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nest-open-source / nest-cam / 4320010 / perfprofd / refs/heads/master / . / perfprofd / tests / perfprofd_test.cc
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/*
* Copyright (C) 2015 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 <algorithm>
#include <cctype>
#include <string>
#include <regex>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <android-base/stringprintf.h>
#include <cutils/properties.h>
#include "perfprofdcore.h"
#include "configreader.h"
#include "perfprofdutils.h"
#include "perfprofdmockutils.h"
#include "perf_profile.pb.h"
#include "google/protobuf/text_format.h"
//
// Set to argv[0] on startup
//
static const char *executable_path;
//
// test_dir is the directory containing the test executable and
// any files associated with the test (will be created by the harness).
//
// dest_dir is a subdirectory of test_dir that we'll create on the fly
// at the start of each testpoint (into which new files can be written),
// then delete at end of testpoint.
//
static std::string test_dir;
static std::string dest_dir;
// Path to perf executable on device
#define PERFPATH "/system/bin/perf"
// Temporary config file that we will emit for the daemon to read
#define CONFIGFILE "perfprofd.conf"
static std::string encoded_file_path(int seq)
{
return android::base::StringPrintf("%s/perf.data.encoded.%d",
dest_dir.c_str(), seq);
}
class PerfProfdTest : public testing::Test {
protected:
virtual void SetUp() {
mock_perfprofdutils_init();
create_dest_dir();
yesclean();
}
virtual void TearDown() {
mock_perfprofdutils_finish();
}
void noclean() {
clean_ = false;
}
void yesclean() {
clean_ = true;
}
private:
bool clean_;
void create_dest_dir() {
setup_dirs();
ASSERT_FALSE(dest_dir == "");
if (clean_) {
std::string cmd("rm -rf ");
cmd += dest_dir;
system(cmd.c_str());
}
std::string cmd("mkdir -p ");
cmd += dest_dir;
system(cmd.c_str());
}
void setup_dirs()
{
if (test_dir == "") {
ASSERT_TRUE(executable_path != nullptr);
std::string s(executable_path);
auto found = s.find_last_of('/');
test_dir = s.substr(0,found);
dest_dir = test_dir;
dest_dir += "/tmp";
}
}
};
static bool bothWhiteSpace(char lhs, char rhs)
{
return (std::isspace(lhs) && std::isspace(rhs));
}
//
// Squeeze out repeated whitespace from expected/actual logs.
//
static std::string squeezeWhite(const std::string &str,
const char *tag,
bool dump=false)
{
if (dump) { fprintf(stderr, "raw %s is %s\n", tag, str.c_str()); }
std::string result(str);
std::replace( result.begin(), result.end(), '\n', ' ');
auto new_end = std::unique(result.begin(), result.end(), bothWhiteSpace);
result.erase(new_end, result.end());
while (result.begin() != result.end() && std::isspace(*result.rbegin())) {
result.pop_back();
}
if (dump) { fprintf(stderr, "squeezed %s is %s\n", tag, result.c_str()); }
return result;
}
///
/// Helper class to kick off a run of the perfprofd daemon with a specific
/// config file.
///
class PerfProfdRunner {
public:
PerfProfdRunner()
: config_path_(test_dir)
{
config_path_ += "/" CONFIGFILE;
}
~PerfProfdRunner()
{
remove_processed_file();
}
void addToConfig(const std::string &line)
{
config_text_ += line;
config_text_ += "\n";
}
void remove_semaphore_file()
{
std::string semaphore(test_dir);
semaphore += "/" SEMAPHORE_FILENAME;
unlink(semaphore.c_str());
}
void create_semaphore_file()
{
std::string semaphore(test_dir);
semaphore += "/" SEMAPHORE_FILENAME;
close(open(semaphore.c_str(), O_WRONLY|O_CREAT));
}
void write_processed_file(int start_seq, int end_seq)
{
std::string processed = test_dir + "/" PROCESSED_FILENAME;
FILE *fp = fopen(processed.c_str(), "w");
for (int i = start_seq; i < end_seq; i++) {
fprintf(fp, "%d\n", i);
}
fclose(fp);
}
void remove_processed_file()
{
std::string processed = test_dir + "/" PROCESSED_FILENAME;
unlink(processed.c_str());
}
int invoke()
{
static const char *argv[3] = { "perfprofd", "-c", "" };
argv[2] = config_path_.c_str();
writeConfigFile(config_path_, config_text_);
// execute daemon main
return perfprofd_main(3, (char **) argv);
}
private:
std::string config_path_;
std::string config_text_;
void writeConfigFile(const std::string &config_path,
const std::string &config_text)
{
FILE *fp = fopen(config_path.c_str(), "w");
ASSERT_TRUE(fp != nullptr);
fprintf(fp, "%s\n", config_text.c_str());
fclose(fp);
}
};
//......................................................................
