| Commit message (Collapse) | Author | Age |
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The FirmwareVersion struct stores the major and minor firmware version
of a Nitrokey device. We refactor the StorageProductionInfo and
StorageStatus structs to use this new struct.
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NK_is_AES_supported is not needed for newer firmware versions of the Pro
and Storage, see this discussion for more information:
https://github.com/Nitrokey/libnitrokey/issues/142
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Since commit 65bff57e6139cc126191d4faabbcf74118932dd2, we use the
nitrokey-test crate to select test cases. Previously, we used the
features test-pro and test-storage to select test suites. These
features are now obsolete.
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The archlinux build compiles libnitrokey from source. Now we also
verify that we can use the system libnitrokey version.
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If libnitrokey has not been built from a clone of the Git repository,
the Git version string may be empty.
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There seems to be a bug in libnitrokey or the Nitrokey Storage firmware
that causes problems when chaining factory reset and build_AES_keys
without delay (upstream issue [0]).
[0] https://github.com/Nitrokey/nitrokey-storage-firmware/issues/80
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The device::clear_new_sd_card_warning used to perform a factory reset
without building an AES key. This led to errors in tests that assume
that an AES key is present.
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The device::factory_reset test used to first change the PINs and then
access the PWS and the OTP data. If for example the PWS access failed
due to an problem with the AES key, the PINs were not reset.
Now we perform the PWS and OTP access with the old PINs – which is okay
as we do not want to test the PIN change but the factory reset. If
these preparations fail, the tests is cancelled before the PINs are
changed.
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Until the last commit, all empty strings returned by the library were
interepreted as errors. As the PWS functions return empty strings for
unprogrammed slots, the methods to access the PWS data returned an error
when querying a slot that is not programmed. Since the last commit,
they return an empty string instead.
This patch restores the old behavior by returning an error instead of an
empty string. Yet we change the error variant: SlotNotProgrammed
instead of Undefined.
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An empty string returned from a libnitrokey function can either indicate
an error or be a valid return value. Previously, we assumed that it
indicates an error. But instead, we should check the last command
status and use it to decide whether to return the empty string or an
error code.
This breaks the unit tests that assume that empty strings cause errors.
These will be fixed in the next patches.
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The rand crate comes with a slew of dependencies to cover all sort of
randomness related tasks in various scenarios. However, this crate
really only requires a tiny subset of this functionality. As it turns
out, this core functionality is provided by the rand_os crate.
This change drops the dependency to rand in favor of rand_os. In order
to accomplish that, it brings back the RngError variant for the
CommandError enum to capture the possibility of the creation of the
random number generator failing.
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The clear_new_sd_card_warning method calls the libnitrokey
NK_clear_new_sd_card_warning function to reset the corresponding flag in
the Storage status.
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The get_production_info method maps to the NK_get_production_info
function of libnitrokey. The Storage firmware supports two query modes:
with or without a write test. libnitrokey only performs the query
without write test, so the fields that are only set for the write test
are ignored in our implementation. This affects:
- user and admin retry counts
- smart card ID
- SD card size
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The export_firmware method writes the firmware of the Nitrokey Storage
to the unencrypted storage. We only test that the command succeeds as
mounting the unencrypted storage and accessing the file is out of scope
for the tests.
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We do not support old firmware versions on the Nitrokey Storage, so we
document that these outdated functions are not supported:
- NK_set_unencrypted_volume_rorw_pin_type_user
- NK_set_unencrypted_read_only
- NK_set_unencrypted_read_write
- NK_set_encrypted_read_only
- NK_set_encrypted_read_write
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The new set_unencrypted_volume_mode method sets the access mode of the
unencrypted volume on the Nitrokey Storage. Depending on the requested
access mode, it calls either NK_set_unencrypted_read_only_admin or
NK_set_unencrypted_read_write_admin.
Note that this function requires firmware version 0.51 or later.
(Earlier firmware versions used the user PIN.)
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The VolumeMode enum will be used when setting the access mode for the
unencrypted volume. It can also be used when refactoring the
VolumeStatus enum in a future release.
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The update PIN is only used in the Storage tests, so it is moved from
the common tests/util module to the tests/device module. This fixes
compiler warnings when compiling the other test modules.
