint16_t headerChecksum;
@ -47,10 +47,11 @@ struct Ipv4Header
static constexpr size_t SerializedLength()
{
return sizeof(Ipv4Header);
// Hardcoded because of bitfields.
return 20;
}
size_t Serialize(uint8_t* buffer)
size_t Serialize(uint8_t* buffer) const
{
size_t i = 0;
@ -65,9 +66,9 @@ struct Ipv4Header
buffer[i++] = ttl;
buffer[i++] = protocol;
headerChecksum = 0;
buffer[i++] = headerChecksum;
buffer[i++] = headerChecksum >> 8;
// Zero the checksum before calculating it
buffer[i++] = 0;
buffer[i++] = 0 >> 8;
buffer[i++] = sourceIp >> 24;
buffer[i++] = sourceIp >> 16;
@ -78,9 +79,9 @@ struct Ipv4Header
buffer[i++] = destinationIp >> 8;
buffer[i++] = destinationIp;
headerChecksum = InternetChecksum(buffer, i);
buffer[10] = headerChecksum;
buffer[11] = headerChecksum >> 8;
uint16_t checksum = InternetChecksum(buffer, i);
buffer[10] = checksum;
buffer[11] = checksum >> 8;
return i;
}
@ -109,36 +110,4 @@ struct Ipv4Header
return self;
}
} __attribute__((packed));
template<class T>
struct Ipv4Packet
{
Ipv4Header header;
T payload;
Ipv4Packet() {}
Ipv4Packet(uint8_t protocol, uint32_t sourceIp, uint32_t destinationIp, T payload) :
header(protocol, sourceIp, destinationIp, sizeof(Ipv4Packet<T>)),
payload(payload)
{
}
size_t Serialize(uint8_t* buffer)
{
size_t i = 0;
i += header.Serialize(buffer);
i += payload.Serialize(buffer + i);
return i;
}
static Ipv4Packet<T> Deserialize(const uint8_t* buffer)
{
Ipv4Packet<T> self;
self.header = Ipv4Header::Deserialize(buffer);
self.payload = T::Deserialize(buffer + sizeof(Ipv4Header));
return self;
}
} __attribute__((packed));
};

View file

@ -18,7 +18,10 @@ struct TftpPacket
TftpPacket(uint16_t opcode) : opcode(opcode) {}
virtual size_t SerializedLength() const = 0;
virtual size_t SerializedLength() const {
return sizeof(opcode);
}
virtual size_t Serialize(uint8_t* buffer) const = 0;
};
@ -29,8 +32,8 @@ struct TftpWriteReadRequestPacket : public TftpPacket
TftpWriteReadRequestPacket(uint16_t opcode) : TftpPacket(opcode) {}
constexpr size_t SerializedLength() override {
return sizeof(opcode) + filename.size() + 1 + mode.size() + 1;
size_t SerializedLength() const override {
return TftpPacket::SerializedLength() + filename.size() + 1 + mode.size() + 1;
}
size_t Serialize(uint8_t* buffer) const override {
@ -73,9 +76,9 @@ struct TftpErrorPacket : public TftpPacket
TftpPacket(TFTP_OP_ERROR), errorCode(errorCode), message(message)
{}
constexpr size_t SerializedLength() const override
size_t SerializedLength() const override
{
return sizeof(opcode) + sizeof(errorCode) + message.size() + 1;
return TftpPacket::SerializedLength() + sizeof(errorCode) + message.size() + 1;
}
size_t Serialize(uint8_t* buffer) const
@ -85,7 +88,7 @@ struct TftpErrorPacket : public TftpPacket
buffer[i++] = opcode;
buffer[i++] = errorCode >> 8;
buffer[i++] = errorCode;
i += message.copy(reinterpret_cast<char*>(buffer + i), message.size());
buffer[i++] = 0;
@ -103,9 +106,9 @@ struct TftpAcknowledgementPacket : public TftpPacket
TftpPacket(TFTP_OP_ACKNOWLEDGEMENT), blockNumber(blockNumber)
{}
constexpr size_t SerializedLength() override
size_t SerializedLength() const override
{
return sizeof(opcode) + sizeof(blockNumber);
return TftpPacket::SerializedLength() + sizeof(blockNumber);
}
size_t Serialize(uint8_t* buffer) const override

