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-rw-r--r--src/args.rs710
1 files changed, 96 insertions, 614 deletions
diff --git a/src/args.rs b/src/args.rs
index d25bc15..b31ed8e 100644
--- a/src/args.rs
+++ b/src/args.rs
@@ -490,34 +490,13 @@ Command! {PwsCommand, [
Status(PwsStatusArgs) => ("status", pws_status),
]}
-fn parse(
- ctx: &mut impl Stdio,
- parser: argparse::ArgumentParser<'_>,
- args: Vec<String>,
-) -> Result<()> {
- let (stdout, stderr) = ctx.stdio();
- let result = parser
- .parse(args, stdout, stderr)
- .map_err(Error::ArgparseError);
- drop(parser);
- result
-}
-
/// Inquire the status of the Nitrokey.
-fn status(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Prints the status of the connected Nitrokey device");
- parse(ctx, parser, args)?;
-
+fn status(ctx: &mut ExecCtx<'_>, _args: StatusArgs) -> Result<()> {
commands::status(ctx)
}
/// Perform a factory reset.
-fn reset(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Performs a factory reset");
- parse(ctx, parser, args)?;
-
+fn reset(ctx: &mut ExecCtx<'_>, _args: ResetArgs) -> Result<()> {
commands::reset(ctx)
}
@@ -531,46 +510,13 @@ Enum! {UnencryptedVolumeMode, [
]}
/// Execute an unencrypted subcommand.
-fn unencrypted(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = UnencryptedCommand::Set(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Interacts with the device's unencrypted volume");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(
- 0,
- format!("{} {} {}", crate::NITROCLI, "unencrypted", subcommand,),
- );
- subcommand.execute(ctx, subargs)
+fn unencrypted(ctx: &mut ExecCtx<'_>, args: UnencryptedArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Change the configuration of the unencrypted volume.
-fn unencrypted_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut mode = UnencryptedVolumeMode::ReadWrite;
- let help = format!("The mode to change to ({})", fmt_enum!(mode));
- let mut parser = argparse::ArgumentParser::new();
- parser
- .set_description("Changes the configuration of the unencrypted volume on a Nitrokey Storage");
- let _ = parser
- .refer(&mut mode)
- .required()
- .add_argument("type", argparse::Store, &help);
- parse(ctx, parser, args)?;
-
- commands::unencrypted_set(ctx, mode)
+fn unencrypted_set(ctx: &mut ExecCtx<'_>, args: UnencryptedSetArgs) -> Result<()> {
+ commands::unencrypted_set(ctx, args.mode)
}
Command! {EncryptedCommand, [
@@ -579,47 +525,17 @@ Command! {EncryptedCommand, [
]}
/// Execute an encrypted subcommand.
-fn encrypted(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = EncryptedCommand::Open(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Interacts with the device's encrypted volume");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(
- 0,
- format!("{} {} {}", crate::NITROCLI, "encrypted", subcommand),
- );
- subcommand.execute(ctx, subargs)
+fn encrypted(ctx: &mut ExecCtx<'_>, args: EncryptedArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Open the encrypted volume on the Nitrokey.
-fn encrypted_open(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Opens the encrypted volume on a Nitrokey Storage");
- parse(ctx, parser, args)?;
-
+fn encrypted_open(ctx: &mut ExecCtx<'_>, _args: EncryptedOpenArgs) -> Result<()> {
commands::encrypted_open(ctx)
}
/// Close the previously opened encrypted volume.
-fn encrypted_close(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Closes the encrypted volume on a Nitrokey Storage");
- parse(ctx, parser, args)?;
-
+fn encrypted_close(ctx: &mut ExecCtx<'_>, _args: EncryptedCloseArgs) -> Result<()> {
commands::encrypted_close(ctx)
}
@@ -630,172 +546,40 @@ Command! {HiddenCommand, [
]}
/// Execute a hidden subcommand.
