1 /* 2 * Copyright (C) 2015 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 #ifndef ART_CMDLINE_CMDLINE_TYPES_H_ 17 #define ART_CMDLINE_CMDLINE_TYPES_H_ 18 19 #define CMDLINE_NDEBUG 1 // Do not output any debugging information for parsing. 20 21 #include "memory_representation.h" 22 #include "detail/cmdline_debug_detail.h" 23 #include "cmdline_type_parser.h" 24 25 #include "android-base/strings.h" 26 27 // Includes for the types that are being specialized 28 #include <string> 29 #include "base/logging.h" 30 #include "base/time_utils.h" 31 #include "experimental_flags.h" 32 #include "gc/collector_type.h" 33 #include "gc/space/large_object_space.h" 34 #include "jdwp/jdwp.h" 35 #include "jit/profile_saver_options.h" 36 #include "plugin.h" 37 #include "ti/agent.h" 38 #include "unit.h" 39 40 namespace art { 41 42 // The default specialization will always fail parsing the type from a string. 43 // Provide your own specialization that inherits from CmdlineTypeParser<T> 44 // and implements either Parse or ParseAndAppend 45 // (only if the argument was defined with ::AppendValues()) but not both. 46 template <typename T> 47 struct CmdlineType : CmdlineTypeParser<T> { 48 }; 49 50 // Specializations for CmdlineType<T> follow: 51 52 // Parse argument definitions for Unit-typed arguments. 53 template <> 54 struct CmdlineType<Unit> : CmdlineTypeParser<Unit> { 55 Result Parse(const std::string& args) { 56 if (args == "") { 57 return Result::Success(Unit{}); // NOLINT [whitespace/braces] [5] 58 } 59 return Result::Failure("Unexpected extra characters " + args); 60 } 61 }; 62 63 template <> 64 struct CmdlineType<JDWP::JdwpOptions> : CmdlineTypeParser<JDWP::JdwpOptions> { 65 /* 66 * Handle one of the JDWP name/value pairs. 67 * 68 * JDWP options are: 69 * help: if specified, show help message and bail 70 * transport: may be dt_socket or dt_shmem 71 * address: for dt_socket, "host:port", or just "port" when listening 72 * server: if "y", wait for debugger to attach; if "n", attach to debugger 73 * timeout: how long to wait for debugger to connect / listen 74 * 75 * Useful with server=n (these aren't supported yet): 76 * onthrow=<exception-name>: connect to debugger when exception thrown 77 * onuncaught=y|n: connect to debugger when uncaught exception thrown 78 * launch=<command-line>: launch the debugger itself 79 * 80 * The "transport" option is required, as is "address" if server=n. 81 */ 82 Result Parse(const std::string& options) { 83 VLOG(jdwp) << "ParseJdwpOptions: " << options; 84 85 if (options == "help") { 86 return Result::Usage( 87 "Example: -Xrunjdwp:transport=dt_socket,address=8000,server=y\n" 88 "Example: -Xrunjdwp:transport=dt_socket,address=localhost:6500,server=n\n"); 89 } 90 91 const std::string s; 92 93 std::vector<std::string> pairs; 94 Split(options, ',', &pairs); 95 96 JDWP::JdwpOptions jdwp_options; 97 98 for (const std::string& jdwp_option : pairs) { 99 std::string::size_type equals_pos = jdwp_option.find('='); 100 if (equals_pos == std::string::npos) { 101 return Result::Failure(s + 102 "Can't parse JDWP option '" + jdwp_option + "' in '" + options + "'"); 103 } 104 105 Result parse_attempt = ParseJdwpOption(jdwp_option.substr(0, equals_pos), 106 jdwp_option.substr(equals_pos + 1), 107 &jdwp_options); 108 if (parse_attempt.IsError()) { 109 // We fail to parse this JDWP option. 