/usr/sbin/bind2csv2 is in maradns 2.0.13-1.2+b1.
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# Copyright (c) 2006-2007 Sam Trenholme
#
# TERMS
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# This software is provided 'as is' with no guarantees of correctness or
# fitness for purpose.
# This Python script converts a BIND zone file in to a CSV2 zone file
# This program works as a state machine; we have various states and
# convert the input in to the output depending on what state we are in.
# This is not a pure finite state machine, but is one based on the model
# of the CSV2 zone file parser
import sys
import os
import re
import string
from struct import *
ERROR = -1
# We use the compiled regular expressions to determine what input we
# are getting in a given FSM (finite state machine) state
is_space = re.compile("[ \t]")
is_nonspace = re.compile("[^ \t\r\n]")
is_comment = re.compile("\#[^\n]+$")
is_newline = re.compile("[\r\n]")
is_white = re.compile("[ \t\r\n]")
is_newrec = re.compile("[A-Za-z0-9\-\_\$]")
is_dlabel = re.compile("[A-Za-z0-9\-\_]")
is_number = re.compile("[0-9]")
is_numdot = re.compile("[0-9\.]")
is_hexcolon = re.compile("[0-9a-fA-F\:]")
is_letter = re.compile("[A-Za-z]")
is_pstate = re.compile("paren$")
# This class stores various bits of information we need to look at
# or manipulate while processing the BIND zone file
class buf:
# Constructor
def __init__(self):
self.pre_l = "" # Anything before the dlabel
self.l = "" # Dlabel of the record we're writing to
self.thisrr = "" # The current record we're writing to
self.o = "" # "Write" (for writing things)
self.s = "" # SOA records; must be at top of CSV2 zone file
self.n = "" # NS records; must be right after SOA records
self.rrtype = 3 # 1: SOA RR 2: NS RR 3: Normal RR
self.rrmode = 1 # Used for Origin/TTL handling
# 1 SOA, 2 NS, 3 Normal RR
self.lseen = 0 # Whether the label has been seen
self.origin = "%" # The current origin for this zone
self.ttl = "" # The current TTL for this zone
self.norm_ttl = "" # The current TTL for this record
self.minttl = "86400" # The minimum TTL for this zone
self.hasttl = 0 # Does this record have an explicit TTL?
self.soa_hasttl = 0 # Does the SOA record have a TTL?
self.nsttl = "" # The TTL for the NS records (BIND sets
# this to the TTL that the last NS record
# in a zone has)
self.isns = 0 # Whether this record is a NS record
# Add a tilde to the end of the record (Private method)
def addtilde(self):
if len(self.thisrr) < 1:
return
while self.thisrr[-1] == " " or self.thisrr[-1] == "\n" or \
self.thisrr[-1] == "\t" or self.thisrr[-1] == "\t":
self.thisrr = self.thisrr[:-1]
if len(self.thisrr) < 1:
return
if is_comment.search(self.thisrr):
self.thisrr = self.thisrr + "\n"
else:
self.thisrr = self.thisrr + " "
if is_nonspace.search(self.thisrr):
self.thisrr += "~\n"
# Methods for the current domain label for a given rr
# Add to label (Public method)
def label_add(self, a):
self.lseen = 1
self.l += a
# Get label (Public method)
def label_get(self):
return self.l
# Reset label (Public method)
def label_reset(self):
self.l = ""
# Tell the class we have seen the dlabel (Public method)
def label_seen(self):
self.lseen = 1
# Add a character to the area before the Dlabel (private method)
def pre_write(self, a):
self.pre_l += a
# Add a character to the area after the Dlabel (private method)
def post_write(self, a):
self.thisrr += a
# Add a character to the current RR (public method)
def write(self, a):
if self.lseen == 0:
self.pre_write(a)
else:
self.post_write(a)
# Make a character the first character of the default TTL (public)
def minttl_set(self, a):
self.minttl = a
# Add a character to the default TTL (public method)
def minttl_append(self, a):
self.minttl += a
# Make a character the first character of the TTL in a /ttl
# command (public)
def slash_ttl_set(self, a):
self.ttl = a
# Add a character to the TTL in a /ttl command (public method)
def slash_ttl_append(self, a):
self.ttl += a
# Make a character the first character of the TTL for an ordinary
# specified TTL (public method)
def normal_ttl_set(self, a):
self.norm_ttl = a
# Add a character to the TTL for an ordinary specified TTL (public)
def normal_ttl_append(self, a):
self.norm_ttl += a
# Make a character the first character of the default origin (public)
def origin_set(self, a):
self.origin = a
# Add a character to the default origin (public method)
def origin_append(self, a):
self.origin += a
# Inform this object that this record has a TTL (public method)
def hasttl_set(self):
self.hasttl = 1
# Inform this object that this record's current record's a SOA,
# which may set the soa_hasttl flag (public)
def issoa(self):
if self.hasttl == 1:
self.soa_hasttl = 1
# Process a dcommand that we have received (public method)
def dcommand_process(self):
if self.l == "/ttl":
return "prettl"
elif self.l == "/origin":
return "preorigin"
else:
print "Unknown directive " + self.l
return "error"
# Add a current RR to a stream (private method)
def rr_write(self):
self.addtilde()