-fn hidden(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = HiddenCommand::Open(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Interacts with the device's hidden volume");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(
- 0,
- format!("{} {} {}", crate::NITROCLI, "hidden", subcommand),
- );
- subcommand.execute(ctx, subargs)
+fn hidden(ctx: &mut ExecCtx<'_>, args: HiddenArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
-fn hidden_create(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut start: u8 = 0;
- let mut end: u8 = 0;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Creates a hidden volume on a Nitrokey Storage");
- let _ = parser.refer(&mut slot).required().add_argument(
- "slot",
- argparse::Store,
- "The hidden volume slot to use",
- );
- let _ = parser.refer(&mut start).required().add_argument(
- "start",
- argparse::Store,
- "The start location of the hidden volume as percentage of the \
- encrypted volume's size (0-99)",
- );
- let _ = parser.refer(&mut end).required().add_argument(
- "end",
- argparse::Store,
- "The end location of the hidden volume as percentage of the \
- encrypted volume's size (1-100)",
- );
- parse(ctx, parser, args)?;
-
- commands::hidden_create(ctx, slot, start, end)
+fn hidden_create(ctx: &mut ExecCtx<'_>, args: HiddenCreateArgs) -> Result<()> {
+ commands::hidden_create(ctx, args.slot, args.start, args.end)
}
-fn hidden_open(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Opens a hidden volume on a Nitrokey Storage");
- parse(ctx, parser, args)?;
-
+fn hidden_open(ctx: &mut ExecCtx<'_>, _args: HiddenOpenArgs) -> Result<()> {
commands::hidden_open(ctx)
}
-fn hidden_close(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Closes the hidden volume on a Nitrokey Storage");
- parse(ctx, parser, args)?;
-
+fn hidden_close(ctx: &mut ExecCtx<'_>, _args: HiddenCloseArgs) -> Result<()> {
commands::hidden_close(ctx)
}
/// Execute a config subcommand.
-fn config(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = ConfigCommand::Get(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Reads or writes the device configuration");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(
- 0,
- format!("{} {} {}", crate::NITROCLI, "config", subcommand),
- );
- subcommand.execute(ctx, subargs)
+fn config(ctx: &mut ExecCtx<'_>, args: ConfigArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Read the Nitrokey configuration.
-fn config_get(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Prints the Nitrokey configuration");
- parse(ctx, parser, args)?;
-
+fn config_get(ctx: &mut ExecCtx<'_>, _args: ConfigGetArgs) -> Result<()> {
commands::config_get(ctx)
}
/// Write the Nitrokey configuration.
-fn config_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut numlock = None;
- let mut no_numlock = false;
- let mut capslock = None;
- let mut no_capslock = false;
- let mut scrollock = None;
- let mut no_scrollock = false;
- let mut otp_pin = false;
- let mut no_otp_pin = false;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Changes the Nitrokey configuration");
- let _ = parser.refer(&mut numlock).add_option(
- &["-n", "--numlock"],
- argparse::StoreOption,
- "Set the numlock option to the given HOTP slot",
- );
- let _ = parser.refer(&mut no_numlock).add_option(
- &["-N", "--no-numlock"],
- argparse::StoreTrue,
- "Unset the numlock option",
- );
- let _ = parser.refer(&mut capslock).add_option(
- &["-c", "--capslock"],
- argparse::StoreOption,
- "Set the capslock option to the given HOTP slot",
- );
- let _ = parser.refer(&mut no_capslock).add_option(
- &["-C", "--no-capslock"],
- argparse::StoreTrue,
- "Unset the capslock option",
- );
- let _ = parser.refer(&mut scrollock).add_option(
- &["-s", "--scrollock"],
- argparse::StoreOption,
- "Set the scrollock option to the given HOTP slot",
- );
- let _ = parser.refer(&mut no_scrollock).add_option(
- &["-S", "--no-scrollock"],
- argparse::StoreTrue,
- "Unset the scrollock option",
- );
- let _ = parser.refer(&mut otp_pin).add_option(
- &["-o", "--otp-pin"],
- argparse::StoreTrue,
- "Require the user PIN to generate one-time passwords",
- );
- let _ = parser.refer(&mut no_otp_pin).add_option(
- &["-O", "--no-otp-pin"],
- argparse::StoreTrue,
- "Allow one-time password generation without PIN",
- );
- parse(ctx, parser, args)?;
-
- let numlock = ConfigOption::try_from(no_numlock, numlock, "numlock")?;
- let capslock = ConfigOption::try_from(no_capslock, capslock, "capslock")?;
- let scrollock = ConfigOption::try_from(no_scrollock, scrollock, "scrollock")?;
- let otp_pin = if otp_pin {
+fn config_set(ctx: &mut ExecCtx<'_>, args: ConfigSetArgs) -> Result<()> {
+ let numlock = ConfigOption::try_from(args.no_numlock, args.numlock, "numlock")?;
+ let capslock = ConfigOption::try_from(args.no_capslock, args.capslock, "capslock")?;
+ let scrollock = ConfigOption::try_from(args.no_scrollock, args.scrollock, "scrollock")?;
+ let otp_pin = if args.otp_pin {
Some(true)
- } else if no_otp_pin {
+ } else if args.no_otp_pin {
Some(false)
} else {
None
@@ -804,431 +588,129 @@ fn config_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
}
/// Lock the Nitrokey.
