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src/hotspot/share/services/diagnosticFramework.hpp
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rev 50538 : [mq]: jcmd-cleanups
*** 73,95 ****
// Iterator class taking a character string in input and returning a CmdLine
// instance for each command line. The argument delimiter has to be specified.
class DCmdIter : public StackObj {
friend class DCmd;
private:
! const char* _str;
! char _delim;
! size_t _len;
size_t _cursor;
public:
! DCmdIter(const char* str, char delim) {
! _str = str;
! _delim = delim;
! _len = strlen(str);
! _cursor = 0;
! }
! bool has_next() { return _cursor < _len; }
CmdLine next() {
assert(_cursor <= _len, "Cannot iterate more");
size_t n = _cursor;
while (n < _len && _str[n] != _delim) n++;
CmdLine line(&(_str[_cursor]), n - _cursor, false);
--- 73,91 ----
// Iterator class taking a character string in input and returning a CmdLine
// instance for each command line. The argument delimiter has to be specified.
class DCmdIter : public StackObj {
friend class DCmd;
private:
! const char* const _str;
! const char _delim;
! const size_t _len;
size_t _cursor;
public:
! DCmdIter(const char* str, char delim)
! : _str(str), _delim(delim), _len(::strlen(str)), _cursor(0) {}
! bool has_next() const { return _cursor < _len; }
CmdLine next() {
assert(_cursor <= _len, "Cannot iterate more");
size_t n = _cursor;
while (n < _len && _str[n] != _delim) n++;
CmdLine line(&(_str[_cursor]), n - _cursor, false);
*** 100,129 ****
}
};
// Iterator class to iterate over diagnostic command arguments
class DCmdArgIter : public ResourceObj {
! const char* _buffer;
! size_t _len;
size_t _cursor;
const char* _key_addr;
size_t _key_len;
const char* _value_addr;
size_t _value_len;
! char _delim;
public:
! DCmdArgIter(const char* buf, size_t len, char delim) {
! _buffer = buf;
! _len = len;
! _delim = delim;
! _cursor = 0;
! }
bool next(TRAPS);
! const char* key_addr() { return _key_addr; }
! size_t key_length() { return _key_len; }
! const char* value_addr() { return _value_addr; }
! size_t value_length() { return _value_len; }
};
// A DCmdInfo instance provides a description of a diagnostic command. It is
// used to export the description to the JMX interface of the framework.
class DCmdInfo : public ResourceObj {
--- 96,122 ----
}
};
// Iterator class to iterate over diagnostic command arguments
class DCmdArgIter : public ResourceObj {
! const char* const _buffer;
! const size_t _len;
size_t _cursor;
const char* _key_addr;
size_t _key_len;
const char* _value_addr;
size_t _value_len;
! const char _delim;
public:
! DCmdArgIter(const char* buf, size_t len, char delim)
! : _buffer(buf), _len(len), _delim(delim), _cursor(0) {}
!
bool next(TRAPS);
! const char* key_addr() const { return _key_addr; }
! size_t key_length() const { return _key_len; }
! const char* value_addr() const { return _value_addr; }
! size_t value_length() const { return _value_len; }
};
// A DCmdInfo instance provides a description of a diagnostic command. It is
// used to export the description to the JMX interface of the framework.
class DCmdInfo : public ResourceObj {
*** 161,207 ****
// A DCmdArgumentInfo instance provides a description of a diagnostic command
// argument. It is used to export the description to the JMX interface of the
// framework.
class DCmdArgumentInfo : public ResourceObj {
protected:
! const char* _name; /* Option/Argument name*/
! const char* _description; /* Short description */
! const char* _type; /* Type: STRING, BOOLEAN, etc. */
! const char* _default_string; /* Default value in a parsable string */
! bool _mandatory; /* True if the option/argument is mandatory */
! bool _option; /* True if it is an option, false if it is an argument */
/* (see diagnosticFramework.hpp for option/argument definitions) */
! bool _multiple; /* True is the option can be specified several time */
! int _position; /* Expected position for this argument (this field is */
/* meaningless for options) */
public:
DCmdArgumentInfo(const char* name, const char* description, const char* type,
const char* default_string, bool mandatory, bool option,
! bool multiple) {
! this->_name = name;
! this->_description = description;
! this->_type = type;
! this->_default_string = default_string;
! this->_option = option;
! this->_mandatory = mandatory;
! this->_option = option;
! this->_multiple = multiple;
! this->_position = -1;
! }
! DCmdArgumentInfo(const char* name, const char* description, const char* type,
! const char* default_string, bool mandatory, bool option,
! bool multiple, int position) {
! this->_name = name;
! this->_description = description;
! this->_type = type;
! this->_default_string = default_string;
! this->_option = option;
! this->_mandatory = mandatory;
! this->_option = option;
! this->_multiple = multiple;
! this->_position = position;
! }
const char* name() const { return _name; }
const char* description() const { return _description; }
const char* type() const { return _type; }
const char* default_string() const { return _default_string; }
bool is_mandatory() const { return _mandatory; }
--- 154,181 ----
// A DCmdArgumentInfo instance provides a description of a diagnostic command
// argument. It is used to export the description to the JMX interface of the
// framework.
