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merge into: shimun:luks2
Branches Tags
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
...
pull from: shimun:initramfs-tools
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

40 Commits
luks2 ... initramfs-

Author SHA1 Message Date
shimun
720b53511d readme
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2020-07-03 15:53:07 +02:00
shimun
962ad2a380 initramfs-tools
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2020-07-03 15:09:52 +02:00
shimun
a498e1416f automate cargo publish
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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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2020-06-21 22:16:45 +02:00
shimun
5f107cd337 add non existing token
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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
18 changed files with 1920 additions and 671 deletions
Expand all files Collapse all files

33
.drone.yml
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@@ -3,32 +3,27 @@ name: default
steps: steps:
- name: fmt - name: fmt
image: rust:1.37.0 image: rust:1.43.0
commands: commands:
- rustup component add rustfmt - rustup component add rustfmt
- cargo fmt --all -- --check - cargo fmt --all -- --check
- name: test - name: test
image: rust:1.37.0 image: rust:1.43.0
commands: 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 - cargo test
- name: build
image: rust:1.37.0
commands:
- apt update && apt install -y libcryptsetup-dev libkeyutils-dev
- cargo install -f --path . --root .
when:
event: tag
- name: publish - name: publish
image: plugins/github-release image: rust:1.43.0
settings: environment:
api_key: CARGO_REGISTRY_TOKEN:
from_secret: github_release from_secret: cargo_tkn
files: commands:
- bin/fido2luks - grep -E 'version ?= ?"${DRONE_TAG}"' -i Cargo.toml || (printf "incorrect crate/tag version" && exit 1)
checksum: - apt update && apt install -y libkeyutils-dev libclang-dev clang pkg-config
- md5 - 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
- sha256 - cargo package --all-features
- cargo publish --all-features
when: when:
event: tag event: tag

843
Cargo.lock generated
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11
Cargo.toml
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@@ -1,6 +1,6 @@
[package] [package]
name = "fido2luks" name = "fido2luks"
version = "0.2.4" version = "0.2.9"
authors = ["shimunn <shimun@shimun.net>"] authors = ["shimunn <shimun@shimun.net>"]
edition = "2018" edition = "2018"
@@ -14,15 +14,16 @@ categories = ["command-line-utilities"]
license-file = "LICENSE" license-file = "LICENSE"
[dependencies] [dependencies]
ctap_hmac = "0.2.1" ctap_hmac = { version="0.4.2", features = ["request_multiple"] }
hex = "0.3.2" hex = "0.3.2"
ring = "0.13.5" ring = "0.13.5"
failure = "0.1.5" failure = "0.1.5"
rpassword = "4.0.1" rpassword = "4.0.1"
structopt = "0.3.2" structopt = "0.3.2"
libcryptsetup-rs = "0.2.0" libcryptsetup-rs = "0.4.1"
serde_json = "1.0.51"
serde_derive = "1.0.106"
serde = "1.0.106"
[profile.release] [profile.release]
lto = true lto = true

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 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 ## Setup
### Prerequisites ### Prerequisites
``` ```
dnf install cargo cryptsetup-devel -y dnf install clang cargo cryptsetup-devel -y
``` ```
### Device ### Device
@@ -30,6 +30,8 @@ set -a
. /etc/fido2luks.conf . /etc/fido2luks.conf
# Repeat for each luks volume # 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> sudo -E fido2luks -i add-key /dev/disk/by-uuid/<DISK_UUID>
# Test(only works if the luks container isn't active) # 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 # 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> 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 # 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> fido2luks -i add-key --exclusive /dev/disk/by-uuid/<DISK_UUID>
``` ```

23
initramfs-tools/Makefile Normal file
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@@ -0,0 +1,23 @@
.PHONY: install clean
DRACUT_MODULES_D=/usr/lib/dracut/modules.d
DRACUT_CONF_D=/etc/dracut.conf.d
MODULE_CONF_D=dracut.conf.d
MODULE_CONF=luks-2fa.conf
MODULE_DIR=96luks-2fa
help:
@echo make help to show this help
@echo make install to install
@echo make clean to remove
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:
rm /etc/initramfs-tools/hooks/fido2luks.sh
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
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@@ -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
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640
src/cli.rs
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@@ -1,27 +1,37 @@
use crate::error::*; use crate::error::*;
use crate::luks;
use crate::*; use crate::*;
use structopt::StructOpt; 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::str::FromStr;
use failure::_core::time::Duration; use failure::_core::time::Duration;
use std::io::Write; use std::io::Write;
use std::process::exit; use std::process::exit;
use std::thread; use std::thread;
use crate::luks::{Fido2LuksToken, LuksDevice};
use crate::util::sha256;
use std::borrow::Cow;
use std::collections::HashSet;
use std::time::SystemTime; use std::time::SystemTime;
#[derive(Debug, Eq, PartialEq, Clone)]
pub struct HexEncoded(Vec<u8>);
impl std::fmt::Display for HexEncoded { #[derive(Debug, Eq, PartialEq, Clone)]
pub struct HexEncoded(pub Vec<u8>);
impl Display for HexEncoded {
fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error> { fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error> {
f.write_str(&hex::encode(&self.0)) f.write_str(&hex::encode(&self.0))
} }
} }
impl AsRef<[u8]> for HexEncoded {
fn as_ref(&self) -> &[u8] {
&self.0[..]
