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summarize.py
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summarize.py
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#!/usr/bin/python
# we had a much more automated and intelligent approach to reducing the log, but
# could not come up with a reasonable way to differentiate between a modr/m byte
# and an opcode byte. e.g. if the instruction is xxyy..., and changing xx or yy
# changes the instruction length, is yy an opcode byte or a modr/m byte?
# without being able to make this determination, we cannot succinctly summarize
# the instructions. rewrote the summarizer as a more manual tool, which seems
# to give pretty good results without requiring a lot of work or knowledge.
#TODO: capstone's performance is still terrible. maybe i do need a
# preprocessing step to disassemble everything? i'm afraid that could take
# forever with how slow capstone is
import subprocess
from capstone import *
from pyutil.progress import progress
from collections import namedtuple
from binascii import *
import sys
import time
import tempfile
import os
import locale
from gui.gui import *
# TODO: some of our disassemblers don't allow us to specify a number of
# instructions to disassemble. this can create an issue where, if the
# disassembler believes one instruction is actually two instructions, we have no
# way to know that the disassembler has made a mistake (without relying on
# existing knowledge about the instruction set). for now, this is just a known
# limitation.
CAPSTONE = "capstone"
# i wanted to bring in capstone this way so that it would match the
# necessary format of the other disassemblers. however, the performance
# is fairly unusable like this. we'll integrate capstone directly instead
'''
"capstone":
{
"check_supported": False,
32: (
# disassemble
"python disas/capstone_32.py"
" {0}" # disassemble
"| head -1" # grab disassembly
,
# raw
"python disas/capstone_32.py"
" {0}" # disassemble
"| head -2" # grab raw
"| tail -1"
),
64: (
# disassemble
"python disas/capstone_64.py"
" {0}" # disassemble
"| head -1" # grab disassembly
,
# raw
"python disas/capstone_64.py"
" {0}" # disassemble
"| head -2" # grab raw
"| tail -1"
),
},
'''
# many disassemblers break all or unexpected prefixes onto separate lines,
# we need to combine these into one instruction for meaningful results
disassemblers = {
CAPSTONE: { "check_supported": False, 32: None, 64: None },
"ndisasm":
{
"check_supported": True,
32: (
# disassemble
"ndisasm"
" -b32 {0}" # disassemble
"| tr A-Z a-z" # lowercase
"| sed '/ db /Q'" # stop at invalid byte
"| sed 's/[0-9a-f]* *[0-9a-f]* *//'" # crop instructions
"| awk 'ORS=\" \"'" # join to one line
,
# raw
"ndisasm"
" -b32 {0}" # disassemble
"| tr A-Z a-z" # lowercase
"| sed '/ db /Q'" # stop at invalid byte
"| sed 's/[0-9a-f]* *\\([0-9a-f]*\\) *.*/\\1/'" # crop raw
"| tr -d '\\n'" # join to one line
),
64: (
# disassemble
"ndisasm"
" -b64 {0}" # disassemble
