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WASM track upload (#7)

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* Initial working WASM encryption

* Improved encryption implementation
This commit is contained in:
G2 2024-08-15 00:46:12 -05:00 committed by GitHub
parent 885e7508fd
commit 391d0c8599
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GPG key ID: B5690EEEBB952194
2 changed files with 164 additions and 40 deletions
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178
src/netmd/encryption.rs
View file

@ -9,14 +9,94 @@ use super::interface::DataEncryptorInput;
type DesEcbEnc = ecb::Decryptor<des::Des>; type DesEcbEnc = ecb::Decryptor<des::Des>;
type DesCbcEnc = cbc::Encryptor<des::Des>; type DesCbcEnc = cbc::Encryptor<des::Des>;
pub fn new_thread_encryptor( pub struct Encryptor {
_input: DataEncryptorInput, channel: Option<UnboundedReceiver<(Vec<u8>, Vec<u8>, Vec<u8>)>>,
) -> UnboundedReceiver<(Vec<u8>, Vec<u8>, Vec<u8>)> { state: Option<EncryptorState>,
let (tx, rx) = unbounded_channel::<(Vec<u8>, Vec<u8>, Vec<u8>)>(); }
let input = Box::from(_input);
thread::spawn(move || { struct EncryptorState {
let mut iv = [0u8; 8]; input_data: Vec<u8>,
iv: [u8; 8],
random_key: [u8; 8],
encrypted_random_key: [u8; 8],
default_chunk_size: usize,
current_chunk_size: usize,
offset: usize,
packet_count: usize,
closed: bool,
}
impl Encryptor {
pub fn new_threaded(input: DataEncryptorInput) -> Self {
let (tx, rx) = unbounded_channel::<(Vec<u8>, Vec<u8>, Vec<u8>)>();
thread::spawn(move || {
let mut iv = [0u8; 8];
// Create the random key
let mut random_key = [0u8; 8];
rand::thread_rng().fill_bytes(&mut random_key);
// Encrypt it with the kek
let mut encrypted_random_key = random_key;
if let Err(x) = DesEcbEnc::new(&input.kek.into())
.decrypt_padded_mut::<NoPadding>(&mut encrypted_random_key)
{
panic!("Cannot create main key {:?}", x)
};
let default_chunk_size = match input.chunk_size {
0 => 0x00100000,
e => e,
};
let mut packet_count = 0u32;
let mut current_chunk_size;
let mut input_data = input.data.clone();
if (input_data.len() % input.frame_size) != 0 {
let padding_remaining = input.frame_size - (input_data.len() % input.frame_size);
input_data.extend(std::iter::repeat(0).take(padding_remaining));
}
let input_data_length = input_data.len();
let mut offset: usize = 0;
while offset < input_data_length {
if packet_count > 0 {
current_chunk_size = default_chunk_size;
} else {
current_chunk_size = default_chunk_size - 24;
}
current_chunk_size = std::cmp::min(current_chunk_size, input_data_length - offset);
let this_data_chunk = &mut input_data[offset..offset + current_chunk_size];
DesCbcEnc::new(&random_key.into(), &iv.into())
.encrypt_padded_mut::<NoPadding>(this_data_chunk, current_chunk_size)
.unwrap();
tx.send((
encrypted_random_key.to_vec(),
iv.to_vec(),
this_data_chunk.to_vec(),
))
.unwrap();
iv.copy_from_slice(&this_data_chunk[this_data_chunk.len() - 8..]);
packet_count += 1;
offset += current_chunk_size;
}
});
Self {
channel: Some(rx),
state: None
}
}
pub fn new(input: DataEncryptorInput) -> Self {
let iv = [0u8; 8];
// Create the random key // Create the random key
let mut random_key = [0u8; 8]; let mut random_key = [0u8; 8];
@ -35,44 +115,82 @@ pub fn new_thread_encryptor(
e => e, e => e,
}; };
let mut packet_count = 0u32; let packet_count = 0;
let mut current_chunk_size; let current_chunk_size = 0;
let mut input_data = input.data.clone(); let mut input_data = input.data.clone();
if (input_data.len() % input.frame_size) != 0 { if (input_data.len() % input.frame_size) != 0 {
let padding_remaining = input.frame_size - (input_data.len() % input.frame_size); let padding_remaining = input.frame_size - (input_data.len() % input.frame_size);
input_data.extend(std::iter::repeat(0).take(padding_remaining)); input_data.extend(std::iter::repeat(0).take(padding_remaining));
} }
let input_data_length = input_data.len();
let mut offset: usize = 0; let offset: usize = 0;
while offset < input_data_length {
if packet_count > 0 { Encryptor {
current_chunk_size = default_chunk_size; channel: None,
} else { state: Some(EncryptorState {
current_chunk_size = default_chunk_size - 24; input_data,
iv,
random_key,
encrypted_random_key,
current_chunk_size,
offset,
default_chunk_size,
packet_count,
closed: false,
})
}
}
/// Get the next encrypted value
pub async fn next(&mut self) -> Option<(Vec<u8>, Vec<u8>, Vec<u8>)> {
let output;
if let Some(state) = self.state.as_mut() {
if state.closed {
return None
} }
current_chunk_size = std::cmp::min(current_chunk_size, input_data_length - offset); if state.packet_count > 0 {
state.current_chunk_size = state.default_chunk_size;
} else {
state.current_chunk_size = state.default_chunk_size - 24;
}
let this_data_chunk = &mut input_data[offset..offset + current_chunk_size]; state.current_chunk_size = std::cmp::min(state.current_chunk_size, state.input_data.len() - state.offset);
DesCbcEnc::new(&random_key.into(), &iv.into())
.encrypt_padded_mut::<NoPadding>(this_data_chunk, current_chunk_size) let this_data_chunk = &mut state.input_data[state.offset..state.offset + state.current_chunk_size];
DesCbcEnc::new(&state.random_key.into(), &state.iv.into())
.encrypt_padded_mut::<NoPadding>(this_data_chunk, state.current_chunk_size)
.unwrap(); .unwrap();
tx.send(( output = Some((
encrypted_random_key.to_vec(), state.encrypted_random_key.to_vec(),
iv.to_vec(), state.iv.to_vec(),
this_data_chunk.to_vec(), this_data_chunk.to_vec(),
)) ));
.unwrap();
iv.copy_from_slice(&this_data_chunk[this_data_chunk.len() - 8..]); state.iv.copy_from_slice(&this_data_chunk[this_data_chunk.len() - 8..]);
packet_count += 1; state.packet_count += 1;
offset += current_chunk_size; state.offset += state.current_chunk_size;
} else if let Some(channel) = self.channel.as_mut() {
output = channel.recv().await
} else {
unreachable!("If you got here, this is bad!");
} }
});
rx output
}
/// Call close to return none from subsequent calls
pub fn close(&mut self) {
if let Some(state) = self.state.as_mut() {
state.closed = true;
} else if let Some(channel) = self.channel.as_mut() {
channel.close()
} else {
unreachable!("If you got here, this is bad!");
}
}
} }