oput = self.pre_l
# If this is a record that doesn't "belong" here...
if self.rrmode != self.rrtype:
# Then the record will need an explicit origin
# set if it needs an origin (ends in "%") and
# an explicit TTL set if the record doesn't
# have a TTL
if len(self.l) > 0 and self.l[-1] == "%":
self.l = self.l[:-1] + origin
# If this record does not have an explicit TTL...
if self.hasttl == 0:
if self.ttl != "":
self.thisrr = " +" + self.ttl + \
" " + self.thisrr
elif self.soa_hasttl == 0:
self.thisrr = " +" + self.minttl + \
" " + self.thisrr
else:
self.thisrr = " +" + self.norm_ttl + \
" " + self.thisrr
# This handles the case of the SOA having a TTL record;
# in which case the default TTL is the last explicitly
# set TTL (or $TTL if that has been set)
elif self.hasttl == 0 and self.soa_hasttl == 1 and \
self.ttl == "":
self.thisrr = " +" + self.norm_ttl + \
" " + self.thisrr
oput += self.l
oput += self.thisrr
self.thisrr = ""
self.pre_l = ""
self.lseen = 0
self.hasttl = 0
self.isns = 0
return oput
# Add the current RR to the stream of normal RRs (private method)
def owrite(self):
self.o += self.rr_write()
# Add the current RR to the stream of SOA RRs (private method)
def swrite(self):
self.s += self.rr_write()
# Add the current RR to the stream of NS RRs (private method)
def nwrite(self):
self.n += self.rr_write()
# Flush the current RR, adding it to the appropiate stream, and
# get ready to start a new RR (Public method)
def flush_rr(self):
if is_nonspace.search(self.thisrr):
if self.rrtype == 1:
self.swrite()
elif self.rrtype == 2:
if self.rrmode == 1:
self.rrmode = 2
self.nwrite()
elif self.rrtype == 3:
if self.rrmode == 2:
self.rrmode = 3
self.owrite()
else:
if self.rrmode == 2:
self.rrmode = 3
self.owrite()
self.rrtype = 3
# Make the current RR a "soa" RR (Public method)
def set_soa(self):
self.rrtype = 1
# Make the current RR a "ns" RR (Public method)
def set_ns(self):
self.rrtype = 2
# Make ths current RR a "normal" RR (Public, unused method)
def set_normal(self):
self.rrtype = 3
# Read all of the three RR streams combined together in to a
# full zone file (Public method)
def read(self):
if self.soa_hasttl == 0:
return "/ttl " + self.minttl + " ~\n" + self.s + \
self.n + self.o
else:
return self.s + self.n + self.o
# "Output print"; we give this a short name because this function is
# called so often. This puts a string on the output tape
def op(o,a):
o.write(a)
# The actions we do when the finite state machine is in various
# states
# Process a comment
def process_comment(i,o):
z = 0
op(o,"#")
while z < 1000:
a = i.read(1)
if is_newline.match(a):
return a
else:
op(o,a)
z += 1
return a
# Based on the rrtype they gave us, determine what state we should be
# in next
def get_rr_type(rrname):
rrname = string.lower(rrname)
if rrname == "in":
return "error"
elif rrname == "a":
return "rr_a"
elif rrname == "ns":
return "rr_ns"
elif rrname == "cname":
return "rr_1dlabel"
elif rrname == "ptr":
return "rr_1dlabel"
elif rrname == "soa":
return "rr_soa"
elif rrname == "mx":
return "rr_mx"
elif rrname == "aaaa":
return "rr_aaaa"
elif rrname == "srv":
return "rr_srv"
elif rrname == "txt":
return "rr_txt"
elif rrname == "spf":
return "rr_txt"
# Obscure RRs follow
elif rrname == "hinfo":
return "rr_txt" # TXT with mandatory two fields
elif rrname == "wks":
#return "rr_wks" # Tricky variable-argument corner case
return "rr_variargs" # I'll just let the csv2 code parse this
elif rrname == "mb":
return "rr_1dlabel"
elif rrname == "md":
return "rr_1dlabel"
elif rrname == "mf":
return "rr_1dlabel"
elif rrname == "mg":
return "rr_1dlabel"
elif rrname == "mr":
return "rr_1dlabel"
elif rrname == "minfo":
return "rr_2dlabels"
elif rrname == "afsdb":
return "rr_mx"
elif rrname == "rp":
return "rr_2dlabels"
elif rrname == "x25":
return "rr_txt"
elif rrname == "isdn":
return "rr_txt"
elif rrname == "rt":
return "rr_mx"
elif rrname == "nsap":
#return "rr_hex"
return "rr_variargs" # I'll just let the csv2 code parse this
elif rrname == "px":
#return "rr_px"
