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mailinabox/management/dns_update.py

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#!/usr/bin/python3
# Creates DNS zone files for all of the domains of all of the mail users
# and mail aliases and restarts nsd.
########################################################################
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import os, os.path, urllib.parse, datetime, re, hashlib, base64
import ipaddress
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import rtyaml
import dns.resolver
from mailconfig import get_mail_domains
from utils import shell, load_env_vars_from_file, safe_domain_name, sort_domains
def get_dns_domains(env):
# Add all domain names in use by email users and mail aliases and ensure
# PRIMARY_HOSTNAME is in the list.
domains = set()
domains |= get_mail_domains(env)
domains.add(env['PRIMARY_HOSTNAME'])
return domains
def get_dns_zones(env):
# What domains should we create DNS zones for? Never create a zone for
# a domain & a subdomain of that domain.
domains = get_dns_domains(env)
# Exclude domains that are subdomains of other domains we know. Proceed
# by looking at shorter domains first.
zone_domains = set()
for domain in sorted(domains, key=lambda d : len(d)):
for d in zone_domains:
if domain.endswith("." + d):
# We found a parent domain already in the list.
break
else:
# 'break' did not occur: there is no parent domain.
zone_domains.add(domain)
# Make a nice and safe filename for each domain.
zonefiles = []
for domain in zone_domains:
zonefiles.append([domain, safe_domain_name(domain) + ".txt"])
# Sort the list so that the order is nice and so that nsd.conf has a
# stable order so we don't rewrite the file & restart the service
# meaninglessly.
zone_order = sort_domains([ zone[0] for zone in zonefiles ], env)
zonefiles.sort(key = lambda zone : zone_order.index(zone[0]) )
return zonefiles
def get_custom_dns_config(env):
try:
return rtyaml.load(open(os.path.join(env['STORAGE_ROOT'], 'dns/custom.yaml')))
except:
return { }
def write_custom_dns_config(config, env):
config_yaml = rtyaml.dump(config)
with open(os.path.join(env['STORAGE_ROOT'], 'dns/custom.yaml'), "w") as f:
f.write(config_yaml)
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def do_dns_update(env, force=False):
# What domains (and their zone filenames) should we build?
domains = get_dns_domains(env)
zonefiles = get_dns_zones(env)
# Custom records to add to zones.
additional_records = get_custom_dns_config(env)
# Write zone files.
os.makedirs('/etc/nsd/zones', exist_ok=True)
updated_domains = []
for i, (domain, zonefile) in enumerate(zonefiles):
# Build the records to put in the zone.
records = build_zone(domain, domains, additional_records, env)
# See if the zone has changed, and if so update the serial number
# and write the zone file.
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if not write_nsd_zone(domain, "/etc/nsd/zones/" + zonefile, records, env, force):
# Zone was not updated. There were no changes.
continue
# If this is a .justtesting.email domain, then post the update.
try:
justtestingdotemail(domain, records)
except:
# Hmm. Might be a network issue. If we stop now, will we end
# up in an inconsistent state? Let's just continue.
pass
# Mark that we just updated this domain.
updated_domains.append(domain)
# Sign the zone.
#
# Every time we sign the zone we get a new result, which means
# we can't sign a zone without bumping the zone's serial number.
# Thus we only sign a zone if write_nsd_zone returned True
# indicating the zone changed, and thus it got a new serial number.
# write_nsd_zone is smart enough to check if a zone's signature
# is nearing expiration and if so it'll bump the serial number
# and return True so we get a chance to re-sign it.
sign_zone(domain, zonefile, env)
# Now that all zones are signed (some might not have changed and so didn't
# just get signed now, but were before) update the zone filename so nsd.conf
# uses the signed file.
for i in range(len(zonefiles)):
zonefiles[i][1] += ".signed"
# Write the main nsd.conf file.
if write_nsd_conf(zonefiles, additional_records, env):
# Make sure updated_domains contains *something* if we wrote an updated
# nsd.conf so that we know to restart nsd.
if len(updated_domains) == 0:
updated_domains.append("DNS configuration")
# Kick nsd if anything changed.
if len(updated_domains) > 0:
shell('check_call', ["/usr/sbin/service", "nsd", "restart"])
# Write the OpenDKIM configuration tables.
if write_opendkim_tables(domains, env):
# Settings changed. Kick opendkim.
shell('check_call', ["/usr/sbin/service", "opendkim", "restart"])
if len(updated_domains) == 0:
# If this is the only thing that changed?
updated_domains.append("OpenDKIM configuration")
if len(updated_domains) == 0:
# if nothing was updated (except maybe OpenDKIM's files), don't show any output
return ""
else:
return "updated DNS: " + ",".join(updated_domains) + "\n"
########################################################################
def build_zone(domain, all_domains, additional_records, env, is_zone=True):
records = []
