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.gdbinit
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.gdbinit
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python
# GDB dashboard - Modular visual interface for GDB in Python.
#
# https://github.com/cyrus-and/gdb-dashboard
import ast
import math
import os
import re
import struct
import traceback
# Common attributes ------------------------------------------------------------
class R():
@staticmethod
def attributes():
return {
# miscellaneous
'ansi': {
'doc': 'Control the ANSI output of the dashboard.',
'default': True,
'type': bool
},
'syntax_highlighting': {
'doc': '''Pygments style to use for syntax highlighting.
Using an empty string (or a name not in the list) disables this feature. The
list of all the available styles can be obtained with (from GDB itself):
python from pygments.styles import *
python for style in get_all_styles(): print(style)''',
'default': 'monokai'
},
# values formatting
'compact_values': {
'doc': 'Display complex objects in a single line.',
'default': True,
'type': bool
},
'max_value_length': {
'doc': 'Maximum length of displayed values before truncation.',
'default': 100,
'type': int
},
'value_truncation_string': {
'doc': 'String to use to mark value truncation.',
'default': '…',
},
'dereference': {
'doc': 'Annotate pointers with the pointed value.',
'default': True,
'type': bool
},
# prompt
'prompt': {
'doc': '''GDB prompt.
This value is used as a Python format string where `{status}` is expanded with
the substitution of either `prompt_running` or `prompt_not_running` attributes,
according to the target program status. The resulting string must be a valid GDB
prompt, see the command `python print(gdb.prompt.prompt_help())`''',
'default': '{status}'
},
'prompt_running': {
'doc': '''Define the value of `{status}` when the target program is running.
See the `prompt` attribute. This value is used as a Python format string where
`{pid}` is expanded with the process identifier of the target program.''',
'default': '\[\e[1;35m\]>>>\[\e[0m\]'
},
'prompt_not_running': {
'doc': '''Define the value of `{status}` when the target program is running.
See the `prompt` attribute. This value is used as a Python format string.''',
'default': '\[\e[1;30m\]>>>\[\e[0m\]'
},
# divider
'divider_fill_char_primary': {
'doc': 'Filler around the label for primary dividers',
'default': '─'
},
'divider_fill_char_secondary': {
'doc': 'Filler around the label for secondary dividers',
'default': '─'
},
'divider_fill_style_primary': {
'doc': 'Style for `divider_fill_char_primary`',
'default': '36'
},
'divider_fill_style_secondary': {
'doc': 'Style for `divider_fill_char_secondary`',
'default': '1;30'
},
'divider_label_style_on_primary': {
'doc': 'Label style for non-empty primary dividers',
'default': '1;33'
},
'divider_label_style_on_secondary': {
'doc': 'Label style for non-empty secondary dividers',
'default': '1;37'
},
'divider_label_style_off_primary': {
'doc': 'Label style for empty primary dividers',
'default': '33'
},
'divider_label_style_off_secondary': {
'doc': 'Label style for empty secondary dividers',
'default': '1;30'
},
'divider_label_skip': {
'doc': 'Gap between the aligning border and the label.',
'default': 3,
'type': int,
'check': check_ge_zero
},
'divider_label_margin': {
'doc': 'Number of spaces around the label.',
'default': 1,
'type': int,
'check': check_ge_zero
},
'divider_label_align_right': {
'doc': 'Label alignment flag.',
'default': False,
'type': bool
},
# common styles
'style_selected_1': {
'default': '1;32'
},
'style_selected_2': {
'default': '32'
},
'style_low': {
'default': '1;30'
},
'style_high': {
'default': '1;37'
},
'style_error': {
'default': '31'
},
'style_critical': {
'default': '0;41'
}
}
# Common -----------------------------------------------------------------------
class Beautifier():
def __init__(self, hint, tab_size=4):
self.tab_spaces = ' ' * tab_size
self.active = False
if not R.ansi or not R.syntax_highlighting:
return
# attempt to set up Pygments
try:
import pygments
from pygments.lexers import GasLexer, NasmLexer
from pygments.formatters import Terminal256Formatter
if hint == 'att':
self.lexer = GasLexer()
elif hint == 'intel':
