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3485c844a0bb5e7d11c19562cdb4036ceea0c5fa
frameworks_base/tools/bit/main.cpp
Dan Willemsen a40118d7b6 Use soong_ui directly, instead of make 
This will use ckati instead of make for dumping variables, for
consistent makefile parsing. It may also sandbox executions, etc.

Also skip the legacy make wrapper to build, and use soong_ui instead.
The command line arguments are equivalent, but -j is no longer
necessary, we'll default to a sane value.

Test: bit -b framework
Change-Id: Idc2c9d1abe84b6b783b8702925de5493d47a4509
2017-10-17 17:53:36 -07:00

1005 lines
33 KiB
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/*
* Copyright (C) 2016 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 "aapt.h"
#include "adb.h"
#include "make.h"
#include "print.h"
#include "util.h"
#include <sstream>
#include <string>
#include <vector>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <google/protobuf/stubs/common.h>
using namespace std;
/**
* An entry from the command line for something that will be built, installed,
* and/or tested.
*/
struct Target {
bool build;
bool install;
bool test;
string pattern;
string name;
vector<string> actions;
Module module;
int testActionCount;
int testPassCount;
int testFailCount;
bool actionsWithNoTests;
Target(bool b, bool i, bool t, const string& p);
};
Target::Target(bool b, bool i, bool t, const string& p)
:build(b),
install(i),
test(t),
pattern(p),
testActionCount(0),
testPassCount(0),
testFailCount(0),
actionsWithNoTests(false)
{
}
/**
* Command line options.
*/
struct Options {
// For help
bool runHelp;
// For tab completion
bool runTab;
string tabPattern;
// For build/install/test
bool noRestart;
bool reboot;
vector<Target*> targets;
Options();
~Options();
};
Options::Options()
:runHelp(false),
runTab(false),
noRestart(false),
reboot(false),
targets()
{
}
Options::~Options()
{
}
struct InstallApk
{
TrackedFile file;
bool alwaysInstall;
bool installed;
InstallApk();
InstallApk(const InstallApk& that);
InstallApk(const string& filename, bool always);
~InstallApk() {};
};
InstallApk::InstallApk()
{
}
InstallApk::InstallApk(const InstallApk& that)
:file(that.file),
alwaysInstall(that.alwaysInstall),
installed(that.installed)
{
}
InstallApk::InstallApk(const string& filename, bool always)
:file(filename),
alwaysInstall(always),
installed(false)
{
}
/**
* Record for an test that is going to be launched.
*/
struct TestAction {
TestAction();
// The package name from the apk
string packageName;
// The test runner class
string runner;
// The test class, or none if all tests should be run
string className;
// The original target that requested this action
Target* target;
// The number of tests that passed
int passCount;
// The number of tests that failed
int failCount;
};
TestAction::TestAction()
:passCount(0),
failCount(0)
{
}
/**
* Record for an activity that is going to be launched.
*/
struct ActivityAction {
// The package name from the apk
string packageName;
// The test class, or none if all tests should be run
string className;
};
/**
* Callback class for the am instrument command.
*/
class TestResults: public InstrumentationCallbacks
{
public:
virtual void OnTestStatus(TestStatus& status);
virtual void OnSessionStatus(SessionStatus& status);
/**
* Set the TestAction that the tests are for.
* It will be updated with statistics as the tests run.