"| tr A-Z a-z" # lowercase
"| sed '/ db /Q'" # stop at invalid byte
"| sed 's/[0-9a-f]* *[0-9a-f]* *//'" # crop instructions
"| awk 'ORS=\" \"'" # join to one line
,
# raw
"ndisasm"
" -b64 {0}" # disassemble
"| tr A-Z a-z" # lowercase
"| sed '/ db /Q'" # stop at invalid byte
"| sed 's/[0-9a-f]* *\\([0-9a-f]*\\) *.*/\\1/'" # crop raw
"| tr -d '\\n'" # join to one line
),
},
"objdump":
{
"check_supported": True,
32: (
# disassemble
"objdump"
" -D -b binary -mi386 -Mintel --no-show-raw-insn {0}"
"| tr A-Z a-z" # lowercase
"| grep '0:' -A 99" # crop header
"| sed '/.byte /Q'" # stop at invalid byte
"| sed '/(bad)/Q'" # stop at invalid byte
"| sed 's/.*:\\s*//'" # crop instructions
"| awk 'ORS=\" \"'" # join to one line
,
# raw
"objdump"
" -D -b binary -mi386 -Mintel --insn-width=16 {0}"
"| tr A-Z a-z" # lowercase
"| grep '0:' -A 99" # crop header
"| sed '/.byte /Q'" # stop at invalid byte
"| sed '/(bad)/Q'" # stop at invalid byte
"| sed 's/.*:\s*\(\([0-9a-f][0-9a-f] \)*\).*/\1/'" # crop raw
"| tr -d '\\n '" # join to one line and remove spaces
),
64: (
# disassemble
"objdump"
" -D -b binary -mi386 -Mx86-64 -Mintel --no-show-raw-insn {0}"
"| tr A-Z a-z" # lowercase
"| grep '0:' -A 99" # crop header
"| sed '/.byte /Q'" # stop at invalid byte
"| sed '/(bad)/Q'" # stop at invalid byte
"| sed 's/.*:\\s*//'" # crop instructions
"| awk 'ORS=\" \"'" # join to one line
,
# raw
"objdump"
" -D -b binary -mi386 -Mx86-64 -Mintel --insn-width=16 {0}"
"| tr A-Z a-z" # lowercase
"| grep '0:' -A 99" # crop header
"| sed '/.byte /Q'" # stop at invalid byte
"| sed '/(bad)/Q'" # stop at invalid byte
"| sed 's/.*:\\s*\\(\\([0-9a-f][0-9a-f] \\)*\\).*/\\1/'" # crop raw
"| tr -d '\\n '" # join to one line and remove spaces
),
}
}
supported = {}
prefixes_32 = [
0xf0, # lock
0xf2, # repne / bound
0xf3, # rep
0x2e, # cs / branch taken
0x36, # ss / branch not taken
0x3e, # ds
0x26, # es
0x64, # fs
0x65, # gs
0x66, # data
0x67, # addr
]
prefixes_64 = [
0x40, # rex
0x41,
0x42,
0x43,
0x44,
0x45,
0x46,
0x47,
0x48,
0x49,
0x4a,
0x4b,
0x4c,
0x4d,
0x4e,
0x4f,
]
# capstone
md_32 = Cs(CS_ARCH_X86, CS_MODE_32)
md_64 = Cs(CS_ARCH_X86, CS_MODE_64)
def disassemble_capstone(arch, data):
if arch == 32:
m = md_32
elif arch == 64:
m = md_64
else:
return ("", "")
try:
(address, size, mnemonic, op_str) = m.disasm_lite(data, 0, 1).next()
except StopIteration:
mnemonic="(unk)"
op_str=""
size = 0
return ("%s %s" % (mnemonic, op_str), hexlify(data[:size]))
signals = {
1: "sighup",
2: "sigint",
3: "sigquit",
4: "sigill",
5: "sigtrap",
6: "sigiot",
7: "sigbus",
8: "sigfpe",
9: "sigkill",
10: "sigusr1",
11: "sigsegv",
12: "sigusr2",
13: "sigpipe",
14: "sigalrm",
15: "sigterm",
16: "sigstkflt",
17: "sigchld",
18: "sigcont",
19: "sigstop",
20: "sigtstp",
21: "sigttin",
22: "sigttou",
23: "sigurg",
24: "sigxcpu",
25: "sigxfsz",
26: "sigvtalrm",
27: "sigprof",
28: "sigwinch",
29: "sigio",
30: "sigpwr",
}
Result = namedtuple('Result', 'raw long_raw valid length signum sicode')
#TODO: is this hashing well?