110 return parse_attempt; 111 } 112 } 113 114 if (jdwp_options.transport == JDWP::kJdwpTransportUnknown) { 115 return Result::Failure(s + "Must specify JDWP transport: " + options); 116 } 117 if (!jdwp_options.server && (jdwp_options.host.empty() || jdwp_options.port == 0)) { 118 return Result::Failure(s + "Must specify JDWP host and port when server=n: " + options); 119 } 120 121 return Result::Success(std::move(jdwp_options)); 122 } 123 124 Result ParseJdwpOption(const std::string& name, const std::string& value, 125 JDWP::JdwpOptions* jdwp_options) { 126 if (name == "transport") { 127 if (value == "dt_socket") { 128 jdwp_options->transport = JDWP::kJdwpTransportSocket; 129 } else if (value == "dt_android_adb") { 130 jdwp_options->transport = JDWP::kJdwpTransportAndroidAdb; 131 } else { 132 return Result::Failure("JDWP transport not supported: " + value); 133 } 134 } else if (name == "server") { 135 if (value == "n") { 136 jdwp_options->server = false; 137 } else if (value == "y") { 138 jdwp_options->server = true; 139 } else { 140 return Result::Failure("JDWP option 'server' must be 'y' or 'n'"); 141 } 142 } else if (name == "suspend") { 143 if (value == "n") { 144 jdwp_options->suspend = false; 145 } else if (value == "y") { 146 jdwp_options->suspend = true; 147 } else { 148 return Result::Failure("JDWP option 'suspend' must be 'y' or 'n'"); 149 } 150 } else if (name == "address") { 151 /* this is either <port> or <host>:<port> */ 152 std::string port_string; 153 jdwp_options->host.clear(); 154 std::string::size_type colon = value.find(':'); 155 if (colon != std::string::npos) { 156 jdwp_options->host = value.substr(0, colon); 157 port_string = value.substr(colon + 1); 158 } else { 159 port_string = value; 160 } 161 if (port_string.empty()) { 162 return Result::Failure("JDWP address missing port: " + value); 163 } 164 char* end; 165 uint64_t port = strtoul(port_string.c_str(), &end, 10); 166 if (*end != '\0' || port > 0xffff) { 167 return Result::Failure("JDWP address has junk in port field: " + value); 168 } 169 jdwp_options->port = port; 170 } else if (name == "launch" || name == "onthrow" || name == "oncaught" || name == "timeout") { 171 /* valid but unsupported */ 172 LOG(INFO) << "Ignoring JDWP option '" << name << "'='" << value << "'"; 173 } else { 174 LOG(INFO) << "Ignoring unrecognized JDWP option '" << name << "'='" << value << "'"; 175 } 176 177 return Result::SuccessNoValue(); 178 } 179 180 static const char* Name() { return "JdwpOptions"; } 181 }; 182 183 template <size_t Divisor> 184 struct CmdlineType<Memory<Divisor>> : CmdlineTypeParser<Memory<Divisor>> { 185 using typename CmdlineTypeParser<Memory<Divisor>>::Result; 186 187 Result Parse(const std::string& arg) { 188 CMDLINE_DEBUG_LOG << "Parsing memory: " << arg << std::endl; 189 size_t val = ParseMemoryOption(arg.c_str(), Divisor); 190 CMDLINE_DEBUG_LOG << "Memory parsed to size_t value: " << val << std::endl; 191 192 if (val == 0) { 193 return Result::Failure(std::string("not a valid memory value, or not divisible by ") 194 + std::to_string(Divisor)); 195 } 196 197 return Result::Success(Memory<Divisor>(val)); 198 } 199 200 // Parse a string of the form /[0-9]+[kKmMgG]?/, which is used to specify 201 // memory sizes. [kK] indicates kilobytes, [mM] megabytes, and 202 // [gG] gigabytes. 203 // 204 // "s" should point just past the "-Xm?" part of the string. 205 // "div" specifies a divisor, e.g. 1024 if the value must be a multiple 206 // of 1024. 207 // 208 // The spec says the -Xmx and -Xms options must be multiples of 1024. It 209 // doesn't say anything about -Xss. 210 // 211 // Returns 0 (a useless size) if "s" is malformed or specifies a low or 212 // non-evenly-divisible value. 213 // 214 static size_t ParseMemoryOption(const char* s, size_t div) { 215 // strtoul accepts a leading [+-], which we don't want, 216 // so make sure our string starts with a decimal digit. 217 if (isdigit(*s)) { 218 char* s2; 219 size_t val = strtoul(s, &s2, 10); 220 if (s2 != s) { 221 // s2 should be pointing just after the number. 222 // If this is the end of the string, the user 223 // has specified a number of bytes. Otherwise, 224 // there should be exactly one more character 225 // that specifies a multiplier. 