return "rr_variargs" # I'll just let the csv2 code parse this
elif rrname == "gpos":
return "rr_txt" # TXT with three mandatory fields
elif rrname == "loc":
#return "rr_loc" # Complicated RR with variable # of fields
return "rr_variargs" # I'll just let the csv2 code parse this
else:
print "Error: Unknown RR " + rrname
return "error"
# Generic handler that handles parenthesis in a zone file
def handle_paren(a,o,state,buffer):
paren = ""
if is_pstate.search(state):
paren = "_paren"
if paren == "" and is_newline.match(a):
print "Error: Premature termination of RR"
return ("error", "", 1, paren)
if paren == "_paren" and a == "(":
print "Error: Parens don't nest"
retrun ("error", "", 1, paren)
if paren == "" and a == "(":
op(o," ")
return (state + "_paren", buffer, 1, paren)
if paren == "_paren" and a == ")":
op(o," ")
paren = ""
return (state[:-6], buffer, 1, paren)
return (state,buffer,0,paren)
# Between the rrtype and the rrdata in the zone file
def prrtype(a,o,state,buffer):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return (state, buffer)
if is_white.match(a):
op(o,a)
return (state,buffer)
x = get_rr_type(buffer)
# NS record is a 1-dlabel record we put near the top of the zone
# file.
if x == "rr_ns":
x = "rr_1dlabel"
o.set_ns()
# SOA record is a complicated RR type we put at the top of the
# zone file.
if x == "rr_soa":
o.set_soa()
return (x + pstr, "")
# Between the rrdata and the next rr in the zone file
def postrr(a,o,state,buffer):
if is_newline.match(a) and not is_pstate.search(state):
# Flush out this RR
op(o,a)
o.flush_rr()
return("pre_rr",buffer)
if is_white.match(a):
op(o,a)
return (state,buffer)
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return (state, buffer)
print "Error: Unexpected character after RR " + a
return("error","")
# After the first non-escaped newline at the end of a rr in the
# zone file
def pre_rr(a,o,state,buffer):
if is_space.match(a):
return ("possible_lo",buffer)
if is_white.match(a):
op(o,a)
return (state,buffer)
elif is_newrec.match(a):
if a == "$":
o.label_reset()
o.label_add("/")
return ("dcommand",buffer)
else:
o.label_reset()
o.label_add(a)
return("dlabel",buffer)
print "Error: Unexpected character before RR " + a
return("error","")
# In the whitespace before a default TTL ("/ttl 12345")
def prettl(a,o,state,buffer):
if is_white.match(a):
op(o,a)
return(state, buffer)
if is_number.match(a):
op(o,a)
o.slash_ttl_set(a)
return ("sttl", buffer)
print "Error: unexpected character before TTL " + a
return("error","")
# In a default TTL ("/ttl 12345")
def sttl(a,o,state,buffer):
if is_white.match(a):
op(o,a)
return("postrr", buffer)
if is_number.match(a):
op(o,a)
o.slash_ttl_append(a)
return ("sttl", buffer)
print "Error: unexpected character in TTL " + a
return("error","")
# In the whitespace before an origin ("/origin foo")
def preorigin(a,o,state,buffer):
if is_white.match(a):
op(o,a)
return(state, buffer)
if is_dlabel.match(a):
op(o,a)
o.origin_set(a)
return ("origin", buffer)
print "Error: unexpected character before origin " + a
return("error","")
# In an origin ("/origin foo")
def origin(a,o,state,buffer):
if is_white.match(a):
op(o,a)
return("postrr", buffer)
if is_dlabel.match(a):
op(o,a)
o.origin_append(a)
return ("origin", buffer)
print "Error: unexpected character in origin " + a
return("error","")
# After a space at the beginning of an RR and before a newline
def possible_lo(a,o,state,buffer):
if is_space.match(a):
return (state,buffer)
if is_white.match(a):
return ("pre_rr",buffer)
# Output the stored dlabel from the last record
o.label_seen()
op(o," ")
if is_number.match(a):
op(o,"+" + a)
o.hasttl_set()
o.normal_ttl_set(a)
return ("ttl",buffer)
if is_letter.match(a):
return ("rrtype",a)
# After a space at the beginning of an RR and before the TTL/IN/RRTYPE
def post_lo(a,o,state,buffer):
return (a,o,state,buffer);
# In TTL
def ttl(a,o,state,buffer):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return (state, buffer)
if is_white.match(a):
op(o,a)
return ("pdlabel" + pstr, buffer)
