-@c Copyright (C) 2008-2016 Free Software Foundation, Inc.
+@c Copyright (C) 2008-2018 Free Software Foundation, Inc.
@c Permission is granted to copy, distribute and/or modify this document
@c under the terms of the GNU Free Documentation License, Version 1.3 or
@c any later version published by the Free Software Foundation; with the
You can extend @value{GDBN} using the @uref{http://www.python.org/,
Python programming language}. This feature is available only if
@value{GDBN} was configured using @option{--with-python}.
+@value{GDBN} can be built against either Python 2 or Python 3; which
+one you have depends on this configure-time option.
@cindex python directory
Python scripts used by @value{GDBN} should be installed in
The script name must end with @samp{.py} and @value{GDBN} must be configured
to recognize the script language based on filename extension using
the @code{script-extension} setting. @xref{Extending GDB, ,Extending GDB}.
-
-@item python execfile ("script-name")
-This method is based on the @code{execfile} Python built-in function,
-and thus is always available.
@end table
@node Python API
* Inferiors In Python:: Python representation of inferiors (processes)
* Events In Python:: Listening for events from @value{GDBN}.
* Threads In Python:: Accessing inferior threads from Python.
+* Recordings In Python:: Accessing recordings from Python.
* Commands In Python:: Implementing new commands in Python.
* Parameters In Python:: Adding new @value{GDBN} parameters.
* Functions In Python:: Writing new convenience functions.
@value{GDBN} automatically @code{import}s the @code{gdb} module for
use in all scripts evaluated by the @code{python} command.
+Some types of the @code{gdb} module come with a textual representation
+(accessible through the @code{repr} or @code{str} functions). These are
+offered for debugging purposes only, expect them to change over time.
+
@findex gdb.PYTHONDIR
@defvar gdb.PYTHONDIR
A string containing the python directory (@pxref{Python}).
@code{gdb.breakpoints} returns an empty sequence in this case.
@end defun
+@defun gdb.rbreak (regex @r{[}, minsyms @r{[}, throttle, @r{[}, symtabs @r{]]]})
+Return a Python list holding a collection of newly set
+@code{gdb.Breakpoint} objects matching function names defined by the
+@var{regex} pattern. If the @var{minsyms} keyword is @code{True}, all
+system functions (those not explicitly defined in the inferior) will
+also be included in the match. The @var{throttle} keyword takes an
+integer that defines the maximum number of pattern matches for
+functions matched by the @var{regex} pattern. If the number of
+matches exceeds the integer value of @var{throttle}, a
+@code{RuntimeError} will be raised and no breakpoints will be created.
+If @var{throttle} is not defined then there is no imposed limit on the
+maximum number of matches and breakpoints to be created. The
+@var{symtabs} keyword takes a Python iterable that yields a collection
+of @code{gdb.Symtab} objects and will restrict the search to those
+functions only contained within the @code{gdb.Symtab} objects.
+@end defun
+
@findex gdb.parameter
@defun gdb.parameter (parameter)
Return the value of a @value{GDBN} @var{parameter} given by its name,
@code{gdb.Value} (@pxref{Values From Inferior}).
@end defun
+@findex gdb.convenience_variable
+@defun gdb.convenience_variable (name)
+Return the value of the convenience variable (@pxref{Convenience
+Vars}) named @var{name}. @var{name} must be a string. The name
+should not include the @samp{$} that is used to mark a convenience
+variable in an expression. If the convenience variable does not
+exist, then @code{None} is returned.
+@end defun
+
+@findex gdb.set_convenience_variable
+@defun gdb.set_convenience_variable (name, value)
+Set the value of the convenience variable (@pxref{Convenience Vars})
+named @var{name}. @var{name} must be a string. The name should not
+include the @samp{$} that is used to mark a convenience variable in an
+expression. If @var{value} is @code{None}, then the convenience
+variable is removed. Otherwise, if @var{value} is not a
+@code{gdb.Value} (@pxref{Values From Inferior}), it is is converted
+using the @code{gdb.Value} constructor.
+@end defun
+
@findex gdb.parse_and_eval
@defun gdb.parse_and_eval (expression)
Parse @var{expression}, which must be a string, as an expression in
This function can be useful when implementing a new command
(@pxref{Commands In Python}), as it provides a way to parse the
command's argument as an expression. It is also useful simply to
-compute values, for example, it is the only way to get the value of a
-convenience variable (@pxref{Convenience Vars}) as a @code{gdb.Value}.
+compute values.
@end defun
@findex gdb.find_pc_line
@var{pc} value. @xref{Symbol Tables In Python}. If an invalid
value of @var{pc} is passed as an argument, then the @code{symtab} and
@code{line} attributes of the returned @code{gdb.Symtab_and_line} object
-will be @code{None} and 0 respectively.
