/* * Copyright (c) 2015, 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 "classfile/stringTable.hpp" #include "classfile/symbolTable.hpp" #include "gc/shared/referenceProcessor.hpp" #include "runtime/arguments.hpp" #include "runtime/commandLineFlagRangeList.hpp" #include "runtime/os.hpp" #include "runtime/task.hpp" #include "utilities/defaultStream.hpp" #include "utilities/macros.hpp" void CommandLineError::print(bool verbose, const char* msg, ...) { if (verbose) { va_list listPointer; va_start(listPointer, msg); jio_vfprintf(defaultStream::error_stream(), msg, listPointer); va_end(listPointer); } } class CommandLineFlagRange_int : public CommandLineFlagRange { int _min; int _max; public: // the "name" argument must be a string literal CommandLineFlagRange_int(const char* name, int min, int max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_int(int value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "int %s=%d is outside the allowed range " "[ %d ... %d ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ %-25d ... %25d ]", _min, _max); } }; class CommandLineFlagRange_intx : public CommandLineFlagRange { intx _min; intx _max; public: // the "name" argument must be a string literal CommandLineFlagRange_intx(const char* name, intx min, intx max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_intx(intx value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "intx %s=" INTX_FORMAT " is outside the allowed range " "[ " INTX_FORMAT " ... " INTX_FORMAT " ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ " INTX_FORMAT_W(-25) " ... " INTX_FORMAT_W(25) " ]", _min, _max); } }; class CommandLineFlagRange_uint : public CommandLineFlagRange { uint _min; uint _max; public: // the "name" argument must be a string literal CommandLineFlagRange_uint(const char* name, uint min, uint max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_uint(uint value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "uint %s=%u is outside the allowed range " "[ %u ... %u ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ %-25u ... %25u ]", _min, _max); } }; class CommandLineFlagRange_uintx : public CommandLineFlagRange { uintx _min; uintx _max; public: // the "name" argument must be a string literal CommandLineFlagRange_uintx(const char* name, uintx min, uintx max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_uintx(uintx value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "uintx %s=" UINTX_FORMAT " is outside the allowed range " "[ " UINTX_FORMAT " ... " UINTX_FORMAT " ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ " UINTX_FORMAT_W(-25) " ... " UINTX_FORMAT_W(25) " ]", _min, _max); } }; class CommandLineFlagRange_uint64_t : public CommandLineFlagRange { uint64_t _min; uint64_t _max; public: // the "name" argument must be a string literal CommandLineFlagRange_uint64_t(const char* name, uint64_t min, uint64_t max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_uint64_t(uint64_t value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "uint64_t %s=" UINT64_FORMAT " is outside the allowed range " "[ " UINT64_FORMAT " ... " UINT64_FORMAT " ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ " UINT64_FORMAT_W(-25) " ... " UINT64_FORMAT_W(25) " ]", _min, _max); } }; class CommandLineFlagRange_size_t : public CommandLineFlagRange { size_t _min; size_t _max; public: // the "name" argument must be a string literal CommandLineFlagRange_size_t(const char* name, size_t min, size_t max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_size_t(size_t value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "size_t %s=" SIZE_FORMAT " is outside the allowed range " "[ " SIZE_FORMAT " ... " SIZE_FORMAT " ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ " SIZE_FORMAT_W(-25) " ... " SIZE_FORMAT_W(25) " ]", _min, _max); } }; class CommandLineFlagRange_double : public CommandLineFlagRange { double _min; double _max; public: // the "name" argument must be a string literal CommandLineFlagRange_double(const char* name, double min, double max) : CommandLineFlagRange(name) { _min=min, _max=max; } Flag::Error check_double(double value, bool verbose = true) { if ((value < _min) || (value > _max)) { CommandLineError::print(verbose, "double %s=%f is outside the allowed range " "[ %f ... %f ]\n", name(), value, _min, _max); return Flag::OUT_OF_BOUNDS; } else { return Flag::SUCCESS; } } void print(outputStream* st) { st->print("[ %-25.3f ... %25.3f ]", _min, _max); } }; // No constraint emitting void emit_range_no(...) { /* NOP */ } // No constraint emitting if function argument is NOT provided void emit_range_bool(const char* /*name*/) { /* NOP */ } void emit_range_ccstr(const char* /*name*/) { /* NOP */ } void emit_range_ccstrlist(const char* /*name*/) { /* NOP */ } void emit_range_int(const char* /*name*/) { /* NOP */ } void emit_range_intx(const char* /*name*/) { /* NOP */ } void emit_range_uint(const char* /*name*/) { /* NOP */ } void emit_range_uintx(const char* /*name*/) { /* NOP */ } void emit_range_uint64_t(const char* /*name*/) { /* NOP */ } void emit_range_size_t(const char* /*name*/) { /* NOP */ } void emit_range_double(const char* /*name*/) { /* NOP */ } // CommandLineFlagRange emitting code functions if range arguments are provided void emit_range_intx(const char* name, intx min, intx max) { CommandLineFlagRangeList::add(new