705 lines
23 KiB
Rust
705 lines
23 KiB
Rust
//! OpenPGP Shard functionality.
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#![allow(clippy::expect_fun_call)]
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use std::{
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collections::HashMap,
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io::{Read, Write},
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marker::PhantomData,
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path::Path,
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str::FromStr,
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sync::{Arc, Mutex},
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};
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use keyfork_bug::bug;
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use keyfork_derive_openpgp::{
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derive_util::{DerivationPath, VariableLengthSeed},
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XPrv,
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};
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use keyfork_prompt::PromptHandler;
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use openpgp::{
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armor::{Kind, Writer},
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cert::{Cert, CertParser, ValidCert},
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packet::{Packet, Tag, UserID, PKESK, SEIP},
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parse::{
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stream::{DecryptionHelper, DecryptorBuilder, VerificationHelper},
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Parse,
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},
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policy::{NullPolicy, Policy, StandardPolicy},
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serialize::{
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stream::{ArbitraryWriter, Encryptor2, LiteralWriter, Message, Recipient, Signer},
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Marshal,
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},
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types::KeyFlags,
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KeyID, PacketPile,
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};
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pub use sequoia_openpgp as openpgp;
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use sharks::Share;
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mod keyring;
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use keyring::Keyring;
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mod smartcard;
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use smartcard::SmartcardManager;
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/// Shard metadata verson 1:
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/// 1 byte: Version
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/// 1 byte: Threshold
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/// Packet Pile of Certs
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const SHARD_METADATA_VERSION: u8 = 1;
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const SHARD_METADATA_OFFSET: usize = 2;
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use super::{Format, KeyDiscovery, SharksError};
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/// Errors encountered while performing operations using OpenPGP.
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#[derive(Debug, thiserror::Error)]
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pub enum Error {
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/// Errors encountered while creating or combining shares.
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#[error("{0}")]
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Sharks(#[from] SharksError),
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/// An error occurred while performing an OpenPGP operation.
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#[error("OpenPGP error: {0}")]
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Sequoia(#[source] anyhow::Error),
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/// An IO error occurred while performing an OpenPGP operation.
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#[error("OpenPGP IO error: {0}")]
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SequoiaIo(#[source] std::io::Error),
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/// An error occurred while using a keyring.
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#[error("Keyring error: {0}")]
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Keyring(#[from] keyring::Error),
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/// An error occurred while using a smartcard.
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#[error("Smartcard error: {0}")]
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Smartcard(#[from] smartcard::Error),
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/// An IO error occurred.
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#[error("IO error: {0}")]
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Io(#[source] std::io::Error),
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}
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#[allow(missing_docs)]
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pub type Result<T, E = Error> = std::result::Result<T, E>;
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/// An OpenPGP encrypted message and public-key-encrypted-secret-key packets.
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#[derive(Debug, Clone)]
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pub struct EncryptedMessage {
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pkesks: Vec<PKESK>,
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message: SEIP,
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}
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impl EncryptedMessage {
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/// Create a new EncryptedMessage from known parts.
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pub fn new(pkesks: &mut Vec<PKESK>, seip: SEIP) -> Self {
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Self {
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pkesks: std::mem::take(pkesks),
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message: seip,
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}
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}
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/// Parse OpenPGP packets for encrypted messages.
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///
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/// # Errors
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/// The function may return an error if Sequoia is unable to parse packets.
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///
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/// # Panics
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/// The function may panic if an unexpected packet is encountered.
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pub fn from_reader(input: impl Read + Send + Sync) -> openpgp::Result<Vec<Self>> {
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let mut pkesks = Vec::new();
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let mut encrypted_messages = vec![];
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for packet in PacketPile::from_reader(input)
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.map_err(Error::Sequoia)?
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.into_children()
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{
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match packet {
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Packet::PKESK(p) => pkesks.push(p),
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Packet::SEIP(s) => {
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encrypted_messages.push(EncryptedMessage::new(&mut pkesks, s));
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}
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s => {
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panic!("Invalid variant found: {}", s.tag());
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}
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}
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}
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Ok(encrypted_messages)
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}
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/// Serialize all contents of the message to a writer.
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///
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/// # Errors
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/// The function may error for any condition in Sequoia's Serialize trait.