+will be @code{None} and 0 respectively. This is identical to
+@code{gdb.current_progspace().find_pc_line(pc)} and is included for
+historical compatibility.
@end defun
@findex gdb.post_event
@findex gdb.solib_name
@defun gdb.solib_name (address)
Return the name of the shared library holding the given @var{address}
-as a string, or @code{None}.
+as a string, or @code{None}. This is identical to
+@code{gdb.current_progspace().solib_name(address)} and is included for
+historical compatibility.
@end defun
@findex gdb.decode_line
-@defun gdb.decode_line @r{[}expression@r{]}
+@defun gdb.decode_line (@r{[}expression@r{]})
Return locations of the line specified by @var{expression}, or of the
current line if no argument was given. This function returns a Python
tuple containing two elements. The first element contains a string
statement closest to where the @value{GDBN} error occured as the
traceback.
-@findex gdb.GdbError
-When implementing @value{GDBN} commands in Python via @code{gdb.Command},
-it is useful to be able to throw an exception that doesn't cause a
-traceback to be printed. For example, the user may have invoked the
-command incorrectly. Use the @code{gdb.GdbError} exception
-to handle this case. Example:
+
+When implementing @value{GDBN} commands in Python via
+@code{gdb.Command}, or functions via @code{gdb.Function}, it is useful
+to be able to throw an exception that doesn't cause a traceback to be
+printed. For example, the user may have invoked the command
+incorrectly. @value{GDBN} provides a special exception class that can
+be used for this purpose.
+
+@ftable @code
+@item gdb.GdbError
+When thrown from a command or function, this exception will cause the
+command or function to fail, but the Python stack will not be
+displayed. @value{GDBN} does not throw this exception itself, but
+rather recognizes it when thrown from user Python code. Example:
@smallexample
(gdb) python
(gdb) hello-world 42
hello-world takes no arguments
@end smallexample
+@end ftable
@node Values From Inferior
@subsubsection Values From Inferior
@end defvar
@defvar Value.dynamic_type
-The dynamic type of this @code{gdb.Value}. This uses C@t{++} run-time
-type information (@acronym{RTTI}) to determine the dynamic type of the
-value. If this value is of class type, it will return the class in
-which the value is embedded, if any. If this value is of pointer or
-reference to a class type, it will compute the dynamic type of the
-referenced object, and return a pointer or reference to that type,
-respectively. In all other cases, it will return the value's static
-type.
+The dynamic type of this @code{gdb.Value}. This uses the object's
+virtual table and the C@t{++} run-time type information
+(@acronym{RTTI}) to determine the dynamic type of the value. If this
+value is of class type, it will return the class in which the value is
+embedded, if any. If this value is of pointer or reference to a class
+type, it will compute the dynamic type of the referenced object, and
+return a pointer or reference to that type, respectively. In all
+other cases, it will return the value's static type.
Note that this feature will only work when debugging a C@t{++} program
that includes @acronym{RTTI} for the object in question. Otherwise,
An instance of @code{Type} has the following attributes:
+@defvar Type.alignof
+The alignment of this type, in bytes. Type alignment comes from the
+debugging information; if it was not specified, then @value{GDBN} will
+use the relevant ABI to try to determine the alignment. In some
+cases, even this is not possible, and zero will be returned.
+@end defvar
+
@defvar Type.code
The type code for this type. The type code will be one of the
@code{TYPE_CODE_} constants defined below.
@table @code
@item bitpos
This attribute is not available for @code{enum} or @code{static}
-(as in C@t{++} or Java) fields. The value is the position, counting
+(as in C@t{++}) fields. The value is the position, counting
in bits, from the start of the containing type.
@item enumval
@vindex TYPE_CODE_METHOD
@item gdb.TYPE_CODE_METHOD
-A method type, as found in C@t{++} or Java.
+A method type, as found in C@t{++}.
@vindex TYPE_CODE_METHODPTR
@item gdb.TYPE_CODE_METHODPTR
@item gdb.TYPE_CODE_REF
A reference type.
+@vindex TYPE_CODE_RVALUE_REF
+@item gdb.TYPE_CODE_RVALUE_REF
+A C@t{++}11 rvalue reference type.
+
@vindex TYPE_CODE_CHAR
@item gdb.TYPE_CODE_CHAR
A character type.
@subsubsection Pretty Printing API
@cindex python pretty printing api
-An example output is provided (@pxref{Pretty Printing}).
-
A pretty-printer is just an object that holds a value and implements a
-specific interface, defined here.
+specific interface, defined here. An example output is provided
+(@pxref{Pretty Printing}).
@defun pretty_printer.children (self)
@value{GDBN} will call this method on a pretty-printer to compute the
inferior changed.