}
}
impl FromStr for HexEncoded { impl FromStr for HexEncoded {
type Err = hex::FromHexError; type Err = hex::FromHexError;
@@ -30,20 +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)] #[derive(Debug, StructOpt)]
pub struct Args { pub struct Credentials {
/// Request passwords via Stdin instead of using the password helper /// FIDO credential ids, separated by ',' generate using fido2luks credential
#[structopt(short = "i", long = "interactive")] #[structopt(name = "credential-id", env = "FIDO2LUKS_CREDENTIAL_ID")]
pub interactive: bool, pub ids: CommaSeparated<HexEncoded>,
#[structopt(subcommand)] }
pub command: Command,
#[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)] #[derive(Debug, StructOpt, Clone)]
pub struct SecretGeneration { pub struct LuksModParameters {
/// FIDO credential id, generate using fido2luks credential /// Number of milliseconds required to derive the volume decryption key
#[structopt(name = "credential-id", env = "FIDO2LUKS_CREDENTIAL_ID")] /// Defaults to 10ms when using an authenticator or the default by cryptsetup when using a password
pub credential_id: HexEncoded, #[structopt(long = "kdf-time", name = "kdf-time")]
kdf_time: Option<u64>,
}
#[derive(Debug, StructOpt)]
pub struct SecretParameters {
/// Salt for secret generation, defaults to 'ask' /// Salt for secret generation, defaults to 'ask'
/// ///
/// Options:{n} /// Options:{n}
@@ -64,34 +127,20 @@ pub struct SecretGeneration {
default_value = "/usr/bin/env systemd-ask-password 'Please enter second factor for LUKS disk encryption!'" default_value = "/usr/bin/env systemd-ask-password 'Please enter second factor for LUKS disk encryption!'"
)] )]
pub password_helper: PasswordHelper, 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 { fn derive_secret(
pub fn patch(&self, args: &Args) -> Self { credentials: &[HexEncoded],
let mut me = self.clone(); salt: &[u8; 32],
if args.interactive { timeout: u64,
me.password_helper = PasswordHelper::Stdin; pin: Option<&str>,
} ) -> Fido2LuksResult<([u8; 32], FidoCredential)> {
me let timeout = Duration::from_secs(timeout);
}
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 start = SystemTime::now();
while let Ok(el) = start.elapsed() { while let Ok(el) = start.elapsed() {
if el > timeout { if el > timeout {
Err(error::Fido2LuksError::NoAuthenticatorError)?; return Err(error::Fido2LuksError::NoAuthenticatorError);
} }
if get_devices() if get_devices()
.map(|devices| !devices.is_empty()) .map(|devices| !devices.is_empty())
@@ -101,11 +150,43 @@ impl SecretGeneration {
} }
thread::sleep(Duration::from_millis(500)); thread::sleep(Duration::from_millis(500));
} }
Ok(assemble_secret(
&perform_challenge(&self.credential_id.0, &salt)?, let credentials = credentials
&salt, .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)?;
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)] #[derive(Debug, StructOpt)]
@@ -116,51 +197,91 @@ pub enum Command {
#[structopt(short = "b", long = "bin")] #[structopt(short = "b", long = "bin")]
binary: bool, binary: bool,
#[structopt(flatten)] #[structopt(flatten)]
secret_gen: SecretGeneration, credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
}, },
/// Adds a generated key to the specified LUKS device /// Adds a generated key to the specified LUKS device
#[structopt(name = "add-key")] #[structopt(name = "add-key")]
AddKey { AddKey {
#[structopt(env = "FIDO2LUKS_DEVICE")] #[structopt(flatten)]
device: PathBuf, luks: LuksParameters,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
/// Will wipe all other keys /// Will wipe all other keys
#[structopt(short = "e", long = "exclusive")] #[structopt(short = "e", long = "exclusive")]
exclusive: bool, exclusive: bool,
/// Use a keyfile instead of typing a previous password /// Will add an token to your LUKS 2 header, including the credential id