self.lexer = NasmLexer()
else:
from pygments.lexers import get_lexer_for_filename
self.lexer = get_lexer_for_filename(hint, stripnl=False)
self.formatter = Terminal256Formatter(style=R.syntax_highlighting)
self.active = True
except ImportError:
# Pygments not available
pass
except pygments.util.ClassNotFound:
# no lexer for this file or invalid style
pass
def process(self, source):
# convert tabs anyway
source = source.replace('\t', self.tab_spaces)
if self.active:
import pygments
source = pygments.highlight(source, self.lexer, self.formatter)
return source.rstrip('\n')
def run(command):
return gdb.execute(command, to_string=True)
def ansi(string, style):
if R.ansi:
return '\x1b[{}m{}\x1b[0m'.format(style, string)
else:
return string
def divider(width, label='', primary=False, active=True):
if primary:
divider_fill_style = R.divider_fill_style_primary
divider_fill_char = R.divider_fill_char_primary
divider_label_style_on = R.divider_label_style_on_primary
divider_label_style_off = R.divider_label_style_off_primary
else:
divider_fill_style = R.divider_fill_style_secondary
divider_fill_char = R.divider_fill_char_secondary
divider_label_style_on = R.divider_label_style_on_secondary
divider_label_style_off = R.divider_label_style_off_secondary
if label:
if active:
divider_label_style = divider_label_style_on
else:
divider_label_style = divider_label_style_off
skip = R.divider_label_skip
margin = R.divider_label_margin
before = ansi(divider_fill_char * skip, divider_fill_style)
middle = ansi(label, divider_label_style)
after_length = width - len(label) - skip - 2 * margin
after = ansi(divider_fill_char * after_length, divider_fill_style)
if R.divider_label_align_right:
before, after = after, before
return ''.join([before, ' ' * margin, middle, ' ' * margin, after])
else:
return ansi(divider_fill_char * width, divider_fill_style)
def check_gt_zero(x):
return x > 0
def check_ge_zero(x):
return x >= 0
def to_unsigned(value, size=8):
# values from GDB can be used transparently but are not suitable for
# being printed as unsigned integers, so a conversion is needed
mask = (2 ** (size * 8)) - 1
return int(value.cast(gdb.Value(mask).type)) & mask
def to_string(value):
# attempt to convert an inferior value to string; OK when (Python 3 ||
# simple ASCII); otherwise (Python 2.7 && not ASCII) encode the string as
# utf8
try:
value_string = str(value)
except UnicodeEncodeError:
value_string = unicode(value).encode('utf8')
except gdb.error as e:
value_string = ansi(e, R.style_error)
return value_string
def format_address(address):
pointer_size = gdb.parse_and_eval('$pc').type.sizeof
return ('0x{{:0{}x}}').format(pointer_size * 2).format(address)
def format_value(value, compact=None):
# format references as referenced values
# (TYPE_CODE_RVALUE_REF is not supported by old GDB)
if value.type.code in (getattr(gdb, 'TYPE_CODE_REF', None),
getattr(gdb, 'TYPE_CODE_RVALUE_REF', None)):
value = value.referenced_value()
# format the value
out = to_string(value)
# dereference up to the actual value if requested
if R.dereference and value.type.code == gdb.TYPE_CODE_PTR:
while value.type.code == gdb.TYPE_CODE_PTR:
try:
value = value.dereference()
except gdb.error as e:
break
else:
formatted = to_string(value)
out += '{} {}'.format(ansi(':', R.style_low), formatted)
# compact the value
if compact is not None and compact or R.compact_values:
out = re.sub(r'$\s*', '', out, flags=re.MULTILINE)
# truncate the value
if R.max_value_length > 0 and len(out) > R.max_value_length:
out = out[0:R.max_value_length] + ansi(R.value_truncation_string, R.style_critical)
return out
# XXX parsing the output of `info breakpoints` is apparently the best option
# right now, see: https://sourceware.org/bugzilla/show_bug.cgi?id=18385
def fetch_breakpoints(watchpoints=False, pending=False):
# fetch breakpoints addresses
addresses = dict()
for line in run('info breakpoints').split('\n'):
# just keep numbered lines
if not line or not line[0].isdigit():
continue
# extract breakpoint number and address (if regular non-pending breakpoint)
try:
fields = line.split()
number = int(fields[0], 16)
address = int(fields[4], 16) if len(fields) >= 5 and fields[1] == 'breakpoint' else None