CommandLineFlagRange_intx(name, min, max)); } void emit_range_uintx(const char* name, uintx min, uintx max) { CommandLineFlagRangeList::add(new CommandLineFlagRange_uintx(name, min, max)); } void emit_range_uint64_t(const char* name, uint64_t min, uint64_t max) { CommandLineFlagRangeList::add(new CommandLineFlagRange_uint64_t(name, min, max)); } void emit_range_size_t(const char* name, size_t min, size_t max) { CommandLineFlagRangeList::add(new CommandLineFlagRange_size_t(name, min, max)); } void emit_range_double(const char* name, double min, double max) { CommandLineFlagRangeList::add(new CommandLineFlagRange_double(name, min, max)); } // Generate code to call emit_range_xxx function #define EMIT_RANGE_PRODUCT_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_COMMERCIAL_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_DIAGNOSTIC_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_EXPERIMENTAL_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_MANAGEABLE_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_PRODUCT_RW_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_PD_PRODUCT_FLAG(type, name, doc) ); emit_range_##type(#name #define EMIT_RANGE_DEVELOPER_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_PD_DEVELOPER_FLAG(type, name, doc) ); emit_range_##type(#name #define EMIT_RANGE_NOTPRODUCT_FLAG(type, name, value, doc) ); emit_range_##type(#name #define EMIT_RANGE_LP64_PRODUCT_FLAG(type, name, value, doc) ); emit_range_##type(#name // Generate func argument to pass into emit_range_xxx functions #define EMIT_RANGE_CHECK(a, b) , a, b #define INITIAL_RANGES_SIZE 319 GrowableArray* CommandLineFlagRangeList::_ranges = NULL; // Check the ranges of all flags that have them void CommandLineFlagRangeList::init(void) { _ranges = new (ResourceObj::C_HEAP, mtInternal) GrowableArray(INITIAL_RANGES_SIZE, true); emit_range_no(NULL RUNTIME_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PD_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_PD_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_EXPERIMENTAL_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_MANAGEABLE_FLAG, EMIT_RANGE_PRODUCT_RW_FLAG, EMIT_RANGE_LP64_PRODUCT_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT) ); EMIT_RANGES_FOR_GLOBALS_EXT emit_range_no(NULL ARCH_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_EXPERIMENTAL_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT)); #if INCLUDE_JVMCI emit_range_no(NULL JVMCI_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PD_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_PD_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_EXPERIMENTAL_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT)); #endif // INCLUDE_JVMCI #ifdef COMPILER1 emit_range_no(NULL C1_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PD_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_PD_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT)); #endif // COMPILER1 #ifdef COMPILER2 emit_range_no(NULL C2_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PD_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_PD_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_EXPERIMENTAL_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT)); #endif // COMPILER2 #if INCLUDE_ALL_GCS emit_range_no(NULL G1_FLAGS(EMIT_RANGE_DEVELOPER_FLAG, EMIT_RANGE_PD_DEVELOPER_FLAG, EMIT_RANGE_PRODUCT_FLAG, EMIT_RANGE_PD_PRODUCT_FLAG, EMIT_RANGE_DIAGNOSTIC_FLAG, EMIT_RANGE_EXPERIMENTAL_FLAG, EMIT_RANGE_NOTPRODUCT_FLAG, EMIT_RANGE_MANAGEABLE_FLAG, EMIT_RANGE_PRODUCT_RW_FLAG, EMIT_RANGE_CHECK, IGNORE_CONSTRAINT)); #endif // INCLUDE_ALL_GCS } CommandLineFlagRange* CommandLineFlagRangeList::find(const char* name) { CommandLineFlagRange* found = NULL; for (int i=0; iname(), name) == 0) { found = range; break; } } return found; } void CommandLineFlagRangeList::print(const char* name, outputStream* st, bool unspecified) { CommandLineFlagRange* range = CommandLineFlagRangeList::find(name); if (range != NULL) { range->print(st); } else if (unspecified == true) { st->print("[ ... ]"); } } bool CommandLineFlagRangeList::check_ranges() { // Check ranges. bool status = true; for (int i=0; iname(); Flag* flag = Flag::find_flag(name, strlen(name), true, true); // We must check for NULL here as lp64_product flags on 32 bit architecture // can generate range check (despite that they are declared as constants), // but they will not be returned by Flag::find_flag() if (flag != NULL) { if (flag->is_int()) { int value = flag->get_int(); if (range->check_int(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_uint()) { uint value = flag->get_uint(); if (range->check_uint(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_intx()) { intx value = flag->get_intx(); if (range->check_intx(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_uintx()) { uintx value = flag->get_uintx(); if (range->check_uintx(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_uint64_t()) { uint64_t value = flag->get_uint64_t(); if (range->check_uint64_t(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_size_t()) { size_t value = flag->get_size_t(); if (range->check_size_t(value, true) != Flag::SUCCESS) status = false; } else if (flag->is_double()) { double value = flag->get_double(); if (range->check_double(value, true) != Flag::SUCCESS) status = false; } } } return status; }