;
type NitroFunc = Fn(&mut libhid::Handle) -> Result<()>;
const SEND_TRY_COUNT: i8 = 3;
const RECV_TRY_COUNT: i8 = 40;
const SEND_RECV_DELAY_MS: u64 = 200;
/// Send a HID feature report to the device represented by the given handle.
fn send(handle: &mut libhid::Handle, report: &nitrokey::Report
) -> Result<()>
where P: AsRef<[u8]>,
{
let mut retry = SEND_TRY_COUNT;
loop {
let result = handle.feature().send_to(0, report.as_ref());
retry -= 1;
match result {
Ok(_) => {
return Ok(());
},
Err(err) => {
if retry > 0 {
thread::sleep(time::Duration::from_millis(SEND_RECV_DELAY_MS));
continue;
} else {
return Err(Error::HidError(err));
}
},
}
}
}
/// Receive a HID feature report from the device represented by the given handle.
fn receive
(handle: &mut libhid::Handle) -> Result>
where P: AsRef<[u8]> + Default,
{
let mut retry = RECV_TRY_COUNT;
loop {
let mut report = nitrokey::Report::::new();
let result = handle.feature().get_from(0, report.as_mut());
retry -= 1;
match result {
Ok(size) => {
if size < mem::size_of_val(&report) {
if retry > 0 {
continue;
} else {
return Err(Error::Error("Failed to receive complete report".to_string()));
}
}
if !report.is_valid() {
if retry > 0 {
continue;
} else {
return Err(Error::Error("Failed to receive report: CRC mismatch".to_string()));
}
}
return Ok(report);
},
Err(err) => {
if retry > 0 {
thread::sleep(time::Duration::from_millis(SEND_RECV_DELAY_MS));
continue;
} else {
return Err(Error::HidError(err));
}
},
}
}
}
/// Transmit a HID feature report to the nitrokey and receive a response.
fn transmit(handle: &mut libhid::Handle,
report: &nitrokey::Report)
-> Result>
where PS: AsRef<[u8]>,
PR: AsRef<[u8]> + Default,
{
send(handle, &report)?;
// We need to give the stick some time to handle the command. If we
// don't, we might just receive stale data from before.
thread::sleep(time::Duration::from_millis(SEND_RECV_DELAY_MS));
return receive::(handle);
}
/// Find and open the nitrokey device and execute a function on it.
fn nitrokey_do(function: &NitroFunc) -> Result<()> {
let hid = libhid::init()?;
// The Manager::find method is plain stupid as it still returns an
// iterable. Using it does not help in more concise error handling.
for device in hid.devices() {
if device.vendor_id() == nitrokey::VID && device.product_id() == nitrokey::PID {
return function(&mut device.open()?);
}
}
return Err(Error::Error("Nitrokey device not found".to_string()));
}
/// Pretty print the response of a status command.
fn print_status(response: &nitrokey::DeviceStatusResponse) {
println!("Status:");
// We omit displaying information about the smartcard here as this
// program really is only about the SD card portion of the device.
println!(" SD card ID: {:#x}", response.active_sdcard_id);
println!(" firmware version: {}.{}",
response.version_major,
response.version_minor);
println!(" firmware: {}",
if response.firmware_locked != 0 {
"locked".to_string()
} else {
"unlocked".to_string()
});
println!(" storage keys: {}",
if response.storage_keys_missing == 0 {
"created".to_string()
} else {
"not created".to_string()
});
println!(" user retry count: {}",
response.user_password_retry_count);
println!(" admin retry count: {}",
response.admin_password_retry_count);
println!(" volumes:");
println!(" unencrypted: {}",
if response.volume_active & nitrokey::VOLUME_ACTIVE_UNENCRYPTED == 0 {
"inactive"
} else if response.unencrypted_volume_read_only != 0 {
"read-only"
} else {
"active"
});
println!(" encrypted: {}",
if response.volume_active & nitrokey::VOLUME_ACTIVE_ENCRYPTED == 0 {
"inactive"
} else if response.encrypted_volume_read_only != 0 {
"read-only"
} else {
"active"
});
println!(" hidden: {}",
if response.volume_active & nitrokey::VOLUME_ACTIVE_HIDDEN == 0 {
"inactive"
} else if response.hidden_volume_read_only != 0 {
"read-only"
} else {
"active"
});
}
/// Inquire the status of the nitrokey.
fn status() -> Result<()> {
type Response = nitrokey::Response;
return nitrokey_do(&|handle| {
let payload = nitrokey::DeviceStatusCommand::new();
let report = nitrokey::Report::from(payload);
let report = transmit::<_, nitrokey::EmptyPayload>(handle, &report)?;
let response = &AsRef::::as_ref(&report.data).data;
// TODO: We should probably check the success of the command as
// well.
if response.magic != nitrokey::MAGIC_NUMBER_STICK20_CONFIG {
let error = format!("Status response contains invalid magic: {:#x} \
(expected: {:#x})",
response.magic,
nitrokey::MAGIC_NUMBER_STICK20_CONFIG);
return Err(Error::Error(error.to_string()));
}
print_status(response);
return Ok(());
});
}
/// Poll the nitrokey until it reports to no longer be busy.