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fn serialize(&self, mut o: impl std::io::Write + Send + Sync) -> openpgp::Result<()> {
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for pkesk in &self.pkesks {
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let mut packet = vec![];
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pkesk.serialize(&mut packet).map_err(Error::Sequoia)?;
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let message = Message::new(&mut o);
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let mut message = ArbitraryWriter::new(message, Tag::PKESK).map_err(Error::Sequoia)?;
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message.write_all(&packet).map_err(Error::SequoiaIo)?;
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message.finalize().map_err(Error::Sequoia)?;
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}
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let mut packet = vec![];
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self.message
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.serialize(&mut packet)
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.map_err(Error::Sequoia)?;
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let message = Message::new(&mut o);
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let mut message = ArbitraryWriter::new(message, Tag::SEIP).map_err(Error::Sequoia)?;
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message.write_all(&packet).map_err(Error::SequoiaIo)?;
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message.finalize().map_err(Error::Sequoia)?;
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Ok(())
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}
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/// Decrypt the message with a Sequoia policy and decryptor.
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///
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/// This method creates a container containing the packets and passes the serialized container
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/// to a DecryptorBuilder, which is used to decrypt the message.
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///
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/// # Errors
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/// The method may return an error if it is unable to rebuild the message to decrypt or if it
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/// is unable to decrypt the message.
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pub fn decrypt_with<H>(&self, policy: &'_ dyn Policy, decryptor: H) -> Result<Vec<u8>>
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where
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H: VerificationHelper + DecryptionHelper,
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{
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let mut packets = vec![];
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self.serialize(&mut packets).map_err(Error::Sequoia)?;
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let mut decryptor = DecryptorBuilder::from_bytes(&packets)
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.map_err(Error::Sequoia)?
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.with_policy(policy, None, decryptor)
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.map_err(Error::Sequoia)?;
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let mut content = vec![];
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decryptor
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.read_to_end(&mut content)
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.map_err(Error::SequoiaIo)?;
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Ok(content)
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}
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}
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///
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pub struct OpenPGP<P: PromptHandler> {
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p: PhantomData<P>,
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}
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impl<P: PromptHandler> OpenPGP<P> {
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#[allow(clippy::new_without_default, missing_docs)]
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pub fn new() -> Self {
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Self { p: PhantomData }
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}
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}
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impl<P: PromptHandler> OpenPGP<P> {
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/// Read all OpenPGP certificates in a path and return a [`Vec`] of them. Certificates are read
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/// from a file, or from files one level deep in a directory.
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///
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/// # Errors
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/// The function may return an error if it is unable to read the directory or if Sequoia is unable
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/// to load certificates from the file.
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pub fn discover_certs(path: impl AsRef<Path>) -> Result<Vec<Cert>> {
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let path = path.as_ref();
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if path.is_file() {
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let mut vec = vec![];
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for cert in CertParser::from_file(path).map_err(Error::Sequoia)? {
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vec.push(cert.map_err(Error::Sequoia)?);
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}
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Ok(vec)
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} else {
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let mut vec = vec![];
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for entry in path
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.read_dir()
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.map_err(Error::Io)?
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.filter_map(Result::ok)
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.filter(|p| p.path().is_file())
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{
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vec.push(Cert::from_file(entry.path()).map_err(Error::Sequoia)?);
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}
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Ok(vec)
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}
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}
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}
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const METADATA_MESSAGE_MISSING: &str = "Metadata message was not found in parsed packets";
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impl<P: PromptHandler> Format for OpenPGP<P> {
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type Error = Error;
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type PublicKey = Cert;
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type PrivateKeyData = Vec<Cert>;
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type SigningKey = Cert;
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type EncryptedData = EncryptedMessage;
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/// Derive an OpenPGP Shard certificate from the given seed.
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fn derive_signing_key(&self, seed: &[u8]) -> Self::SigningKey {
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let seed = VariableLengthSeed::new(seed);
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// build cert to sign encrypted shares
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let userid = UserID::from("keyfork-sss");
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let path = DerivationPath::from_str("m/7366512'/0'").expect(bug!("valid derivation path"));
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let xprv = XPrv::new(seed)
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.derive_path(&path)
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.expect(bug!("valid derivation"));
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keyfork_derive_openpgp::derive(
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xprv,
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&[KeyFlags::empty().set_certification().set_signing()],
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&userid,
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)
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.expect(bug!("valid cert creation"))
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}
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fn format_encrypted_header(
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&self,
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signing_key: &Self::SigningKey,
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key_data: &[Self::PublicKey],
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threshold: u8,
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) -> Result<Self::EncryptedData, Self::Error> {
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let policy = StandardPolicy::new();
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let mut pp = vec![SHARD_METADATA_VERSION, threshold];
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// Note: Sequoia does not export private keys on a Cert, only on a TSK
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signing_key
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.serialize(&mut pp)
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.expect(bug!("serialize cert into bytes"));
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for cert in key_data {
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cert.serialize(&mut pp)
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.expect(bug!("serialize pubkey into bytes"));
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}
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// verify packet pile
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let mut iter = openpgp::cert::CertParser::from_bytes(&pp[SHARD_METADATA_OFFSET..])