# For top-level zones, define the authoritative name servers.
#
# Normally we are our own nameservers. Some TLDs require two distinct IP addresses,
# so we allow the user to override the second nameserver definition so that
# secondary DNS can be set up elsewhere.
#
# 'False' in the tuple indicates these records would not be used if the zone
# is managed outside of the box.
if is_zone:
# Obligatory definition of ns1.PRIMARY_HOSTNAME.
records.append((None, "NS", "ns1.%s." % env["PRIMARY_HOSTNAME"], False))
# Define ns2.PRIMARY_HOSTNAME or whatever the user overrides.
secondary_ns = additional_records.get("_secondary_nameserver", "ns2." + env["PRIMARY_HOSTNAME"])
records.append((None, "NS", secondary_ns+'.', False))
# In PRIMARY_HOSTNAME...
if domain == env["PRIMARY_HOSTNAME"]:
# Define ns1 and ns2.
# 'False' in the tuple indicates these records would not be used if the zone
# is managed outside of the box.
records.append(("ns1", "A", env["PUBLIC_IP"], False))
records.append(("ns2", "A", env["PUBLIC_IP"], False))
if env.get('PUBLIC_IPV6'):
records.append(("ns1", "AAAA", env["PUBLIC_IPV6"], False))
records.append(("ns2", "AAAA", env["PUBLIC_IPV6"], False))
# Set the A/AAAA records. Do this early for the PRIMARY_HOSTNAME so that the user cannot override them
# and we can provide different explanatory text.
records.append((None, "A", env["PUBLIC_IP"], "Required. Sets the IP address of the box."))
if env.get("PUBLIC_IPV6"): records.append((None, "AAAA", env["PUBLIC_IPV6"], "Required. Sets the IPv6 address of the box."))
# Add a DANE TLSA record for SMTP.
records.append(("_25._tcp", "TLSA", build_tlsa_record(env), "Recommended when DNSSEC is enabled. Advertises to mail servers connecting to the box that mandatory encryption should be used."))
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# Add a SSHFP records to help SSH key validation. One per available SSH key on this system.
for value in build_sshfp_records():
records.append((None, "SSHFP", value, "Optional. Provides an out-of-band method for verifying an SSH key before connecting. Use 'VerifyHostKeyDNS yes' (or 'VerifyHostKeyDNS ask') when connecting with ssh."))
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# The MX record says where email for the domain should be delivered: Here!
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records.append((None, "MX", "10 %s." % env["PRIMARY_HOSTNAME"], "Required. Specifies the hostname (and priority) of the machine that handles @%s mail." % domain))
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# Add DNS records for any subdomains of this domain. We should not have a zone for
# both a domain and one of its subdomains.
subdomains = [d for d in all_domains if d.endswith("." + domain)]
for subdomain in subdomains:
subdomain_qname = subdomain[0:-len("." + domain)]
subzone = build_zone(subdomain, [], additional_records, env, is_zone=False)
for child_qname, child_rtype, child_value, child_explanation in subzone:
if child_qname == None:
child_qname = subdomain_qname
else:
child_qname += "." + subdomain_qname
records.append((child_qname, child_rtype, child_value, child_explanation))
def has_rec(qname, rtype, prefix=None):
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for rec in records:
if rec[0] == qname and rec[1] == rtype and (prefix is None or rec[2].startswith(prefix)):
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return True
return False
# The user may set other records that don't conflict with our settings.
# Don't put any TXT records above this line, or it'll prevent any custom TXT records.
for qname, rtype, value in get_custom_records(domain, additional_records, env):
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if has_rec(qname, rtype): continue
records.append((qname, rtype, value, "(Set by user.)"))
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# Add defaults if not overridden by the user's custom settings (and not otherwise configured).
# Any "CNAME" record on the qname overrides A and AAAA.
defaults = [
(None, "A", env["PUBLIC_IP"], "Required. May have a different value. Sets the IP address that %s resolves to for web hosting and other services besides mail. The A record must be present but its value does not affect mail delivery." % domain),
("www", "A", env["PUBLIC_IP"], "Optional. Sets the IP address that www.%s resolves to, e.g. for web hosting." % domain),
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(None, "AAAA", env.get('PUBLIC_IPV6'), "Optional. Sets the IPv6 address that %s resolves to, e.g. for web hosting. (It is not necessary for receiving mail on this domain.)" % domain),
("www", "AAAA", env.get('PUBLIC_IPV6'), "Optional. Sets the IPv6 address that www.%s resolves to, e.g. for web hosting." % domain),
]
for qname, rtype, value, explanation in defaults:
if value is None or value.strip() == "": continue # skip IPV6 if not set
if not is_zone and qname == "www": continue # don't create any default 'www' subdomains on what are themselves subdomains
# Set the default record, but not if:
# (1) there is not a user-set record of the same type already
# (2) there is not a CNAME record already, since you can't set both and who knows what takes precedence
# (2) there is not an A record already (if this is an A record this is a dup of (1), and if this is an AAAA record then don't set a default AAAA record if the user sets a custom A record, since the default wouldn't make sense and it should not resolve if the user doesn't provide a new AAAA record)
if not has_rec(qname, rtype) and not has_rec(qname, "CNAME") and not has_rec(qname, "A"):
records.append((qname, rtype, value, explanation))
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# SPF record: Permit the box ('mx', see above) to send mail on behalf of