CondensedResult = namedtuple('CondensedResult', 'raw valids lengths signums sicodes prefixes')
'''
class CondensedResult(object):
raw = None
valids = None
lengths = None
signums = None
sicodes = None
prefixes = None
def __init__(self, raw, valids, lengths, signums, sicodes, prefixes):
self.raw = raw
self.valids = valids
self.lengths = lengths
self.signums = signums
self.sicodes = sicodes
self.prefixes = prefixes
'''
class Processor(object):
processor = "n/a"
vendor_id = "n/a"
cpu_family = "n/a"
model = "n/a"
model_name = "n/a"
stepping = "n/a"
microcode = "n/a"
architecture = 32
class Catalog(object):
def __init__(self, d, v, base='', count=0, collapsed=True, example='',
valids=(), lengths=(), signums=(), sicodes=(), prefixes=()):
self.d = d # dict
self.v = v # values
self.base = base
self.count = count
self.collapsed = collapsed
self.example = example
self.valids = valids
self.lengths = lengths
self.signums = signums
self.sicodes = sicodes
self.prefixes = prefixes
def check_disassembler(name):
result, errors = \
subprocess.Popen(
['which', name],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE
).communicate()
return result.strip() != ""
def disassemble(disassembler, bitness, data):
if supported[disassembler] and disassemblers[disassembler][bitness]:
temp_file = tempfile.NamedTemporaryFile()
temp_file.write(data)
# disassemble
result, errors = \
subprocess.Popen(
disassemblers[disassembler][bitness][0].format(temp_file.name),
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE
).communicate()
disas = cleanup(result)
# raw
result, errors = \
subprocess.Popen(
disassemblers[disassembler][bitness][1].format(temp_file.name),
shell=True,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE
).communicate()
raw = cleanup(result)
temp_file.close()
return (disas, raw)
else:
return (None, None)
def cleanup(disas):
disas = disas.strip()
disas = disas.replace(',', ', ')
disas = " ".join(disas.split())
return disas
def instruction_length(raw):
return len(raw)/2
def print_catalog(c, depth=0):
for v in c.v:
print " " * (depth) + hexlify(v.raw) + " " + summarize_prefixes(v)
for k in c.d:
print " " * depth + "%02x" % ord(k) + ":"
print_catalog(c.d[k], depth+1)
def strip_prefixes(i, prefixes):
while i and ord(i[0]) in prefixes:
i = i[1:]
return i
def get_prefixes(i, prefixes):
p = set()
for b in i:
if ord(b) in prefixes:
p.add(ord(b))
else:
break
return p
def summarize(s, f="%02x"):
if not s:
return ""
s = sorted(list(s))
l = []
start = s[0]
end = start
for (i, e) in enumerate(s):
if i + 1 < len(s):
if end + 1 == s[i + 1]:
end = s[i + 1]
continue
if start == end:
l.append(f % start)
else:
l.append(f % start + "-" + f % end)
if i + 1 < len(s):
start = s[i + 1]
end = start
return ",".join(l)
def summarize_prefixes(i):
if 0 in i.prefixes:
prefixes = summarize(i.prefixes - {0})
if prefixes:
prefixes = "(__," + prefixes + ")"
else:
prefixes = "(__)"
else:
prefixes = "(" + summarize(i.prefixes) + ")"
return prefixes
def summarize_valids(i):
return "(" + summarize(i.valids, f="%d") + ")"
def summarize_lengths(i):
return "(" + summarize(i.lengths, f="%d") + ")"
def summarize_signums(i):
return "(" + summarize(i.signums, f="%d") + ")"
def summarize_signames(i):
return "(" + ",".join([signals[s] for s in i.signums]) + ")"
def summarize_sicodes(i):
return "(" + summarize(i.sicodes, f="%d") + ")"
def merge_sets(instructions, attribute):
s = set()
for i in instructions:
s = s | getattr(i, attribute)
return s
if __name__ == "__main__":
#TODO: you need to track the WHOLE byte string and pass that to the
# disassemblers - if the string was SHORTER than the disassembler thought,
# i'm not passing the disas enough infomration to recover what it was
# thinking
# verify disassemblers are installed
for disassembler in disassemblers:
if disassemblers[disassembler]["check_supported"]:
supported[disassembler] = check_disassembler(disassembler)
else:
supported[disassembler] = True
instructions = []
processor = Processor()
print
print "beginning summarization."
print "note: this process may take up to an hour to complete, please be patient."
