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mirror of https://github.com/mail-in-a-box/mailinabox.git synced 2024-11-22 02:17:26 +00:00

Merge branch 'letsencrypt' for automatic provisioning of TLS certificates from Let's Encrypt

This commit is contained in:
Joshua Tauberer 2016-01-09 08:58:35 -05:00
commit 07f9228694
12 changed files with 729 additions and 127 deletions

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@ -10,11 +10,13 @@ Mail:
Control Panel:
* The SSL (now "TLS") certificates page now supports provisioning free SSL certificates from Let's Encrypt.
* Report free memory usage.
System:
* The daily backup will now email the administrator if there is a problem.
* Expiring TLS (SSL) certificates are now automatically renewed via Let's Encrypt.
v0.15a (January 9, 2016)
------------------------

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@ -1,6 +1,8 @@
## $HOSTNAME
# Redirect all HTTP to HTTPS.
# Redirect all HTTP to HTTPS *except* the ACME challenges (Let's Encrypt TLS certificate
# domain validation challenges) path, which must be served over HTTP per the ACME spec
# (due to some Apache vulnerability).
server {
listen 80;
listen [::]:80;
@ -12,10 +14,19 @@ server {
# error pages and in the "Server" HTTP-Header.
server_tokens off;
location / {
# Redirect using the 'return' directive and the built-in
# variable '$request_uri' to avoid any capturing, matching
# or evaluation of regular expressions.
return 301 https://$HOSTNAME$request_uri;
}
location /.well-known/acme-challenge/ {
# This path must be served over HTTP for ACME domain validation.
# We map this to a special path where our TLS cert provisioning
# tool knows to store challenge response files.
alias $STORAGE_ROOT/ssl/lets_encrypt/acme_challenges/;
}
}
# The secure HTTPS server.

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@ -327,6 +327,33 @@ def dns_get_dump():
# SSL
@app.route('/ssl/status')
@authorized_personnel_only
def ssl_get_status():
from ssl_certificates import get_certificates_to_provision
from web_update import get_web_domains_info, get_web_domains
# What domains can we provision certificates for? What unexpected problems do we have?
provision, cant_provision = get_certificates_to_provision(env, show_extended_problems=False)
# What's the current status of TLS certificates on all of the domain?
domains_status = get_web_domains_info(env)
domains_status = [{ "domain": d["domain"], "status": d["ssl_certificate"][0], "text": d["ssl_certificate"][1] } for d in domains_status ]
# Warn the user about domain names not hosted here because of other settings.
for domain in set(get_web_domains(env, exclude_dns_elsewhere=False)) - set(get_web_domains(env)):
domains_status.append({
"domain": domain,
"status": "not-applicable",
"text": "The domain's website is hosted elsewhere.",
})
return json_response({
"can_provision": utils.sort_domains(provision, env),
"cant_provision": [{ "domain": domain, "problem": cant_provision[domain] } for domain in utils.sort_domains(cant_provision, env) ],
"status": domains_status,
})
@app.route('/ssl/csr/<domain>', methods=['POST'])
@authorized_personnel_only
def ssl_get_csr(domain):
@ -346,6 +373,17 @@ def ssl_install_cert():
return "Invalid domain name."
return install_cert(domain, ssl_cert, ssl_chain, env)
@app.route('/ssl/provision', methods=['POST'])
@authorized_personnel_only
def ssl_provision_certs():
from ssl_certificates import provision_certificates
agree_to_tos_url = request.form.get('agree_to_tos_url')
status = provision_certificates(env,
agree_to_tos_url=agree_to_tos_url,
jsonable=True)
return json_response(status)
# WEB
@app.route('/web/domains')

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@ -4,5 +4,8 @@
# Take a backup.
management/backup.py | management/email_administrator.py "Backup Status"
# Provision any new certificates for new domains or domains with expiring certificates.
management/ssl_certificates.py --headless | management/email_administrator.py "Error Provisioning TLS Certificate"
# Run status checks and email the administrator if anything changed.
management/status_checks.py --show-changes | management/email_administrator.py "Status Checks Change Notice"

461
management/ssl_certificates.py Normal file → Executable file
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@ -1,8 +1,13 @@
#!/usr/bin/python3
# Utilities for installing and selecting SSL certificates.
import os, os.path, re, shutil
from utils import shell, safe_domain_name
from utils import shell, safe_domain_name, sort_domains
import idna
# SELECTING SSL CERTIFICATES FOR USE IN WEB
def get_ssl_certificates(env):
# Scan all of the installed SSL certificates and map every domain
@ -17,6 +22,8 @@ def get_ssl_certificates(env):
# List all of the files in the SSL directory and one level deep.
def get_file_list():
if not os.path.exists(ssl_root):
return
for fn in os.listdir(ssl_root):
fn = os.path.join(ssl_root, fn)
if os.path.isfile(fn):
@ -82,10 +89,27 @@ def get_ssl_certificates(env):
