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base: shimun:0.2.3
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shimun:master shimun:0.3.0-alpha shimun:ctap-hid-fido2 shimun:retry_pin shimun:0.3.0 shimun:debVM shimun:flake shimun:password_promt shimun:dracut shimun:initcpio shimun:pam_mod shimun:setup shimun:completions shimun:pkgbuild shimun:pin_source shimun:relicense shimun:deb shimun:initramfs-tools shimun:luks_refr shimun:0.2.8 shimun:luks2_token shimun:cli_reorg shimun:request_multiple shimun:luks2 shimun:cratesio shimun:isalt shimun:connected shimun:keyutils
shimun:0.2.20 shimun:0.2.19 shimun:0.2.18 shimun:0.2.17 shimun:0.2.16 shimun:0.2.15 shimun:0.2.14 shimun:0.2.13 shimun:0.2.12 shimun:0.2.11 shimun:0.2.10 shimun:0.2.9 shimun:0.2.8 shimun:0.2.7 shimun:0.2.6 shimun:0.2.5 shimun:0.2.4 shimun:0.2.3 shimun:0.2.2 shimun:0.2.1 shimun:0.2.0
...
compare: shimun:deb
Branches Tags
shimun:0.3.0-alpha shimun:ctap-hid-fido2 shimun:retry_pin shimun:master shimun:0.3.0 shimun:debVM shimun:flake shimun:password_promt shimun:dracut shimun:initcpio shimun:pam_mod shimun:setup shimun:completions shimun:pkgbuild shimun:pin_source shimun:relicense shimun:deb shimun:initramfs-tools shimun:luks_refr shimun:0.2.8 shimun:luks2_token shimun:cli_reorg shimun:request_multiple shimun:luks2 shimun:cratesio shimun:isalt shimun:connected shimun:keyutils
shimun:0.2.20 shimun:0.2.19 shimun:0.2.18 shimun:0.2.17 shimun:0.2.16 shimun:0.2.15 shimun:0.2.14 shimun:0.2.13 shimun:0.2.12 shimun:0.2.11 shimun:0.2.10 shimun:0.2.9 shimun:0.2.8 shimun:0.2.7 shimun:0.2.6 shimun:0.2.5 shimun:0.2.4 shimun:0.2.3 shimun:0.2.2 shimun:0.2.1 shimun:0.2.0

45 Commits
0.2.3 ... deb

Author SHA1 Message Date
shimun
aaaa40c56f cargo-deb meta
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continuous-integration/drone/push Build is passing
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2020-07-04 21:29:30 +02:00
shimun
97880e4f41 refuse removal while crypttab depends on keyscript
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continuous-integration/drone/push Build is passing
Details
2020-07-03 16:21:35 +02:00
shimun
e798ba5c70 remove keyscript aswell
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continuous-integration/drone/push Build is passing
Details
2020-07-03 15:59:12 +02:00
shimun
298e05fed7 initramfs-tools
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continuous-integration/drone/push Build is passing
Details
2020-07-03 15:55:23 +02:00
shimun
a498e1416f automate cargo publish
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continuous-integration/drone/push Build is passing
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continuous-integration/drone/tag Build is failing
Details
2020-06-23 23:55:07 +02:00
shimun
92e413de50 refactored luks operations
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2020-06-22 20:47:19 +00:00
shimun
023399bb14 use unstable cryptsetup
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2020-06-22 18:17:10 +02:00
shimun
a53a430c23 update drone
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Details
2020-06-21 22:16:45 +02:00
shimun
5f107cd337 add non existing token
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continuous-integration/drone/push Build is failing
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2020-06-19 20:09:36 +02:00
shimun
ddfd24a098 ensure replace_key uses the same slot 2020-06-19 20:05:05 +02:00
shimun
743edf668a document --token 2020-06-13 14:35:46 +02:00
shimun
4507107fac update libcryptsetup-rs 2020-06-10 13:50:28 +02:00
shimun
a8482c50a2 handle tokens when replacing 2020-06-08 19:22:19 +02:00
shimun
09be5ef551 assemble secret in correct order 2020-06-08 18:08:24 +02:00
shimun
6f6c84ddba skip luks2 check until underlying issue is fixed 2020-06-07 14:14:51 +02:00
shimun
5a05cad695 more precise description 2020-06-06 23:39:23 +02:00
shimun
d8d24b40f5 Merge branch 'cli_reorg' 2020-06-06 23:37:22 +02:00
shimun
c1a82b9ae6 update libcryptsetup_rs to 0.4.0 2020-06-06 22:43:18 +02:00
shimun
a26b79bcd6 reduced redundant code 2020-05-05 23:53:50 +02:00
shimun
f774580c9c update to current api 2020-05-05 23:28:44 +02:00
shimun
69732a1ad6 restore order 2020-04-29 20:33:28 +02:00
shimun
b8ae9d91f0 rudimentary pin support 2020-04-29 19:56:18 +02:00
shimun
fcdd2a2d3d add option to specify keyslot 2020-04-29 18:55:25 +02:00
shimun
c3d6425e2d reorganised cli 2020-04-29 18:50:55 +02:00
shimun
0b19760175 hint slots 2020-04-28 19:09:53 +02:00
shimun
2ec8679c47 open token 2020-04-28 14:27:14 +02:00
shimun
65e1dead8b remove token 2020-04-27 22:07:00 +02:00
shimun
478fb5e036 store luks token 2020-04-27 19:26:21 +02:00
shimun
1547f5e199 get format 2020-04-27 18:12:06 +02:00
shimun
5c0364587e update ctap 2020-04-26 18:58:37 +02:00
shimun
9307503bdc applied clippy lints 2020-04-07 20:06:24 +02:00
shimun
b94f45d1ff patch secret_gen before obtaing first secret 2020-04-06 23:33:41 +02:00
shimun
c8fb636846 mention clang build dependency 2020-04-06 22:52:15 +02:00
shimun
49e2835f60 enable fido requests to be sent to multiple devices at once 2020-04-06 21:38:11 +02:00
shimun
d5c0d48f03 allow another fido device to be used as previous secret 2020-04-06 20:18:00 +02:00
shimun
ad2451f548 add timeout 2020-04-05 23:24:18 +02:00
shimun
bb7ee7c1ce request password only once if possible 2020-04-03 22:02:05 +02:00
shimun
0ba77963d2 update ctap_hmac 2020-04-02 17:22:15 +02:00
shimun
1658800553 request_multiple 2020-04-01 20:24:49 +02:00
shimun
a394b7d1d1 libcryptsetup-rs patch 2020-03-28 14:54:36 +01:00
shimun
c99d7f562d support luks2 2020-03-27 20:08:54 +01:00
shimun
c4f781e6e3 only process keyslots within a given range 2020-03-27 20:03:42 +01:00
shimun
f6de4a033e more detailed messages 2020-03-27 18:28:33 +01:00
shimun
f5880346b9 switch to libcryptsetup-rs 2020-03-27 18:09:38 +01:00
shimun
6089b254b4 switch to libcryptsetup-rs for luks2 support 2020-03-22 17:39:44 +01:00
17 changed files with 2114 additions and 613 deletions
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33
.drone.yml
View File

@@ -3,32 +3,27 @@ name: default
steps:
- name: fmt
image: rust:1.37.0
image: rust:1.43.0
commands:
- rustup component add rustfmt
- cargo fmt --all -- --check
- name: test
image: rust:1.37.0
image: rust:1.43.0
commands:
- apt update && apt install -y libcryptsetup-dev libkeyutils-dev
- apt update && apt install -y libkeyutils-dev libclang-dev clang pkg-config
- echo 'deb http://http.us.debian.org/debian unstable main non-free contrib' >> /etc/apt/sources.list.d/unstable.list && apt update && apt install -y libcryptsetup-dev
- cargo test
- name: build
image: rust:1.37.0
- name: publish
image: rust:1.43.0
environment:
CARGO_REGISTRY_TOKEN:
from_secret: cargo_tkn
commands:
- apt update && apt install -y libcryptsetup-dev libkeyutils-dev
- cargo install -f --path . --root .
