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android / platform / packages / modules / StatsD / 21a6c0c4d9de7bc22d4b7772c3bd5837ba3069c1 / . / statsd / tests / LogEntryMatcher_test.cpp
blob: c91a443fe7647f52d6d0c4ef54dcba8992d88bf7 [file] [log] [blame]
// Copyright (C) 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.
#include <gtest/gtest.h>
#include <stdio.h>
#include "matchers/matcher_util.h"
#include "src/statsd_config.pb.h"
#include "stats_annotations.h"
#include "stats_event.h"
#include "stats_log_util.h"
#include "stats_util.h"
#include "statsd_test_util.h"
using namespace android::os::statsd;
using std::unordered_map;
using std::vector;
const int32_t TAG_ID = 123;
const int32_t TAG_ID_2 = 28; // hardcoded tag of atom with uid field
const int FIELD_ID_1 = 1;
const int FIELD_ID_2 = 2;
const int FIELD_ID_3 = 2;
const int ATTRIBUTION_UID_FIELD_ID = 1;
const int ATTRIBUTION_TAG_FIELD_ID = 2;
#ifdef __ANDROID__
namespace {
void makeIntLogEvent(LogEvent* logEvent, const int32_t atomId, const int64_t timestamp,
const int32_t value) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_overwriteTimestamp(statsEvent, timestamp);
AStatsEvent_writeInt32(statsEvent, value);
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeFloatLogEvent(LogEvent* logEvent, const int32_t atomId, const int64_t timestamp,
const float floatValue) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_overwriteTimestamp(statsEvent, timestamp);
AStatsEvent_writeFloat(statsEvent, floatValue);
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeStringLogEvent(LogEvent* logEvent, const int32_t atomId, const int64_t timestamp,
const string& name) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_overwriteTimestamp(statsEvent, timestamp);
AStatsEvent_writeString(statsEvent, name.c_str());
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeIntWithBoolAnnotationLogEvent(LogEvent* logEvent, const int32_t atomId,
const int32_t field, const uint8_t annotationId,
const bool annotationValue) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_writeInt32(statsEvent, field);
AStatsEvent_addBoolAnnotation(statsEvent, annotationId, annotationValue);
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeAttributionLogEvent(LogEvent* logEvent, const int32_t atomId, const int64_t timestamp,
const vector<int>& attributionUids,
const vector<string>& attributionTags, const string& name) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_overwriteTimestamp(statsEvent, timestamp);
writeAttribution(statsEvent, attributionUids, attributionTags);
AStatsEvent_writeString(statsEvent, name.c_str());
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeBoolLogEvent(LogEvent* logEvent, const int32_t atomId, const int64_t timestamp,
const bool bool1, const bool bool2) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_overwriteTimestamp(statsEvent, timestamp);
AStatsEvent_writeBool(statsEvent, bool1);
AStatsEvent_writeBool(statsEvent, bool2);
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeRepeatedIntLogEvent(LogEvent* logEvent, const int32_t atomId,
const vector<int>& intArray) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_writeInt32Array(statsEvent, intArray.data(), intArray.size());
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeRepeatedUidLogEvent(LogEvent* logEvent, const int32_t atomId,
const vector<int>& intArray) {
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_writeInt32Array(statsEvent, intArray.data(), intArray.size());
AStatsEvent_addBoolAnnotation(statsEvent, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
parseStatsEventToLogEvent(statsEvent, logEvent);
}
void makeRepeatedStringLogEvent(LogEvent* logEvent, const int32_t atomId,
const vector<string>& stringArray) {
vector<const char*> cStringArray(stringArray.size());
for (int i = 0; i < cStringArray.size(); i++) {
cStringArray[i] = stringArray[i].c_str();
}
AStatsEvent* statsEvent = AStatsEvent_obtain();
AStatsEvent_setAtomId(statsEvent, atomId);
AStatsEvent_writeStringArray(statsEvent, cStringArray.data(), stringArray.size());
parseStatsEventToLogEvent(statsEvent, logEvent);
}
} // anonymous namespace
TEST(AtomMatcherTest, TestSimpleMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
LogEvent event(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event, TAG_ID, 0, 11);
// Test
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Wrong tag id.