# prefer one that is not self-signed
cert.issuer != cert.subject,
###########################################################
# The above lines ensure that valid certificates are chosen
# over invalid certificates. The lines below choose between
# multiple valid certificates available for this domain.
###########################################################
# prefer one with the expiration furthest into the future so
# that we can easily rotate to new certs as we get them
cert.not_valid_after,
###########################################################
# We always choose the certificate that is good for the
# longest period of time. This is important for how we
# provision certificates for Let's Encrypt. To ensure that
# we don't re-provision every night, we have to ensure that
# if we choose to provison a certificate that it will
# *actually* be used so the provisioning logic knows it
# doesn't still need to provision a certificate for the
# domain.
###########################################################
# in case a certificate is installed in multiple paths,
# prefer the... lexicographically last one?
cert._filename,
@ -96,46 +120,417 @@ def get_ssl_certificates(env):
"private-key": cert._private_key._filename,
"certificate": cert._filename,
"primary-domain": cert._primary_domain,
"certificate_object": cert,
}
return ret
def get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=False):
# Get the default paths.
def get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=False, raw=False):
# Get the system certificate info.
ssl_private_key = os.path.join(os.path.join(env["STORAGE_ROOT"], 'ssl', 'ssl_private_key.pem'))
ssl_certificate = os.path.join(os.path.join(env["STORAGE_ROOT"], 'ssl', 'ssl_certificate.pem'))
system_certificate = {
"private-key": ssl_private_key,
"certificate": ssl_certificate,
"primary-domain": env['PRIMARY_HOSTNAME'],
"certificate_object": load_pem(load_cert_chain(ssl_certificate)[0]),
}
if domain == env['PRIMARY_HOSTNAME']:
# The primary domain must use the server certificate because
# it is hard-coded in some service configuration files.
return ssl_private_key, ssl_certificate, None
return system_certificate
wildcard_domain = re.sub("^[^\.]+", "*", domain)
if domain in ssl_certificates:
cert_info = ssl_certificates[domain]
cert_type = "multi-domain"
return ssl_certificates[domain]
elif wildcard_domain in ssl_certificates:
cert_info = ssl_certificates[wildcard_domain]
cert_type = "wildcard"
return ssl_certificates[wildcard_domain]
elif not allow_missing_cert:
# No certificate is available for this domain! Return default files.
ssl_via = "Using certificate for %s." % env['PRIMARY_HOSTNAME']
return ssl_private_key, ssl_certificate, ssl_via
# No valid certificate is available for this domain! Return default files.
return system_certificate
else:
# No certificate is available - and warn appropriately.
# No valid certificate is available for this domain.
return None
# 'via' is a hint to the user about which certificate is in use for the domain
if cert_info['certificate'] == os.path.join(env["STORAGE_ROOT"], 'ssl', 'ssl_certificate.pem'):
# Using the server certificate.
via = "Using same %s certificate as for %s." % (cert_type, env['PRIMARY_HOSTNAME'])
elif cert_info['primary-domain'] != domain and cert_info['primary-domain'] in ssl_certificates and cert_info == ssl_certificates[cert_info['primary-domain']]:
via = "Using same %s certificate as for %s." % (cert_type, cert_info['primary-domain'])
else:
via = None # don't show a hint - show expiration info instead
return cert_info['private-key'], cert_info['certificate'], via
# PROVISIONING CERTIFICATES FROM LETSENCRYPT
def get_certificates_to_provision(env, show_extended_problems=True, force_domains=None):
# Get a set of domain names that we should now provision certificates
# for. Provision if a domain name has no valid certificate or if any
# certificate is expiring in 14 days. If provisioning anything, also
# provision certificates expiring within 30 days. The period between
# 14 and 30 days allows us to consolidate domains into multi-domain
# certificates for domains expiring around the same time.
from web_update import get_web_domains
import datetime
now = datetime.datetime.utcnow()
# Get domains with missing & expiring certificates.
certs = get_ssl_certificates(env)
domains = set()
domains_if_any = set()
problems = { }
for domain in get_web_domains(env):
# If the user really wants a cert for certain domains, include it.
if force_domains:
if force_domains == "ALL" or (isinstance(force_domains, list) and domain in force_domains):
domains.add(domain)
continue
# Include this domain if its certificate is missing, self-signed, or expiring soon.
try:
cert = get_domain_ssl_files(domain, certs, env, allow_missing_cert=True)
except FileNotFoundError as e:
# system certificate is not present
problems[domain] = "Error: " + str(e)
continue
if cert is None:
# No valid certificate available.
domains.add(domain)
else:
cert = cert["certificate_object"]
if cert.issuer == cert.subject:
# This is self-signed. Get a real one.
domains.add(domain)
# Valid certificate today, but is it expiring soon?
elif cert.not_valid_after-now < datetime.timedelta(days=14):
domains.add(domain)
elif cert.not_valid_after-now < datetime.timedelta(days=30):
domains_if_any.add(domain)
# It's valid. Should we report its validness?
if show_extended_problems:
problems[domain] = "The certificate is valid for at least another 30 days --- no need to replace."
# Warn the user about domains hosted elsewhere.
if not force_domains and show_extended_problems:
for domain in set(get_web_domains(env, exclude_dns_elsewhere=False)) - set(get_web_domains(env)):
problems[domain] = "The domain's DNS is pointed elsewhere, so there is no point to installing a TLS certificate here and we could not automatically provision one anyway because provisioning requires access to the website (which isn't here)."
# Filter out domains that we can't provision a certificate for.
def can_provision_for_domain(domain):
# Let's Encrypt doesn't yet support IDNA domains.
# We store domains in IDNA (ASCII). To see if this domain is IDNA,
# we'll see if its IDNA-decoded form is different.
if idna.decode(domain.encode("ascii")) != domain:
problems[domain] = "Let's Encrypt does not yet support provisioning certificates for internationalized domains."
return False
# Does the domain resolve to this machine in public DNS? If not,
# we can't do domain control validation. For IPv6 is configured,
# make sure both IPv4 and IPv6 are correct because we don't know
# how Let's Encrypt will connect.
import dns.resolver
for rtype, value in [("A", env["PUBLIC_IP"]), ("AAAA", env.get("PUBLIC_IPV6"))]:
if not value: continue # IPv6 is not configured
try:
# Must make the qname absolute to prevent a fall-back lookup with a
# search domain appended, by adding a period to the end.
response = dns.resolver.query(domain + ".", rtype)
except (dns.resolver.NoNameservers, dns.resolver.NXDOMAIN, dns.resolver.NoAnswer) as e:
problems[domain] = "DNS isn't configured properly for this domain: DNS resolution failed (%s: %s)." % (rtype, str(e) or repr(e)) # NoAnswer's str is empty
return False
except Exception as e:
problems[domain] = "DNS isn't configured properly for this domain: DNS lookup had an error: %s." % str(e)
return False
if len(response) != 1 or str(response[0]) != value:
problems[domain] = "Domain control validation cannot be performed for this domain because DNS points the domain to another machine (%s %s)." % (rtype, ", ".join(str(r) for r in response))
return False
return True
domains = set(filter(can_provision_for_domain, domains))