*/
void SetCurrentAction(TestAction* action);
private:
TestAction* m_currentAction;
};
void
TestResults::OnTestStatus(TestStatus& status)
{
bool found;
// printf("OnTestStatus\n");
// status.PrintDebugString();
int32_t resultCode = status.has_results() ? status.result_code() : 0;
if (!status.has_results()) {
return;
}
const ResultsBundle &results = status.results();
int32_t currentTestNum = get_bundle_int(results, &found, "current", NULL);
if (!found) {
currentTestNum = -1;
}
int32_t testCount = get_bundle_int(results, &found, "numtests", NULL);
if (!found) {
testCount = -1;
}
string className = get_bundle_string(results, &found, "class", NULL);
if (!found) {
return;
}
string testName = get_bundle_string(results, &found, "test", NULL);
if (!found) {
return;
}
if (resultCode == 0) {
// test passed
m_currentAction->passCount++;
m_currentAction->target->testPassCount++;
} else if (resultCode == 1) {
// test starting
ostringstream line;
line << "Running";
if (currentTestNum > 0) {
line << ": " << currentTestNum;
if (testCount > 0) {
line << " of " << testCount;
}
}
line << ": " << m_currentAction->target->name << ':' << className << "\\#" << testName;
print_one_line("%s", line.str().c_str());
} else if (resultCode == -2) {
// test failed
m_currentAction->failCount++;
m_currentAction->target->testFailCount++;
printf("%s\n%sFailed: %s:%s\\#%s%s\n", g_escapeClearLine, g_escapeRedBold,
m_currentAction->target->name.c_str(), className.c_str(),
testName.c_str(), g_escapeEndColor);
string stack = get_bundle_string(results, &found, "stack", NULL);
if (found) {
printf("%s\n", stack.c_str());
}
}
}
void
TestResults::OnSessionStatus(SessionStatus& /*status*/)
{
//status.PrintDebugString();
}
void
TestResults::SetCurrentAction(TestAction* action)
{
m_currentAction = action;
}
/**
* Prints the usage statement / help text.
*/
static void
print_usage(FILE* out) {
fprintf(out, "usage: bit OPTIONS PATTERN\n");
fprintf(out, "\n");
fprintf(out, " Build, sync and test android code.\n");
fprintf(out, "\n");
fprintf(out, " The -b -i and -t options allow you to specify which phases\n");
fprintf(out, " you want to run. If none of those options are given, then\n");
fprintf(out, " all phases are run. If any of these options are provided\n");
fprintf(out, " then only the listed phases are run.\n");
fprintf(out, "\n");
fprintf(out, " OPTIONS\n");
fprintf(out, " -b Run a build\n");
fprintf(out, " -i Install the targets\n");
fprintf(out, " -t Run the tests\n");
fprintf(out, "\n");
fprintf(out, " -n Don't reboot or restart\n");
fprintf(out, " -r If the runtime needs to be restarted, do a full reboot\n");
fprintf(out, " instead\n");
fprintf(out, "\n");
fprintf(out, " PATTERN\n");
fprintf(out, " One or more targets to build, install and test. The target\n");
fprintf(out, " names are the names that appear in the LOCAL_MODULE or\n");
fprintf(out, " LOCAL_PACKAGE_NAME variables in Android.mk or Android.bp files.\n");
fprintf(out, "\n");
fprintf(out, " Building and installing\n");
fprintf(out, " -----------------------\n");
fprintf(out, " The modules specified will be built and then installed. If the\n");
fprintf(out, " files are on the system partition, they will be synced and the\n");
fprintf(out, " attached device rebooted. If they are APKs that aren't on the\n");
fprintf(out, " system partition they are installed with adb install.\n");
fprintf(out, "\n");
fprintf(out, " For example:\n");