# the domain, and no one else.
# Skip if the user has set a custom SPF record.
if not has_rec(None, "TXT", prefix="v=spf1 "):
records.append((None, "TXT", 'v=spf1 mx -all', "Recommended. Specifies that only the box is permitted to send @%s mail." % domain))
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# Append the DKIM TXT record to the zone as generated by OpenDKIM.
# Skip if the user has set a DKIM record already.
opendkim_record_file = os.path.join(env['STORAGE_ROOT'], 'mail/dkim/mail.txt')
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with open(opendkim_record_file) as orf:
m = re.match(r'(\S+)\s+IN\s+TXT\s+\( "([^"]+)"\s+"([^"]+)"\s*\)', orf.read(), re.S)
val = m.group(2) + m.group(3)
if not has_rec(m.group(1), "TXT", prefix="v=DKIM1; "):
records.append((m.group(1), "TXT", val, "Recommended. Provides a way for recipients to verify that this machine sent @%s mail." % domain))
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# Append a DMARC record.
# Skip if the user has set a DMARC record already.
if not has_rec("_dmarc", "TXT", prefix="v=DMARC1; "):
records.append(("_dmarc", "TXT", 'v=DMARC1; p=quarantine', "Optional. Specifies that mail that does not originate from the box but claims to be from @%s is suspect and should be quarantined by the recipient's mail system." % domain))
# For any subdomain with an A record but no SPF or DMARC record, add strict policy records.
all_resolvable_qnames = set(r[0] for r in records if r[1] in ("A", "AAAA"))
for qname in all_resolvable_qnames:
if not has_rec(qname, "TXT", prefix="v=spf1 "):
records.append((qname, "TXT", 'v=spf1 a mx -all', "Prevents unauthorized use of this domain name for outbound mail by requiring outbound mail to originate from the indicated host(s)."))
dmarc_qname = "_dmarc" + ("" if qname is None else "." + qname)
if not has_rec(dmarc_qname, "TXT", prefix="v=DMARC1; "):
records.append((dmarc_qname, "TXT", 'v=DMARC1; p=reject', "Prevents unauthorized use of this domain name for outbound mail by requiring a valid DKIM signature."))
# Sort the records. The None records *must* go first in the nsd zone file. Otherwise it doesn't matter.
records.sort(key = lambda rec : list(reversed(rec[0].split(".")) if rec[0] is not None else ""))
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return records
########################################################################
def get_custom_records(domain, additional_records, env):
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for qname, value in additional_records.items():
# We don't count the secondary nameserver config (if present) as a record - that would just be
# confusing to users. Instead it is accessed/manipulated directly via (get/set)_custom_dns_config.
if qname == "_secondary_nameserver": continue
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# Is this record for the domain or one of its subdomains?
# If `domain` is None, return records for all domains.
if domain is not None and qname != domain and not qname.endswith("." + domain): continue
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# Turn the fully qualified domain name in the YAML file into
# our short form (None => domain, or a relative QNAME) if
# domain is not None.
if domain is not None:
if qname == domain:
qname = None
else:
qname = qname[0:len(qname)-len("." + domain)]
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# Short form. Mapping a domain name to a string is short-hand
# for creating A records.
if isinstance(value, str):
values = [("A", value)]
if value == "local" and env.get("PUBLIC_IPV6"):
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values.append( ("AAAA", value) )
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# A mapping creates multiple records.
elif isinstance(value, dict):
values = value.items()
# No other type of data is allowed.
else:
raise ValueError()
for rtype, value2 in values:
# The "local" keyword on A/AAAA records are short-hand for our own IP.
# This also flags for web configuration that the user wants a website here.
if rtype == "A" and value2 == "local":
value2 = env["PUBLIC_IP"]
if rtype == "AAAA" and value2 == "local":
if "PUBLIC_IPV6" not in env: continue # no IPv6 address is available so don't set anything
value2 = env["PUBLIC_IPV6"]
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yield (qname, rtype, value2)
########################################################################
def build_tlsa_record(env):