if is_number.match(a):
op(o,a)
o.normal_ttl_append(a)
return ("ttl" + pstr,buffer)
print "Unexpected character in TTL " + a
return("error","")
# Various handlers for the rr types that we may see
# A: Internet IP address
def rr_a(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
if is_white.match(a):
op(o,a)
return ("postrr" + pstr,buffer)
if is_numdot.match(a):
op(o,a)
return (state,buffer)
print "Error: Unexpected character in A RR " + a
return("error","")
# AAAA: Ipv6 Internet IP address
def rr_aaaa(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
if is_white.match(a):
op(o,a)
return ("postrr" + pstr,buffer)
if is_hexcolon.match(a):
op(o,a)
return (state,buffer)
print "Error: Unexpected character in A RR " + a
return("error","")
# Generic handler for NS records or anything else that has a single dlabel
def rr_1dlabel(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
if is_white.match(a):
# I think BIND zone files require a final dot in dlabels
# also, or will append the domain name. If not, this
# bit of code will change to not have the '+ ".%"'
op(o,a + ".%")
return ("postrr" + pstr,buffer)
if is_dlabel.match(a):
op(o,a)
return (state,buffer)
if a == ".":
op(o,a)
return ("rr_1dlabel_dot" + pstr, buffer)
print "Error: Unexpected character in RR " + a
return("error","")
# In the dot (".") of a dlabel
def rr_1dlabel_dot(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
# End of RR after dot
if is_white.match(a):
op(o,a)
return ("postrr" + pstr,buffer)
if is_dlabel.match(a):
op(o,a)
return ("rr_1dlabel" + pstr,buffer)
print "Error: Unexpected character in RR " + a
return("error","")
# Generic handlers for dlabels and numbers
# In a dot in a dlabel
def rr_generic_dlabel_dot(a,o,state,buffer,next):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_white.match(a):
op(o,a)
return(next + pstr, buffer)
if is_dlabel.match(a):
op(o,a)
if pstr == "_paren":
return(state[:-10] + pstr, buffer)
return (state[:-4], buffer)
print "Error: unexpected character in RR dlabel dot " + a
return("error","")
# In the whitespace before a dlabel
def rr_generic_dlabel_pre(a,o,state,buffer,next):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return(state, buffer)
if is_white.match(a):
op(o,a)
return(state, buffer)
if is_dlabel.match(a):
op(o,a)
return (next + pstr, buffer)
print "Error: unexpected character before RR dlabel " + a
return("error","")
# In a dlabel
def rr_generic_dlabel(a,o,state,buffer,next):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_white.match(a):
op(o,".%" + a)
return(next + pstr, buffer)
if is_dlabel.match(a):
op(o,a)
return (state, buffer)
if a == ".":
op(o,a)
if pstr == "_paren":
return(state[:-10] + "_dot" + pstr, buffer)
return (state + "_dot", buffer)
print "Error: unexpected character in RR dlabel " + a
return("error","")
# In the whitespace before a number
def rr_generic_number_pre(a,o,state,buffer,next):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return(state, buffer)
if is_white.match(a):
op(o,a)
return(state, buffer)
if is_number.match(a):
op(o,a)
return (next + pstr, buffer)
print "Error: unexpected character before RR number field " + a
return("error","")
# In a number
def rr_generic_number(a,o,state,buffer,next):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_white.match(a):
op(o,a)
return(next + pstr, buffer)
if is_number.match(a):
op(o,a)
return (state, buffer)
print "Error: unexpected character in numer field of RR " + a
return("error","")
# In the whitespace before the SOA minimum field
def rr_soa_minimum_pre(a,o,state,buffer,next):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return(state, buffer)
if is_white.match(a):
op(o,a)
return(state, buffer)
if is_number.match(a):
op(o,a)
o.minttl_set(a)
return (next + pstr, buffer)
print "Error: unexpected character before RR number field " + a
return("error","")
# In SOA minimum field
def rr_soa_minimum(a,o,state,buffer,next):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_white.match(a):
op(o,a)
return(next + pstr, buffer)
if is_number.match(a):