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.expect(bug!("should have certs"));
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let first_cert = iter
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.next()
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.transpose()
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.ok()
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.flatten()
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.expect(bug!("first cert"));
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assert_eq!(signing_key, &first_cert);
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for (packet_cert, cert) in iter.zip(key_data) {
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assert_eq!(
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&packet_cert.expect(bug!("parsed packet cert")),
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cert,
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"packet pile could not recreate cert: {}",
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cert.fingerprint(),
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);
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}
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let valid_certs = key_data
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.iter()
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.map(|c| c.with_policy(&policy, None))
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.collect::<openpgp::Result<Vec<_>>>()
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.map_err(Error::Sequoia)?;
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let recipients = valid_certs.iter().flat_map(|vc| {
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get_encryption_keys(vc).map(|key| Recipient::new(KeyID::wildcard(), key.key()))
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});
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// Process is as follows:
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// * Any OpenPGP message
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// * An encrypted message
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// * A literal message
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// * The packet pile
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//
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// When decrypting, OpenPGP will see:
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// * A message, and parse it
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// * An encrypted message, and decrypt it
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// * A literal message, and extract it
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// * The packet pile
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let mut output = vec![];
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let message = Message::new(&mut output);
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let encrypted_message = Encryptor2::for_recipients(message, recipients)
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.build()
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.map_err(Error::Sequoia)?;
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let mut literal_message = LiteralWriter::new(encrypted_message)
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.build()
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.map_err(Error::Sequoia)?;
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literal_message.write_all(&pp).map_err(Error::SequoiaIo)?;
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literal_message.finalize().map_err(Error::Sequoia)?;
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// Parse it into an EncryptedMessage. Yes, this takes a serialized message
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// and deserializes it. Don't think about it too hard. It's easier this way.
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let mut pkesks = vec![];
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for packet in PacketPile::from_reader(output.as_slice())
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.map_err(Error::Sequoia)?
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.into_children()
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{
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match packet {
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Packet::PKESK(p) => pkesks.push(p),
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Packet::SEIP(s) => return Ok(EncryptedMessage::new(&mut pkesks, s)),
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s => panic!("Invalid variant found: {}", s.tag()),
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}
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}
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panic!("Unable to build EncryptedMessage from PacketPile");
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}
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fn encrypt_shard(
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&self,
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shard: &[u8],
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public_key: &Cert,
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signing_key: &mut Self::SigningKey,
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) -> Result<EncryptedMessage> {
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let policy = StandardPolicy::new();
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let valid_cert = public_key
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.with_policy(&policy, None)
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.map_err(Error::Sequoia)?;
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let encryption_keys = get_encryption_keys(&valid_cert).collect::<Vec<_>>();
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let signing_key = signing_key
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.primary_key()
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.parts_into_secret()
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.map_err(Error::Sequoia)?
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.key()
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.clone()
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.into_keypair()
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.map_err(Error::Sequoia)?;
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// Process is as follows:
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// * Any OpenPGP message
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// * An encrypted message
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// * A signed message
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// * A literal message
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// * The shard itself
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//
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// When decrypting, OpenPGP will see:
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// * A message, and parse it
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// * An encrypted message, and decrypt it
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// * A signed message, and verify it
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// * A literal message, and extract it
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// * The shard itself
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let mut message_output = vec![];
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let message = Message::new(&mut message_output);
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let encrypted_message = Encryptor2::for_recipients(
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message,
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encryption_keys
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.iter()
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.map(|k| Recipient::new(KeyID::wildcard(), k.key())),
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)
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.build()
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.map_err(Error::Sequoia)?;
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let signed_message = Signer::new(encrypted_message, signing_key)
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.build()
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.map_err(Error::Sequoia)?;
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let mut message = LiteralWriter::new(signed_message)
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.build()
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.map_err(Error::Sequoia)?;
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message.write_all(shard).map_err(Error::SequoiaIo)?;
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message.finalize().map_err(Error::Sequoia)?;
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let message = EncryptedMessage::from_reader(message_output.as_slice())
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.map_err(Error::Sequoia)?