-fn lock(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Locks the connected Nitrokey device");
- parse(ctx, parser, args)?;
-
+fn lock(ctx: &mut ExecCtx<'_>, _args: LockArgs) -> Result<()> {
commands::lock(ctx)
}
/// Execute an OTP subcommand.
-fn otp(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = OtpCommand::Get(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Accesses one-time passwords");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(0, format!("{} {} {}", crate::NITROCLI, "otp", subcommand));
- subcommand.execute(ctx, subargs)
+fn otp(ctx: &mut ExecCtx<'_>, args: OtpArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Generate a one-time password on the Nitrokey device.
-fn otp_get(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut algorithm = OtpAlgorithm::Totp;
- let help = format!(
- "The OTP algorithm to use ({}, default: {})",
- fmt_enum!(algorithm),
- algorithm
- );
- let mut time: Option<u64> = None;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Generates a one-time password");
- let _ =
- parser
- .refer(&mut slot)
- .required()
- .add_argument("slot", argparse::Store, "The OTP slot to use");
- let _ = parser
- .refer(&mut algorithm)
- .add_option(&["-a", "--algorithm"], argparse::Store, &help);
- let _ = parser.refer(&mut time).add_option(
- &["-t", "--time"],
- argparse::StoreOption,
- "The time to use for TOTP generation (Unix timestamp, default: system time)",
- );
- parse(ctx, parser, args)?;
-
- commands::otp_get(ctx, slot, algorithm, time)
+fn otp_get(ctx: &mut ExecCtx<'_>, args: OtpGetArgs) -> Result<()> {
+ commands::otp_get(ctx, args.slot, args.algorithm, args.time)
}
/// Configure a one-time password slot on the Nitrokey device.