class DCmdArgumentInfo : public ResourceObj {
protected:
! const char* const _name; /* Option/Argument name*/
! const char* const _description; /* Short description */
! const char* const _type; /* Type: STRING, BOOLEAN, etc. */
! const char* const _default_string; /* Default value in a parsable string */
! const bool _mandatory; /* True if the option/argument is mandatory */
! const bool _option; /* True if it is an option, false if it is an argument */
/* (see diagnosticFramework.hpp for option/argument definitions) */
! const bool _multiple; /* True is the option can be specified several time */
! const int _position; /* Expected position for this argument (this field is */
/* meaningless for options) */
public:
DCmdArgumentInfo(const char* name, const char* description, const char* type,
const char* default_string, bool mandatory, bool option,
! bool multiple, int position = -1)
! : _name(name), _description(description), _type(type)
! , _default_string(default_string), _mandatory(mandatory)
! , _option(option), _multiple(multiple), _position(-1) {}
!
const char* name() const { return _name; }
const char* description() const { return _description; }
const char* type() const { return _type; }
const char* default_string() const { return _default_string; }
bool is_mandatory() const { return _mandatory; }
*** 231,259 ****
// is 0, argumentB's position is 1 and argumentC's position is 2.
class DCmdParser {
private:
GenDCmdArgument* _options;
GenDCmdArgument* _arguments_list;
- char _delim;
public:
! DCmdParser() {
! _options = NULL;
! _arguments_list = NULL;
! _delim = ' ';
! }
void add_dcmd_option(GenDCmdArgument* arg);
void add_dcmd_argument(GenDCmdArgument* arg);
GenDCmdArgument* lookup_dcmd_option(const char* name, size_t len);
! GenDCmdArgument* arguments_list() { return _arguments_list; };
void check(TRAPS);
void parse(CmdLine* line, char delim, TRAPS);
! void print_help(outputStream* out, const char* cmd_name);
void reset(TRAPS);
void cleanup();
! int num_arguments();
! GrowableArray<const char*>* argument_name_array();
! GrowableArray<DCmdArgumentInfo*>* argument_info_array();
};
// The DCmd class is the parent class of all diagnostic commands
// Diagnostic command instances should not be instantiated directly but
// created using the associated factory. The factory can be retrieved with
--- 205,229 ----
// is 0, argumentB's position is 1 and argumentC's position is 2.
class DCmdParser {
private:
GenDCmdArgument* _options;
GenDCmdArgument* _arguments_list;
public:
! DCmdParser()
! : _options(NULL), _arguments_list(NULL) {}
void add_dcmd_option(GenDCmdArgument* arg);
void add_dcmd_argument(GenDCmdArgument* arg);
GenDCmdArgument* lookup_dcmd_option(const char* name, size_t len);
! GenDCmdArgument* arguments_list() const { return _arguments_list; };
void check(TRAPS);
void parse(CmdLine* line, char delim, TRAPS);
! void print_help(outputStream* out, const char* cmd_name) const;
void reset(TRAPS);
void cleanup();
! int num_arguments() const;
! GrowableArray<const char*>* argument_name_array() const;
! GrowableArray<DCmdArgumentInfo*>* argument_info_array() const;
};
// The DCmd class is the parent class of all diagnostic commands
// Diagnostic command instances should not be instantiated directly but
// created using the associated factory. The factory can be retrieved with
*** 268,284 ****
// each diagnostic command instance. In case of a C-heap allocated diagnostic
// command instance, the DCmdMark must be created in the context of the last
// thread that will access the instance.
class DCmd : public ResourceObj {
protected:
! outputStream* _output;
! bool _is_heap_allocated;
public:
! DCmd(outputStream* output, bool heap_allocated) {
! _output = output;
! _is_heap_allocated = heap_allocated;
! }
static const char* name() { return "No Name";}
static const char* description() { return "No Help";}
static const char* disabled_message() { return "Diagnostic command currently disabled"; }
// The impact() method returns a description of the intrusiveness of the diagnostic
--- 238,252 ----
// each diagnostic command instance. In case of a C-heap allocated diagnostic
// command instance, the DCmdMark must be created in the context of the last
// thread that will access the instance.