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.into_iter()
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.next()
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.expect(bug!("serialized message should be parseable"));
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Ok(message)
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}
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fn parse_shard_file(
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&self,
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shard_file: impl Read + Send + Sync,
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) -> Result<Vec<Self::EncryptedData>, Self::Error> {
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EncryptedMessage::from_reader(shard_file).map_err(Error::Sequoia)
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}
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fn format_shard_file(
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&self,
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encrypted_data: &[Self::EncryptedData],
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shard_file: impl Write + Send + Sync,
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) -> Result<(), Self::Error> {
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let mut writer = Writer::new(shard_file, Kind::Message).map_err(Error::SequoiaIo)?;
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for message in encrypted_data {
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message.serialize(&mut writer).map_err(Error::Sequoia)?;
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}
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writer.finalize().map_err(Error::SequoiaIo)?;
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Ok(())
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}
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fn decrypt_all_shards(
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&self,
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private_keys: Option<Self::PrivateKeyData>,
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encrypted_data: &[Self::EncryptedData],
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prompt: Arc<Mutex<impl PromptHandler>>,
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) -> std::result::Result<(Vec<Share>, u8), Self::Error> {
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// Be as liberal as possible when decrypting.
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// We don't want to invalidate someone's keys just because the old sig expired.
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let policy = NullPolicy::new();
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let mut keyring = Keyring::new(private_keys.unwrap_or_default(), prompt.clone())?;
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let mut manager = SmartcardManager::new(prompt.clone())?;
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let mut encrypted_messages = encrypted_data.iter();
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let metadata = encrypted_messages
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.next()
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.expect(bug!(METADATA_MESSAGE_MISSING));
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let metadata_content = decrypt_metadata(metadata, &policy, &mut keyring, &mut manager)?;
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let (threshold, root_cert, certs) = decode_metadata_v1(&metadata_content)?;
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keyring.set_root_cert(root_cert.clone());
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manager.set_root_cert(root_cert.clone());
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// Generate a controlled binding from certificates to encrypted messages. This is stable
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// because we control the order packets are encrypted and certificates are stored.
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// TODO: remove alloc, convert EncryptedMessage to &EncryptedMessage
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let mut messages: HashMap<KeyID, EncryptedMessage> = certs
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.iter()
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.map(Cert::keyid)
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.zip(encrypted_messages.cloned())
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.collect();
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let mut decrypted_messages =
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decrypt_with_keyring(&mut messages, &certs, &policy, &mut keyring)?;
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// clean decrypted messages from encrypted messages
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messages.retain(|k, _v| !decrypted_messages.contains_key(k));
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let left_from_threshold = threshold as usize - decrypted_messages.len();
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if left_from_threshold > 0 {
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#[allow(clippy::cast_possible_truncation)]
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let new_messages = decrypt_with_manager(
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left_from_threshold as u8,
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&mut messages,