-pub fn otp_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut algorithm = OtpAlgorithm::Totp;
- let algo_help = format!(
- "The OTP algorithm to use ({}, default: {})",
- fmt_enum!(algorithm),
- algorithm
- );
- let mut name = "".to_owned();
- let mut secret = "".to_owned();
- let mut digits = OtpMode::SixDigits;
- let mut counter: u64 = 0;
- let mut time_window: u16 = 30;
- let mut secret_format = OtpSecretFormat::Hex;
- let fmt_help = format!(
- "The format of the secret ({}, default: {})",
- fmt_enum!(OtpSecretFormat::all_variants()),
- secret_format,
- );
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Configures a one-time password slot");
- let _ =
- parser
- .refer(&mut slot)
- .required()
- .add_argument("slot", argparse::Store, "The OTP slot to use");
- let _ =
- parser
- .refer(&mut algorithm)
- .add_option(&["-a", "--algorithm"], argparse::Store, &algo_help);
- let _ = parser.refer(&mut name).required().add_argument(
- "name",
- argparse::Store,
- "The name of the slot",
- );
- let _ = parser.refer(&mut secret).required().add_argument(
- "secret",
- argparse::Store,
- "The secret to store on the slot as a hexadecimal string (unless overwritten by --format)",
- );
- let _ = parser.refer(&mut digits).add_option(
- &["-d", "--digits"],
- argparse::Store,
- "The number of digits to use for the one-time password (6 or 8, default: 6)",
- );
- let _ = parser.refer(&mut counter).add_option(
- &["-c", "--counter"],
- argparse::Store,
- "The counter value for HOTP (default: 0)",
- );
- let _ = parser.refer(&mut time_window).add_option(
- &["-t", "--time-window"],
- argparse::Store,
- "The time window for TOTP (default: 30)",
- );
- let _ =
- parser
- .refer(&mut secret_format)
- .add_option(&["-f", "--format"], argparse::Store, &fmt_help);
- parse(ctx, parser, args)?;
-
+pub fn otp_set(ctx: &mut ExecCtx<'_>, args: OtpSetArgs) -> Result<()> {
let data = nitrokey::OtpSlotData {
- number: slot,
- name,
- secret,
- mode: nitrokey::OtpMode::from(digits),
+ number: args.slot,
+ name: args.name,
+ secret: args.secret,
+ mode: args.digits.into(),
use_enter: false,
token_id: None,
};
- commands::otp_set(ctx, data, algorithm, counter, time_window, secret_format)
+ commands::otp_set(
+ ctx,
+ data,
+ args.algorithm,
+ args.counter,
+ args.time_window,
+ args.format,
+ )
}
/// Clear an OTP slot.
-fn otp_clear(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut algorithm = OtpAlgorithm::Totp;
- let help = format!(
- "The OTP algorithm to use ({}, default: {})",
- fmt_enum!(algorithm),
- algorithm
- );
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Clears a one-time password slot");
- let _ = parser.refer(&mut slot).required().add_argument(
- "slot",
- argparse::Store,
- "The OTP slot to clear",
- );
- let _ = parser
- .refer(&mut algorithm)
- .add_option(&["-a", "--algorithm"], argparse::Store, &help);
- parse(ctx, parser, args)?;
-
- commands::otp_clear(ctx, slot, algorithm)
+fn otp_clear(ctx: &mut ExecCtx<'_>, args: OtpClearArgs) -> Result<()> {
+ commands::otp_clear(ctx, args.slot, args.algorithm)
}
/// Print the status of the OTP slots.
-fn otp_status(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut all = false;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Prints the status of the OTP slots");
- let _ = parser.refer(&mut all).add_option(
- &["-a", "--all"],
- argparse::StoreTrue,
- "Show slots that are not programmed",
- );
- parse(ctx, parser, args)?;
-
- commands::otp_status(ctx, all)
+fn otp_status(ctx: &mut ExecCtx<'_>, args: OtpStatusArgs) -> Result<()> {
+ commands::otp_status(ctx, args.all)
}
/// Execute a PIN subcommand.
-fn pin(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = PinCommand::Clear(Default::default());
- let help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Manages the Nitrokey PINs");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(0, format!("{} {} {}", crate::NITROCLI, "pin", subcommand));
- subcommand.execute(ctx, subargs)
+fn pin(ctx: &mut ExecCtx<'_>, args: PinArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Clear the PIN as cached by various other commands.
-fn pin_clear(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Clears the cached PINs");
- parse(ctx, parser, args)?;
-
+fn pin_clear(ctx: &mut ExecCtx<'_>, _args: PinClearArgs) -> Result<()> {
commands::pin_clear(ctx)
}
/// Change a PIN.
-fn pin_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut pintype = pinentry::PinType::User;
- let help = format!("The PIN type to change ({})", fmt_enum!(pintype));
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Changes a PIN");
- let _ = parser
- .refer(&mut pintype)
- .required()
- .add_argument("type", argparse::Store, &help);
- parse(ctx, parser, args)?;
-
- commands::pin_set(ctx, pintype)
+fn pin_set(ctx: &mut ExecCtx<'_>, args: PinSetArgs) -> Result<()> {
+ commands::pin_set(ctx, args.pintype)
}
/// Unblock and reset the user PIN.