print
print "loading sifter log:"
with open(sys.argv[1], "r") as f:
lines = f.readlines()
f.seek(0)
for (i, l) in enumerate(lines):
progress(i, len(lines)-1, refresh=len(lines)/1000)
if l.startswith("#"):
#TODO: this is not robust
if "arch:" in l and "64" in l:
processor.architecture = 64
elif "processor\t:" in l:
processor.processor = l.split(":",1)[1].strip()
elif "vendor_id\t:" in l:
processor.vendor_id = l.split(":",1)[1].strip()
elif "cpu family\t:" in l:
processor.cpu_family = l.split(":",1)[1].strip()
elif "model\t:" in l:
processor.cpu_family = l.split(":",1)[1].strip()
elif "model name\t:" in l:
processor.model_name = l.split(":",1)[1].strip()
elif "stepping\t:" in l:
processor.stepping = l.split(":",1)[1].strip()
elif "stepping\t:" in l:
processor.microcode = l.split(":",1)[1].strip()
continue
v = l.split()
r = Result(unhexlify(v[0]), unhexlify(v[5].strip("()")), int(v[1]), int(v[2]), int(v[3]), int(v[4]))
instructions.append(r)
# reduce prefixes
prefixes = prefixes_32
if processor.architecture == 64:
prefixes.extend(prefixes_64)
# condense prefixed instructions
print "condensing prefixes:"
all_results = {} # lookup table for condensed result to all results
d = {} # lookup table for base instruction to instruction summary
for (c, i) in enumerate(instructions):
progress(c, len(instructions) - 1, refresh=len(instructions)/1000)
s = strip_prefixes(i.raw, prefixes)
p = get_prefixes(i.raw, prefixes)
if len(s) == len(i.raw):
p.add(0)
if s in d:
d[s].valids.add(i.valid)
#d[s].lengths.add(i.length)
d[s].lengths.add(len(s)) # use the stripped length
d[s].signums.add(i.signum)
d[s].sicodes.add(i.sicode)
[d[s].prefixes.add(x) for x in p]
#TODO: is this taking a long time?
#all_results[d[s]].append(i)
else:
d[s] = CondensedResult(
s,
set([i.valid]),
#set([i.length]),
set([len(s)]),
set([i.signum]),
set([i.sicode]),
p
)
#all_results[d[s]] = [i]
instructions = list(d.values())
def bin(instructions, index, base="", bin_progress=0, progress_out_of=None):
valids = merge_sets(instructions, 'valids')
lengths = merge_sets(instructions, 'lengths')
signums = merge_sets(instructions, 'signums')
sicodes = merge_sets(instructions, 'sicodes')
prefixes = merge_sets(instructions, 'prefixes')
c = Catalog({}, [], base=base, count=len(instructions), collapsed=True,
example=instructions[0].raw, valids=valids, lengths=lengths,
signums=signums, sicodes=sicodes, prefixes=prefixes)
if not progress_out_of:
progress_out_of = len(instructions)
for i in instructions:
if len(i.raw) > index:
b = i.raw[index]
if b in c.d:
c.d[b].append(i)
else:
c.d[b] = [i]
else:
c.v.append(i)
bin_progress = bin_progress + 1
progress(bin_progress, progress_out_of, refresh=progress_out_of/1000)
for b in c.d:
(c.d[b], bin_progress) = bin(c.d[b], index + 1, base + b, bin_progress, progress_out_of)
return (c, bin_progress)
print "binning results:"
(c,_) = bin(instructions, 0)
# open first catalog entries
c.collapsed = False
# open known 2 byte opcode entries
if '\x0f' in c.d:
c.d['\x0f'].collapsed = False
#TODO:
# should i break this up into a summarize and browse script
# that way i could pickle the summary results so i don't have to do that
# every time
#TODO:
# in summary, something like "hardware bug" "software bug" "hidden instruction"
# then in each of the catalog details, summarize that too: "(3) hardware
# bugs, (20) hidden instructions, (0) software bugs"
# the only downside is that requires disassembling everything from the
# start... which could take a long time for any of the non-capstone ones
#TODO: ideally we would have a map of the opcodes on each vendor, so we
# could conclusively say "this is undocumented" for the target vendor, instead
# of relying on the disassembler. but this gets thorny in a hurry
def get_solo_leaf(c):
assert c.count == 1
if c.v:
return c.v[0]
else:
return get_solo_leaf(c.d[c.d.keys()[0]])
def build_instruction_summary(c, index=0, summary=None, lookup=None):
if not summary:
summary = []