class DCmd : public ResourceObj {
protected:
! outputStream* const _output;
! const bool _is_heap_allocated;
public:
! DCmd(outputStream* output, bool heap_allocated)
! : _output(output), _is_heap_allocated(heap_allocated) {}
static const char* name() { return "No Name";}
static const char* description() { return "No Help";}
static const char* disabled_message() { return "Diagnostic command currently disabled"; }
// The impact() method returns a description of the intrusiveness of the diagnostic
*** 304,316 ****
static const JavaPermission permission() {
JavaPermission p = {NULL, NULL, NULL};
return p;
}
static int num_arguments() { return 0; }
! outputStream* output() { return _output; }
! bool is_heap_allocated() { return _is_heap_allocated; }
! virtual void print_help(const char* name) {
output()->print_cr("Syntax: %s", name);
}
virtual void parse(CmdLine* line, char delim, TRAPS) {
DCmdArgIter iter(line->args_addr(), line->args_len(), delim);
bool has_arg = iter.next(CHECK);
--- 272,284 ----
static const JavaPermission permission() {
JavaPermission p = {NULL, NULL, NULL};
return p;
}
static int num_arguments() { return 0; }
! outputStream* output() const { return _output; }
! bool is_heap_allocated() const { return _is_heap_allocated; }
! virtual void print_help(const char* name) const {
output()->print_cr("Syntax: %s", name);
}
virtual void parse(CmdLine* line, char delim, TRAPS) {
DCmdArgIter iter(line->args_addr(), line->args_len(), delim);
bool has_arg = iter.next(CHECK);
*** 322,336 ****
virtual void execute(DCmdSource source, TRAPS) { }
virtual void reset(TRAPS) { }
virtual void cleanup() { }
// support for the JMX interface
! virtual GrowableArray<const char*>* argument_name_array() {
GrowableArray<const char*>* array = new GrowableArray<const char*>(0);
return array;
}
! virtual GrowableArray<DCmdArgumentInfo*>* argument_info_array() {
GrowableArray<DCmdArgumentInfo*>* array = new GrowableArray<DCmdArgumentInfo*>(0);
return array;
}
// main method to invoke the framework
--- 290,304 ----
virtual void execute(DCmdSource source, TRAPS) { }
virtual void reset(TRAPS) { }
virtual void cleanup() { }
// support for the JMX interface
! virtual GrowableArray<const char*>* argument_name_array() const {
GrowableArray<const char*>* array = new GrowableArray<const char*>(0);
return array;
}
! virtual GrowableArray<DCmdArgumentInfo*>* argument_info_array() const {
GrowableArray<DCmdArgumentInfo*>* array = new GrowableArray<DCmdArgumentInfo*>(0);
return array;
}
// main method to invoke the framework
*** 351,369 ****
static int num_arguments() { return 0; }
virtual void parse(CmdLine *line, char delim, TRAPS);
virtual void execute(DCmdSource source, TRAPS) { }
virtual void reset(TRAPS);
virtual void cleanup();
! virtual void print_help(const char* name);
! virtual GrowableArray<const char*>* argument_name_array();
! virtual GrowableArray<DCmdArgumentInfo*>* argument_info_array();
};
class DCmdMark : public StackObj {
! DCmd* _ref;
public:
! DCmdMark(DCmd* cmd) { _ref = cmd; }
~DCmdMark() {
if (_ref != NULL) {
_ref->cleanup();
if (_ref->is_heap_allocated()) {
delete _ref;
--- 319,337 ----
static int num_arguments() { return 0; }
virtual void parse(CmdLine *line, char delim, TRAPS);
virtual void execute(DCmdSource source, TRAPS) { }
virtual void reset(TRAPS);
virtual void cleanup();
! virtual void print_help(const char* name) const;
! virtual GrowableArray<const char*>* argument_name_array() const;
! virtual GrowableArray<DCmdArgumentInfo*>* argument_info_array() const;
};
class DCmdMark : public StackObj {
! DCmd* const _ref;
public:
! DCmdMark(DCmd* cmd) : _ref(cmd) {}
~DCmdMark() {
if (_ref != NULL) {
_ref->cleanup();
if (_ref->is_heap_allocated()) {
delete _ref;
*** 386,420 ****
// diagnostic commands
DCmdFactory* _next;
// When disabled, a diagnostic command cannot be executed. Any attempt to
// execute it will result in the printing of the disabled message without
// instantiating the command.
