kawari/src/packet.rs

use std::{
    fs::write,
    io::Cursor,
    time::{SystemTime, UNIX_EPOCH},
};

use binrw::{BinRead, BinResult, BinWrite, binrw, helpers::until_eof};
use tokio::{
    io::{AsyncWriteExt, WriteHalf},
    net::TcpStream,
};

use crate::encryption::{decrypt, generate_encryption_key};

pub(crate) fn read_bool_from<T: std::convert::From<u8> + std::cmp::PartialEq>(x: T) -> bool {
    x == T::from(1u8)
}

pub(crate) fn write_bool_as<T: std::convert::From<u8>>(x: &bool) -> T {
    if *x { T::from(1u8) } else { T::from(0u8) }
}

pub(crate) fn read_string(byte_stream: Vec<u8>) -> String {
    let str = String::from_utf8(byte_stream).unwrap();
    str.trim_matches(char::from(0)).to_string() // trim \0 from the end of strings
}

#[link(name = "FFXIVBlowfish")]
unsafe extern "C" {
    pub fn blowfish_encode(
        key: *const u8,
        keybytes: u32,
        pInput: *const u8,
        lSize: u32,
    ) -> *const u8;
    pub fn blowfish_decode(
        key: *const u8,
        keybytes: u32,
        pInput: *const u8,
        lSize: u32,
    ) -> *const u8;
}

#[binrw]
#[brw(repr = u16)]
#[derive(Debug)]
enum ConnectionType {
    None = 0x0,
    Zone = 0x1,
    Chat = 0x2,
    Lobby = 0x3,
}

#[binrw]
#[derive(Debug, Clone)]
struct IPCSegment {
    unk1: u8,
    unk2: u8,
    op_code: u8,
}

#[binrw]
#[br(import(size: u32, encryption_key: Option<&[u8]>))]
#[derive(Debug, Clone)]
enum SegmentType {
    // Client->Server Packets
    #[brw(magic = 0x9u32)]
    InitializeEncryption {
        #[brw(pad_before = 36)] // empty
        #[br(count = 64)]
        #[br(map = read_string)]
        #[bw(ignore)]
        phrase: String,

        #[brw(pad_after = 512)] // empty
        key: [u8; 4],
    },
    #[brw(magic = 0x3u32)]
    IPC {
        #[br(parse_with = decrypt, args(size, encryption_key))]
        #[bw(ignore)]
        data: IPCSegment,
    },

    // Server->Client Packets
    #[brw(magic = 0x0Au32)]
    InitializationEncryptionResponse {
        #[br(count = 0x280)]
        data: Vec<u8>,
    },
}

#[binrw]
#[derive(Debug)]
struct PacketHeader {
    unk1: u64,
    unk2: u64,
    timestamp: u64,
    size: u32,
    connection_type: ConnectionType,
    segment_count: u16,
    unk3: u8,
    #[br(map = read_bool_from::<u8>)]
    #[bw(map = write_bool_as::<u8>)]
    compressed: bool,
    unk4: u16,
    unk5: u32, // iolite says the size after oodle decompression
}

#[binrw]
#[br(import(encryption_key: Option<&[u8]>))]
#[derive(Debug, Clone)]
struct PacketSegment {
    #[bw(calc = self.calc_size())]
    size: u32,
    source_actor: u32,
    target_actor: u32,
    #[br(args(size, encryption_key))]
    segment_type: SegmentType,
}

impl PacketSegment {
    fn calc_size(&self) -> u32 {
        let header = std::mem::size_of::<u32>() * 4;
        return header as u32
            + match &self.segment_type {
                SegmentType::InitializeEncryption { .. } => 616,
                SegmentType::InitializationEncryptionResponse { .. } => 640,
                SegmentType::IPC { .. } => todo!(),
            };
    }
}