except ValueError:
continue
addresses[number] = address
# fetch breakpoints from the API and complement with address and source
# information
breakpoints = []
for gdb_breakpoint in gdb.breakpoints():
if not pending and gdb_breakpoint.pending:
continue
if not watchpoints and gdb_breakpoint.type != gdb.BP_BREAKPOINT:
continue
# add useful fields to the object
breakpoint = dict()
breakpoint['number'] = gdb_breakpoint.number
breakpoint['type'] = gdb_breakpoint.type
breakpoint['enabled'] = gdb_breakpoint.enabled
breakpoint['location'] = gdb_breakpoint.location
breakpoint['expression'] = gdb_breakpoint.expression
breakpoint['condition'] = gdb_breakpoint.condition
breakpoint['temporary'] = gdb_breakpoint.temporary
breakpoint['hit_count'] = gdb_breakpoint.hit_count
breakpoint['pending'] = gdb_breakpoint.pending
# add address and source information
address = addresses.get(gdb_breakpoint.number)
if address:
sal = gdb.find_pc_line(address)
breakpoint['address'] = address
breakpoint['file_name'] = sal.symtab.filename if sal.symtab else None
breakpoint['file_line'] = sal.line
breakpoints.append(breakpoint)
return breakpoints
# Dashboard --------------------------------------------------------------------
class Dashboard(gdb.Command):
'''Redisplay the dashboard.'''
def __init__(self):
gdb.Command.__init__(self, 'dashboard', gdb.COMMAND_USER, gdb.COMPLETE_NONE, True)
# setup subcommands
Dashboard.ConfigurationCommand(self)
Dashboard.OutputCommand(self)
Dashboard.EnabledCommand(self)
Dashboard.LayoutCommand(self)
# setup style commands
Dashboard.StyleCommand(self, 'dashboard', R, R.attributes())
# main terminal
self.output = None
# used to inhibit redisplays during init parsing
self.inhibited = None
# enabled by default
self.enabled = None
self.enable()
def on_continue(self, _):
# try to contain the GDB messages in a specified area unless the
# dashboard is printed to a separate file (dashboard -output ...)
if self.is_running() and not self.output:
width, _ = Dashboard.get_term_size()
gdb.write(Dashboard.clear_screen())
gdb.write(divider(width, 'Output/messages', True))
gdb.write('\n')
gdb.flush()
def on_stop(self, _):
if self.is_running():
self.render(clear_screen=False)
def on_exit(self, _):
if not self.is_running():
return
# collect all the outputs
outputs = set()
outputs.add(self.output)
outputs.update(module.output for module in self.modules)
outputs.remove(None)
# reset the terminal status
for output in outputs:
try:
with open(output, 'w') as fs:
fs.write(Dashboard.reset_terminal())
except:
# skip cleanup for invalid outputs
pass
def enable(self):
if self.enabled:
return
self.enabled = True
# setup events
gdb.events.cont.connect(self.on_continue)
gdb.events.stop.connect(self.on_stop)
gdb.events.exited.connect(self.on_exit)
def disable(self):
if not self.enabled:
return
self.enabled = False
# setup events
gdb.events.cont.disconnect(self.on_continue)
gdb.events.stop.disconnect(self.on_stop)
gdb.events.exited.disconnect(self.on_exit)
def load_modules(self, modules):
self.modules = []
for module in modules:
info = Dashboard.ModuleInfo(self, module)
self.modules.append(info)
def redisplay(self, style_changed=False):
# manually redisplay the dashboard
if self.is_running() and not self.inhibited:
self.render(True, style_changed)
def inferior_pid(self):
return gdb.selected_inferior().pid
def is_running(self):
return self.inferior_pid() != 0
def render(self, clear_screen, style_changed=False):
# fetch module content and info
all_disabled = True
display_map = dict()
for module in self.modules:
# fall back to the global value
output = module.output or self.output
# add the instance or None if disabled
if module.enabled:
all_disabled = False
instance = module.instance
else:
instance = None
display_map.setdefault(output, []).append(instance)
# process each display info
for output, instances in display_map.items():
try:
buf = ''
# use GDB stream by default
fs = None
if output:
fs = open(output, 'w')
fd = fs.fileno()
fs.write(Dashboard.setup_terminal())
else:
fs = gdb
fd = 1 # stdout
# get the terminal size (default main terminal if either the
# output is not a file)
try:
width, height = Dashboard.get_term_size(fd)
except:
width, height = Dashboard.get_term_size()