fprintf(out, " bit framework\n");
fprintf(out, " Builds framework.jar, syncs the system partition and reboots.\n");
fprintf(out, "\n");
fprintf(out, " bit SystemUI\n");
fprintf(out, " Builds SystemUI.apk, syncs the system partition and reboots.\n");
fprintf(out, "\n");
fprintf(out, " bit CtsProtoTestCases\n");
fprintf(out, " Builds this CTS apk, adb installs it, but does not run any\n");
fprintf(out, " tests.\n");
fprintf(out, "\n");
fprintf(out, " Running Unit Tests\n");
fprintf(out, " ------------------\n");
fprintf(out, " To run a unit test, list the test class names and optionally the\n");
fprintf(out, " test method after the module.\n");
fprintf(out, "\n");
fprintf(out, " For example:\n");
fprintf(out, " bit CtsProtoTestCases:*\n");
fprintf(out, " Builds this CTS apk, adb installs it, and runs all the tests\n");
fprintf(out, " contained in that apk.\n");
fprintf(out, "\n");
fprintf(out, " bit framework CtsProtoTestCases:*\n");
fprintf(out, " Builds the framework and the apk, syncs and reboots, then\n");
fprintf(out, " adb installs CtsProtoTestCases.apk, and runs all tests \n");
fprintf(out, " contained in that apk.\n");
fprintf(out, "\n");
fprintf(out, " bit CtsProtoTestCases:.ProtoOutputStreamBoolTest\n");
fprintf(out, " bit CtsProtoTestCases:android.util.proto.cts.ProtoOutputStreamBoolTest\n");
fprintf(out, " Builds and installs CtsProtoTestCases.apk, and runs all the\n");
fprintf(out, " tests in the ProtoOutputStreamBoolTest class.\n");
fprintf(out, "\n");
fprintf(out, " bit CtsProtoTestCases:.ProtoOutputStreamBoolTest\\#testWrite\n");
fprintf(out, " Builds and installs CtsProtoTestCases.apk, and runs the testWrite\n");
fprintf(out, " test method on that class.\n");
fprintf(out, "\n");
fprintf(out, " bit CtsProtoTestCases:.ProtoOutputStreamBoolTest\\#testWrite,.ProtoOutputStreamBoolTest\\#testRepeated\n");
fprintf(out, " Builds and installs CtsProtoTestCases.apk, and runs the testWrite\n");
fprintf(out, " and testRepeated test methods on that class.\n");
fprintf(out, "\n");
fprintf(out, " Launching an Activity\n");
fprintf(out, " ---------------------\n");
fprintf(out, " To launch an activity, specify the activity class name after\n");
fprintf(out, " the module name.\n");
fprintf(out, "\n");
fprintf(out, " For example:\n");
fprintf(out, " bit StatusBarTest:NotificationBuilderTest\n");
fprintf(out, " bit StatusBarTest:.NotificationBuilderTest\n");
fprintf(out, " bit StatusBarTest:com.android.statusbartest.NotificationBuilderTest\n");
fprintf(out, " Builds and installs StatusBarTest.apk, launches the\n");
fprintf(out, " com.android.statusbartest/.NotificationBuilderTest activity.\n");
fprintf(out, "\n");
fprintf(out, "\n");
fprintf(out, "usage: bit --tab ...\n");
fprintf(out, "\n");
fprintf(out, " Lists the targets in a format for tab completion. To get tab\n");
fprintf(out, " completion, add this to your bash environment:\n");
fprintf(out, "\n");
fprintf(out, " complete -C \"bit --tab\" bit\n");
fprintf(out, "\n");
fprintf(out, " Sourcing android's build/envsetup.sh will do this for you\n");
fprintf(out, " automatically.\n");
fprintf(out, "\n");
fprintf(out, "\n");
fprintf(out, "usage: bit --help\n");
fprintf(out, "usage: bit -h\n");
fprintf(out, "\n");
fprintf(out, " Print this help message\n");
fprintf(out, "\n");
}
/**
* Sets the appropriate flag* variables. If there is a problem with the
* commandline arguments, prints the help message and exits with an error.