static void readEncodedProfile(const char *testpoint,
wireless_android_play_playlog::AndroidPerfProfile &encodedProfile)
{
struct stat statb;
int perf_data_stat_result = stat(encoded_file_path(0).c_str(), &statb);
ASSERT_NE(-1, perf_data_stat_result);
// read
std::string encoded;
encoded.resize(statb.st_size);
FILE *ifp = fopen(encoded_file_path(0).c_str(), "r");
ASSERT_NE(nullptr, ifp);
size_t items_read = fread((void*) encoded.data(), statb.st_size, 1, ifp);
ASSERT_EQ(1, items_read);
fclose(ifp);
// decode
encodedProfile.ParseFromString(encoded);
}
static std::string encodedLoadModuleToString(const wireless_android_play_playlog::LoadModule &lm)
{
std::stringstream ss;
ss << "name: \"" << lm.name() << "\"\n";
if (lm.build_id() != "") {
ss << "build_id: \"" << lm.build_id() << "\"\n";
}
return ss.str();
}
static std::string encodedModuleSamplesToString(const wireless_android_play_playlog::LoadModuleSamples &mod)
{
std::stringstream ss;
ss << "load_module_id: " << mod.load_module_id() << "\n";
for (size_t k = 0; k < mod.address_samples_size(); k++) {
const auto &sample = mod.address_samples(k);
ss << " address_samples {\n";
for (size_t l = 0; l < mod.address_samples(k).address_size();
l++) {
auto address = mod.address_samples(k).address(l);
ss << " address: " << address << "\n";
}
ss << " count: " << sample.count() << "\n";
ss << " }\n";
}
return ss.str();
}
#define RAW_RESULT(x) #x
//
// Check to see if the log messages emitted by the daemon
// match the expected result. By default we use a partial
// match, e.g. if we see the expected excerpt anywhere in the
// result, it's a match (for exact match, set exact to true)
//
static void compareLogMessages(const std::string &actual,
const std::string &expected,
const char *testpoint,
bool exactMatch=false)
{
std::string sqexp = squeezeWhite(expected, "expected");
std::string sqact = squeezeWhite(actual, "actual");
if (exactMatch) {
EXPECT_STREQ(sqexp.c_str(), sqact.c_str());
} else {
std::size_t foundpos = sqact.find(sqexp);
bool wasFound = true;
if (foundpos == std::string::npos) {
std::cerr << testpoint << ": expected result not found\n";
std::cerr << " Actual: \"" << sqact << "\"\n";
std::cerr << " Expected: \"" << sqexp << "\"\n";
wasFound = false;
}
EXPECT_TRUE(wasFound);
}
}
TEST_F(PerfProfdTest, MissingGMS)
{
//
// AWP requires cooperation between the daemon and the GMS core
// piece. If we're running on a device that has an old or damaged
// version of GMS core, then the config directory we're interested in
// may not be there. This test insures that the daemon does the
// right thing in this case.