# If there are any domains we definitely will provision for, add in
# additional domains to do at this time.
if len(domains) > 0:
domains |= set(filter(can_provision_for_domain, domains_if_any))
return (domains, problems)
def provision_certificates(env, agree_to_tos_url=None, logger=None, force_domains=None, jsonable=False):
import requests.exceptions
import acme.messages
from free_tls_certificates import client
# What domains should we provision certificates for? And what
# errors prevent provisioning for other domains.
domains, problems = get_certificates_to_provision(env, force_domains=force_domains)
# Exit fast if there is nothing to do.
if len(domains) == 0:
return {
"requests": [],
"problems": problems,
}
# Break into groups of up to 100 certificates at a time, which is Let's Encrypt's
# limit for a single certificate. We'll sort to put related domains together.
domains = sort_domains(domains, env)
certs = []
while len(domains) > 0:
certs.append( domains[0:100] )
domains = domains[100:]
# Prepare to provision.
# Where should we put our Let's Encrypt account info and state cache.
account_path = os.path.join(env['STORAGE_ROOT'], 'ssl/lets_encrypt')
if not os.path.exists(account_path):
os.mkdir(account_path)
# Where should we put ACME challenge files. This is mapped to /.well-known/acme_challenge
# by the nginx configuration.
challenges_path = os.path.join(account_path, 'acme_challenges')
if not os.path.exists(challenges_path):
os.mkdir(challenges_path)
# Read in the private key that we use for all TLS certificates. We'll need that
# to generate a CSR (done by free_tls_certificates).
with open(os.path.join(env['STORAGE_ROOT'], 'ssl/ssl_private_key.pem'), 'rb') as f:
private_key = f.read()
# Provision certificates.
ret = []
for domain_list in certs:
# For return.
ret_item = {
"domains": domain_list,
"log": [],
}
ret.append(ret_item)
# Logging for free_tls_certificates.
def my_logger(message):
if logger: logger(message)
ret_item["log"].append(message)
# Attempt to provision a certificate.
try:
try:
cert = client.issue_certificate(
domain_list,
account_path,
agree_to_tos_url=agree_to_tos_url,
private_key=private_key,
logger=my_logger)
except client.NeedToTakeAction as e:
# Write out the ACME challenge files.
for action in e.actions:
if isinstance(action, client.NeedToInstallFile):
fn = os.path.join(challenges_path, action.file_name)
with open(fn, 'w') as f:
f.write(action.contents)
else:
raise ValueError(str(action))
# Try to provision now that the challenge files are installed.
cert = client.issue_certificate(
domain_list,
account_path,
private_key=private_key,
logger=my_logger)
except client.NeedToAgreeToTOS as e:
# The user must agree to the Let's Encrypt terms of service agreement
# before any further action can be taken.
ret_item.update({
"result": "agree-to-tos",
"url": e.url,
})
except client.WaitABit as e:
# We need to hold on for a bit before querying again to see if we can
# acquire a provisioned certificate.
import time, datetime
ret_item.update({
"result": "wait",
"until": e.until_when if not jsonable else e.until_when.isoformat(),
"seconds": (e.until_when - datetime.datetime.now()).total_seconds()
})
except client.AccountDataIsCorrupt as e:
# This is an extremely rare condition.
ret_item.update({
"result": "error",
"message": "Something unexpected went wrong. It looks like your local Let's Encrypt account data is corrupted. There was a problem with the file " + e.account_file_path + ".",
})
except (client.InvalidDomainName, client.NeedToTakeAction, acme.messages.Error, requests.exceptions.RequestException) as e:
ret_item.update({
"result": "error",
"message": "Something unexpected went wrong: " + str(e),
})
else:
# A certificate was issued.
install_status = install_cert(domain_list[0], cert['cert'].decode("ascii"), b"\n".join(cert['chain']).decode("ascii"), env, raw=True)
# str indicates the certificate was not installed.
if isinstance(install_status, str):
ret_item.update({
"result": "error",
"message": "Something unexpected was wrong with the provisioned certificate: " + install_status,
})
else:
# A list indicates success and what happened next.
ret_item["log"].extend(install_status)
ret_item.update({
"result": "installed",
})
# Return what happened with each certificate request.
return {
"requests": ret,
"problems": problems,
}
def provision_certificates_cmdline():
import sys
from utils import load_environment, exclusive_process
exclusive_process("update_tls_certificates")
env = load_environment()
verbose = False
headless = False
force_domains = None
args = list(sys.argv)
args.pop(0) # program name
if args and args[0] == "-v":
verbose = True
args.pop(0)
if args and args[0] == "--headless":
headless = True
args.pop(0)
if args and args[0] == "--force":
force_domains = "ALL"
args.pop(0)
else:
force_domains = args
agree_to_tos_url = None
while True:
# Run the provisioning script. This installs certificates. If there are
# a very large number of domains on this box, it issues separate
# certificates for groups of domains. We have to check the result for
# each group.
def my_logger(message):
if verbose:
print(">", message)
status = provision_certificates(env, agree_to_tos_url=agree_to_tos_url, logger=my_logger, force_domains=force_domains)
agree_to_tos_url = None # reset to prevent infinite looping
if not status["requests"]:
# No domains need certificates.
if not headless or verbose:
if len(status["problems"]) == 0:
print("No domains hosted on this box need a new TLS certificate at this time.")
elif len(status["problems"]) > 0:
print("No TLS certificates could be provisoned at this time:")
print()
for domain in sort_domains(status["problems"], env):
print("%s: %s" % (domain, status["problems"][domain]))
sys.exit(0)
# What happened?
wait_until = None
wait_domains = []
for request in status["requests"]:
if request["result"] == "agree-to-tos":
# We may have asked already in a previous iteration.
if agree_to_tos_url is not None:
continue
# Can't ask the user a question in this mode.
if headless in sys.argv:
print("Can't issue TLS certficate until user has agreed to Let's Encrypt TOS.")
sys.exit(1)
print("""
I'm going to provision a TLS certificate (formerly called a SSL certificate)
for you from Let's Encrypt (letsencrypt.org).