*/
static void
parse_args(Options* options, int argc, const char** argv)
{
// Help
if (argc == 2 && (strcmp(argv[1], "-h") == 0 || strcmp(argv[1], "--help") == 0)) {
options->runHelp = true;
return;
}
// Tab
if (argc >= 4 && strcmp(argv[1], "--tab") == 0) {
options->runTab = true;
options->tabPattern = argv[3];
return;
}
// Normal usage
bool anyPhases = false;
bool gotPattern = false;
bool flagBuild = false;
bool flagInstall = false;
bool flagTest = false;
for (int i=1; i < argc; i++) {
string arg(argv[i]);
if (arg[0] == '-') {
for (size_t j=1; j<arg.size(); j++) {
switch (arg[j]) {
case '-':
break;
case 'b':
if (gotPattern) {
gotPattern = false;
flagInstall = false;
flagTest = false;
}
flagBuild = true;
anyPhases = true;
break;
case 'i':
if (gotPattern) {
gotPattern = false;
flagBuild = false;
flagTest = false;
}
flagInstall = true;
anyPhases = true;
break;
case 't':
if (gotPattern) {
gotPattern = false;
flagBuild = false;
flagInstall = false;
}
flagTest = true;
anyPhases = true;
break;
case 'n':
options->noRestart = true;
break;
case 'r':
options->reboot = true;
break;
default:
fprintf(stderr, "Unrecognized option '%c'\n", arg[j]);
print_usage(stderr);
exit(1);
break;
}
}
} else {
Target* target = new Target(flagBuild || !anyPhases, flagInstall || !anyPhases,
flagTest || !anyPhases, arg);
size_t colonPos = arg.find(':');
if (colonPos == 0) {
fprintf(stderr, "Test / activity supplied without a module to build: %s\n",
arg.c_str());
print_usage(stderr);
delete target;
exit(1);
} else if (colonPos == string::npos) {
target->name = arg;
} else {
target->name.assign(arg, 0, colonPos);
size_t beginPos = colonPos+1;
size_t commaPos;
while (true) {
commaPos = arg.find(',', beginPos);
if (commaPos == string::npos) {
if (beginPos != arg.size()) {
target->actions.push_back(string(arg, beginPos, commaPos));
}
break;
} else {
if (commaPos != beginPos) {
target->actions.push_back(string(arg, beginPos, commaPos-beginPos));
}
beginPos = commaPos+1;
}
}
}
options->targets.push_back(target);
gotPattern = true;
}
}
// If no pattern was supplied, give an error
if (options->targets.size() == 0) {
fprintf(stderr, "No PATTERN supplied.\n\n");
print_usage(stderr);
exit(1);
}
}
/**
* Get an environment variable.
* Exits with an error if it is unset or the empty string.
*/
static string
get_required_env(const char* name, bool quiet)
{
const char* value = getenv(name);
if (value == NULL || value[0] == '\0') {
if (!quiet) {
fprintf(stderr, "%s not set. Did you source build/envsetup.sh,"
" run lunch and do a build?\n", name);
}
exit(1);
}
return string(value);
}
/**
* Get the out directory.
*
* This duplicates the logic in build/make/core/envsetup.mk (which hasn't changed since 2011)
* so that we don't have to wait for get_build_var make invocation.
*/
string
get_out_dir()
{
const char* out_dir = getenv("OUT_DIR");
if (out_dir == NULL || out_dir[0] == '\0') {
const char* common_base = getenv("OUT_DIR_COMMON_BASE");
if (common_base == NULL || common_base[0] == '\0') {
// We don't prefix with buildTop because we cd there and it
// makes all the filenames long when being pretty printed.
return "out";
} else {
char pwd[PATH_MAX];
if (getcwd(pwd, PATH_MAX) == NULL) {
fprintf(stderr, "Your pwd is too long.\n");
exit(1);
}
const char* slash = strrchr(pwd, '/');
if (slash == NULL) {
slash = "";
}
string result(common_base);
result += slash;
return result;
}
}
return string(out_dir);
}
/**
* Check that a system property on the device matches the expected value.
* Exits with an error if they don't.
*/
static void
check_device_property(const string& property, const string& expected)
{
int err;
string deviceValue = get_system_property(property, &err);
check_error(err);
if (deviceValue != expected) {
print_error("There is a mismatch between the build you just did and the device you");
print_error("are trying to sync it to in the %s system property", property.c_str());
print_error(" build: %s", expected.c_str());
print_error(" device: %s", deviceValue.c_str());
exit(1);
}
}
static void
chdir_or_exit(const char *path) {
// TODO: print_command("cd", path);
if (0 != chdir(path)) {
print_error("Error: Could not chdir: %s", path);
exit(1);
}
}
/**
* Run the build, install, and test actions.
