1 # Some routines and configuration that are used by the ldap progams
2 import termios, TERMIOS, re, string, imp, ldap, sys, whrandom, crypt, rfc822;
6 File = open("/etc/userdir-ldap/userdir-ldap.conf");
8 File = open("userdir-ldap.conf");
9 ConfModule = imp.load_source("userdir_config","/etc/userdir-ldap.conf",File);
13 BaseDn = ConfModule.basedn;
14 BaseDn = ConfModule.basedn;
15 LDAPServer = ConfModule.ldaphost;
16 EmailAppend = ConfModule.emailappend;
17 AdminUser = ConfModule.adminuser;
18 GenerateDir = ConfModule.generatedir;
19 GenerateConf = ConfModule.generateconf;
20 DefaultGID = ConfModule.defaultgid;
21 TemplatesDir = ConfModule.templatesdir;
22 PassDir = ConfModule.passdir;
23 Ech_ErrorLog = ConfModule.ech_errorlog;
24 Ech_MainLog = ConfModule.ech_mainlog;
26 # Break up the keyring list
27 userdir_gpg.SetKeyrings(string.split(ConfModule.keyrings,":"));
29 # This is a list of common last-name prefixes
30 LastNamesPre = {"van": None, "le": None, "de": None, "di": None};
32 # SSH Key splitting. The result is:
33 # (options,size,modulous,exponent,comment)
34 SSHAuthSplit = re.compile('^(.* )?(\d+) (\d+) (\d+) ?(.+)$');
35 #'^([^\d](?:[^ "]+(?:".*")?)*)? ?(\d+) (\d+) (\d+) (.+)$');
37 AddressSplit = re.compile("(.*).*<([^@]*)@([^>]*)>");
39 # Safely get an attribute from a tuple representing a dn and an attribute
40 # list. It returns the first attribute if there are multi.
41 def GetAttr(DnRecord,Attribute,Default = ""):
43 return DnRecord[1][Attribute][0];
50 # Return a printable email address from the attributes.
51 def EmailAddress(DnRecord):
52 cn = GetAttr(DnRecord,"cn");
53 sn = GetAttr(DnRecord,"sn");
54 uid = GetAttr(DnRecord,"uid");
55 if cn == "" and sn == "":
56 return "<" + uid + "@" + EmailAppend + ">";
57 return cn + " " + sn + " <" + uid + "@" + EmailAppend + ">"
59 # Show a dump like ldapsearch
60 def PrettyShow(DnRecord):
62 List = DnRecord[1].keys();
67 Result = Result + "%s: %s\n" % (x,i);
70 # Function to prompt for a password
71 def getpass(prompt = "Password: "):
72 import termios, TERMIOS, sys;
73 fd = sys.stdin.fileno();
74 old = termios.tcgetattr(fd);
75 new = termios.tcgetattr(fd);
76 new[3] = new[3] & ~TERMIOS.ECHO; # lflags
78 termios.tcsetattr(fd, TERMIOS.TCSADRAIN, new);
79 passwd = raw_input(prompt);
81 termios.tcsetattr(fd, TERMIOS.TCSADRAIN, old);
85 # Split up a name into multiple components. This tries to best guess how
88 Words = re.split(" ",string.strip(Name));
90 # Insert an empty middle name
96 # Put a dot after any 1 letter words, must be an initial
97 for x in range(0,len(Words)):
98 if len(Words[x]) == 1:
99 Words[x] = Words[x] + '.';
101 # If a word starts with a -, ( or [ we assume it marks the start of some
102 # Non-name information and remove the remainder of the string
103 for x in range(0,len(Words)):
104 if len(Words[x]) != 0 and (Words[x][0] == '-' or \
105 Words[x][0] == '(' or Words[x][0] == '['):
109 # Merge any of the middle initials
110 while len(Words) > 2 and len(Words[2]) == 2 and Words[2][1] == '.':
111 Words[1] = Words[1] + Words[2];
114 while len(Words) < 2:
117 # Merge any of the last name prefixes into one big last name
118 while LastNamesPre.has_key(string.lower(Words[-2])):
119 Words[-1] = Words[-2] + " " + Words[-1];
122 # Fix up a missing middle name after lastname globbing
