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/*
* Copyright (C) 2011 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 "parsed_options.h"
#ifdef HAVE_ANDROID_OS
#include "cutils/properties.h"
#endif
#include "base/stringpiece.h"
#include "debugger.h"
#include "gc/heap.h"
#include "monitor.h"
#include "runtime.h"
#include "trace.h"
#include "utils.h"
namespace art {
ParsedOptions* ParsedOptions::Create(const RuntimeOptions& options, bool ignore_unrecognized) {
std::unique_ptr<ParsedOptions> parsed(new ParsedOptions());
if (parsed->Parse(options, ignore_unrecognized)) {
return parsed.release();
}
return nullptr;
}
// Parse a string of the form /[0-9]+[kKmMgG]?/, which is used to specify
// memory sizes. [kK] indicates kilobytes, [mM] megabytes, and
// [gG] gigabytes.
//
// "s" should point just past the "-Xm?" part of the string.
// "div" specifies a divisor, e.g. 1024 if the value must be a multiple
// of 1024.
//
// The spec says the -Xmx and -Xms options must be multiples of 1024. It
// doesn't say anything about -Xss.
//
// Returns 0 (a useless size) if "s" is malformed or specifies a low or
// non-evenly-divisible value.
//
size_t ParseMemoryOption(const char* s, size_t div) {
// strtoul accepts a leading [+-], which we don't want,
// so make sure our string starts with a decimal digit.
if (isdigit(*s)) {
char* s2;
size_t val = strtoul(s, &s2, 10);
if (s2 != s) {
// s2 should be pointing just after the number.
// If this is the end of the string, the user
// has specified a number of bytes. Otherwise,
// there should be exactly one more character
// that specifies a multiplier.
if (*s2 != '\0') {
// The remainder of the string is either a single multiplier
// character, or nothing to indicate that the value is in
// bytes.
char c = *s2++;
if (*s2 == '\0') {
size_t mul;
if (c == '\0') {
mul = 1;
} else if (c == 'k' || c == 'K') {
mul = KB;
} else if (c == 'm' || c == 'M') {
mul = MB;
} else if (c == 'g' || c == 'G') {
mul = GB;
} else {
// Unknown multiplier character.
return 0;
}
if (val <= std::numeric_limits<size_t>::max() / mul) {
val *= mul;
} else {
// Clamp to a multiple of 1024.
val = std::numeric_limits<size_t>::max() & ~(1024-1);
}
} else {
// There's more than one character after the numeric part.
return 0;
}
}
// The man page says that a -Xm value must be a multiple of 1024.
if (val % div == 0) {
return val;
}
}
}
return 0;
}
static gc::CollectorType ParseCollectorType(const std::string& option) {
if (option == "MS" || option == "nonconcurrent") {
return gc::kCollectorTypeMS;
} else if (option == "CMS" || option == "concurrent") {
return gc::kCollectorTypeCMS;
} else if (option == "SS") {
return gc::kCollectorTypeSS;
} else if (option == "GSS") {
return gc::kCollectorTypeGSS;
} else if (option == "CC") {
return gc::kCollectorTypeCC;
} else if (option == "MC") {
return gc::kCollectorTypeMC;
} else {
return gc::kCollectorTypeNone;
}
}
bool ParsedOptions::ParseXGcOption(const std::string& option) {
std::vector<std::string> gc_options;
Split(option.substr(strlen("-Xgc:")), ',', gc_options);
for (const std::string& gc_option : gc_options) {
gc::CollectorType collector_type = ParseCollectorType(gc_option);
if (collector_type != gc::kCollectorTypeNone) {
collector_type_ = collector_type;
} else if (gc_option == "preverify") {
verify_pre_gc_heap_ = true;
} else if (gc_option == "nopreverify") {
verify_pre_gc_heap_ = false;
} else if (gc_option == "presweepingverify") {
verify_pre_sweeping_heap_ = true;
} else if (gc_option == "nopresweepingverify") {
verify_pre_sweeping_heap_ = false;
} else if (gc_option == "postverify") {
verify_post_gc_heap_ = true;
} else if (gc_option == "nopostverify") {
verify_post_gc_heap_ = false;
} else if (gc_option == "preverify_rosalloc") {
verify_pre_gc_rosalloc_ = true;
} else if (gc_option == "nopreverify_rosalloc") {
verify_pre_gc_rosalloc_ = false;
} else if (gc_option == "presweepingverify_rosalloc") {
verify_pre_sweeping_rosalloc_ = true;
} else if (gc_option == "nopresweepingverify_rosalloc") {
verify_pre_sweeping_rosalloc_ = false;
} else if (gc_option == "postverify_rosalloc") {
verify_post_gc_rosalloc_ = true;
} else if (gc_option == "nopostverify_rosalloc") {
verify_post_gc_rosalloc_ = false;
} else if ((gc_option == "precise") ||
(gc_option == "noprecise") ||
(gc_option == "verifycardtable") ||
(gc_option == "noverifycardtable")) {
// Ignored for backwards compatibility.