View file

@ -51,18 +51,4 @@ struct UdpDatagramHeader
self.checksum = buffer[6] << 8 | buffer[7];
return self;
}
} __attribute__((packed));
template <class T>
struct UdpDatagram
{
UdpDatagramHeader header;
T payload;
UdpDatagram() {}
UdpDatagram(uint16_t sourcePort, uint16_t destinationPort, T payload) :
header(sourcePort, destinationPort, sizeof(UdpDatagram<T>)),
payload(payload)
{}
} __attribute__((packed));
};

View file

@ -22,18 +22,18 @@ void SendArpPacket(
uint32_t targetIp,
uint32_t senderIp)
{
Ipv4ArpPacket arp(operation);
arp.targetMac = targetMac;
arp.senderMac = senderMac;
arp.targetIp = targetIp;
arp.senderIp = senderIp;
Ipv4ArpPacket arpPacket(operation);
arpPacket.targetMac = targetMac;
arpPacket.senderMac = senderMac;
arpPacket.targetIp = targetIp;
arpPacket.senderIp = senderIp;
EthernetFrame<decltype(arp)> frame(ETHERTYPE_ARP, arp);
frame.header.macDestination = targetMac;
frame.header.macSource = senderMac;
EthernetFrameHeader ethernetHeader(senderMac, targetMac, ETHERTYPE_ARP);
uint8_t buffer[USPI_FRAME_BUFFER_SIZE];
const auto size = frame.Serialize(buffer);
size_t size = 0;
size += ethernetHeader.Serialize(buffer + size);
size += arpPacket.Serialize(buffer + size);
USPiSendFrame(buffer, size);
}
@ -54,79 +54,75 @@ void SendArpAnnouncement(MacAddress mac, uint32_t ip)
SendArpReply(MacBroadcast, mac, ip, ip);
}
void HandleArpFrame(uint8_t* buffer)
void HandleArpFrame(const EthernetFrameHeader ethernetHeader, uint8_t* buffer)
{
const auto macAddress = GetMacAddress();
const auto arpPacket = Ipv4ArpPacket::Deserialize(buffer);
const auto frame = EthernetFrame<Ipv4ArpPacket>::Deserialize(buffer);
const auto arp = frame.payload;
if (arp.hardwareType == 1 &&
arp.protocolType == ETHERTYPE_IPV4 &&
arp.operation == ARP_OPERATION_REQUEST &&
arp.targetIp == Ipv4Address)
if (
arpPacket.hardwareType == 1 &&
arpPacket.protocolType == ETHERTYPE_IPV4 &&
arpPacket.operation == ARP_OPERATION_REQUEST &&
arpPacket.targetIp == Ipv4Address)
{
SendArpReply(arp.senderMac, macAddress, arp.senderIp, Ipv4Address);
SendArpReply(arpPacket.senderMac, macAddress, arpPacket.senderIp, Ipv4Address);
}
else if (arp.hardwareType == 1 &&
arp.protocolType == ETHERTYPE_IPV4 &&
arp.operation == ARP_OPERATION_REPLY &&
arp.targetIp == Ipv4Address &&
arp.targetMac == macAddress)
else if (
arpPacket.hardwareType == 1 &&
arpPacket.protocolType == ETHERTYPE_IPV4 &&
arpPacket.operation == ARP_OPERATION_REPLY &&
arpPacket.targetIp == Ipv4Address &&
arpPacket.targetMac == macAddress)
{
ArpTable.insert(std::make_pair(arp.senderIp, arp.senderMac));
ArpTable.insert(std::make_pair(arpPacket.senderIp, arpPacket.senderMac));
}
}
//
// IPv4
//
void HandleIpv4Frame(const uint8_t* buffer)
void HandleIpv4Packet(const EthernetFrameHeader ethernetHeader, const uint8_t* buffer)
{
const auto frame = EthernetFrame<Ipv4Header>::Deserialize(buffer);
const auto header = frame.payload;
const auto ipv4Header = Ipv4Header::Deserialize(buffer);
// Update ARP table
ArpTable.insert(std::make_pair(frame.payload.sourceIp, frame.header.macSource));
ArpTable.insert(std::make_pair(ipv4Header.sourceIp, ethernetHeader.macSource));
if (header.version != 4) return;
if (header.ihl != 5) return; // Not supported
if (header.destinationIp != Ipv4Address) return;
if (header.fragmentOffset != 0) return; // TODO Support this
if (ipv4Header.version != 4) return;
if (ipv4Header.ihl != 5) return; // Not supported
if (ipv4Header.destinationIp != Ipv4Address) return;
if (ipv4Header.fragmentOffset != 0) return; // TODO Support this
if (header.protocol == IP_PROTO_ICMP)
if (ipv4Header.protocol == IP_PROTO_ICMP)
{
HandleIcmpFrame(buffer);
}
else if (header.protocol == IP_PROTO_UDP)
else if (ipv4Header.protocol == IP_PROTO_UDP)
{
return HandleUdpFrame(buffer);
HandleUdpDatagram(
ethernetHeader, ipv4Header, buffer + ipv4Header.SerializedLength());
}
}
//
// UDP
//
void HandleUdpFrame(const uint8_t* buffer)
void HandleUdpDatagram(
const EthernetFrameHeader ethernetHeader,
const Ipv4Header ipv4Header,
const uint8_t* buffer
)
{
const auto frame = EthernetFrame<Ipv4Packet<UdpDatagramHeader>>::Deserialize(buffer);
const auto header = frame.payload.payload;
const auto udpHeader = UdpDatagramHeader::Deserialize(buffer);