simpleMatcher->set_atom_id(TAG_ID + 1);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestAttributionMatcher) {
sp<UidMap> uidMap = new UidMap();
std::vector<int> attributionUids = {1111, 2222, 3333};
std::vector<string> attributionTags = {"location1", "location2", "location3"};
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event, TAG_ID, 0, attributionUids, attributionTags, "some value");
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first node.
auto attributionMatcher = simpleMatcher->add_field_value_matcher();
attributionMatcher->set_field(FIELD_ID_1);
attributionMatcher->set_position(Position::FIRST);
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher()->set_field(
ATTRIBUTION_TAG_FIELD_ID);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"tag");
auto fieldMatcher = simpleMatcher->add_field_value_matcher();
fieldMatcher->set_field(FIELD_ID_2);
fieldMatcher->set_eq_string("some value");
// Tag not matched.
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location3");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last node.
attributionMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any node.
attributionMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location2");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location4");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Attribution match but primitive field not match.
attributionMatcher->set_position(Position::ANY);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"location2");
fieldMatcher->set_eq_string("wrong value");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldMatcher->set_eq_string("some value");
// Uid match.
attributionMatcher->set_position(Position::ANY);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_field(
ATTRIBUTION_UID_FIELD_ID);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("pkg0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("Pkg2"), android::String16("PkG3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::FIRST);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::LAST);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Uid + tag.
attributionMatcher->set_position(Position::ANY);
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher()->set_field(
ATTRIBUTION_TAG_FIELD_ID);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location2");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::FIRST);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location2");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::LAST);
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg0");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg1");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location2");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg2");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(0)->set_eq_string(
"pkg3");
attributionMatcher->mutable_matches_tuple()->mutable_field_value_matcher(1)->set_eq_string(
"location1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestUidFieldMatcher) {
sp<UidMap> uidMap = new UidMap();
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("pkg0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("Pkg2"), android::String16("PkG3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
// Set up matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
simpleMatcher->add_field_value_matcher()->set_field(1);
simpleMatcher->mutable_field_value_matcher(0)->set_eq_string("pkg0");
// Make event without is_uid annotation.
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event1, TAG_ID, 0, 1111);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
// Make event with is_uid annotation.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event2, TAG_ID_2, 1111, ASTATSLOG_ANNOTATION_ID_IS_UID,
true);
// Event has is_uid annotation, so mapping from uid to package name occurs.
simpleMatcher->set_atom_id(TAG_ID_2);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
// Event has is_uid annotation, but uid maps to different package name.
simpleMatcher->mutable_field_value_matcher(0)->set_eq_string(
"pkg2"); // package names are normalized
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event2));
}
TEST(AtomMatcherTest, TestRepeatedUidFieldMatcher) {
sp<UidMap> uidMap = new UidMap();
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("pkg0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("Pkg2"), android::String16("PkG3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
// Set up matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
// No is_uid annotation, no mapping from uid to package name.
vector<int> intArray = {1111, 3333, 2222};
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeRepeatedIntLogEvent(&event1, TAG_ID, intArray);
fieldValueMatcher->set_position(Position::FIRST);
fieldValueMatcher->set_eq_string("pkg0");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
fieldValueMatcher->set_position(Position::LAST);
fieldValueMatcher->set_eq_string("pkg1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_eq_string("pkg2");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
// is_uid annotation, mapping from uid to package name.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeRepeatedUidLogEvent(&event2, TAG_ID, intArray);
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event2));
fieldValueMatcher->set_eq_string("pkg0");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event2));
fieldValueMatcher->set_eq_string("pkg1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_eq_string("pkg");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event2));
fieldValueMatcher->set_eq_string("pkg2"); // package names are normalized
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
}
TEST(AtomMatcherTest, TestNeqAnyStringMatcher_SingleString) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
StringListMatcher* neqStringList = fieldValueMatcher->mutable_neq_any_string();
neqStringList->add_str_value("some value");
neqStringList->add_str_value("another value");
// First string matched.