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&certs,
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&policy,
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&mut manager,
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)?;
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decrypted_messages.extend(new_messages);
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}
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let shares = decrypted_messages
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.values()
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.map(|message| Share::try_from(message.as_slice()))
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.collect::<Result<Vec<_>, &str>>()
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.map_err(|e| SharksError::Share(e.to_string()))?;
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Ok((shares, threshold))
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}
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fn decrypt_one_shard(
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&self,
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private_keys: Option<Self::PrivateKeyData>,
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encrypted_data: &[Self::EncryptedData],
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prompt: Arc<Mutex<impl PromptHandler>>,
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) -> std::result::Result<(Share, u8), Self::Error> {
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let policy = NullPolicy::new();
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let mut keyring = Keyring::new(private_keys.unwrap_or_default(), prompt.clone())?;
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let mut manager = SmartcardManager::new(prompt.clone())?;
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let mut encrypted_messages = encrypted_data.iter();
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let metadata = encrypted_messages
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.next()
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.expect(bug!(METADATA_MESSAGE_MISSING));
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let metadata_content = decrypt_metadata(metadata, &policy, &mut keyring, &mut manager)?;
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let (threshold, root_cert, certs) = decode_metadata_v1(&metadata_content)?;
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keyring.set_root_cert(root_cert.clone());
|
|
manager.set_root_cert(root_cert.clone());
|
|
let mut messages: HashMap<KeyID, EncryptedMessage> = certs
|
|
.iter()
|
|
.map(Cert::keyid)
|
|
.zip(encrypted_messages.cloned())
|
|
.collect();
|
|
|
|
let decrypted_messages =
|
|
decrypt_with_keyring(&mut messages, &certs, &policy, &mut keyring)?;
|
|
|
|
if let Some(message) = decrypted_messages.into_values().next() {
|
|
let share = Share::try_from(message.as_slice())
|
|
.map_err(|e| SharksError::Share(e.to_string()))?;
|
|
return Ok((share, threshold));
|
|
}
|
|
|
|
let decrypted_messages =
|
|
decrypt_with_manager(1, &mut messages, &certs, &policy, &mut manager)?;
|
|
|
|
if let Some(message) = decrypted_messages.into_values().next() {
|
|
let share = Share::try_from(message.as_slice())
|
|
.map_err(|e| SharksError::Share(e.to_string()))?;
|
|
return Ok((share, threshold));
|
|
}
|
|
|
|
panic!("unable to decrypt shard");
|
|
}
|
|
}
|
|
|
|
impl<P: PromptHandler> KeyDiscovery<OpenPGP<P>> for &Path {
|
|
fn discover_public_keys(&self) -> Result<Vec<<OpenPGP<P> as Format>::PublicKey>> {
|
|
OpenPGP::<P>::discover_certs(self)
|
|
}
|
|
|
|
fn discover_private_keys(&self) -> Result<<OpenPGP<P> as Format>::PrivateKeyData> {
|
|
OpenPGP::<P>::discover_certs(self)
|
|
}
|
|
}
|
|
|
|
impl<P: PromptHandler> KeyDiscovery<OpenPGP<P>> for &[Cert] {
|
|
fn discover_public_keys(&self) -> Result<Vec<<OpenPGP<P> as Format>::PublicKey>> {
|
|
Ok(self.to_vec())
|
|
}
|
|
|
|
fn discover_private_keys(&self) -> Result<<OpenPGP<P> as Format>::PrivateKeyData> {
|
|
Ok(self.to_vec())
|
|
}
|
|
}
|
|
|
|
fn get_encryption_keys<'a>(
|
|
cert: &'a ValidCert,
|
|
) -> openpgp::cert::prelude::ValidKeyAmalgamationIter<
|
|
'a,
|
|
openpgp::packet::key::PublicParts,
|
|
openpgp::packet::key::UnspecifiedRole,
|
|
> {
|
|
cert.keys()
|
|
.alive()
|
|
.revoked(false)
|
|
.supported()
|
|
.for_storage_encryption()
|
|
}
|
|
|
|
fn get_decryption_keys<'a>(
|
|
cert: &'a ValidCert,
|
|
) -> openpgp::cert::prelude::ValidKeyAmalgamationIter<
|
|
'a,
|
|
openpgp::packet::key::SecretParts,
|
|
openpgp::packet::key::UnspecifiedRole,
|
|
> {
|
|
cert.keys()
|
|
/*
|
|
.alive()
|
|
.revoked(false)
|
|
.supported()
|
|
*/
|
|
.for_storage_encryption()
|
|
.secret()
|
|
}
|
|
|
|
fn decode_metadata_v1(buf: &[u8]) -> Result<(u8, Cert, Vec<Cert>)> {
|
|
assert_eq!(
|
|
SHARD_METADATA_VERSION, buf[0],
|
|
"Incompatible metadata version"
|
|
);
|
|
let threshold = buf[1];
|
|
|
|
let mut cert_parser =
|
|
CertParser::from_bytes(&buf[SHARD_METADATA_OFFSET..]).map_err(Error::Sequoia)?;
|
|
|
|
let root_cert = match cert_parser.next() {
|
|
Some(Ok(c)) => c,
|
|
Some(Err(e)) => return Err(Error::Sequoia(e)),
|
|
None => panic!("No data found"),
|
|
};
|
|
|
|
let certs = cert_parser
|
|
.collect::<openpgp::Result<Vec<_>>>()
|
|
.map_err(Error::Sequoia)?;
|
|
|
|
Ok((threshold, root_cert, certs))
|
|
}
|
|
|
|
// NOTE: When using single-decryptor mechanism, use this method with `threshold = 1` to return a
|
|
// single message.