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
runner.addToConfig("trace_config_read=0");
runner.addToConfig("config_directory=/does/not/exist");
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=1");
runner.addToConfig("collection_interval=100");
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Verify log contents
const std::string expected = RAW_RESULT(
I: sleep 90 seconds
W: unable to open config directory /does/not/exist: (No such file or directory)
I: profile collection skipped (missing config directory)
);
// check to make sure entire log matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "MissingGMS");
}
TEST_F(PerfProfdTest, MissingOptInSemaphoreFile)
{
//
// Android device owners must opt in to "collect and report usage
// data" in order for us to be able to collect profiles. The opt-in
// check is performed in the GMS core component; if the check
// passes, then it creates a semaphore file for the daemon to pick
// up on.
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=1");
runner.addToConfig("collection_interval=100");
runner.remove_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Verify log contents
const std::string expected = RAW_RESULT(
I: profile collection skipped (missing semaphore file)
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "MissingOptInSemaphoreFile");
}
TEST_F(PerfProfdTest, MissingPerfExecutable)
{
//
// Perfprofd uses the 'simpleperf' tool to collect profiles
// (although this may conceivably change in the future). This test
// checks to make sure that if 'simpleperf' is not present we bail out
// from collecting profiles.
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
runner.addToConfig("trace_config_read=1");
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=1");
runner.addToConfig("collection_interval=100");
runner.addToConfig("perf_path=/does/not/exist");
// Create semaphore file
runner.create_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// expected log contents
const std::string expected = RAW_RESULT(
I: profile collection skipped (missing 'perf' executable)
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "MissingPerfExecutable");
}
TEST_F(PerfProfdTest, BadPerfRun)
{
//
// Perf tools tend to be tightly coupled with a specific kernel
// version -- if things are out of sync perf could fail or
// crash. This test makes sure that we detect such a case and log
// the error.
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=1");
runner.addToConfig("collection_interval=100");
runner.addToConfig("perf_path=/system/bin/false");
// Create semaphore file
runner.create_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Verify log contents
const std::string expected = RAW_RESULT(
I: profile collection failed (perf record returned bad exit status)
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "BadPerfRun");
}
TEST_F(PerfProfdTest, ConfigFileParsing)
{
//
// Gracefully handly malformed items in the config file
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("collection_interval=100");
runner.addToConfig("use_fixed_seed=1");
runner.addToConfig("destination_directory=/does/not/exist");
// assorted bad syntax
runner.addToConfig("collection_interval=0");
runner.addToConfig("collection_interval=-1");
runner.addToConfig("collection_interval=2");
runner.addToConfig("nonexistent_key=something");
runner.addToConfig("no_equals_stmt");
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Verify log contents
const std::string expected = RAW_RESULT(
W: line 6: specified value 0 for 'collection_interval' outside permitted range [100 4294967295] (ignored)
W: line 7: malformed unsigned value (ignored)
W: line 8: specified value 2 for 'collection_interval' outside permitted range [100 4294967295] (ignored)
W: line 9: unknown option 'nonexistent_key' ignored
W: line 10: line malformed (no '=' found)
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "ConfigFileParsing");
}
TEST_F(PerfProfdTest, ProfileCollectionAnnotations)
{
unsigned util1 = collect_cpu_utilization();
EXPECT_LE(util1, 100);
EXPECT_GE(util1, 0);
// NB: expectation is that when we run this test, the device will be
// completed booted, will be on charger, and will not have the camera
// active.
EXPECT_FALSE(get_booting());
EXPECT_TRUE(get_charging());
EXPECT_FALSE(get_camera_active());
}
TEST_F(PerfProfdTest, BasicRunWithCannedPerf)
{
//
// Verify the portion of the daemon that reads and encodes
// perf.data files. Here we run the encoder on a canned perf.data
// file and verify that the resulting protobuf contains what
// we think it should contain.