# clear the "screen" if requested for the main terminal,
# auxiliary terminals are always cleared
if fs is not gdb or clear_screen:
buf += Dashboard.clear_screen()
# show message if all the modules in this output are disabled
if not any(instances):
# write the error message
buf += divider(width, 'Warning', True)
buf += '\n'
if self.modules:
buf += 'No module to display (see `dashboard -layout`)'
else:
buf += 'No module loaded'
# write the terminator only in the main terminal
buf += '\n'
if fs is gdb:
buf += divider(width, primary=True)
buf += '\n'
fs.write(buf)
continue
# process all the modules for that output
for n, instance in enumerate(instances, 1):
# skip disabled modules
if not instance:
continue
try:
# ask the module to generate the content
lines = instance.lines(width, height, style_changed)
except Exception as e:
# allow to continue on exceptions in modules
stacktrace = traceback.format_exc().strip()
lines = [ansi(stacktrace, R.style_error)]
# create the divider accordingly
div = divider(width, instance.label(), True, lines)
# write the data
buf += '\n'.join([div] + lines)
# write the newline for all but last unless main terminal
if n != len(instances) or fs is gdb:
buf += '\n'
# write the final newline and the terminator only if it is the
# main terminal to allow the prompt to display correctly (unless
# there are no modules to display)
if fs is gdb and not all_disabled:
buf += divider(width, primary=True)
buf += '\n'
fs.write(buf)
except Exception as e:
cause = traceback.format_exc().strip()
Dashboard.err('Cannot write the dashboard\n{}'.format(cause))
finally:
# don't close gdb stream
if fs and fs is not gdb:
fs.close()
# Utility methods --------------------------------------------------------------
@staticmethod
def start():
# initialize the dashboard
dashboard = Dashboard()
Dashboard.set_custom_prompt(dashboard)
# parse Python inits, load modules then parse GDB inits
dashboard.inhibited = True
Dashboard.parse_inits(True)
modules = Dashboard.get_modules()
dashboard.load_modules(modules)
Dashboard.parse_inits(False)
dashboard.inhibited = False
# GDB overrides
run('set pagination off')
# display if possible (program running and not explicitly disabled by
# some configuration file)
if dashboard.enabled:
dashboard.redisplay()
@staticmethod
def get_term_size(fd=1): # defaults to the main terminal
if sys.platform == 'win32':
try:
import curses
# XXX always neglects the fd parameter
height, width = curses.initscr().getmaxyx()
curses.endwin()
return int(width), int(height)
except ImportError:
return 80, 24 # hardcoded fallback value
else:
import termios
import fcntl
# first 2 shorts (4 byte) of struct winsize
raw = fcntl.ioctl(fd, termios.TIOCGWINSZ, ' ' * 4)
height, width = struct.unpack('hh', raw)
return int(width), int(height)
@staticmethod
def set_custom_prompt(dashboard):
def custom_prompt(_):
# render thread status indicator
if dashboard.is_running():
pid = dashboard.inferior_pid()
status = R.prompt_running.format(pid=pid)
else:
status = R.prompt_not_running
# build prompt
prompt = R.prompt.format(status=status)
prompt = gdb.prompt.substitute_prompt(prompt)
return prompt + ' ' # force trailing space
gdb.prompt_hook = custom_prompt
@staticmethod
def parse_inits(python):
for root, dirs, files in os.walk(os.path.expanduser('~/.gdbinit.d/')):
dirs.sort()
for init in sorted(files):
path = os.path.join(root, init)
_, ext = os.path.splitext(path)
# either load Python files or GDB
if python == (ext == '.py'):
gdb.execute('source ' + path)
@staticmethod
def get_modules():
# scan the scope for modules
modules = []
for name in globals():
obj = globals()[name]
try:
if issubclass(obj, Dashboard.Module):
modules.append(obj)
except TypeError:
continue
# sort modules alphabetically
modules.sort(key=lambda x: x.__name__)
return modules
@staticmethod
def create_command(name, invoke, doc, is_prefix, complete=None):
Class = type('', (gdb.Command,), {'invoke': invoke, '__doc__': doc})
Class(name, gdb.COMMAND_USER, complete or gdb.COMPLETE_NONE, is_prefix)
@staticmethod
def err(string):
print(ansi(string, R.style_error))
@staticmethod
def complete(word, candidates):
return filter(lambda candidate: candidate.startswith(word), candidates)