@node Frame Filter API
-@subsubsection Filtering Frames.
+@subsubsection Filtering Frames
@cindex frame filters api
Frame filters are Python objects that manipulate the visibility of a
recommended practice to assume zero is the lowest priority that a
frame filter can be assigned. Frame filters that have the same
priority are executed in unsorted order in that priority slot. This
-attribute is mandatory.
+attribute is mandatory. 100 is a good default priority.
@end defvar
@node Frame Decorator API
-@subsubsection Decorating Frames.
+@subsubsection Decorating Frames
@cindex frame decorator api
Frame decorators are sister objects to frame filters (@pxref{Frame
recommended that other frame decorators inherit and extend this
object, and only to override the methods needed.
+@tindex gdb.FrameDecorator
+@code{FrameDecorator} is defined in the Python module
+@code{gdb.FrameDecorator}, so your code can import it like:
+@smallexample
+from gdb.FrameDecorator import FrameDecorator
+@end smallexample
+
@defun FrameDecorator.elided (self)
The @code{elided} method groups frames together in a hierarchical
unwinders in Python uses this object to return frame's ID and previous
frame registers when @value{GDBN} core asks for them.
+An unwinder should do as little work as possible. Some otherwise
+innocuous operations can cause problems (even crashes, as this code is
+not not well-hardened yet). For example, making an inferior call from
+an unwinder is unadvisable, as an inferior call will reset
+@value{GDBN}'s stack unwinding process, potentially causing re-entrant
+unwinding.
+
@subheading Unwinder Input
An object passed to an unwinder (a @code{gdb.PendingFrame} instance)
provides a method to read frame's registers:
@defun PendingFrame.read_register (reg)
-This method returns the contents of the register @var{regn} in the
+This method returns the contents of the register @var{reg} in the
frame as a @code{gdb.Value} object. @var{reg} can be either a
register number or a register name; the values are platform-specific.
They are usually found in the corresponding
-@file{@var{platform}-tdep.h} file in the @value{GDBN} source tree.
+@file{@var{platform}-tdep.h} file in the @value{GDBN} source tree. If
+@var{reg} does not name a register for the current architecture, this
+method will throw an exception.
+
+Note that this method will always return a @code{gdb.Value} for a
+valid register name. This does not mean that the value will be valid.
+For example, you may request a register that an earlier unwinder could
+not unwind---the value will be unavailable. Instead, the
+@code{gdb.Value} returned from this method will be lazy; that is, its
+underlying bits will not be fetched until it is first used. So,
+attempting to use such a value will cause an exception at the point of
+use.
+
+The type of the returned @code{gdb.Value} depends on the register and
+the architecture. It is common for registers to have a scalar type,
+like @code{long long}; but many other types are possible, such as
+pointer, pointer-to-function, floating point or vector types.
@end defun
It also provides a factory method to create a @code{gdb.UnwindInfo}
determine which function will be used, as follows:
@table @code
-@item sp, pc, special
-@code{frame_id_build_special (@var{frame_id}.sp, @var{frame_id}.pc, @var{frame_id}.special)}
-
@item sp, pc
-@code{frame_id_build (@var{frame_id}.sp, @var{frame_id}.pc)}
+The frame is identified by the given stack address and PC. The stack
+address must be chosen so that it is constant throughout the lifetime
+of the frame, so a typical choice is the value of the stack pointer at
+the start of the function---in the DWARF standard, this would be the
+``Call Frame Address''.
-This is the most common case.
+This is the most common case by far. The other cases are documented
+for completeness but are only useful in specialized situations.
+
+@item sp, pc, special
+The frame is identified by the stack address, the PC, and a
+``special'' address. The special address is used on architectures
+that can have frames that do not change the stack, but which are still
+distinct, for example the IA-64, which has a second stack for
+registers. Both @var{sp} and @var{special} must be constant
+throughout the lifetime of the frame.
@item sp
-@code{frame_id_build_wild (@var{frame_id}.sp)}
+The frame is identified by the stack address only. Any other stack
+frame with a matching @var{sp} will be considered to match this frame.
+Inside gdb, this is called a ``wild frame''. You will never need
+this.
@end table
-The attribute values should be @code{gdb.Value}
+
+Each attribute value should be an instance of @code{gdb.Value}.
@end defun
started by @value{GDBN} itself.
@end defvar
+@defvar Inferior.progspace
+The inferior's program space. @xref{Progspaces In Python}.
+@end defvar
+
A @code{gdb.Inferior} object has the following methods:
@defun Inferior.is_valid ()
Read @var{length} addressable memory units from the inferior, starting at
@var{address}. Returns a buffer object, which behaves much like an array
or a string. It can be modified and given to the
-@code{Inferior.write_memory} function. In @code{Python} 3, the return
+@code{Inferior.write_memory} function. In Python 3, the return
value is a @code{memoryview} object.
