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catarrh:1.0

43 Commits
pmaier/ota ... neels/saip

Author SHA1 Message Date
Neels Hofmeyr
3677e0432e BatchPersonalization: exception handling tweak 
Change-Id: I6ad6cec57e9e94b40ca47a33eed1b49a2cb602d7
 2026-01-14 01:59:35 +01:00
Neels Hofmeyr
d16d8c61c4 BatchPersonalization: fix mandatory services section 
Change-Id: I5e56013565d87aff77076021ac54c186db3dde36
 2026-01-14 01:59:35 +01:00
Harald Welte
f8fb3cfdeb saip.validation: Verify unused mandatory services in header 
This adds a new check method to the pySim.esim.saip.validation.CheckBasicStructure
class, which ensures that no unused authentication algorithm related mandatory
services are indicated in the ProfileHeader.

So if a profile e.g. states in the header it requires
usim-test-algorithm, but then the actual akaParameter instances do not
actually use that algorithm, it would raise an exception.

Change-Id: Id0e1988ae1936a321d04bc7c3c3a33262c767d30
Related: SYS#7826
 2026-01-14 01:59:35 +01:00
Neels Hofmeyr
575d1a3158 BatchPersonalization: run validation.CheckBasicStructure on each PES 
Change-Id: I0e4aa6b0c62552d95feee62948e0cb0bb8c6d8ef
 2026-01-14 01:59:35 +01:00
Neels Hofmeyr
3662285b4b personalization: fix DES key lengths 
Change-Id: Ic73dcd5fe1b10c65c6a054aa08363a204444ac7e
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
b4b8582c0b wip 
Change-Id: I65d2d591c2e5c70cac40467f0648df52360fe5f1
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
e59a623201 wip 
Change-Id: I9cc555c13c2df4728d075b375c55df9d6e5e3d2a
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
6e31fd85f2 SCP80-01DES 
Change-Id: I1133828832ceb5005a3379c4dbc82cf5592ace5b
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
00fa37ebda saip/param_source: try to not repeat random values 
Change-Id: I4fa743ef5677580f94b9df16a5051d1d178edeb0
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
14347ad6d4 add pylint.sh 
Change-Id: If02983e8ce66f2f557efc4ac7c73b4f62945acdb
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
501f237e37 personalization: audit tweak 
Change-Id: I7a0204cfd7340b20955739ca9935f9afdd152b0b
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
2a6e498e82 use secrets.SystemRandom as secure random nr source 
secrets.SystemRandom is defined as the most secure random source
available on the given operating system.

Change-Id: I8049cd1292674b3ced82b0926569128535af6efe
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
4d555f4b8d use random.SystemRandom as random nr source (/dev/urandom) 
/dev/urandom is somewhat better than python's PRNG

Change-Id: I6de38c14ac6dd55bc84d53974192509c18d02bfa
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
c831b3c3c3 add test_param_src.py 
Change-Id: I03087b84030fddae98b965e0075d44e04ec6ba5c
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
647af01c41 param_source: allow plugging a random implementation (for testing) 
Change-Id: Idce2b18af70c17844d6f09f7704efc869456ac39
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
7d0cde74a0 RandomHexDigitSource: rather return in string format, not bytes 
Change-Id: I4e86289f6fb72cbd4cf0c90b8b49538cfab69a7f
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
f3251d3214 personalization: add int as input type for BinaryParameter 
Change-Id: I31d8142cb0847a8b291f8dc614d57cb4734f0190
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
6b68e7b54d personalization.ConfigurableParameter: fix BytesIO() input 
Change-Id: I0ad160eef9015e76eef10baee7c6b606fe249123
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
58aafe36c7 add test_configurable_parameters.py 
Change-Id: Ia55f0d11f8197ca15a948a83a34b3488acf1a0b4
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
a9d3cf370d add lint_ruff.sh 
Change-Id: I9ca385eef9e6831a49f61456aa24492d4fa2ec17
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
8785747d24 add lint_pylint.sh 
Change-Id: I0aeb38604909bbc7d3daaa83cf2088e9e62a23f9
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
1ec0263ffc personalization audit: by default audit all SD keys 
Audit also all Security Domain KVN that we have *not* created
ConfigurableParameter subclasses for.

For example, SCP80 has reserved kvn 0x01..0x0f, but we offer only
Scp80Kvn01, Scp80Kvn02, Scp80Kvn03. So we would not show kvn
0x03..0x0f in an audit.

This patch includes audits of all SD key kvn there may be in the UPP.
This will help to spot SD keys that may already be present in a UPP
template, with unexpected / unusual kvn.

Change-Id: Icaf6f7b589f117868633c0968a99f2f0252cf612
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
9baafc1771 personalization: implement UppAudit and BatchAudit 
Change-Id: Iaab336ca91b483ecdddd5c6c8e08dc475dc6bd0a
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
588d06cd9d param_source: allow input val expansion like '0 * 32' 
Working with keys, we often generate 4, 8, 16, 32 digit wide random
values. Those then typically have default input values like

 00000000000000000000000000000000

it is hard for humans to count the number of digits. Much easier:

 00*16

Teach the ParamSource subclasses dealing with random values to
understand an expansion like this. Any expansion is carried out before
all other input value handling.

Use this expansion also in the default_value of ConfigurableParameter
subclasses that have a default_source pointing at a ParamSource that now
understand this expansion.

Related: SYS#6768
Change-Id: Ie7171c152a7b478736f8825050305606b5af5735
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
565deff488 esim param_source: add is_abstract flag 
Allow omitting some ParamSource subclassed from
ParamSource.get_all_implementations().

My previous attempts at automagically detecting abstract classes failed
conceptually, and the easiest, most explicit way is already used in
ConfigurableParameter: add an is_abstract flag.

Prep for Ie7171c152a7b478736f8825050305606b5af5735

Change-Id: Icfccdd0a8ecb5e0e9d22afa490d73c9f1849a64c
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
dc97895447 personalization: make sense of SdKey subclasses 
After a call with Harald, I think I finally understand what SdKey
subclasses we need.