226 if (*s2 != '\0') { 227 // The remainder of the string is either a single multiplier 228 // character, or nothing to indicate that the value is in 229 // bytes. 230 char c = *s2++; 231 if (*s2 == '\0') { 232 size_t mul; 233 if (c == '\0') { 234 mul = 1; 235 } else if (c == 'k' || c == 'K') { 236 mul = KB; 237 } else if (c == 'm' || c == 'M') { 238 mul = MB; 239 } else if (c == 'g' || c == 'G') { 240 mul = GB; 241 } else { 242 // Unknown multiplier character. 243 return 0; 244 } 245 246 if (val <= std::numeric_limits<size_t>::max() / mul) { 247 val *= mul; 248 } else { 249 // Clamp to a multiple of 1024. 250 val = std::numeric_limits<size_t>::max() & ~(1024-1); 251 } 252 } else { 253 // There's more than one character after the numeric part. 254 return 0; 255 } 256 } 257 // The man page says that a -Xm value must be a multiple of 1024. 258 if (val % div == 0) { 259 return val; 260 } 261 } 262 } 263 return 0; 264 } 265 266 static const char* Name() { return Memory<Divisor>::Name(); } 267 }; 268 269 template <> 270 struct CmdlineType<double> : CmdlineTypeParser<double> { 271 Result Parse(const std::string& str) { 272 char* end = nullptr; 273 errno = 0; 274 double value = strtod(str.c_str(), &end); 275 276 if (*end != '\0') { 277 return Result::Failure("Failed to parse double from " + str); 278 } 279 if (errno == ERANGE) { 280 return Result::OutOfRange( 281 "Failed to parse double from " + str + "; overflow/underflow occurred"); 282 } 283 284 return Result::Success(value); 285 } 286 287 static const char* Name() { return "double"; } 288 }; 289 290 template <> 291 struct CmdlineType<unsigned int> : CmdlineTypeParser<unsigned int> { 292 Result Parse(const std::string& str) { 293 const char* begin = str.c_str(); 294 char* end; 295 296 // Parse into a larger type (long long) because we can't use strtoul 297 // since it silently converts negative values into unsigned long and doesn't set errno. 298 errno = 0; 299 long long int result = strtoll(begin, &end, 10); // NOLINT [runtime/int] [4] 300 if (begin == end || *end != '\0' || errno == EINVAL) { 301 return Result::Failure("Failed to parse integer from " + str); 302 } else if ((errno == ERANGE) || // NOLINT [runtime/int] [4] 303 result < std::numeric_limits<int>::min() 304 || result > std::numeric_limits<unsigned int>::max() || result < 0) { 305 return Result::OutOfRange( 306 "Failed to parse integer from " + str + "; out of unsigned int range"); 307 } 308 309 return Result::Success(static_cast<unsigned int>(result)); 310 } 311 312 static const char* Name() { return "unsigned integer"; } 313 }; 314 315 // Lightweight nanosecond value type. Allows parser to convert user-input from milliseconds 316 // to nanoseconds automatically after parsing. 317 // 318 // All implicit conversion from uint64_t uses nanoseconds. 319 struct MillisecondsToNanoseconds { 320 // Create from nanoseconds. 321 MillisecondsToNanoseconds(uint64_t nanoseconds) : nanoseconds_(nanoseconds) { // NOLINT [runtime/explicit] [5] 322 } 323 324 // Create from milliseconds. 325 static MillisecondsToNanoseconds FromMilliseconds(unsigned int milliseconds) { 326 return MillisecondsToNanoseconds(MsToNs(milliseconds)); 327 } 328 329 // Get the underlying nanoseconds value. 330 uint64_t GetNanoseconds() const { 331 return nanoseconds_; 332 } 333 334 // Get the milliseconds value [via a conversion]. Loss of precision will occur. 335 uint64_t GetMilliseconds() const { 336 return NsToMs(nanoseconds_); 337 } 338 339 // Get the underlying nanoseconds value. 340 operator uint64_t() const { 341 return GetNanoseconds(); 342 } 343 344 // Default constructors/copy-constructors. 