# A DANE TLSA record in DNS specifies that connections on a port
# must use TLS and the certificate must match a particular certificate.
#
# Thanks to http://blog.huque.com/2012/10/dnssec-and-certificates.html
# for explaining all of this!
# Get the hex SHA256 of the DER-encoded server certificate:
certder = shell("check_output", [
"/usr/bin/openssl",
"x509",
"-in", os.path.join(env["STORAGE_ROOT"], "ssl", "ssl_certificate.pem"),
"-outform", "DER"
],
return_bytes=True)
certhash = hashlib.sha256(certder).hexdigest()
# Specify the TLSA parameters:
# 3: This is the certificate that the client should trust. No CA is needed.
# 0: The whole certificate is matched.
# 1: The certificate is SHA256'd here.
return "3 0 1 " + certhash
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def build_sshfp_records():
# The SSHFP record is a way for us to embed this server's SSH public
# key fingerprint into the DNS so that remote hosts have an out-of-band
# method to confirm the fingerprint. See RFC 4255 and RFC 6594. This
# depends on DNSSEC.
#
# On the client side, set SSH's VerifyHostKeyDNS option to 'ask' to
# include this info in the key verification prompt or 'yes' to trust
# the SSHFP record.
#
# See https://github.com/xelerance/sshfp for inspiriation.
algorithm_number = {
"ssh-rsa": 1,
"ssh-dss": 2,
"ecdsa-sha2-nistp256": 3,
}
# Get our local fingerprints by running ssh-keyscan. The output looks
# like the known_hosts file: hostname, keytype, fingerprint. The order
# of the output is arbitrary, so sort it to prevent spurrious updates
# to the zone file (that trigger bumping the serial number).
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keys = shell("check_output", ["ssh-keyscan", "localhost"])
for key in sorted(keys.split("\n")):
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if key.strip() == "" or key[0] == "#": continue
try:
host, keytype, pubkey = key.split(" ")
yield "%d %d ( %s )" % (
algorithm_number[keytype],
2, # specifies we are using SHA-256 on next line
hashlib.sha256(base64.b64decode(pubkey)).hexdigest().upper(),
)
except:
# Lots of things can go wrong. Don't let it disturb the DNS
# zone.
pass
########################################################################
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def write_nsd_zone(domain, zonefile, records, env, force):
# On the $ORIGIN line, there's typically a ';' comment at the end explaining
# what the $ORIGIN line does. Any further data after the domain confuses
# ldns-signzone, however. It used to say '; default zone domain'.
# The SOA contact address for all of the domains on this system is hostmaster
# @ the PRIMARY_HOSTNAME. Hopefully that's legit.
# For the refresh through TTL fields, a good reference is:
# http://www.peerwisdom.org/2013/05/15/dns-understanding-the-soa-record/
zone = """
$ORIGIN {domain}.
$TTL 1800 ; default time to live
@ IN SOA ns1.{primary_domain}. hostmaster.{primary_domain}. (
__SERIAL__ ; serial number
7200 ; Refresh (secondary nameserver update interval)
1800 ; Retry (when refresh fails, how often to try again)
1209600 ; Expire (when refresh fails, how long secondary nameserver will keep records around anyway)
1800 ; Negative TTL (how long negative responses are cached)
)
"""
# Replace replacement strings.
store IDNs (internationalized domain names) in IDNA (ASCII) in our database, not in Unicode I changed my mind. In 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431 I allowed Unicode domain names to go into the database. I thought that was nice because it's what the user *means*. But it's not how the web works. Web and DNS were working, but mail wasn't. Postfix (as shipped with Ubuntu 14.04 without support for SMTPUTF8) exists in an ASCII-only world. When it goes to the users/aliases table, it queries in ASCII (IDNA) only and had no hope of delivering mail if the domain was in full Unicode in the database. I was thinking ahead to SMTPUTF8, where we *could* put Unicode in the database (though that would prevent IDNA-encoded addressing from being deliverable) not realizing it isn't well supported yet anyway. It's IDNA that goes on the wire in most places anyway (SMTP without SMTPUTF8 (and therefore how Postfix queries our users/aliases tables), DNS zone files, nginx config, CSR 'CN' field, X509 Common Name and Subject Alternative Names fields), so we should really be talking in terms of IDNA (i.e. ASCII). This partially reverts commit 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431, where I added a lot of Unicode=>IDNA conversions when writing configuration files. Instead I'm doing Unicode=>IDNA before email addresses get into the users/aliases table. Now we assume the database uses IDNA-encoded ASCII domain names. When adding/removing aliases, addresses are converted to ASCII (w/ IDNA). User accounts must be ASCII-only anyway because of Dovecot's auth limitations, so we don't do any IDNA conversion (don't want to change the user's login info behind their back!). The aliases control panel page converts domains back to Unicode for display to be nice. The status checks converts the domains to Unicode just for the output headings. A migration is added to convert existing aliases with Unicode domains into IDNA. Any custom DNS or web settings with Unicode may need to be changed. Future support for SMTPUTF8 will probably need to add columns in the users/aliases table so that it lists both IDNA and Unicode forms.
