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review.blissroms.org / platform_packages_modules_Connectivity-old / a9716ffcb8b16ea488969a35af68a46a2f745043 / . / service / native / TrafficControllerTest.cpp
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/*
* Copyright 2017 The Android Open Source Project
*
* 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.
*
* TrafficControllerTest.cpp - unit tests for TrafficController.cpp
*/
#include <cstdint>
#include <string>
#include <vector>
#include <fcntl.h>
#include <inttypes.h>
#include <linux/inet_diag.h>
#include <linux/sock_diag.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <unistd.h>
#include <gtest/gtest.h>
#include <android-base/stringprintf.h>
#include <android-base/strings.h>
#include <netdutils/MockSyscalls.h>
#include "TrafficController.h"
#include "bpf/BpfUtils.h"
using namespace android::bpf; // NOLINT(google-build-using-namespace): grandfathered
namespace android {
namespace net {
using base::Result;
using netdutils::isOk;
constexpr int TEST_MAP_SIZE = 10;
constexpr uid_t TEST_UID = 10086;
constexpr uid_t TEST_UID2 = 54321;
constexpr uid_t TEST_UID3 = 98765;
constexpr uint32_t TEST_TAG = 42;
constexpr uint32_t TEST_COUNTERSET = 1;
constexpr uint32_t DEFAULT_COUNTERSET = 0;
#define ASSERT_VALID(x) ASSERT_TRUE((x).isValid())
class TrafficControllerTest : public ::testing::Test {
protected:
TrafficControllerTest() {}
TrafficController mTc;
BpfMap<uint64_t, UidTagValue> mFakeCookieTagMap;
BpfMap<uint32_t, uint8_t> mFakeUidCounterSetMap;
BpfMap<uint32_t, StatsValue> mFakeAppUidStatsMap;
BpfMap<StatsKey, StatsValue> mFakeStatsMapA;
BpfMap<uint32_t, uint8_t> mFakeConfigurationMap;
BpfMap<uint32_t, UidOwnerValue> mFakeUidOwnerMap;
BpfMap<uint32_t, uint8_t> mFakeUidPermissionMap;
void SetUp() {
std::lock_guard guard(mTc.mMutex);
ASSERT_EQ(0, setrlimitForTest());
mFakeCookieTagMap.reset(createMap(BPF_MAP_TYPE_HASH, sizeof(uint64_t), sizeof(UidTagValue),
TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeCookieTagMap);
mFakeUidCounterSetMap.reset(
createMap(BPF_MAP_TYPE_HASH, sizeof(uint32_t), sizeof(uint8_t), TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeUidCounterSetMap);
mFakeAppUidStatsMap.reset(createMap(BPF_MAP_TYPE_HASH, sizeof(uint32_t), sizeof(StatsValue),
TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeAppUidStatsMap);
mFakeStatsMapA.reset(createMap(BPF_MAP_TYPE_HASH, sizeof(StatsKey), sizeof(StatsValue),
TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeStatsMapA);
mFakeConfigurationMap.reset(
createMap(BPF_MAP_TYPE_HASH, sizeof(uint32_t), sizeof(uint8_t), 1, 0));
ASSERT_VALID(mFakeConfigurationMap);
mFakeUidOwnerMap.reset(createMap(BPF_MAP_TYPE_HASH, sizeof(uint32_t), sizeof(UidOwnerValue),
TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeUidOwnerMap);
mFakeUidPermissionMap.reset(
createMap(BPF_MAP_TYPE_HASH, sizeof(uint32_t), sizeof(uint8_t), TEST_MAP_SIZE, 0));
ASSERT_VALID(mFakeUidPermissionMap);
mTc.mCookieTagMap.reset(dupFd(mFakeCookieTagMap.getMap()));
ASSERT_VALID(mTc.mCookieTagMap);
mTc.mUidCounterSetMap.reset(dupFd(mFakeUidCounterSetMap.getMap()));
ASSERT_VALID(mTc.mUidCounterSetMap);
mTc.mAppUidStatsMap.reset(dupFd(mFakeAppUidStatsMap.getMap()));
ASSERT_VALID(mTc.mAppUidStatsMap);
mTc.mStatsMapA.reset(dupFd(mFakeStatsMapA.getMap()));
ASSERT_VALID(mTc.mStatsMapA);
mTc.mConfigurationMap.reset(dupFd(mFakeConfigurationMap.getMap()));
ASSERT_VALID(mTc.mConfigurationMap);
// Always write to stats map A by default.