@end defun
the pattern could not be found.
@end defun
+@findex Inferior.thread_from_thread_handle
+@defun Inferior.thread_from_thread_handle (thread_handle)
+Return the thread object corresponding to @var{thread_handle}, a thread
+library specific data structure such as @code{pthread_t} for pthreads
+library implementations.
+@end defun
+
@node Events In Python
@subsubsection Events In Python
@cindex inferior events in Python
@value{GDBN} detaches from the inferior.) If the exit code is unavailable,
the attribute does not exist.
@end defvar
-@defvar ExitedEvent inferior
+@defvar ExitedEvent.inferior
A reference to the inferior which triggered the @code{exited} event.
@end defvar
been cleared. @xref{Progspaces In Python}.
@end defvar
-@item events.inferior_call_pre
-Emits @code{gdb.InferiorCallPreEvent} which indicates that a function in
-the inferior is about to be called.
+@item events.inferior_call
+Emits events just before and after a function in the inferior is
+called by @value{GDBN}. Before an inferior call, this emits an event
+of type @code{gdb.InferiorCallPreEvent}, and after an inferior call,
+this emits an event of type @code{gdb.InferiorCallPostEvent}.
+
+@table @code
+@tindex gdb.InferiorCallPreEvent
+@item @code{gdb.InferiorCallPreEvent}
+Indicates that a function in the inferior is about to be called.
@defvar InferiorCallPreEvent.ptid
The thread in which the call will be run.
The location of the function to be called.
@end defvar
-@item events.inferior_call_post
-Emits @code{gdb.InferiorCallPostEvent} which indicates that a function in
-the inferior has returned.
+@tindex gdb.InferiorCallPostEvent
+@item @code{gdb.InferiorCallPostEvent}
+Indicates that a function in the inferior has just been called.
@defvar InferiorCallPostEvent.ptid
The thread in which the call was run.
@defvar InferiorCallPostEvent.address
The location of the function that was called.
@end defvar
+@end table
@item events.memory_changed
Emits @code{gdb.MemoryChangedEvent} which indicates that the memory of the
invalid state; that is, the @code{is_valid} method will return
@code{False}.
+@item events.before_prompt
+This event carries no payload. It is emitted each time @value{GDBN}
+presents a prompt to the user.
+
+@item events.new_inferior
+This is emitted when a new inferior is created. Note that the
+inferior is not necessarily running; in fact, it may not even have an
+associated executable.
+
+The event is of type @code{gdb.NewInferiorEvent}. This has a single
+attribute:
+
+@defvar NewInferiorEvent.inferior
+The new inferior, a @code{gdb.Inferior} object.
+@end defvar
+
+@item events.inferior_deleted
+This is emitted when an inferior has been deleted. Note that this is
+not the same as process exit; it is notified when the inferior itself
+is removed, say via @code{remove-inferiors}.
+
+The event is of type @code{gdb.InferiorDeletedEvent}. This has a single
+attribute:
+
+@defvar NewInferiorEvent.inferior
+The inferior that is being removed, a @code{gdb.Inferior} object.
+@end defvar
+
+@item events.new_thread
+This is emitted when @value{GDBN} notices a new thread. The event is of
+type @code{gdb.NewThreadEvent}, which extends @code{gdb.ThreadEvent}.
+This has a single attribute:
+
+@defvar NewThreadEvent.inferior_thread
+The new thread.
+@end defvar
+
@end table
@node Threads In Python
Return a Boolean indicating whether the thread is exited.
@end defun
+@node Recordings In Python
+@subsubsection Recordings In Python
+@cindex recordings in python
+
+The following recordings-related functions
+(@pxref{Process Record and Replay}) are available in the @code{gdb}
+module:
+
+@defun gdb.start_recording (@r{[}method@r{]}, @r{[}format@r{]})
+Start a recording using the given @var{method} and @var{format}. If
+no @var{format} is given, the default format for the recording method
+is used. If no @var{method} is given, the default method will be used.
+Returns a @code{gdb.Record} object on success. Throw an exception on
+failure.
+
+The following strings can be passed as @var{method}:
+
+@itemize @bullet
+@item
+@code{"full"}
+@item
+@code{"btrace"}: Possible values for @var{format}: @code{"pt"},
+@code{"bts"} or leave out for default format.
+@end itemize
+@end defun
+
+@defun gdb.current_recording ()
+Access a currently running recording. Return a @code{gdb.Record}
+object on success. Return @code{None} if no recording is currently
+active.
+@end defun
+
+@defun gdb.stop_recording ()
+Stop the current recording. Throw an exception if no recording is
+currently active. All record objects become invalid after this call.