345 MillisecondsToNanoseconds() : nanoseconds_(0ul) {} 346 MillisecondsToNanoseconds(const MillisecondsToNanoseconds&) = default; 347 MillisecondsToNanoseconds(MillisecondsToNanoseconds&&) = default; 348 349 private: 350 uint64_t nanoseconds_; 351 }; 352 353 template <> 354 struct CmdlineType<MillisecondsToNanoseconds> : CmdlineTypeParser<MillisecondsToNanoseconds> { 355 Result Parse(const std::string& str) { 356 CmdlineType<unsigned int> uint_parser; 357 CmdlineParseResult<unsigned int> res = uint_parser.Parse(str); 358 359 if (res.IsSuccess()) { 360 return Result::Success(MillisecondsToNanoseconds::FromMilliseconds(res.GetValue())); 361 } else { 362 return Result::CastError(res); 363 } 364 } 365 366 static const char* Name() { return "MillisecondsToNanoseconds"; } 367 }; 368 369 template <> 370 struct CmdlineType<std::string> : CmdlineTypeParser<std::string> { 371 Result Parse(const std::string& args) { 372 return Result::Success(args); 373 } 374 375 Result ParseAndAppend(const std::string& args, 376 std::string& existing_value) { 377 if (existing_value.empty()) { 378 existing_value = args; 379 } else { 380 existing_value += ' '; 381 existing_value += args; 382 } 383 return Result::SuccessNoValue(); 384 } 385 }; 386 387 template <> 388 struct CmdlineType<std::vector<Plugin>> : CmdlineTypeParser<std::vector<Plugin>> { 389 Result Parse(const std::string& args) { 390 assert(false && "Use AppendValues() for a Plugin vector type"); 391 return Result::Failure("Unconditional failure: Plugin vector must be appended: " + args); 392 } 393 394 Result ParseAndAppend(const std::string& args, 395 std::vector<Plugin>& existing_value) { 396 existing_value.push_back(Plugin::Create(args)); 397 return Result::SuccessNoValue(); 398 } 399 400 static const char* Name() { return "std::vector<Plugin>"; } 401 }; 402 403 template <> 404 struct CmdlineType<std::list<ti::Agent>> : CmdlineTypeParser<std::list<ti::Agent>> { 405 Result Parse(const std::string& args) { 406 assert(false && "Use AppendValues() for an Agent list type"); 407 return Result::Failure("Unconditional failure: Agent list must be appended: " + args); 408 } 409 410 Result ParseAndAppend(const std::string& args, 411 std::list<ti::Agent>& existing_value) { 412 existing_value.emplace_back(args); 413 return Result::SuccessNoValue(); 414 } 415 416 static const char* Name() { return "std::list<ti::Agent>"; } 417 }; 418 419 template <> 420 struct CmdlineType<std::vector<std::string>> : CmdlineTypeParser<std::vector<std::string>> { 421 Result Parse(const std::string& args) { 422 assert(false && "Use AppendValues() for a string vector type"); 423 return Result::Failure("Unconditional failure: string vector must be appended: " + args); 424 } 425 426 Result ParseAndAppend(const std::string& args, 427 std::vector<std::string>& existing_value) { 428 existing_value.push_back(args); 429 return Result::SuccessNoValue(); 430 } 431 432 static const char* Name() { return "std::vector<std::string>"; } 433 }; 434 435 template <char Separator> 436 struct ParseStringList { 437 explicit ParseStringList(std::vector<std::string>&& list) : list_(list) {} 438 439 operator std::vector<std::string>() const { 440 return list_; 441 } 442 443 operator std::vector<std::string>&&() && { 444 return std::move(list_); 445 } 446 447 size_t Size() const { 448 return list_.size(); 449 } 450 451 std::string Join() const { 452 return android::base::Join(list_, Separator); 453 } 454 455 static ParseStringList<Separator> Split(const std::string& str) { 456 std::vector<std::string> list; 457 art::Split(str, Separator, &list); 458 return ParseStringList<Separator>(std::move(list)); 459 } 460 461 ParseStringList() = default; 462 ParseStringList(const ParseStringList&) = default; 463 ParseStringList(ParseStringList&&) = default; 464 465 private: 466 std::vector<std::string> list_; 467 }; 468 469 template <char Separator> 470 struct CmdlineType<ParseStringList<Separator>> : CmdlineTypeParser<ParseStringList<Separator>> { 471 using Result = CmdlineParseResult<ParseStringList<Separator>>; 472 473 Result Parse(const std::string& args) { 474 