#[binrw]
#[br(import(encryption_key: Option<&[u8]>))]
#[derive(Debug)]
struct Packet {
    header: PacketHeader,
    #[br(count = header.segment_count, args { inner: (encryption_key,) })]
    segments: Vec<PacketSegment>,
}

fn dump(msg: &str, data: &[u8]) {
    write("packet.bin", data);
    panic!("{msg} Dumped to packet.bin.");
}

async fn send_packet(socket: &mut WriteHalf<TcpStream>, segments: &[PacketSegment]) {
    let timestamp: u64 = SystemTime::now()
        .duration_since(UNIX_EPOCH)
        .expect("Failed to get UNIX timestamp!")
        .as_millis()
        .try_into()
        .unwrap();

    let mut total_segment_size = 0;
    for segment in segments {
        total_segment_size += segment.calc_size();
    }

    let header = PacketHeader {
        unk1: 0xE2465DFF41A05252, // wtf?
        unk2: 0x75C4997B4D642A7F, // wtf? x2
        timestamp,
        size: std::mem::size_of::<PacketHeader>() as u32 + total_segment_size,
        connection_type: ConnectionType::Lobby,
        segment_count: segments.len() as u16,
        unk3: 0,
        compressed: false,
        unk4: 0,
        unk5: 0,
    };

    let packet = Packet {
        header,
        segments: segments.to_vec(),
    };

    let mut cursor = Cursor::new(Vec::new());
    packet.write_le(&mut cursor);

    let buffer = cursor.into_inner();

    tracing::info!("Wrote response packet to outpacket.bin");
    write("outpacket.bin", &buffer);

    socket
        .write(&buffer)
        .await
        .expect("Failed to write packet!");
}

// temporary
pub struct State {
    pub client_key: Option<[u8; 16]>,
}

pub async fn parse_packet(socket: &mut WriteHalf<TcpStream>, data: &[u8], state: &mut State) {
    let mut cursor = Cursor::new(data);

    match Packet::read_le_args(
        &mut cursor,
        (state.client_key.as_ref().map(|s: &[u8; 16]| s.as_slice()),),
    ) {
        Ok(packet) => {
            println!("{:#?}", packet);

            if packet.header.size as usize != data.len() {
                dump(
                    "Packet size mismatch between what we're given and the header!",
                    data,
                );
            }

            for segment in &packet.segments {
                match &segment.segment_type {
                    SegmentType::InitializeEncryption { phrase, key } => {
                        // Generate an encryption key for this client
                        state.client_key = Some(generate_encryption_key(key, phrase));

                        let mut data = 0xE0003C2Au32.to_le_bytes().to_vec();
                        data.resize(0x280, 0);

                        unsafe {
                            let result = blowfish_encode(
                                state.client_key.unwrap().as_ptr(),
                                16,
                                data.as_ptr(),
                                0x280,
                            );
                            data = std::slice::from_raw_parts(result, 0x280).to_vec();
                        }

                        let response_packet = PacketSegment {
                            source_actor: 0,
                            target_actor: 0,
                            segment_type: SegmentType::InitializationEncryptionResponse { data },
                        };
                        send_packet(socket, &[response_packet]).await;
                    }
                    SegmentType::InitializationEncryptionResponse { .. } => {
                        panic!("The server is recieving a response packet!")
                    }
                    SegmentType::IPC { .. } => {
                        // decrypt
                    }
                }
            }
        }
        Err(err) => {
            println!("{err}");
            dump("Failed to parse packet!", data);
        }
    }
}
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`use std::{`
			`fs::write,`
			`io::Cursor,`
			`time::{SystemTime, UNIX_EPOCH},`
			`};`
Dump unknown packets when encountered 2025-03-08 13:58:24 -05:00
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`use binrw::{BinRead, BinResult, BinWrite, binrw, helpers::until_eof};`
			`use tokio::{`
			`io::{AsyncWriteExt, WriteHalf},`
			`net::TcpStream,`
			`};`

			`use crate::encryption::{decrypt, generate_encryption_key};`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00
			`pub(crate) fn read_bool_from<T: std::convert::From<u8> + std::cmp::PartialEq>(x: T) -> bool {`
			`x == T::from(1u8)`
			`}`

			`pub(crate) fn write_bool_as<T: std::convert::From<u8>>(x: &bool) -> T {`
			`if *x { T::from(1u8) } else { T::from(0u8) }`
			`}`

Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`pub(crate) fn read_string(byte_stream: Vec<u8>) -> String {`
			`let str = String::from_utf8(byte_stream).unwrap();`
			`str.trim_matches(char::from(0)).to_string() // trim \0 from the end of strings`
			`}`