Change-Id: I8c9e6095e200103d2e1779964be06fff63c5cebf
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
52e84a0bad comment in uicc.py on Security Domain Keys: add SCP81 
Change-Id: Ib0205880f58e78c07688b4637abd5f67ea0570d1
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
065377eb0e personalization: fix SdKey.apply_val() implementation 
'securityDomain' elements are decoded to ProfileElementSD instances,
which keep higher level representations of the key data apart from the
decoded[] lists.

So far, apply_val() was dropping binary values in decoded[], which does
not work, because ProfileElementSD._pre_encode() overwrites
self.decoded[] from the higher level representation.

Implement using
- ProfileElementSD.find_key() and SecurityDomainKeyComponent to modify
  an exsiting entry, or
- ProfileElementSD.add_key() to create a new entry.

Before this patch, SdKey parameters seemed to patch PES successfully,
but their modifications did not end up in the encoded DER.

(BTW, this does not fix any other errors that may still be present in
the various SdKey subclasses, patches coming up.)

Related: SYS#6768
Change-Id: I07dfc378705eba1318e9e8652796cbde106c6a52
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
7711bd26fb personalization: add get_typical_input_len() to ConfigurableParameter 
The aim is to tell a user interface how wide an input text field should
be chosen to be convenient -- ideally showing the entire value in all
cases, but not too huge for fields that have no sane size limit.

Change-Id: I2568a032167a10517d4d75d8076a747be6e21890
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
a62b58ce2c personalization: make AlgorithmID a new EnumParam 
The AlgorithmID has a few preset values, and hardly anyone knows which
is which. So instead of entering '1', '2' or '3', make it work with
prededined values 'Milenage', 'TUAK' and 'usim-test'.

Implement the enum value part abstractly in new EnumParam.

Make AlgorithmID a subclass of EnumParam and define the values as from
pySim/esim/asn1/saip/PE_Definitions-3.3.1.asn

Related: SYS#6768
Change-Id: I71c2ec1b753c66cb577436944634f32792353240
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
1c622a6101 personalization: indicate default ParamSource per ConfigurableParameter 
Add default_source class members pointing to ParamSource classes to all
ConfigurableParameter subclasses.

This is useful to automatically set up a default ParamSource for a given
ConfigurableParameter subclass, during user interaction to produce a
batch personalization.

For example, if the user selects a Pin1 parameter, a calling program can
implicitly set this to a RandomDigitSource, which will magically make it
work the way that most users need.

BTW, default_source and default_value can be combined to configure a
matching ParamSource instance:

  my_source = MyParam.default_source.from_str( MyParam.default_value )

Change-Id: Ie58d13bce3fa1aa2547cf3cee918c2f5b30a8b32
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
7cc607e73b personalization: allow reading back multiple values from PES 
Change-Id: Iecb68af7c216c6b9dc3add469564416b6f37f7b2
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
b697cc497e personalization: implement reading back values from a PES 
Implement get_values_from_pes(), the reverse direction of apply_val():
read back and return values from a ProfileElementSequence. Implement for
all ConfigurableParameter subclasses.

Future: SdKey.get_values_from_pes() is reading pe.decoded[], which works
fine, but I07dfc378705eba1318e9e8652796cbde106c6a52 will change this
implementation to use the higher level ProfileElementSD members.

Implementation detail:

Implement get_values_from_pes() as classmethod that returns a generator.
Subclasses should yield all occurences of their parameter in a given
PES.

For example, the ICCID can appear in multiple places.
Iccid.get_values_from_pes() yields all of the individual values. A set()
of the results quickly tells whether the PES is consistent.

Rationales for reading back values:

This allows auditing an eSIM profile, particularly for producing an
output.csv from a batch personalization (that generated lots of random
key material which now needs to be fed to an HLR...).

Reading back from a binary result is more reliable than storing the
values that were fed into a personalization.
By auditing final DER results with this code, I discovered:
- "oh, there already was some key material in my UPP template."
- "all IMSIs ended up the same, forgot to set up the parameter."
- the SdKey.apply() implementations currently don't work, see
  I07dfc378705eba1318e9e8652796cbde106c6a52 for a fix.

Change-Id: I234fc4317f0bdc1a486f0cee4fa432c1dce9b463
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
a8f3962be3 personalization: add param_source.py, implement batch personalization 
Implement pySim.esim.saip.personalization.BatchPersonalization,
generating N eSIM profiles from a preset configuration.

Batch parameters can be fed by a constant, incrementing, random or from
CSV rows: add pySim.esim.saip.param_source.* classes to feed such input
to each of the BatchPersonalization's ConfigurableParameter instances.

Related: SYS#6768
Change-Id: I497c60c101ea0eea980e8b1a4b1f36c0eda39002
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
dd42978285 personalization: discover all useful ConfigurableParameter subclasses 
Discover all non-abstract subclasses of ConfigurableParameter in
ConfigurableParameter.get_all_implementations().

To be able to automatically discover all practically useful
ConfigurableParameter subclasses, introduce the is_abstract flag.
ConfigurableParameter itself sets is_abstract = True, by default
"hiding" subclasses. As soon as a subclass sets is_abstract = False, it
becomes "public". It depends on the calling code to actually implement
that decision -- this flag enables calling code to do so sanely.

For example, the BinaryParam superclass keeps is_abstract = True,
because per se it isn't capable of doing anything. The fully useful K
and Opc subclasses set is_abstract = False.

Implementation choice: I first tried to query an implicit abstract
status via abc / @abstractmethod ways, but it did not match well. A
subclass has no good implicit indicator, we need a flag instead. For
example, a superclass may provide an apply_val() implementation and
hence appear as non-abstract, but it is still not usable because a
specific 'key' member is still None, which various subclasses set.

Related: SYS#6768
Change-Id: I4970657294130b6b65d50ff19ffbb9ebab3be609
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
90c8fa63d8 personalization: set default values 
For all ConfigurableParameter subclasses, set a default_value.

This is useful for user interaction, to prefill an input field that
indicates a valid input to modify to taste.