- grep -E 'version ?= ?"${DRONE_TAG}"' -i Cargo.toml || (printf "incorrect crate/tag version" && exit 1)
- apt update && apt install -y libkeyutils-dev libclang-dev clang pkg-config
- echo 'deb http://http.us.debian.org/debian unstable main non-free contrib' >> /etc/apt/sources.list.d/unstable.list && apt update && apt install -y libcryptsetup-dev
- cargo package --all-features
- cargo publish --all-features
when:
event: tag
- name: publish
image: plugins/github-release
settings:
api_key:
from_secret: github_release
files:
- bin/fido2luks
checksum:
- md5
- sha256
when:
event: tag

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Cargo.lock generated
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24
Cargo.toml
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@@ -1,6 +1,6 @@
[package]
name = "fido2luks"
version = "0.2.3"
version = "0.2.9"
authors = ["shimunn <shimun@shimun.net>"]
edition = "2018"
@@ -14,16 +14,16 @@ categories = ["command-line-utilities"]
license-file = "LICENSE"
[dependencies]
ctap_hmac = "0.2.1"
cryptsetup-rs = "0.2.1"
libcryptsetup-sys = "0.1.2"
ctap_hmac = { version="0.4.2", features = ["request_multiple"] }
hex = "0.3.2"
ring = "0.13.5"
failure = "0.1.5"
rpassword = "4.0.1"
structopt = "0.3.2"
libcryptsetup-rs = "0.4.1"
serde_json = "1.0.51"
serde_derive = "1.0.106"
serde = "1.0.106"
[profile.release]
lto = true
@@ -31,3 +31,15 @@ opt-level = 'z'
panic = 'abort'
incremental = false
overflow-checks = false
[package.metadata.deb]
depends = "$auto, cryptsetup"
build-depends = "libclang-dev, libcryptsetup-dev"
extended-description = "Decrypt your LUKS partition using a FIDO2 compatible authenticator"
license-file = ["LICENSE", "0"]
assets = [
["target/release/fido2luks", "usr/bin/", "755"],
["initramfs-tools/keyscript.sh", "/lib/cryptsetup/scripts/fido2luks", "755" ],
["initramfs-tools/hook/fido2luks.sh", "etc/initramfs-tools/hooks/", "755" ],
["initramfs-tools/fido2luks.conf", "etc/", "644"],
]

8
README.md
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@@ -2,14 +2,14 @@
This will allow you to unlock your luks encrypted disk with an fido2 compatible key
Note: This has only been tested under Fedora 31 using a Solo Key, Trezor Model T
Note: This has only been tested under Fedora 31, [Ubuntu 20.04](initramfs-tools/), [NixOS](https://nixos.org/nixos/manual/#sec-luks-file-systems-fido2) using a Solo Key, Trezor Model T
## Setup
### Prerequisites
```
dnf install cargo cryptsetup-devel -y
dnf install clang cargo cryptsetup-devel -y
```
### Device
@@ -30,6 +30,8 @@ set -a
. /etc/fido2luks.conf
# Repeat for each luks volume
# You can also use the `--token` flag when using LUKS2 which will then store the credential in the LUKS header,
# enabling you to use `fido2luks open-token` without passing a credential as parameter
sudo -E fido2luks -i add-key /dev/disk/by-uuid/<DISK_UUID>
# Test(only works if the luks container isn't active)
@@ -71,6 +73,8 @@ Just reboot and see if it works, if that's the case you should remove your old l
# Recommend in case you lose your authenticator, store this backupfile somewhere safe
cryptsetup luksHeaderBackup /dev/disk/by-uuid/<DISK_UUID> --header-backup-file luks_backup_<DISK_UUID>
# There is no turning back if you mess this up, make sure you made a backup
# You can also pass `--token` if you're using LUKS2 which will then store the credential in the LUKS header,
# which will enable you to use `fido2luks open-token` without passing a credential as parameter
fido2luks -i add-key --exclusive /dev/disk/by-uuid/<DISK_UUID>
```

11
initramfs-tools/Makefile Normal file
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@@ -0,0 +1,11 @@
.PHONY: install
install:
chmod +x hook/fido2luks.sh keyscript.sh
cp -f hook/fido2luks.sh /etc/initramfs-tools/hooks/
mkdir -p /usr/share/fido2luks
cp -f keyscript.sh /lib/cryptsetup/scripts/fido2luks
update-initramfs -u
remove:
sh -c "grep 'keyscript=fido2luks' -i /etc/crypttab && ( echo 'ERROR: your system is still setup to use fido2luks during boot' && exit 1) || exit 0"
rm /etc/initramfs-tools/hooks/fido2luks.sh /lib/cryptsetup/scripts/fido2luks
update-initramfs -u

13
initramfs-tools/README.md Normal file
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@@ -0,0 +1,13 @@
## Initramfs-tools based systems(Ubuntu and derivatives)
After installation generate your credentials and add keys to your disk as described in the top-level README
then add `initramfs,keyscript=fido2luks` to your `/etc/crypttab`
Example:
```
sda6_crypt UUID=9793d81a-4cfb-4712-85f3-c7a8d715112c none luks,discard,initramfs,keyscript=fido2luks
```
But don't forget to run `make install` which will install all necessary scripts and regenerate your intrid.