uint8_t* data = (uint8_t*)malloc(header.length);
const auto size =
buffer +
EthernetFrameHeader::SerializedLength() +
Ipv4Header::SerializedLength() +
UdpDatagramHeader::SerializedLength();
memcpy(data, size, header.length);
if (header.destinationPort == 69) // nice
if (udpHeader.destinationPort == 69) // nice
{
HandleTftpDatagram(
frame.header,
frame.payload.header,
frame.payload.payload,
data
ethernetHeader,
ipv4Header,
udpHeader,
buffer + udpHeader.SerializedLength()
);
}
}
@ -136,58 +132,65 @@ void HandleUdpFrame(const uint8_t* buffer)
//
void SendIcmpEchoRequest(MacAddress mac, uint32_t ip)
{
IcmpEchoRequest<int> pingPacket(0);
IcmpPacket<decltype(pingPacket)> icmpPacket(8, 0, pingPacket);
Ipv4Packet<decltype(icmpPacket)> ipv4Packet(1, Ipv4Address, ip, icmpPacket);
IcmpPacketHeader icmpHeader(8, 0);
IcmpEchoHeader pingHeader(0, 0);
EthernetFrame<decltype(ipv4Packet)> frame(ETHERTYPE_IPV4, ipv4Packet);
frame.header.macDestination = mac;
frame.header.macSource = GetMacAddress();
size_t ipv4TotalSize = IcmpPacketHeader::SerializedLength() +
IcmpEchoHeader::SerializedLength() +
Ipv4Header::SerializedLength();
Ipv4Header ipv4Header(1, Ipv4Address, ip, ipv4TotalSize);
EthernetFrameHeader ethernetHeader(mac, GetMacAddress(), ETHERTYPE_IPV4);
uint8_t buffer[USPI_FRAME_BUFFER_SIZE];
size_t size = frame.Serialize(buffer);
USPiSendFrame(buffer, size);
size_t i = 0;
i += ethernetHeader.Serialize(buffer + i);
i += ipv4Header.Serialize(buffer + i);
i += pingHeader.Serialize(buffer + i);
i += icmpHeader.Serialize(buffer + 1);
USPiSendFrame(buffer, i);
}
void HandleIcmpFrame(const uint8_t* buffer)
{
const auto frame = EthernetFrame<Ipv4Packet<IcmpPacketHeader>>::Deserialize(buffer);
const auto packetHeader = frame.payload.payload;
size_t requestSize = 0;
const auto requestEthernetHeader = EthernetFrameHeader::Deserialize(buffer + requestSize);
requestSize += requestEthernetHeader.SerializedLength();
const auto requestIpv4Header = Ipv4Header::Deserialize(buffer + requestSize);
requestSize += requestIpv4Header.SerializedLength();
const auto requestIcmpHeader = IcmpPacketHeader::Deserialize(buffer + requestSize);
requestSize += requestIcmpHeader.SerializedLength();
if (packetHeader.type == ICMP_ECHO_REQUEST)
if (requestIcmpHeader.type == ICMP_ECHO_REQUEST)
{
// TODO This should not be hardcoded lol
typedef EthernetFrame<Ipv4Packet<IcmpPacket<IcmpEchoRequest<uint8_t[56]>>>> Frame;
auto frameReq = Frame::Deserialize(buffer);
const auto requestEchoHeader = IcmpEchoHeader::Deserialize(buffer + requestSize);
requestSize += requestEchoHeader.SerializedLength();
auto echoReq = frameReq.payload.payload.payload;
IcmpEchoResponse<uint8_t[56]> echoResp;
echoResp.identifier = echoReq.identifier;
echoResp.sequenceNumber = echoReq.sequenceNumber;
memcpy(echoResp.data, echoReq.data, 56);
const auto sourceIp = frame.payload.header.sourceIp;
IcmpPacket<decltype(echoResp)> icmpResp(ICMP_ECHO_REPLY, 0, echoResp);
Ipv4Packet<decltype(icmpResp)> ipv4Resp(
const IcmpPacketHeader responseIcmpHeader(ICMP_ECHO_REPLY, 0);
const Ipv4Header responseIpv4Header(
IP_PROTO_ICMP,
Ipv4Address,
sourceIp,
icmpResp
requestIpv4Header.sourceIp,
requestIpv4Header.totalLength
);
const EthernetFrameHeader responseEthernetHeader(
requestEthernetHeader.macSource, GetMacAddress(), ETHERTYPE_IPV4);
EthernetFrame<decltype(ipv4Resp)> frameResp(
frame.header.macSource,
GetMacAddress(),
ETHERTYPE_IPV4,
ipv4Resp
);
const auto payloadLength = requestIpv4Header.totalLength -
requestIpv4Header.SerializedLength() -
requestIcmpHeader.SerializedLength() -
requestEchoHeader.SerializedLength();
uint8_t bufferResp[USPI_FRAME_BUFFER_SIZE];
const auto size = frameResp.Serialize(bufferResp);
USPiSendFrame(bufferResp, size);
std::array<uint8_t, USPI_FRAME_BUFFER_SIZE> bufferResp;
size_t respSize = 0;
respSize += responseEthernetHeader.Serialize(bufferResp.data() + respSize);
respSize += responseIpv4Header.Serialize(bufferResp.data() + respSize);
respSize += responseIcmpHeader.Serialize(bufferResp.data() + respSize);
memcpy(bufferResp.data() + respSize, buffer + requestSize, payloadLength);
respSize += payloadLength;
USPiSendFrame(bufferResp.data(), respSize);
}
}