|
|
fn decrypt_with_manager<P: PromptHandler>(
|
|
threshold: u8,
|
|
messages: &mut HashMap<KeyID, EncryptedMessage>,
|
|
certs: &[Cert],
|
|
policy: &dyn Policy,
|
|
manager: &mut SmartcardManager<P>,
|
|
) -> Result<HashMap<KeyID, Vec<u8>>> {
|
|
let mut decrypted_messages = HashMap::new();
|
|
|
|
while threshold as usize - decrypted_messages.len() > 0 {
|
|
// Build list of fingerprints that haven't yet been used for decrypting
|
|
let mut cert_by_fingerprint = HashMap::new();
|
|
let mut unused_fingerprints = vec![];
|
|
for valid_cert in certs
|
|
.iter()
|
|
.filter(|cert| !decrypted_messages.contains_key(&cert.keyid()))
|
|
.map(|cert| cert.with_policy(policy, None))
|
|
{
|
|
let valid_cert = valid_cert.map_err(Error::Sequoia)?;
|
|
let fp = valid_cert
|
|
.keys()
|
|
.for_storage_encryption()
|
|
.map(|k| k.fingerprint())
|
|
.collect::<Vec<_>>();
|
|
for fp in &fp {
|
|
cert_by_fingerprint.insert(fp.clone(), valid_cert.keyid());
|
|
}
|
|
unused_fingerprints.extend(fp.into_iter());
|
|
}
|
|
|
|
// Iterate over all fingerprints and use key_by_fingerprints to assoc with Enc. Message
|
|
if let Some(fp) = manager.load_any_fingerprint(unused_fingerprints)? {
|
|
let cert_keyid = cert_by_fingerprint
|
|
.get(&fp)
|
|
.expect(bug!(
|
|
"manager loaded fingerprint not from unused_fingerprints"
|
|
))
|
|
.clone();
|
|
if let Some(message) = messages.remove(&cert_keyid) {
|
|
let message = message.decrypt_with(policy, &mut *manager)?;
|
|
decrypted_messages.insert(cert_keyid, message);
|
|
}
|
|
}
|
|
}
|
|
|
|
Ok(decrypted_messages)
|
|
}
|
|
|
|
// NOTE: When using single-decryptor mechanism, only a single key should be provided in Keyring to
|
|
// decrypt messages with.
|
|
fn decrypt_with_keyring<P: PromptHandler>(
|
|
messages: &mut HashMap<KeyID, EncryptedMessage>,
|
|
certs: &[Cert],
|
|
policy: &NullPolicy,
|
|
keyring: &mut Keyring<P>,
|
|
) -> Result<HashMap<KeyID, Vec<u8>>, Error> {
|
|
let mut decrypted_messages = HashMap::new();
|
|
|
|
for valid_cert in certs.iter().map(|cert| cert.with_policy(policy, None)) {
|
|
let valid_cert = valid_cert.map_err(Error::Sequoia)?;
|
|
let Some(secret_cert) = keyring.get_cert_for_primary_keyid(&valid_cert.keyid()) else {
|
|
continue;
|
|
};
|
|
let secret_cert = secret_cert
|
|
.with_policy(policy, None)
|
|
.map_err(Error::Sequoia)?;
|
|
let keys = get_decryption_keys(&secret_cert).collect::<Vec<_>>();
|
|
if !keys.is_empty() {
|
|
if let Some(message) = messages.get_mut(&valid_cert.keyid()) {
|
|
for (pkesk, key) in message.pkesks.iter_mut().zip(keys) {
|
|
pkesk.set_recipient(key.keyid());
|
|
}
|
|
// we have a pkesk, decrypt via keyring
|
|
decrypted_messages.insert(
|
|
valid_cert.keyid(),
|
|
message.decrypt_with(policy, &mut *keyring)?,
|
|
);
|
|
}
|
|
}
|
|
}
|
|
|
|
Ok(decrypted_messages)
|
|
}
|
|
|
|
fn decrypt_metadata<P: PromptHandler>(
|
|
message: &EncryptedMessage,
|
|
policy: &NullPolicy,
|
|
keyring: &mut Keyring<P>,
|
|
manager: &mut SmartcardManager<P>,
|
|
) -> Result<Vec<u8>> {
|
|
Ok(if keyring.is_empty() {
|
|
manager.load_any_card()?;
|
|
message.decrypt_with(policy, manager)?
|
|
} else {
|
|
message.decrypt_with(policy, keyring)?
|
|
})
|
|
}
|