if not lookup:
lookup = {}
if c.count > 1:
lookup[len(summary)] = c
suffix = ".." * (min(c.lengths) - len(c.base)) + " " + \
".." * (max(c.lengths) - min(c.lengths))
summary.append(" " * index + "> " + hexlify(c.base) + suffix)
if not c.collapsed:
for b in sorted(c.d):
build_instruction_summary(c.d[b], index + 1, summary, lookup)
for v in sorted(c.v):
lookup[len(summary)] = v
summary.append(" " * index + " " + hexlify(v.raw))
else:
v = get_solo_leaf(c)
lookup[len(summary)] = v
summary.append(" " * index + " " + hexlify(v.raw))
return (summary, lookup)
(summary, lookup) = build_instruction_summary(c)
#TODO scroll window height based on screen height
gui = Gui(no_delay = False)
textbox = TextBox(gui, gui.window, 1, 3, 35, 30, gui.gray(.1),
summary, gui.gray(.6), curses.color_pair(gui.RED))
def draw_infobox(gui, o):
infobox_x = 37
infobox_y = 3
infobox_width = 60
infobox_height = 30
gui.box(gui.window, infobox_x, infobox_y, infobox_width, infobox_height, gui.gray(.3))
#TODO: (minor) this should really be done properly with windows
for i in xrange(infobox_y + 1, infobox_y + infobox_height - 1):
gui.window.addstr(i, infobox_x + 1, " " * (infobox_width - 2), gui.gray(0))
if type(o) == Catalog:
line = infobox_y + 1
gui.window.addstr(line, infobox_x + 2, "instruction group:", curses.color_pair(gui.RED))
line = line + 1
g = hexlify(o.base)
if not g:
g = "(all)"
gui.window.addstr(line, infobox_x + 2, "%s" % g, gui.gray(1))
line = line + 1
line = line + 1
gui.window.addstr(line, infobox_x + 2, "instructions found in this group:", gui.gray(.5))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "%d" % o.count, gui.gray(.8))
line = line + 1
line = line + 1
gui.window.addstr(line, infobox_x + 2, "example instruction from this group:", gui.gray(.5))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "%s" % hexlify(o.example), gui.gray(.8))
line = line + 1
line = line + 1
gui.window.addstr(line, infobox_x + 2, "group attribute summary:", gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "valid:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_valids(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "length:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_lengths(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "signum:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_signums(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "signal:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_signames(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "sicode:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_sicodes(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "prefixes:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_prefixes(o), gui.gray(.8))
line = line + 1
elif type(o) == CondensedResult:
line = infobox_y + 1
gui.window.addstr(line, infobox_x + 2, "instruction:", curses.color_pair(gui.RED))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "%-30s" % hexlify(o.raw), gui.gray(1))
line = line + 1
line = line + 1
gui.window.addstr(line, infobox_x + 2, "prefixes:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_prefixes(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "valids:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_valids(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "lengths:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_lengths(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "signums:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_signums(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "signals:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_signames(o), gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 2, "sicodes:", gui.gray(.5))
gui.window.addstr(line, infobox_x + 18, "%-30s" % summarize_sicodes(o), gui.gray(.8))
line = line + 1
line = line + 1
gui.window.addstr(line, infobox_x + 2, "analysis:", curses.color_pair(gui.RED))
line = line + 1
for disassembler in sorted(disassemblers):