@staticmethod
def parse_arg(arg):
# encode unicode GDB command arguments as utf8 in Python 2.7
if type(arg) is not str:
arg = arg.encode('utf8')
return arg
@staticmethod
def clear_screen():
# ANSI: move the cursor to top-left corner and clear the screen
return '\x1b[H\x1b[J'
@staticmethod
def setup_terminal():
# ANSI: enable alternative screen buffer and hide cursor
return '\x1b[?1049h\x1b[?25l'
@staticmethod
def reset_terminal():
# ANSI: disable alternative screen buffer and show cursor
return '\x1b[?1049l\x1b[?25h'
# Module descriptor ------------------------------------------------------------
class ModuleInfo:
def __init__(self, dashboard, module):
self.name = module.__name__.lower() # from class to module name
self.enabled = True
self.output = None # value from the dashboard by default
self.instance = module()
self.doc = self.instance.__doc__ or '(no documentation)'
self.prefix = 'dashboard {}'.format(self.name)
# add GDB commands
self.add_main_command(dashboard)
self.add_output_command(dashboard)
self.add_style_command(dashboard)
self.add_subcommands(dashboard)
def add_main_command(self, dashboard):
module = self
def invoke(self, arg, from_tty, info=self):
arg = Dashboard.parse_arg(arg)
if arg == '':
info.enabled ^= True
if dashboard.is_running():
dashboard.redisplay()
else:
status = 'enabled' if info.enabled else 'disabled'
print('{} module {}'.format(module.name, status))
else:
Dashboard.err('Wrong argument "{}"'.format(arg))
doc_brief = 'Configure the {} module, with no arguments toggles its visibility.'.format(self.name)
doc = '{}\n\n{}'.format(doc_brief, self.doc)
Dashboard.create_command(self.prefix, invoke, doc, True)
def add_output_command(self, dashboard):
Dashboard.OutputCommand(dashboard, self.prefix, self)
def add_style_command(self, dashboard):
Dashboard.StyleCommand(dashboard, self.prefix, self.instance, self.instance.attributes())
def add_subcommands(self, dashboard):
for name, command in self.instance.commands().items():
self.add_subcommand(dashboard, name, command)
def add_subcommand(self, dashboard, name, command):
action = command['action']
doc = command['doc']
complete = command.get('complete')
def invoke(self, arg, from_tty, info=self):
arg = Dashboard.parse_arg(arg)
if info.enabled:
try:
action(arg)
except Exception as e:
Dashboard.err(e)
return
# don't catch redisplay errors
dashboard.redisplay()
else:
Dashboard.err('Module disabled')
prefix = '{} {}'.format(self.prefix, name)
Dashboard.create_command(prefix, invoke, doc, False, complete)
# GDB commands -----------------------------------------------------------------
# handler for the `dashboard` command itself
def invoke(self, arg, from_tty):
arg = Dashboard.parse_arg(arg)
# show messages for checks in redisplay
if arg != '':
Dashboard.err('Wrong argument "{}"'.format(arg))
elif not self.is_running():
Dashboard.err('Is the target program running?')
else:
self.redisplay()
class ConfigurationCommand(gdb.Command):
'''Dump or save the dashboard configuration.
With an optional argument the configuration will be written to the specified
file.
This command allows to configure the dashboard live then make the changes
permanent, for example:
dashboard -configuration ~/.gdbinit.d/init
At startup the `~/.gdbinit.d/` directory tree is walked and files are evaluated
in alphabetical order but giving priority to Python files. This is where user
configuration files must be placed.'''
def __init__(self, dashboard):
gdb.Command.__init__(self, 'dashboard -configuration',
gdb.COMMAND_USER, gdb.COMPLETE_FILENAME)
self.dashboard = dashboard
def invoke(self, arg, from_tty):
arg = Dashboard.parse_arg(arg)
if arg:
with open(os.path.expanduser(arg), 'w') as fs:
fs.write('# auto generated by GDB dashboard\n\n')
self.dump(fs)
self.dump(gdb)
def dump(self, fs):
# dump layout
self.dump_layout(fs)
# dump styles
self.dump_style(fs, R)
for module in self.dashboard.modules:
self.dump_style(fs, module.instance, module.prefix)
# dump outputs
self.dump_output(fs, self.dashboard)
for module in self.dashboard.modules:
self.dump_output(fs, module, module.prefix)
def dump_layout(self, fs):
layout = ['dashboard -layout']
for module in self.dashboard.modules:
mark = '' if module.enabled else '!'