+@end defun
+
+A @code{gdb.Record} object has the following attributes:
+
+@defvar Record.method
+A string with the current recording method, e.g.@: @code{full} or
+@code{btrace}.
+@end defvar
+
+@defvar Record.format
+A string with the current recording format, e.g.@: @code{bt}, @code{pts} or
+@code{None}.
+@end defvar
+
+@defvar Record.begin
+A method specific instruction object representing the first instruction
+in this recording.
+@end defvar
+
+@defvar Record.end
+A method specific instruction object representing the current
+instruction, that is not actually part of the recording.
+@end defvar
+
+@defvar Record.replay_position
+The instruction representing the current replay position. If there is
+no replay active, this will be @code{None}.
+@end defvar
+
+@defvar Record.instruction_history
+A list with all recorded instructions.
+@end defvar
+
+@defvar Record.function_call_history
+A list with all recorded function call segments.
+@end defvar
+
+A @code{gdb.Record} object has the following methods:
+
+@defun Record.goto (instruction)
+Move the replay position to the given @var{instruction}.
+@end defun
+
+The common @code{gdb.Instruction} class that recording method specific
+instruction objects inherit from, has the following attributes:
+
+@defvar Instruction.pc
+An integer representing this instruction's address.
+@end defvar
+
+@defvar Instruction.data
+A buffer with the raw instruction data. In Python 3, the return value is a
+@code{memoryview} object.
+@end defvar
+
+@defvar Instruction.decoded
+A human readable string with the disassembled instruction.
+@end defvar
+
+@defvar Instruction.size
+The size of the instruction in bytes.
+@end defvar
+
+Additionally @code{gdb.RecordInstruction} has the following attributes:
+
+@defvar RecordInstruction.number
+An integer identifying this instruction. @code{number} corresponds to
+the numbers seen in @code{record instruction-history}
+(@pxref{Process Record and Replay}).
+@end defvar
+
+@defvar RecordInstruction.sal
+A @code{gdb.Symtab_and_line} object representing the associated symtab
+and line of this instruction. May be @code{None} if no debug information is
+available.
+@end defvar
+
+@defvar RecordInstruction.is_speculative
+A boolean indicating whether the instruction was executed speculatively.
+@end defvar
+
+If an error occured during recording or decoding a recording, this error is
+represented by a @code{gdb.RecordGap} object in the instruction list. It has
+the following attributes:
+
+@defvar RecordGap.number
+An integer identifying this gap. @code{number} corresponds to the numbers seen
+in @code{record instruction-history} (@pxref{Process Record and Replay}).
+@end defvar
+
+@defvar RecordGap.error_code
+A numerical representation of the reason for the gap. The value is specific to
+the current recording method.
+@end defvar
+
+@defvar RecordGap.error_string
+A human readable string with the reason for the gap.
+@end defvar
+
+A @code{gdb.RecordFunctionSegment} object has the following attributes:
+
+@defvar RecordFunctionSegment.number
+An integer identifying this function segment. @code{number} corresponds to
+the numbers seen in @code{record function-call-history}
+(@pxref{Process Record and Replay}).
+@end defvar
+
+@defvar RecordFunctionSegment.symbol
+A @code{gdb.Symbol} object representing the associated symbol. May be
+@code{None} if no debug information is available.
+@end defvar
+
+@defvar RecordFunctionSegment.level
+An integer representing the function call's stack level. May be
+@code{None} if the function call is a gap.
+@end defvar
+
+@defvar RecordFunctionSegment.instructions
+A list of @code{gdb.RecordInstruction} or @code{gdb.RecordGap} objects
+associated with this function call.
+@end defvar
+
+@defvar RecordFunctionSegment.up
+A @code{gdb.RecordFunctionSegment} object representing the caller's
+function segment. If the call has not been recorded, this will be the
+function segment to which control returns. If neither the call nor the
+return have been recorded, this will be @code{None}.
+@end defvar
+
+@defvar RecordFunctionSegment.prev
+A @code{gdb.RecordFunctionSegment} object representing the previous
+segment of this function call. May be @code{None}.
+@end defvar
+
+@defvar RecordFunctionSegment.next
+A @code{gdb.RecordFunctionSegment} object representing the next segment of
+this function call. May be @code{None}.
+@end defvar
+
+The following example demonstrates the usage of these objects and
+functions to create a function that will rewind a record to the last
+time a function in a different file was executed. This would typically
+be used to track the execution of user provided callback functions in a
+library which typically are not visible in a back trace.