TLS certificates are cryptographic keys that ensure communication between
you and this box are secure when getting and sending mail and visiting
websites hosted on this box. Let's Encrypt is a free provider of TLS
certificates.
Please open this document in your web browser:
%s
It is Let's Encrypt's terms of service agreement. If you agree, I can
provision that TLS certificate. If you don't agree, you will have an
opportunity to install your own TLS certificate from the Mail-in-a-Box
control panel.
Do you agree to the agreement? Type Y or N and press <ENTER>: """
% request["url"], end='', flush=True)
if sys.stdin.readline().strip().upper() != "Y":
print("\nYou didn't agree. Quitting.")
sys.exit(1)
# Okay, indicate agreement on next iteration.
agree_to_tos_url = request["url"]
if request["result"] == "wait":
# Must wait. We'll record until when. The wait occurs below.
if wait_until is None:
wait_until = request["until"]
else:
wait_until = max(wait_until, request["until"])
wait_domains += request["domains"]
if request["result"] == "error":
print(", ".join(request["domains"]) + ":")
print(request["message"])
if request["result"] == "installed":
print("A TLS certificate was successfully installed for " + ", ".join(request["domains"]) + ".")
if wait_until:
# Wait, then loop.
import time, datetime
print()
print("A TLS certificate was requested for: " + ", ".join(wait_domains) + ".")
first = True
while wait_until > datetime.datetime.now():
if "--headless" not in sys.argv or first:
print ("We have to wait", int(round((wait_until - datetime.datetime.now()).total_seconds())), "seconds for the certificate to be issued...")
time.sleep(10)
first = False
continue # Loop!
if agree_to_tos_url:
# The user agrees to the TOS. Loop to try again by agreeing.
continue # Loop!
# Unless we were instructed to wait, or we just agreed to the TOS,
# we're done for now.
break
# And finally show the domains with problems.
if len(status["problems"]) > 0:
print("TLS certificates could not be provisoned for:")
for domain in sort_domains(status["problems"], env):
print("%s: %s" % (domain, status["problems"][domain]))
# INSTALLING A NEW CERTIFICATE FROM THE CONTROL PANEL
def create_csr(domain, ssl_key, country_code, env):
return shell("check_output", [
@ -144,7 +539,7 @@ def create_csr(domain, ssl_key, country_code, env):
"-sha256",
"-subj", "/C=%s/ST=/L=/O=/CN=%s" % (country_code, domain)])
def install_cert(domain, ssl_cert, ssl_chain, env):
def install_cert(domain, ssl_cert, ssl_chain, env, raw=False):
# Write the combined cert+chain to a temporary path and validate that it is OK.
# The certificate always goes above the chain.
import tempfile
@ -203,8 +598,10 @@ def install_cert(domain, ssl_cert, ssl_chain, env):
# Update the web configuration so nginx picks up the new certificate file.
from web_update import do_web_update
ret.append( do_web_update(env) )
if raw: return ret
return "\n".join(ret)
# VALIDATION OF CERTIFICATES
def check_certificate(domain, ssl_certificate, ssl_private_key, warn_if_expiring_soon=True, rounded_time=False, just_check_domain=False):
# Check that the ssl_certificate & ssl_private_key files are good
@ -296,7 +693,7 @@ def check_certificate(domain, ssl_certificate, ssl_private_key, warn_if_expiring
return ("The certificate is missing an intermediate chain or the intermediate chain is incorrect or incomplete. (%s)" % verifyoutput, None)
# There is some unknown problem. Return the `openssl verify` raw output.
return ("There is a problem with the SSL certificate.", verifyoutput.strip())
return ("There is a problem with the certificate.", verifyoutput.strip())
else:
# `openssl verify` returned a zero exit status so the cert is currently
@ -305,16 +702,16 @@ def check_certificate(domain, ssl_certificate, ssl_private_key, warn_if_expiring
# But is it expiring soon?
cert_expiration_date = cert.not_valid_after
ndays = (cert_expiration_date-now).days
if not rounded_time or ndays < 7:
if not rounded_time or ndays <= 10:
# Yikes better renew soon!
expiry_info = "The certificate expires in %d days on %s." % (ndays, cert_expiration_date.strftime("%x"))
elif ndays <= 14:
expiry_info = "The certificate expires in less than two weeks, on %s." % cert_expiration_date.strftime("%x")
elif ndays <= 31:
expiry_info = "The certificate expires in less than a month, on %s." % cert_expiration_date.strftime("%x")
else:
# We'll renew it with Lets Encrypt.
expiry_info = "The certificate expires on %s." % cert_expiration_date.strftime("%x")
if ndays <= 31 and warn_if_expiring_soon:
if ndays <= 10 and warn_if_expiring_soon:
# Warn on day 10 to give 4 days for us to automatically renew the
# certificate, which occurs on day 14.
return ("The certificate is expiring soon: " + expiry_info, None)
# Return the special OK code.
@ -381,3 +778,7 @@ def get_certificate_domains(cert):
pass
return names, cn
if __name__ == "__main__":
# Provision certificates.
provision_certificates_cmdline()

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@ -1,7 +1,7 @@
#!/usr/bin/python3
#
# Checks that the upstream DNS has been set correctly and that
# SSL certificates have been signed, etc., and if not tells the user
# TLS certificates have been signed, etc., and if not tells the user
# what to do next.
import sys, os, os.path, re, subprocess, datetime, multiprocessing.pool
@ -278,23 +278,24 @@ def run_domain_checks(rounded_time, env, output, pool):
# Get the list of domains that we don't serve web for because of a custom CNAME/A record.
domains_with_a_records = get_domains_with_a_records(env)
ssl_certificates = get_ssl_certificates(env)
# Serial version:
#for domain in sort_domains(domains_to_check, env):