! bool _enabled;
// When hidden, a diagnostic command doesn't appear in the list of commands
// provided by the 'help' command.
! bool _hidden;
! uint32_t _export_flags;
! int _num_arguments;
static DCmdFactory* _DCmdFactoryList;
public:
! DCmdFactory(int num_arguments, uint32_t flags, bool enabled, bool hidden) {
! _next = NULL;
! _enabled = enabled;
! _hidden = hidden;
! _export_flags = flags;
! _num_arguments = num_arguments;
! }
bool is_enabled() const { return _enabled; }
- void set_enabled(bool b) { _enabled = b; }
bool is_hidden() const { return _hidden; }
! void set_hidden(bool b) { _hidden = b; }
! uint32_t export_flags() { return _export_flags; }
! void set_export_flags(uint32_t f) { _export_flags = f; }
! int num_arguments() { return _num_arguments; }
! DCmdFactory* next() { return _next; }
! virtual DCmd* create_Cheap_instance(outputStream* output) = 0;
! virtual DCmd* create_resource_instance(outputStream* output) = 0;
virtual const char* name() const = 0;
virtual const char* description() const = 0;
virtual const char* impact() const = 0;
virtual const JavaPermission permission() const = 0;
virtual const char* disabled_message() const = 0;
--- 354,380 ----
// diagnostic commands
DCmdFactory* _next;
// When disabled, a diagnostic command cannot be executed. Any attempt to
// execute it will result in the printing of the disabled message without
// instantiating the command.
! const bool _enabled;
// When hidden, a diagnostic command doesn't appear in the list of commands
// provided by the 'help' command.
! const bool _hidden;
! const uint32_t _export_flags;
! const int _num_arguments;
static DCmdFactory* _DCmdFactoryList;
public:
! DCmdFactory(int num_arguments, uint32_t flags, bool enabled, bool hidden)
! : _num_arguments(num_arguments), _enabled(enabled), _hidden(hidden)
! , _export_flags(flags), _next(NULL) {}
bool is_enabled() const { return _enabled; }
bool is_hidden() const { return _hidden; }
! uint32_t export_flags() const { return _export_flags; }
! int num_arguments() const { return _num_arguments; }
! DCmdFactory* next() const { return _next; }
! virtual DCmd* create_resource_instance(outputStream* output) const = 0;
virtual const char* name() const = 0;
virtual const char* description() const = 0;
virtual const char* impact() const = 0;
virtual const JavaPermission permission() const = 0;
virtual const char* disabled_message() const = 0;
*** 422,433 ****
// Once registered, a diagnostic command must not be unregistered.
// To prevent a diagnostic command from being executed, just set the
// enabled flag to false.
static int register_DCmdFactory(DCmdFactory* factory);
static DCmdFactory* factory(DCmdSource source, const char* cmd, size_t len);
- // Returns a C-heap allocated diagnostic command for the given command line
- static DCmd* create_global_DCmd(DCmdSource source, CmdLine &line, outputStream* out, TRAPS);
// Returns a resourceArea allocated diagnostic command for the given command line
static DCmd* create_local_DCmd(DCmdSource source, CmdLine &line, outputStream* out, TRAPS);
static GrowableArray<const char*>* DCmd_list(DCmdSource source);
static GrowableArray<DCmdInfo*>* DCmdInfo_list(DCmdSource source);
--- 382,391 ----
*** 447,462 ****
// where this template is used to create and register factories.
template <class DCmdClass> class DCmdFactoryImpl : public DCmdFactory {
public:
DCmdFactoryImpl(uint32_t flags, bool enabled, bool hidden) :
DCmdFactory(DCmdClass::num_arguments(), flags, enabled, hidden) { }
- // Returns a C-heap allocated instance
- virtual DCmd* create_Cheap_instance(outputStream* output) {
- return new (ResourceObj::C_HEAP, mtInternal) DCmdClass(output, true);
- }
// Returns a resourceArea allocated instance
! virtual DCmd* create_resource_instance(outputStream* output) {
return new DCmdClass(output, false);
}
virtual const char* name() const {
return DCmdClass::name();
}
--- 405,416 ----
// where this template is used to create and register factories.
template <class DCmdClass> class DCmdFactoryImpl : public DCmdFactory {
public:
DCmdFactoryImpl(uint32_t flags, bool enabled, bool hidden) :
DCmdFactory(DCmdClass::num_arguments(), flags, enabled, hidden) { }
// Returns a resourceArea allocated instance
! virtual DCmd* create_resource_instance(outputStream* output) const {
return new DCmdClass(output, false);
}
virtual const char* name() const {
return DCmdClass::name();
}
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