*/
void
run_phases(vector<Target*> targets, const Options& options)
{
int err = 0;
//
// Initialization
//
print_status("Initializing");
const string buildTop = get_required_env("ANDROID_BUILD_TOP", false);
const string buildProduct = get_required_env("TARGET_PRODUCT", false);
const string buildVariant = get_required_env("TARGET_BUILD_VARIANT", false);
const string buildType = get_required_env("TARGET_BUILD_TYPE", false);
chdir_or_exit(buildTop.c_str());
const string buildDevice = get_build_var("TARGET_DEVICE", false);
const string buildId = get_build_var("BUILD_ID", false);
const string buildOut = get_out_dir();
// Get the modules for the targets
map<string,Module> modules;
read_modules(buildOut, buildDevice, &modules, false);
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
map<string,Module>::iterator mod = modules.find(target->name);
if (mod != modules.end()) {
target->module = mod->second;
} else {
print_error("Error: Could not find module: %s", target->name.c_str());
err = 1;
}
}
if (err != 0) {
exit(1);
}
// Choose the goals
vector<string> goals;
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
if (target->build) {
goals.push_back(target->name);
}
}
// Figure out whether we need to sync the system and which apks to install
string systemPath = buildOut + "/target/product/" + buildDevice + "/system/";
string dataPath = buildOut + "/target/product/" + buildDevice + "/data/";
bool syncSystem = false;
bool alwaysSyncSystem = false;
vector<InstallApk> installApks;
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
if (target->install) {
for (size_t j=0; j<target->module.installed.size(); j++) {
const string& file = target->module.installed[j];
// System partition
if (starts_with(file, systemPath)) {
syncSystem = true;
if (!target->build) {
// If a system partition target didn't get built then
// it won't change we will always need to do adb sync
alwaysSyncSystem = true;
}
continue;
}
// Apk in the data partition
if (starts_with(file, dataPath) && ends_with(file, ".apk")) {
// Always install it if we didn't build it because otherwise
// it will never have changed.
installApks.push_back(InstallApk(file, !target->build));
continue;
}
}
}
}
map<string,FileInfo> systemFilesBefore;
if (syncSystem && !alwaysSyncSystem) {
get_directory_contents(systemPath, &systemFilesBefore);
}
//
// Build
//
// Run the build
if (goals.size() > 0) {
print_status("Building");
err = build_goals(goals);
check_error(err);
}
//
// Install
//
// Sync the system partition and reboot
bool skipSync = false;
if (syncSystem) {
print_status("Syncing /system");
if (!alwaysSyncSystem) {
// If nothing changed and we weren't forced to sync, skip the reboot for speed.
map<string,FileInfo> systemFilesAfter;
get_directory_contents(systemPath, &systemFilesAfter);
skipSync = !directory_contents_differ(systemFilesBefore, systemFilesAfter);
}
if (skipSync) {
printf("Skipping sync because no files changed.\n");
} else {
// Do some sanity checks
check_device_property("ro.build.product", buildProduct);
check_device_property("ro.build.type", buildVariant);
check_device_property("ro.build.id", buildId);
// Stop & Sync
if (!options.noRestart) {
err = run_adb("shell", "stop", NULL);
check_error(err);
}
err = run_adb("remount", NULL);
check_error(err);
err = run_adb("sync", "system", NULL);
check_error(err);
if (!options.noRestart) {
if (options.reboot) {
print_status("Rebooting");
err = run_adb("reboot", NULL);
check_error(err);
err = run_adb("wait-for-device", NULL);
check_error(err);
} else {
print_status("Restarting the runtime");
err = run_adb("shell", "setprop", "sys.boot_completed", "0", NULL);
check_error(err);
err = run_adb("shell", "start", NULL);
check_error(err);
}
while (true) {