//
std::string input_perf_data(test_dir);
input_perf_data += "/canned.perf.data";
// Set up config to avoid these annotations (they are tested elsewhere)
ConfigReader config;
config.overrideUnsignedEntry("collect_cpu_utilization", 0);
config.overrideUnsignedEntry("collect_charging_state", 0);
config.overrideUnsignedEntry("collect_camera_active", 0);
// Kick off encoder and check return code
PROFILE_RESULT result =
encode_to_proto(input_perf_data, encoded_file_path(0).c_str(), config, 0);
EXPECT_EQ(OK_PROFILE_COLLECTION, result);
// Read and decode the resulting perf.data.encoded file
wireless_android_play_playlog::AndroidPerfProfile encodedProfile;
readEncodedProfile("BasicRunWithCannedPerf",
encodedProfile);
// Expect 29 load modules
EXPECT_EQ(29, encodedProfile.programs_size());
// Check a couple of load modules
{ const auto &lm0 = encodedProfile.load_modules(0);
std::string act_lm0 = encodedLoadModuleToString(lm0);
std::string sqact0 = squeezeWhite(act_lm0, "actual for lm 0");
const std::string expected_lm0 = RAW_RESULT(
name: "/data/app/com.google.android.apps.plus-1/lib/arm/libcronet.so"
);
std::string sqexp0 = squeezeWhite(expected_lm0, "expected_lm0");
EXPECT_STREQ(sqexp0.c_str(), sqact0.c_str());
}
{ const auto &lm9 = encodedProfile.load_modules(9);
std::string act_lm9 = encodedLoadModuleToString(lm9);
std::string sqact9 = squeezeWhite(act_lm9, "actual for lm 9");
const std::string expected_lm9 = RAW_RESULT(
name: "/system/lib/libandroid_runtime.so" build_id: "8164ed7b3a8b8f5a220d027788922510"
);
std::string sqexp9 = squeezeWhite(expected_lm9, "expected_lm9");
EXPECT_STREQ(sqexp9.c_str(), sqact9.c_str());
}
// Examine some of the samples now
{ const auto &p1 = encodedProfile.programs(0);
const auto &lm1 = p1.modules(0);
std::string act_lm1 = encodedModuleSamplesToString(lm1);
std::string sqact1 = squeezeWhite(act_lm1, "actual for lm1");
const std::string expected_lm1 = RAW_RESULT(
load_module_id: 9 address_samples { address: 296100 count: 1 }
);
std::string sqexp1 = squeezeWhite(expected_lm1, "expected_lm1");
EXPECT_STREQ(sqexp1.c_str(), sqact1.c_str());
}
{ const auto &p1 = encodedProfile.programs(2);
const auto &lm2 = p1.modules(0);
std::string act_lm2 = encodedModuleSamplesToString(lm2);
std::string sqact2 = squeezeWhite(act_lm2, "actual for lm2");
const std::string expected_lm2 = RAW_RESULT(
load_module_id: 2
address_samples { address: 28030244 count: 1 }
address_samples { address: 29657840 count: 1 }
);
std::string sqexp2 = squeezeWhite(expected_lm2, "expected_lm2");
EXPECT_STREQ(sqexp2.c_str(), sqact2.c_str());
}
}
TEST_F(PerfProfdTest, CallchainRunWithCannedPerf)
{
// This test makes sure that the perf.data converter
// can handle call chains.
