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refactor: make the code more organzied

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This commit is contained in:
Aaron Kaiser
2025-02-06 11:17:34 +00:00
parent f9f0643d17
commit 0548c3672a
1 changed files with 133 additions and 51 deletions
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184
src/main.rs
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@@ -19,7 +19,8 @@ use std::{
io,
};
use x_wing::{
Ciphertext, DecapsulationKey, EncapsulationKey, DECAPSULATION_KEY_SIZE, ENCAPSULATION_KEY_SIZE,
Ciphertext, DecapsulationKey, EncapsulationKey, CIPHERTEXT_SIZE, DECAPSULATION_KEY_SIZE,
ENCAPSULATION_KEY_SIZE,
};
const PLUGIN_NAME: &str = "xwing";
@@ -44,6 +45,23 @@ struct RecipientPlugin {
recipients: Vec<EncapsulationKey>,
}
impl RecipientPlugin {
fn wrap_file_key(&self, file_key: FileKey) -> Vec<Stanza> {
self.recipients
.iter()
.map(|recipient| {
let (ct, ss) = recipient.encapsulate(&mut OsRng).unwrap();
let wrapped_key = aead_encrypt(&ss, file_key.expose_secret());
Stanza {
tag: PLUGIN_NAME.to_string(),
args: vec![BASE64_STANDARD.encode(ct.as_bytes())],
body: wrapped_key,
}
})
.collect()
}
}
impl RecipientPluginV1 for RecipientPlugin {
fn add_recipient(
&mut self,
@@ -110,20 +128,7 @@ impl RecipientPluginV1 for RecipientPlugin {
) -> io::Result<Result<Vec<Vec<Stanza>>, Vec<recipient::Error>>> {
Ok(Ok(file_keys
.into_iter()
.map(|file_key| {
self.recipients
.iter()
.map(|recipient| {
let (ct, ss) = recipient.encapsulate(&mut OsRng).unwrap();
let wrapped_key = aead_encrypt(&ss, file_key.expose_secret());
Stanza {
tag: PLUGIN_NAME.to_string(),
args: vec![BASE64_STANDARD.encode(ct.as_bytes())],
body: wrapped_key,
}
})
.collect()
})
.map(|file_key| self.wrap_file_key(file_key))
.collect()))
}
@@ -137,6 +142,107 @@ struct IdentityPlugin {
identities: Vec<DecapsulationKey>,
}
impl IdentityPlugin {
fn decrypt_stanzas(
&self,
file_index: usize,
stanzas: Vec<(usize, Stanza)>,
) -> Result<FileKey, Vec<identity::Error>> {
let mut file_key = None;
let mut errors = Vec::new();
for (stanza_index, stanza) in stanzas {
let arg = match stanza.args.first() {
Some(arg) => arg,
None => {
errors.push(identity::Error::Stanza {
file_index,
stanza_index,
message: "Stanza is missing arguments".to_string(),
});
continue;
}
};
let ct = match BASE64_STANDARD.decode(arg) {
Ok(ct) => ct,
Err(_) => {
errors.push(identity::Error::Stanza {
file_index,
stanza_index,
message: "Malformed base64".to_string(),
});
continue;
}
};
let ct: [u8; CIPHERTEXT_SIZE] = match ct.try_into() {
Ok(ct) => ct,
Err(_) => {
errors.push(identity::Error::Stanza {
file_index,
stanza_index,
message: "Malformed ciphertext".to_string(),
});
continue;
}
};
let ct = Ciphertext::from(&ct);
let ss = match self
.identities
.iter()
.filter_map(|key| key.decapsulate(&ct).ok())
.next()
{
Some(ss) => ss,
None => {
errors.push(identity::Error::Stanza {
file_index,
stanza_index,
message: "No identity found that can decrypt the file".to_string(),
});
continue;
}
};
let unwrapped_file_key = match aead_decrypt(&ss, FILE_KEY_BYTES, &stanza.body) {
Ok(file_key) => FileKey::new(Box::new(file_key.try_into().unwrap_or_else(|_| {
panic!(
"aead_decrypt returned a plaintext with a different size as {}",
FILE_KEY_BYTES
)
}))),
Err(e) => {
errors.push(identity::Error::Stanza {
file_index,
stanza_index,
message: e.to_string(),
});
continue;
}
};
file_key = Some(unwrapped_file_key);
}
if !errors.is_empty() {
return Err(errors);
}
if let Some(file_key) = file_key {
return Ok(file_key);
}
Err(vec![identity::Error::Stanza {
file_index,
stanza_index: 0,
message: "No stanzas found to be handeled by this plugin".to_string(),
}])
}
}
impl IdentityPluginV1 for IdentityPlugin {
fn add_identity(
&mut self,
@@ -153,7 +259,7 @@ impl IdentityPluginV1 for IdentityPlugin {
let bytes: [u8; DECAPSULATION_KEY_SIZE] = match bytes.try_into() {
Ok(x) => x,
_ => {
Err(_) => {
return Err(identity::Error::Identity {
index,
message: "Invalid identity".to_string(),
@@ -171,43 +277,20 @@ impl IdentityPluginV1 for IdentityPlugin {
files: Vec<Vec<Stanza>>,
mut _callbacks: impl Callbacks<identity::Error>,
) -> io::Result<HashMap<usize, Result<FileKey, Vec<identity::Error>>>> {
Ok(files
.into_iter()
.map(|file| try_decrypt_file_key(&self.identities, file))
.enumerate()
.map(|(file_index, file_key)| {
file_key.ok_or(vec![identity::Error::Stanza {
file_index,
stanza_index: 1,
message: "Invalid stanzas".to_string(),
}])
})
.enumerate()
.collect())
}
}
let mut ret = HashMap::default();
fn try_decrypt_file_key(keys: &Vec<DecapsulationKey>, stanzas: Vec<Stanza>) -> Option<FileKey> {
stanzas
.iter()
.filter_map(|stanza| try_decrypt_stanza(keys, stanza))
.next()
}
for (file_index, stanzas) in files.into_iter().enumerate() {
let x_wing_stanzas = stanzas
.into_iter()
.enumerate()
.filter(|(_, stanza)| stanza.tag == PLUGIN_NAME)
.collect();
fn try_decrypt_stanza(keys: &Vec<DecapsulationKey>, stanza: &Stanza) -> Option<FileKey> {
let ct = BASE64_STANDARD.decode(stanza.args.first()?).ok()?;
let ct = Ciphertext::from(&ct.try_into().ok()?);
for key in keys {
let ss = key.decapsulate(&ct).unwrap();
let file_key = aead_decrypt(&ss, FILE_KEY_BYTES, &stanza.body);
if let Ok(file_key) = file_key {
return Some(FileKey::new(Box::new(file_key.try_into().ok()?)));
ret.insert(file_index, self.decrypt_stanzas(file_index, x_wing_stanzas));
}
}
None
Ok(ret)
}
}
#[derive(Debug, Parser)]
@@ -225,8 +308,7 @@ fn main() -> io::Result<()> {
return Ok(());
}
// Here you can assume the binary is being run directly by a user,
// and perform administrative tasks like generating keys.
// Here you can assume the binary is being run directly by a user, and perform administrative tasks like generating keys.
let (sk, pk) = x_wing::generate_key_pair_from_os_rng();
print_new_identity(PLUGIN_NAME, sk.as_bytes(), &pk.as_bytes());