ASSERT_RESULT_OK(mTc.mConfigurationMap.writeValue(CURRENT_STATS_MAP_CONFIGURATION_KEY,
SELECT_MAP_A, BPF_ANY));
mTc.mUidOwnerMap.reset(dupFd(mFakeUidOwnerMap.getMap()));
ASSERT_VALID(mTc.mUidOwnerMap);
mTc.mUidPermissionMap.reset(dupFd(mFakeUidPermissionMap.getMap()));
ASSERT_VALID(mTc.mUidPermissionMap);
mTc.mPrivilegedUser.clear();
}
int dupFd(const android::base::unique_fd& mapFd) {
return fcntl(mapFd.get(), F_DUPFD_CLOEXEC, 0);
}
void populateFakeStats(uint64_t cookie, uint32_t uid, uint32_t tag, StatsKey* key) {
UidTagValue cookieMapkey = {.uid = (uint32_t)uid, .tag = tag};
EXPECT_RESULT_OK(mFakeCookieTagMap.writeValue(cookie, cookieMapkey, BPF_ANY));
*key = {.uid = uid, .tag = tag, .counterSet = TEST_COUNTERSET, .ifaceIndex = 1};
StatsValue statsMapValue = {.rxPackets = 1, .rxBytes = 100};
uint8_t counterSet = TEST_COUNTERSET;
EXPECT_RESULT_OK(mFakeUidCounterSetMap.writeValue(uid, counterSet, BPF_ANY));
EXPECT_RESULT_OK(mFakeStatsMapA.writeValue(*key, statsMapValue, BPF_ANY));
key->tag = 0;
EXPECT_RESULT_OK(mFakeStatsMapA.writeValue(*key, statsMapValue, BPF_ANY));
EXPECT_RESULT_OK(mFakeAppUidStatsMap.writeValue(uid, statsMapValue, BPF_ANY));
// put tag information back to statsKey
key->tag = tag;
}
void checkUidOwnerRuleForChain(ChildChain chain, UidOwnerMatchType match) {
uint32_t uid = TEST_UID;
EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, DENY, DENYLIST));
Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);
EXPECT_RESULT_OK(value);
EXPECT_TRUE(value.value().rule & match);
uid = TEST_UID2;
EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, ALLOW, ALLOWLIST));
value = mFakeUidOwnerMap.readValue(uid);
EXPECT_RESULT_OK(value);
EXPECT_TRUE(value.value().rule & match);
EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, DENY, ALLOWLIST));
value = mFakeUidOwnerMap.readValue(uid);
EXPECT_FALSE(value.ok());
EXPECT_EQ(ENOENT, value.error().code());
uid = TEST_UID;
EXPECT_EQ(0, mTc.changeUidOwnerRule(chain, uid, ALLOW, DENYLIST));
value = mFakeUidOwnerMap.readValue(uid);
EXPECT_FALSE(value.ok());
EXPECT_EQ(ENOENT, value.error().code());
uid = TEST_UID3;
EXPECT_EQ(-ENOENT, mTc.changeUidOwnerRule(chain, uid, ALLOW, DENYLIST));
value = mFakeUidOwnerMap.readValue(uid);
EXPECT_FALSE(value.ok());
EXPECT_EQ(ENOENT, value.error().code());
}
void checkEachUidValue(const std::vector<int32_t>& uids, UidOwnerMatchType match) {
for (uint32_t uid : uids) {
Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);
EXPECT_RESULT_OK(value);
EXPECT_TRUE(value.value().rule & match);
}
std::set<uint32_t> uidSet(uids.begin(), uids.end());
const auto checkNoOtherUid = [&uidSet](const int32_t& key,
const BpfMap<uint32_t, UidOwnerValue>&) {
EXPECT_NE(uidSet.end(), uidSet.find(key));
return Result<void>();
};
EXPECT_RESULT_OK(mFakeUidOwnerMap.iterate(checkNoOtherUid));
}
void checkUidMapReplace(const std::string& name, const std::vector<int32_t>& uids,
UidOwnerMatchType match) {
bool isAllowlist = true;
EXPECT_EQ(0, mTc.replaceUidOwnerMap(name, isAllowlist, uids));
checkEachUidValue(uids, match);
isAllowlist = false;
EXPECT_EQ(0, mTc.replaceUidOwnerMap(name, isAllowlist, uids));
checkEachUidValue(uids, match);
}
void expectUidOwnerMapValues(const std::vector<uint32_t>& appUids, uint8_t expectedRule,
uint32_t expectedIif) {