26
src/netmd/interface.rs
View file

@ -15,9 +15,9 @@ use std::collections::HashMap;
use std::error::Error; use std::error::Error;
use std::time::Duration; use std::time::Duration;
use thiserror::Error; use thiserror::Error;
use tokio::sync::mpsc::UnboundedReceiver;
use super::base::NetMD; use super::base::NetMD;
use super::encryption::Encryptor;
use super::utils::{cross_sleep, to_sjis}; use super::utils::{cross_sleep, to_sjis};
/// An action to take on the player /// An action to take on the player
@ -1690,8 +1690,7 @@ impl NetMDInterface {
discformat: u8, discformat: u8,
frames: u32, frames: u32,
pkt_size: u32, pkt_size: u32,
// key, iv, data mut packets: Encryptor,
mut packets: UnboundedReceiver<(Vec<u8>, Vec<u8>, Vec<u8>)>,
hex_session_key: &[u8], hex_session_key: &[u8],
progress_callback: F, progress_callback: F,
) -> Result<(u16, Vec<u8>, Vec<u8>), InterfaceError> ) -> Result<(u16, Vec<u8>, Vec<u8>), InterfaceError>
@ -1730,7 +1729,7 @@ impl NetMDInterface {
let mut written_bytes = 0; let mut written_bytes = 0;
let mut packet_count = 0; let mut packet_count = 0;
while let Some((key, iv, data)) = packets.recv().await { while let Some((key, iv, data)) = packets.next().await {
let binpack = if packet_count == 0 { let binpack = if packet_count == 0 {
let packed_length: Vec<u8> = pkt_size.to_be_bytes().to_vec(); let packed_length: Vec<u8> = pkt_size.to_be_bytes().to_vec();
[vec![0, 0, 0, 0], packed_length, key, iv, data].concat() [vec![0, 0, 0, 0], packed_length, key, iv, data].concat()
@ -1863,10 +1862,6 @@ pub struct MDTrack {
pub data: Vec<u8>, pub data: Vec<u8>,
pub chunk_size: usize, pub chunk_size: usize,
pub full_width_title: Option<String>, pub full_width_title: Option<String>,
#[allow(clippy::type_complexity)]
pub encrypt_packets_iterator:
Box<dyn Fn(DataEncryptorInput) -> UnboundedReceiver<(Vec<u8>, Vec<u8>, Vec<u8>)>>,
} }
pub struct DataEncryptorInput { pub struct DataEncryptorInput {
@ -1921,8 +1916,19 @@ impl MDTrack {
[0x14, 0xe3, 0x83, 0x4e, 0xe2, 0xd3, 0xcc, 0xa5] [0x14, 0xe3, 0x83, 0x4e, 0xe2, 0xd3, 0xcc, 0xa5]
} }
pub fn get_encrypting_iterator(&mut self) -> UnboundedReceiver<(Vec<u8>, Vec<u8>, Vec<u8>)> { #[cfg(not(target_family = "wasm"))]
(self.encrypt_packets_iterator)(DataEncryptorInput { pub fn get_encrypting_iterator(&mut self) -> Encryptor {
Encryptor::new_threaded(DataEncryptorInput {
kek: self.get_kek(),
frame_size: self.frame_size(),
chunk_size: self.chunk_size(),
data: std::mem::take(&mut self.data),
})
}
#[cfg(target_family = "wasm")]
pub fn get_encrypting_iterator(&mut self) -> Encryptor {
Encryptor::new(DataEncryptorInput {
kek: self.get_kek(), kek: self.get_kek(),
frame_size: self.frame_size(), frame_size: self.frame_size(),
chunk_size: self.chunk_size(), chunk_size: self.chunk_size(),