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zone = zone.format(domain=domain, primary_domain=env["PRIMARY_HOSTNAME"])
# Add records.
for subdomain, querytype, value, explanation in records:
if subdomain:
store IDNs (internationalized domain names) in IDNA (ASCII) in our database, not in Unicode I changed my mind. In 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431 I allowed Unicode domain names to go into the database. I thought that was nice because it's what the user *means*. But it's not how the web works. Web and DNS were working, but mail wasn't. Postfix (as shipped with Ubuntu 14.04 without support for SMTPUTF8) exists in an ASCII-only world. When it goes to the users/aliases table, it queries in ASCII (IDNA) only and had no hope of delivering mail if the domain was in full Unicode in the database. I was thinking ahead to SMTPUTF8, where we *could* put Unicode in the database (though that would prevent IDNA-encoded addressing from being deliverable) not realizing it isn't well supported yet anyway. It's IDNA that goes on the wire in most places anyway (SMTP without SMTPUTF8 (and therefore how Postfix queries our users/aliases tables), DNS zone files, nginx config, CSR 'CN' field, X509 Common Name and Subject Alternative Names fields), so we should really be talking in terms of IDNA (i.e. ASCII). This partially reverts commit 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431, where I added a lot of Unicode=>IDNA conversions when writing configuration files. Instead I'm doing Unicode=>IDNA before email addresses get into the users/aliases table. Now we assume the database uses IDNA-encoded ASCII domain names. When adding/removing aliases, addresses are converted to ASCII (w/ IDNA). User accounts must be ASCII-only anyway because of Dovecot's auth limitations, so we don't do any IDNA conversion (don't want to change the user's login info behind their back!). The aliases control panel page converts domains back to Unicode for display to be nice. The status checks converts the domains to Unicode just for the output headings. A migration is added to convert existing aliases with Unicode domains into IDNA. Any custom DNS or web settings with Unicode may need to be changed. Future support for SMTPUTF8 will probably need to add columns in the users/aliases table so that it lists both IDNA and Unicode forms.
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zone += subdomain
zone += "\tIN\t" + querytype + "\t"
if querytype == "TXT":
value = value.replace('\\', '\\\\') # escape backslashes
value = value.replace('"', '\\"') # escape quotes
value = '"' + value + '"' # wrap in quotes
zone += value + "\n"
# DNSSEC requires re-signing a zone periodically. That requires
# bumping the serial number even if no other records have changed.
# We don't see the DNSSEC records yet, so we have to figure out
# if a re-signing is necessary so we can prematurely bump the
# serial number.
force_bump = False
if not os.path.exists(zonefile + ".signed"):
# No signed file yet. Shouldn't normally happen unless a box
# is going from not using DNSSEC to using DNSSEC.
force_bump = True
else:
# We've signed the domain. Check if we are close to the expiration
# time of the signature. If so, we'll force a bump of the serial
# number so we can re-sign it.
with open(zonefile + ".signed") as f:
signed_zone = f.read()
expiration_times = re.findall(r"\sRRSIG\s+SOA\s+\d+\s+\d+\s\d+\s+(\d{14})", signed_zone)
if len(expiration_times) == 0:
# weird
force_bump = True
else:
# All of the times should be the same, but if not choose the soonest.
expiration_time = min(expiration_times)
expiration_time = datetime.datetime.strptime(expiration_time, "%Y%m%d%H%M%S")
if expiration_time - datetime.datetime.now() < datetime.timedelta(days=3):
# We're within three days of the expiration, so bump serial & resign.
force_bump = True
# Set the serial number.
serial = datetime.datetime.now().strftime("%Y%m%d00")
if os.path.exists(zonefile):
# If the zone already exists, is different, and has a later serial number,
# increment the number.
with open(zonefile) as f:
existing_zone = f.read()
m = re.search(r"(\d+)\s*;\s*serial number", existing_zone)
if m:
# Clear out the serial number in the existing zone file for the
# purposes of seeing if anything *else* in the zone has changed.
existing_serial = m.group(1)
existing_zone = existing_zone.replace(m.group(0), "__SERIAL__ ; serial number")