View file

@ -17,38 +17,40 @@ enum ArpOperation {
typedef std::array<uint8_t, 6> MacAddress;
struct EthernetFrameHeader;
struct UdpDatagramHeader;
struct Ipv4Header;
//
// ARP
//
void HandleArpFrame(uint8_t* buffer);
void SendArpPacket(ArpOperation operation,
MacAddress targetMac,
MacAddress senderMac,
uint32_t senderIp,
uint32_t targetIp);
void SendArpRequest(MacAddress targetMac,
MacAddress senderMac,
uint32_t senderIp,
uint32_t targetIp);
void SendArpReply(MacAddress targetMac,
MacAddress senderMac,
uint32_t senderIp,
uint32_t targetIp);
void HandleArpFrame(EthernetFrameHeader header, uint8_t* buffer);
void SendArpPacket(
ArpOperation operation,
MacAddress targetMac,
MacAddress senderMac,
uint32_t senderIp,
uint32_t targetIp
);
void SendArpRequest(
MacAddress targetMac, MacAddress senderMac, uint32_t senderIp, uint32_t targetIp);
void SendArpReply(
MacAddress targetMac, MacAddress senderMac, uint32_t senderIp, uint32_t targetIp);
void SendArpAnnouncement(MacAddress mac, uint32_t ip);
//
// IPv4
//
void HandleIpv4Frame(const uint8_t* buffer);
void HandleIpv4Packet(const EthernetFrameHeader ethernetHeader, const uint8_t* buffer);
//
// UDP
//
struct EthernetFrameHeader;
struct UdpDatagramHeader;
struct Ipv4Header;
void HandleUdpFrame(const uint8_t* buffer);
void HandleUdpDatagram(
const EthernetFrameHeader ethernetHeader,
const Ipv4Header ipv4Header,
const uint8_t* buffer
);
void HandleTftpDatagram(
const EthernetFrameHeader ethernetReqHeader,