#[structopt(short = "d", long = "keyfile")] #[structopt(short = "t", long = "token")]
keyfile: Option<PathBuf>, token: bool,
#[structopt(flatten)] #[structopt(flatten)]
secret_gen: SecretGeneration, existing_secret: OtherSecret,
#[structopt(flatten)]
luks_mod: LuksModParameters,
}, },
/// Replace a previously added key with a password /// Replace a previously added key with a password
#[structopt(name = "replace-key")] #[structopt(name = "replace-key")]
ReplaceKey { ReplaceKey {
#[structopt(env = "FIDO2LUKS_DEVICE")] #[structopt(flatten)]
device: PathBuf, luks: LuksParameters,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
/// Add the password and keep the key /// Add the password and keep the key
#[structopt(short = "a", long = "add-password")] #[structopt(short = "a", long = "add-password")]
add_password: bool, add_password: bool,
/// Use a keyfile instead of typing a previous password /// Will add an token to your LUKS 2 header, including the credential id
#[structopt(short = "d", long = "keyfile")] #[structopt(short = "t", long = "token")]
keyfile: Option<PathBuf>, token: bool,
#[structopt(flatten)] #[structopt(flatten)]
secret_gen: SecretGeneration, replacement: OtherSecret,
#[structopt(flatten)]
luks_mod: LuksModParameters,
}, },
/// Open the LUKS device /// Open the LUKS device
#[structopt(name = "open")] #[structopt(name = "open")]
Open { Open {
#[structopt(env = "FIDO2LUKS_DEVICE")] #[structopt(flatten)]
device: PathBuf, luks: LuksParameters,
#[structopt(env = "FIDO2LUKS_MAPPER_NAME")] #[structopt(env = "FIDO2LUKS_MAPPER_NAME")]
name: String, name: String,
#[structopt(flatten)]
credentials: Credentials,
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
#[structopt(flatten)]
secret: SecretParameters,
#[structopt(short = "r", long = "max-retries", default_value = "0")] #[structopt(short = "r", long = "max-retries", default_value = "0")]
retries: i32, retries: i32,
},
/// Open the LUKS device using credentials embedded in the LUKS 2 header
#[structopt(name = "open-token")]
OpenToken {
#[structopt(flatten)] #[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 /// Generate a new FIDO credential
#[structopt(name = "credential")] #[structopt(name = "credential")]
Credential { Credential {
#[structopt(flatten)]
authenticator: AuthenticatorParameters,
/// Name to be displayed on the authenticator if it has a display /// Name to be displayed on the authenticator if it has a display
#[structopt(env = "FIDO2LUKS_CREDENTIAL_NAME")] #[structopt(env = "FIDO2LUKS_CREDENTIAL_NAME")]
name: Option<String>, name: Option<String>,
@@ -168,6 +289,45 @@ pub enum Command {
/// Check if an authenticator is connected /// Check if an authenticator is connected
#[structopt(name = "connected")] #[structopt(name = "connected")]
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 { pub fn parse_cmdline() -> Args {
@@ -177,97 +337,247 @@ pub fn parse_cmdline() -> Args {
pub fn run_cli() -> Fido2LuksResult<()> { pub fn run_cli() -> Fido2LuksResult<()> {
let mut stdout = io::stdout(); let mut stdout = io::stdout();
let args = parse_cmdline(); let args = parse_cmdline();
let interactive = args.interactive;
match &args.command { match &args.command {
Command::Credential { name } => { Command::Credential {
let cred = make_credential_id(name.as_ref().map(|n| n.as_ref()))?; 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)); println!("{}", hex::encode(&cred.id));
Ok(()) Ok(())
} }
Command::PrintSecret { Command::PrintSecret {
binary, binary,
ref secret_gen, authenticator,
credentials,
secret,
} => { } => {
let secret = secret_gen.patch(&args).obtain_secret()?; let pin_string;
if *binary { let pin = if authenticator.pin {
stdout.write(&secret[..])?; pin_string = read_pin()?;
Some(pin_string.as_ref())
} else { } 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()?) Ok(stdout.flush()?)