123 if (len(Words) == 2):
126 # If the name is multi-word then we glob them all into the last name and
127 # do not worry about a middle name
129 Words[2] = string.join(Words[1:]);
132 return (string.strip(Words[0]),string.strip(Words[1]),string.strip(Words[2]));
134 # Compute a random password using /dev/urandom
136 # Generate a 10 character random string
137 SaltVals = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ/.";
138 Rand = open("/dev/urandom");
140 for i in range(0,10):
141 Password = Password + SaltVals[ord(Rand.read(1)[0]) % len(SaltVals)];
144 # Compute the MD5 crypted version of the given password
145 def HashPass(Password):
146 # Hash it telling glibc to use the MD5 algorithm - if you dont have
147 # glibc then just change Salt = "$1$" to Salt = "";
148 SaltVals = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ/.";
150 for x in range(0,10):
151 Salt = Salt + SaltVals[whrandom.randint(0,len(SaltVals)-1)];
152 Pass = crypt.crypt(Password,Salt);
154 raise "Password Error", "MD5 password hashing failed, not changing the password!";
157 # Sync with the server, we count the number of async requests that are pending
158 # and make sure result has been called that number of times
159 def FlushOutstanding(l,Outstanding,Fast=0):
160 # Sync with the remote end
162 print "Waiting for",Outstanding,"requests:",
163 while (Outstanding > 0):
165 if Fast == 0 or Outstanding > 50:
166 sys.stdout.write(".",);
168 if (l.result(ldap.RES_ANY,1) != (None,None)):
169 Outstanding = Outstanding - 1;
171 if (l.result(ldap.RES_ANY,1,0) != (None,None)):
172 Outstanding = Outstanding - 1;
175 except ldap.TYPE_OR_VALUE_EXISTS:
176 Outstanding = Outstanding - 1;
177 except ldap.NO_SUCH_ATTRIBUTE:
178 Outstanding = Outstanding - 1;
179 except ldap.NO_SUCH_OBJECT:
180 Outstanding = Outstanding - 1;
185 # Convert a lat/long attribute into Decimal degrees
186 def DecDegree(Posn,Anon=0):
187 Parts = re.match('[+-]?(\d*)\\.?(\d*)?',Posn).groups();
188 Val = string.atof(Posn);
190 if (abs(Val) >= 1806060.0):
191 raise ValueError,"Too Big";
194 if abs(Val) >= 18060.0 or len(Parts[0]) > 5:
196 Secs = Val - long(Val);
197 Val = long(Val)/100.0;
198 Min = Val - long(Val);
199 Val = long(Val) + (Min*100.0 + Secs*100.0/60.0)/60.0;
202 elif abs(Val) >= 180 or len(Parts[0]) > 3:
204 Min = Val - long(Val);
205 Val = long(Val) + Min*100.0/60.0;
215 def FormatSSHAuth(Str):
216 Match = SSHAuthSplit.match(Str);
218 return "<unknown format>";
223 return "%s %s %s..%s %s"%(G[1],G[2],G[3][:8],G[3][-8:],G[4]);
224 return "%s %s %s %s..%s %s"%(G[0],G[1],G[2],G[3][:8],G[3][-8:],G[4]);
226 def FormatPGPKey(Str):
232 while (I < len(Str)):
234 Res = "%s %s%s "%(Res,Str[I],Str[I+1]);
236 Res = "%s%s%s "%(Res,Str[I],Str[I+1]);
238 elif (len(Str) == 40):
241 while (I < len(Str)):
243 Res = "%s %s%s%s%s "%(Res,Str[I],Str[I+1],Str[I+2],Str[I+3]);
245 Res = "%s%s%s%s%s "%(Res,Str[I],Str[I+1],Str[I+2],Str[I+3]);
249 return string.strip(Res);
251 # Take an email address and split it into 3 parts, (Name,UID,Domain)
252 def SplitEmail(Addr):
253 Res1 = rfc822.AddrlistClass(Addr).getaddress();
258 return (Res1[0],"","");
260 # If there is no @ then the address was not parsed well. Try the alternate
261 # Parsing scheme. This is particularly important when scanning PGP keys.