# run_domain_checks_on_domain(domain, rounded_time, env, dns_domains, dns_zonefiles, mail_domains, web_domains)
# Parallelize the checks across a worker pool.
args = ((domain, rounded_time, env, dns_domains, dns_zonefiles, mail_domains, web_domains, domains_with_a_records, ssl_certificates)
args = ((domain, rounded_time, env, dns_domains, dns_zonefiles, mail_domains, web_domains, domains_with_a_records)
for domain in domains_to_check)
ret = pool.starmap(run_domain_checks_on_domain, args, chunksize=1)
ret = dict(ret) # (domain, output) => { domain: output }
for domain in sort_domains(ret, env):
ret[domain].playback(output)
def run_domain_checks_on_domain(domain, rounded_time, env, dns_domains, dns_zonefiles, mail_domains, web_domains, domains_with_a_records, ssl_certificates):
def run_domain_checks_on_domain(domain, rounded_time, env, dns_domains, dns_zonefiles, mail_domains, web_domains, domains_with_a_records):
output = BufferedOutput()
# we'd move this up, but this returns non-pickleable values
ssl_certificates = get_ssl_certificates(env)
# The domain is IDNA-encoded in the database, but for display use Unicode.
try:
domain_display = idna.decode(domain.encode('ascii'))
@ -600,15 +601,23 @@ def check_web_domain(domain, rounded_time, ssl_certificates, env, output):
# for PRIMARY_HOSTNAME, for which it is required for mail specifically. For it and
# other domains, it is required to access its website.
if domain != env['PRIMARY_HOSTNAME']:
ip = query_dns(domain, "A")
if ip == env['PUBLIC_IP']:
output.print_ok("Domain resolves to this box's IP address. [%s%s]" % (domain, env['PUBLIC_IP']))
ok_values = []
for (rtype, expected) in (("A", env['PUBLIC_IP']), ("AAAA", env.get('PUBLIC_IPV6'))):
if not expected: continue # IPv6 is not configured
value = query_dns(domain, rtype)
if value == expected:
ok_values.append(value)
else:
output.print_error("""This domain should resolve to your box's IP address (%s) if you would like the box to serve
output.print_error("""This domain should resolve to your box's IP address (%s %s) if you would like the box to serve
webmail or a website on this domain. The domain currently resolves to %s in public DNS. It may take several hours for
public DNS to update after a change. This problem may result from other issues listed here.""" % (env['PUBLIC_IP'], ip))
public DNS to update after a change. This problem may result from other issues listed here.""" % (rtype, expected, value))
return
# We need a SSL certificate for PRIMARY_HOSTNAME because that's where the
# If both A and AAAA are correct...
output.print_ok("Domain resolves to this box's IP address. [%s%s]" % (domain, '; '.join(ok_values)))
# We need a TLS certificate for PRIMARY_HOSTNAME because that's where the
# user will log in with IMAP or webmail. Any other domain we serve a
# website for also needs a signed certificate.
check_ssl_cert(domain, rounded_time, ssl_certificates, env, output)
@ -650,56 +659,39 @@ def query_dns(qname, rtype, nxdomain='[Not Set]', at=None):
return "; ".join(sorted(str(r).rstrip('.') for r in response))
def check_ssl_cert(domain, rounded_time, ssl_certificates, env, output):
# Check that SSL certificate is signed.
# Check that TLS certificate is signed.
# Skip the check if the A record is not pointed here.
if query_dns(domain, "A", None) not in (env['PUBLIC_IP'], None): return
# Where is the SSL stored?
x = get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=True)
if x is None:
output.print_warning("""No SSL certificate is installed for this domain. Visitors to a website on
# Where is the certificate file stored?
tls_cert = get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=True)
if tls_cert is None:
output.print_warning("""No TLS (SSL) certificate is installed for this domain. Visitors to a website on
this domain will get a security warning. If you are not serving a website on this domain, you do
not need to take any action. Use the SSL Certificates page in the control panel to install a
SSL certificate.""")
not need to take any action. Use the TLS Certificates page in the control panel to install a
TLS certificate.""")
return
ssl_key, ssl_certificate, ssl_via = x
# Check that the certificate is good.
cert_status, cert_status_details = check_certificate(domain, ssl_certificate, ssl_key, rounded_time=rounded_time)
cert_status, cert_status_details = check_certificate(domain, tls_cert["certificate"], tls_cert["private-key"], rounded_time=rounded_time)
if cert_status == "OK":
# The certificate is ok. The details has expiry info.
output.print_ok("SSL certificate is signed & valid. %s %s" % (ssl_via if ssl_via else "", cert_status_details))
output.print_ok("TLS (SSL) certificate is signed & valid. " + cert_status_details)
elif cert_status == "SELF-SIGNED":
# Offer instructions for purchasing a signed certificate.
fingerprint = shell('check_output', [
"openssl",
"x509",
"-in", ssl_certificate,
"-noout",
"-fingerprint"
])
fingerprint = re.sub(".*Fingerprint=", "", fingerprint).strip()
if domain == env['PRIMARY_HOSTNAME']:
output.print_error("""The SSL certificate for this domain is currently self-signed. You will get a security
output.print_error("""The TLS (SSL) certificate for this domain is currently self-signed. You will get a security
warning when you check or send email and when visiting this domain in a web browser (for webmail or
static site hosting). Use the SSL Certificates page in the control panel to install a signed SSL certificate.