} else {
Usage("Unknown -Xgc option %s\n", gc_option.c_str());
return false;
}
}
return true;
}
bool ParsedOptions::Parse(const RuntimeOptions& options, bool ignore_unrecognized) {
const char* boot_class_path_string = getenv("BOOTCLASSPATH");
if (boot_class_path_string != NULL) {
boot_class_path_string_ = boot_class_path_string;
}
const char* class_path_string = getenv("CLASSPATH");
if (class_path_string != NULL) {
class_path_string_ = class_path_string;
}
// -Xcheck:jni is off by default for regular builds but on by default in debug builds.
check_jni_ = kIsDebugBuild;
heap_initial_size_ = gc::Heap::kDefaultInitialSize;
heap_maximum_size_ = gc::Heap::kDefaultMaximumSize;
heap_min_free_ = gc::Heap::kDefaultMinFree;
heap_max_free_ = gc::Heap::kDefaultMaxFree;
heap_target_utilization_ = gc::Heap::kDefaultTargetUtilization;
foreground_heap_growth_multiplier_ = gc::Heap::kDefaultHeapGrowthMultiplier;
heap_growth_limit_ = 0; // 0 means no growth limit .
// Default to number of processors minus one since the main GC thread also does work.
parallel_gc_threads_ = sysconf(_SC_NPROCESSORS_CONF) - 1;
// Only the main GC thread, no workers.
conc_gc_threads_ = 0;
// The default GC type is set in makefiles.
#if ART_DEFAULT_GC_TYPE_IS_CMS
collector_type_ = gc::kCollectorTypeCMS;
#elif ART_DEFAULT_GC_TYPE_IS_SS
collector_type_ = gc::kCollectorTypeSS;
#elif ART_DEFAULT_GC_TYPE_IS_GSS
collector_type_ = gc::kCollectorTypeGSS;
#else
#error "ART default GC type must be set"
#endif
// If we are using homogeneous space compaction then default background compaction to off since
// homogeneous space compactions when we transition to not jank perceptible.
use_homogeneous_space_compaction_for_oom_ = false;
// If background_collector_type_ is kCollectorTypeNone, it defaults to the collector_type_ after
// parsing options. If you set this to kCollectorTypeHSpaceCompact then we will do an hspace
// compaction when we transition to background instead of a normal collector transition.
background_collector_type_ = gc::kCollectorTypeSS;
stack_size_ = 0; // 0 means default.
max_spins_before_thin_lock_inflation_ = Monitor::kDefaultMaxSpinsBeforeThinLockInflation;
low_memory_mode_ = false;
use_tlab_ = false;
min_interval_homogeneous_space_compaction_by_oom_ = MsToNs(100 * 1000); // 100s.
verify_pre_gc_heap_ = false;
// Pre sweeping is the one that usually fails if the GC corrupted the heap.
verify_pre_sweeping_heap_ = kIsDebugBuild;
verify_post_gc_heap_ = false;
verify_pre_gc_rosalloc_ = kIsDebugBuild;
verify_pre_sweeping_rosalloc_ = false;
verify_post_gc_rosalloc_ = false;
compiler_callbacks_ = nullptr;
is_zygote_ = false;
if (kPoisonHeapReferences) {
// kPoisonHeapReferences currently works only with the interpreter only.
// TODO: make it work with the compiler.
interpreter_only_ = true;
} else {
interpreter_only_ = false;
}
is_explicit_gc_disabled_ = false;
long_pause_log_threshold_ = gc::Heap::kDefaultLongPauseLogThreshold;
long_gc_log_threshold_ = gc::Heap::kDefaultLongGCLogThreshold;
dump_gc_performance_on_shutdown_ = false;
ignore_max_footprint_ = false;
lock_profiling_threshold_ = 0;
hook_is_sensitive_thread_ = NULL;
hook_vfprintf_ = vfprintf;
hook_exit_ = exit;
hook_abort_ = NULL; // We don't call abort(3) by default; see Runtime::Abort.
// gLogVerbosity.class_linker = true; // TODO: don't check this in!
// gLogVerbosity.compiler = true; // TODO: don't check this in!
// gLogVerbosity.gc = true; // TODO: don't check this in!
// gLogVerbosity.heap = true; // TODO: don't check this in!
// gLogVerbosity.jdwp = true; // TODO: don't check this in!