Related: SYS#6768
Change-Id: I2672fedcbc32cb7a6cb0c233a4a22112bd9aae03
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
d2373008f6 personalization: set some typical parameter names 
These names better match what humans expect to read, for example "PIN1"
instead of "Pin1".

(We still fall back to the __class__.__name__ if a subclass omits a
specific name, see the ConfigurableParameter init.)

Change-Id: I31f390d634e58c384589c50a33ca45d6f86d4e10
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
c8e18ece80 [6/6] personalization: refactor SdKey 
Refactor SdKey (and subclasses) to the new ConfigurableParameter
implementation style, keeping the same implementation.

But duly note that this implementation does not work!
It correctly patches pe.decoded[], but that gets overridden by
ProfileElementSD._pre_encode().

For a fix, see I07dfc378705eba1318e9e8652796cbde106c6a52.

Change-Id: I427ea851bfa28b2b045e70a19a9e35d361f0d393
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
50b2619a2d [5/6] personalization: refactor AlgorithmID, K, Opc 
Refactor AlgorithmID, K, Opc to the new ConfigurableParameter
implementation style.

K and Opc use a common abstract BinaryParam.

Note from the future: AlgorithmID so far takes "raw" int values, but
will turn to be an "enum" parameter with predefined meaningful strings
in I71c2ec1b753c66cb577436944634f32792353240

Change-Id: I6296fdcfd5d2ed313c4aade57ff43cc362375848
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
85145e0b6b [4/6] personalization: refactor Pin, Adm 
Refactor Pin1, Pin2, Adm1 and Adm2 to the new ConfigurableParameter
implementation style.

Change-Id: I54aef10b6d4309398d4b779a3740a7d706d68603
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
d638757af2 [3/6] personalization: refactor Puk 
Implement abstract DecimalHexParam, and use it to refactor Puk1 and Puk2
to the new ConfigurableParameter implementation style.

DecimalHexParam will also be used for Pin and Adm soon.

Change-Id: I271e6c030c890778ab7af9ab3bc7997e22018f6a
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
22da7b1a96 [2/6] personalization: refactor ConfigurableParameter, Iccid, Imsi 
Main points/rationales of the refactoring, details below:
1) common validation implementation
2) offer classmethods

The new features are optional, and will be heavily used by batch
personalization patches coming soon.

Implement Iccid and Imsi to use the new way, with a common abstract
DecimalParam implementation.

So far leave the other parameter classes working as they always did, to
follow suit in subsequent commits.

Details:

1) common validation implementation:
There are very common validation steps in the various parameter
implementations. It is more convenient and much more readable to
implement those once and set simple validation parameters per subclass.
So there now is a validate_val() classmethod, which subclasses can use
as-is to apply the validation parameters -- or subclasses can override
their cls.validate_val() for specialized validation.
(Those subclasses that this patch doesn't touch still override the
self.validate() instance method. Hence they still work as before this
patch, but don't use the new common features yet.)

2) offer stateless classmethods:
It is useful for...
- batch processing of multiple profiles (in upcoming patches) and
- user input validation
to be able to have classmethods that do what self.validate() and
self.apply() do, but do not modify any self.* members.
So far the paradigm was to create a class instance to keep state about
the value. This remains available, but in addition we make available the
paradigm of a singleton that is stateless (the classmethods).
Using self.validate() and self.apply() still work the same as before
this patch, i.e. via self.input_value and self.value -- but in addition,
there are now classmethods that don't touch self.* members.

Related: SYS#6768
Change-Id: I6522be4c463e34897ca9bff2309b3706a88b3ce8
 2025-12-13 22:34:23 +01:00
Neels Hofmeyr
8e6a19d9f0 [1/6] personalization: refactor: drop ClassVarMeta use 
Drop the ClassVarMeta/metaclass/ABCMeta stuff -- it doesn't seem to
serve any purpose that is not similarly achieved with plain python
inheritance.

Upcoming patches will use normal inheritance a lot more.

Note that most use of the ClassVarMeta was in the SdKey subclasses, and
that these currently don't actually work. See the fix in patch
I07dfc378705eba1318e9e8652796cbde106c6a52 .

name: set a default name from the python class, as ClassVarMeta did.
Also allow setting an explicit string as name instead, per subclass
implementation (see I31f390d634e58c384589c50a33ca45d6f86d4e10).

Related: SYS#6768
Change-Id: I60ea8fd11fb438ec90ddb08b17b658cbb789c051
 2025-12-13 22:34:23 +01:00
16 changed files with 3834 additions and 219 deletions
Expand all files Collapse all files

2
lint_pylint.sh Executable file
View File

@@ -0,0 +1,2 @@
#!/bin/sh
python3 -m pylint -j0 --errors-only --disable E1102 --disable E0401 --enable W0301 pySim

4
lint_ruff.sh Executable file
View File

@@ -0,0 +1,4 @@
#!/bin/sh -e
set -x
cd "$(dirname "$0")"
ruff check .

7
pySim/esim/saip/__init__.py
View File

@@ -1006,6 +1006,13 @@ class SecurityDomainKey:
'keyVersionNumber': bytes([self.key_version_number]),
'keyComponents': [k.to_saip_dict() for k in self.key_components]}
def get_key_component(self, key_type):
for kc in self.key_components:
if kc.key_type == key_type:
return kc.key_data
return None
class ProfileElementSD(ProfileElement):
"""Class representing a securityDomain ProfileElement."""
type = 'securityDomain'