# If the existing zone is the same as the new zone (modulo the serial number),
# there is no need to update the file. Unless we're forcing a bump.
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if zone == existing_zone and not force_bump and not force:
return False
# If the existing serial is not less than a serial number
# based on the current date plus 00, increment it. Otherwise,
# the serial number is less than our desired new serial number
# so we'll use the desired new number.
if existing_serial >= serial:
serial = str(int(existing_serial) + 1)
zone = zone.replace("__SERIAL__", serial)
# Write the zone file.
with open(zonefile, "w") as f:
f.write(zone)
return True # file is updated
########################################################################
def write_nsd_conf(zonefiles, additional_records, env):
# Basic header.
nsdconf = """
server:
hide-version: yes
# identify the server (CH TXT ID.SERVER entry).
identity: ""
# The directory for zonefile: files.
zonesdir: "/etc/nsd/zones"
"""
# Since we have bind9 listening on localhost for locally-generated
# DNS queries that require a recursive nameserver, and the system
# might have other network interfaces for e.g. tunnelling, we have
# to be specific about the network interfaces that nsd binds to.
for ipaddr in (env.get("PRIVATE_IP", "") + " " + env.get("PRIVATE_IPV6", "")).split(" "):
if ipaddr == "": continue
nsdconf += " ip-address: %s\n" % ipaddr
# Append the zones.
for domain, zonefile in zonefiles:
nsdconf += """
zone:
name: %s
zonefile: %s
store IDNs (internationalized domain names) in IDNA (ASCII) in our database, not in Unicode I changed my mind. In 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431 I allowed Unicode domain names to go into the database. I thought that was nice because it's what the user *means*. But it's not how the web works. Web and DNS were working, but mail wasn't. Postfix (as shipped with Ubuntu 14.04 without support for SMTPUTF8) exists in an ASCII-only world. When it goes to the users/aliases table, it queries in ASCII (IDNA) only and had no hope of delivering mail if the domain was in full Unicode in the database. I was thinking ahead to SMTPUTF8, where we *could* put Unicode in the database (though that would prevent IDNA-encoded addressing from being deliverable) not realizing it isn't well supported yet anyway. It's IDNA that goes on the wire in most places anyway (SMTP without SMTPUTF8 (and therefore how Postfix queries our users/aliases tables), DNS zone files, nginx config, CSR 'CN' field, X509 Common Name and Subject Alternative Names fields), so we should really be talking in terms of IDNA (i.e. ASCII). This partially reverts commit 1bf8f1991f6f08e0fb1e3d2572d280d894a5e431, where I added a lot of Unicode=>IDNA conversions when writing configuration files. Instead I'm doing Unicode=>IDNA before email addresses get into the users/aliases table. Now we assume the database uses IDNA-encoded ASCII domain names. When adding/removing aliases, addresses are converted to ASCII (w/ IDNA). User accounts must be ASCII-only anyway because of Dovecot's auth limitations, so we don't do any IDNA conversion (don't want to change the user's login info behind their back!). The aliases control panel page converts domains back to Unicode for display to be nice. The status checks converts the domains to Unicode just for the output headings. A migration is added to convert existing aliases with Unicode domains into IDNA. Any custom DNS or web settings with Unicode may need to be changed. Future support for SMTPUTF8 will probably need to add columns in the users/aliases table so that it lists both IDNA and Unicode forms.
2015-03-29 13:33:31 +00:00
""" % (domain, zonefile)
# If a custom secondary nameserver has been set, allow zone transfers
# and notifies to that nameserver.
if additional_records.get("_secondary_nameserver"):
# Get the IP address of the nameserver by resolving it.
hostname = additional_records.get("_secondary_nameserver")
resolver = dns.resolver.get_default_resolver()
response = dns.resolver.query(hostname+'.', "A")
ipaddr = str(response[0])
nsdconf += """\tnotify: %s NOKEY
provide-xfr: %s NOKEY
""" % (ipaddr, ipaddr)
# Check if the nsd.conf is changing. If it isn't changing,
# return False to flag that no change was made.
with open("/etc/nsd/nsd.conf") as f:
if f.read() == nsdconf:
return False
with open("/etc/nsd/nsd.conf", "w") as f:
f.write(nsdconf)
return True
########################################################################
def dnssec_choose_algo(domain, env):
if '.' in domain and domain.rsplit('.')[-1] in \
("email", "guide", "fund"):
# At GoDaddy, RSASHA256 is the only algorithm supported
# for .email and .guide.
# A variety of algorithms are supported for .fund. This
# is preferred.
return "RSASHA256"
# For any domain we were able to sign before, don't change the algorithm
# on existing users. We'll probably want to migrate to SHA256 later.
return "RSASHA1-NSEC3-SHA1"
def sign_zone(domain, zonefile, env):
algo = dnssec_choose_algo(domain, env)
dnssec_keys = load_env_vars_from_file(os.path.join(env['STORAGE_ROOT'], 'dns/dnssec/%s.conf' % algo))
# In order to use the same keys for all domains, we have to generate
# a new .key file with a DNSSEC record for the specific domain. We
# can reuse the same key, but it won't validate without a DNSSEC
# record specifically for the domain.
#
# Copy the .key and .private files to /tmp to patch them up.
#
# Use os.umask and open().write() to securely create a copy that only
# we (root) can read.
files_to_kill = []
for key in ("KSK", "ZSK"):
if dnssec_keys.get(key, "").strip() == "": raise Exception("DNSSEC is not properly set up.")