// gLogVerbosity.jni = true; // TODO: don't check this in!
// gLogVerbosity.monitor = true; // TODO: don't check this in!
// gLogVerbosity.profiler = true; // TODO: don't check this in!
// gLogVerbosity.signals = true; // TODO: don't check this in!
// gLogVerbosity.startup = true; // TODO: don't check this in!
// gLogVerbosity.third_party_jni = true; // TODO: don't check this in!
// gLogVerbosity.threads = true; // TODO: don't check this in!
// gLogVerbosity.verifier = true; // TODO: don't check this in!
method_trace_ = false;
method_trace_file_ = "/data/method-trace-file.bin";
method_trace_file_size_ = 10 * MB;
profile_clock_source_ = kDefaultTraceClockSource;
verify_ = true;
image_isa_ = kRuntimeISA;
for (size_t i = 0; i < options.size(); ++i) {
if (true && options[0].first == "-Xzygote") {
LOG(INFO) << "option[" << i << "]=" << options[i].first;
}
}
for (size_t i = 0; i < options.size(); ++i) {
const std::string option(options[i].first);
if (StartsWith(option, "-help")) {
Usage(nullptr);
return false;
} else if (StartsWith(option, "-showversion")) {
UsageMessage(stdout, "ART version %s\n", Runtime::GetVersion());
Exit(0);
} else if (StartsWith(option, "-Xbootclasspath:")) {
boot_class_path_string_ = option.substr(strlen("-Xbootclasspath:")).data();
LOG(INFO) << "setting boot class path to " << boot_class_path_string_;
} else if (option == "-classpath" || option == "-cp") {
// TODO: support -Djava.class.path
i++;
if (i == options.size()) {
Usage("Missing required class path value for %s\n", option.c_str());
return false;
}
const StringPiece& value = options[i].first;
class_path_string_ = value.data();
} else if (option == "bootclasspath") {
boot_class_path_
= reinterpret_cast<const std::vector<const DexFile*>*>(options[i].second);
} else if (StartsWith(option, "-Ximage:")) {
if (!ParseStringAfterChar(option, ':', &image_)) {
return false;
}
} else if (StartsWith(option, "-Xcheck:jni")) {
check_jni_ = true;
} else if (StartsWith(option, "-Xrunjdwp:") || StartsWith(option, "-agentlib:jdwp=")) {
std::string tail(option.substr(option[1] == 'X' ? 10 : 15));
// TODO: move parsing logic out of Dbg
if (tail == "help" || !Dbg::ParseJdwpOptions(tail)) {
if (tail != "help") {
UsageMessage(stderr, "Failed to parse JDWP option %s\n", tail.c_str());
}
Usage("Example: -Xrunjdwp:transport=dt_socket,address=8000,server=y\n"
"Example: -Xrunjdwp:transport=dt_socket,address=localhost:6500,server=n\n");
return false;
}
} else if (StartsWith(option, "-Xms")) {
size_t size = ParseMemoryOption(option.substr(strlen("-Xms")).c_str(), 1024);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
heap_initial_size_ = size;
} else if (StartsWith(option, "-Xmx")) {
size_t size = ParseMemoryOption(option.substr(strlen("-Xmx")).c_str(), 1024);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
heap_maximum_size_ = size;
} else if (StartsWith(option, "-XX:HeapGrowthLimit=")) {
size_t size = ParseMemoryOption(option.substr(strlen("-XX:HeapGrowthLimit=")).c_str(), 1024);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
heap_growth_limit_ = size;
} else if (StartsWith(option, "-XX:HeapMinFree=")) {
size_t size = ParseMemoryOption(option.substr(strlen("-XX:HeapMinFree=")).c_str(), 1024);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
heap_min_free_ = size;
} else if (StartsWith(option, "-XX:HeapMaxFree=")) {
size_t size = ParseMemoryOption(option.substr(strlen("-XX:HeapMaxFree=")).c_str(), 1024);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
heap_max_free_ = size;
} else if (StartsWith(option, "-XX:HeapTargetUtilization=")) {
if (!ParseDouble(option, '=', 0.1, 0.9, &heap_target_utilization_)) {
return false;
}
} else if (StartsWith(option, "-XX:ForegroundHeapGrowthMultiplier=")) {
if (!ParseDouble(option, '=', 0.1, 10.0, &foreground_heap_growth_multiplier_)) {
return false;
}
} else if (StartsWith(option, "-XX:ParallelGCThreads=")) {
