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pigweed / third_party / github / project-chip / connectedhomeip / refs/heads/master / . / src / app / tests / TestICDMonitoringTable.cpp
blob: f5de7ed59ba3e139a73001aaed75fd30bbae1b46 [file] [log] [blame]
/*
*
* Copyright (c) 2022 Project CHIP Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <app/icd/server/ICDMonitoringTable.h>
#include <crypto/CHIPCryptoPAL.h>
#include <lib/core/CHIPError.h>
#include <lib/support/DefaultStorageKeyAllocator.h>
#include <lib/support/TestPersistentStorageDelegate.h>
#include <lib/support/UnitTestRegistration.h>
#include <nlunit-test.h>
#include <crypto/DefaultSessionKeystore.h>
using namespace chip;
using TestSessionKeystoreImpl = Crypto::DefaultSessionKeystore;
namespace {
constexpr uint16_t kMaxTestClients1 = 2;
constexpr uint16_t kMaxTestClients2 = 1;
constexpr FabricIndex kTestFabricIndex1 = 1;
constexpr FabricIndex kTestFabricIndex2 = kMaxValidFabricIndex;
constexpr uint64_t kClientNodeId11 = 0x100001;
constexpr uint64_t kClientNodeId12 = 0x100002;
constexpr uint64_t kClientNodeId13 = 0x100003;
constexpr uint64_t kClientNodeId21 = 0x200001;
constexpr uint64_t kClientNodeId22 = 0x200002;
constexpr uint8_t kKeyBuffer0a[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
constexpr uint8_t kKeyBuffer0b[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
constexpr uint8_t kKeyBuffer1a[] = {
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f
};
constexpr uint8_t kKeyBuffer1b[] = {
0xf1, 0xe1, 0xd1, 0xc1, 0xb1, 0xa1, 0x91, 0x81, 0x71, 0x61, 0x51, 0x14, 0x31, 0x21, 0x11, 0x01
};
constexpr uint8_t kKeyBuffer2a[] = {
0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e, 0x2f
};
constexpr uint8_t kKeyBuffer2b[] = {
0xf2, 0xe2, 0xd2, 0xc2, 0xb2, 0xa2, 0x92, 0x82, 0x72, 0x62, 0x52, 0x42, 0x32, 0x22, 0x12, 0x02
};
constexpr uint8_t kKeyBuffer3a[] = {
0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e, 0x3f
};
void TestEntryAssignationOverload(nlTestSuite * aSuite, void * aContext)
{
TestSessionKeystoreImpl keystore;
ICDMonitoringEntry entry(&keystore);
// Test Setting Key
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry.SetKey(ByteSpan(kKeyBuffer1a)));
entry.fabricIndex = 2;
NL_TEST_ASSERT(aSuite, !entry.IsValid());
entry.checkInNodeID = 34;
entry.monitoredSubject = 32;
// Entry should be valid now
NL_TEST_ASSERT(aSuite, entry.IsValid());
ICDMonitoringEntry entry2;
NL_TEST_ASSERT(aSuite, !entry2.IsValid());
entry2 = entry;
NL_TEST_ASSERT(aSuite, entry2.IsValid());
NL_TEST_ASSERT(aSuite, entry2.fabricIndex == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, entry2.checkInNodeID == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, entry2.monitoredSubject == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry2.IsKeyEquivalent(ByteSpan(kKeyBuffer1a)));
}
void TestEntryKeyFunctions(nlTestSuite * aSuite, void * aContext)
{
TestSessionKeystoreImpl keystore;
ICDMonitoringEntry entry(&keystore);
// Test Setting Key
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry.SetKey(ByteSpan(kKeyBuffer1a)));
// Test Setting Key again
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INTERNAL == entry.SetKey(ByteSpan(kKeyBuffer1b)));
// Test Key Deletion
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry.DeleteKey());
// Test Setting Key again
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry.SetKey(ByteSpan(kKeyBuffer1b)));
// Test Comparing Key
NL_TEST_ASSERT(aSuite, !entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1a)));
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1b)));
// Test Deleting Key
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry.DeleteKey());
}
void TestSaveAndLoadRegistrationValue(nlTestSuite * aSuite, void * aContext)
{
TestPersistentStorageDelegate storage;
TestSessionKeystoreImpl keystore;
ICDMonitoringTable saving(storage, kTestFabricIndex1, kMaxTestClients1, &keystore);
ICDMonitoringTable loading(storage, kTestFabricIndex1, kMaxTestClients1, &keystore);
ICDMonitoringEntry entry(&keystore);
CHIP_ERROR err;
// Insert first entry
ICDMonitoringEntry entry1(&keystore);
entry1.checkInNodeID = kClientNodeId11;
entry1.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry1.SetKey(ByteSpan(kKeyBuffer1a)));
err = saving.Set(0, entry1);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert second entry
ICDMonitoringEntry entry2(&keystore);
entry2.checkInNodeID = kClientNodeId12;
entry2.monitoredSubject = kClientNodeId11;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry2.SetKey(ByteSpan(kKeyBuffer2a)));
err = saving.Set(1, entry2);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert one too many
ICDMonitoringEntry entry3(&keystore);
entry3.checkInNodeID = kClientNodeId13;
entry3.monitoredSubject = kClientNodeId13;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry3.SetKey(ByteSpan(kKeyBuffer3a)));
err = saving.Set(2, entry3);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Retrieve first entry