You may choose to leave the self-signed certificate in place and confirm the security exception, but check that
the certificate fingerprint matches the following:""")
output.print_line("")
output.print_line(" " + fingerprint, monospace=True)
static site hosting).""")
else:
output.print_error("""The SSL certificate for this domain is self-signed.""")
output.print_error("""The TLS (SSL) certificate for this domain is self-signed.""")
else:
output.print_error("The SSL certificate has a problem: " + cert_status)
output.print_error("The TLS (SSL) certificate has a problem: " + cert_status)
if cert_status_details:
output.print_line("")
output.print_line(cert_status_details)
@ -927,10 +919,10 @@ if __name__ == "__main__":
if query_dns(domain, "A") != env['PUBLIC_IP']:
sys.exit(1)
ssl_certificates = get_ssl_certificates(env)
ssl_key, ssl_certificate, ssl_via = get_domain_ssl_files(domain, ssl_certificates, env)
if not os.path.exists(ssl_certificate):
tls_cert = get_domain_ssl_files(domain, ssl_certificates, env)
if not os.path.exists(tls_cert["certificate"]):
sys.exit(1)
cert_status, cert_status_details = check_certificate(domain, ssl_certificate, ssl_key, warn_if_expiring_soon=False)
cert_status, cert_status_details = check_certificate(domain, tls_cert["certificate"], tls_cert["private-key"], warn_if_expiring_soon=False)
if cert_status != "OK":
sys.exit(1)
sys.exit(0)

View File

@ -87,7 +87,7 @@
<a href="#" class="dropdown-toggle" data-toggle="dropdown">System <b class="caret"></b></a>
<ul class="dropdown-menu">
<li><a href="#system_status" onclick="return show_panel(this);">Status Checks</a></li>
<li><a href="#ssl" onclick="return show_panel(this);">SSL Certificates</a></li>
<li><a href="#tls" onclick="return show_panel(this);">TLS (SSL) Certificates</a></li>
<li><a href="#system_backup" onclick="return show_panel(this);">Backup Status</a></li>
<li class="divider"></li>
<li class="dropdown-header">Advanced Pages</li>
@ -155,7 +155,7 @@
{% include "web.html" %}
</div>
<div id="panel_ssl" class="admin_panel">
<div id="panel_tls" class="admin_panel">
{% include "ssl.html" %}
</div>

View File

@ -1,12 +1,46 @@
<style>
</style>
<h2>SSL Certificates</h2>
<h2>TLS (SSL) Certificates</h2>
<p>A TLS (formerly called SSL) certificate is a cryptographic file that proves to anyone connecting to a web address that the connection is secure between you and the owner of that address.</p>
<p>You need a TLS certificate for this box&rsquo;s hostname ({{hostname}}) and every other domain name and subdomain that this box is hosting a website for (see the list below).</p>
<div id="ssl_provision">
<h3>Provision a Certificate</h3>
<div id="ssl_provision_p" style="display: none; margin-top: 1.5em">
<button onclick='return provision_tls_cert();' class='btn btn-primary' style="float: left; margin: 0 1.5em 1em 0;">Provision</button>
<p>A TLS certificate can be automatically provisioned from <a href="https://letsencrypt.org/" target="_blank">Let&rsquo;s Encrypt</a>, a free TLS certificate provider, for:<br>
<span class="text-primary"></span></p>
</div>
<div class="clearfix"> </div>
<div id="ssl_provision_result"></div>
<div id="ssl_provision_problems_div" style="display: none;">
<p style="margin-bottom: .5em;">Certificates cannot be automatically provisioned for:</p>
<table id="ssl_provision_problems" style="margin-top: 0;" class="table">
<thead>
<tr>
<th>Domain</th>
<th>Problem</th>
</tr>
</thead>
<tbody>
</tbody>
</table>
<p>Use the <em>Install Certificate</em> button below for these domains.</p>
</div>
</div>
<h3>Certificate Status</h3>
<p style="margin-top: 1.5em">Certificates expire after a period of time. All certificates will be automatically renewed through <a href="https://letsencrypt.org/" target="_blank">Let&rsquo;s Encrypt</a> 14 days prior to expiration.</p>
<table id="ssl_domains" class="table" style="margin-bottom: 2em; width: auto;">
<table id="ssl_domains" class="table" style="margin-bottom: 2em; width: auto; display: none">
<thead>
<tr>
<th>Domain</th>
@ -18,17 +52,18 @@
</tbody>
</table>
<p>A multi-domain or wildcard certificate will be automatically applied to any domains it is valid for.</p>
<h3 id="ssl_install_header">Install SSL Certificate</h3>
<h3 id="ssl_install_header">Install Certificate</h3>
<p>There are many places where you can get a free or cheap SSL certificate. We recommend <a href="https://www.namecheap.com/security/ssl-certificates/domain-validation.aspx">Namecheap&rsquo;s $9 certificate</a>, <a href="https://www.startssl.com/">StartSSL&rsquo;s free express lane</a> or <a href="https://buy.wosign.com/free/">WoSign&rsquo;s free SSL</a></a>.</p>
<p>There are many places where you can get a free or cheap certificate. We recommend <a href="https://www.namecheap.com/security/ssl-certificates/domain-validation.aspx">Namecheap&rsquo;s $9 certificate</a>, <a href="https://www.startssl.com/">StartSSL&rsquo;s free express lane</a> or <a href="https://buy.wosign.com/free/">WoSign&rsquo;s free TLS</a></a>.</p>
<p>Which domain are you getting an SSL certificate for?</p>
<p>Which domain are you getting a certificate for?</p>
<p><select id="ssldomain" onchange="show_csr()" class="form-control" style="width: auto"></select></p>
<p>What country are you in? This is required by some SSL certificate providers. You may leave this blank if you know your SSL certificate provider doesn't require it.</p>
<p>(A multi-domain or wildcard certificate will be automatically applied to any domains it is valid for besides the one you choose above.)</p>
<p>What country are you in? This is required by some TLS certificate providers. You may leave this blank if you know your TLS certificate provider doesn't require it.</p>
<p><select id="sslcc" onchange="show_csr()" class="form-control" style="width: auto">
<option value="">(Select)</option>
@ -38,18 +73,18 @@
</select></p>
<div id="csr_info" style="display: none">