string completed = get_system_property("sys.boot_completed", &err);
check_error(err);
if (completed == "1") {
break;
}
sleep(2);
}
sleep(1);
err = run_adb("shell", "wm", "dismiss-keyguard", NULL);
check_error(err);
}
}
}
// Install APKs
if (installApks.size() > 0) {
print_status("Installing APKs");
for (size_t i=0; i<installApks.size(); i++) {
InstallApk& apk = installApks[i];
if (!apk.file.fileInfo.exists || apk.file.HasChanged()) {
// It didn't exist before or it changed, so int needs install
err = run_adb("install", "-r", apk.file.filename.c_str(), NULL);
check_error(err);
apk.installed = true;
} else {
printf("APK didn't change. Skipping install of %s\n", apk.file.filename.c_str());
}
}
}
//
// Actions
//
// Inspect the apks, and figure out what is an activity and what needs a test runner
bool printedInspecting = false;
vector<TestAction> testActions;
vector<ActivityAction> activityActions;
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
if (target->test) {
for (size_t j=0; j<target->module.installed.size(); j++) {
string filename = target->module.installed[j];
if (!ends_with(filename, ".apk")) {
continue;
}
if (!printedInspecting) {
printedInspecting = true;
print_status("Inspecting APKs");
}
Apk apk;
err = inspect_apk(&apk, filename);
check_error(err);
for (size_t k=0; k<target->actions.size(); k++) {
string actionString = target->actions[k];
if (actionString == "*") {
if (apk.runner.length() == 0) {
print_error("Error: Test requested for apk that doesn't"
" have an <instrumentation> tag: %s\n",
target->module.name.c_str());
exit(1);
}
TestAction action;
action.packageName = apk.package;
action.runner = apk.runner;
action.target = target;
testActions.push_back(action);
target->testActionCount++;
} else if (apk.HasActivity(actionString)) {
ActivityAction action;
action.packageName = apk.package;
action.className = full_class_name(apk.package, actionString);
activityActions.push_back(action);
} else {
if (apk.runner.length() == 0) {
print_error("Error: Test requested for apk that doesn't"
" have an <instrumentation> tag: %s\n",
target->module.name.c_str());
exit(1);
}
TestAction action;
action.packageName = apk.package;
action.runner = apk.runner;
action.className = full_class_name(apk.package, actionString);
action.target = target;
testActions.push_back(action);
target->testActionCount++;
}
}
}
}
}
// Run the instrumentation tests
TestResults testResults;
if (testActions.size() > 0) {
print_status("Running tests");
for (size_t i=0; i<testActions.size(); i++) {
TestAction& action = testActions[i];
testResults.SetCurrentAction(&action);
err = run_instrumentation_test(action.packageName, action.runner, action.className,
&testResults);
check_error(err);
if (action.passCount == 0 && action.failCount == 0) {
action.target->actionsWithNoTests = true;
}
int total = action.passCount + action.failCount;
printf("%sRan %d test%s for %s. ", g_escapeClearLine,
total, total > 1 ? "s" : "", action.target->name.c_str());
if (action.passCount == 0 && action.failCount == 0) {
printf("%s%d passed, %d failed%s\n", g_escapeYellowBold, action.passCount,
action.failCount, g_escapeEndColor);
} else if (action.failCount > 0) {
printf("%d passed, %s%d failed%s\n", action.passCount, g_escapeRedBold,
action.failCount, g_escapeEndColor);
} else {
printf("%s%d passed%s, %d failed\n", g_escapeGreenBold, action.passCount,
g_escapeEndColor, action.failCount);
}
}
}
// Launch the activity
if (activityActions.size() > 0) {
print_status("Starting activity");
if (activityActions.size() > 1) {
print_warning("Multiple activities specified. Will only start the first one:");
for (size_t i=0; i<activityActions.size(); i++) {
ActivityAction& action = activityActions[i];
print_warning(" %s",