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event1, TAG_ID, 0, "some value");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
// Second string matched.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event2, TAG_ID, 0, "another value");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event2));
// No strings matched.
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event3, TAG_ID, 0, "foo");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event3));
}
TEST(AtomMatcherTest, TestNeqAnyStringMatcher_AttributionUids) {
sp<UidMap> uidMap = new UidMap();
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("pkg0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("Pkg2"), android::String16("PkG3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
std::vector<int> attributionUids = {1111, 2222, 3333, 1066};
std::vector<string> attributionTags = {"location1", "location2", "location3", "location3"};
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event, TAG_ID, 0, attributionUids, attributionTags, "some value");
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first node.
auto attributionMatcher = simpleMatcher->add_field_value_matcher();
attributionMatcher->set_field(FIELD_ID_1);
attributionMatcher->set_position(Position::FIRST);
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher()->set_field(
ATTRIBUTION_UID_FIELD_ID);
auto neqStringList = attributionMatcher->mutable_matches_tuple()
->mutable_field_value_matcher(0)
->mutable_neq_any_string();
neqStringList->add_str_value("pkg2");
neqStringList->add_str_value("pkg3");
auto fieldMatcher = simpleMatcher->add_field_value_matcher();
fieldMatcher->set_field(FIELD_ID_2);
fieldMatcher->set_eq_string("some value");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->Clear();
neqStringList->add_str_value("pkg1");
neqStringList->add_str_value("pkg3");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::ANY);
neqStringList->Clear();
neqStringList->add_str_value("maps.com");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->Clear();
neqStringList->add_str_value("PkG3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::LAST);
neqStringList->Clear();
neqStringList->add_str_value("AID_STATSD");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestEqAnyStringMatcher) {
sp<UidMap> uidMap = new UidMap();
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("pkg0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("Pkg2"), android::String16("PkG3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
std::vector<int> attributionUids = {1067, 2222, 3333, 1066};
std::vector<string> attributionTags = {"location1", "location2", "location3", "location3"};
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event, TAG_ID, 0, attributionUids, attributionTags, "some value");
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first node.
auto attributionMatcher = simpleMatcher->add_field_value_matcher();
attributionMatcher->set_field(FIELD_ID_1);
attributionMatcher->set_position(Position::FIRST);
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher()->set_field(
ATTRIBUTION_UID_FIELD_ID);
auto eqStringList = attributionMatcher->mutable_matches_tuple()
->mutable_field_value_matcher(0)
->mutable_eq_any_string();
eqStringList->add_str_value("AID_ROOT");
eqStringList->add_str_value("AID_INCIDENTD");
auto fieldMatcher = simpleMatcher->add_field_value_matcher();
fieldMatcher->set_field(FIELD_ID_2);
fieldMatcher->set_eq_string("some value");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
attributionMatcher->set_position(Position::ANY);
eqStringList->Clear();
eqStringList->add_str_value("AID_STATSD");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->Clear();
eqStringList->add_str_value("pkg1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
auto normalStringField = fieldMatcher->mutable_eq_any_string();
normalStringField->add_str_value("some value123");
normalStringField->add_str_value("some value");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
normalStringField->Clear();
normalStringField->add_str_value("AID_STATSD");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->Clear();
eqStringList->add_str_value("maps.com");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestBoolMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
auto keyValue1 = simpleMatcher->add_field_value_matcher();
keyValue1->set_field(FIELD_ID_1);
auto keyValue2 = simpleMatcher->add_field_value_matcher();
keyValue2->set_field(FIELD_ID_2);
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
makeBoolLogEvent(&event, TAG_ID, 0, true, false);
// Test
keyValue1->set_eq_bool(true);
keyValue2->set_eq_bool(false);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue1->set_eq_bool(false);
keyValue2->set_eq_bool(false);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue1->set_eq_bool(false);
keyValue2->set_eq_bool(true);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue1->set_eq_bool(true);
keyValue2->set_eq_bool(true);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestStringMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
auto keyValue = simpleMatcher->add_field_value_matcher();
keyValue->set_field(FIELD_ID_1);
keyValue->set_eq_string("some value");
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event, TAG_ID, 0, "some value");
// Test
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestIntMatcher_EmptyRepeatedField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
makeRepeatedIntLogEvent(&event, TAG_ID, {});
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
// Match first int.
fieldValueMatcher->set_position(Position::FIRST);
fieldValueMatcher->set_eq_int(9);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last int.