237
pySim/esim/saip/param_source.py Normal file
View File

@@ -0,0 +1,237 @@
# Implementation of SimAlliance/TCA Interoperable Profile handling: parameter sources for batch personalization.
#
# (C) 2025 by sysmocom - s.f.m.c. GmbH <info@sysmocom.de>
#
# Author: nhofmeyr@sysmocom.de
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import secrets
import re
from pySim.utils import all_subclasses_of
from osmocom.utils import b2h
class ParamSourceExn(Exception):
pass
class ParamSourceExhaustedExn(ParamSourceExn):
pass
class ParamSourceUndefinedExn(ParamSourceExn):
pass
class ParamSource:
'abstract parameter source. For usage, see personalization.BatchPersonalization.'
is_abstract = True
# This name should be short but descriptive, useful for a user interface, like 'random decimal digits'.
name = 'none'
@classmethod
def get_all_implementations(cls, blacklist=None):
"return all subclasses of ParamSource that have is_abstract = False."
# return a set() so that multiple inheritance does not return dups
return set(c
for c in all_subclasses_of(cls)
if (not c.is_abstract) and ((not blacklist) or (c not in blacklist))
)
@classmethod
def from_str(cls, s:str):
'''Subclasses implement this:
if a parameter source defines some string input magic, override this function.
For example, a RandomDigitSource derives the number of digits from the string length,
so the user can enter '0000' to get a four digit random number.'''
return cls(s)
def get_next(self, csv_row:dict=None):
'''Subclasses implement this: return the next value from the parameter source.
When there are no more values from the source, raise a ParamSourceExhaustedExn.'''
raise ParamSourceExhaustedExn()
class ConstantSource(ParamSource):
'one value for all'
is_abstract = False
name = 'constant'
def __init__(self, val:str):
self.val = val
def get_next(self, csv_row:dict=None):
return self.val
class InputExpandingParamSource(ParamSource):
@classmethod
def expand_str(cls, s:str):
# user convenience syntax '0*32' becomes '00000000000000000000000000000000'
if '*' not in s:
return s
tokens = re.split(r"([^ \t]+)[ \t]*\*[ \t]*([0-9]+)", s)
if len(tokens) < 3:
return s
parts = []
for unchanged, snippet, repeat_str in zip(tokens[0::3], tokens[1::3], tokens[2::3]):
parts.append(unchanged)
repeat = int(repeat_str)
parts.append(snippet * repeat)
return ''.join(parts)
@classmethod
def from_str(cls, s:str):
return cls(cls.expand_str(s))
class RandomSourceMixin:
random_impl = secrets.SystemRandom()
class RandomDigitSource(InputExpandingParamSource, RandomSourceMixin):
'return a different sequence of random decimal digits each'
is_abstract = False
name = 'random decimal digits'
used_keys = set()
def __init__(self, num_digits, first_value, last_value):
"""
See also from_str().
All arguments are integer values, and are converted to int if necessary, so a string of an integer is fine.
num_digits: number of random digits (possibly with leading zeros) to generate.
first_value, last_value: the decimal range in which to provide random digits.
"""
num_digits = int(num_digits)
first_value = int(first_value)
last_value = int(last_value)
assert num_digits > 0
assert first_value <= last_value
self.num_digits = num_digits
self.val_first_last = (first_value, last_value)
def get_next(self, csv_row:dict=None):
# try to generate random digits that are always different from previously produced random bytes
attempts = 10
while True:
val = self.random_impl.randint(*self.val_first_last)
if val in RandomDigitSource.used_keys:
attempts -= 1
if attempts:
continue
RandomDigitSource.used_keys.add(val)
break
return self.val_to_digit(val)
def val_to_digit(self, val:int):
return '%0*d' % (self.num_digits, val) # pylint: disable=consider-using-f-string
@classmethod
def from_str(cls, s:str):
s = cls.expand_str(s)
if '..' in s:
first_str, last_str = s.split('..')
first_str = first_str.strip()
last_str = last_str.strip()
else:
first_str = s.strip()
last_str = None
first_value = int(first_str)
last_value = int(last_str) if last_str is not None else '9' * len(first_str)
return cls(num_digits=len(first_str), first_value=first_value, last_value=last_value)
class RandomHexDigitSource(InputExpandingParamSource, RandomSourceMixin):
'return a different sequence of random hexadecimal digits each'
is_abstract = False
name = 'random hexadecimal digits'
used_keys = set()
def __init__(self, num_digits):
'see from_str()'
num_digits = int(num_digits)
if num_digits < 1:
raise ValueError('zero number of digits')
# hex digits always come in two
if (num_digits & 1) != 0:
raise ValueError(f'hexadecimal value should have even number of digits, not {num_digits}')
self.num_digits = num_digits
def get_next(self, csv_row:dict=None):
# try to generate random bytes that are always different from previously produced random bytes
attempts = 10
while True:
val = self.random_impl.randbytes(self.num_digits // 2)
if val in RandomHexDigitSource.used_keys:
attempts -= 1
if attempts:
continue
RandomHexDigitSource.used_keys.add(val)
break
return b2h(val)
@classmethod
def from_str(cls, s:str):
s = cls.expand_str(s)
return cls(num_digits=len(s.strip()))
class IncDigitSource(RandomDigitSource):
'incrementing sequence of digits'
is_abstract = False
name = 'incrementing decimal digits'
def __init__(self, *args, **kwargs):
"The arguments defining the number of digits and value range are identical to RandomDigitSource.__init__()."
super().__init__(*args, **kwargs)
self.next_val = None
self.reset()
def reset(self):
"Restart from the first value of the defined range passed to __init__()."
self.next_val = self.val_first_last[0]
def get_next(self, csv_row:dict=None):
val = self.next_val
if val is None:
raise ParamSourceExhaustedExn()
returnval = self.val_to_digit(val)
val += 1
if val > self.val_first_last[1]:
self.next_val = None
else:
self.next_val = val
return returnval
class CsvSource(ParamSource):
'apply a column from a CSV row, as passed in to ParamSource.get_next(csv_row)'
is_abstract = False
name = 'from CSV'
def __init__(self, csv_column):
"""
csv_column: column name indicating the column to use for this parameter.
This name is used in get_next(): the caller passes the current CSV row to get_next(), from which
CsvSource picks the column with the name matching csv_column.
"""
self.csv_column = csv_column
def get_next(self, csv_row:dict=None):
val = None
if csv_row:
val = csv_row.get(self.csv_column)
if not val:
raise ParamSourceUndefinedExn(f'no value for CSV column {self.csv_column!r}')
return val

