/* * Copyright (c) 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "memory/oopFactory.hpp" #include "runtime/javaCalls.hpp" #include "runtime/mutexLocker.hpp" #include "services/diagnosticArgument.hpp" #include "services/diagnosticFramework.hpp" #include "services/management.hpp" CmdLine::CmdLine(const char* line, size_t len, bool no_command_name) { assert(line != NULL, "Command line string should not be NULL"); const char* line_end; const char* cmd_end; _cmd = line; line_end = &line[len]; // Skip whitespace in the beginning of the line. while (_cmd < line_end && isspace((int) _cmd[0])) { _cmd++; } cmd_end = _cmd; if (no_command_name) { _cmd = NULL; _cmd_len = 0; } else { // Look for end of the command name while (cmd_end < line_end && !isspace((int) cmd_end[0])) { cmd_end++; } _cmd_len = cmd_end - _cmd; } _args = cmd_end; _args_len = line_end - _args; } bool DCmdArgIter::next(TRAPS) { if (_len == 0) return false; // skipping spaces while (_cursor < _len - 1 && isspace(_buffer[_cursor])) { _cursor++; } // handling end of command line if (_cursor >= _len - 1) { _cursor = _len - 1; _key_addr = &_buffer[_len - 1]; _key_len = 0; _value_addr = &_buffer[_len - 1]; _value_len = 0; return false; } // extracting first item, argument or option name _key_addr = &_buffer[_cursor]; while (_cursor <= _len - 1 && _buffer[_cursor] != '=' && _buffer[_cursor] != _delim) { // argument can be surrounded by single or double quotes if (_buffer[_cursor] == '\"' || _buffer[_cursor] == '\'') { _key_addr++; char quote = _buffer[_cursor]; while (_cursor < _len - 1) { _cursor++; if (_buffer[_cursor] == quote && _buffer[_cursor - 1] != '\\') { break; } } if (_buffer[_cursor] != quote) { THROW_MSG_(vmSymbols::java_lang_IllegalArgumentException(), "Format error in diagnostic command arguments", false); } break; } _cursor++; } _key_len = &_buffer[_cursor] - _key_addr; // check if the argument has the = format if (_cursor <= _len -1 && _buffer[_cursor] == '=') { _cursor++; _value_addr = &_buffer[_cursor]; // extract the value while (_cursor <= _len - 1 && _buffer[_cursor] != _delim) { // value can be surrounded by simple or double quotes if (_buffer[_cursor] == '\"' || _buffer[_cursor] == '\'') { _value_addr++; char quote = _buffer[_cursor]; while (_cursor < _len - 1) { _cursor++; if (_buffer[_cursor] == quote && _buffer[_cursor - 1] != '\\') { break; } } if (_buffer[_cursor] != quote) { THROW_MSG_(vmSymbols::java_lang_IllegalArgumentException(), "Format error in diagnostic command arguments", false); } break; } _cursor++; } _value_len = &_buffer[_cursor] - _value_addr; } else { _value_addr = NULL; _value_len = 0; } return _key_len != 0; } bool DCmdInfo::by_name(void* cmd_name, DCmdInfo* info) { if (info == NULL) return false; return strcmp((const char*)cmd_name, info->name()) == 0; } void DCmdParser::add_dcmd_option(GenDCmdArgument* arg) { assert(arg != NULL, "Sanity"); if (_options == NULL) { _options = arg; } else { GenDCmdArgument* o = _options; while (o->next() != NULL) { o = o->next(); } o->set_next(arg); } arg->set_next(NULL); Thread* THREAD = Thread::current(); arg->init_value(THREAD); if (HAS_PENDING_EXCEPTION) { fatal("Initialization must be successful"); } } void DCmdParser::add_dcmd_argument(GenDCmdArgument* arg) { assert(arg != NULL, "Sanity"); if (_arguments_list == NULL) { _arguments_list = arg; } else { GenDCmdArgument* a = _arguments_list; while (a->next() != NULL) { a = a->next(); } a->set_next(arg); } arg->set_next(NULL); Thread* THREAD = Thread::current(); arg->init_value(THREAD); if (HAS_PENDING_EXCEPTION) { fatal("Initialization must be successful"); } } void DCmdParser::parse(CmdLine* line, char delim, TRAPS) { GenDCmdArgument* next_argument = _arguments_list; DCmdArgIter iter(line->args_addr(), line->args_len(), delim); bool cont = iter.next(CHECK); while (cont) { GenDCmdArgument* arg = lookup_dcmd_option(iter.key_addr(), iter.key_length()); if (arg != NULL) { arg->read_value(iter.value_addr(), iter.value_length(), CHECK); } else { if (next_argument != NULL) { arg = next_argument; arg->read_value(iter.key_addr(), iter.key_length(), CHECK); next_argument = next_argument->next(); } else { THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), "Unknown argument in diagnostic command"); } } cont = iter.next(CHECK); } check(CHECK); } GenDCmdArgument* DCmdParser::lookup_dcmd_option(const char* name, size_t len) { GenDCmdArgument* arg = _options; while (arg != NULL) { if (strlen(arg->name()) == len && strncmp(name, arg->name(), len) == 0) { return arg; } arg = arg->next(); } return NULL; } void DCmdParser::check(TRAPS) { GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { if (arg->is_mandatory() && !arg->has_value()) { THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), "Missing argument for diagnostic command"); } arg = arg->next(); } arg = _options; while (arg != NULL) { if (arg->is_mandatory() && !arg->has_value()) { THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), "Missing option for diagnostic command"); } arg = arg->next(); } } void DCmdParser::print_help(outputStream* out, const char* cmd_name) { out->print("\nSyntax : %s %s", cmd_name, _options == NULL ? "" : "[options]"); GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { if (arg->is_mandatory()) { out->print(" <%s>", arg->name()); } else { out->print(" [<%s>]", arg->name()); } arg = arg->next(); } out->print_cr(""); if (_arguments_list != NULL) { out->print_cr("\nArguments:"); arg = _arguments_list; while (arg != NULL) { out->print("\t%s : %s %s (%s, ", arg->name(), arg->is_mandatory() ? "" : "[optional]", arg->description(), arg->type()); if (arg->has_default()) { out->print(arg->default_string()); } else { out->print("no default value"); } out->print_cr(")"); arg = arg->next(); } } if (_options != NULL) { out->print_cr("\nOptions: (options must be specified using the or = syntax)"); arg = _options; while (arg != NULL) { out->print("\t%s : %s %s (%s, ", arg->name(), arg->is_mandatory() ? "" : "[optional]", arg->description(), arg->type()); if (arg->has_default()) { out->print(arg->default_string()); } else { out->print("no default value"); } out->print_cr(")"); arg = arg->next(); } } } void DCmdParser::reset(TRAPS) { GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { arg->reset(CHECK); arg = arg->next(); } arg = _options; while (arg != NULL) { arg->reset(CHECK); arg = arg->next(); } } void DCmdParser::cleanup() { GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { arg->cleanup(); arg = arg->next(); } arg = _options; while (arg != NULL) { arg->cleanup(); arg = arg->next(); } } int DCmdParser::num_arguments() { GenDCmdArgument* arg = _arguments_list; int count = 0; while (arg != NULL) { count++; arg = arg->next(); } arg = _options; while (arg != NULL) { count++; arg = arg->next(); } return count; } GrowableArray* DCmdParser::argument_name_array() { int count = num_arguments(); GrowableArray* array = new GrowableArray(count); GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { array->append(arg->name()); arg = arg->next(); } arg = _options; while (arg != NULL) { array->append(arg->name()); arg = arg->next(); } return array; } GrowableArray* DCmdParser::argument_info_array() { int count = num_arguments(); GrowableArray* array = new GrowableArray(count); int idx = 0; GenDCmdArgument* arg = _arguments_list; while (arg != NULL) { array->append(new DCmdArgumentInfo(arg->name(), arg->description(), arg->type(), arg->default_string(), arg->is_mandatory(), false, idx)); idx++; arg = arg->next(); } arg = _options; while (arg != NULL) { array->append(new DCmdArgumentInfo(arg->name(), arg->description(), arg->type(), arg->default_string(), arg->is_mandatory(), true)); arg = arg->next(); } return array; } DCmdFactory* DCmdFactory::_DCmdFactoryList = NULL; void DCmd::parse_and_execute(outputStream* out, const char* cmdline, char delim, TRAPS) { if (cmdline == NULL) return; // Nothing to do! DCmdIter iter(cmdline, '\n'); while (iter.has_next()) { CmdLine line = iter.next(); if (line.is_stop()) { break; } if (line.is_executable()) { DCmd* command = DCmdFactory::create_local_DCmd(line, out, CHECK); assert(command != NULL, "command error must be handled before this line"); DCmdMark mark(command); command->parse(&line, delim, CHECK); command->execute(CHECK); } } } Mutex* DCmdFactory::_dcmdFactory_lock = new Mutex(Mutex::leaf, "DCmdFactory", true); DCmdFactory* DCmdFactory::factory(const char* name, size_t len) { MutexLockerEx ml(_dcmdFactory_lock, Mutex::_no_safepoint_check_flag); DCmdFactory* factory = _DCmdFactoryList; while (factory != NULL) { if (strlen(factory->name()) == len && strncmp(name, factory->name(), len) == 0) { return factory; } factory = factory->_next; } return NULL; } int DCmdFactory::register_DCmdFactory(DCmdFactory* factory) { MutexLockerEx ml(_dcmdFactory_lock, Mutex::_no_safepoint_check_flag); factory->_next = _DCmdFactoryList; _DCmdFactoryList = factory; return 0; // Actually, there's no checks for duplicates } DCmd* DCmdFactory::create_global_DCmd(CmdLine &line, outputStream* out, TRAPS) { DCmdFactory* f = factory(line.cmd_addr(), line.cmd_len()); if (f != NULL) { if (f->is_enabled()) { THROW_MSG_NULL(vmSymbols::java_lang_IllegalArgumentException(), f->disabled_message()); } return f->create_Cheap_instance(out); } THROW_MSG_NULL(vmSymbols::java_lang_IllegalArgumentException(), "Unknown diagnostic command"); } DCmd* DCmdFactory::create_local_DCmd(CmdLine &line, outputStream* out, TRAPS) { DCmdFactory* f = factory(line.cmd_addr(), line.cmd_len()); if (f != NULL) { if (!f->is_enabled()) { THROW_MSG_NULL(vmSymbols::java_lang_IllegalArgumentException(), f->disabled_message()); } return f->create_resource_instance(out); } THROW_MSG_NULL(vmSymbols::java_lang_IllegalArgumentException(), "Unknown diagnostic command"); } GrowableArray* DCmdFactory::DCmd_list() { MutexLockerEx ml(_dcmdFactory_lock, Mutex::_no_safepoint_check_flag); GrowableArray* array = new GrowableArray(); DCmdFactory* factory = _DCmdFactoryList; while (factory != NULL) { if (!factory->is_hidden()) { array->append(factory->name()); } factory = factory->next(); } return array; } GrowableArray* DCmdFactory::DCmdInfo_list() { MutexLockerEx ml(_dcmdFactory_lock, Mutex::_no_safepoint_check_flag); GrowableArray* array = new GrowableArray(); DCmdFactory* factory = _DCmdFactoryList; while (factory != NULL) { if (!factory->is_hidden()) { array->append(new DCmdInfo(factory->name(), factory->description(), factory->impact(), factory->num_arguments(), factory->is_enabled())); } factory = factory->next(); } return array; }