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any int.
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_eq_int(13);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestIntMatcher_RepeatedIntField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
vector<int> intArray = {21, 9};
makeRepeatedIntLogEvent(&event, TAG_ID, intArray);
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first int.
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
fieldValueMatcher->set_position(Position::FIRST);
fieldValueMatcher->set_eq_int(9);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_int(21);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last int.
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_int(9);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any int.
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_eq_int(13);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_int(21);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_int(9);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestLtIntMatcher_RepeatedIntField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
vector<int> intArray = {21, 9};
makeRepeatedIntLogEvent(&event, TAG_ID, intArray);
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first int.
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
fieldValueMatcher->set_position(Position::FIRST);
fieldValueMatcher->set_lt_int(9);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(21);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(23);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last int.
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(9);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(8);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any int.
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_lt_int(21);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(8);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_lt_int(23);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestStringMatcher_RepeatedStringField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
vector<string> strArray = {"str1", "str2", "str3"};
makeRepeatedStringLogEvent(&event, TAG_ID, strArray);
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
// Match first int.
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
fieldValueMatcher->set_position(Position::FIRST);
fieldValueMatcher->set_eq_string("str2");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_string("str1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last int.
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_string("str3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any int.
fieldValueMatcher->set_position(Position::ANY);
fieldValueMatcher->set_eq_string("str4");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_string("str1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_string("str2");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_eq_string("str3");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestEqAnyStringMatcher_RepeatedStringField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
vector<string> strArray = {"str1", "str2", "str3"};
makeRepeatedStringLogEvent(&event, TAG_ID, strArray);
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
StringListMatcher* eqStringList = fieldValueMatcher->mutable_eq_any_string();
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->add_str_value("str4");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->add_str_value("str2");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->add_str_value("str3");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
eqStringList->add_str_value("str1");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestNeqAnyStringMatcher_RepeatedStringField) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
LogEvent event(/*uid=*/0, /*pid=*/0);
vector<string> strArray = {"str1", "str2", "str3"};
makeRepeatedStringLogEvent(&event, TAG_ID, strArray);
// Set up the matcher.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
StringListMatcher* neqStringList = fieldValueMatcher->mutable_neq_any_string();
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->add_str_value("str4");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->add_str_value("str2");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->add_str_value("str3");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
neqStringList->add_str_value("str1");
fieldValueMatcher->set_position(Position::FIRST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::LAST);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
fieldValueMatcher->set_position(Position::ANY);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestMultiFieldsMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
auto keyValue1 = simpleMatcher->add_field_value_matcher();
keyValue1->set_field(FIELD_ID_1);
auto keyValue2 = simpleMatcher->add_field_value_matcher();
keyValue2->set_field(FIELD_ID_2);
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
CreateTwoValueLogEvent(&event, TAG_ID, 0, 2, 3);
// Test
keyValue1->set_eq_int(2);
keyValue2->set_eq_int(3);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue1->set_eq_int(2);
keyValue2->set_eq_int(4);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue1->set_eq_int(4);
keyValue2->set_eq_int(3);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestIntComparisonMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
auto keyValue = simpleMatcher->add_field_value_matcher();
keyValue->set_field(FIELD_ID_1);
// Set up the event
LogEvent event(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event, TAG_ID, 0, 11);
// Test
// eq_int
keyValue->set_eq_int(10);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_eq_int(11);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_eq_int(12);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// lt_int
keyValue->set_lt_int(10);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_lt_int(11);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_lt_int(12);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// lte_int
keyValue->set_lte_int(10);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_lte_int(11);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_lte_int(12);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// gt_int
keyValue->set_gt_int(10);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_gt_int(11);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_gt_int(12);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// gte_int
keyValue->set_gte_int(10);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_gte_int(11);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
keyValue->set_gte_int(12);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
TEST(AtomMatcherTest, TestFloatComparisonMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
auto keyValue = simpleMatcher->add_field_value_matcher();
keyValue->set_field(FIELD_ID_1);
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeFloatLogEvent(&event1, TAG_ID, 0, 10.1f);
keyValue->set_lt_float(10.0);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeFloatLogEvent(&event2, TAG_ID, 0, 9.9f);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeFloatLogEvent(&event3, TAG_ID, 0, 10.1f);
keyValue->set_gt_float(10.0);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event3));
LogEvent event4(/*uid=*/0, /*pid=*/0);
makeFloatLogEvent(&event4, TAG_ID, 0, 9.9f);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event4));
}
// Helper for the composite matchers.