#TODO: (minor) is there a better way to do this, that doesn't
# involve assuming a prefix
if 0 in o.prefixes:
# a no prefix version observed, use that
dis_data = o.raw
else:
# select a prefixed version as an exemplar instruction
dis_data = chr(next(iter(o.prefixes))) + o.raw
if disassembler == CAPSTONE:
(asm, raw) = disassemble_capstone(processor.architecture, dis_data)
else:
(asm, raw) = disassemble(disassembler, processor.architecture, dis_data)
if not asm:
asm = "(unknown)"
if not raw:
raw = "n/a"
gui.window.addstr(line, infobox_x + 2, "%s:" % disassembler, gui.gray(.5))
line = line + 1
gui.window.addstr(line, infobox_x + 4, "%-30s" % asm, gui.gray(.8))
line = line + 1
gui.window.addstr(line, infobox_x + 4, "%-30s" % raw, gui.gray(.5))
line = line + 1
line = line + 1
while True:
detail_string = \
"arch: %d / processor: %s / vendor: %s / family: %s / " \
"model: %s / stepping: %s / ucode: %s" % \
(
processor.architecture,
processor.processor,
processor.vendor_id,
processor.cpu_family,
processor.model,
processor.stepping,
processor.microcode,
)
gui.window.addstr(1, 1, processor.model_name, gui.gray(1))
gui.window.addstr(2, 1, detail_string, gui.gray(.6))
textbox.draw()
draw_infobox(gui, lookup[textbox.selected_index])
gui.window.addstr(33, 1, "j: down, J: DOWN", gui.gray(.4))
gui.window.addstr(34, 1, "k: up, K: UP", gui.gray(.4))
gui.window.addstr(35, 1, "l: expand L: all", gui.gray(.4))
gui.window.addstr(36, 1, "h: collapse H: all", gui.gray(.4))
gui.window.addstr(37, 1, "g: start G: end", gui.gray(.4))
gui.window.addstr(38, 1, "{: previous }: next", gui.gray(.4))
gui.window.addstr(39, 1, "q: quit and print", gui.gray(.4))
gui.refresh()
def smooth_scroll():
# unnecessary smoother scroll effect
textbox.draw()
draw_infobox(gui, lookup[textbox.selected_index])
gui.refresh()
time.sleep(.01)
key = -1
while key == -1:
key = gui.get_key()
if key == ord('k'):
textbox.scroll_up()
elif key == ord('K'):
for _ in xrange(10):
textbox.scroll_up()
smooth_scroll()
elif key == ord('j'):
textbox.scroll_down()
elif key == ord('J'):
for _ in xrange(10):
textbox.scroll_down()
smooth_scroll()
elif key == ord('l'):
i = textbox.selected_index
v = lookup[i]
if type(v) == Catalog:
lookup[i].collapsed = False
(summary, lookup) = build_instruction_summary(c)
textbox.text = summary
elif key == ord('L'):
def expand_all(c):
c.collapsed = False
for b in c.d:
expand_all(c.d[b])
expand_all(c)
(summary, lookup) = build_instruction_summary(c)
textbox.text = summary
elif key == ord('h'):
i = textbox.selected_index
v = lookup[i]
if type(v) == Catalog:
lookup[i].collapsed = True
(summary, lookup) = build_instruction_summary(c)
textbox.text = summary
elif key == ord('H'):
def collapse_all(c):
c.collapsed = True
for b in c.d:
collapse_all(c.d[b])
collapse_all(c)
(summary, lookup) = build_instruction_summary(c)
textbox.text = summary
elif key == ord('g'):
textbox.scroll_top()
elif key == ord('G'):
textbox.scroll_bottom()
elif key == ord('{'):
textbox.scroll_up()
while not textbox.at_top() and \
type(lookup[textbox.selected_index]) != Catalog:
textbox.scroll_up()
smooth_scroll()
elif key == ord('}'):
textbox.scroll_down()
while not textbox.at_bottom() and \
type(lookup[textbox.selected_index]) != Catalog:
textbox.scroll_down()
smooth_scroll()
elif key == ord('q'):
break
gui.stop()
os.system('clear')
title = "PROCESSOR ANALYSIS SUMMARY"
width = 50
print "=" * width
print " " * ((width - len(title)) / 2) + title
print "=" * width
print
print processor.model_name
print
print " arch: %d" % processor.architecture
print " processor: %s" % processor.processor
print " vendor_id: %s" % processor.vendor_id
print " cpu_family: %s" % processor.cpu_family
print " model: %s" % processor.model
print " stepping: %s" % processor.stepping
print " microcode: %s" % processor.microcode
print
#TODO:
# high level summary at end:
# undocumented instructions found: x
# software bugs detected: x
# hardware bugs detected: x
for x in summary:
print x