} }
Command::AddKey { Command::AddKey {
device, luks,
exclusive, authenticator,
keyfile, credentials,
ref secret_gen, secret,
luks_mod,
existing_secret: other_secret,
token,
..
}
| Command::ReplaceKey {
luks,
authenticator,
credentials,
secret,
luks_mod,
replacement: other_secret,
token,
..
} => { } => {
let secret = secret_gen.patch(&args).obtain_secret()?; let pin = if authenticator.pin {
let old_secret = if let Some(keyfile) = keyfile.clone() { Some(read_pin()?)
util::read_keyfile(keyfile.clone())
} else { } else {
util::read_password("Old password", false).map(|p| p.as_bytes().to_vec()) None
}?; };
let added_slot = luks::add_key(device.clone(), &secret, &old_secret[..], Some(10))?; 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)
}
};
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 { if *exclusive {
let destroyed = luks::remove_keyslots(&device, &[added_slot])?; let destroyed = luks_dev.remove_keyslots(&[added_slot])?;
println!( println!(
"Added to key to device {}, slot: {}\nRemoved {} old keys", "Added to key to device {}, slot: {}\nRemoved {} old keys",
device.display(), luks.device.display(),
added_slot, added_slot,
destroyed destroyed
); );
} else { } else {
println!( println!(
"Added to key to device {}, slot: {}", "Added to key to device {}, slot: {}",
device.display(), luks.device.display(),
added_slot added_slot
); );
} }
Ok(()) Ok(())
} }
Command::ReplaceKey { Command::ReplaceKey { add_password, .. } => {
device, let (existing_secret, _) = secret(false)?;
add_password, let (replacement_secret, cred) = other_secret("Replacement password", true)?;
keyfile,
ref secret_gen,
} => {
let secret = secret_gen.patch(&args).obtain_secret()?;
let new_secret = if let Some(keyfile) = keyfile.clone() {
util::read_keyfile(keyfile.clone())
} else {
util::read_password("Password to add", *add_password).map(|p| p.as_bytes().to_vec())
}?;
let slot = if *add_password { let slot = if *add_password {
luks::add_key(device, &new_secret[..], &secret, None) luks_dev.add_key(
&replacement_secret[..],
&existing_secret,
luks_mod.kdf_time,
cred.as_ref().filter(|_| *token).map(|cred| &cred.id[..]),
)
} else { } else {
luks::replace_key(device, &new_secret[..], &secret, Some(5)) luks_dev.replace_key(
&replacement_secret[..],
&existing_secret,
luks_mod.kdf_time,
cred.as_ref().filter(|_| *token).map(|cred| &cred.id[..]),
)
}?; }?;
println!( println!(
"Added to password to device {}, slot: {}", "Added to password to device {}, slot: {}",
device.display(), luks.device.display(),
slot slot
); );
Ok(()) Ok(())
} }
_ => unreachable!(),
}
}
Command::Open { Command::Open {
device, luks,
authenticator,
secret,
name,
retries,
..