[Recording showing part of the setup](https://shimun.net/fido2luks/setup.svg)

3
initramfs-tools/fido2luks.conf Normal file
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@@ -0,0 +1,3 @@
FIDO2LUKS_SALT=Ask
#FIDO2LUKS_PASSWORD_HELPER="/usr/bin/plymouth ask-for-password --promt 'FIDO2 password salt'"
FIDO2LUKS_CREDENTIAL_ID=

14
initramfs-tools/hook/fido2luks.sh Executable file
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@@ -0,0 +1,14 @@
#!/bin/sh
case "$1" in
prereqs)
echo ""
exit 0
;;
esac
. /usr/share/initramfs-tools/hook-functions
copy_file config /etc/fido2luks.conf /etc/fido2luks.conf
copy_exec /usr/bin/fido2luks
exit 0

9
initramfs-tools/keyscript.sh Executable file
View File

@@ -0,0 +1,9 @@
#!/bin/sh
set -a
. /etc/fido2luks.conf
if [ -z "$FIDO2LUKS_PASSWORD_HELPER" ]; then
export FIDO2LUKS_PASSWORD_HELPER="plymouth ask-for-password --promt 'FIDO2 password salt for $CRYPTTAB_NAME'"
fi
fido2luks print-secret --bin

332
initramfs-tools/setup.svg Normal file
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763
src/cli.rs
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@@ -1,90 +1,37 @@
use crate::error::*;
use crate::*;
use cryptsetup_rs as luks;
use cryptsetup_rs::api::{CryptDeviceHandle, CryptDeviceOpenBuilder, Luks1Params};
use cryptsetup_rs::{CryptDevice, Luks1CryptDevice};
use libcryptsetup_sys::crypt_keyslot_info;
use structopt::StructOpt;
use failure::_core::fmt::{Error, Formatter};
use ctap::{FidoCredential, FidoErrorKind};
use failure::_core::fmt::{Display, Error, Formatter};
use failure::_core::str::FromStr;
use failure::_core::time::Duration;
use std::io::Write;
use std::process::exit;
use std::thread;
use crate::luks::{Fido2LuksToken, LuksDevice};
use crate::util::sha256;
use std::borrow::Cow;
use std::collections::HashSet;
use std::time::SystemTime;
pub fn add_key_to_luks(
device: PathBuf,
secret: &[u8; 32],
old_secret: Box<dyn Fn() -> Fido2LuksResult<Vec<u8>>>,
exclusive: bool,
) -> Fido2LuksResult<u8> {
fn offer_format(
_dev: CryptDeviceOpenBuilder,
) -> Fido2LuksResult<CryptDeviceHandle<Luks1Params>> {
unimplemented!()
}
let dev =
|| -> luks::device::Result<CryptDeviceOpenBuilder> { luks::open(&device.canonicalize()?) };
let prev_key = old_secret()?;
let mut handle = match dev()?.luks1() {
Ok(handle) => handle,
Err(luks::device::Error::BlkidError(_)) => offer_format(dev()?)?,
Err(luks::device::Error::CryptsetupError(errno)) => {
//if i32::from(errno) == 555
dbg!(errno);
offer_format(dev()?)?
} //TODO: find correct errorno and offer to format as luks
err => err?,
};
handle.set_iteration_time(50);
let slot = handle.add_keyslot(secret, Some(prev_key.as_slice()), None)?;
if exclusive {
for old_slot in 0..8u8 {
if old_slot != slot
&& (handle.keyslot_status(old_slot.into()) == crypt_keyslot_info::CRYPT_SLOT_ACTIVE
|| handle.keyslot_status(old_slot.into())
== crypt_keyslot_info::CRYPT_SLOT_ACTIVE_LAST)
{
handle.destroy_keyslot(old_slot)?;
}
}
}
Ok(slot)
}
pub fn add_password_to_luks(
device: PathBuf,
secret: &[u8; 32],
new_secret: Box<dyn Fn() -> Fido2LuksResult<Vec<u8>>>,
add_password: bool,
) -> Fido2LuksResult<u8> {
let dev = luks::open(&device.canonicalize()?)?;
let mut handle = dev.luks1()?;
let prev_slot = if add_password {
Some(handle.add_keyslot(&secret[..], Some(&secret[..]), None)?)
} else {
None
};
let slot = handle.update_keyslot(&new_secret()?[..], &secret[..], prev_slot)?;
Ok(slot)
}
#[derive(Debug, Eq, PartialEq, Clone)]
pub struct HexEncoded(Vec<u8>);
pub struct HexEncoded(pub Vec<u8>);
impl std::fmt::Display for HexEncoded {
impl Display for HexEncoded {
fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error> {
f.write_str(&hex::encode(&self.0))
}
}
impl AsRef<[u8]> for HexEncoded {
fn as_ref(&self) -> &[u8] {
&self.0[..]
}
}
impl FromStr for HexEncoded {
type Err = hex::FromHexError;
@@ -93,20 +40,73 @@ impl FromStr for HexEncoded {
}
}
#[derive(Debug, Eq, PartialEq, Clone)]
pub struct CommaSeparated<T: FromStr + Display>(pub Vec<T>);
impl<T: Display + FromStr> Display for CommaSeparated<T> {
fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error> {
for i in &self.0 {
f.write_str(&i.to_string())?;
f.write_str(",")?;
}
Ok(())
}
}
impl<T: Display + FromStr> FromStr for CommaSeparated<T> {
type Err = <T as FromStr>::Err;
fn from_str(s: &str) -> Result<Self, Self::Err> {
Ok(CommaSeparated(
s.split(',')
.map(|part| <T as FromStr>::from_str(part))
.collect::<Result<Vec<_>, _>>()?,
))
}
}
#[derive(Debug, StructOpt)]
pub struct Args {
/// Request passwords via Stdin instead of using the password helper
#[structopt(short = "i", long = "interactive")]
pub interactive: bool,
#[structopt(subcommand)]
pub command: Command,
pub struct Credentials {
/// FIDO credential ids, separated by ',' generate using fido2luks credential
#[structopt(name = "credential-id", env = "FIDO2LUKS_CREDENTIAL_ID")]
pub ids: CommaSeparated<HexEncoded>,
}
#[derive(Debug, StructOpt)]
pub struct AuthenticatorParameters {
/// Request a PIN to unlock the authenticator
#[structopt(short = "P", long = "pin")]
pub pin: bool,
/// Await for an authenticator to be connected, timeout after n seconds
#[structopt(
long = "await-dev",
name = "await-dev",
env = "FIDO2LUKS_DEVICE_AWAIT",
default_value = "15"
)]
pub await_time: u64,
}
#[derive(Debug, StructOpt)]
pub struct LuksParameters {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
/// Try to unlock the device using a specifc keyslot, ignore all other slots
#[structopt(long = "slot", env = "FIDO2LUKS_DEVICE_SLOT")]
slot: Option<u32>,
}
#[derive(Debug, StructOpt, Clone)]
pub struct SecretGeneration {
/// FIDO credential id, generate using fido2luks credential
#[structopt(name = "credential-id", env = "FIDO2LUKS_CREDENTIAL_ID")]
pub credential_id: HexEncoded,
pub struct LuksModParameters {
/// Number of milliseconds required to derive the volume decryption key
/// Defaults to 10ms when using an authenticator or the default by cryptsetup when using a password
#[structopt(long = "kdf-time", name = "kdf-time")]
kdf_time: Option<u64>,
}
#[derive(Debug, StructOpt)]
pub struct SecretParameters {
/// Salt for secret generation, defaults to 'ask'
///
/// Options:{n}
@@ -127,48 +127,66 @@ pub struct SecretGeneration {
default_value = "/usr/bin/env systemd-ask-password 'Please enter second factor for LUKS disk encryption!'"