<p>You will need to provide the SSL certificate provider this Certificate Signing Request (CSR):</p>
<p>You will need to provide the certificate provider this Certificate Signing Request (CSR):</p>
<pre id="ssl_csr"></pre>
<p><small>The CSR is safe to share. It can only be used in combination with a secret key stored on this machine.</small></p>
<p>The SSL certificate provider will then provide you with an SSL certificate. They may also provide you with an intermediate chain. Paste each separately into the boxes below:</p>
<p>The certificate provider will then provide you with a TLS/SSL certificate. They may also provide you with an intermediate chain. Paste each separately into the boxes below:</p>
<p style="margin-bottom: .5em">SSL certificate:</p>
<p style="margin-bottom: .5em">TLS/SSL certificate:</p>
<p><textarea id="ssl_paste_cert" class="form-control" style="max-width: 40em; height: 8em" placeholder="-----BEGIN CERTIFICATE-----&#xA;stuff here&#xA;-----END CERTIFICATE-----"></textarea></p>
<p style="margin-bottom: .5em">SSL intermediate chain (if provided):</p>
<p style="margin-bottom: .5em">TLS/SSL intermediate chain (if provided):</p>
<p><textarea id="ssl_paste_chain" class="form-control" style="max-width: 40em; height: 8em" placeholder="-----BEGIN CERTIFICATE-----&#xA;stuff here&#xA;-----END CERTIFICATE-----&#xA;-----BEGIN CERTIFICATE-----&#xA;more stuff here&#xA;-----END CERTIFICATE-----"></textarea></p>
<p>After you paste in the information, click the install button.</p>
@ -58,26 +93,53 @@
</div>
<script>
function show_ssl() {
function show_tls(keep_provisioning_shown) {
api(
"/web/domains",
"/ssl/status",
"GET",
{
},
function(domains) {
function(res) {
// provisioning status
if (!keep_provisioning_shown)
$('#ssl_provision').toggle(res.can_provision.length + res.cant_provision.length > 0)
$('#ssl_provision_p').toggle(res.can_provision.length > 0);
if (res.can_provision.length > 0)
$('#ssl_provision_p span').text(res.can_provision.join(", "));
$('#ssl_provision_problems_div').toggle(res.cant_provision.length > 0);
$('#ssl_provision_problems tbody').text("");
for (var i = 0; i < res.cant_provision.length; i++) {
var domain = res.cant_provision[i];
var row = $("<tr><th class='domain'><a href=''></a></th><td class='status'></td></tr>");
$('#ssl_provision_problems tbody').append(row);
row.attr('data-domain', domain.domain);
row.find('.domain a').text(domain.domain);
row.find('.domain a').attr('href', 'https://' + domain.domain);
row.find('.status').text(domain.problem);
}
// certificate status
var domains = res.status;
var tb = $('#ssl_domains tbody');
tb.text('');
$('#ssldomain').html('<option value="">(select)</option>');
$('#ssl_domains').show();
for (var i = 0; i < domains.length; i++) {
var row = $("<tr><th class='domain'><a href=''></a></th><td class='status'></td> <td class='actions'><a href='#' onclick='return ssl_install(this);' class='btn btn-xs'>Install Certificate</a></td></tr>");
tb.append(row);
row.attr('data-domain', domains[i].domain);
row.find('.domain a').text(domains[i].domain);
row.find('.domain a').attr('href', 'https://' + domains[i].domain);
row.addClass("text-" + domains[i].ssl_certificate[0]);
row.find('.status').text(domains[i].ssl_certificate[1]);
if (domains[i].ssl_certificate[0] == "success") {
if (domains[i].status == "not-applicable") {
domains[i].status = "muted"; // text-muted css class
row.find('.actions a').remove(); // no actions applicable
}
row.addClass("text-" + domains[i].status);
row.find('.status').text(domains[i].text);
if (domains[i].status == "success") {
row.find('.actions a').addClass('btn-default').text('Replace Certificate');
} else {
row.find('.actions a').addClass('btn-primary').text('Install Certificate');
@ -91,14 +153,15 @@ function show_ssl() {
function ssl_install(elem) {
var domain = $(elem).parents('tr').attr('data-domain');
$('#ssldomain').val(domain);
$('#csr_info').slideDown();
$('#ssl_csr').text('Loading...');
show_csr();
$('html, body').animate({ scrollTop: $('#ssl_install_header').offset().top - $('.navbar-fixed-top').height() - 20 })
return false;
}
function show_csr() {
if ($('#ssldomain').val() == "") return;
$('#csr_info').slideDown();
$('#ssl_csr').text('Loading...');
api(
"/ssl/csr/" + $('#ssldomain').val(),
"POST",
@ -122,10 +185,100 @@ function install_cert() {
function(status) {
if (/^OK($|\n)/.test(status)) {
console.log(status)
show_modal_error("SSL Certificate Installation", "Certificate has been installed. Check that you have no connection problems to the domain.", function() { show_ssl(); $('#csr_info').slideUp(); });
show_modal_error("TLS Certificate Installation", "Certificate has been installed. Check that you have no connection problems to the domain.", function() { show_ssl(); $('#csr_info').slideUp(); });
} else {
show_modal_error("SSL Certificate Installation", status);
show_modal_error("TLS Certificate Installation", status);
}
});
}
var agree_to_tos_url_prompt = null;
var agree_to_tos_url = null;
function provision_tls_cert() {
// Automatically provision any certs.
$('#ssl_provision_p .btn').attr('disabled', '1'); // prevent double-clicks
api(
"/ssl/provision",
"POST",
{
agree_to_tos_url: agree_to_tos_url
},
function(status) {
// Clear last attempt.
agree_to_tos_url = null;
$('#ssl_provision_result').text("");
may_reenable_provision_button = true;
// Nothing was done. There might also be problem domains, but we've already displayed those.
if (status.requests.length == 0) {
show_modal_error("TLS Certificate Provisioning", "There were no domain names to provision certificates for.");
// don't return - haven't re-enabled the provision button
}
// Each provisioning API call returns zero or more "requests" which represent
// a request to Let's Encrypt for a single certificate. Normally there is just
// one request (for a single multi-domain certificate).