if (!ParseUnsignedInteger(option, '=', ¶llel_gc_threads_)) {
return false;
}
} else if (StartsWith(option, "-XX:ConcGCThreads=")) {
if (!ParseUnsignedInteger(option, '=', &conc_gc_threads_)) {
return false;
}
} else if (StartsWith(option, "-Xss")) {
size_t size = ParseMemoryOption(option.substr(strlen("-Xss")).c_str(), 1);
if (size == 0) {
Usage("Failed to parse memory option %s\n", option.c_str());
return false;
}
stack_size_ = size;
} else if (StartsWith(option, "-XX:MaxSpinsBeforeThinLockInflation=")) {
if (!ParseUnsignedInteger(option, '=', &max_spins_before_thin_lock_inflation_)) {
return false;
}
} else if (StartsWith(option, "-XX:LongPauseLogThreshold=")) {
unsigned int value;
if (!ParseUnsignedInteger(option, '=', &value)) {
return false;
}
long_pause_log_threshold_ = MsToNs(value);
} else if (StartsWith(option, "-XX:LongGCLogThreshold=")) {
unsigned int value;
if (!ParseUnsignedInteger(option, '=', &value)) {
return false;
}
long_gc_log_threshold_ = MsToNs(value);
} else if (option == "-XX:DumpGCPerformanceOnShutdown") {
dump_gc_performance_on_shutdown_ = true;
} else if (option == "-XX:IgnoreMaxFootprint") {
ignore_max_footprint_ = true;
} else if (option == "-XX:LowMemoryMode") {
low_memory_mode_ = true;
} else if (option == "-XX:UseTLAB") {
use_tlab_ = true;
} else if (option == "-XX:EnableHSpaceCompactForOOM") {
use_homogeneous_space_compaction_for_oom_ = true;
} else if (option == "-XX:DisableHSpaceCompactForOOM") {
use_homogeneous_space_compaction_for_oom_ = false;
} else if (StartsWith(option, "-D")) {
properties_.push_back(option.substr(strlen("-D")));
} else if (StartsWith(option, "-Xjnitrace:")) {
jni_trace_ = option.substr(strlen("-Xjnitrace:"));
} else if (option == "compilercallbacks") {
compiler_callbacks_ =
reinterpret_cast<CompilerCallbacks*>(const_cast<void*>(options[i].second));
} else if (option == "imageinstructionset") {
image_isa_ = GetInstructionSetFromString(
reinterpret_cast<const char*>(options[i].second));
} else if (option == "-Xzygote") {
is_zygote_ = true;
} else if (option == "-Xint") {
interpreter_only_ = true;
} else if (StartsWith(option, "-Xgc:")) {
if (!ParseXGcOption(option)) {
return false;
}
} else if (StartsWith(option, "-XX:BackgroundGC=")) {
std::string substring;
if (!ParseStringAfterChar(option, '=', &substring)) {
return false;
}
// Special handling for HSpaceCompact since this is only valid as a background GC type.
if (substring == "HSpaceCompact") {
background_collector_type_ = gc::kCollectorTypeHomogeneousSpaceCompact;
} else {
gc::CollectorType collector_type = ParseCollectorType(substring);
if (collector_type != gc::kCollectorTypeNone) {
background_collector_type_ = collector_type;
} else {
Usage("Unknown -XX:BackgroundGC option %s\n", substring.c_str());
return false;
}
}
} else if (option == "-XX:+DisableExplicitGC") {
is_explicit_gc_disabled_ = true;
} else if (StartsWith(option, "-verbose:")) {
std::vector<std::string> verbose_options;
Split(option.substr(strlen("-verbose:")), ',', verbose_options);
for (size_t i = 0; i < verbose_options.size(); ++i) {
if (verbose_options[i] == "class") {
gLogVerbosity.class_linker = true;
} else if (verbose_options[i] == "compiler") {
gLogVerbosity.compiler = true;
} else if (verbose_options[i] == "gc") {
gLogVerbosity.gc = true;
} else if (verbose_options[i] == "heap") {
gLogVerbosity.heap = true;
} else if (verbose_options[i] == "jdwp") {
gLogVerbosity.jdwp = true;
} else if (verbose_options[i] == "jni") {
gLogVerbosity.jni = true;
} else if (verbose_options[i] == "monitor") {
gLogVerbosity.monitor = true;
} else if (verbose_options[i] == "profiler") {
gLogVerbosity.profiler = true;
} else if (verbose_options[i] == "signals") {
gLogVerbosity.signals = true;
} else if (verbose_options[i] == "startup") {
gLogVerbosity.startup = true;
} else if (verbose_options[i] == "third-party-jni") {