)]
pub password_helper: PasswordHelper,
/// Await for an authenticator to be connected, timeout after n seconds
#[structopt(
long = "await-dev",
name = "await-dev",
env = "FIDO2LUKS_DEVICE_AWAIT",
default_value = "15"
)]
pub await_authenticator: u64,
}
impl SecretGeneration {
pub fn patch(&self, args: &Args) -> Self {
let mut me = self.clone();
if args.interactive {
me.password_helper = PasswordHelper::Stdin;
fn derive_secret(
credentials: &[HexEncoded],
salt: &[u8; 32],
timeout: u64,
pin: Option<&str>,
) -> Fido2LuksResult<([u8; 32], FidoCredential)> {
let timeout = Duration::from_secs(timeout);
let start = SystemTime::now();
while let Ok(el) = start.elapsed() {
if el > timeout {
return Err(error::Fido2LuksError::NoAuthenticatorError);
}
me
if get_devices()
.map(|devices| !devices.is_empty())
.unwrap_or(false)
{
break;
}
thread::sleep(Duration::from_millis(500));
}
pub fn obtain_secret(&self) -> Fido2LuksResult<[u8; 32]> {
let salt = self.salt.obtain(&self.password_helper)?;
let timeout = Duration::from_secs(self.await_authenticator);
let start = SystemTime::now();
let credentials = credentials
.iter()
.map(|hex| FidoCredential {
id: hex.0.clone(),
public_key: None,
})
.collect::<Vec<_>>();
let credentials = credentials.iter().collect::<Vec<_>>();
let (unsalted, cred) =
perform_challenge(&credentials, salt, timeout - start.elapsed().unwrap(), pin)?;
while let Ok(el) = start.elapsed() {
if el > timeout {
Err(error::Fido2LuksError::NoAuthenticatorError)?;
}
if get_devices()
.map(|devices| !devices.is_empty())
.unwrap_or(false)
{
break;
}
thread::sleep(Duration::from_millis(500));
}
Ok(assemble_secret(
&perform_challenge(&self.credential_id.0, &salt)?,
&salt,
))
}
Ok((sha256(&[salt, &unsalted[..]]), cred.clone()))
}
fn read_pin() -> Fido2LuksResult<String> {
util::read_password("Authenticator PIN", false)
}
#[derive(Debug, StructOpt)]
pub struct Args {
/// Request passwords via Stdin instead of using the password helper
#[structopt(short = "i", long = "interactive")]
pub interactive: bool,
#[structopt(subcommand)]
pub command: Command,
}
#[derive(Debug, StructOpt, Clone)]
pub struct OtherSecret {
/// Use a keyfile instead of a password
#[structopt(short = "d", long = "keyfile", conflicts_with = "fido_device")]
keyfile: Option<PathBuf>,
/// Use another fido device instead of a password
/// Note: this requires for the credential fot the other device to be passed as argument as well
#[structopt(short = "f", long = "fido-device", conflicts_with = "keyfile")]
fido_device: bool,
}
#[derive(Debug, StructOpt)]
@@ -179,51 +197,91 @@ pub enum Command {
#[structopt(short = "b", long = "bin")]
binary: bool,
#[structopt(flatten)]
secret_gen: SecretGeneration,
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
},
/// Adds a generated key to the specified LUKS device
#[structopt(name = "add-key")]
AddKey {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
#[structopt(flatten)]
luks: LuksParameters,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
/// Will wipe all other keys
#[structopt(short = "e", long = "exclusive")]
exclusive: bool,
/// Use a keyfile instead of typing a previous password
#[structopt(short = "d", long = "keyfile")]
keyfile: Option<PathBuf>,
/// Will add an token to your LUKS 2 header, including the credential id
#[structopt(short = "t", long = "token")]
token: bool,
#[structopt(flatten)]
secret_gen: SecretGeneration,
existing_secret: OtherSecret,
#[structopt(flatten)]
luks_mod: LuksModParameters,
},
/// Replace a previously added key with a password
#[structopt(name = "replace-key")]
ReplaceKey {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
#[structopt(flatten)]
luks: LuksParameters,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
/// Add the password and keep the key
#[structopt(short = "a", long = "add-password")]
add_password: bool,
/// Use a keyfile instead of typing a previous password
#[structopt(short = "d", long = "keyfile")]
keyfile: Option<PathBuf>,
/// Will add an token to your LUKS 2 header, including the credential id
#[structopt(short = "t", long = "token")]
token: bool,
#[structopt(flatten)]
secret_gen: SecretGeneration,
replacement: OtherSecret,
#[structopt(flatten)]
luks_mod: LuksModParameters,
},
/// Open the LUKS device
#[structopt(name = "open")]
Open {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
#[structopt(flatten)]
luks: LuksParameters,
#[structopt(env = "FIDO2LUKS_MAPPER_NAME")]
name: String,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
#[structopt(short = "r", long = "max-retries", default_value = "0")]
retries: i32,
},
/// Open the LUKS device using credentials embedded in the LUKS 2 header
#[structopt(name = "open-token")]
OpenToken {
#[structopt(flatten)]
secret_gen: SecretGeneration,
luks: LuksParameters,
#[structopt(env = "FIDO2LUKS_MAPPER_NAME")]
name: String,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
#[structopt(short = "r", long = "max-retries", default_value = "0")]
retries: i32,
},
/// Generate a new FIDO credential
#[structopt(name = "credential")]
Credential {
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
/// Name to be displayed on the authenticator if it has a display
#[structopt(env = "FIDO2LUKS_CREDENTIAL_NAME")]
name: Option<String>,
@@ -231,6 +289,45 @@ pub enum Command {
/// Check if an authenticator is connected
#[structopt(name = "connected")]
Connected,
Token(TokenCommand),
}
///LUKS2 token related operations
#[derive(Debug, StructOpt)]
pub enum TokenCommand {
/// List all tokens associated with the specified device
List {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
/// Dump all credentials as CSV
#[structopt(long = "csv")]
csv: bool,
},
/// Add credential to a keyslot
Add {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
#[structopt(flatten)]
credentials: Credentials,
/// Slot to which the credentials will be added
#[structopt(long = "slot", env = "FIDO2LUKS_DEVICE_SLOT")]
slot: u32,
},
/// Remove credentials from token(s)
Remove {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
#[structopt(flatten)]
credentials: Credentials,
/// Token from which the credentials will be removed
#[structopt(long = "token")]
token_id: Option<u32>,
},
/// Remove all unassigned tokens
GC {
#[structopt(env = "FIDO2LUKS_DEVICE")]
device: PathBuf,
},
}
pub fn parse_cmdline() -> Args {
@@ -240,95 +337,247 @@ pub fn parse_cmdline() -> Args {
pub fn run_cli() -> Fido2LuksResult<()> {
let mut stdout = io::stdout();
let args = parse_cmdline();
let interactive = args.interactive;
match &args.command {
Command::Credential { name } => {
let cred = make_credential_id(name.as_ref().map(|n| n.as_ref()))?;
Command::Credential {
authenticator,
name,
} => {
let pin_string;
let pin = if authenticator.pin {
pin_string = read_pin()?;
Some(pin_string.as_ref())
} else {
None
};
let cred = make_credential_id(name.as_ref().map(|n| n.as_ref()), pin)?;
println!("{}", hex::encode(&cred.id));
Ok(())
}
Command::PrintSecret {
binary,
ref secret_gen,
authenticator,
credentials,
secret,
} => {
let secret = secret_gen.patch(&args).obtain_secret()?;
if *binary {
stdout.write(&secret[..])?;
let pin_string;
let pin = if authenticator.pin {
pin_string = read_pin()?;
Some(pin_string.as_ref())
} else {
stdout.write(hex::encode(&secret[..]).as_bytes())?;
None
};
let salt = if interactive || secret.password_helper == PasswordHelper::Stdin {
util::read_password_hashed("Password", false)
} else {
secret.salt.obtain(&secret.password_helper)
}?;
let (secret, _cred) = derive_secret(
credentials.ids.0.as_slice(),
&salt,
authenticator.await_time,
pin,
)?;
if *binary {
stdout.write_all(&secret[..])?;
} else {
stdout.write_all(hex::encode(&secret[..]).as_bytes())?;
}
Ok(stdout.flush()?)
}
Command::AddKey {
device,
exclusive,
keyfile,
ref secret_gen,
} => {
let secret = secret_gen.patch(&args).obtain_secret()?;
let slot = add_key_to_luks(
device.clone(),
&secret,
if let Some(keyfile) = keyfile.clone() {
Box::new(move || util::read_keyfile(keyfile.clone()))
} else {
Box::new(|| {
util::read_password("Old password", true).map(|p| p.as_bytes().to_vec())
})
},
*exclusive,
)?;
println!(
"Added to key to device {}, slot: {}",
device.display(),
slot
);
Ok(())
luks,
authenticator,
credentials,
secret,
luks_mod,
existing_secret: other_secret,
token,
..