}
| Command::OpenToken {
luks,
authenticator,
secret,
name, name,
retries, 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 retries = *retries;
let mut luks_dev = LuksDevice::load(&luks.device)?;
loop { loop {
let secret = secret_gen.patch(&args).obtain_secret()?; let secret = match &args.command {
match luks::open_container(&device, &name, &secret) { Command::Open { credentials, .. } => secret(Cow::Borrowed(&credentials.ids.0))
Err(e) => match e { .and_then(|(secret, _cred)| luks_dev.activate(&name, &secret, luks.slot)),
Fido2LuksError::WrongSecret if retries > 0 => { 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),
}
retries -= 1; retries -= 1;
eprintln!("{}", e); eprintln!("{}", e);
continue;
} }
e => Err(e)?, res => break res.map(|_| ()),
},
res => break res,
} }
} }
} }
@@ -278,5 +588,129 @@ pub fn run_cli() -> Fido2LuksResult<()> {
} }
_ => exit(1), _ => 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 { impl From<&str> for InputSalt {
fn from(s: &str) -> Self { fn from(s: &str) -> Self {
let mut parts = s.split(":").into_iter(); let mut parts = s.split(':');
match parts.next() { match parts.next() {
Some("ask") | Some("Ask") => InputSalt::AskPassword, Some("ask") | Some("Ask") => InputSalt::AskPassword,
Some("file") => InputSalt::File { Some("file") => InputSalt::File {
@@ -84,9 +84,10 @@ impl InputSalt {
} }
} }
#[derive(Debug, Clone)] #[derive(Debug, Clone, PartialEq, Eq)]
pub enum PasswordHelper { pub enum PasswordHelper {
Script(String), Script(String),
#[allow(dead_code)]
Systemd, Systemd,
Stdin, Stdin,
} }
@@ -134,7 +135,7 @@ impl PasswordHelper {
Systemd => unimplemented!(), Systemd => unimplemented!(),
Stdin => Ok(util::read_password("Password", true)?), Stdin => Ok(util::read_password("Password", true)?),
Script(password_helper) => { 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()) let password = Command::new((&mut helper_parts).next().unwrap())
.args(helper_parts) .args(helper_parts)

126
src/device.rs
View File

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

44
src/error.rs
View File

@@ -13,11 +13,13 @@ pub enum Fido2LuksError {
AuthenticatorError { cause: ctap::FidoError }, AuthenticatorError { cause: ctap::FidoError },
#[fail(display = "no authenticator found, please ensure your device is plugged in")] #[fail(display = "no authenticator found, please ensure your device is plugged in")]
NoAuthenticatorError, NoAuthenticatorError,
#[fail(display = "luks err")] #[fail(display = " {}", cause)]
LuksError { CryptsetupError {
cause: libcryptsetup_rs::LibcryptErr, cause: libcryptsetup_rs::LibcryptErr,
}, },
#[fail(display = "no authenticator found, please ensure your device is plugged in")] #[fail(display = "{}", cause)]
LuksError { cause: LuksError },
#[fail(display = "{}", cause)]
IoError { cause: io::Error }, IoError { cause: io::Error },
#[fail(display = "supplied secret isn't valid for this device")] #[fail(display = "supplied secret isn't valid for this device")]
WrongSecret, WrongSecret,
@@ -46,7 +48,41 @@ pub enum AskPassError {
Mismatch, 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 libcryptsetup_rs::LibcryptErr;
use std::io::ErrorKind;
use std::string::FromUtf8Error; use std::string::FromUtf8Error;
use Fido2LuksError::*; use Fido2LuksError::*;
@@ -62,7 +98,7 @@ impl From<LibcryptErr> for Fido2LuksError {
LibcryptErr::IOError(e) if e.raw_os_error().iter().any(|code| code == &1i32) => { LibcryptErr::IOError(e) if e.raw_os_error().iter().any(|code| code == &1i32) => {
WrongSecret WrongSecret
} }
_ => LuksError { cause: e }, _ => CryptsetupError { cause: e },
} }
} }
} }

338
src/luks.rs
View File

@@ -1,85 +1,327 @@
use crate::error::*; use crate::error::*;
use libcryptsetup_rs::{CryptActivateFlags, CryptDevice, CryptInit, EncryptionFormat, KeyslotInfo}; use libcryptsetup_rs::{
CryptActivateFlags, CryptDevice, CryptInit, CryptTokenInfo, EncryptionFormat, KeyslotInfo,
TokenInput,
};
use std::collections::{HashMap, HashSet};
use std::path::Path; use std::path::Path;
fn load_device_handle<P: AsRef<Path>>(path: P) -> Fido2LuksResult<CryptDevice> { 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())?; let mut device = CryptInit::init(path.as_ref())?;
//TODO: determine luks version some way other way than just trying device.context_handle().load::<()>(None, None)?;