op(o,a)
o.minttl_append(a)
return (state, buffer)
print "Error: unexpected character in numer field of RR " + a
return("error","")
# SOA: Start of authority record (2 dlabels, 5 numbers)
def rr_soa(a,o,state,buffer):
o.issoa()
return rr_generic_dlabel(a,o,state,buffer,"rr_soa_2_pre")
def rr_soa_dot(a,o,state,buffer):
return rr_generic_dlabel_dot(a,o,state,buffer,"rr_soa_2_pre")
def rr_soa_2_pre(a,o,state,buffer):
return rr_generic_dlabel_pre(a,o,state,buffer,"rr_soa_2")
def rr_soa_2(a,o,state,buffer):
return rr_generic_dlabel(a,o,state,buffer,"rr_soa_3_pre")
def rr_soa_2_dot(a,o,state,buffer):
return rr_generic_dlabel_dot(a,o,state,buffer,"rr_soa_3_pre")
def rr_soa_3_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_soa_3")
def rr_soa_3(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_soa_4_pre")
def rr_soa_4_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_soa_4")
def rr_soa_4(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_soa_5_pre")
def rr_soa_5_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_soa_5")
def rr_soa_5(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_soa_6_pre")
def rr_soa_6_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_soa_6")
def rr_soa_6(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_soa_7_pre")
def rr_soa_7_pre(a,o,state,buffer):
return rr_soa_minimum_pre(a,o,state,buffer,"rr_soa_7")
def rr_soa_7(a,o,state,buffer):
return rr_soa_minimum(a,o,state,buffer,"postrr")
# MX: Mail exchange record (1 number, 1 dlabel)
def rr_mx(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_mx_2_pre")
def rr_mx_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_mx")
def rr_mx_2_pre(a,o,state,buffer):
return rr_generic_dlabel_pre(a,o,state,buffer,"rr_mx_2")
def rr_mx_2(a,o,state,buffer):
return rr_generic_dlabel(a,o,state,buffer,"postrr")
def rr_mx_2_dot(a,o,state,buffer):
return rr_generic_dlabel_dot(a,o,state,buffer,"postrr")
# generic handlers for records with 2 dlabels
def rr_2dlabels(a,o,state,buffer):
return rr_generic_dlabel(a,o,state,buffer,"rr_mx_2_pre")
def rr_2dlabels_dot(a,o,state,buffer):
return rr_generic_dlabel_dot(a,o,state,buffer,"rr_mx_2_pre")
# SRV record (3 numbers, 1 dlabel)
def rr_srv(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_srv_2_pre")
def rr_srv_2_pre(a,o,state,buffer):
return rr_generic_number_pre(a,o,state,buffer,"rr_srv_2")
# Since the last fields of a SRV record are identical to a MX
# record, we can simply jump to the MX record after the second
# SRV field
def rr_srv_2(a,o,state,buffer):
return rr_generic_number(a,o,state,buffer,"rr_mx_pre")
# Generic handler for obscure RRs, some of which have a variable number
# of arguments (PX, WKS, NSAP, and LOC)
def rr_variargs(a,o,state,buffer):
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return(state, buffer)
op(o,a)
return(state, buffer)
# TXT record, outside of quotes
def rr_txt(a,o,state,buffer):
if is_newline.match(a) and not is_pstate.search(state):
return ("postrr",buffer)
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return(state, buffer)
if is_white.match(a):
op(o,a)
return(state, buffer)
if a == "\"":
return("rr_txt_4" + pstr,buffer)
print "Error: unexpected character ouside of quotes in TXT RR " + a
return("error","")
# rr_txt_2: In TXT record between quotes
def rr_txt_2(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if(len(a) == 1):
q = unpack("B",a)[0];
else:
print "Error: Unexpected char length in TXT RR " + a
return("error","")
# If q is printable ASCII and q isn't ["#'|~\]
if q >= 32 and q <= 125 and q != 34 and q != 35 \
and q != 39 and q != 124 and q != 92:
op(o,a)
# 34: "
elif q == 34:
op(o,"\'")
return("rr_txt" + pstr,buffer)
# 92: \
elif q == 92:
return("rr_txt_backslash" + pstr,buffer)
else:
op(o,"\'\\x%02x" % q)
return("rr_txt_3" + pstr,buffer)
return(state,buffer)
# rr_txt_3: Quoting non-printable characters in a TXT record
def rr_txt_3(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if(len(a) == 1):
q = unpack("B",a)[0];
else:
print "Error: Unexpected char length in TXT RR " + a