}
Command::ReplaceKey {
device,
add_password,
keyfile,
ref secret_gen,
| Command::ReplaceKey {
luks,
authenticator,
credentials,
secret,
luks_mod,
replacement: other_secret,
token,
..
} => {
let secret = secret_gen.patch(&args).obtain_secret()?;
let slot = add_password_to_luks(
device.clone(),
&secret,
if let Some(keyfile) = keyfile.clone() {
Box::new(move || util::read_keyfile(keyfile.clone()))
let pin = if authenticator.pin {
Some(read_pin()?)
} else {
None
};
let salt = |q: &str, verify: bool| -> Fido2LuksResult<[u8; 32]> {
if interactive || secret.password_helper == PasswordHelper::Stdin {
util::read_password_hashed(q, verify)
} else {
Box::new(|| {
util::read_password("Password to add", true).map(|p| p.as_bytes().to_vec())
})
},
*add_password,
)?;
println!(
"Added to password to device {}, slot: {}",
device.display(),
slot
);
Ok(())
secret.salt.obtain(&secret.password_helper)
}
};
let other_secret = |salt_q: &str,
verify: bool|
-> Fido2LuksResult<(Vec<u8>, Option<FidoCredential>)> {
match other_secret {
OtherSecret {
keyfile: Some(file),
..
} => Ok((util::read_keyfile(file)?, None)),
OtherSecret {
fido_device: true, ..
} => Ok(derive_secret(
&credentials.ids.0,
&salt(salt_q, verify)?,
authenticator.await_time,
pin.as_deref(),
)
.map(|(secret, cred)| (secret[..].to_vec(), Some(cred)))?),
_ => Ok((
util::read_password(salt_q, verify)?.as_bytes().to_vec(),
None,
)),
}
};
let secret = |verify: bool| -> Fido2LuksResult<([u8; 32], FidoCredential)> {
derive_secret(
&credentials.ids.0,
&salt("Password", verify)?,
authenticator.await_time,
pin.as_deref(),
)
};
let mut luks_dev = LuksDevice::load(&luks.device)?;
// Non overlap
match &args.command {
Command::AddKey { exclusive, .. } => {
let (existing_secret, _) = other_secret("Current password", false)?;
let (new_secret, cred) = secret(true)?;
let added_slot = luks_dev.add_key(
&new_secret,
&existing_secret[..],
luks_mod.kdf_time.or(Some(10)),
Some(&cred.id[..]).filter(|_| *token),
)?;
if *exclusive {
let destroyed = luks_dev.remove_keyslots(&[added_slot])?;
println!(
"Added to key to device {}, slot: {}\nRemoved {} old keys",
luks.device.display(),
added_slot,
destroyed
);
} else {
println!(
"Added to key to device {}, slot: {}",
luks.device.display(),
added_slot
);
}
Ok(())
}
Command::ReplaceKey { add_password, .. } => {
let (existing_secret, _) = secret(false)?;
let (replacement_secret, cred) = other_secret("Replacement password", true)?;
let slot = if *add_password {
luks_dev.add_key(
&replacement_secret[..],
&existing_secret,
luks_mod.kdf_time,
cred.as_ref().filter(|_| *token).map(|cred| &cred.id[..]),
)
} else {
luks_dev.replace_key(
&replacement_secret[..],
&existing_secret,
luks_mod.kdf_time,
cred.as_ref().filter(|_| *token).map(|cred| &cred.id[..]),
)
}?;
println!(
"Added to password to device {}, slot: {}",
luks.device.display(),
slot
);
Ok(())
}
_ => unreachable!(),
}
}
Command::Open {
device,
luks,
authenticator,
secret,
name,
retries,
..
}
| Command::OpenToken {
luks,
authenticator,
secret,
name,
retries,
ref secret_gen,
} => {
let pin_string;
let pin = if authenticator.pin {
pin_string = read_pin()?;
Some(pin_string.as_ref())
} else {
None
};
let salt = |q: &str, verify: bool| -> Fido2LuksResult<[u8; 32]> {
if interactive || secret.password_helper == PasswordHelper::Stdin {
util::read_password_hashed(q, verify)
} else {
secret.salt.obtain(&secret.password_helper)
}
};
// Cow shouldn't be necessary
let secret = |credentials: Cow<'_, Vec<HexEncoded>>| {
derive_secret(
credentials.as_ref(),
&salt("Password", false)?,
authenticator.await_time,
pin,
)
};
let mut retries = *retries;
let mut luks_dev = LuksDevice::load(&luks.device)?;
loop {
let secret = secret_gen.patch(&args).obtain_secret()?;
match open_container(&device, &name, &secret) {
Err(e) => match e {
Fido2LuksError::WrongSecret if retries > 0 => {
retries -= 1;
eprintln!("{}", e);
continue;
let secret = match &args.command {
Command::Open { credentials, .. } => secret(Cow::Borrowed(&credentials.ids.0))
.and_then(|(secret, _cred)| luks_dev.activate(&name, &secret, luks.slot)),
Command::OpenToken { .. } => luks_dev.activate_token(
&name,
Box::new(|credentials: Vec<String>| {
let creds = credentials
.into_iter()
.flat_map(|cred| HexEncoded::from_str(cred.as_ref()).ok())
.collect::<Vec<_>>();
secret(Cow::Owned(creds))
.map(|(secret, cred)| (secret, hex::encode(&cred.id)))
}),
luks.slot,
),
_ => unreachable!(),
};
match secret {
Err(e) => {
match e {
Fido2LuksError::WrongSecret if retries > 0 => {}
Fido2LuksError::AuthenticatorError { ref cause }
if cause.kind() == FidoErrorKind::Timeout && retries > 0 => {}
e => return Err(e),
}
e => Err(e)?,
},
res => break res,
retries -= 1;
eprintln!("{}", e);
}
res => break res.map(|_| ()),
}
}
}
@@ -339,5 +588,129 @@ pub fn run_cli() -> Fido2LuksResult<()> {
}
_ => exit(1),
},
Command::Token(cmd) => match cmd {
TokenCommand::List {
device,
csv: dump_credentials,
} => {
let mut dev = LuksDevice::load(device)?;
let mut creds = Vec::new();
for token in dev.tokens()? {
let (id, token) = token?;
for cred in token.credential.iter() {
if !creds.contains(cred) {
creds.push(cred.clone());
if *dump_credentials {
print!("{}{}", if creds.len() == 1 { "" } else { "," }, cred);
}
}
}
if *dump_credentials {
continue;
}
println!(
"{}:\n\tSlots: {}\n\tCredentials: {}",
id,
if token.keyslots.is_empty() {
"None".into()
} else {
token.keyslots.iter().cloned().collect::<Vec<_>>().join(",")
},
token
.credential
.iter()
.map(|cred| format!(
"{} ({})",
cred,
creds.iter().position(|c| c == cred).unwrap().to_string()
))
.collect::<Vec<_>>()
.join(",")
);
}
if *dump_credentials {
println!();
}
Ok(())
}
TokenCommand::Add {
device,
credentials,
slot,
} => {
let mut dev = LuksDevice::load(device)?;