let mut load = |format| device.context_handle().load::<()>(format, None).map(|_| ()); Ok(Self {
vec![EncryptionFormat::Luks2, EncryptionFormat::Luks1] device,
.into_iter() luks2: None,
.fold(None, |res, format| match res {
Some(Ok(())) => res,
Some(e) => Some(e.or(load(format))),
None => Some(load(format)),
}) })
.unwrap()?;
Ok(device)
} }
pub fn open_container<P: AsRef<Path>>(path: P, name: &str, secret: &[u8]) -> Fido2LuksResult<()> { pub fn is_luks2(&mut self) -> Fido2LuksResult<bool> {
let mut device = load_device_handle(path)?; if let Some(luks2) = self.luks2 {
device Ok(luks2)
.activate_handle() } else {
.activate_by_passphrase(Some(name), None, secret, CryptActivateFlags::empty()) self.luks2 = Some(match self.device.format_handle().get_type()? {
.map(|_slot| ()) EncryptionFormat::Luks2 => true,
.map_err(|_e| Fido2LuksError::WrongSecret) _ => false,
});
self.is_luks2()
}
} }
pub fn add_key<P: AsRef<Path>>( fn require_luks2(&mut self) -> Fido2LuksResult<()> {
path: P, 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], secret: &[u8],
old_secret: &[u8], old_secret: &[u8],
iteration_time: Option<u64>, iteration_time: Option<u64>,
credential_id: Option<&[u8]>,
) -> Fido2LuksResult<u32> { ) -> Fido2LuksResult<u32> {
let mut device = load_device_handle(path)?;
// Set iteration time not sure wether this applies to luks2 as well
if let Some(millis) = iteration_time { if let Some(millis) = iteration_time {
device.settings_handle().set_iteration_time(millis) self.device.settings_handle().set_iteration_time(millis)
} }
let slot = device let slot = self
.keyslot_handle(None) .device
.add_by_passphrase(old_secret, secret)?; .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) Ok(slot)
} }
pub fn remove_keyslots<P: AsRef<Path>>(path: P, exclude: &[u32]) -> Fido2LuksResult<u32> { pub fn remove_keyslots(&mut self, exclude: &[u32]) -> Fido2LuksResult<u32> {
let mut device = load_device_handle(path)?;
let mut slot = 0;
let mut handle;
let mut destroyed = 0; let mut destroyed = 0;
loop { let mut tokens = Vec::new();
handle = device.keyslot_handle(Some(slot)); for slot in 0..256 {
match handle.status()? { match self.device.keyslot_handle().status(slot)? {
KeyslotInfo::Inactive => continue, KeyslotInfo::Inactive => continue,
KeyslotInfo::Active if !exclude.contains(&slot) => { KeyslotInfo::Active | KeyslotInfo::ActiveLast if !exclude.contains(&slot) => {
handle.destroy()?; if self.is_luks2()? {
if let Some((id, _token)) = self.find_token(slot)? {
tokens.push(id);
}
}
self.device.keyslot_handle().destroy(slot)?;
destroyed += 1; destroyed += 1;
} }
_ => (),
}
match handle.status()? {
KeyslotInfo::ActiveLast => break, KeyslotInfo::ActiveLast => break,
_ => (), _ => (),
} }
slot += 1; 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) Ok(destroyed)
} }
pub fn replace_key<P: AsRef<Path>>( pub fn replace_key(
path: P, &mut self,
secret: &[u8], secret: &[u8],
old_secret: &[u8], old_secret: &[u8],
iteration_time: Option<u64>, iteration_time: Option<u64>,
credential_id: Option<&[u8]>,
) -> Fido2LuksResult<u32> { ) -> Fido2LuksResult<u32> {
let mut device = load_device_handle(path)?;
// Set iteration time not sure wether this applies to luks2 as well
if let Some(millis) = iteration_time { if let Some(millis) = iteration_time {
device.settings_handle().set_iteration_time(millis) 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(),
}
} }
Ok(device
.keyslot_handle(None)
.change_by_passphrase(None, None, old_secret, secret)? as u32)
} }

23
src/main.rs
View File

@@ -1,6 +1,8 @@
#[macro_use] #[macro_use]
extern crate failure; extern crate failure;
extern crate ctap_hmac as ctap; extern crate ctap_hmac as ctap;
#[macro_use]
extern crate serde_derive;
use crate::cli::*; use crate::cli::*;
use crate::config::*; use crate::config::*;
use crate::device::*; use crate::device::*;
@@ -16,10 +18,6 @@ mod error;
mod luks; mod luks;
mod util; mod util;
fn assemble_secret(hmac_result: &[u8], salt: &[u8]) -> [u8; 32] {
util::sha256(&[salt, hmac_result])
}
fn main() -> Fido2LuksResult<()> { fn main() -> Fido2LuksResult<()> {
match run_cli() { match run_cli() {
Err(e) => { Err(e) => {
@@ -32,20 +30,3 @@ fn main() -> Fido2LuksResult<()> {
_ => exit(0), _ => 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
]
)
}
}

0
src/setup.rs
View File

8
src/util.rs
View File

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