1583
pySim/esim/saip/personalization.py
View File

File diff suppressed because it is too large Load Diff

20
pySim/esim/saip/validation.py
View File

@@ -103,6 +103,26 @@ class CheckBasicStructure(ProfileConstraintChecker):
if 'profile-a-p256' in m_svcs and not ('usim' in m_svcs or 'isim' in m_svcs):
raise ProfileError('profile-a-p256 mandatory, but no usim or isim')
def check_mandatory_services_aka(self, pes: ProfileElementSequence):
"""Ensure that no unnecessary authentication related services are marked as mandatory but not
actually used within the profile"""
m_svcs = pes.get_pe_for_type('header').decoded['eUICC-Mandatory-services']
# list of tuples (algo_id, key_len_in_octets) for all the akaParameters in the PE Sequence
algo_id_klen = [(x.decoded['algoConfiguration'][1]['algorithmID'],
len(x.decoded['algoConfiguration'][1]['key'])) for x in pes.get_pes_for_type('akaParameter')]
# just a plain list of algorithm IDs in akaParameters
algorithm_ids = [x[0] for x in algo_id_klen]
if 'milenage' in m_svcs and not 1 in algorithm_ids:
raise ProfileError('milenage mandatory, but no related algorithm_id in akaParameter')
if 'tuak128' in m_svcs and not (2, 128/8) in algo_id_klen:
raise ProfileError('tuak128 mandatory, but no related algorithm_id in akaParameter')
if 'cave' in m_svcs and not pes.get_pe_for_type('cdmaParameter'):
raise ProfileError('cave mandatory, but no related cdmaParameter')
if 'tuak256' in m_svcs and (2, 256/8) in algo_id_klen:
raise ProfileError('tuak256 mandatory, but no related algorithm_id in akaParameter')
if 'usim-test-algorithm' in m_svcs and not 3 in algorithm_ids:
raise ProfileError('usim-test-algorithm mandatory, but no related algorithm_id in akaParameter')
def check_identification_unique(self, pes: ProfileElementSequence):
"""Ensure that each PE has a unique identification value."""
id_list = [pe.header['identification'] for pe in pes.pe_list if pe.header]

1
pySim/global_platform/uicc.py
View File

@@ -91,6 +91,7 @@ class UiccSdInstallParams(TLV_IE_Collection, nested=[UiccScp, AcceptExtradAppsAn
# Key Usage:
# KVN 0x01 .. 0x0F reserved for SCP80
# KVN 0x81 .. 0x8f reserved for SCP81
# KVN 0x11 reserved for DAP specified in ETSI TS 102 226
# KVN 0x20 .. 0x2F reserved for SCP02
# KID 0x01 = ENC; 0x02 = MAC; 0x03 = DEK

6
pySim/utils.py
View File

@@ -1109,3 +1109,9 @@ class CardCommandSet:
if cla and not cmd.match_cla(cla):
return None
return cmd
def all_subclasses_of(cls):
for subc in cls.__subclasses__():
yield subc
yield from all_subclasses_of(subc)

2
pylint.sh Executable file
View File

@@ -0,0 +1,2 @@
#!/bin/sh
python3 -m pylint -j0 --errors-only --disable E1102 --disable E0401 --enable W0301 pySim

8
ruff.toml Normal file
View File

@@ -0,0 +1,8 @@
[lint]
ignore = [
"E741",
"F403",
"F405",
"E713",
]