let mut tokens = Vec::new();
for token in dev.tokens()? {
let (id, token) = token?;
if token.keyslots.contains(&slot.to_string()) {
tokens.push((id, token));
}
}
let count = if tokens.is_empty() {
dev.add_token(&Fido2LuksToken::with_credentials(&credentials.ids.0, *slot))?;
1
} else {
tokens.len()
};
for (id, mut token) in tokens {
token
.credential
.extend(credentials.ids.0.iter().map(|h| h.to_string()));
dev.update_token(id, &token)?;
}
println!("Updated {} tokens", count);
Ok(())
}
TokenCommand::Remove {
device,
credentials,
token_id,
} => {
let mut dev = LuksDevice::load(device)?;
let mut tokens = Vec::new();
for token in dev.tokens()? {
let (id, token) = token?;
if let Some(token_id) = token_id {
if id == *token_id {
tokens.push((id, token));
}
} else {
tokens.push((id, token));
}
}
let count = tokens.len();
for (id, mut token) in tokens {
token.credential = token
.credential
.into_iter()
.filter(|cred| !credentials.ids.0.iter().any(|h| &h.to_string() == cred))
.collect();
dev.update_token(id, &token)?;
}
println!("Updated {} tokens", count);
Ok(())
}
TokenCommand::GC { device } => {
let mut dev = LuksDevice::load(device)?;
let mut creds: HashSet<String> = HashSet::new();
let mut remove = Vec::new();
for token in dev.tokens()? {
let (id, token) = token?;
if token.keyslots.is_empty() || token.credential.is_empty() {
creds.extend(token.credential);
remove.push(id);
}
}
for id in remove.iter().rev() {
dev.remove_token(*id)?;
}
println!(
"Removed {} tokens, affected credentials: {}",
remove.len(),
creds.into_iter().collect::<Vec<_>>().join(",")
);
Ok(())
}
},
}
}

7
src/config.rs
View File

@@ -24,7 +24,7 @@ impl Default for InputSalt {
impl From<&str> for InputSalt {
fn from(s: &str) -> Self {
let mut parts = s.split(":").into_iter();
let mut parts = s.split(':');
match parts.next() {
Some("ask") | Some("Ask") => InputSalt::AskPassword,
Some("file") => InputSalt::File {
@@ -84,9 +84,10 @@ impl InputSalt {
}
}
#[derive(Debug, Clone)]
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum PasswordHelper {
Script(String),
#[allow(dead_code)]
Systemd,
Stdin,
}
@@ -134,7 +135,7 @@ impl PasswordHelper {
Systemd => unimplemented!(),
Stdin => Ok(util::read_password("Password", true)?),
Script(password_helper) => {
let mut helper_parts = password_helper.split(" ");
let mut helper_parts = password_helper.split(' ');
let password = Command::new((&mut helper_parts).next().unwrap())
.args(helper_parts)

128
src/device.rs
View File

@@ -1,91 +1,61 @@
use crate::error::*;
use crate::util::sha256;
use crate::util;
use ctap::{
self,
extensions::hmac::{FidoHmacCredential, HmacExtension},
AuthenticatorOptions, FidoDevice, FidoError, FidoErrorKind, PublicKeyCredentialRpEntity,
PublicKeyCredentialUserEntity,
self, extensions::hmac::HmacExtension, request_multiple_devices, FidoAssertionRequestBuilder,
FidoCredential, FidoCredentialRequestBuilder, FidoDevice, FidoError, FidoErrorKind,
};
use std::time::Duration;
const RP_ID: &'static str = "fido2luks";
const RP_ID: &str = "fido2luks";
fn authenticator_options() -> Option<AuthenticatorOptions> {
Some(AuthenticatorOptions {
uv: false, //TODO: should get this from config
rk: true,
})
}
fn authenticator_rp() -> PublicKeyCredentialRpEntity<'static> {
PublicKeyCredentialRpEntity {
id: RP_ID,
name: None,
icon: None,
pub fn make_credential_id(
name: Option<&str>,
pin: Option<&str>,
) -> Fido2LuksResult<FidoCredential> {
let mut request = FidoCredentialRequestBuilder::default().rp_id(RP_ID);
if let Some(user_name) = name {
request = request.user_name(user_name);
}
}
fn authenticator_user(name: Option<&str>) -> PublicKeyCredentialUserEntity {
PublicKeyCredentialUserEntity {
id: &[0u8],
name: name.unwrap_or(""),
icon: None,
display_name: name,
}
}
pub fn make_credential_id(name: Option<&str>) -> Fido2LuksResult<FidoHmacCredential> {
let mut errs = Vec::new();
match get_devices()? {
ref devs if devs.is_empty() => Err(Fido2LuksError::NoAuthenticatorError)?,
devs => {
for mut dev in devs.into_iter() {
match dev
.make_hmac_credential_full(
authenticator_rp(),
authenticator_user(name),
&[0u8; 32],
&[],
authenticator_options(),
)
.map(|cred| cred.into())
{
//TODO: make credentials device specific
Ok(cred) => {
return Ok(cred);
}
Err(e) => {
errs.push(e);
}
}
}
let request = request.build().unwrap();
let make_credential = |device: &mut FidoDevice| {
if let Some(pin) = pin {
device.unlock(pin)?;
}
}
Err(errs.pop().ok_or(Fido2LuksError::NoAuthenticatorError)?)?
}
pub fn perform_challenge(credential_id: &[u8], salt: &[u8; 32]) -> Fido2LuksResult<[u8; 32]> {
let cred = FidoHmacCredential {
id: credential_id.to_vec(),
rp_id: RP_ID.to_string(),
device.make_hmac_credential(&request)
};
let mut errs = Vec::new();
match get_devices()? {
ref devs if devs.is_empty() => Err(Fido2LuksError::NoAuthenticatorError)?,
devs => {
for mut dev in devs.into_iter() {
match dev.get_hmac_assertion(&cred, &sha256(&[&salt[..]]), None, None) {
Ok(secret) => {
return Ok(secret.0);
}
Err(e) => {
errs.push(e);
}
}
}
Ok(request_multiple_devices(
get_devices()?
.iter_mut()
.map(|device| (device, &make_credential)),
None,
)?)
}
pub fn perform_challenge<'a>(
credentials: &'a [&'a FidoCredential],
salt: &[u8; 32],
timeout: Duration,
pin: Option<&str>,
) -> Fido2LuksResult<([u8; 32], &'a FidoCredential)> {
let request = FidoAssertionRequestBuilder::default()
.rp_id(RP_ID)
.credentials(credentials)
.build()
.unwrap();
let get_assertion = |device: &mut FidoDevice| {
if let Some(pin) = pin {
device.unlock(pin)?;
}
}
Err(errs.pop().ok_or(Fido2LuksError::NoAuthenticatorError)?)?
device.get_hmac_assertion(&request, &util::sha256(&[&salt[..]]), None)
};
let (credential, (secret, _)) = request_multiple_devices(
get_devices()?