-fn pin_unblock(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Unblocks and resets the user PIN");
- parse(ctx, parser, args)?;
-
+fn pin_unblock(ctx: &mut ExecCtx<'_>, _args: PinUnblockArgs) -> Result<()> {
commands::pin_unblock(ctx)
}
/// Execute a PWS subcommand.
-fn pws(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut subcommand = PwsCommand::Get(Default::default());
- let mut subargs = vec![];
- let help = "".to_string();
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Accesses the password safe");
- let _ =
- parser
- .refer(&mut subcommand)
- .required()
- .add_argument("subcommand", argparse::Store, &help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the subcommand",
- );
- parser.stop_on_first_argument(true);
- parse(ctx, parser, args)?;
-
- subargs.insert(0, format!("{} {} {}", crate::NITROCLI, "pws", subcommand));
- subcommand.execute(ctx, subargs)
+fn pws(ctx: &mut ExecCtx<'_>, args: PwsArgs) -> Result<()> {
+ args.subcmd.execute(ctx)
}
/// Access a slot of the password safe on the Nitrokey.
-fn pws_get(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut name = false;
- let mut login = false;
- let mut password = false;
- let mut quiet = false;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Reads a password safe slot");
- let _ = parser.refer(&mut slot).required().add_argument(
- "slot",
- argparse::Store,
- "The PWS slot to read",
- );
- let _ = parser.refer(&mut name).add_option(
- &["-n", "--name"],
- argparse::StoreTrue,
- "Show the name stored on the slot",
- );
- let _ = parser.refer(&mut login).add_option(
- &["-l", "--login"],
- argparse::StoreTrue,
- "Show the login stored on the slot",
- );
- let _ = parser.refer(&mut password).add_option(
- &["-p", "--password"],
- argparse::StoreTrue,
- "Show the password stored on the slot",
- );
- let _ = parser.refer(&mut quiet).add_option(
- &["-q", "--quiet"],
- argparse::StoreTrue,
- "Print the stored data without description",
- );
- parse(ctx, parser, args)?;
-
- commands::pws_get(ctx, slot, name, login, password, quiet)
+fn pws_get(ctx: &mut ExecCtx<'_>, args: PwsGetArgs) -> Result<()> {
+ commands::pws_get(
+ ctx,
+ args.slot,
+ args.name,
+ args.login,
+ args.password,
+ args.quiet,
+ )
}
/// Set a slot of the password safe on the Nitrokey.
-fn pws_set(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut name = String::new();
- let mut login = String::new();
- let mut password = String::new();
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Writes a password safe slot");
- let _ = parser.refer(&mut slot).required().add_argument(
- "slot",
- argparse::Store,
- "The PWS slot to write",
- );
- let _ = parser.refer(&mut name).required().add_argument(
- "name",
- argparse::Store,
- "The name to store on the slot",
- );
- let _ = parser.refer(&mut login).required().add_argument(
- "login",
- argparse::Store,
- "The login to store on the slot",
- );
- let _ = parser.refer(&mut password).required().add_argument(
- "password",
- argparse::Store,
- "The password to store on the slot",
- );
- parse(ctx, parser, args)?;
-
- commands::pws_set(ctx, slot, &name, &login, &password)
+fn pws_set(ctx: &mut ExecCtx<'_>, args: PwsSetArgs) -> Result<()> {
+ commands::pws_set(ctx, args.slot, &args.name, &args.login, &args.password)
}
/// Clear a PWS slot.
-fn pws_clear(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut slot: u8 = 0;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Clears a password safe slot");
- let _ = parser.refer(&mut slot).required().add_argument(
- "slot",
- argparse::Store,
- "The PWS slot to clear",
- );
- parse(ctx, parser, args)?;
-
- commands::pws_clear(ctx, slot)
+fn pws_clear(ctx: &mut ExecCtx<'_>, args: PwsClearArgs) -> Result<()> {
+ commands::pws_clear(ctx, args.slot)
}
/// Print the status of the PWS slots.