1
tests/unittests/smdpp_data Symbolic link
View File

@@ -0,0 +1 @@
../../smdpp-data

399
tests/unittests/test_configurable_parameters.py Executable file
View File

@@ -0,0 +1,399 @@
#!/usr/bin/env python3
# (C) 2025 by sysmocom - s.f.m.c. GmbH <info@sysmocom.de>
#
# Author: Neels Hofmeyr
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import io
import sys
import unittest
import io
from importlib import resources
from osmocom.utils import hexstr
from pySim.esim.saip import ProfileElementSequence
import pySim.esim.saip.personalization as p13n
import smdpp_data.upp
import xo
update_expected_output = False
def valstr(val):
if isinstance(val, io.BytesIO):
val = val.getvalue()
if isinstance(val, bytearray):
val = bytes(val)
return f'{val!r}'
def valtypestr(val):
if isinstance(val, dict):
types = []
for v in val.values():
types.append(f'{type(v).__name__}')
val_type = '{' + ', '.join(types) + '}'
else:
val_type = f'{type(val).__name__}'
return f'{valstr(val)}:{val_type}'
class D:
mandatory = set()
optional = set()
def __init__(self, **kwargs):
if (set(kwargs.keys()) - set(self.optional)) != set(self.mandatory):
raise RuntimeError(f'{self.__class__.__name__}.__init__():'
f' {set(kwargs.keys())=!r} - {self.optional=!r} != {self.mandatory=!r}')
for k, v in kwargs.items():
setattr(self, k, v)
for k in self.optional:
if not hasattr(self, k):
setattr(self, k, None)
class ConfigurableParameterTest(unittest.TestCase):
def test_parameters(self):
upp_fnames = (
'TS48v5_SAIP2.1A_NoBERTLV.der',
'TS48v5_SAIP2.3_BERTLV_SUCI.der',
'TS48v5_SAIP2.1B_NoBERTLV.der',
'TS48v5_SAIP2.3_NoBERTLV.der',
)
class Paramtest(D):
mandatory = (
'param_cls',
'val',
'expect_val',
)
optional = (
'expect_clean_val',
)
param_tests = [
Paramtest(param_cls=p13n.Imsi, val='123456',
expect_clean_val=str('123456'),
expect_val={'IMSI': hexstr('123456'),
'IMSI-ACC': '0040'}),
Paramtest(param_cls=p13n.Imsi, val=int(123456),
expect_val={'IMSI': hexstr('123456'),
'IMSI-ACC': '0040'}),
Paramtest(param_cls=p13n.Imsi, val='123456789012345',
expect_clean_val=str('123456789012345'),
expect_val={'IMSI': hexstr('123456789012345'),
'IMSI-ACC': '0020'}),
Paramtest(param_cls=p13n.Imsi, val=int(123456789012345),
expect_val={'IMSI': hexstr('123456789012345'),
'IMSI-ACC': '0020'}),
Paramtest(param_cls=p13n.Puk1,
val='12345678',
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Puk1,
val=int(12345678),
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Puk2,
val='12345678',
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Pin1,
val='1234',
expect_clean_val=b'1234\xff\xff\xff\xff',
expect_val='1234'),
Paramtest(param_cls=p13n.Pin1,
val='123456',
expect_clean_val=b'123456\xff\xff',
expect_val='123456'),
Paramtest(param_cls=p13n.Pin1,
val='12345678',
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Pin1,
val=int(1234),
expect_clean_val=b'1234\xff\xff\xff\xff',
expect_val='1234'),
Paramtest(param_cls=p13n.Pin1,
val=int(123456),
expect_clean_val=b'123456\xff\xff',
expect_val='123456'),
Paramtest(param_cls=p13n.Pin1,
val=int(12345678),
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Adm1,
val='1234',
expect_clean_val=b'1234\xff\xff\xff\xff',
expect_val='1234'),
Paramtest(param_cls=p13n.Adm1,
val='123456',
expect_clean_val=b'123456\xff\xff',
expect_val='123456'),
Paramtest(param_cls=p13n.Adm1,
val='12345678',
expect_clean_val=b'12345678',
expect_val='12345678'),
Paramtest(param_cls=p13n.Adm1,
val=int(123456),
expect_clean_val=b'123456\xff\xff',
expect_val='123456'),
Paramtest(param_cls=p13n.AlgorithmID,
val='Milenage',
expect_clean_val=1,
expect_val='Milenage'),
Paramtest(param_cls=p13n.AlgorithmID,
val='TUAK',
expect_clean_val=2,
expect_val='TUAK'),
Paramtest(param_cls=p13n.AlgorithmID,
val='usim-test',
expect_clean_val=3,
expect_val='usim-test'),
Paramtest(param_cls=p13n.AlgorithmID,
val=1,
expect_clean_val=1,
expect_val='Milenage'),
Paramtest(param_cls=p13n.AlgorithmID,
val=2,
expect_clean_val=2,
expect_val='TUAK'),
Paramtest(param_cls=p13n.AlgorithmID,
val=3,
expect_clean_val=3,
expect_val='usim-test'),
Paramtest(param_cls=p13n.K,
val='01020304050607080910111213141516',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.K,
val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.K,
val=bytearray(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.K,
val=io.BytesIO(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.K,
val=int(11020304050607080910111213141516),
expect_clean_val=b'\x11\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='11020304050607080910111213141516'),
Paramtest(param_cls=p13n.Opc,
val='01020304050607080910111213141516',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.Opc,
val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.Opc,
val=bytearray(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
Paramtest(param_cls=p13n.Opc,
val=io.BytesIO(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516'),
]
for sdkey_cls in (
# thin out the number of tests, as a compromise between completeness and test runtime
p13n.SdKeyScp80Kvn01Enc,
#p13n.SdKeyScp80Kvn01Dek,
#p13n.SdKeyScp80Kvn01Mac,
#p13n.SdKeyScp80Kvn02Enc,
p13n.SdKeyScp80Kvn02Dek,
#p13n.SdKeyScp80Kvn02Mac,
#p13n.SdKeyScp81Kvn81Enc,
#p13n.SdKeyScp81Kvn81Dek,
p13n.SdKeyScp81Kvn81Mac,
#p13n.SdKeyScp81Kvn82Enc,
#p13n.SdKeyScp81Kvn82Dek,
#p13n.SdKeyScp81Kvn82Mac,
p13n.SdKeyScp81Kvn83Enc,
#p13n.SdKeyScp81Kvn83Dek,
#p13n.SdKeyScp81Kvn83Mac,
#p13n.SdKeyScp02Kvn20Enc,
p13n.SdKeyScp02Kvn20Dek,
#p13n.SdKeyScp02Kvn20Mac,
#p13n.SdKeyScp02Kvn21Enc,
#p13n.SdKeyScp02Kvn21Dek,
p13n.SdKeyScp02Kvn21Mac,
#p13n.SdKeyScp02Kvn22Enc,
#p13n.SdKeyScp02Kvn22Dek,
#p13n.SdKeyScp02Kvn22Mac,
p13n.SdKeyScp02KvnffEnc,
#p13n.SdKeyScp02KvnffDek,
#p13n.SdKeyScp02KvnffMac,
#p13n.SdKeyScp03Kvn30Enc,
p13n.SdKeyScp03Kvn30Dek,
#p13n.SdKeyScp03Kvn30Mac,
#p13n.SdKeyScp03Kvn31Enc,
#p13n.SdKeyScp03Kvn31Dek,
p13n.SdKeyScp03Kvn31Mac,
#p13n.SdKeyScp03Kvn32Enc,
#p13n.SdKeyScp03Kvn32Dek,
#p13n.SdKeyScp03Kvn32Mac,
):
param_tests.extend([
Paramtest(param_cls=sdkey_cls,
val='01020304050607080910111213141516',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516',
),
Paramtest(param_cls=sdkey_cls,
val='010203040506070809101112131415161718192021222324',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'
b'\x17\x18\x19\x20\x21\x22\x23\x24',
expect_val='010203040506070809101112131415161718192021222324'),
Paramtest(param_cls=sdkey_cls,
val='0102030405060708091011121314151617181920212223242526272829303132',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'
b'\x17\x18\x19\x20\x21\x22\x23\x24\x25\x26\x27\x28\x29\x30\x31\x32',
expect_val='0102030405060708091011121314151617181920212223242526272829303132'),
Paramtest(param_cls=sdkey_cls,
val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516',
),
Paramtest(param_cls=sdkey_cls,
val=bytearray(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516',
),
Paramtest(param_cls=sdkey_cls,
val=io.BytesIO(b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16'),
expect_clean_val=b'\x01\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='01020304050607080910111213141516',
),
Paramtest(param_cls=sdkey_cls,
val=11020304050607080910111213141516,
expect_clean_val=b'\x11\x02\x03\x04\x05\x06\x07\x08\x09\x10\x11\x12\x13\x14\x15\x16',
expect_val='11020304050607080910111213141516',
),
])
outputs = []
for upp_fname in upp_fnames:
test_idx = -1
try:
der = resources.read_binary(smdpp_data.upp, upp_fname)
for t in param_tests:
test_idx += 1
logloc = f'{upp_fname} {t.param_cls.__name__}(val={valtypestr(t.val)})'
param = None
try:
param = t.param_cls()
param.input_value = t.val
param.validate()
except ValueError as e:
raise ValueError(f'{logloc}: {e}') from e
clean_val = param.value
logloc = f'{logloc} clean_val={valtypestr(clean_val)}'
if t.expect_clean_val is not None and t.expect_clean_val != clean_val:
raise ValueError(f'{logloc}: expected'
f' expect_clean_val={valtypestr(t.expect_clean_val)}')
# on my laptop, deepcopy is about 30% slower than decoding the DER from scratch:
# pes = copy.deepcopy(orig_pes)
pes = ProfileElementSequence.from_der(der)
try:
param.apply(pes)
except ValueError as e:
raise ValueError(f'{logloc} apply_val(clean_val): {e}') from e
changed_der = pes.to_der()
pes2 = ProfileElementSequence.from_der(changed_der)
read_back_val = t.param_cls.get_value_from_pes(pes2)
# compose log string to show the precise type of dict values
if isinstance(read_back_val, dict):
types = set()
for v in read_back_val.values():
types.add(f'{type(v).__name__}')
read_back_val_type = '{' + ', '.join(types) + '}'
else:
read_back_val_type = f'{type(read_back_val).__name__}'
logloc = (f'{logloc} read_back_val={valtypestr(read_back_val)}')
if isinstance(read_back_val, dict) and not t.param_cls.get_name() in read_back_val.keys():
raise ValueError(f'{logloc}: expected to find name {t.param_cls.get_name()!r} in read_back_val')
expect_val = t.expect_val
if not isinstance(expect_val, dict):
expect_val = { t.param_cls.get_name(): expect_val }
if read_back_val != expect_val:
raise ValueError(f'{logloc}: expected {expect_val=!r}:{type(t.expect_val).__name__}')
ok = logloc.replace(' clean_val', '\n\tclean_val'
).replace(' read_back_val', '\n\tread_back_val'
).replace('=', '=\t'
)
output = f'\nok: {ok}'
outputs.append(output)
print(output)
except Exception as e:
raise RuntimeError(f'Error while testing UPP {upp_fname} {test_idx=}: {e}') from e
output = '\n'.join(outputs) + '\n'
xo_name = 'test_configurable_parameters'
if update_expected_output:
with resources.path(xo, xo_name) as xo_path:
with open(xo_path, 'w', encoding='utf-8') as f:
f.write(output)
else:
xo_str = resources.read_text(xo, xo_name)
if xo_str != output:
at = 0
while at < len(output):
if output[at] == xo_str[at]:
at += 1
continue
break
raise RuntimeError(f'output differs from expected output at position {at}: "{output[at:at+20]}" != "{xo_str[at:at+20]}"')
if __name__ == "__main__":
if '-u' in sys.argv:
update_expected_output = True
sys.argv.remove('-u')
unittest.main()