layout.append('{}{}'.format(mark, module.name))
fs.write(' '.join(layout))
fs.write('\n')
def dump_style(self, fs, obj, prefix='dashboard'):
attributes = getattr(obj, 'attributes', lambda: dict())()
for name, attribute in attributes.items():
real_name = attribute.get('name', name)
default = attribute.get('default')
value = getattr(obj, real_name)
if value != default:
fs.write('{} -style {} {!r}\n'.format(prefix, name, value))
def dump_output(self, fs, obj, prefix='dashboard'):
output = getattr(obj, 'output')
if output:
fs.write('{} -output {}\n'.format(prefix, output))
class OutputCommand(gdb.Command):
'''Set the output file/TTY for the whole dashboard or single modules.
The dashboard/module will be written to the specified file, which will be
created if it does not exist. If the specified file identifies a terminal then
its geometry will be used, otherwise it falls back to the geometry of the main
GDB terminal.
When invoked without argument on the dashboard, the output/messages and modules
which do not specify an output themselves will be printed on standard output
(default).
When invoked without argument on a module, it will be printed where the
dashboard will be printed.
An overview of all the outputs can be obtained with the `dashboard -layout`
command.'''
def __init__(self, dashboard, prefix=None, obj=None):
if not prefix:
prefix = 'dashboard'
if not obj:
obj = dashboard
prefix = prefix + ' -output'
gdb.Command.__init__(self, prefix, gdb.COMMAND_USER, gdb.COMPLETE_FILENAME)
self.dashboard = dashboard
self.obj = obj # None means the dashboard itself
def invoke(self, arg, from_tty):
arg = Dashboard.parse_arg(arg)
# reset the terminal status
if self.obj.output:
try:
with open(self.obj.output, 'w') as fs:
fs.write(Dashboard.reset_terminal())
except:
# just do nothing if the file is not writable
pass
# set or open the output file
if arg == '':
self.obj.output = None
else:
self.obj.output = arg
# redisplay the dashboard in the new output
self.dashboard.redisplay()
class EnabledCommand(gdb.Command):
'''Enable or disable the dashboard.
The current status is printed if no argument is present.'''
def __init__(self, dashboard):
gdb.Command.__init__(self, 'dashboard -enabled', gdb.COMMAND_USER)
self.dashboard = dashboard
def invoke(self, arg, from_tty):
arg = Dashboard.parse_arg(arg)
if arg == '':
status = 'enabled' if self.dashboard.enabled else 'disabled'
print('The dashboard is {}'.format(status))
elif arg == 'on':
self.dashboard.enable()
self.dashboard.redisplay()
elif arg == 'off':
self.dashboard.disable()
else:
msg = 'Wrong argument "{}"; expecting "on" or "off"'
Dashboard.err(msg.format(arg))
def complete(self, text, word):
return Dashboard.complete(word, ['on', 'off'])
class LayoutCommand(gdb.Command):
'''Set or show the dashboard layout.
Accepts a space-separated list of directive. Each directive is in the form
"[!]<module>". Modules in the list are placed in the dashboard in the same order
as they appear and those prefixed by "!" are disabled by default. Omitted
modules are hidden and placed at the bottom in alphabetical order.
Without arguments the current layout is shown where the first line uses the same
form expected by the input while the remaining depict the current status of
output files.