void addSimpleMatcher(SimpleAtomMatcher* simpleMatcher, int tag, int key, int val) {
simpleMatcher->set_atom_id(tag);
auto keyValue = simpleMatcher->add_field_value_matcher();
keyValue->set_field(key);
keyValue->set_eq_int(val);
}
TEST(AtomMatcherTest, TestAndMatcher) {
// Set up the matcher
LogicalOperation operation = LogicalOperation::AND;
vector<int> children;
children.push_back(0);
children.push_back(1);
children.push_back(2);
vector<MatchingState> matcherResults;
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
}
TEST(AtomMatcherTest, TestOrMatcher) {
// Set up the matcher
LogicalOperation operation = LogicalOperation::OR;
vector<int> children;
children.push_back(0);
children.push_back(1);
children.push_back(2);
vector<MatchingState> matcherResults;
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
}
TEST(AtomMatcherTest, TestNotMatcher) {
// Set up the matcher
LogicalOperation operation = LogicalOperation::NOT;
vector<int> children;
children.push_back(0);
vector<MatchingState> matcherResults;
matcherResults.push_back(MatchingState::kMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
}
TEST(AtomMatcherTest, TestNandMatcher) {
// Set up the matcher
LogicalOperation operation = LogicalOperation::NAND;
vector<int> children;
children.push_back(0);
children.push_back(1);
vector<MatchingState> matcherResults;
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
}
TEST(AtomMatcherTest, TestNorMatcher) {
// Set up the matcher
LogicalOperation operation = LogicalOperation::NOR;
vector<int> children;
children.push_back(0);
children.push_back(1);
vector<MatchingState> matcherResults;
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kNotMatched);
matcherResults.push_back(MatchingState::kNotMatched);
EXPECT_TRUE(combinationMatch(children, operation, matcherResults));
matcherResults.clear();
matcherResults.push_back(MatchingState::kMatched);
matcherResults.push_back(MatchingState::kMatched);
EXPECT_FALSE(combinationMatch(children, operation, matcherResults));
}
TEST(AtomMatcherTest, TestUidFieldMatcherWithWildcardString) {
sp<UidMap> uidMap = new UidMap();
uidMap->updateMap(
1, {1111, 1111, 2222, 3333, 3333} /* uid list */, {1, 1, 2, 1, 2} /* version list */,
{android::String16("v1"), android::String16("v1"), android::String16("v2"),
android::String16("v1"), android::String16("v2")},
{android::String16("package0"), android::String16("pkg1"), android::String16("pkg1"),
android::String16("package2"), android::String16("package3")} /* package name list */,
{android::String16(""), android::String16(""), android::String16(""),
android::String16(""), android::String16("")},
/* certificateHash */ {{}, {}, {}, {}, {}});
// Set up matcher
AtomMatcher matcher;
auto simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
simpleMatcher->add_field_value_matcher()->set_field(1);
simpleMatcher->mutable_field_value_matcher(0)->set_eq_wildcard_string("pkg*");
// Event without is_uid annotation.
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event1, TAG_ID, 0, 1111);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event1));
// Event where mapping from uid to package name occurs.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event2, TAG_ID, 1111, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
// Event where uid maps to package names that don't fit wildcard pattern.