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This patch adds the wink method to the Storage struct that lets the
Nitrokey device blink until reconnected. We do not test this method as
it does not change the state that we can observe.
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This patch adds the get_library_version function to the main library
module that queries and returns the libnitrokey version. As the version
fields are static values, we fetch them all at the same time and do not
provide getters for the individual fields.
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Previously the totp_error test case in the otp test suite called hotp
methods. This patch fixes the test case by calling totp metods instead.
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The connect_* device tests fail when run in a setup with a Pro and
Storage stick present. The problem is that these tests assume only one
stick to be present, and that the corresponding connect function for the
other stick reports an error.
However, in a two stick setup there is no such guarantee. This patch
removes tests for those assumptions.
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Three more error codes are defined in libnitrokey but currently reported
as the CommandError::Unknown variant:
200: representing a string that exceeds a limit
202: indicating a string that is not in hexadecimal format when it
should be
203: suggesting that the target buffer is smaller than the source
buffer and, hence, too small
This change introduces the CommandError variants StringTooLong,
InvalidHexString and TargetBufferTooSmall, respectively, representing
those errors.
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This patch adds the global connect_model function that can be used to
connect to a Nitrokey device of a given model. Contrary to Pro::connect
and Storage::connect, the model does not have to be set at compile time.
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connect_model will be used for a public function with the next patch.
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This patch introduces the methods enable_hidden_volume,
disable_hidden_volume and create_hidden_volume for the Storage struct to
support the hidden volumes on the Nitrokey Storage. The enable and
create methods require that the encrypted storage has been enabled.
Contrary to authentication and password safe access, we do not enforce
this requirement in the API as file system operations could have
unwanted side effects and should not performed implicitly.
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We experienced various problems running the tests and while they may or
may not be caused by local setup issues, it is helpful to have more
information than just an indication that an assertion (true/false) was
violated.
To that end, this change adjusts some of the assert!(<func>().is_ok())
to compare against Ok(()) instead. This way, if the result is not the Ok
variant, the error code will get printed.
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This change adjusts the PWS tests to use the nitrokey-test crate.
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This change adjusts the OTP tests to use the nitrokey-test crate.
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This change is the first in a series to migrate the existing tests to
using the nitrokey-test crate. The crate provides a couple of benefits
over the existing way testing works:
- test execution is automatically serialized (i.e., no more need for
--test-threads)
- available devices are detected at runtime (i.e., no more need for
--features test-pro)
- tests capable of running only on a specific device are automatically
skipped if this device is not present
In addition to that, the crate also offers selection of particular
groups of tests by virtue of the NITROKEY_TEST_GROUP environment
variable. If set (valid values are "nodev", "pro", and "storage") only
tests of the particular group are run (those tests will fail if a
required precondition is not met, i.e., if a device is present but
"nodev" is set, or if the "pro" group is run but no device or a storage
device is present).
Unfortunately, it has some limitations as well. Most importantly Rust
does not allow us to indicate whether a test has been skipped or not.
While it has #[ignore] support, that strictly is a compile-time feature
and, hence, not usable.
This patch in particular pulls in the nitrokey-test crate and adjusts
the existing device tests to make use of it.
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Contrary to my previous beliefs, build_aes_key has to be called even
after a factory reset using the Nitrokey API. This patch updates the
documentation and the unit tests based on this insight.
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This patch adds the enable_firmware_update method to the Storage struct
that uses NK_enable_firmware_update to put the Nitrokey Storage into
update mode. This method is not tested as external tooling is required
to resume normal operation and as it is hard to bail out if an error
occurs.
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This patch adds the build_aes_key method to the Device trait that uses
the NK_build_aes_key function to build new AES keys on the device. This
effectively resets the password safe and the encrypted storage. It is
unclear whether other data (e. g. the one-time passwords) are affected
too.
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This patch adds the factory_reset_method to the Device trait that uses
the NK_factory_reset function to perform a factory reset. The tests
verify that the user and admin PIN are reset and that the OTP storage
and the password safe are deleted.
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This patch adds the change_update_pin method to the Storage struct that
uses the NK_change_update_password function to set the password required
for firmware updates.
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