gLogVerbosity.third_party_jni = true;
} else if (verbose_options[i] == "threads") {
gLogVerbosity.threads = true;
} else if (verbose_options[i] == "verifier") {
gLogVerbosity.verifier = true;
} else {
Usage("Unknown -verbose option %s\n", verbose_options[i].c_str());
return false;
}
}
} else if (StartsWith(option, "-verbose-methods:")) {
gLogVerbosity.compiler = false;
Split(option.substr(strlen("-verbose-methods:")), ',', gVerboseMethods);
} else if (StartsWith(option, "-Xlockprofthreshold:")) {
if (!ParseUnsignedInteger(option, ':', &lock_profiling_threshold_)) {
return false;
}
} else if (StartsWith(option, "-Xstacktracefile:")) {
if (!ParseStringAfterChar(option, ':', &stack_trace_file_)) {
return false;
}
} else if (option == "sensitiveThread") {
const void* hook = options[i].second;
hook_is_sensitive_thread_ = reinterpret_cast<bool (*)()>(const_cast<void*>(hook));
} else if (option == "vfprintf") {
const void* hook = options[i].second;
if (hook == nullptr) {
Usage("vfprintf argument was NULL");
return false;
}
hook_vfprintf_ =
reinterpret_cast<int (*)(FILE *, const char*, va_list)>(const_cast<void*>(hook));
} else if (option == "exit") {
const void* hook = options[i].second;
if (hook == nullptr) {
Usage("exit argument was NULL");
return false;
}
hook_exit_ = reinterpret_cast<void(*)(jint)>(const_cast<void*>(hook));
} else if (option == "abort") {
const void* hook = options[i].second;
if (hook == nullptr) {
Usage("abort was NULL\n");
return false;
}
hook_abort_ = reinterpret_cast<void(*)()>(const_cast<void*>(hook));
} else if (option == "-Xmethod-trace") {
method_trace_ = true;
} else if (StartsWith(option, "-Xmethod-trace-file:")) {
method_trace_file_ = option.substr(strlen("-Xmethod-trace-file:"));
} else if (StartsWith(option, "-Xmethod-trace-file-size:")) {
if (!ParseUnsignedInteger(option, ':', &method_trace_file_size_)) {
return false;
}
} else if (option == "-Xprofile:threadcpuclock") {
Trace::SetDefaultClockSource(kTraceClockSourceThreadCpu);
} else if (option == "-Xprofile:wallclock") {
Trace::SetDefaultClockSource(kTraceClockSourceWall);
} else if (option == "-Xprofile:dualclock") {
Trace::SetDefaultClockSource(kTraceClockSourceDual);
} else if (option == "-Xenable-profiler") {
profiler_options_.enabled_ = true;
} else if (StartsWith(option, "-Xprofile-filename:")) {
if (!ParseStringAfterChar(option, ':', &profile_output_filename_)) {
return false;
}
} else if (StartsWith(option, "-Xprofile-period:")) {
if (!ParseUnsignedInteger(option, ':', &profiler_options_.period_s_)) {
return false;
}
} else if (StartsWith(option, "-Xprofile-duration:")) {
if (!ParseUnsignedInteger(option, ':', &profiler_options_.duration_s_)) {
return false;
}
} else if (StartsWith(option, "-Xprofile-interval:")) {
if (!ParseUnsignedInteger(option, ':', &profiler_options_.interval_us_)) {
return false;
}
} else if (StartsWith(option, "-Xprofile-backoff:")) {
if (!ParseDouble(option, ':', 1.0, 10.0, &profiler_options_.backoff_coefficient_)) {
return false;
}
} else if (option == "-Xprofile-start-immediately") {
profiler_options_.start_immediately_ = true;
} else if (StartsWith(option, "-Xprofile-top-k-threshold:")) {
if (!ParseDouble(option, ':', 0.0, 100.0, &profiler_options_.top_k_threshold_)) {
return false;
}
} else if (StartsWith(option, "-Xprofile-top-k-change-threshold:")) {
if (!ParseDouble(option, ':', 0.0, 100.0, &profiler_options_.top_k_change_threshold_)) {
return false;
}
} else if (option == "-Xprofile-type:method") {
profiler_options_.profile_type_ = kProfilerMethod;
} else if (option == "-Xprofile-type:stack") {
profiler_options_.profile_type_ = kProfilerBoundedStack;
} else if (StartsWith(option, "-Xprofile-max-stack-depth:")) {
if (!ParseUnsignedInteger(option, ':', &profiler_options_.max_stack_depth_)) {
return false;
}
} else if (StartsWith(option, "-Xcompiler:")) {