+
+@smallexample
+def bringback ():
+ rec = gdb.current_recording ()
+ if not rec:
+ return
+
+ insn = rec.instruction_history
+ if len (insn) == 0:
+ return
+
+ try:
+ position = insn.index (rec.replay_position)
+ except:
+ position = -1
+ try:
+ filename = insn[position].sal.symtab.fullname ()
+ except:
+ filename = None
+
+ for i in reversed (insn[:position]):
+ try:
+ current = i.sal.symtab.fullname ()
+ except:
+ current = None
+
+ if filename == current:
+ continue
+
+ rec.goto (i)
+ return
+@end smallexample
+
+Another possible application is to write a function that counts the
+number of code executions in a given line range. This line range can
+contain parts of functions or span across several functions and is not
+limited to be contiguous.
+
+@smallexample
+def countrange (filename, linerange):
+ count = 0
+
+ def filter_only (file_name):
+ for call in gdb.current_recording ().function_call_history:
+ try:
+ if file_name in call.symbol.symtab.fullname ():
+ yield call
+ except:
+ pass
+
+ for c in filter_only (filename):
+ for i in c.instructions:
+ try:
+ if i.sal.line in linerange:
+ count += 1
+ break;
+ except:
+ pass
+
+ return count
+@end smallexample
+
@node Commands In Python
@subsubsection Commands In Python
attribute. @value{GDBN} does validation when assignments are made.
@end defvar
-There are two methods that should be implemented in any
-@code{Parameter} class. These are:
+There are two methods that may be implemented in any @code{Parameter}
+class. These are:
@defun Parameter.get_set_string (self)
-@value{GDBN} will call this method when a @var{parameter}'s value has
-been changed via the @code{set} API (for example, @kbd{set foo off}).
-The @code{value} attribute has already been populated with the new
-value and may be used in output. This method must return a string.
+If this method exists, @value{GDBN} will call it when a
+@var{parameter}'s value has been changed via the @code{set} API (for
+example, @kbd{set foo off}). The @code{value} attribute has already
+been populated with the new value and may be used in output. This
+method must return a string. If the returned string is not empty,
+@value{GDBN} will present it to the user.
+
+If this method raises the @code{gdb.GdbError} exception
+(@pxref{Exception Handling}), then @value{GDBN} will print the
+exception's string and the @code{set} command will fail. Note,
+however, that the @code{value} attribute will not be reset in this
+case. So, if your parameter must validate values, it should store the
+old value internally and reset the exposed value, like so:
+
+@smallexample
+class ExampleParam (gdb.Parameter):
+ def __init__ (self, name):
+ super (ExampleParam, self).__init__ (name,
+ gdb.COMMAND_DATA,
+ gdb.PARAM_BOOLEAN)
+ self.value = True
+ self.saved_value = True
+ def validate(self):
+ return False
+ def get_set_string (self):
+ if not self.validate():
+ self.value = self.saved_value
+ raise gdb.GdbError('Failed to validate')
+ self.saved_value = self.value
+@end smallexample
@end defun
@defun Parameter.get_show_string (self, svalue)
The value is an integer. This is like @code{PARAM_INTEGER}, except 0
is interpreted as itself.
+@findex PARAM_ZUINTEGER
+@findex gdb.PARAM_ZUINTEGER
+@item gdb.PARAM_ZUINTEGER
+The value is an unsigned integer. This is like @code{PARAM_INTEGER},
+except 0 is interpreted as itself, and the value cannot be negative.
+
+@findex PARAM_ZUINTEGER_UNLIMITED
+@findex gdb.PARAM_ZUINTEGER_UNLIMITED
+@item gdb.PARAM_ZUINTEGER_UNLIMITED
+The value is a signed integer. This is like @code{PARAM_ZUINTEGER},
+except the special value -1 should be interpreted to mean
+``unlimited''. Other negative values are not allowed.
+
@findex PARAM_ENUM
@findex gdb.PARAM_ENUM
@item gdb.PARAM_ENUM
@findex gdb.current_progspace
@defun gdb.current_progspace ()
This function returns the program space of the currently selected inferior.
-@xref{Inferiors and Programs}.
+@xref{Inferiors and Programs}. This is identical to
+@code{gdb.selected_inferior().progspace} (@pxref{Inferiors In Python}) and is
+included for historical compatibility.
@end defun
@findex gdb.progspaces
objects. @xref{Frame Filter API}, for more information.
@end defvar
+A program space has the following methods:
+
+@findex Progspace.block_for_pc
+@defun Progspace.block_for_pc (pc)
+Return the innermost @code{gdb.Block} containing the given @var{pc}
+value. If the block cannot be found for the @var{pc} value specified,
+the function will return @code{None}.