-fn pws_status(ctx: &mut ExecCtx<'_>, args: Vec<String>) -> Result<()> {
- let mut all = false;
- let mut parser = argparse::ArgumentParser::new();
- parser.set_description("Prints the status of the PWS slots");
- let _ = parser.refer(&mut all).add_option(
- &["-a", "--all"],
- argparse::StoreTrue,
- "Show slots that are not programmed",
- );
- parse(ctx, parser, args)?;
-
- commands::pws_status(ctx, all)
+fn pws_status(ctx: &mut ExecCtx<'_>, args: PwsStatusArgs) -> Result<()> {
+ commands::pws_status(ctx, args.all)
}
/// Parse the command-line arguments and execute the selected command.
pub(crate) fn handle_arguments(ctx: &mut RunCtx<'_>, args: Vec<String>) -> Result<()> {
- use std::io::Write;
-
- let mut version = false;
- let mut model: Option<DeviceModel> = None;
- let model_help = format!(
- "Select the device model to connect to ({})",
- fmt_enum!(DeviceModel::all_variants())
- );
- let mut verbosity = 0;
- let mut command = Command::Status(Default::default());
- let cmd_help = "".to_string();
- let mut subargs = vec![];
- let mut parser = argparse::ArgumentParser::new();
- let _ = parser.refer(&mut version).add_option(
- &["-V", "--version"],
- argparse::StoreTrue,
- "Print version information and exit",
- );
- let _ = parser.refer(&mut verbosity).add_option(
- &["-v", "--verbose"],
- argparse::IncrBy::<u64>(1),
- "Increase the log level (can be supplied multiple times)",
- );
- let _ =
- parser
- .refer(&mut model)
- .add_option(&["-m", "--model"], argparse::StoreOption, &model_help);
- parser.set_description("Provides access to a Nitrokey device");
- let _ = parser
- .refer(&mut command)
- .required()
- .add_argument("command", argparse::Store, &cmd_help);
- let _ = parser.refer(&mut subargs).add_argument(
- "arguments",
- argparse::List,
- "The arguments for the command",
- );
- parser.stop_on_first_argument(true);
-
- let mut stdout_buf = BufWriter::new(ctx.stdout);
- let mut stderr_buf = BufWriter::new(ctx.stderr);
- let mut stdio_buf = (&mut stdout_buf, &mut stderr_buf);
- let result = parse(&mut stdio_buf, parser, args);
-
- if version {
- println!(ctx, "{} {}", crate::NITROCLI, env!("CARGO_PKG_VERSION"))?;
- Ok(())
- } else {
- stdout_buf.flush()?;
- stderr_buf.flush()?;
-
- result?;
- subargs.insert(0, format!("{} {}", crate::NITROCLI, command));
-
- let mut ctx = ExecCtx {
- model,
- stdout: ctx.stdout,
- stderr: ctx.stderr,
- admin_pin: ctx.admin_pin.take(),
- user_pin: ctx.user_pin.take(),
- new_admin_pin: ctx.new_admin_pin.take(),
- new_user_pin: ctx.new_user_pin.take(),
- password: ctx.password.take(),
- no_cache: ctx.no_cache,
- verbosity,
- };
- command.execute(&mut ctx, subargs)
+ use structopt::StructOpt;
+
+ match Args::from_iter_safe(args.iter()) {
+ Ok(args) => {
+ let mut ctx = ExecCtx {
+ model: args.model,
+ stdout: ctx.stdout,
+ stderr: ctx.stderr,
+ admin_pin: ctx.admin_pin.take(),
+ user_pin: ctx.user_pin.take(),
+ new_admin_pin: ctx.new_admin_pin.take(),
+ new_user_pin: ctx.new_user_pin.take(),
+ password: ctx.password.take(),
+ no_cache: ctx.no_cache,
+ verbosity: args.verbose.into(),
+ };
+ args.cmd.execute(&mut ctx)
+ }
+ Err(err) => {
+ if err.use_stderr() {
+ Err(err.into())
+ } else {
+ println!(ctx, "{}", err.message)?;
+ Ok(())
+ }
+ }
}
}