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event3, TAG_ID, 3333, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event3));
// Update matcher to match one AID
simpleMatcher->mutable_field_value_matcher(0)->set_eq_wildcard_string(
"AID_SYSTEM"); // uid 1000
// Event where mapping from uid to aid doesn't fit wildcard pattern.
LogEvent event4(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event4, TAG_ID, 1005, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event4));
// Event where mapping from uid to aid does fit wildcard pattern.
LogEvent event5(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event5, TAG_ID, 1000, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event5));
// Update matcher to match multiple AIDs
simpleMatcher->mutable_field_value_matcher(0)->set_eq_wildcard_string("AID_SDCARD_*");
// Event where mapping from uid to aid doesn't fit wildcard pattern.
LogEvent event6(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event6, TAG_ID, 1036, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event6));
// Event where mapping from uid to aid does fit wildcard pattern.
LogEvent event7(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event7, TAG_ID, 1034, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event7));
LogEvent event8(/*uid=*/0, /*pid=*/0);
makeIntWithBoolAnnotationLogEvent(&event8, TAG_ID, 1035, ASTATSLOG_ANNOTATION_ID_IS_UID, true);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event8));
}
TEST(AtomMatcherTest, TestWildcardStringMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
// Matches any string that begins with "test.string:test_" and ends with number between 0 and 9
// inclusive
fieldValueMatcher->set_eq_wildcard_string("test.string:test_[0-9]");
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event1, TAG_ID, 0, "test.string:test_0");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event1));
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event2, TAG_ID, 0, "test.string:test_19");
EXPECT_FALSE(
matchesSimple(uidMap, *simpleMatcher, event2)); // extra character at end of string
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event3, TAG_ID, 0, "extra.test.string:test_1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher,
event3)); // extra characters at beginning of string
LogEvent event4(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event4, TAG_ID, 0, "test.string:test_");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher,
event4)); // missing character from 0-9 at end of string
LogEvent event5(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event5, TAG_ID, 0, "est.string:test_1");
EXPECT_FALSE(
matchesSimple(uidMap, *simpleMatcher, event5)); // missing 't' at beginning of string
LogEvent event6(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event6, TAG_ID, 0, "test.string:test_1extra");
EXPECT_FALSE(
matchesSimple(uidMap, *simpleMatcher, event6)); // extra characters at end of string
// Matches any string that contains "test.string:test_" + any extra characters before or after
fieldValueMatcher->set_eq_wildcard_string("*test.string:test_*");
LogEvent event7(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event7, TAG_ID, 0, "test.string:test_");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event7));
LogEvent event8(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event8, TAG_ID, 0, "extra.test.string:test_");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event8));
LogEvent event9(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event9, TAG_ID, 0, "test.string:test_extra");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event9));
LogEvent event10(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event10, TAG_ID, 0, "est.string:test_");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event10));
LogEvent event11(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event11, TAG_ID, 0, "test.string:test");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event11));
}
TEST(AtomMatcherTest, TestEqAnyWildcardStringMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
StringListMatcher* eqWildcardStrList = fieldValueMatcher->mutable_eq_any_wildcard_string();
eqWildcardStrList->add_str_value("first_string_*");
eqWildcardStrList->add_str_value("second_string_*");
// First wildcard pattern matched.
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event1, TAG_ID, 0, "first_string_1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event1));
// Second wildcard pattern matched.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event2, TAG_ID, 0, "second_string_1");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
// No wildcard patterns matched.