for (uint32_t uid : appUids) {
Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);
EXPECT_RESULT_OK(value);
EXPECT_EQ(expectedRule, value.value().rule)
<< "Expected rule for UID " << uid << " to be " << expectedRule << ", but was "
<< value.value().rule;
EXPECT_EQ(expectedIif, value.value().iif)
<< "Expected iif for UID " << uid << " to be " << expectedIif << ", but was "
<< value.value().iif;
}
}
template <class Key, class Value>
void expectMapEmpty(BpfMap<Key, Value>& map) {
auto isEmpty = map.isEmpty();
EXPECT_RESULT_OK(isEmpty);
EXPECT_TRUE(isEmpty.value());
}
void expectUidPermissionMapValues(const std::vector<uid_t>& appUids, uint8_t expectedValue) {
for (uid_t uid : appUids) {
Result<uint8_t> value = mFakeUidPermissionMap.readValue(uid);
EXPECT_RESULT_OK(value);
EXPECT_EQ(expectedValue, value.value())
<< "Expected value for UID " << uid << " to be " << expectedValue
<< ", but was " << value.value();
}
}
void expectPrivilegedUserSet(const std::vector<uid_t>& appUids) {
std::lock_guard guard(mTc.mMutex);
EXPECT_EQ(appUids.size(), mTc.mPrivilegedUser.size());
for (uid_t uid : appUids) {
EXPECT_NE(mTc.mPrivilegedUser.end(), mTc.mPrivilegedUser.find(uid));
}
}
void expectPrivilegedUserSetEmpty() {
std::lock_guard guard(mTc.mMutex);
EXPECT_TRUE(mTc.mPrivilegedUser.empty());
}
void addPrivilegedUid(uid_t uid) {
std::vector privilegedUid = {uid};
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, privilegedUid);
}
void removePrivilegedUid(uid_t uid) {
std::vector privilegedUid = {uid};
mTc.setPermissionForUids(INetd::PERMISSION_NONE, privilegedUid);
}
void expectFakeStatsUnchanged(uint64_t cookie, uint32_t tag, uint32_t uid,
StatsKey tagStatsMapKey) {
Result<UidTagValue> cookieMapResult = mFakeCookieTagMap.readValue(cookie);
EXPECT_RESULT_OK(cookieMapResult);
EXPECT_EQ(uid, cookieMapResult.value().uid);
EXPECT_EQ(tag, cookieMapResult.value().tag);
Result<uint8_t> counterSetResult = mFakeUidCounterSetMap.readValue(uid);
EXPECT_RESULT_OK(counterSetResult);
EXPECT_EQ(TEST_COUNTERSET, counterSetResult.value());
Result<StatsValue> statsMapResult = mFakeStatsMapA.readValue(tagStatsMapKey);
EXPECT_RESULT_OK(statsMapResult);
EXPECT_EQ((uint64_t)1, statsMapResult.value().rxPackets);
EXPECT_EQ((uint64_t)100, statsMapResult.value().rxBytes);
tagStatsMapKey.tag = 0;
statsMapResult = mFakeStatsMapA.readValue(tagStatsMapKey);
EXPECT_RESULT_OK(statsMapResult);
EXPECT_EQ((uint64_t)1, statsMapResult.value().rxPackets);
EXPECT_EQ((uint64_t)100, statsMapResult.value().rxBytes);
auto appStatsResult = mFakeAppUidStatsMap.readValue(uid);
EXPECT_RESULT_OK(appStatsResult);
EXPECT_EQ((uint64_t)1, appStatsResult.value().rxPackets);
EXPECT_EQ((uint64_t)100, appStatsResult.value().rxBytes);
}
};
TEST_F(TrafficControllerTest, TestSetCounterSet) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
ASSERT_EQ(0, mTc.setCounterSet(TEST_COUNTERSET, TEST_UID, callingUid));
uid_t uid = TEST_UID;
Result<uint8_t> counterSetResult = mFakeUidCounterSetMap.readValue(uid);
ASSERT_RESULT_OK(counterSetResult);
ASSERT_EQ(TEST_COUNTERSET, counterSetResult.value());
ASSERT_EQ(0, mTc.setCounterSet(DEFAULT_COUNTERSET, TEST_UID, callingUid));
ASSERT_FALSE(mFakeUidCounterSetMap.readValue(uid).ok());
expectMapEmpty(mFakeUidCounterSetMap);
}