//
std::string input_perf_data(test_dir);
input_perf_data += "/callchain.canned.perf.data";
// Set up config to avoid these annotations (they are tested elsewhere)
ConfigReader config;
config.overrideUnsignedEntry("collect_cpu_utilization", 0);
config.overrideUnsignedEntry("collect_charging_state", 0);
config.overrideUnsignedEntry("collect_camera_active", 0);
// Kick off encoder and check return code
PROFILE_RESULT result =
encode_to_proto(input_perf_data, encoded_file_path(0).c_str(), config, 0);
EXPECT_EQ(OK_PROFILE_COLLECTION, result);
// Read and decode the resulting perf.data.encoded file
wireless_android_play_playlog::AndroidPerfProfile encodedProfile;
readEncodedProfile("BasicRunWithCannedPerf",
encodedProfile);
// Expect 4 programs 8 load modules
EXPECT_EQ(4, encodedProfile.programs_size());
EXPECT_EQ(8, encodedProfile.load_modules_size());
// Check a couple of load modules
{ const auto &lm0 = encodedProfile.load_modules(0);
std::string act_lm0 = encodedLoadModuleToString(lm0);
std::string sqact0 = squeezeWhite(act_lm0, "actual for lm 0");
const std::string expected_lm0 = RAW_RESULT(
name: "/system/bin/dex2oat"
build_id: "ee12bd1a1de39422d848f249add0afc4"
);
std::string sqexp0 = squeezeWhite(expected_lm0, "expected_lm0");
EXPECT_STREQ(sqexp0.c_str(), sqact0.c_str());
}
{ const auto &lm1 = encodedProfile.load_modules(1);
std::string act_lm1 = encodedLoadModuleToString(lm1);
std::string sqact1 = squeezeWhite(act_lm1, "actual for lm 1");
const std::string expected_lm1 = RAW_RESULT(
name: "/system/bin/linker"
build_id: "a36715f673a4a0aa76ef290124c516cc"
);
std::string sqexp1 = squeezeWhite(expected_lm1, "expected_lm1");
EXPECT_STREQ(sqexp1.c_str(), sqact1.c_str());
}
// Examine some of the samples now
{ const auto &p0 = encodedProfile.programs(0);
const auto &lm1 = p0.modules(0);
std::string act_lm1 = encodedModuleSamplesToString(lm1);
std::string sqact1 = squeezeWhite(act_lm1, "actual for lm1");
const std::string expected_lm1 = RAW_RESULT(
load_module_id: 0
address_samples { address: 108552 count: 2 }
);
std::string sqexp1 = squeezeWhite(expected_lm1, "expected_lm1");
EXPECT_STREQ(sqexp1.c_str(), sqact1.c_str());
}
{ const auto &p4 = encodedProfile.programs(3);
const auto &lm2 = p4.modules(1);
std::string act_lm2 = encodedModuleSamplesToString(lm2);
std::string sqact2 = squeezeWhite(act_lm2, "actual for lm2");
const std::string expected_lm2 = RAW_RESULT(
load_module_id: 2 address_samples { address: 403913 count: 1 } address_samples { address: 840761 count: 1 } address_samples { address: 846481 count: 1 } address_samples { address: 999053 count: 1 } address_samples { address: 1012959 count: 1 } address_samples { address: 1524309 count: 1 } address_samples { address: 1580779 count: 1 } address_samples { address: 4287986288 count: 1 }
);
std::string sqexp2 = squeezeWhite(expected_lm2, "expected_lm2");
EXPECT_STREQ(sqexp2.c_str(), sqact2.c_str());
}
}
TEST_F(PerfProfdTest, BasicRunWithLivePerf)
{
//
// Basic test to exercise the main loop of the daemon. It includes
// a live 'perf' run
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=12345678");
runner.addToConfig("max_unprocessed_profiles=100");
runner.addToConfig("collection_interval=9999");
runner.addToConfig("sample_duration=2");
// Create semaphore file
runner.create_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Read and decode the resulting perf.data.encoded file
wireless_android_play_playlog::AndroidPerfProfile encodedProfile;
readEncodedProfile("BasicRunWithLivePerf", encodedProfile);
// Examine what we get back. Since it's a live profile, we can't
// really do much in terms of verifying the contents.
EXPECT_LT(0, encodedProfile.programs_size());
// Verify log contents
const std::string expected = RAW_RESULT(
I: starting Android Wide Profiling daemon
I: config file path set to /data/nativetest/perfprofd_test/perfprofd.conf
I: random seed set to 12345678
I: sleep 674 seconds
I: initiating profile collection
I: profile collection complete
I: sleep 9325 seconds
I: finishing Android Wide Profiling daemon
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "BasicRunWithLivePerf", true);
}
TEST_F(PerfProfdTest, MultipleRunWithLivePerf)
{
//
// Basic test to exercise the main loop of the daemon. It includes
// a live 'perf' run
//
PerfProfdRunner runner;
runner.addToConfig("only_debug_build=0");
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
runner.addToConfig("main_loop_iterations=3");
runner.addToConfig("use_fixed_seed=12345678");
runner.addToConfig("collection_interval=9999");
runner.addToConfig("sample_duration=2");
runner.write_processed_file(1, 2);
// Create semaphore file
runner.create_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Read and decode the resulting perf.data.encoded file
wireless_android_play_playlog::AndroidPerfProfile encodedProfile;
readEncodedProfile("BasicRunWithLivePerf", encodedProfile);
// Examine what we get back. Since it's a live profile, we can't
// really do much in terms of verifying the contents.