+@end defun
+
+@findex Progspace.find_pc_line
+@defun Progspace.find_pc_line (pc)
+Return the @code{gdb.Symtab_and_line} object corresponding to the
+@var{pc} value. @xref{Symbol Tables In Python}. If an invalid value
+of @var{pc} is passed as an argument, then the @code{symtab} and
+@code{line} attributes of the returned @code{gdb.Symtab_and_line}
+object will be @code{None} and 0 respectively.
+@end defun
+
+@findex Progspace.is_valid
+@defun Progspace.is_valid ()
+Returns @code{True} if the @code{gdb.Progspace} object is valid,
+@code{False} if not. A @code{gdb.Progspace} object can become invalid
+if the program space file it refers to is not referenced by any
+inferior. All other @code{gdb.Progspace} methods will throw an
+exception if it is invalid at the time the method is called.
+@end defun
+
+@findex Progspace.objfiles
+@defun Progspace.objfiles ()
+Return a sequence of all the objfiles referenced by this program
+space. @xref{Objfiles In Python}.
+@end defun
+
+@findex Progspace.solib_name
+@defun Progspace.solib_name (address)
+Return the name of the shared library holding the given @var{address}
+as a string, or @code{None}.
+@end defun
+
One may add arbitrary attributes to @code{gdb.Progspace} objects
in the usual Python way.
This is useful if, for example, one needs to do some extra record keeping
@findex gdb.objfiles
@defun gdb.objfiles ()
-Return a sequence of all the objfiles current known to @value{GDBN}.
-@xref{Objfiles In Python}.
+Return a sequence of objfiles referenced by the current program space.
+@xref{Objfiles In Python}, and @ref{Progspaces In Python}. This is identical
+to @code{gdb.selected_inferior().progspace.objfiles()} and is included for
+historical compatibility.
@end defun
@findex gdb.lookup_objfile
This is supported only on some operating systems, notably those which use
the ELF format for binary files and the @sc{gnu} Binutils. For more details
about this feature, see the description of the @option{--build-id}
-command-line option in @ref{Options, , Command Line Options, ld.info,
+command-line option in @ref{Options, , Command Line Options, ld,
The GNU Linker}.
@end defun
This is supported only on some operating systems, notably those which use
the ELF format for binary files and the @sc{gnu} Binutils. For more details
about this feature, see the description of the @option{--build-id}
-command-line option in @ref{Options, , Command Line Options, ld.info,
+command-line option in @ref{Options, , Command Line Options, ld,
The GNU Linker}.
@end defvar
@end defun
@node Frames In Python
-@subsubsection Accessing inferior stack frames from Python.
+@subsubsection Accessing inferior stack frames from Python
@cindex frames in python
When the debugged program stops, @value{GDBN} is able to analyze its call
@end defun
@defun Frame.block ()
-Return the frame's code block. @xref{Blocks In Python}.
+Return the frame's code block. @xref{Blocks In Python}. If the frame
+does not have a block -- for example, if there is no debugging
+information for the code in question -- then this will throw an
+exception.
@end defun
@defun Frame.function ()
@end defun
@node Blocks In Python
-@subsubsection Accessing blocks from Python.
+@subsubsection Accessing blocks from Python
@cindex blocks in python
@tindex gdb.Block
@defun gdb.block_for_pc (pc)
Return the innermost @code{gdb.Block} containing the given @var{pc}
value. If the block cannot be found for the @var{pc} value specified,
-the function will return @code{None}.
+the function will return @code{None}. This is identical to
+@code{gdb.current_progspace().block_for_pc(pc)} and is included for
+historical compatibility.
@end defun
A @code{gdb.Block} object has the following methods:
@end defvar
@defvar Block.end
-The end address of the block. This attribute is not writable.
+One past the last address that appears in the block. This attribute
+is not writable.
@end defvar
@defvar Block.function
@end defvar
@node Symbols In Python
-@subsubsection Python representation of Symbols.
+@subsubsection Python representation of Symbols
@cindex symbols in python
@tindex gdb.Symbol
contains everything minus functions and types.
@vindex SYMBOL_FUNCTIONS_DOMAIN
-@item gdb.SYMBOL_FUNCTION_DOMAIN
+@item gdb.SYMBOL_FUNCTIONS_DOMAIN
This domain contains all functions.
@vindex SYMBOL_TYPES_DOMAIN
@end vtable
@node Symbol Tables In Python
-@subsubsection Symbol table representation in Python.
+@subsubsection Symbol table representation in Python
@cindex symbol tables in python
@tindex gdb.Symtab
Python code can manipulate breakpoints via the @code{gdb.Breakpoint}
class.