TEST_F(TrafficControllerTest, TestSetCounterSetWithoutPermission) {
ASSERT_EQ(-EPERM, mTc.setCounterSet(TEST_COUNTERSET, TEST_UID, TEST_UID2));
uid_t uid = TEST_UID;
ASSERT_FALSE(mFakeUidCounterSetMap.readValue(uid).ok());
expectMapEmpty(mFakeUidCounterSetMap);
}
TEST_F(TrafficControllerTest, TestSetInvalidCounterSet) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
ASSERT_GT(0, mTc.setCounterSet(OVERFLOW_COUNTERSET, TEST_UID, callingUid));
uid_t uid = TEST_UID;
ASSERT_FALSE(mFakeUidCounterSetMap.readValue(uid).ok());
expectMapEmpty(mFakeUidCounterSetMap);
}
TEST_F(TrafficControllerTest, TestDeleteTagDataWithoutPermission) {
uint64_t cookie = 1;
uid_t uid = TEST_UID;
uint32_t tag = TEST_TAG;
StatsKey tagStatsMapKey;
populateFakeStats(cookie, uid, tag, &tagStatsMapKey);
ASSERT_EQ(-EPERM, mTc.deleteTagData(0, TEST_UID, TEST_UID2));
expectFakeStatsUnchanged(cookie, tag, uid, tagStatsMapKey);
}
TEST_F(TrafficControllerTest, TestDeleteTagData) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
uint64_t cookie = 1;
uid_t uid = TEST_UID;
uint32_t tag = TEST_TAG;
StatsKey tagStatsMapKey;
populateFakeStats(cookie, uid, tag, &tagStatsMapKey);
ASSERT_EQ(0, mTc.deleteTagData(TEST_TAG, TEST_UID, callingUid));
ASSERT_FALSE(mFakeCookieTagMap.readValue(cookie).ok());
Result<uint8_t> counterSetResult = mFakeUidCounterSetMap.readValue(uid);
ASSERT_RESULT_OK(counterSetResult);
ASSERT_EQ(TEST_COUNTERSET, counterSetResult.value());
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey).ok());
tagStatsMapKey.tag = 0;
Result<StatsValue> statsMapResult = mFakeStatsMapA.readValue(tagStatsMapKey);
ASSERT_RESULT_OK(statsMapResult);
ASSERT_EQ((uint64_t)1, statsMapResult.value().rxPackets);
ASSERT_EQ((uint64_t)100, statsMapResult.value().rxBytes);
auto appStatsResult = mFakeAppUidStatsMap.readValue(TEST_UID);
ASSERT_RESULT_OK(appStatsResult);
ASSERT_EQ((uint64_t)1, appStatsResult.value().rxPackets);
ASSERT_EQ((uint64_t)100, appStatsResult.value().rxBytes);
}
TEST_F(TrafficControllerTest, TestDeleteAllUidData) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
uint64_t cookie = 1;
uid_t uid = TEST_UID;
uint32_t tag = TEST_TAG;
StatsKey tagStatsMapKey;
populateFakeStats(cookie, uid, tag, &tagStatsMapKey);
ASSERT_EQ(0, mTc.deleteTagData(0, TEST_UID, callingUid));
ASSERT_FALSE(mFakeCookieTagMap.readValue(cookie).ok());
ASSERT_FALSE(mFakeUidCounterSetMap.readValue(uid).ok());
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey).ok());
tagStatsMapKey.tag = 0;
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey).ok());
ASSERT_FALSE(mFakeAppUidStatsMap.readValue(TEST_UID).ok());
}
TEST_F(TrafficControllerTest, TestDeleteDataWithTwoTags) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
uint64_t cookie1 = 1;
uint64_t cookie2 = 2;
uid_t uid = TEST_UID;
uint32_t tag1 = TEST_TAG;
uint32_t tag2 = TEST_TAG + 1;
StatsKey tagStatsMapKey1;
StatsKey tagStatsMapKey2;
populateFakeStats(cookie1, uid, tag1, &tagStatsMapKey1);
populateFakeStats(cookie2, uid, tag2, &tagStatsMapKey2);
ASSERT_EQ(0, mTc.deleteTagData(TEST_TAG, TEST_UID, callingUid));
ASSERT_FALSE(mFakeCookieTagMap.readValue(cookie1).ok());
Result<UidTagValue> cookieMapResult = mFakeCookieTagMap.readValue(cookie2);
ASSERT_RESULT_OK(cookieMapResult);
ASSERT_EQ(TEST_UID, cookieMapResult.value().uid);