if (!ParseStringAfterChar(option, ':', &compiler_executable_)) {
return false;
}
} else if (option == "-Xcompiler-option") {
i++;
if (i == options.size()) {
Usage("Missing required compiler option for %s\n", option.c_str());
return false;
}
compiler_options_.push_back(options[i].first);
} else if (option == "-Ximage-compiler-option") {
i++;
if (i == options.size()) {
Usage("Missing required compiler option for %s\n", option.c_str());
return false;
}
image_compiler_options_.push_back(options[i].first);
} else if (StartsWith(option, "-Xverify:")) {
std::string verify_mode = option.substr(strlen("-Xverify:"));
if (verify_mode == "none") {
verify_ = false;
} else if (verify_mode == "remote" || verify_mode == "all") {
verify_ = true;
} else {
Usage("Unknown -Xverify option %s\n", verify_mode.c_str());
return false;
}
} else if (StartsWith(option, "-ea") ||
StartsWith(option, "-da") ||
StartsWith(option, "-enableassertions") ||
StartsWith(option, "-disableassertions") ||
(option == "--runtime-arg") ||
(option == "-esa") ||
(option == "-dsa") ||
(option == "-enablesystemassertions") ||
(option == "-disablesystemassertions") ||
(option == "-Xrs") ||
StartsWith(option, "-Xint:") ||
StartsWith(option, "-Xdexopt:") ||
(option == "-Xnoquithandler") ||
StartsWith(option, "-Xjniopts:") ||
StartsWith(option, "-Xjnigreflimit:") ||
(option == "-Xgenregmap") ||
(option == "-Xnogenregmap") ||
StartsWith(option, "-Xverifyopt:") ||
(option == "-Xcheckdexsum") ||
(option == "-Xincludeselectedop") ||
StartsWith(option, "-Xjitop:") ||
(option == "-Xincludeselectedmethod") ||
StartsWith(option, "-Xjitthreshold:") ||
StartsWith(option, "-Xjitcodecachesize:") ||
(option == "-Xjitblocking") ||
StartsWith(option, "-Xjitmethod:") ||
StartsWith(option, "-Xjitclass:") ||
StartsWith(option, "-Xjitoffset:") ||
StartsWith(option, "-Xjitconfig:") ||
(option == "-Xjitcheckcg") ||
(option == "-Xjitverbose") ||
(option == "-Xjitprofile") ||
(option == "-Xjitdisableopt") ||
(option == "-Xjitsuspendpoll") ||
StartsWith(option, "-XX:mainThreadStackSize=")) {
// Ignored for backwards compatibility.
} else if (!ignore_unrecognized) {
Usage("Unrecognized option %s\n", option.c_str());
return false;
}
}
// If a reference to the dalvik core.jar snuck in, replace it with
// the art specific version. This can happen with on device
// boot.art/boot.oat generation by GenerateImage which relies on the
// value of BOOTCLASSPATH.
#if defined(ART_TARGET)
std::string core_jar("/core.jar");
std::string core_libart_jar("/core-libart.jar");
#else
// The host uses hostdex files.
std::string core_jar("/core-hostdex.jar");
std::string core_libart_jar("/core-libart-hostdex.jar");
#endif
size_t core_jar_pos = boot_class_path_string_.find(core_jar);
if (core_jar_pos != std::string::npos) {
boot_class_path_string_.replace(core_jar_pos, core_jar.size(), core_libart_jar);
}
if (compiler_callbacks_ == nullptr && image_.empty()) {
image_ += GetAndroidRoot();
image_ += "/framework/boot.art";
}
if (heap_growth_limit_ == 0) {
heap_growth_limit_ = heap_maximum_size_;
}
if (background_collector_type_ == gc::kCollectorTypeNone) {
background_collector_type_ = collector_type_;
}
return true;
} // NOLINT(readability/fn_size)
void ParsedOptions::Exit(int status) {
hook_exit_(status);
}
void ParsedOptions::Abort() {
hook_abort_();
}
void ParsedOptions::UsageMessageV(FILE* stream, const char* fmt, va_list ap) {
hook_vfprintf_(stderr, fmt, ap);
}
void ParsedOptions::UsageMessage(FILE* stream, const char* fmt, ...) {
va_list ap;
va_start(ap, fmt);
UsageMessageV(stream, fmt, ap);
va_end(ap);
}
void ParsedOptions::Usage(const char* fmt, ...) {
bool error = (fmt != nullptr);
FILE* stream = error ? stderr : stdout;
if (fmt != nullptr) {
va_list ap;
va_start(ap, fmt);
UsageMessageV(stream, fmt, ap);
va_end(ap);
}
const char* program = "dalvikvm";
UsageMessage(stream, "%s: [options] class [argument ...]\n", program);