return("error","")
# If q is printable ASCII and q isn't ["#'|~]
if q >= 32 and q <= 125 and q != 34 and q != 35 \
and q != 39 and q != 124 and q != 92:
op(o,"\'" + a)
return("rr_txt_2" + pstr,buffer)
# 34: "
elif q == 34:
op(o," ")
return("rr_txt" + pstr,buffer)
# 92: \ (backslash)
elif q == 92:
op(o,"\'")
return("rr_txt_backslash" + pstr,buffer)
else:
op(o,"\\x%02x" % q)
return("rr_txt_3" + pstr,buffer)
return(state,buffer)
# rr_txt_4: Right after opening quote of TXT record
def rr_txt_4(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if(len(a) == 1):
q = unpack("B",a)[0];
else:
print "Error: Unexpected char length in TXT RR " + a
return("error","")
# If q is printable ASCII and q isn't ["#'|~\]
if q >= 32 and q <= 125 and q != 34 and q != 35 \
and q != 39 and q != 124 and q != 92:
op(o,"\'" + a)
return("rr_txt_2" + pstr,buffer)
# 34: " (empty TXT field)
elif q == 34:
op(o,"\'\'")
return("rr_txt" + pstr,buffer)
# 92: \ (backslash)
elif q == 92:
op(o,"\'")
return("rr_txt_backslash" + pstr,buffer)
else:
op(o,"\\x%02x" % q)
return("rr_txt_3" + pstr,buffer)
print "Unexpected error in rr_txt_4"
return("error","")
# rr_txt_backslash: Right after a backslash in a TXT record
def rr_txt_backslash(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_number.match(a):
# Use the buffer to store the numeric value
return("rr_txt_numeric" + pstr,a)
# Otherwise
if(len(a) == 1):
q = unpack("B",a)[0];
else:
print "Error: Unexpected char length in TXT RR " + a
return("error","")
# If q is printable ASCII and q isn't [#'|~]
if q >= 32 and q <= 125 and q != 35 \
and q != 39 and q != 124:
op(o,a)
else:
op(o,"\'\\x%02x" % q)
return("rr_txt_3" + pstr,buffer)
return("rr_txt_2" + pstr,buffer)
# rr_txt_numeric: In the middle of a backslashed number
def rr_txt_numeric(a,o,state,buffer):
pstr = ""
if is_pstate.search(state):
pstr = "_paren"
if is_number.match(a):
# Use the buffer to store the numeric value
return("rr_txt_numeric",buffer + a)
x = buffer
if int(x) < 256:
op(o,"\'\\x%02x\'" % int(x))
else:
print "Error: Value of backslashed number " + x + " too high"
return("error","")
# Otherwise
if(len(a) == 1):
q = unpack("B",a)[0];
else:
print "Error: Unexpected char length in TXT RR " + a
return("error","")
# If q is printable ASCII and q isn't [#'|~\]
if q >= 32 and q <= 125 and q != 35 and q != 34 \
and q != 39 and q != 124 and q != 92:
op(o,a)
# 34: "
elif q == 34:
op(o,"\'")
return("rr_txt" + pstr,buffer)
else:
op(o,"\'\\x%02x" % q)
return("rr_txt_3" + pstr,buffer)
return("rr_txt_2" + pstr,buffer)
# In rrtype (The "A", "MX", "NS", etc. label)
def rrtype(a,o,state,buffer):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return (state, buffer)
if is_dlabel.match(a):
return (state,buffer + a)
if is_white.match(a):
# In the case of "IN", we go back to the state of being
# after the dlabel, where we look for either a TTL or a
# RRTYPE
if string.lower(buffer) != "in":
op(o,buffer)
else:
op(o,a)
return("pdlabel" + pstr, "")
op(o,a)
return ("prrtype" + pstr, buffer)
print "Invalid character in RR type " + a
return ("error","")
# After dlabel (name of record we have info for) and before TTL/rrtype
def pdlabel(a,o,state,buffer):
(state, buffer, paren, pstr) = handle_paren(a,o,state,buffer)
if paren == 1:
return (state, buffer)
if is_white.match(a):
op(o,a)
return (state, buffer)
if is_number.match(a):
op(o,"+" + a)
o.hasttl_set()
o.normal_ttl_set(a)
return ("ttl" + pstr,buffer)
if is_letter.match(a):
return ("rrtype" + pstr,a)
print "Unexpected character after dlabel " + a
return("error","")
# In a "." character in the dlabel (name of machine we have record for)
def dlabel_dot(a,o,state,buffer):
if is_dlabel.match(a):
o.label_add(a)
return ("dlabel",buffer)
elif is_space.match(a):
op(o,a)
return ("pdlabel",buffer)
else:
print "Unexpected chatacter near dlabel " + a
return ("error","")
# In DCommand (a "slash" command like "/ttl" or "/origin")
def dcommand(a,o,state,buffer):
if is_letter.match(a):
o.label_add(string.lower(a))
return ("dcommand",buffer)