err = loading.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry1.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve second entry
err = loading.Get(1, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer2a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry2.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// No more entries
err = loading.Get(2, entry);
NL_TEST_ASSERT(aSuite, 2 == loading.Limit());
NL_TEST_ASSERT(aSuite, CHIP_ERROR_NOT_FOUND == err);
// Remove first entry
saving.Remove(0);
ICDMonitoringEntry entry4(&keystore);
entry4.checkInNodeID = kClientNodeId13;
entry4.monitoredSubject = kClientNodeId11;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry4.SetKey(ByteSpan(kKeyBuffer1b)));
err = saving.Set(1, entry4);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Retrieve first entry (not modified but shifted)
err = loading.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer2a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry2.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve second entry
err = loading.Get(1, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId13 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1b)));
NL_TEST_ASSERT(aSuite,
memcmp(entry4.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
}
void TestSaveAllInvalidRegistrationValues(nlTestSuite * aSuite, void * aContext)
{
TestPersistentStorageDelegate storage;
TestSessionKeystoreImpl keystore;
ICDMonitoringTable table(storage, kTestFabricIndex1, kMaxTestClients1, &keystore);
CHIP_ERROR err;
// Invalid checkInNodeID
ICDMonitoringEntry entry1(&keystore);
entry1.checkInNodeID = kUndefinedNodeId;
entry1.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry1.SetKey(ByteSpan(kKeyBuffer1a)));
err = table.Set(0, entry1);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Invalid monitoredSubject
ICDMonitoringEntry entry2(&keystore);
entry2.checkInNodeID = kClientNodeId11;
entry2.monitoredSubject = kUndefinedNodeId;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry2.SetKey(ByteSpan(kKeyBuffer1a)));
err = table.Set(0, entry2);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Invalid key (empty)
ICDMonitoringEntry entry3(&keystore);
entry3.checkInNodeID = kClientNodeId11;
entry3.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == entry3.SetKey(ByteSpan()));
err = table.Set(0, entry3);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Invalid key (too short)
ICDMonitoringEntry entry4(&keystore);
entry4.checkInNodeID = kClientNodeId11;
entry4.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == entry4.SetKey(ByteSpan(kKeyBuffer0a)));
err = table.Set(0, entry4);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Invalid key (too long)
ICDMonitoringEntry entry5(&keystore);
entry5.checkInNodeID = kClientNodeId11;
entry5.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == entry5.SetKey(ByteSpan(kKeyBuffer0b)));
err = table.Set(0, entry5);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
}
void TestSaveLoadRegistrationValueForMultipleFabrics(nlTestSuite * aSuite, void * aContext)
{
TestPersistentStorageDelegate storage;
TestSessionKeystoreImpl keystore;
ICDMonitoringTable table1(storage, kTestFabricIndex1, kMaxTestClients1, &keystore);
ICDMonitoringTable table2(storage, kTestFabricIndex2, kMaxTestClients2, &keystore);
ICDMonitoringEntry entry(&keystore);
CHIP_ERROR err;
// Insert in first fabric
ICDMonitoringEntry entry1(&keystore);
entry1.checkInNodeID = kClientNodeId11;
entry1.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry1.SetKey(ByteSpan(kKeyBuffer1a)));
err = table1.Set(0, entry1);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert in first fabric
ICDMonitoringEntry entry2(&keystore);
entry2.checkInNodeID = kClientNodeId12;
entry2.monitoredSubject = kClientNodeId11;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry2.SetKey(ByteSpan(kKeyBuffer1b)));
err = table1.Set(1, entry2);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert in second fabric
ICDMonitoringEntry entry3(&keystore);
entry3.checkInNodeID = kClientNodeId21;
entry3.monitoredSubject = kClientNodeId22;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry3.SetKey(ByteSpan(kKeyBuffer2a)));
err = table2.Set(0, entry3);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert in second fabric (one too many)
ICDMonitoringEntry entry4(&keystore);
entry4.checkInNodeID = kClientNodeId22;
entry4.monitoredSubject = kClientNodeId21;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry4.SetKey(ByteSpan(kKeyBuffer2b)));
err = table2.Set(1, entry4);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_INVALID_ARGUMENT == err);
// Retrieve fabric1, first entry
err = table1.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry1.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve fabric1, second entry
err = table1.Get(1, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1b)));
NL_TEST_ASSERT(aSuite,
memcmp(entry2.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve fabric2, first entry