ASSERT_EQ(TEST_TAG + 1, cookieMapResult.value().tag);
Result<uint8_t> counterSetResult = mFakeUidCounterSetMap.readValue(uid);
ASSERT_RESULT_OK(counterSetResult);
ASSERT_EQ(TEST_COUNTERSET, counterSetResult.value());
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey1).ok());
Result<StatsValue> statsMapResult = mFakeStatsMapA.readValue(tagStatsMapKey2);
ASSERT_RESULT_OK(statsMapResult);
ASSERT_EQ((uint64_t)1, statsMapResult.value().rxPackets);
ASSERT_EQ((uint64_t)100, statsMapResult.value().rxBytes);
}
TEST_F(TrafficControllerTest, TestDeleteDataWithTwoUids) {
uid_t callingUid = TEST_UID2;
addPrivilegedUid(callingUid);
uint64_t cookie1 = 1;
uint64_t cookie2 = 2;
uid_t uid1 = TEST_UID;
uid_t uid2 = TEST_UID + 1;
uint32_t tag = TEST_TAG;
StatsKey tagStatsMapKey1;
StatsKey tagStatsMapKey2;
populateFakeStats(cookie1, uid1, tag, &tagStatsMapKey1);
populateFakeStats(cookie2, uid2, tag, &tagStatsMapKey2);
// Delete the stats of one of the uid. Check if it is properly collected by
// removedStats.
ASSERT_EQ(0, mTc.deleteTagData(0, uid2, callingUid));
ASSERT_FALSE(mFakeCookieTagMap.readValue(cookie2).ok());
Result<uint8_t> counterSetResult = mFakeUidCounterSetMap.readValue(uid1);
ASSERT_RESULT_OK(counterSetResult);
ASSERT_EQ(TEST_COUNTERSET, counterSetResult.value());
ASSERT_FALSE(mFakeUidCounterSetMap.readValue(uid2).ok());
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey2).ok());
tagStatsMapKey2.tag = 0;
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey2).ok());
ASSERT_FALSE(mFakeAppUidStatsMap.readValue(uid2).ok());
tagStatsMapKey1.tag = 0;
Result<StatsValue> statsMapResult = mFakeStatsMapA.readValue(tagStatsMapKey1);
ASSERT_RESULT_OK(statsMapResult);
ASSERT_EQ((uint64_t)1, statsMapResult.value().rxPackets);
ASSERT_EQ((uint64_t)100, statsMapResult.value().rxBytes);
auto appStatsResult = mFakeAppUidStatsMap.readValue(uid1);
ASSERT_RESULT_OK(appStatsResult);
ASSERT_EQ((uint64_t)1, appStatsResult.value().rxPackets);
ASSERT_EQ((uint64_t)100, appStatsResult.value().rxBytes);
// Delete the stats of the other uid.
ASSERT_EQ(0, mTc.deleteTagData(0, uid1, callingUid));
ASSERT_FALSE(mFakeStatsMapA.readValue(tagStatsMapKey1).ok());
ASSERT_FALSE(mFakeAppUidStatsMap.readValue(uid1).ok());
}
TEST_F(TrafficControllerTest, TestUpdateOwnerMapEntry) {
uint32_t uid = TEST_UID;
ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, DENY, DENYLIST)));
Result<UidOwnerValue> value = mFakeUidOwnerMap.readValue(uid);
ASSERT_RESULT_OK(value);
ASSERT_TRUE(value.value().rule & STANDBY_MATCH);
ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(DOZABLE_MATCH, uid, ALLOW, ALLOWLIST)));
value = mFakeUidOwnerMap.readValue(uid);
ASSERT_RESULT_OK(value);
ASSERT_TRUE(value.value().rule & DOZABLE_MATCH);
ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(DOZABLE_MATCH, uid, DENY, ALLOWLIST)));
value = mFakeUidOwnerMap.readValue(uid);
ASSERT_RESULT_OK(value);
ASSERT_FALSE(value.value().rule & DOZABLE_MATCH);
ASSERT_TRUE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, ALLOW, DENYLIST)));
ASSERT_FALSE(mFakeUidOwnerMap.readValue(uid).ok());
uid = TEST_UID2;
ASSERT_FALSE(isOk(mTc.updateOwnerMapEntry(STANDBY_MATCH, uid, ALLOW, DENYLIST)));
ASSERT_FALSE(mFakeUidOwnerMap.readValue(uid).ok());
}
TEST_F(TrafficControllerTest, TestChangeUidOwnerRule) {