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeStringLogEvent(&event3, TAG_ID, 0, "third_string_1");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event3));
}
TEST(AtomMatcherTest, TestNeqAnyWildcardStringMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
std::vector<int> attributionUids = {1111, 2222, 3333};
std::vector<string> attributionTags = {"location_1", "location_2", "location"};
LogEvent event(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event, TAG_ID, 0, attributionUids, attributionTags, "some value");
// Set up the matcher. Match first tag.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* attributionMatcher = simpleMatcher->add_field_value_matcher();
attributionMatcher->set_field(FIELD_ID_1);
attributionMatcher->set_position(Position::FIRST);
FieldValueMatcher* attributionTagMatcher =
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher();
attributionTagMatcher->set_field(ATTRIBUTION_TAG_FIELD_ID);
StringListMatcher* neqWildcardStrList =
attributionTagMatcher->mutable_neq_any_wildcard_string();
// First tag is not matched. neq string list {"tag"}
neqWildcardStrList->add_str_value("tag");
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// First tag is matched. neq string list {"tag", "location_*"}
neqWildcardStrList->add_str_value("location_*");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last tag.
attributionMatcher->set_position(Position::LAST);
// Last tag is not matched. neq string list {"tag", "location_*"}
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Last tag is matched. neq string list {"tag", "location_*", "location*"}
neqWildcardStrList->add_str_value("location*");
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any tag.
attributionMatcher->set_position(Position::ANY);
// All tags are matched. neq string list {"tag", "location_*", "location*"}
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Set up another log event.
std::vector<string> attributionTags2 = {"location_1", "location", "string"};
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event2, TAG_ID, 0, attributionUids, attributionTags2, "some value");
// Tag "string" is not matched. neq string list {"tag", "location_*", "location*"}
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
}
TEST(AtomMatcherTest, TestEqAnyIntMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the matcher
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* fieldValueMatcher = simpleMatcher->add_field_value_matcher();
fieldValueMatcher->set_field(FIELD_ID_1);
IntListMatcher* eqIntList = fieldValueMatcher->mutable_eq_any_int();
eqIntList->add_int_value(3);
eqIntList->add_int_value(5);
// First int matched.
LogEvent event1(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event1, TAG_ID, 0, 3);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event1));
// Second int matched.
LogEvent event2(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event2, TAG_ID, 0, 5);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event2));
// No ints matched.
LogEvent event3(/*uid=*/0, /*pid=*/0);
makeIntLogEvent(&event3, TAG_ID, 0, 4);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event3));
}
TEST(AtomMatcherTest, TestNeqAnyIntMatcher) {
sp<UidMap> uidMap = new UidMap();
// Set up the log event.
std::vector<int> attributionUids = {1111, 2222, 3333};
std::vector<string> attributionTags = {"location1", "location2", "location3"};
LogEvent event(/*uid=*/0, /*pid=*/0);
makeAttributionLogEvent(&event, TAG_ID, 0, attributionUids, attributionTags, "some value");
// Set up the matcher. Match first uid.
AtomMatcher matcher;
SimpleAtomMatcher* simpleMatcher = matcher.mutable_simple_atom_matcher();
simpleMatcher->set_atom_id(TAG_ID);
FieldValueMatcher* attributionMatcher = simpleMatcher->add_field_value_matcher();
attributionMatcher->set_field(FIELD_ID_1);
attributionMatcher->set_position(Position::FIRST);
FieldValueMatcher* attributionUidMatcher =
attributionMatcher->mutable_matches_tuple()->add_field_value_matcher();
attributionUidMatcher->set_field(ATTRIBUTION_UID_FIELD_ID);
IntListMatcher* neqIntList = attributionUidMatcher->mutable_neq_any_int();
// First uid is not matched. neq int list {4444}
neqIntList->add_int_value(4444);
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// First uid is matched. neq int list {4444, 1111}
neqIntList->add_int_value(1111);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match last uid.
attributionMatcher->set_position(Position::LAST);
// Last uid is not matched. neq int list {4444, 1111}
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// Last uid is matched. neq int list {4444, 1111, 3333}
neqIntList->add_int_value(3333);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
// Match any uid.
attributionMatcher->set_position(Position::ANY);
// Uid 2222 is not matched. neq int list {4444, 1111, 3333}
EXPECT_TRUE(matchesSimple(uidMap, *simpleMatcher, event));
// All uids are matched. neq int list {4444, 1111, 3333, 2222}
neqIntList->add_int_value(2222);
EXPECT_FALSE(matchesSimple(uidMap, *simpleMatcher, event));
}
#else
GTEST_LOG_(INFO) << "This test does nothing.\n";
#endif