return Result::Success(ParseStringList<Separator>::Split(args)); 475 } 476 477 static const char* Name() { return "ParseStringList<Separator>"; } 478 }; 479 480 static gc::CollectorType ParseCollectorType(const std::string& option) { 481 if (option == "MS" || option == "nonconcurrent") { 482 return gc::kCollectorTypeMS; 483 } else if (option == "CMS" || option == "concurrent") { 484 return gc::kCollectorTypeCMS; 485 } else if (option == "SS") { 486 return gc::kCollectorTypeSS; 487 } else if (option == "GSS") { 488 return gc::kCollectorTypeGSS; 489 } else if (option == "CC") { 490 return gc::kCollectorTypeCC; 491 } else if (option == "MC") { 492 return gc::kCollectorTypeMC; 493 } else { 494 return gc::kCollectorTypeNone; 495 } 496 } 497 498 struct XGcOption { 499 // These defaults are used when the command line arguments for -Xgc: 500 // are either omitted completely or partially. 501 gc::CollectorType collector_type_ = gc::kCollectorTypeDefault; 502 bool verify_pre_gc_heap_ = false; 503 bool verify_pre_sweeping_heap_ = kIsDebugBuild; 504 bool verify_post_gc_heap_ = false; 505 bool verify_pre_gc_rosalloc_ = kIsDebugBuild; 506 bool verify_pre_sweeping_rosalloc_ = false; 507 bool verify_post_gc_rosalloc_ = false; 508 // Do no measurements for kUseTableLookupReadBarrier to avoid test timeouts. b/31679493 509 bool measure_ = kIsDebugBuild && !kUseTableLookupReadBarrier; 510 bool gcstress_ = false; 511 }; 512 513 template <> 514 struct CmdlineType<XGcOption> : CmdlineTypeParser<XGcOption> { 515 Result Parse(const std::string& option) { // -Xgc: already stripped 516 XGcOption xgc{}; // NOLINT [readability/braces] [4] 517 518 std::vector<std::string> gc_options; 519 Split(option, ',', &gc_options); 520 for (const std::string& gc_option : gc_options) { 521 gc::CollectorType collector_type = ParseCollectorType(gc_option); 522 if (collector_type != gc::kCollectorTypeNone) { 523 xgc.collector_type_ = collector_type; 524 } else if (gc_option == "preverify") { 525 xgc.verify_pre_gc_heap_ = true; 526 } else if (gc_option == "nopreverify") { 527 xgc.verify_pre_gc_heap_ = false; 528 } else if (gc_option == "presweepingverify") { 529 xgc.verify_pre_sweeping_heap_ = true; 530 } else if (gc_option == "nopresweepingverify") { 531 xgc.verify_pre_sweeping_heap_ = false; 532 } else if (gc_option == "postverify") { 533 xgc.verify_post_gc_heap_ = true; 534 } else if (gc_option == "nopostverify") { 535 xgc.verify_post_gc_heap_ = false; 536 } else if (gc_option == "preverify_rosalloc") { 537 xgc.verify_pre_gc_rosalloc_ = true; 538 } else if (gc_option == "nopreverify_rosalloc") { 539 xgc.verify_pre_gc_rosalloc_ = false; 540 } else if (gc_option == "presweepingverify_rosalloc") { 541 xgc.verify_pre_sweeping_rosalloc_ = true; 542 } else if (gc_option == "nopresweepingverify_rosalloc") { 543 xgc.verify_pre_sweeping_rosalloc_ = false; 544 } else if (gc_option == "postverify_rosalloc") { 545 xgc.verify_post_gc_rosalloc_ = true; 546 } else if (gc_option == "nopostverify_rosalloc") { 547 xgc.verify_post_gc_rosalloc_ = false; 548 } else if (gc_option == "gcstress") { 549 xgc.gcstress_ = true; 550 } else if (gc_option == "nogcstress") { 551 xgc.gcstress_ = false; 552 } else if (gc_option == "measure") { 553 xgc.measure_ = true; 554 } else if ((gc_option == "precise") || 555 (gc_option == "noprecise") || 556 (gc_option == "verifycardtable") || 557 (gc_option == "noverifycardtable")) { 558 // Ignored for backwards compatibility. 559 } else { 560 return Result::Usage(std::string("Unknown -Xgc option ") + gc_option); 561 } 562 } 563 564 return Result::Success(std::move(xgc)); 565 } 566 567 static const char* Name() { return "XgcOption"; } 568 }; 569 570 struct BackgroundGcOption { 571 // If background_collector_type_ is kCollectorTypeNone, it defaults to the 572 // XGcOption::collector_type_ after parsing options. If you set this to 573 // kCollectorTypeHSpaceCompact then we will do an hspace compaction when 574 // we transition to background instead of a normal collector transition. 