linux/tools/crypto/ccp/test_dbc.py
Mario Limonciello 15f8aa7bb3 crypto: ccp - Add unit tests for dynamic boost control
Interacting with dynamic boost control messages requires the caller
to supply a signature. To allow validation of individual dynamic
boost control components, introduce a set of tests that can be run.

The tests can be run in 3 distinct different environments, and so
certain tests will be skipped depending on the environment.

1. Systems that do not support DBC.
2. Production systems that support DBC but are secured silicon.
3. Pre-production systems that support DBC but are unsecured silicon.

Unsecured silicon does not validate the signature, and so this allows
testing more of the state machine and functionality.

Acked-by: Tom Lendacky <thomas.lendacky@amd.com>
Signed-off-by: Mario Limonciello <mario.limonciello@amd.com>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
2023-07-20 22:15:12 +12:00

267 lines
9.3 KiB
Python
Executable File

#!/usr/bin/python3
# SPDX-License-Identifier: GPL-2.0
import unittest
import os
import time
import glob
from dbc import *
# Artificial delay between set commands
SET_DELAY = 0.5
class invalid_param(ctypes.Structure):
_fields_ = [
("data", ctypes.c_uint8),
]
def system_is_secured() -> bool:
fused_part = glob.glob("/sys/bus/pci/drivers/ccp/**/fused_part")[0]
if os.path.exists(fused_part):
with open(fused_part, "r") as r:
return int(r.read()) == 1
return True
class DynamicBoostControlTest(unittest.TestCase):
def __init__(self, data) -> None:
self.d = None
self.signature = "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"
self.uid = "1111111111111111"
super().__init__(data)
def setUp(self) -> None:
self.d = open(DEVICE_NODE)
return super().setUp()
def tearDown(self) -> None:
if self.d:
self.d.close()
return super().tearDown()
class TestUnsupportedSystem(DynamicBoostControlTest):
def setUp(self) -> None:
if os.path.exists(DEVICE_NODE):
self.skipTest("system is supported")
with self.assertRaises(FileNotFoundError) as error:
super().setUp()
self.assertEqual(error.exception.errno, 2)
def test_unauthenticated_nonce(self) -> None:
"""fetch unauthenticated nonce"""
with self.assertRaises(ValueError) as error:
get_nonce(self.d, None)
class TestInvalidIoctls(DynamicBoostControlTest):
def __init__(self, data) -> None:
self.data = invalid_param()
self.data.data = 1
super().__init__(data)
def setUp(self) -> None:
if not os.path.exists(DEVICE_NODE):
self.skipTest("system is unsupported")
return super().setUp()
def test_invalid_nonce_ioctl(self) -> None:
"""tries to call get_nonce ioctl with invalid data structures"""
# 0x1 (get nonce), and invalid data
INVALID1 = IOWR(ord("D"), 0x01, invalid_param)
with self.assertRaises(OSError) as error:
fcntl.ioctl(self.d, INVALID1, self.data, True)
self.assertEqual(error.exception.errno, 22)
def test_invalid_setuid_ioctl(self) -> None:
"""tries to call set_uid ioctl with invalid data structures"""
# 0x2 (set uid), and invalid data
INVALID2 = IOW(ord("D"), 0x02, invalid_param)
with self.assertRaises(OSError) as error:
fcntl.ioctl(self.d, INVALID2, self.data, True)
self.assertEqual(error.exception.errno, 22)
def test_invalid_setuid_rw_ioctl(self) -> None:
"""tries to call set_uid ioctl with invalid data structures"""
# 0x2 as RW (set uid), and invalid data
INVALID3 = IOWR(ord("D"), 0x02, invalid_param)
with self.assertRaises(OSError) as error:
fcntl.ioctl(self.d, INVALID3, self.data, True)
self.assertEqual(error.exception.errno, 22)
def test_invalid_param_ioctl(self) -> None:
"""tries to call param ioctl with invalid data structures"""
# 0x3 (param), and invalid data
INVALID4 = IOWR(ord("D"), 0x03, invalid_param)
with self.assertRaises(OSError) as error:
fcntl.ioctl(self.d, INVALID4, self.data, True)
self.assertEqual(error.exception.errno, 22)
def test_invalid_call_ioctl(self) -> None:
"""tries to call the DBC ioctl with invalid data structures"""
# 0x4, and invalid data
INVALID5 = IOWR(ord("D"), 0x04, invalid_param)
with self.assertRaises(OSError) as error:
fcntl.ioctl(self.d, INVALID5, self.data, True)
self.assertEqual(error.exception.errno, 22)
class TestInvalidSignature(DynamicBoostControlTest):
def setUp(self) -> None:
if not os.path.exists(DEVICE_NODE):
self.skipTest("system is unsupported")
if not system_is_secured():
self.skipTest("system is unfused")
return super().setUp()
def test_unauthenticated_nonce(self) -> None:
