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#!/usr/bin/env python
from gtk import *
import sys
import tdb
import string
import re
#
# The gdbtool user interface. The design here is to keep all the gtk stuff
# separate from the tdb stuff so all the user interface magic is stored
# here.
#
class gtdbtool:
# Initialise the user interface. A dictionary argument is passed
# in which is the dictionary to display keys and values on the left
# hand and right hand side of the user interface respectively."""
def __init__(self, dict):
self.dict = dict
self.value_display_fns = []
self.filter_regex = ""
# Create and configure user interface widgets. A string argument is
# used to set the window title.
def build_ui(self, title):
win = GtkWindow()
win.set_title(title)
win.connect("destroy", mainquit)
hpaned = GtkHPaned()
win.add(hpaned)
hpaned.set_border_width(5)
hpaned.show()
vbox = GtkVBox()
hpaned.add1(vbox)
vbox.show()
scrolled_win = GtkScrolledWindow()
scrolled_win.set_policy(POLICY_AUTOMATIC, POLICY_AUTOMATIC)
vbox.pack_start(scrolled_win)
scrolled_win.show()
hbox = GtkHBox()
vbox.pack_end(hbox, expand = 0, padding = 5)
hbox.show()
label = GtkLabel("Filter:")
hbox.pack_start(label, expand = 0, padding = 5)
label.show()
self.entry = GtkEntry()
hbox.pack_end(self.entry, padding = 5)
self.entry.show()
self.entry.connect("activate", self.filter_activated)
self.list = GtkList()
self.list.set_selection_mode(SELECTION_MULTIPLE)
self.list.set_selection_mode(SELECTION_BROWSE)
scrolled_win.add_with_viewport(self.list)
self.list.show()
self.list.connect("select_child", self.key_selected)
scrolled_win = GtkScrolledWindow()
scrolled_win.set_policy(POLICY_AUTOMATIC, POLICY_AUTOMATIC)
hpaned.add2(scrolled_win)
scrolled_win.set_usize(500,400)
scrolled_win.show()
self.text = GtkText()
self.text.set_editable(FALSE)
scrolled_win.add_with_viewport(self.text)
self.text.show()
self.text.connect("event", self.event_handler)
self.menu = GtkMenu()
self.menu.show()
self.font = load_font("fixed")
self.update_keylist()
win.show()
# Add a key to the left hand side of the user interface
def add_key(self, key):
display_key = self.display_key(key)
list_item = GtkListItem(display_key)
list_item.set_data("raw_key", key) # Store raw key in item data
self.list.add(list_item)
list_item.show()
# Event handler registered by build_ui()
def event_handler(self, event, menu):
return FALSE
# Set the text to appear in the right hand side of the user interface
def set_value_text(self, text):
self.text.delete_text(0, self.text.get_length())
# The text widget has trouble inserting text containing NULL
# characters.
text = string.replace(text, "\x00", ".")
self.text.insert(self.font, None, None, text)
# This function is called when a key is selected in the left hand side
# of the user interface.
def key_selected(self, list, list_item):
key = list_item.children()[0].get()
# Look for a match in the value display function list
text = t[list_item.get_data("raw_key")]
for entry in self.value_display_fns:
if re.match(entry[0], key):
text = entry[1](text)
break
self.set_value_text(text)
# Refresh the key list by removing all items and re-inserting them.
# Items are only inserted if they pass through the filter regexp.
def update_keylist(self):
self.list.remove_items(self.list.children())
self.set_value_text("")
for k in self.dict.keys():
if re.match(self.filter_regex, k):
self.add_key(k)
# Invoked when the user hits return in the filter text entry widget.
def filter_activated(self, entry):
self.filter_regex = entry.get_text()
self.update_keylist()
#
# Public methods
#
# Set a function that translates between how keys look in the user
# interface (displayed keys) versus how they are represented in the tdb
# (raw keys).
def set_display_key_fn(self, fn):
self.display_key = fn
# Register a value display function for a key. The first argument is a
# regex that matches key values, and the second argument is a function
# to call to convert the raw value data to a string to display in the
# right hand side of the UI.
def register_display_value_fn(self, key_regexp, fn):
self.value_display_fns.append((key_regexp, fn))
def display_value_hex(self, value):
return "foo"
def convert_to_hex(data):
"""Return a hex dump of a string as a string.
The output produced is in the standard 16 characters per line hex +
ascii format:
00000000: 40 00 00 00 00 00 00 00 40 00 00 00 01 00 04 80 @....... @.......
00000010: 01 01 00 00 00 00 00 01 00 00 00 00 ........ ....
"""
pos = 0 # Position in data
line = 0 # Line of data
hex = "" # Hex display
ascii = "" # ASCII display
result = ""
while pos < len(data):
# Start with header
if pos % 16 == 0:
hex = "%08x: " % (line * 16)
ascii = ""
# Add character
hex = hex + "%02x " % (ord(data[pos]))
if ord(data[pos]) < 32 or ord(data[pos]) > 176:
ascii = ascii + '.'
else:
ascii = ascii + data[pos]
pos = pos + 1
# Add separator if half way
if pos % 16 == 8:
hex = hex + " "
ascii = ascii + " "
# End of line
if pos % 16 == 0:
result = result + "%s %s\n" % (hex, ascii)
line = line + 1
# Leftover bits
if pos % 16 != 0:
# Pad hex string
for i in range(0, (16 - (pos % 16))):
hex = hex + " "
# Half way separator
if (pos % 16) < 8:
hex = hex + " "
result = result + "%s %s\n" % (hex, ascii)
return result
# Open handle on tdb
if len(sys.argv) != 2:
print "Usage: gdbtool <tdbfile>"
sys.exit(1)
t = tdb.open(sys.argv[1])
# Create user interface
w = gtdbtool(t)
# Set up a key display function. A lot of keys have \x00 appended to the
# end which mucks up gtk.
def display_key_x00(key):
return string.replace(key, "\x00", "")
w.set_display_key_fn(display_key_x00)
def display_value_hex(value):
return value;
w.register_display_value_fn("DRIVERS/", convert_to_hex)
w.register_display_value_fn("SECDESC/", convert_to_hex)
w.register_display_value_fn("PRINTERS/", convert_to_hex)
# Show user interface
w.build_ui("gtdbtool: %s" % sys.argv[1])
mainloop()
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