oldkeyfn = os.path.join(env['STORAGE_ROOT'], 'dns/dnssec/' + dnssec_keys[key])
newkeyfn = '/tmp/' + dnssec_keys[key].replace("_domain_", domain)
dnssec_keys[key] = newkeyfn
for ext in (".private", ".key"):
if not os.path.exists(oldkeyfn + ext): raise Exception("DNSSEC is not properly set up.")
with open(oldkeyfn + ext, "r") as fr:
keydata = fr.read()
keydata = keydata.replace("_domain_", domain) # trick ldns-signkey into letting our generic key be used by this zone
fn = newkeyfn + ext
prev_umask = os.umask(0o77) # ensure written file is not world-readable
try:
with open(fn, "w") as fw:
fw.write(keydata)
finally:
os.umask(prev_umask) # other files we write should be world-readable
files_to_kill.append(fn)
# Do the signing.
expiry_date = (datetime.datetime.now() + datetime.timedelta(days=30)).strftime("%Y%m%d")
shell('check_call', ["/usr/bin/ldns-signzone",
# expire the zone after 30 days
"-e", expiry_date,
# use NSEC3
"-n",
# zonefile to sign
"/etc/nsd/zones/" + zonefile,
# keys to sign with (order doesn't matter -- it'll figure it out)
dnssec_keys["KSK"],
dnssec_keys["ZSK"],
])
# Create a DS record based on the patched-up key files. The DS record is specific to the
# zone being signed, so we can't use the .ds files generated when we created the keys.
# The DS record points to the KSK only. Write this next to the zone file so we can
# get it later to give to the user with instructions on what to do with it.
#
# We want to be able to validate DS records too, but multiple forms may be valid depending
# on the digest type. So we'll write all (both) valid records. Only one DS record should
# actually be deployed. Preferebly the first.
with open("/etc/nsd/zones/" + zonefile + ".ds", "w") as f:
for digest_type in ('2', '1'):
rr_ds = shell('check_output', ["/usr/bin/ldns-key2ds",
"-n", # output to stdout
"-" + digest_type, # 1=SHA1, 2=SHA256
dnssec_keys["KSK"] + ".key"
])
f.write(rr_ds)
# Remove our temporary file.
for fn in files_to_kill:
os.unlink(fn)
2014-08-27 12:56:17 +00:00
########################################################################
def write_opendkim_tables(domains, env):
# Append a record to OpenDKIM's KeyTable and SigningTable for each domain
# that we send mail from (zones and all subdomains).
opendkim_key_file = os.path.join(env['STORAGE_ROOT'], 'mail/dkim/mail.private')
if not os.path.exists(opendkim_key_file):
# Looks like OpenDKIM is not installed.
return False
config = {
# The SigningTable maps email addresses to a key in the KeyTable that
# specifies signing information for matching email addresses. Here we
# map each domain to a same-named key.
#
# Elsewhere we set the DMARC policy for each domain such that mail claiming
# to be From: the domain must be signed with a DKIM key on the same domain.
# So we must have a separate KeyTable entry for each domain.
"SigningTable":
"".join(
"*@{domain} {domain}\n".format(domain=domain)
for domain in domains
),
# The KeyTable specifies the signing domain, the DKIM selector, and the
# path to the private key to use for signing some mail. Per DMARC, the
# signing domain must match the sender's From: domain.
"KeyTable":
"".join(
"{domain} {domain}:mail:{key_file}\n".format(domain=domain, key_file=opendkim_key_file)
for domain in domains
),
}
did_update = False
for filename, content in config.items():
# Don't write the file if it doesn't need an update.
if os.path.exists("/etc/opendkim/" + filename):
with open("/etc/opendkim/" + filename) as f:
if f.read() == content:
continue
# The contents needs to change.
with open("/etc/opendkim/" + filename, "w") as f:
f.write(content)
did_update = True
# Return whether the files changed. If they didn't change, there's
# no need to kick the opendkim process.
return did_update
########################################################################
def set_custom_dns_record(qname, rtype, value, env):
# validate qname
for zone, fn in get_dns_zones(env):
# It must match a zone apex or be a subdomain of a zone
# that we are otherwise hosting.
if qname == zone or qname.endswith("."+zone):
break
else:
# No match.
raise ValueError("%s is not a domain name or a subdomain of a domain name managed by this box." % qname)
# validate rtype
rtype = rtype.upper()
if value is not None:
if rtype in ("A", "AAAA"):
v = ipaddress.ip_address(value)
if rtype == "A" and not isinstance(v, ipaddress.IPv4Address): raise ValueError("That's an IPv6 address.")
if rtype == "AAAA" and not isinstance(v, ipaddress.IPv6Address): raise ValueError("That's an IPv4 address.")