262 Res2 = string.split(Res1[1],"@");
264 Match = AddressSplit.match(Addr);
267 return Match.groups();
269 return (Res1[0],Res2[0],Res2[1]);
271 # Convert the PGP name string to a uid value. The return is a tuple of
272 # (uid,[message strings]). UnknownMpa is a hash from email to uid that
273 # overrides normal searching.
274 def GetUID(l,Name,UnknownMap = {}):
275 # Crack up the email address into a best guess first/middle/last name
276 (cn,mn,sn) = NameSplit(re.sub('["]','',Name[0]))
278 # Brackets anger the ldap searcher
279 cn = re.sub('[(")]','?',cn);
280 sn = re.sub('[(")]','?',sn);
282 # First check the unknown map for the email address
283 if UnknownMap.has_key(Name[1] + '@' + Name[2]):
284 Stat = "unknown map hit for "+str(Name);
285 return (UnknownMap[Name[1] + '@' + Name[2]],[Stat]);
287 # Then the cruft component (ie there was no email address to match)
288 if UnknownMap.has_key(Name[2]):
289 Stat = "unknown map hit for"+str(Name);
290 return (UnknownMap[Name[2]],[Stat]);
292 # Search for a possible first/last name hit
294 Attrs = l.search_s(BaseDn,ldap.SCOPE_ONELEVEL,"(&(cn=%s)(sn=%s))"%(cn,sn),["uid"]);
295 except ldap.FILTER_ERROR:
296 Stat = "Filter failure: (&(cn=%s)(sn=%s))"%(cn,sn);
297 return (None,[Stat]);
299 # Try matching on the email address
300 if (len(Attrs) != 1):
302 Attrs = l.search_s(BaseDn,ldap.SCOPE_ONELEVEL,"emailforward=%s"%(Name[2]),["uid"]);
303 except ldap.FILTER_ERROR:
306 # Hmm, more than one/no return
307 if (len(Attrs) != 1):
308 # Key claims a local address
309 if Name[2] == EmailAppend:
311 # Pull out the record for the claimed user
312 Attrs = l.search_s(BaseDn,ldap.SCOPE_ONELEVEL,"(uid=%s)"%(Name[1]),["uid","sn","cn"]);
314 # We require the UID surname to be someplace in the key name, this
315 # deals with special purpose keys like 'James Troup (Alternate Debian key)'
316 # Some people put their names backwards on their key too.. check that as well
317 if len(Attrs) == 1 and \
318 (string.find(string.lower(sn),string.lower(Attrs[0][1]["sn"][0])) != -1 or \
319 string.find(string.lower(cn),string.lower(Attrs[0][1]["sn"][0])) != -1):
320 Stat = EmailAppend+" hit for "+str(Name);
321 return (Name[1],[Stat]);
323 # Attempt to give some best guess suggestions for use in editing the
325 Attrs = l.search_s(BaseDn,ldap.SCOPE_ONELEVEL,"(sn~=%s)"%(sn),["uid","sn","cn"]);
329 Stat = ["None for %s"%(str(Name))];
331 Stat.append("But might be: %s %s <%s@debian.org>"%(x[1]["cn"][0],x[1]["sn"][0],x[1]["uid"][0]));
334 return (Attrs[0][1]["uid"][0],None);