pretty_component_name(action.packageName, action.className).c_str());
}
}
const ActivityAction& action = activityActions[0];
string componentName = action.packageName + "/" + action.className;
err = run_adb("shell", "am", "start", componentName.c_str(), NULL);
check_error(err);
}
//
// Print summary
//
printf("\n%s--------------------------------------------%s\n", g_escapeBold, g_escapeEndColor);
// Build
if (goals.size() > 0) {
printf("%sBuilt:%s\n", g_escapeBold, g_escapeEndColor);
for (size_t i=0; i<goals.size(); i++) {
printf(" %s\n", goals[i].c_str());
}
}
// Install
if (syncSystem) {
if (skipSync) {
printf("%sSkipped syncing /system partition%s\n", g_escapeBold, g_escapeEndColor);
} else {
printf("%sSynced /system partition%s\n", g_escapeBold, g_escapeEndColor);
}
}
if (installApks.size() > 0) {
bool printedTitle = false;
for (size_t i=0; i<installApks.size(); i++) {
const InstallApk& apk = installApks[i];
if (apk.installed) {
if (!printedTitle) {
printf("%sInstalled:%s\n", g_escapeBold, g_escapeEndColor);
printedTitle = true;
}
printf(" %s\n", apk.file.filename.c_str());
}
}
printedTitle = false;
for (size_t i=0; i<installApks.size(); i++) {
const InstallApk& apk = installApks[i];
if (!apk.installed) {
if (!printedTitle) {
printf("%sSkipped install:%s\n", g_escapeBold, g_escapeEndColor);
printedTitle = true;
}
printf(" %s\n", apk.file.filename.c_str());
}
}
}
// Tests
if (testActions.size() > 0) {
printf("%sRan tests:%s\n", g_escapeBold, g_escapeEndColor);
size_t maxNameLength = 0;
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
if (target->test) {
size_t len = target->name.length();
if (len > maxNameLength) {
maxNameLength = len;
}
}
}
string padding(maxNameLength, ' ');
for (size_t i=0; i<targets.size(); i++) {
Target* target = targets[i];
if (target->testActionCount > 0) {
printf(" %s%s", target->name.c_str(), padding.c_str() + target->name.length());
if (target->actionsWithNoTests) {
printf(" %s%d passed, %d failed%s\n", g_escapeYellowBold,
target->testPassCount, target->testFailCount, g_escapeEndColor);
} else if (target->testFailCount > 0) {
printf(" %d passed, %s%d failed%s\n", target->testPassCount,
g_escapeRedBold, target->testFailCount, g_escapeEndColor);
} else {
printf(" %s%d passed%s, %d failed\n", g_escapeGreenBold,
target->testPassCount, g_escapeEndColor, target->testFailCount);
}
}
}
}
if (activityActions.size() > 1) {
printf("%sStarted Activity:%s\n", g_escapeBold, g_escapeEndColor);
const ActivityAction& action = activityActions[0];
printf(" %s\n", pretty_component_name(action.packageName, action.className).c_str());
}
printf("%s--------------------------------------------%s\n", g_escapeBold, g_escapeEndColor);
}
/**
* Implement tab completion of the target names from the all modules file.
*/
void
run_tab_completion(const string& word)
{
const string buildTop = get_required_env("ANDROID_BUILD_TOP", true);
const string buildProduct = get_required_env("TARGET_PRODUCT", false);
const string buildOut = get_out_dir();
chdir_or_exit(buildTop.c_str());
string buildDevice = sniff_device_name(buildOut, buildProduct);
map<string,Module> modules;
read_modules(buildOut, buildDevice, &modules, true);
for (map<string,Module>::const_iterator it = modules.begin(); it != modules.end(); it++) {
if (starts_with(it->first, word)) {
printf("%s\n", it->first.c_str());
}
}
}
/**
* Main entry point.
*/
int
main(int argc, const char** argv)
{
GOOGLE_PROTOBUF_VERIFY_VERSION;
init_print();
Options options;
parse_args(&options, argc, argv);
if (options.runHelp) {
// Help
print_usage(stdout);
exit(0);
} else if (options.runTab) {
run_tab_completion(options.tabPattern);
exit(0);
} else {
// Normal run
run_phases(options.targets, options);
}
return 0;
}
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