UsageMessage(stream, "\n");
UsageMessage(stream, "The following standard options are supported:\n");
UsageMessage(stream, " -classpath classpath (-cp classpath)\n");
UsageMessage(stream, " -Dproperty=value\n");
UsageMessage(stream, " -verbose:tag ('gc', 'jni', or 'class')\n");
UsageMessage(stream, " -showversion\n");
UsageMessage(stream, " -help\n");
UsageMessage(stream, " -agentlib:jdwp=options\n");
UsageMessage(stream, "\n");
UsageMessage(stream, "The following extended options are supported:\n");
UsageMessage(stream, " -Xrunjdwp:<options>\n");
UsageMessage(stream, " -Xbootclasspath:bootclasspath\n");
UsageMessage(stream, " -Xcheck:tag (e.g. 'jni')\n");
UsageMessage(stream, " -XmsN (min heap, must be multiple of 1K, >= 1MB)\n");
UsageMessage(stream, " -XmxN (max heap, must be multiple of 1K, >= 2MB)\n");
UsageMessage(stream, " -XssN (stack size)\n");
UsageMessage(stream, " -Xint\n");
UsageMessage(stream, "\n");
UsageMessage(stream, "The following Dalvik options are supported:\n");
UsageMessage(stream, " -Xzygote\n");
UsageMessage(stream, " -Xjnitrace:substring (eg NativeClass or nativeMethod)\n");
UsageMessage(stream, " -Xstacktracefile:<filename>\n");
UsageMessage(stream, " -Xgc:[no]preverify\n");
UsageMessage(stream, " -Xgc:[no]postverify\n");
UsageMessage(stream, " -XX:+DisableExplicitGC\n");
UsageMessage(stream, " -XX:HeapGrowthLimit=N\n");
UsageMessage(stream, " -XX:HeapMinFree=N\n");
UsageMessage(stream, " -XX:HeapMaxFree=N\n");
UsageMessage(stream, " -XX:HeapTargetUtilization=doublevalue\n");
UsageMessage(stream, " -XX:ForegroundHeapGrowthMultiplier=doublevalue\n");
UsageMessage(stream, " -XX:LowMemoryMode\n");
UsageMessage(stream, " -Xprofile:{threadcpuclock,wallclock,dualclock}\n");
UsageMessage(stream, "\n");
UsageMessage(stream, "The following unique to ART options are supported:\n");
UsageMessage(stream, " -Xgc:[no]preverify_rosalloc\n");
UsageMessage(stream, " -Xgc:[no]postsweepingverify_rosalloc\n");
UsageMessage(stream, " -Xgc:[no]postverify_rosalloc\n");
UsageMessage(stream, " -Xgc:[no]presweepingverify\n");
UsageMessage(stream, " -Ximage:filename\n");
UsageMessage(stream, " -XX:ParallelGCThreads=integervalue\n");
UsageMessage(stream, " -XX:ConcGCThreads=integervalue\n");
UsageMessage(stream, " -XX:MaxSpinsBeforeThinLockInflation=integervalue\n");
UsageMessage(stream, " -XX:LongPauseLogThreshold=integervalue\n");
UsageMessage(stream, " -XX:LongGCLogThreshold=integervalue\n");
UsageMessage(stream, " -XX:DumpGCPerformanceOnShutdown\n");
UsageMessage(stream, " -XX:IgnoreMaxFootprint\n");
UsageMessage(stream, " -XX:UseTLAB\n");
UsageMessage(stream, " -XX:BackgroundGC=none\n");
UsageMessage(stream, " -Xmethod-trace\n");
UsageMessage(stream, " -Xmethod-trace-file:filename");
UsageMessage(stream, " -Xmethod-trace-file-size:integervalue\n");
UsageMessage(stream, " -Xenable-profiler\n");
UsageMessage(stream, " -Xprofile-filename:filename\n");
UsageMessage(stream, " -Xprofile-period:integervalue\n");
UsageMessage(stream, " -Xprofile-duration:integervalue\n");
UsageMessage(stream, " -Xprofile-interval:integervalue\n");
UsageMessage(stream, " -Xprofile-backoff:doublevalue\n");
UsageMessage(stream, " -Xprofile-start-immediately\n");
UsageMessage(stream, " -Xprofile-top-k-threshold:doublevalue\n");
UsageMessage(stream, " -Xprofile-top-k-change-threshold:doublevalue\n");
UsageMessage(stream, " -Xprofile-type:{method,stack}\n");
UsageMessage(stream, " -Xprofile-max-stack-depth:integervalue\n");
UsageMessage(stream, " -Xcompiler:filename\n");
UsageMessage(stream, " -Xcompiler-option dex2oat-option\n");
UsageMessage(stream, " -Ximage-compiler-option dex2oat-option\n");
UsageMessage(stream, "\n");
UsageMessage(stream, "The following previously supported Dalvik options are ignored:\n");
UsageMessage(stream, " -ea[:<package name>... |:<class name>]\n");