err = table2.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex2 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId21 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId22 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer2a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry3.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
}
void TestDeleteValidEntryFromStorage(nlTestSuite * aSuite, void * context)
{
TestPersistentStorageDelegate storage;
TestSessionKeystoreImpl keystore;
ICDMonitoringTable table1(storage, kTestFabricIndex1, kMaxTestClients1, &keystore);
ICDMonitoringTable table2(storage, kTestFabricIndex2, kMaxTestClients2, &keystore);
ICDMonitoringEntry entry(&keystore);
CHIP_ERROR err;
// Insert in first fabric
ICDMonitoringEntry entry1(&keystore);
entry1.checkInNodeID = kClientNodeId11;
entry1.monitoredSubject = kClientNodeId12;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry1.SetKey(ByteSpan(kKeyBuffer1a)));
err = table1.Set(0, entry1);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert in first fabric
ICDMonitoringEntry entry2(&keystore);
entry2.checkInNodeID = kClientNodeId12;
entry2.monitoredSubject = kClientNodeId11;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry2.SetKey(ByteSpan(kKeyBuffer2a)));
err = table1.Set(1, entry2);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Insert in second fabric
ICDMonitoringEntry entry3(&keystore);
entry3.checkInNodeID = kClientNodeId21;
entry3.monitoredSubject = kClientNodeId22;
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == entry3.SetKey(ByteSpan(kKeyBuffer1b)));
err = table2.Set(0, entry3);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Remove (invalid)
err = table1.Remove(2);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR != err);
// Retrieve fabric1
err = table1.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry1.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve second entry (not modified)
err = table1.Get(1, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer2a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry2.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Remove (existing)
err = table1.Remove(0);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
// Retrieve second entry (shifted down)
err = table1.Get(1, entry);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_NOT_FOUND == err);
err = table1.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex1 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId12 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId11 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer2a)));
NL_TEST_ASSERT(aSuite,
memcmp(entry2.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Retrieve fabric2, first entry
err = table2.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex2 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId21 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId22 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1b)));
NL_TEST_ASSERT(aSuite,
memcmp(entry3.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Remove all (fabric 1)
err = table1.RemoveAll();
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
err = table1.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_NOT_FOUND == err);
// Check fabric 2
err = table2.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
NL_TEST_ASSERT(aSuite, kTestFabricIndex2 == entry.fabricIndex);
NL_TEST_ASSERT(aSuite, kClientNodeId21 == entry.checkInNodeID);
NL_TEST_ASSERT(aSuite, kClientNodeId22 == entry.monitoredSubject);
NL_TEST_ASSERT(aSuite, entry.IsKeyEquivalent(ByteSpan(kKeyBuffer1b)));
NL_TEST_ASSERT(aSuite,
memcmp(entry3.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
entry.hmacKeyHandle.As<Crypto::Symmetric128BitsKeyByteArray>(),
sizeof(Crypto::Symmetric128BitsKeyByteArray)) == 0);
// Remove all (fabric 2)
err = table2.RemoveAll();
NL_TEST_ASSERT(aSuite, CHIP_NO_ERROR == err);
err = table2.Get(0, entry);
NL_TEST_ASSERT(aSuite, CHIP_ERROR_NOT_FOUND == err);
}
} // namespace
/**
* Set up the test suite.
*/
int Test_Setup(void * inContext)
{
return SUCCESS;
}
int TestClientMonitoringRegistrationTable()
{
static nlTest sTests[] = { NL_TEST_DEF("TestEntryKeyFunctions", TestEntryKeyFunctions),
NL_TEST_DEF("TestEntryAssignationOverload", TestEntryAssignationOverload),
NL_TEST_DEF("TestSaveAndLoadRegistrationValue", TestSaveAndLoadRegistrationValue),
NL_TEST_DEF("TestSaveAllInvalidRegistrationValues", TestSaveAllInvalidRegistrationValues),
NL_TEST_DEF("TestSaveLoadRegistrationValueForMultipleFabrics",
TestSaveLoadRegistrationValueForMultipleFabrics),
NL_TEST_DEF("TestDeleteValidEntryFromStorage", TestDeleteValidEntryFromStorage),
NL_TEST_SENTINEL() };
nlTestSuite cmSuite = { "TestClientMonitoringRegistrationTable", &sTests[0], &Test_Setup, nullptr };
nlTestRunner(&cmSuite, nullptr);
return (nlTestRunnerStats(&cmSuite));
}
CHIP_REGISTER_TEST_SUITE(TestClientMonitoringRegistrationTable)