elif rtype in ("CNAME", "TXT", "SRV", "MX"):
# anything goes
pass
else:
raise ValueError("Unknown record type '%s'." % rtype)
# load existing config
config = get_custom_dns_config(env)
# update
if qname not in config:
if value is None:
# Is asking to delete a record that does not exist.
return False
elif rtype == "A":
# Add this record using the short form 'qname: value'.
config[qname] = value
else:
# Add this record. This is the qname's first record.
config[qname] = { rtype: value }
else:
if isinstance(config[qname], str):
# This is a short-form 'qname: value' implicit-A record.
if value is None and rtype != "A":
# Is asking to delete a record that doesn't exist.
return False
elif value is None and rtype == "A":
# Delete record.
del config[qname]
elif rtype == "A":
# Update, keeping short form.
if config[qname] == "value":
# No change.
return False
config[qname] = value
else:
# Expand short form so we can add a new record type.
config[qname] = { "A": config[qname], rtype: value }
else:
# This is the qname: { ... } (dict) format.
if value is None:
if rtype not in config[qname]:
# Is asking to delete a record that doesn't exist.
return False
else:
# Delete the record. If it's the last record, delete the domain.
del config[qname][rtype]
if len(config[qname]) == 0:
del config[qname]
else:
# Update the record.
if config[qname].get(rtype) == "value":
# No change.
return False
config[qname][rtype] = value
# serialize & save
write_custom_dns_config(config, env)
return True
########################################################################
def set_secondary_dns(hostname, env):
config = get_custom_dns_config(env)
if hostname in (None, ""):
# Clear.
if "_secondary_nameserver" in config:
del config["_secondary_nameserver"]
else:
# Validate.
hostname = hostname.strip().lower()
resolver = dns.resolver.get_default_resolver()
try:
response = dns.resolver.query(hostname, "A")
except (dns.resolver.NoNameservers, dns.resolver.NXDOMAIN, dns.resolver.NoAnswer):
raise ValueError("Could not resolve the IP address of %s." % hostname)
# Set.
config["_secondary_nameserver"] = hostname
# Save and apply.
write_custom_dns_config(config, env)
return do_dns_update(env)
########################################################################
def justtestingdotemail(domain, records):
# If the domain is a subdomain of justtesting.email, which we own,
# automatically populate the zone where it is set up on dns4e.com.
# Ideally if dns4e.com supported NS records we would just have it
# delegate DNS to us, but instead we will populate the whole zone.
import subprocess, json, urllib.parse
if not domain.endswith(".justtesting.email"):
return
for subdomain, querytype, value, explanation in records:
if querytype in ("NS",): continue
if subdomain in ("www", "ns1", "ns2"): continue # don't do unnecessary things
if subdomain == None:
subdomain = domain
else:
subdomain = subdomain + "." + domain
if querytype == "TXT":
# nsd requires parentheses around txt records with multiple parts,
# but DNS4E requires there be no parentheses; also it goes into
# nsd with a newline and a tab, which we replace with a space here
value = re.sub("^\s*\(\s*([\w\W]*)\)", r"\1", value)
value = re.sub("\s+", " ", value)
else:
continue
print("Updating DNS for %s/%s..." % (subdomain, querytype))
resp = json.loads(subprocess.check_output([
"curl",
"-s",
"https://api.dns4e.com/v7/%s/%s" % (urllib.parse.quote(subdomain), querytype.lower()),
"--user", "2ddbd8e88ed1495fa0ec:A97TDJV26CVUJS6hqAs0CKnhj4HvjTM7MwAAg8xb",
"--data", "record=%s" % urllib.parse.quote(value),
]).decode("utf8"))
print("\t...", resp.get("message", "?"))
########################################################################
2014-08-17 22:43:57 +00:00
def build_recommended_dns(env):
ret = []
domains = get_dns_domains(env)
zonefiles = get_dns_zones(env)
additional_records = get_custom_dns_config(env)
for domain, zonefile in zonefiles:
records = build_zone(domain, domains, additional_records, env)
# remove records that we don't dislay
records = [r for r in records if r[3] is not False]
2014-08-17 22:43:57 +00:00
# put Required at the top, then Recommended, then everythiing else
records.sort(key = lambda r : 0 if r[3].startswith("Required.") else (1 if r[3].startswith("Recommended.") else 2))
2014-08-17 22:43:57 +00:00
# expand qnames
for i in range(len(records)):
if records[i][0] == None:
qname = domain
else:
2014-08-17 22:43:57 +00:00
qname = records[i][0] + "." + domain
records[i] = {
"qname": qname,
"rtype": records[i][1],
"value": records[i][2],
"explanation": records[i][3],
}
# return
ret.append((domain, records))
return ret
if __name__ == "__main__":
from utils import load_environment
env = load_environment()
for zone, records in build_recommended_dns(env):
for record in records:
print("; " + record['explanation'])
print(record['qname'], record['rtype'], record['value'], sep="\t")
print()