UsageMessage(stream, " -da[:<package name>... |:<class name>]\n");
UsageMessage(stream, " (-enableassertions, -disableassertions)\n");
UsageMessage(stream, " -esa\n");
UsageMessage(stream, " -dsa\n");
UsageMessage(stream, " (-enablesystemassertions, -disablesystemassertions)\n");
UsageMessage(stream, " -Xverify:{none,remote,all}\n");
UsageMessage(stream, " -Xrs\n");
UsageMessage(stream, " -Xint:portable, -Xint:fast, -Xint:jit\n");
UsageMessage(stream, " -Xdexopt:{none,verified,all,full}\n");
UsageMessage(stream, " -Xnoquithandler\n");
UsageMessage(stream, " -Xjniopts:{warnonly,forcecopy}\n");
UsageMessage(stream, " -Xjnigreflimit:integervalue\n");
UsageMessage(stream, " -Xgc:[no]precise\n");
UsageMessage(stream, " -Xgc:[no]verifycardtable\n");
UsageMessage(stream, " -X[no]genregmap\n");
UsageMessage(stream, " -Xverifyopt:[no]checkmon\n");
UsageMessage(stream, " -Xcheckdexsum\n");
UsageMessage(stream, " -Xincludeselectedop\n");
UsageMessage(stream, " -Xjitop:hexopvalue[-endvalue][,hexopvalue[-endvalue]]*\n");
UsageMessage(stream, " -Xincludeselectedmethod\n");
UsageMessage(stream, " -Xjitthreshold:integervalue\n");
UsageMessage(stream, " -Xjitcodecachesize:decimalvalueofkbytes\n");
UsageMessage(stream, " -Xjitblocking\n");
UsageMessage(stream, " -Xjitmethod:signature[,signature]* (eg Ljava/lang/String\\;replace)\n");
UsageMessage(stream, " -Xjitclass:classname[,classname]*\n");
UsageMessage(stream, " -Xjitoffset:offset[,offset]\n");
UsageMessage(stream, " -Xjitconfig:filename\n");
UsageMessage(stream, " -Xjitcheckcg\n");
UsageMessage(stream, " -Xjitverbose\n");
UsageMessage(stream, " -Xjitprofile\n");
UsageMessage(stream, " -Xjitdisableopt\n");
UsageMessage(stream, " -Xjitsuspendpoll\n");
UsageMessage(stream, " -XX:mainThreadStackSize=N\n");
UsageMessage(stream, "\n");
Exit((error) ? 1 : 0);
}
bool ParsedOptions::ParseStringAfterChar(const std::string& s, char c, std::string* parsed_value) {
std::string::size_type colon = s.find(c);
if (colon == std::string::npos) {
Usage("Missing char %c in option %s\n", c, s.c_str());
return false;
}
// Add one to remove the char we were trimming until.
*parsed_value = s.substr(colon + 1);
return true;
}
bool ParsedOptions::ParseInteger(const std::string& s, char after_char, int* parsed_value) {
std::string::size_type colon = s.find(after_char);
if (colon == std::string::npos) {
Usage("Missing char %c in option %s\n", after_char, s.c_str());
return false;
}
const char* begin = &s[colon + 1];
char* end;
size_t result = strtoul(begin, &end, 10);
if (begin == end || *end != '\0') {
Usage("Failed to parse integer from %s\n", s.c_str());
return false;
}
*parsed_value = result;
return true;
}
bool ParsedOptions::ParseUnsignedInteger(const std::string& s, char after_char,
unsigned int* parsed_value) {
int i;
if (!ParseInteger(s, after_char, &i)) {
return false;
}
if (i < 0) {
Usage("Negative value %d passed for unsigned option %s\n", i, s.c_str());
return false;
}
*parsed_value = i;
return true;
}
bool ParsedOptions::ParseDouble(const std::string& option, char after_char,
double min, double max, double* parsed_value) {
std::string substring;
if (!ParseStringAfterChar(option, after_char, &substring)) {
return false;
}
bool sane_val = true;
double value;
if (false) {
// TODO: this doesn't seem to work on the emulator. b/15114595
std::stringstream iss(substring);
iss >> value;
// Ensure that we have a value, there was no cruft after it and it satisfies a sensible range.
sane_val = iss.eof() && (value >= min) && (value <= max);
} else {
char* end = nullptr;
value = strtod(substring.c_str(), &end);
sane_val = *end == '\0' && value >= min && value <= max;
}
if (!sane_val) {
Usage("Invalid double value %s for option %s\n", substring.c_str(), option.c_str());
return false;
}
*parsed_value = value;
return true;
}
} // namespace art
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