-@defun Breakpoint.__init__ (spec @r{[}, type @r{[}, wp_class @r{[},internal @r{[},temporary@r{]]]]})
-Create a new breakpoint according to @var{spec}, which is a string
-naming the location of the breakpoint, or an expression that defines a
-watchpoint. The contents can be any location recognized by the
-@code{break} command, or in the case of a watchpoint, by the
-@code{watch} command. The optional @var{type} denotes the breakpoint
-to create from the types defined later in this chapter. This argument
-can be either @code{gdb.BP_BREAKPOINT} or @code{gdb.BP_WATCHPOINT}; it
-defaults to @code{gdb.BP_BREAKPOINT}. The optional @var{internal}
-argument allows the breakpoint to become invisible to the user. The
-breakpoint will neither be reported when created, nor will it be
-listed in the output from @code{info breakpoints} (but will be listed
-with the @code{maint info breakpoints} command). The optional
-@var{temporary} argument makes the breakpoint a temporary breakpoint.
-Temporary breakpoints are deleted after they have been hit. Any
-further access to the Python breakpoint after it has been hit will
-result in a runtime error (as that breakpoint has now been
-automatically deleted). The optional @var{wp_class} argument defines
-the class of watchpoint to create, if @var{type} is
-@code{gdb.BP_WATCHPOINT}. If a watchpoint class is not provided, it
-is assumed to be a @code{gdb.WP_WRITE} class.
+A breakpoint can be created using one of the two forms of the
+@code{gdb.Breakpoint} constructor. The first one accepts a string
+like one would pass to the @code{break}
+(@pxref{Set Breaks,,Setting Breakpoints}) and @code{watch}
+(@pxref{Set Watchpoints, , Setting Watchpoints}) commands, and can be used to
+create both breakpoints and watchpoints. The second accepts separate Python
+arguments similar to @ref{Explicit Locations}, and can only be used to create
+breakpoints.
+
+@defun Breakpoint.__init__ (spec @r{[}, type @r{][}, wp_class @r{][}, internal @r{][}, temporary @r{][}, qualified @r{]})
+Create a new breakpoint according to @var{spec}, which is a string naming the
+location of a breakpoint, or an expression that defines a watchpoint. The
+string should describe a location in a format recognized by the @code{break}
+command (@pxref{Set Breaks,,Setting Breakpoints}) or, in the case of a
+watchpoint, by the @code{watch} command
+(@pxref{Set Watchpoints, , Setting Watchpoints}).
+
+The optional @var{type} argument specifies the type of the breakpoint to create,
+as defined below.
+
+The optional @var{wp_class} argument defines the class of watchpoint to create,
+if @var{type} is @code{gdb.BP_WATCHPOINT}. If @var{wp_class} is omitted, it
+defaults to @code{gdb.WP_WRITE}.
+
+The optional @var{internal} argument allows the breakpoint to become invisible
+to the user. The breakpoint will neither be reported when created, nor will it
+be listed in the output from @code{info breakpoints} (but will be listed with
+the @code{maint info breakpoints} command).
+
+The optional @var{temporary} argument makes the breakpoint a temporary
+breakpoint. Temporary breakpoints are deleted after they have been hit. Any
+further access to the Python breakpoint after it has been hit will result in a
+runtime error (as that breakpoint has now been automatically deleted).
+
+The optional @var{qualified} argument is a boolean that allows interpreting
+the function passed in @code{spec} as a fully-qualified name. It is equivalent
+to @code{break}'s @code{-qualified} flag (@pxref{Linespec Locations} and
+@ref{Explicit Locations}).
+
+@end defun
+
+@defun Breakpoint.__init__ (@r{[} source @r{][}, function @r{][}, label @r{][}, line @r{]}, @r{][} internal @r{][}, temporary @r{][}, qualified @r{]})
+This second form of creating a new breakpoint specifies the explicit
+location (@pxref{Explicit Locations}) using keywords. The new breakpoint will
+be created in the specified source file @var{source}, at the specified
+@var{function}, @var{label} and @var{line}.
+
+@var{internal}, @var{temporary} and @var{qualified} have the same usage as
+explained previously.
@end defun
The available types are represented by constants defined in the @code{gdb}
This attribute holds the commands attached to the breakpoint. If
there are commands, this attribute's value is a string holding all the
commands, separated by newlines. If there are no commands, this
-attribute is @code{None}. This attribute is not writable.
+attribute is @code{None}. This attribute is writable.
@end defvar
@node Finish Breakpoints in Python
@end defvar
@node Lazy Strings In Python
-@subsubsection Python representation of lazy strings.
+@subsubsection Python representation of lazy strings
@cindex lazy strings in python
@tindex gdb.LazyString
@defvar LazyString.type
This attribute holds the type that is represented by the lazy string's
-type. For a lazy string this will always be a pointer type. To
+type. For a lazy string this is a pointer or array type. To
resolve this to the lazy string's character type, use the type's
@code{target} method. @xref{Types In Python}. This attribute is not
writable.