checkUidOwnerRuleForChain(DOZABLE, DOZABLE_MATCH);
checkUidOwnerRuleForChain(STANDBY, STANDBY_MATCH);
checkUidOwnerRuleForChain(POWERSAVE, POWERSAVE_MATCH);
checkUidOwnerRuleForChain(RESTRICTED, RESTRICTED_MATCH);
ASSERT_EQ(-EINVAL, mTc.changeUidOwnerRule(NONE, TEST_UID, ALLOW, ALLOWLIST));
ASSERT_EQ(-EINVAL, mTc.changeUidOwnerRule(INVALID_CHAIN, TEST_UID, ALLOW, ALLOWLIST));
}
TEST_F(TrafficControllerTest, TestReplaceUidOwnerMap) {
std::vector<int32_t> uids = {TEST_UID, TEST_UID2, TEST_UID3};
checkUidMapReplace("fw_dozable", uids, DOZABLE_MATCH);
checkUidMapReplace("fw_standby", uids, STANDBY_MATCH);
checkUidMapReplace("fw_powersave", uids, POWERSAVE_MATCH);
checkUidMapReplace("fw_restricted", uids, RESTRICTED_MATCH);
ASSERT_EQ(-EINVAL, mTc.replaceUidOwnerMap("unknow", true, uids));
}
TEST_F(TrafficControllerTest, TestReplaceSameChain) {
std::vector<int32_t> uids = {TEST_UID, TEST_UID2, TEST_UID3};
checkUidMapReplace("fw_dozable", uids, DOZABLE_MATCH);
std::vector<int32_t> newUids = {TEST_UID2, TEST_UID3};
checkUidMapReplace("fw_dozable", newUids, DOZABLE_MATCH);
}
TEST_F(TrafficControllerTest, TestDenylistUidMatch) {
std::vector<uint32_t> appUids = {1000, 1001, 10012};
ASSERT_TRUE(isOk(
mTc.updateUidOwnerMap(appUids, PENALTY_BOX_MATCH, TrafficController::IptOpInsert)));
expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);
ASSERT_TRUE(isOk(
mTc.updateUidOwnerMap(appUids, PENALTY_BOX_MATCH, TrafficController::IptOpDelete)));
expectMapEmpty(mFakeUidOwnerMap);
}
TEST_F(TrafficControllerTest, TestAllowlistUidMatch) {
std::vector<uint32_t> appUids = {1000, 1001, 10012};
ASSERT_TRUE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpInsert)));
expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);
ASSERT_TRUE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpDelete)));
expectMapEmpty(mFakeUidOwnerMap);
}
TEST_F(TrafficControllerTest, TestReplaceMatchUid) {
std::vector<uint32_t> appUids = {1000, 1001, 10012};
// Add appUids to the denylist and expect that their values are all PENALTY_BOX_MATCH.
ASSERT_TRUE(isOk(
mTc.updateUidOwnerMap(appUids, PENALTY_BOX_MATCH, TrafficController::IptOpInsert)));
expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);
// Add the same UIDs to the allowlist and expect that we get PENALTY_BOX_MATCH |
// HAPPY_BOX_MATCH.
ASSERT_TRUE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpInsert)));
expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH | PENALTY_BOX_MATCH, 0);
// Remove the same UIDs from the allowlist and check the PENALTY_BOX_MATCH is still there.
ASSERT_TRUE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpDelete)));
expectUidOwnerMapValues(appUids, PENALTY_BOX_MATCH, 0);
// Remove the same UIDs from the denylist and check the map is empty.
ASSERT_TRUE(isOk(
mTc.updateUidOwnerMap(appUids, PENALTY_BOX_MATCH, TrafficController::IptOpDelete)));
ASSERT_FALSE(mFakeUidOwnerMap.getFirstKey().ok());
}
TEST_F(TrafficControllerTest, TestDeleteWrongMatchSilentlyFails) {
std::vector<uint32_t> appUids = {1000, 1001, 10012};
// If the uid does not exist in the map, trying to delete a rule about it will fail.
ASSERT_FALSE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpDelete)));
expectMapEmpty(mFakeUidOwnerMap);
// Add denylist rules for appUids.