38
tests/unittests/test_esim_saip.py
View File

@@ -63,6 +63,44 @@ class SaipTest(unittest.TestCase):
# TODO: we don't actually test the results here, but we just verify there is no exception
pes.to_der()
def test_personalization2(self):
"""Test some of the personalization operations."""
pes = ProfileElementSequence.from_der(self.per_input)
prev_val = set(SdKeyScp80_01Kic.get_values_from_pes(pes))
print(f'{prev_val=}')
self.assertTrue(prev_val)
set_val = '42342342342342342342342342342342'
param = SdKeyScp80_01Kic(set_val)
param.validate()
param.apply(pes)
get_val1 = set(SdKeyScp80_01Kic.get_values_from_pes(pes))
print(f'{get_val1=} {set_val=}')
self.assertEqual(get_val1, set((set_val,)))
get_val1b = set(SdKeyScp80_01Kic.get_values_from_pes(pes))
print(f'{get_val1b=} {set_val=}')
self.assertEqual(get_val1b, set((set_val,)))
print("HELLOO")
der = pes.to_der()
print("DONEDONE")
get_val1c = set(SdKeyScp80_01Kic.get_values_from_pes(pes))
print(f'{get_val1c=} {set_val=}')
self.assertEqual(get_val1c, set((set_val,)))
# assertTrue to not dump the entire der.
# Expecting the modified DER to be different. If this assertion fails, then no change has happened in the output
# DER and the ConfigurableParameter subclass is buggy.
self.assertTrue(der != self.per_input)
pes2 = ProfileElementSequence.from_der(der)
get_val2 = set(SdKeyScp80_01Kic.get_values_from_pes(pes2))
print(f'{get_val2=} {set_val=}')
self.assertEqual(get_val2, set((set_val,)))
def test_constructor_encode(self):
"""Test that DER-encoding of PE created by "empty" constructor works without raising exception."""
for cls in [ProfileElementMF, ProfileElementPuk, ProfileElementPin, ProfileElementTelecom,