"""fetch unauthenticated nonce"""
get_nonce(self.d, None)
def test_multiple_unauthenticated_nonce(self) -> None:
"""ensure state machine always returns nonce"""
for count in range(0, 2):
get_nonce(self.d, None)
def test_authenticated_nonce(self) -> None:
"""fetch authenticated nonce"""
with self.assertRaises(OSError) as error:
get_nonce(self.d, self.signature)
self.assertEqual(error.exception.errno, 1)
def test_set_uid(self) -> None:
"""set uid"""
with self.assertRaises(OSError) as error:
set_uid(self.d, self.uid, self.signature)
self.assertEqual(error.exception.errno, 1)
def test_get_param(self) -> None:
"""fetch a parameter"""
with self.assertRaises(OSError) as error:
process_param(self.d, PARAM_GET_SOC_PWR_CUR, self.signature)
self.assertEqual(error.exception.errno, 1)
def test_set_param(self) -> None:
"""set a parameter"""
with self.assertRaises(OSError) as error:
process_param(self.d, PARAM_SET_PWR_CAP, self.signature, 1000)
self.assertEqual(error.exception.errno, 1)
class TestUnFusedSystem(DynamicBoostControlTest):
def setup_identity(self) -> None:
"""sets up the identity of the caller"""
# if already authenticated these may fail
try:
get_nonce(self.d, None)
except PermissionError:
pass
try:
set_uid(self.d, self.uid, self.signature)
except BlockingIOError:
pass
try:
get_nonce(self.d, self.signature)
except PermissionError:
pass
def setUp(self) -> None:
if not os.path.exists(DEVICE_NODE):
self.skipTest("system is unsupported")
if system_is_secured():
self.skipTest("system is fused")
super().setUp()
self.setup_identity()
time.sleep(SET_DELAY)
def test_get_valid_param(self) -> None:
"""fetch all possible parameters"""
# SOC power
soc_power_max = process_param(self.d, PARAM_GET_SOC_PWR_MAX, self.signature)
soc_power_min = process_param(self.d, PARAM_GET_SOC_PWR_MIN, self.signature)
self.assertGreater(soc_power_max.parameter, soc_power_min.parameter)
# fmax
fmax_max = process_param(self.d, PARAM_GET_FMAX_MAX, self.signature)
fmax_min = process_param(self.d, PARAM_GET_FMAX_MIN, self.signature)
self.assertGreater(fmax_max.parameter, fmax_min.parameter)
# cap values
keys = {
"fmax-cap": PARAM_GET_FMAX_CAP,
"power-cap": PARAM_GET_PWR_CAP,
"current-temp": PARAM_GET_CURR_TEMP,
"soc-power-cur": PARAM_GET_SOC_PWR_CUR,
}
for k in keys:
result = process_param(self.d, keys[k], self.signature)
self.assertGreater(result.parameter, 0)
def test_get_invalid_param(self) -> None:
"""fetch an invalid parameter"""
try:
set_uid(self.d, self.uid, self.signature)
except OSError:
pass
with self.assertRaises(OSError) as error:
process_param(self.d, (0xF,), self.signature)
self.assertEqual(error.exception.errno, 22)
def test_set_fmax(self) -> None:
"""get/set fmax limit"""
# fetch current
original = process_param(self.d, PARAM_GET_FMAX_CAP, self.signature)
# set the fmax
target = original.parameter - 100
process_param(self.d, PARAM_SET_FMAX_CAP, self.signature, target)
time.sleep(SET_DELAY)
new = process_param(self.d, PARAM_GET_FMAX_CAP, self.signature)
self.assertEqual(new.parameter, target)
# revert back to current
process_param(self.d, PARAM_SET_FMAX_CAP, self.signature, original.parameter)
time.sleep(SET_DELAY)
cur = process_param(self.d, PARAM_GET_FMAX_CAP, self.signature)
self.assertEqual(cur.parameter, original.parameter)
def test_set_power_cap(self) -> None:
"""get/set power cap limit"""
# fetch current
original = process_param(self.d, PARAM_GET_PWR_CAP, self.signature)
# set the fmax
target = original.parameter - 10
process_param(self.d, PARAM_SET_PWR_CAP, self.signature, target)
time.sleep(SET_DELAY)
new = process_param(self.d, PARAM_GET_PWR_CAP, self.signature)
self.assertEqual(new.parameter, target)
# revert back to current
process_param(self.d, PARAM_SET_PWR_CAP, self.signature, original.parameter)
time.sleep(SET_DELAY)
cur = process_param(self.d, PARAM_GET_PWR_CAP, self.signature)
self.assertEqual(cur.parameter, original.parameter)
def test_set_3d_graphics_mode(self) -> None:
"""set/get 3d graphics mode"""
# these aren't currently implemented but may be some day
# they are *expected* to fail
with self.assertRaises(OSError) as error:
process_param(self.d, PARAM_GET_GFX_MODE, self.signature)
self.assertEqual(error.exception.errno, 2)
time.sleep(SET_DELAY)
with self.assertRaises(OSError) as error:
process_param(self.d, PARAM_SET_GFX_MODE, self.signature, 1)
self.assertEqual(error.exception.errno, 2)
if __name__ == "__main__":
unittest.main()