ASSERT_TRUE(
isOk(mTc.updateUidOwnerMap(appUids, HAPPY_BOX_MATCH, TrafficController::IptOpInsert)));
expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);
// Delete (non-existent) denylist rules for appUids, and check that this silently does
// nothing if the uid is in the map but does not have denylist match. This is required because
// NetworkManagementService will try to remove a uid from denylist after adding it to the
// allowlist and if the remove fails it will not update the uid status.
ASSERT_TRUE(isOk(
mTc.updateUidOwnerMap(appUids, PENALTY_BOX_MATCH, TrafficController::IptOpDelete)));
expectUidOwnerMapValues(appUids, HAPPY_BOX_MATCH, 0);
}
TEST_F(TrafficControllerTest, TestAddUidInterfaceFilteringRules) {
int iif0 = 15;
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif0, {1000, 1001})));
expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);
// Add some non-overlapping new uids. They should coexist with existing rules
int iif1 = 16;
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {2000, 2001})));
expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);
expectUidOwnerMapValues({2000, 2001}, IIF_MATCH, iif1);
// Overwrite some existing uids
int iif2 = 17;
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif2, {1000, 2000})));
expectUidOwnerMapValues({1001}, IIF_MATCH, iif0);
expectUidOwnerMapValues({2001}, IIF_MATCH, iif1);
expectUidOwnerMapValues({1000, 2000}, IIF_MATCH, iif2);
}
TEST_F(TrafficControllerTest, TestRemoveUidInterfaceFilteringRules) {
int iif0 = 15;
int iif1 = 16;
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif0, {1000, 1001})));
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {2000, 2001})));
expectUidOwnerMapValues({1000, 1001}, IIF_MATCH, iif0);
expectUidOwnerMapValues({2000, 2001}, IIF_MATCH, iif1);
// Rmove some uids
ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1001, 2001})));
expectUidOwnerMapValues({1000}, IIF_MATCH, iif0);
expectUidOwnerMapValues({2000}, IIF_MATCH, iif1);
checkEachUidValue({1000, 2000}, IIF_MATCH); // Make sure there are only two uids remaining
// Remove non-existent uids shouldn't fail
ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({2000, 3000})));
expectUidOwnerMapValues({1000}, IIF_MATCH, iif0);
checkEachUidValue({1000}, IIF_MATCH); // Make sure there are only one uid remaining
// Remove everything
ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({1000})));
expectMapEmpty(mFakeUidOwnerMap);
}
TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesCoexistWithExistingMatches) {
// Set up existing PENALTY_BOX_MATCH rules
ASSERT_TRUE(isOk(mTc.updateUidOwnerMap({1000, 1001, 10012}, PENALTY_BOX_MATCH,
TrafficController::IptOpInsert)));
expectUidOwnerMapValues({1000, 1001, 10012}, PENALTY_BOX_MATCH, 0);
// Add some partially-overlapping uid owner rules and check result
int iif1 = 32;
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {10012, 10013, 10014})));
expectUidOwnerMapValues({1000, 1001}, PENALTY_BOX_MATCH, 0);
expectUidOwnerMapValues({10012}, PENALTY_BOX_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10013, 10014}, IIF_MATCH, iif1);
// Removing some PENALTY_BOX_MATCH rules should not change uid interface rule
ASSERT_TRUE(isOk(mTc.updateUidOwnerMap({1001, 10012}, PENALTY_BOX_MATCH,
TrafficController::IptOpDelete)));
expectUidOwnerMapValues({1000}, PENALTY_BOX_MATCH, 0);
expectUidOwnerMapValues({10012, 10013, 10014}, IIF_MATCH, iif1);
// Remove all uid interface rules
ASSERT_TRUE(isOk(mTc.removeUidInterfaceRules({10012, 10013, 10014})));
expectUidOwnerMapValues({1000}, PENALTY_BOX_MATCH, 0);
// Make sure these are the only uids left
checkEachUidValue({1000}, PENALTY_BOX_MATCH);
}
TEST_F(TrafficControllerTest, TestUidInterfaceFilteringRulesCoexistWithNewMatches) {
int iif1 = 56;
// Set up existing uid interface rules
ASSERT_TRUE(isOk(mTc.addUidInterfaceRules(iif1, {10001, 10002})));
expectUidOwnerMapValues({10001, 10002}, IIF_MATCH, iif1);
// Add some partially-overlapping doze rules
EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_dozable", true, {10002, 10003}));
expectUidOwnerMapValues({10001}, IIF_MATCH, iif1);