Passing `!` as a single argument resets the dashboard original layout.'''
def __init__(self, dashboard):
gdb.Command.__init__(self, 'dashboard -layout', gdb.COMMAND_USER)
self.dashboard = dashboard
def invoke(self, arg, from_tty):
arg = Dashboard.parse_arg(arg)
directives = str(arg).split()
if directives:
# apply the layout
if directives == ['!']:
self.reset()
else:
if not self.layout(directives):
return # in case of errors
# redisplay or otherwise notify
if from_tty:
if self.dashboard.is_running():
self.dashboard.redisplay()
else:
self.show()
else:
self.show()
def reset(self):
modules = self.dashboard.modules
modules.sort(key=lambda module: module.name)
for module in modules:
module.enabled = True
def show(self):
global_str = 'Dashboard'
default = '(default TTY)'
max_name_len = max(len(module.name) for module in self.dashboard.modules)
max_name_len = max(max_name_len, len(global_str))
fmt = '{{}}{{:{}s}}{{}}'.format(max_name_len + 2)
print((fmt + '\n').format(' ', global_str, self.dashboard.output or default))
for module in self.dashboard.modules:
mark = ' ' if module.enabled else '!'
style = R.style_high if module.enabled else R.style_low
line = fmt.format(mark, module.name, module.output or default)
print(ansi(line, style))
def layout(self, directives):
modules = self.dashboard.modules
# parse and check directives
parsed_directives = []
selected_modules = set()
for directive in directives:
enabled = (directive[0] != '!')
name = directive[not enabled:]
if name in selected_modules:
Dashboard.err('Module "{}" already set'.format(name))
return False
if next((False for module in modules if module.name == name), True):
Dashboard.err('Cannot find module "{}"'.format(name))
return False
parsed_directives.append((name, enabled))
selected_modules.add(name)
# reset visibility
for module in modules:
module.enabled = False
# move and enable the selected modules on top
last = 0
for name, enabled in parsed_directives:
todo = enumerate(modules[last:], start=last)
index = next(index for index, module in todo if name == module.name)
modules[index].enabled = enabled
modules.insert(last, modules.pop(index))
last += 1
return True
def complete(self, text, word):
all_modules = (m.name for m in self.dashboard.modules)
return Dashboard.complete(word, all_modules)
class StyleCommand(gdb.Command):
'''Access the stylable attributes.
Without arguments print all the stylable attributes.
When only the name is specified show the current value.
With name and value set the stylable attribute. Values are parsed as Python
literals and converted to the proper type. '''
def __init__(self, dashboard, prefix, obj, attributes):
self.prefix = prefix + ' -style'
gdb.Command.__init__(self, self.prefix, gdb.COMMAND_USER, gdb.COMPLETE_NONE, True)
self.dashboard = dashboard
self.obj = obj
self.attributes = attributes
self.add_styles()
def add_styles(self):
this = self
for name, attribute in self.attributes.items():
# fetch fields
attr_name = attribute.get('name', name)
attr_type = attribute.get('type', str)
attr_check = attribute.get('check', lambda _: True)
attr_default = attribute['default']
# set the default value (coerced to the type)
value = attr_type(attr_default)
setattr(self.obj, attr_name, value)
# create the command
def invoke(self, arg, from_tty,
name=name,
attr_name=attr_name,
attr_type=attr_type,
attr_check=attr_check):
new_value = Dashboard.parse_arg(arg)
if new_value == '':
# print the current value
value = getattr(this.obj, attr_name)
print('{} = {!r}'.format(name, value))
else:
try:
# convert and check the new value
parsed = ast.literal_eval(new_value)
value = attr_type(parsed)
if not attr_check(value):
msg = 'Invalid value "{}" for "{}"'
raise Exception(msg.format(new_value, name))
except Exception as e:
Dashboard.err(e)
else:
# set and redisplay
setattr(this.obj, attr_name, value)
this.dashboard.redisplay(True)
prefix = self.prefix + ' ' + name
doc = attribute.get('doc', 'This style is self-documenting')
Dashboard.create_command(prefix, invoke, doc, False)
def invoke(self, arg, from_tty):
# an argument here means that the provided attribute is invalid
if arg:
Dashboard.err('Invalid argument "{}"'.format(arg))
return
# print all the pairs
for name, attribute in self.attributes.items():
attr_name = attribute.get('name', name)
value = getattr(self.obj, attr_name)
print('{} = {!r}'.format(name, value))
# Base module ------------------------------------------------------------------
# just a tag
class Module():
'''Base class for GDB dashboard modules.
Modules are instantiated once at initialization time and kept during the
whole the GDB session.
The name of a module is automatically obtained by the class name.
Optionally, a module may include a description which will appear in the
GDB help system by specifying a Python docstring for the class. By
convention the first line should contain a brief description.'''
def label(self):