fn wait(handle: &mut libhid::Handle) -> Result {
type Response = nitrokey::Response;
loop {
thread::sleep(time::Duration::from_millis(SEND_RECV_DELAY_MS));
let report = receive::(handle)?;
let response = AsRef::::as_ref(&report.data);
let status = response.data.storage_status;
if status != nitrokey::StorageStatus::Busy &&
status != nitrokey::StorageStatus::BusyProgressbar {
return Ok(status);
}
}
}
/// Open the encrypted volume on the nitrokey.
fn open() -> Result<()> {
type Response = nitrokey::Response;
return nitrokey_do(&|handle| {
let mut retry = 3;
loop {
let passphrase = pinentry::inquire_passphrase()?;
let payload = nitrokey::EnableEncryptedVolumeCommand::new(&passphrase);
let report = nitrokey::Report::from(payload);
let report = transmit::<_, nitrokey::EmptyPayload>(handle, &report)?;
let response = AsRef::::as_ref(&report.data);
let mut status = response.data.storage_status;
if status == nitrokey::StorageStatus::WrongPassword {
pinentry::clear_passphrase()?;
retry -= 1;
if retry > 0 {
println!("Wrong password, please reenter");
continue;
}
let error = "Opening encrypted volume failed: Wrong password";
return Err(Error::Error(error.to_string()));
}
if status == nitrokey::StorageStatus::Busy ||
status == nitrokey::StorageStatus::BusyProgressbar {
status = wait(handle)?;
}
if status != nitrokey::StorageStatus::Okay && status != nitrokey::StorageStatus::Idle {
let status = format!("{:?}", status);
let error = format!("Opening encrypted volume failed: {}", status);
return Err(Error::Error(error));
}
return Ok(());
}
});
}
#[link(name = "c")]
extern "C" {
fn sync();
}
/// Close the previously opened encrypted volume.
fn close() -> Result<()> {
type Response = nitrokey::Response;
return nitrokey_do(&|handle| {
// Flush all filesystem caches to disk. We are mostly interested in
// making sure that the encrypted volume on the nitrokey we are
// about to close is not closed while not all data was written to
// it.
unsafe { sync() };
let payload = nitrokey::DisableEncryptedVolumeCommand::new();
let report = nitrokey::Report::from(payload);
let report = transmit::<_, nitrokey::EmptyPayload>(handle, &report)?;
let response = AsRef::::as_ref(&report.data);
let mut status = response.data.storage_status;
if status == nitrokey::StorageStatus::Busy ||
status == nitrokey::StorageStatus::BusyProgressbar {
status = wait(handle)?;
}
if status != nitrokey::StorageStatus::Okay && status != nitrokey::StorageStatus::Idle {
let status = format!("{:?}", status);
let error = format!("Closing encrypted volume failed: {}", status);
return Err(Error::Error(error));
}
return Ok(());
});
}
/// Clear the PIN stored when opening the nitrokey's encrypted volume.
fn clear() -> Result<()> {
return pinentry::clear_passphrase();
}
// A macro for generating a match of the different supported commands.
// Each supplied command is converted into a string and matched against.
macro_rules! commands {
( $str:expr, [ $( $command:expr), *] ) => {
match &*$str.to_string() {
$(
stringify!($command) => {
if let Err(err) = $command() {
println!("{}", err);
return 1
}
return 0
},
)*
x => {
println!("Invalid command: {}", x);
println!("Available commands: {}", stringify!( $($command)* ));
return 1
},
}
}
}
fn run() -> i32 {
let argv: Vec = std::env::args().collect();
if argv.len() != 2 {
println!("Usage: {} ", argv[0]);
return 1;
}
commands!(&argv[1], [status, open, close, clear]);
}
fn main() {
process::exit(run());
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn wrong_crc() {
type Response = nitrokey::Response;
nitrokey_do(&|handle| {
let payload = nitrokey::DeviceStatusCommand::new();
let mut report = nitrokey::Report::from(payload);
// We want to verify that we get the correct result (i.e., a
// report of the CRC mismatch) repeatedly.
for _ in 0..10 {
report.crc += 1;
let new_report = transmit::<_, nitrokey::EmptyPayload>(handle, &report)?;
let response = AsRef::::as_ref(&new_report.data);
assert_eq!(response.command, nitrokey::Command::GetDeviceStatus);
assert_eq!(response.command_crc, report.crc);
assert_eq!(response.command_status, nitrokey::CommandStatus::WrongCrc);
}
return Ok(());
})
.unwrap();
}
#[test]
fn device_status() {
type Response = nitrokey::Response;
nitrokey_do(&|handle| {
let payload = nitrokey::DeviceStatusCommand::new();
let report = nitrokey::Report::from(payload);
let report = transmit::<_, nitrokey::EmptyPayload>(handle, &report)?;
let response = AsRef::::as_ref(&report.data);
assert!(response.device_status == nitrokey::StorageStatus::Idle ||
response.device_status == nitrokey::StorageStatus::Okay);
assert_eq!(response.data.magic, nitrokey::MAGIC_NUMBER_STICK20_CONFIG);
return Ok(());
})
.unwrap();
}
}