EXPECT_LT(0, encodedProfile.programs_size());
// Examine that encoded.1 file is removed while encoded.{0|2} exists.
EXPECT_EQ(0, access(encoded_file_path(0).c_str(), F_OK));
EXPECT_NE(0, access(encoded_file_path(1).c_str(), F_OK));
EXPECT_EQ(0, access(encoded_file_path(2).c_str(), F_OK));
// Verify log contents
const std::string expected = RAW_RESULT(
I: starting Android Wide Profiling daemon
I: config file path set to /data/nativetest/perfprofd_test/perfprofd.conf
I: random seed set to 12345678
I: sleep 674 seconds
I: initiating profile collection
I: profile collection complete
I: sleep 9325 seconds
I: sleep 4974 seconds
I: initiating profile collection
I: profile collection complete
I: sleep 5025 seconds
I: sleep 501 seconds
I: initiating profile collection
I: profile collection complete
I: sleep 9498 seconds
I: finishing Android Wide Profiling daemon
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "BasicRunWithLivePerf", true);
}
TEST_F(PerfProfdTest, CallChainRunWithLivePerf)
{
//
// Callchain profiles are only supported on certain devices.
// For now this test is stubbed out except when run on "angler".
//
char propBuf[PROPERTY_VALUE_MAX];
propBuf[0] = '\0';
property_get("ro.hardware", propBuf, "");
if (strcmp(propBuf, "angler")) {
return;
}
//
// Collect a callchain profile, so as to exercise the code in
// perf_data post-processing that digests callchains.
//
PerfProfdRunner runner;
std::string ddparam("destination_directory="); ddparam += dest_dir;
runner.addToConfig(ddparam);
std::string cfparam("config_directory="); cfparam += test_dir;
runner.addToConfig(cfparam);
runner.addToConfig("main_loop_iterations=1");
runner.addToConfig("use_fixed_seed=12345678");
runner.addToConfig("max_unprocessed_profiles=100");
runner.addToConfig("collection_interval=9999");
runner.addToConfig("stack_profile=1");
runner.addToConfig("sample_duration=2");
// Create semaphore file
runner.create_semaphore_file();
// Kick off daemon
int daemon_main_return_code = runner.invoke();
// Check return code from daemon
EXPECT_EQ(0, daemon_main_return_code);
// Read and decode the resulting perf.data.encoded file
wireless_android_play_playlog::AndroidPerfProfile encodedProfile;
readEncodedProfile("CallChainRunWithLivePerf", encodedProfile);
// Examine what we get back. Since it's a live profile, we can't
// really do much in terms of verifying the contents.
EXPECT_LT(0, encodedProfile.programs_size());
// Verify log contents
const std::string expected = RAW_RESULT(
I: starting Android Wide Profiling daemon
I: config file path set to /data/nativetest/perfprofd_test/perfprofd.conf
I: random seed set to 12345678
I: sleep 674 seconds
I: initiating profile collection
I: profile collection complete
I: sleep 9325 seconds
I: finishing Android Wide Profiling daemon
);
// check to make sure log excerpt matches
compareLogMessages(mock_perfprofdutils_getlogged(),
expected, "CallChainRunWithLivePerf", true);
}
int main(int argc, char **argv) {
executable_path = argv[0];
// switch to / before starting testing (perfprofd
// should be location-independent)
chdir("/");
testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}