.iter_mut()
.map(|device| (device, &get_assertion)),
Some(timeout),
)?;
Ok((secret, credential))
}
pub fn get_devices() -> Fido2LuksResult<Vec<FidoDevice>> {
@@ -94,7 +64,7 @@ pub fn get_devices() -> Fido2LuksResult<Vec<FidoDevice>> {
match FidoDevice::new(&di) {
Err(e) => match e.kind() {
FidoErrorKind::ParseCtap | FidoErrorKind::DeviceUnsupported => (),
err => Err(FidoError::from(err))?,
err => return Err(FidoError::from(err).into()),
},
Ok(dev) => devices.push(dev),
}

54
src/error.rs
View File

@@ -13,9 +13,13 @@ pub enum Fido2LuksError {
AuthenticatorError { cause: ctap::FidoError },
#[fail(display = "no authenticator found, please ensure your device is plugged in")]
NoAuthenticatorError,
#[fail(display = "luks err")]
LuksError { cause: cryptsetup_rs::device::Error },
#[fail(display = "no authenticator found, please ensure your device is plugged in")]
#[fail(display = " {}", cause)]
CryptsetupError {
cause: libcryptsetup_rs::LibcryptErr,
},
#[fail(display = "{}", cause)]
LuksError { cause: LuksError },
#[fail(display = "{}", cause)]
IoError { cause: io::Error },
#[fail(display = "supplied secret isn't valid for this device")]
WrongSecret,
@@ -44,6 +48,41 @@ pub enum AskPassError {
Mismatch,
}
#[derive(Debug, Fail)]
pub enum LuksError {
#[fail(display = "This feature requires to the LUKS device to be formatted as LUKS 2")]
Luks2Required,
#[fail(display = "Invalid token: {}", _0)]
InvalidToken(String),
#[fail(display = "No token found")]
NoToken,
#[fail(display = "The device already exists")]
DeviceExists,
}
impl LuksError {
pub fn activate(e: LibcryptErr) -> Fido2LuksError {
match e {
LibcryptErr::IOError(ref io) => match io.raw_os_error() {
Some(1) if io.kind() == ErrorKind::PermissionDenied => Fido2LuksError::WrongSecret,
Some(17) => Fido2LuksError::LuksError {
cause: LuksError::DeviceExists,
},
_ => return Fido2LuksError::CryptsetupError { cause: e },
},
_ => Fido2LuksError::CryptsetupError { cause: e },
}
}
}
impl From<LuksError> for Fido2LuksError {
fn from(e: LuksError) -> Self {
Fido2LuksError::LuksError { cause: e }
}
}
use libcryptsetup_rs::LibcryptErr;
use std::io::ErrorKind;
use std::string::FromUtf8Error;
use Fido2LuksError::*;
@@ -53,17 +92,16 @@ impl From<FidoError> for Fido2LuksError {
}
}
impl From<cryptsetup_rs::device::Error> for Fido2LuksError {
fn from(e: cryptsetup_rs::device::Error) -> Self {
impl From<LibcryptErr> for Fido2LuksError {
fn from(e: LibcryptErr) -> Self {
match e {
cryptsetup_rs::device::Error::CryptsetupError(error_no) if error_no.0 == 1i32 => {
LibcryptErr::IOError(e) if e.raw_os_error().iter().any(|code| code == &1i32) => {
WrongSecret
}
e => LuksError { cause: e },
_ => CryptsetupError { cause: e },
}
}
}
impl From<io::Error> for Fido2LuksError {
fn from(e: io::Error) -> Self {
IoError { cause: e }

327
src/luks.rs Normal file
View File

@@ -0,0 +1,327 @@
use crate::error::*;
use libcryptsetup_rs::{
CryptActivateFlags, CryptDevice, CryptInit, CryptTokenInfo, EncryptionFormat, KeyslotInfo,
TokenInput,
};
use std::collections::{HashMap, HashSet};
use std::path::Path;
pub struct LuksDevice {
device: CryptDevice,
luks2: Option<bool>,
}
impl LuksDevice {
pub fn load<P: AsRef<Path>>(path: P) -> Fido2LuksResult<LuksDevice> {
let mut device = CryptInit::init(path.as_ref())?;
device.context_handle().load::<()>(None, None)?;
Ok(Self {
device,
luks2: None,
})
}
pub fn is_luks2(&mut self) -> Fido2LuksResult<bool> {
if let Some(luks2) = self.luks2 {
Ok(luks2)
} else {
self.luks2 = Some(match self.device.format_handle().get_type()? {
EncryptionFormat::Luks2 => true,
_ => false,
});
self.is_luks2()
}
}
fn require_luks2(&mut self) -> Fido2LuksResult<()> {
if !self.is_luks2()? {
return Err(LuksError::Luks2Required.into());
}
Ok(())
}
pub fn tokens<'a>(
&'a mut self,
) -> Fido2LuksResult<Box<dyn Iterator<Item = Fido2LuksResult<(u32, Fido2LuksToken)>> + 'a>>
{
self.require_luks2()?;
Ok(Box::new(
(0..32)
.map(move |i| {
let status = match self.device.token_handle().status(i) {
Ok(status) => status,
Err(err) => return Some(Err(Fido2LuksError::from(err))),
};
match status {
CryptTokenInfo::Inactive => return None,
CryptTokenInfo::Internal(s)
| CryptTokenInfo::InternalUnknown(s)
| CryptTokenInfo::ExternalUnknown(s)
| CryptTokenInfo::External(s)
if &s != Fido2LuksToken::default_type() =>
{
return None
}
_ => (),
};
let json = match self.device.token_handle().json_get(i) {
Ok(json) => json,
Err(err) => return Some(Err(Fido2LuksError::from(err))),
};
let info: Fido2LuksToken =
match serde_json::from_value(json.clone()).map_err(|_| {
Fido2LuksError::LuksError {
cause: LuksError::InvalidToken(json.to_string()),
}
}) {
Ok(info) => info,
Err(err) => return Some(Err(Fido2LuksError::from(err))),
};
Some(Ok((i, info)))
})
.filter_map(|o| o),
))
}
pub fn find_token(&mut self, slot: u32) -> Fido2LuksResult<Option<(u32, Fido2LuksToken)>> {
let slot_str = slot.to_string();
for token in self.tokens()? {
let (id, token) = token?;
if token.keyslots.contains(&slot_str) {
return Ok(Some((id, token)));
}
}
Ok(None)
}
pub fn add_token(&mut self, data: &Fido2LuksToken) -> Fido2LuksResult<()> {
self.require_luks2()?;
self.device
.token_handle()
.json_set(TokenInput::AddToken(&serde_json::to_value(&data).unwrap()))?;
Ok(())
}
pub fn remove_token(&mut self, token: u32) -> Fido2LuksResult<()> {
self.require_luks2()?;
self.device
.token_handle()
.json_set(TokenInput::RemoveToken(token))?;
Ok(())
}
pub fn update_token(&mut self, token: u32, data: &Fido2LuksToken) -> Fido2LuksResult<()> {
self.require_luks2()?;
self.device
.token_handle()
.json_set(TokenInput::ReplaceToken(
token,
&serde_json::to_value(&data).unwrap(),
))?;
Ok(())
}
pub fn add_key(
&mut self,
secret: &[u8],
old_secret: &[u8],
iteration_time: Option<u64>,
credential_id: Option<&[u8]>,
) -> Fido2LuksResult<u32> {
if let Some(millis) = iteration_time {
self.device.settings_handle().set_iteration_time(millis)
}
let slot = self
.device
.keyslot_handle()
.add_by_passphrase(None, old_secret, secret)?;
if let Some(id) = credential_id {
self.device.token_handle().json_set(TokenInput::AddToken(
&serde_json::to_value(&Fido2LuksToken::new(id, slot)).unwrap(),