elif is_space.match(a):
op(o,a)
return (o.dcommand_process(),buffer)
else:
print "Unexpected chatacter in slash command " + a
return ("error","")
# In the dlabel (name of machine we are looking at record for)
def dlabel_s(a,o,state,buffer):
if is_dlabel.match(a):
o.label_add(a)
return (state,buffer)
elif is_space.match(a):
o.label_add(".%" + a)
return ("pdlabel",buffer)
elif a == ".":
#op(o,a)
o.label_add(a)
return ("dlabel_dot",buffer)
else:
print "Unexpected character in dlabel " + a
return ("error","")
# Initial state at beginning of file
def init_s(a,o,state,buffer):
if is_white.match(a):
op(o,a)
return (state,buffer)
elif is_newrec.match(a):
if a == "$":
o.label_reset()
o.label_add("/")
return ("dcommand",buffer)
else:
o.label_add(a)
return("dlabel",buffer)
else:
print "Error: Unexpected character at new file start " + a
return("error","")
# END machine states
# This routine goes to the appropriate routine for the state we are in
def process_char(a,o,state,buffer):
# print "Char is " + a + " state is " + state # DEBUG
# Special states (beginning of file, etc)
if state == "init_state":
(state, buffer) = init_s(a,o,state,buffer)
elif state == "dlabel":
(state,buffer) = dlabel_s(a,o,state,buffer)
elif state == "dlabel_dot":
(state,buffer) = dlabel_dot(a,o,state,buffer)
elif state == "dcommand":
(state,buffer) = dcommand(a,o,state,buffer)
elif state == "prettl":
(state,buffer) = prettl(a,o,state,buffer)
elif state == "sttl":
(state,buffer) = sttl(a,o,state,buffer)
elif state == "preorigin":
(state,buffer) = preorigin(a,o,state,buffer)
elif state == "origin":
(state,buffer) = origin(a,o,state,buffer)
elif state == "pdlabel" or state == "pdlabel_paren":
(state,buffer) = pdlabel(a,o,state,buffer)
elif state == "ttl" or state == "ttl_paren":
(state,buffer) = ttl(a,o,state,buffer)
elif state == "rrtype" or state == "rrtype_paren":
(state,buffer) = rrtype(a,o,state,buffer)
elif state == "prrtype" or state == "prrtype_paren":
(state,buffer) = prrtype(a,o,state,buffer)
elif state == "possible_lo":
(state,buffer) = possible_lo(a,o,state,buffer)
# We put an if instead of an elif here because prrtype, when it
# hits the first character of the rr, "falls through" since
# what we do with the character we see depends on the rrtype
# The A RR
if state == "rr_a" or state == "rr_a_paren":
(state,buffer) = rr_a(a,o,state,buffer)
# Generic handlers for 1 dlabel RRs: NS, CNAME, PTR, and the
# obscure MB, MD, MF, MG, and MR records
elif state == "rr_1dlabel" or state == "rr_1dlabel_paren":
(state,buffer) = rr_1dlabel(a,o,state,buffer)
elif state == "rr_1dlabel_dot" or state == "rr_1dlabel_dot_paren":
(state,buffer) = rr_1dlabel_dot(a,o,state,buffer)
# The SOA RRs
elif state == "rr_soa" or state == "rr_soa_paren":
(state,buffer) = rr_soa(a,o,state,buffer)
elif state == "rr_soa_dot" or state == "rr_soa_dot_paren":
(state,buffer) = rr_soa_dot(a,o,state,buffer)
elif state == "rr_soa_2_pre" or state == "rr_soa_2_pre_paren":
(state,buffer) = rr_soa_2_pre(a,o,state,buffer)
elif state == "rr_soa_2" or state == "rr_soa_2_paren":
(state,buffer) = rr_soa_2(a,o,state,buffer)
elif state == "rr_soa_2_dot" or state == "rr_soa_2_dot_paren":
(state,buffer) = rr_soa_2_dot(a,o,state,buffer)
elif state == "rr_soa_3_pre" or state == "rr_soa_3_pre_paren":
(state,buffer) = rr_soa_3_pre(a,o,state,buffer)
elif state == "rr_soa_3" or state == "rr_soa_3_paren":
(state,buffer) = rr_soa_3(a,o,state,buffer)
elif state == "rr_soa_4_pre" or state == "rr_soa_4_pre_paren":
(state,buffer) = rr_soa_4_pre(a,o,state,buffer)
elif state == "rr_soa_4" or state == "rr_soa_4_paren":
(state,buffer) = rr_soa_4(a,o,state,buffer)
elif state == "rr_soa_5_pre" or state == "rr_soa_5_pre_paren":
(state,buffer) = rr_soa_5_pre(a,o,state,buffer)
elif state == "rr_soa_5" or state == "rr_soa_5_paren":
(state,buffer) = rr_soa_5(a,o,state,buffer)
elif state == "rr_soa_6_pre" or state == "rr_soa_6_pre_paren":
(state,buffer) = rr_soa_6_pre(a,o,state,buffer)
elif state == "rr_soa_6" or state == "rr_soa_6_paren":