Fix encrypting/decrypting packets, vendor Sapphire Blowfish implementation I ended up just stealing this from iolite, which in turn took it from Sapphire. I tried for a few hours to get a Rust Blowfish implementation going, but the one from Physis didn't work. I'll try again later. 2025-03-08 21:13:00 -05:00			`#[link(name = "FFXIVBlowfish")]`
			`unsafe extern "C" {`
			`pub fn blowfish_encode(`
			`key: *const u8,`
			`keybytes: u32,`
			`pInput: *const u8,`
			`lSize: u32,`
			`) -> *const u8;`
			`pub fn blowfish_decode(`
			`key: *const u8,`
			`keybytes: u32,`
			`pInput: *const u8,`
			`lSize: u32,`
			`) -> *const u8;`
			`}`

Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`#[binrw]`
			`#[brw(repr = u16)]`
			`#[derive(Debug)]`
			`enum ConnectionType {`
Add missing connection types 2025-03-08 15:33:58 -05:00			`None = 0x0,`
			`Zone = 0x1,`
			`Chat = 0x2,`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`Lobby = 0x3,`
			`}`

Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`#[binrw]`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[derive(Debug, Clone)]`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`struct IPCSegment {`
More attempts at packet decryption 2025-03-08 16:39:13 -05:00			`unk1: u8,`
			`unk2: u8,`
			`op_code: u8,`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`}`

			`#[binrw]`
			`#[br(import(size: u32, encryption_key: Option<&[u8]>))]`
			`#[derive(Debug, Clone)]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`enum SegmentType {`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`// Client->Server Packets`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`#[brw(magic = 0x9u32)]`
			`InitializeEncryption {`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[brw(pad_before = 36)] // empty`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`#[br(count = 64)]`
			`#[br(map = read_string)]`
			`#[bw(ignore)]`
			`phrase: String,`

Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[brw(pad_after = 512)] // empty`
			`key: [u8; 4],`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`},`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`#[brw(magic = 0x3u32)]`
			`IPC {`
			`#[br(parse_with = decrypt, args(size, encryption_key))]`
			`#[bw(ignore)]`
			`data: IPCSegment,`
			`},`

			`// Server->Client Packets`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[brw(magic = 0x0Au32)]`
			`InitializationEncryptionResponse {`
			`#[br(count = 0x280)]`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`data: Vec<u8>,`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`},`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`}`

Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`#[binrw]`
			`#[derive(Debug)]`
			`struct PacketHeader {`
			`unk1: u64,`
			`unk2: u64,`
			`timestamp: u64,`
			`size: u32,`
			`connection_type: ConnectionType,`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`segment_count: u16,`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`unk3: u8,`
			`#[br(map = read_bool_from::<u8>)]`
			`#[bw(map = write_bool_as::<u8>)]`
			`compressed: bool,`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`unk4: u16,`
			`unk5: u32, // iolite says the size after oodle decompression`
			`}`

			`#[binrw]`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`#[br(import(encryption_key: Option<&[u8]>))]`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[derive(Debug, Clone)]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`struct PacketSegment {`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`#[bw(calc = self.calc_size())]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`size: u32,`
			`source_actor: u32,`
			`target_actor: u32,`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`#[br(args(size, encryption_key))]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`segment_type: SegmentType,`
			`}`

Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`impl PacketSegment {`
			`fn calc_size(&self) -> u32 {`
			`let header = std::mem::size_of::<u32>() * 4;`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`return header as u32`
			`+ match &self.segment_type {`
			`SegmentType::InitializeEncryption { .. } => 616,`
			`SegmentType::InitializationEncryptionResponse { .. } => 640,`
			`SegmentType::IPC { .. } => todo!(),`
			`};`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`}`
			`}`

Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`#[binrw]`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`#[br(import(encryption_key: Option<&[u8]>))]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`#[derive(Debug)]`
			`struct Packet {`
			`header: PacketHeader,`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`#[br(count = header.segment_count, args { inner: (encryption_key,) })]`
Parse the encryption initialization packet 2025-03-08 14:38:31 -05:00			`segments: Vec<PacketSegment>,`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`}`

			`fn dump(msg: &str, data: &[u8]) {`
Dump unknown packets when encountered 2025-03-08 13:58:24 -05:00			`write("packet.bin", data);`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00			`panic!("{msg} Dumped to packet.bin.");`
			`}`

Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`async fn send_packet(socket: &mut WriteHalf<TcpStream>, segments: &[PacketSegment]) {`
			`let timestamp: u64 = SystemTime::now()`
			`.duration_since(UNIX_EPOCH)`
			`.expect("Failed to get UNIX timestamp!")`
			`.as_millis()`
			`.try_into()`
			`.unwrap();`

			`let mut total_segment_size = 0;`
			`for segment in segments {`
			`total_segment_size += segment.calc_size();`
			`}`

			`let header = PacketHeader {`
More attempts at packet decryption 2025-03-08 16:39:13 -05:00			`unk1: 0xE2465DFF41A05252, // wtf?`
			`unk2: 0x75C4997B4D642A7F, // wtf? x2`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`timestamp,`
			`size: std::mem::size_of::<PacketHeader>() as u32 + total_segment_size,`
			`connection_type: ConnectionType::Lobby,`
			`segment_count: segments.len() as u16,`
			`unk3: 0,`
			`compressed: false,`
			`unk4: 0,`
			`unk5: 0,`
			`};`

			`let packet = Packet {`
			`header,`
			`segments: segments.to_vec(),`
			`};`

			`let mut cursor = Cursor::new(Vec::new());`
			`packet.write_le(&mut cursor);`

			`let buffer = cursor.into_inner();`

			`tracing::info!("Wrote response packet to outpacket.bin");`
			`write("outpacket.bin", &buffer);`

			`socket`
			`.write(&buffer)`
			`.await`
			`.expect("Failed to write packet!");`
			`}`

Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`// temporary`
			`pub struct State {`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`pub client_key: Option<[u8; 16]>,`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`}`
Begin parsing the packet header 2025-03-08 14:09:57 -05:00
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`pub async fn parse_packet(socket: &mut WriteHalf<TcpStream>, data: &[u8], state: &mut State) {`
			`let mut cursor = Cursor::new(data);`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`match Packet::read_le_args(`
			`&mut cursor,`
			`(state.client_key.as_ref().map(\|s: &[u8; 16]\| s.as_slice()),),`
			`) {`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`Ok(packet) => {`
			`println!("{:#?}", packet);`

			`if packet.header.size as usize != data.len() {`
			`dump(`
			`"Packet size mismatch between what we're given and the header!",`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`data,`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`);`
			`}`

			`for segment in &packet.segments {`
			`match &segment.segment_type {`
			`SegmentType::InitializeEncryption { phrase, key } => {`
			`// Generate an encryption key for this client`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`state.client_key = Some(generate_encryption_key(key, phrase));`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00
More attempts at packet decryption 2025-03-08 16:39:13 -05:00			`let mut data = 0xE0003C2Au32.to_le_bytes().to_vec();`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`data.resize(0x280, 0);`

Fix encrypting/decrypting packets, vendor Sapphire Blowfish implementation I ended up just stealing this from iolite, which in turn took it from Sapphire. I tried for a few hours to get a Rust Blowfish implementation going, but the one from Physis didn't work. I'll try again later. 2025-03-08 21:13:00 -05:00			`unsafe {`
			`let result = blowfish_encode(`
			`state.client_key.unwrap().as_ptr(),`
			`16,`
			`data.as_ptr(),`
			`0x280,`
			`);`
			`data = std::slice::from_raw_parts(result, 0x280).to_vec();`
			`}`
More attempts at packet decryption 2025-03-08 16:39:13 -05:00
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`let response_packet = PacketSegment {`
			`source_actor: 0,`
			`target_actor: 0,`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`segment_type: SegmentType::InitializationEncryptionResponse { data },`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`};`
			`send_packet(socket, &[response_packet]).await;`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`}`
			`SegmentType::InitializationEncryptionResponse { .. } => {`
			`panic!("The server is recieving a response packet!")`
			`}`
Begin decrypting packets, add IPC segment type 2025-03-08 16:08:25 -05:00			`SegmentType::IPC { .. } => {`
			`// decrypt`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`}`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`}`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`}`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`}`
Emit a better error message on packet parsing failure 2025-03-08 15:29:38 -05:00			`Err(err) => {`
			`println!("{err}");`
			`dump("Failed to parse packet!", data);`
Move encryption stuffs into their own module 2025-03-08 16:10:00 -05:00			`}`
Try sending a initialize encryption response packet 2025-03-08 15:27:28 -05:00			`}`
			`}`