expectUidOwnerMapValues({10002}, DOZABLE_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10003}, DOZABLE_MATCH, 0);
// Introduce a third rule type (powersave) on various existing UIDs
EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_powersave", true, {10000, 10001, 10002, 10003}));
expectUidOwnerMapValues({10000}, POWERSAVE_MATCH, 0);
expectUidOwnerMapValues({10001}, POWERSAVE_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10002}, POWERSAVE_MATCH | DOZABLE_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10003}, POWERSAVE_MATCH | DOZABLE_MATCH, 0);
// Remove all doze rules
EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_dozable", true, {}));
expectUidOwnerMapValues({10000}, POWERSAVE_MATCH, 0);
expectUidOwnerMapValues({10001}, POWERSAVE_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10002}, POWERSAVE_MATCH | IIF_MATCH, iif1);
expectUidOwnerMapValues({10003}, POWERSAVE_MATCH, 0);
// Remove all powersave rules, expect ownerMap to only have uid interface rules left
EXPECT_EQ(0, mTc.replaceUidOwnerMap("fw_powersave", true, {}));
expectUidOwnerMapValues({10001, 10002}, IIF_MATCH, iif1);
// Make sure these are the only uids left
checkEachUidValue({10001, 10002}, IIF_MATCH);
}
TEST_F(TrafficControllerTest, TestGrantInternetPermission) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, appUids);
expectMapEmpty(mFakeUidPermissionMap);
expectPrivilegedUserSetEmpty();
}
TEST_F(TrafficControllerTest, TestRevokeInternetPermission) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);
expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);
}
TEST_F(TrafficControllerTest, TestPermissionUninstalled) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);
expectUidPermissionMapValues(appUids, INetd::PERMISSION_UPDATE_DEVICE_STATS);
expectPrivilegedUserSet(appUids);
std::vector<uid_t> uidToRemove = {TEST_UID};
mTc.setPermissionForUids(INetd::PERMISSION_UNINSTALLED, uidToRemove);
std::vector<uid_t> uidRemain = {TEST_UID3, TEST_UID2};
expectUidPermissionMapValues(uidRemain, INetd::PERMISSION_UPDATE_DEVICE_STATS);
expectPrivilegedUserSet(uidRemain);
mTc.setPermissionForUids(INetd::PERMISSION_UNINSTALLED, uidRemain);
expectMapEmpty(mFakeUidPermissionMap);
expectPrivilegedUserSetEmpty();
}
TEST_F(TrafficControllerTest, TestGrantUpdateStatsPermission) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);
expectUidPermissionMapValues(appUids, INetd::PERMISSION_UPDATE_DEVICE_STATS);
expectPrivilegedUserSet(appUids);
mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);
expectPrivilegedUserSetEmpty();
expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);
}
TEST_F(TrafficControllerTest, TestRevokeUpdateStatsPermission) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);
expectPrivilegedUserSet(appUids);
std::vector<uid_t> uidToRemove = {TEST_UID};
mTc.setPermissionForUids(INetd::PERMISSION_NONE, uidToRemove);
std::vector<uid_t> uidRemain = {TEST_UID3, TEST_UID2};
expectPrivilegedUserSet(uidRemain);
mTc.setPermissionForUids(INetd::PERMISSION_NONE, uidRemain);
expectPrivilegedUserSetEmpty();
}
TEST_F(TrafficControllerTest, TestGrantWrongPermission) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);
expectPrivilegedUserSetEmpty();
expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);
}
TEST_F(TrafficControllerTest, TestGrantDuplicatePermissionSlientlyFail) {
std::vector<uid_t> appUids = {TEST_UID, TEST_UID2, TEST_UID3};
mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, appUids);
expectMapEmpty(mFakeUidPermissionMap);
std::vector<uid_t> uidToAdd = {TEST_UID};
mTc.setPermissionForUids(INetd::PERMISSION_INTERNET, uidToAdd);
expectPrivilegedUserSetEmpty();
mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);
expectUidPermissionMapValues(appUids, INetd::PERMISSION_NONE);
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, appUids);
expectPrivilegedUserSet(appUids);
mTc.setPermissionForUids(INetd::PERMISSION_UPDATE_DEVICE_STATS, uidToAdd);
expectPrivilegedUserSet(appUids);
mTc.setPermissionForUids(INetd::PERMISSION_NONE, appUids);
expectPrivilegedUserSetEmpty();
}
} // namespace net
} // namespace android