575 gc::CollectorType background_collector_type_; 576 577 BackgroundGcOption(gc::CollectorType background_collector_type) // NOLINT [runtime/explicit] [5] 578 : background_collector_type_(background_collector_type) {} 579 BackgroundGcOption() 580 : background_collector_type_(gc::kCollectorTypeNone) { 581 } 582 583 operator gc::CollectorType() const { return background_collector_type_; } 584 }; 585 586 template<> 587 struct CmdlineType<BackgroundGcOption> 588 : CmdlineTypeParser<BackgroundGcOption>, private BackgroundGcOption { 589 Result Parse(const std::string& substring) { 590 // Special handling for HSpaceCompact since this is only valid as a background GC type. 591 if (substring == "HSpaceCompact") { 592 background_collector_type_ = gc::kCollectorTypeHomogeneousSpaceCompact; 593 } else { 594 gc::CollectorType collector_type = ParseCollectorType(substring); 595 if (collector_type != gc::kCollectorTypeNone) { 596 background_collector_type_ = collector_type; 597 } else { 598 return Result::Failure(); 599 } 600 } 601 602 BackgroundGcOption res = *this; 603 return Result::Success(res); 604 } 605 606 static const char* Name() { return "BackgroundGcOption"; } 607 }; 608 609 template <> 610 struct CmdlineType<LogVerbosity> : CmdlineTypeParser<LogVerbosity> { 611 Result Parse(const std::string& options) { 612 LogVerbosity log_verbosity = LogVerbosity(); 613 614 std::vector<std::string> verbose_options; 615 Split(options, ',', &verbose_options); 616 for (size_t j = 0; j < verbose_options.size(); ++j) { 617 if (verbose_options[j] == "class") { 618 log_verbosity.class_linker = true; 619 } else if (verbose_options[j] == "collector") { 620 log_verbosity.collector = true; 621 } else if (verbose_options[j] == "compiler") { 622 log_verbosity.compiler = true; 623 } else if (verbose_options[j] == "deopt") { 624 log_verbosity.deopt = true; 625 } else if (verbose_options[j] == "gc") { 626 log_verbosity.gc = true; 627 } else if (verbose_options[j] == "heap") { 628 log_verbosity.heap = true; 629 } else if (verbose_options[j] == "jdwp") { 630 log_verbosity.jdwp = true; 631 } else if (verbose_options[j] == "jit") { 632 log_verbosity.jit = true; 633 } else if (verbose_options[j] == "jni") { 634 log_verbosity.jni = true; 635 } else if (verbose_options[j] == "monitor") { 636 log_verbosity.monitor = true; 637 } else if (verbose_options[j] == "oat") { 638 log_verbosity.oat = true; 639 } else if (verbose_options[j] == "profiler") { 640 log_verbosity.profiler = true; 641 } else if (verbose_options[j] == "signals") { 642 log_verbosity.signals = true; 643 } else if (verbose_options[j] == "simulator") { 644 log_verbosity.simulator = true; 645 } else if (verbose_options[j] == "startup") { 646 log_verbosity.startup = true; 647 } else if (verbose_options[j] == "third-party-jni") { 648 log_verbosity.third_party_jni = true; 649 } else if (verbose_options[j] == "threads") { 650 log_verbosity.threads = true; 651 } else if (verbose_options[j] == "verifier") { 652 log_verbosity.verifier = true; 653 } else if (verbose_options[j] == "image") { 654 log_verbosity.image = true; 655 } else if (verbose_options[j] == "systrace-locks") { 656 log_verbosity.systrace_lock_logging = true; 657 } else if (verbose_options[j] == "agents") { 658 log_verbosity.agents = true; 659 } else if (verbose_options[j] == "dex") { 660 log_verbosity.dex = true; 661 } else { 662 return Result::Usage(std::string("Unknown -verbose option ") + verbose_options[j]); 663 } 664 } 665 666 return Result::Success(log_verbosity); 667 } 668 669 static const char* Name() { return "LogVerbosity"; } 670 }; 671 672 template <> 673 struct CmdlineType<ProfileSaverOptions> : CmdlineTypeParser<ProfileSaverOptions> { 674 using Result = CmdlineParseResult<ProfileSaverOptions>; 675 676 private: 677 using StringResult = CmdlineParseResult<std::string>; 678 using DoubleResult = CmdlineParseResult<double>; 679 680 template <typename T> 681 static Result ParseInto(ProfileSaverOptions& options, 682 T ProfileSaverOptions::*pField, 683 CmdlineParseResult<T>&& result) { 684 assert(pField != nullptr); 685 686 if (result.IsSuccess()) { 687 options.