216
tests/unittests/test_param_src.py Executable file
View File

@@ -0,0 +1,216 @@
#!/usr/bin/env python3
# (C) 2025 by sysmocom - s.f.m.c. GmbH <info@sysmocom.de>
#
# Author: Neels Hofmeyr
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import sys
import math
from importlib import resources
import unittest
from pySim.esim.saip import param_source
import xo
update_expected_output = False
class D:
mandatory = set()
optional = set()
def __init__(self, **kwargs):
if (set(kwargs.keys()) - set(self.optional)) != set(self.mandatory):
raise RuntimeError(f'{self.__class__.__name__}.__init__():'
f' {set(kwargs.keys())=!r} - {self.optional=!r} != {self.mandatory=!r}')
for k, v in kwargs.items():
setattr(self, k, v)
for k in self.optional:
if not hasattr(self, k):
setattr(self, k, None)
decimals = '0123456789'
hexadecimals = '0123456789abcdefABCDEF'
class FakeRandom:
vals = b'\xab\xcfm\xf0\x98J_\xcf\x96\x87fp5l\xe7f\xd1\xd6\x97\xc1\xf9]\x8c\x86+\xdb\t^ke\xc1r'
i = 0
@classmethod
def next(cls):
cls.i = (cls.i + 1) % len(cls.vals)
return cls.vals[cls.i]
@staticmethod
def randint(a, b):
d = b - a
n_bytes = math.ceil(math.log(d, 2))
r = int.from_bytes( bytes(FakeRandom.next() for i in range(n_bytes)) )
return a + (r % (b - a))
@staticmethod
def randbytes(n):
return bytes(FakeRandom.next() for i in range(n))
class ParamSourceTest(unittest.TestCase):
def test_param_source(self):
class ParamSourceTest(D):
mandatory = (
'param_source',
'n',
'expect',
)
optional = (
'expect_arg',
'csv_rows',
)
def expect_const(t, vals):
return tuple(t.expect_arg) == tuple(vals)
def expect_random(t, vals):
chars = t.expect_arg.get('digits')
repetitions = (t.n - len(set(vals)))
if repetitions:
raise RuntimeError(f'expect_random: there are {repetitions} repetitions in the returned values: {vals}')
for val_i in range(len(vals)):
v = vals[val_i]
val_minlen = t.expect_arg.get('val_minlen')
val_maxlen = t.expect_arg.get('val_maxlen')
if len(v) < val_minlen or len(v) > val_maxlen:
raise RuntimeError(f'expect_random: invalid length {len(v)} for value [{val_i}]: {v!r}, expecting'
f' {val_minlen}..{val_maxlen}')
if chars is not None and not all(c in chars for c in v):
raise RuntimeError(f'expect_random: invalid char in value [{val_i}]: {v!r}')
return True
param_source_tests = [
ParamSourceTest(param_source=param_source.ConstantSource.from_str('123'),
n=3,
expect=expect_const,
expect_arg=('123', '123', '123')
),
ParamSourceTest(param_source=param_source.RandomDigitSource.from_str('12345'),
n=3,
expect=expect_random,
expect_arg={'digits': decimals,
'val_minlen': 5,
'val_maxlen': 5,
},
),
ParamSourceTest(param_source=param_source.RandomDigitSource.from_str('1..999'),
n=10,
expect=expect_random,
expect_arg={'digits': decimals,
'val_minlen': 1,
'val_maxlen': 3,
},
),
ParamSourceTest(param_source=param_source.RandomDigitSource.from_str('001..999'),
n=10,
expect=expect_random,
expect_arg={'digits': decimals,
'val_minlen': 3,
'val_maxlen': 3,
},
),
ParamSourceTest(param_source=param_source.RandomHexDigitSource.from_str('12345678'),
n=3,
expect=expect_random,
expect_arg={'digits': hexadecimals,
'val_minlen': 8,
'val_maxlen': 8,
},
),
ParamSourceTest(param_source=param_source.RandomHexDigitSource.from_str('0*8'),
n=3,
expect=expect_random,
expect_arg={'digits': hexadecimals,
'val_minlen': 8,
'val_maxlen': 8,
},
),
ParamSourceTest(param_source=param_source.RandomHexDigitSource.from_str('00*4'),
n=3,
expect=expect_random,
expect_arg={'digits': hexadecimals,
'val_minlen': 8,
'val_maxlen': 8,
},
),
ParamSourceTest(param_source=param_source.IncDigitSource.from_str('10001'),
n=3,
expect=expect_const,
expect_arg=('10001', '10002', '10003')
),
ParamSourceTest(param_source=param_source.CsvSource('column_name'),
n=3,
expect=expect_const,
expect_arg=('first val', 'second val', 'third val'),
csv_rows=(
{'column_name': 'first val',},
{'column_name': 'second val',},
{'column_name': 'third val',},
)
),
]
outputs = []
for t in param_source_tests:
try:
if hasattr(t.param_source, 'random_impl'):
t.param_source.random_impl = FakeRandom
vals = []
for i in range(t.n):
csv_row = None
if t.csv_rows is not None:
csv_row = t.csv_rows[i]
vals.append( t.param_source.get_next(csv_row=csv_row) )
if not t.expect(t, vals):
raise RuntimeError(f'invalid values returned: returned {vals}')
output = f'ok: {t.param_source.__class__.__name__} {vals=!r}'
outputs.append(output)
print(output)
except RuntimeError as e:
raise RuntimeError(f'{t.param_source.__class__.__name__} {t.n=} {t.expect.__name__}({t.expect_arg!r}): {e}') from e
output = '\n'.join(outputs) + '\n'
xo_name = 'test_param_src'
if update_expected_output:
with resources.path(xo, xo_name) as xo_path:
with open(xo_path, 'w', encoding='utf-8') as f:
f.write(output)
else:
xo_str = resources.read_text(xo, xo_name)
if xo_str != output:
at = 0
while at < len(output):
if output[at] == xo_str[at]:
at += 1
continue
break
raise RuntimeError(f'output differs from expected output at position {at}: {xo_str[at:at+128]!r}')
if __name__ == "__main__":
if '-u' in sys.argv:
update_expected_output = True
sys.argv.remove('-u')
unittest.main()

1520
tests/unittests/xo/test_configurable_parameters Normal file
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File diff suppressed because it is too large Load Diff

9
tests/unittests/xo/test_param_src Normal file
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@@ -0,0 +1,9 @@
ok: ConstantSource vals=['123', '123', '123']
ok: RandomDigitSource vals=['13987', '49298', '55670']
ok: RandomDigitSource vals=['650', '580', '49', '885', '497', '195', '320', '137', '245', '663']
ok: RandomDigitSource vals=['638', '025', '232', '779', '826', '972', '650', '580', '049', '885']
ok: RandomHexDigitSource vals=['6b65c172', 'abcf6df0', '984a5fcf']
ok: RandomHexDigitSource vals=['96876670', '356ce766', 'd1d697c1']
ok: RandomHexDigitSource vals=['f95d8c86', '2bdb095e', '6b65c172']
ok: IncDigitSource vals=['10001', '10002', '10003']
ok: CsvSource vals=['first val', 'second val', 'third val']