(state,buffer) = rr_soa_6(a,o,state,buffer)
elif state == "rr_soa_7" or state == "rr_soa_7_paren":
(state,buffer) = rr_soa_7(a,o,state,buffer)
elif state == "rr_soa_7_pre" or state == "rr_soa_7_pre_paren":
(state,buffer) = rr_soa_7_pre(a,o,state,buffer)
# The MX RR (and also the obscure AFSDB and RT RRs)
elif state == "rr_mx" or state == "rr_mx_paren":
(state,buffer) = rr_mx(a,o,state,buffer)
elif state == "rr_mx_2_pre" or state == "rr_mx_2_pre_paren":
(state,buffer) = rr_mx_2_pre(a,o,state,buffer)
elif state == "rr_mx_2" or state == "rr_mx_2_paren":
(state,buffer) = rr_mx_2(a,o,state,buffer)
elif state == "rr_mx_2_dot" or state == "rr_mx_2_dot_paren":
(state,buffer) = rr_mx_2_dot(a,o,state,buffer)
# We have a rr_mx_pre handler because the SRV record
# uses the MX handler for the last two fields
elif state == "rr_mx_pre" or state == "rr_mx_pre_paren":
(state,buffer) = rr_mx(a,o,state,buffer)
# The SRV RR
elif state == "rr_srv" or state == "rr_srv_paren":
(state,buffer) = rr_srv(a,o,state,buffer)
elif state == "rr_srv_2" or state == "rr_srv_2_paren":
(state,buffer) = rr_srv_2(a,o,state,buffer)
elif state == "rr_srv_2_pre" or state == "rr_srv_2_pre_paren":
(state,buffer) = rr_srv_2_pre(a,o,state,buffer)
# The AAAA RR
elif state == "rr_aaaa" or state == "rr_aaaa_paren":
(state,buffer) = rr_aaaa(a,o,state,buffer)
# The TXT RR
elif state == "rr_txt" or state == "rr_txt_paren":
(state,buffer) = rr_txt(a,o,state,buffer)
elif state == "rr_txt_2" or state == "rr_txt_2_paren":
(state,buffer) = rr_txt_2(a,o,state,buffer)
elif state == "rr_txt_3" or state == "rr_txt_3_paren":
(state,buffer) = rr_txt_3(a,o,state,buffer)
elif state == "rr_txt_4" or state == "rr_txt_4_paren":
(state,buffer) = rr_txt_4(a,o,state,buffer)
elif state == "rr_txt_backslash" or state == "rr_txt_backslash_paren":
(state,buffer) = rr_txt_backslash(a,o,state,buffer)
elif state == "rr_txt_numeric" or state == "rr_txt_numeric_paren":
(state,buffer) = rr_txt_numeric(a,o,state,buffer)
# Generic handler for RR with 2 dlabels (MINFO, etc)
elif state == "rr_2dlabels" or state == "rr_2dlabels_paren":
(state,buffer) = rr_2dlabels(a,o,state,buffer)
elif state == "rr_2dlabels_dot" or state == "rr_2dlabels_dot_paren":
(state,buffer) = rr_2dlabels_dot(a,o,state,buffer)
# Obscure RRs that take a variable number of arguments
elif state == "rr_variargs":
(state,buffer) = rr_variargs(a,o,state,buffer)
# Before or after the RR
if state == "postrr" or state == "postrr_paren":
(state,buffer) = postrr(a,o,state,buffer)
elif state == "pre_rr":
(state,buffer) = pre_rr(a,o,state,buffer)
return (state, buffer)
# Process a given file; this allows this program to process multiple
# BIND zone files at the same time
def process_file(filename):
if os.access(filename,os.R_OK) != 1:
print "Can not read " + filename
return ERROR
outf = filename + ".csv2"
if os.path.isfile(outf) == 1:
print "Warning: " + outf + " already exists, overwriting"
if os.path.isdir(filename) == 1:
print "Error: " + outf + " is a directory, skipping"
return ERROR
i = file(filename,"rb")
o = file(outf,"wb")
oz = buf()
state = "init_state"
buffer = ""
x = 0
linenum = 1
while x < 100000:
a = i.read(1)
if a == "":
break
if a == ";":
a = process_comment(i,oz)
if a == "\n":
linenum += 1
(state, buffer) = process_char(a,oz,state,buffer)
if state == "error" or state == "error_paren":
print "Error found, no longer processing this file"
print "Error is on line " + str(linenum) ,
print "of file " + filename
return ERROR
x += 1
o.write(
"""# This MaraDNS CSV2 zone file was converted from a BIND zone file by
# the bind2csv2.py tool
""")
oz.flush_rr() # Make sure to flush out the last RR we read
o.write(oz.read())
print outf + " written"
# MAIN
if len(sys.argv) < 3 or sys.argv[1] != "-c":
print "Usage: bind2csv2.py -c {file list}"
print "Where {file list} is a list of files you want to make",
print "csv2 zone files of."
sys.exit()
list = sys.argv[2:]
for item in list:
print "Processing zone file " + item
process_file(item)
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