*pField = result.ReleaseValue(); 688 return Result::SuccessNoValue(); 689 } 690 691 return Result::CastError(result); 692 } 693 694 static std::string RemovePrefix(const std::string& source) { 695 size_t prefix_idx = source.find(':'); 696 697 if (prefix_idx == std::string::npos) { 698 return ""; 699 } 700 701 return source.substr(prefix_idx + 1); 702 } 703 704 public: 705 Result ParseAndAppend(const std::string& option, ProfileSaverOptions& existing) { 706 // Special case which doesn't include a wildcard argument definition. 707 // We pass-it through as-is. 708 if (option == "-Xjitsaveprofilinginfo") { 709 existing.enabled_ = true; 710 return Result::SuccessNoValue(); 711 } 712 713 // The rest of these options are always the wildcard from '-Xps-*' 714 std::string suffix = RemovePrefix(option); 715 716 if (android::base::StartsWith(option, "min-save-period-ms:")) { 717 CmdlineType<unsigned int> type_parser; 718 return ParseInto(existing, 719 &ProfileSaverOptions::min_save_period_ms_, 720 type_parser.Parse(suffix)); 721 } 722 if (android::base::StartsWith(option, "save-resolved-classes-delay-ms:")) { 723 CmdlineType<unsigned int> type_parser; 724 return ParseInto(existing, 725 &ProfileSaverOptions::save_resolved_classes_delay_ms_, 726 type_parser.Parse(suffix)); 727 } 728 if (android::base::StartsWith(option, "startup-method-samples:")) { 729 CmdlineType<unsigned int> type_parser; 730 return ParseInto(existing, 731 &ProfileSaverOptions::startup_method_samples_, 732 type_parser.Parse(suffix)); 733 } 734 if (android::base::StartsWith(option, "min-methods-to-save:")) { 735 CmdlineType<unsigned int> type_parser; 736 return ParseInto(existing, 737 &ProfileSaverOptions::min_methods_to_save_, 738 type_parser.Parse(suffix)); 739 } 740 if (android::base::StartsWith(option, "min-classes-to-save:")) { 741 CmdlineType<unsigned int> type_parser; 742 return ParseInto(existing, 743 &ProfileSaverOptions::min_classes_to_save_, 744 type_parser.Parse(suffix)); 745 } 746 if (android::base::StartsWith(option, "min-notification-before-wake:")) { 747 CmdlineType<unsigned int> type_parser; 748 return ParseInto(existing, 749 &ProfileSaverOptions::min_notification_before_wake_, 750 type_parser.Parse(suffix)); 751 } 752 if (android::base::StartsWith(option, "max-notification-before-wake:")) { 753 CmdlineType<unsigned int> type_parser; 754 return ParseInto(existing, 755 &ProfileSaverOptions::max_notification_before_wake_, 756 type_parser.Parse(suffix)); 757 } 758 if (android::base::StartsWith(option, "profile-path:")) { 759 existing.profile_path_ = suffix; 760 return Result::SuccessNoValue(); 761 } 762 763 return Result::Failure(std::string("Invalid suboption '") + option + "'"); 764 } 765 766 static const char* Name() { return "ProfileSaverOptions"; } 767 static constexpr bool kCanParseBlankless = true; 768 }; 769 770 template<> 771 struct CmdlineType<ExperimentalFlags> : CmdlineTypeParser<ExperimentalFlags> { 772 Result ParseAndAppend(const std::string& option, ExperimentalFlags& existing) { 773 if (option == "none") { 774 existing = ExperimentalFlags::kNone; 775 } else { 776 return Result::Failure(std::string("Unknown option '") + option + "'"); 777 } 778 return Result::SuccessNoValue(); 779 } 780 781 static const char* Name() { return "ExperimentalFlags"; } 782 }; 783 } // namespace art 784 #endif // ART_CMDLINE_CMDLINE_TYPES_H_ 785