))?;
}
Ok(slot)
}
pub fn remove_keyslots(&mut self, exclude: &[u32]) -> Fido2LuksResult<u32> {
let mut destroyed = 0;
let mut tokens = Vec::new();
for slot in 0..256 {
match self.device.keyslot_handle().status(slot)? {
KeyslotInfo::Inactive => continue,
KeyslotInfo::Active | KeyslotInfo::ActiveLast if !exclude.contains(&slot) => {
if self.is_luks2()? {
if let Some((id, _token)) = self.find_token(slot)? {
tokens.push(id);
}
}
self.device.keyslot_handle().destroy(slot)?;
destroyed += 1;
}
KeyslotInfo::ActiveLast => break,
_ => (),
}
if self.device.keyslot_handle().status(slot)? == KeyslotInfo::ActiveLast {
break;
}
}
// Ensure indices stay valid
tokens.sort();
for token in tokens.iter().rev() {
self.remove_token(*token)?;
}
Ok(destroyed)
}
pub fn replace_key(
&mut self,
secret: &[u8],
old_secret: &[u8],
iteration_time: Option<u64>,
credential_id: Option<&[u8]>,
) -> Fido2LuksResult<u32> {
if let Some(millis) = iteration_time {
self.device.settings_handle().set_iteration_time(millis)
}
// Use activate dry-run to locate keyslot
let slot = self.device.activate_handle().activate_by_passphrase(
None,
None,
old_secret,
CryptActivateFlags::empty(),
)?;
self.device.keyslot_handle().change_by_passphrase(
Some(slot),
Some(slot),
old_secret,
secret,
)? as u32;
if let Some(id) = credential_id {
if self.is_luks2()? {
let token = self.find_token(slot)?.map(|(t, _)| t);
let json = serde_json::to_value(&Fido2LuksToken::new(id, slot)).unwrap();
if let Some(token) = token {
self.device
.token_handle()
.json_set(TokenInput::ReplaceToken(token, &json))?;
} else {
self.device
.token_handle()
.json_set(TokenInput::AddToken(&json))?;
}
}
}
Ok(slot)
}
pub fn activate(
&mut self,
name: &str,
secret: &[u8],
slot_hint: Option<u32>,
) -> Fido2LuksResult<u32> {
self.device
.activate_handle()
.activate_by_passphrase(Some(name), slot_hint, secret, CryptActivateFlags::empty())
.map_err(LuksError::activate)
}
pub fn activate_token(
&mut self,
name: &str,
secret: impl Fn(Vec<String>) -> Fido2LuksResult<([u8; 32], String)>,
slot_hint: Option<u32>,
) -> Fido2LuksResult<u32> {
if !self.is_luks2()? {
return Err(LuksError::Luks2Required.into());
}
let mut creds: HashMap<String, HashSet<u32>> = HashMap::new();
for token in self.tokens()? {
let token = match token {
Ok((_id, t)) => t,
_ => continue, // An corrupted token should't lock the user out
};
let slots = || {
token
.keyslots
.iter()
.filter_map(|slot| slot.parse::<u32>().ok())
};
for cred in token.credential.iter() {
creds
.entry(cred.clone())
.or_insert_with(|| slots().collect::<HashSet<u32>>())
.extend(slots());
}
}
if creds.is_empty() {
return Err(Fido2LuksError::LuksError {
cause: LuksError::NoToken,
});
}
let (secret, credential) = secret(creds.keys().cloned().collect())?;
let empty;
let slots = if let Some(slots) = creds.get(&credential) {
slots
} else {
empty = HashSet::new();
&empty
};
//Try slots associated with the credential used
let slots = slots.iter().cloned().map(Option::Some).chain(
std::iter::once(slot_hint) // Try slot hint if there is one
.take(slot_hint.is_some() as usize)
.chain(std::iter::once(None).take(slots.is_empty() as usize)), // Try all slots as last resort
);
for slot in slots {
match self.activate(name, &secret, slot) {
Err(Fido2LuksError::WrongSecret) => (),
res => return res,
}
}
Err(Fido2LuksError::WrongSecret)
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Fido2LuksToken {
#[serde(rename = "type")]
pub type_: String,
pub credential: HashSet<String>,
pub keyslots: HashSet<String>,
}
impl Fido2LuksToken {
pub fn new(credential_id: impl AsRef<[u8]>, slot: u32) -> Self {
Self::with_credentials(std::iter::once(credential_id), slot)
}
pub fn with_credentials<I: IntoIterator<Item = B>, B: AsRef<[u8]>>(
credentials: I,
slot: u32,
) -> Self {
Self {
credential: credentials
.into_iter()
.map(|cred| hex::encode(cred.as_ref()))
.collect(),
keyslots: vec![slot.to_string()].into_iter().collect(),
..Default::default()
}
}
pub fn default_type() -> &'static str {
"fido2luks"
}
}
impl Default for Fido2LuksToken {
fn default() -> Self {
Self {
type_: Self::default_type().into(),
credential: HashSet::new(),
keyslots: HashSet::new(),
}
}
}

33
src/main.rs
View File

@@ -1,13 +1,12 @@
#[macro_use]
extern crate failure;
extern crate ctap_hmac as ctap;
#[macro_use]
extern crate serde_derive;
use crate::cli::*;
use crate::config::*;
use crate::device::*;
use crate::error::*;
use cryptsetup_rs as luks;
use cryptsetup_rs::Luks1CryptDevice;
use std::io;
use std::path::PathBuf;
use std::process::exit;
@@ -16,18 +15,9 @@ mod cli;
mod config;
mod device;
mod error;
mod luks;
mod util;
fn open_container(device: &PathBuf, name: &str, secret: &[u8; 32]) -> Fido2LuksResult<()> {
let mut handle = luks::open(device.canonicalize()?)?.luks1()?;
let _slot = handle.activate(name, &secret[..])?;
Ok(())
}
fn assemble_secret(hmac_result: &[u8], salt: &[u8]) -> [u8; 32] {
util::sha256(&[salt, hmac_result])
}
fn main() -> Fido2LuksResult<()> {
match run_cli() {
Err(e) => {
@@ -40,20 +30,3 @@ fn main() -> Fido2LuksResult<()> {
_ => exit(0),
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_assemble_secret() {
assert_eq!(
assemble_secret(b"abc", b"def"),
[
46, 82, 82, 140, 142, 159, 249, 196, 227, 160, 142, 72, 151, 77, 59, 62, 180, 36,
33, 47, 241, 94, 17, 232, 133, 103, 247, 32, 152, 253, 43, 19
]
)
}
}

8
src/util.rs
View File

@@ -4,7 +4,7 @@ use std::fs::File;
use std::io::Read;
use std::path::PathBuf;
pub fn sha256<'a>(messages: &[&[u8]]) -> [u8; 32] {
pub fn sha256(messages: &[&[u8]]) -> [u8; 32] {
let mut digest = digest::Context::new(&digest::SHA256);
for m in messages.iter() {
digest.update(m);
@@ -23,12 +23,16 @@ pub fn read_password(q: &str, verify: bool) -> Fido2LuksResult<String> {
{
Err(Fido2LuksError::AskPassError {
cause: AskPassError::Mismatch,
})?
})
}
pass => Ok(pass),
}
}
pub fn read_password_hashed(q: &str, verify: bool) -> Fido2LuksResult<[u8; 32]> {
read_password(q, verify).map(|pass| sha256(&[pass.as_bytes()]))
}
pub fn read_keyfile<P: Into<PathBuf>>(path: P) -> Fido2LuksResult<Vec<u8>> {
let mut file = File::open(path.into())?;
let mut key = Vec::new();