for (var i = 0; i < status.requests.length; i++) {
var r = status.requests[i];
// create an HTML block to display the results of this request
var n = $("<div><h4/><p/></div>");
$('#ssl_provision_result').append(n);
// show a header only to disambiguate request blocks
if (status.requests.length > 0)
n.find("h4").text(r.domains.join(", "));
if (r.result == "agree-to-tos") {
// user needs to agree to Let's Encrypt's TOS
agree_to_tos_url_prompt = r.url;
$('#ssl_provision_p .btn').attr('disabled', '1');
n.find("p").html("Please open and review <a href='" + r.url + "' target='_blank'>Let's Encrypt's terms of service agreement</a>. You must agree to their terms for a certificate to be automatically provisioned from them.");
n.append($('<button onclick="agree_to_tos_url = agree_to_tos_url_prompt; return provision_tls_cert();" class="btn btn-success" style="margin-left: 2em">Agree &amp; Try Again</button>'));
// don't re-enable the Provision button -- user must use the Agree button
may_reenable_provision_button = false;
} else if (r.result == "error") {
n.find("p").addClass("text-danger").text(r.message);
} else if (r.result == "wait") {
// Show a button that counts down to zero, at which point it becomes enabled.
n.find("p").text("A certificate is now in the process of being provisioned, but it takes some time. Please wait until the Finish button is enabled, and then click it to acquire the certificate.");
var b = $('<button onclick="return provision_tls_cert();" class="btn btn-success" style="margin-left: 2em">Finish</button>');
b.attr("disabled", "1");
var now = new Date();
n.append(b);
function ready_to_finish() {
var remaining = r.seconds - Math.round((new Date() - now)/1000);
if (remaining > 0) {
setTimeout(ready_to_finish, 1000);
b.text("Finish (" + remaining + "...)")
} else {
b.text("Finish (ready)")
b.removeAttr("disabled");
}
}
ready_to_finish();
// don't re-enable the Provision button -- user must use the Retry button when it becomes enabled
may_reenable_provision_button = false;
} else if (r.result == "installed") {
n.find("p").addClass("text-success").text("The TLS certificate was provisioned and installed.");
setTimeout("show_tls(true)", 1); // update main table of certificate statuses, call with arg keep_provisioning_shown true so that we don't clear what we just outputted
}
// display the detailed log info in case of problems
var trace = $("<div class='small text-muted' style='margin-top: 1.5em'>Log:</div>");
n.append(trace);
for (var j = 0; j < r.log.length; j++)
trace.append($("<div/>").text(r.log[j]));
}
if (may_reenable_provision_button)
$('#ssl_provision_p .btn').removeAttr("disabled");
});
}
</script>

View File

@ -9,7 +9,7 @@ from dns_update import get_custom_dns_config, get_dns_zones
from ssl_certificates import get_ssl_certificates, get_domain_ssl_files, check_certificate
from utils import shell, safe_domain_name, sort_domains
def get_web_domains(env, include_www_redirects=True):
def get_web_domains(env, include_www_redirects=True, exclude_dns_elsewhere=True):
# What domains should we serve HTTP(S) for?
domains = set()
@ -24,6 +24,7 @@ def get_web_domains(env, include_www_redirects=True):
# the topmost of each domain we serve.
domains |= set('www.' + zone for zone, zonefile in get_dns_zones(env))
if exclude_dns_elsewhere:
# ...Unless the domain has an A/AAAA record that maps it to a different
# IP address than this box. Remove those domains from our list.
domains -= get_domains_with_a_records(env)
@ -119,7 +120,7 @@ def make_domain_config(domain, templates, ssl_certificates, env):
root = get_web_root(domain, env)
# What private key and SSL certificate will we use for this domain?
ssl_key, ssl_certificate, ssl_via = get_domain_ssl_files(domain, ssl_certificates, env)
tls_cert = get_domain_ssl_files(domain, ssl_certificates, env)
# ADDITIONAL DIRECTIVES.
@ -136,7 +137,7 @@ def make_domain_config(domain, templates, ssl_certificates, env):
finally:
f.close()
return sha1.hexdigest()
nginx_conf_extra += "# ssl files sha1: %s / %s\n" % (hashfile(ssl_key), hashfile(ssl_certificate))
nginx_conf_extra += "# ssl files sha1: %s / %s\n" % (hashfile(tls_cert["private-key"]), hashfile(tls_cert["certificate"]))
# Add in any user customizations in YAML format.
hsts = "yes"
@ -177,8 +178,8 @@ def make_domain_config(domain, templates, ssl_certificates, env):
nginx_conf = nginx_conf.replace("$STORAGE_ROOT", env['STORAGE_ROOT'])
nginx_conf = nginx_conf.replace("$HOSTNAME", domain)
nginx_conf = nginx_conf.replace("$ROOT", root)
nginx_conf = nginx_conf.replace("$SSL_KEY", ssl_key)
nginx_conf = nginx_conf.replace("$SSL_CERTIFICATE", ssl_certificate)
nginx_conf = nginx_conf.replace("$SSL_KEY", tls_cert["private-key"])
nginx_conf = nginx_conf.replace("$SSL_CERTIFICATE", tls_cert["certificate"])
nginx_conf = nginx_conf.replace("$REDIRECT_DOMAIN", re.sub(r"^www\.", "", domain)) # for default www redirects to parent domain
return nginx_conf
@ -193,20 +194,15 @@ def get_web_root(domain, env, test_exists=True):
def get_web_domains_info(env):
www_redirects = set(get_web_domains(env)) - set(get_web_domains(env, include_www_redirects=False))
has_root_proxy_or_redirect = set(get_web_domains_with_root_overrides(env))
ssl_certificates = get_ssl_certificates(env)
# for the SSL config panel, get cert status
def check_cert(domain):
ssl_certificates = get_ssl_certificates(env)
x = get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=True)
if x is None: return ("danger", "No Certificate Installed")
ssl_key, ssl_certificate, ssl_via = x
cert_status, cert_status_details = check_certificate(domain, ssl_certificate, ssl_key)
tls_cert = get_domain_ssl_files(domain, ssl_certificates, env, allow_missing_cert=True)
if tls_cert is None: return ("danger", "No Certificate Installed")
cert_status, cert_status_details = check_certificate(domain, tls_cert["certificate"], tls_cert["private-key"])
if cert_status == "OK":
if not ssl_via:
return ("success", "Signed & valid. " + cert_status_details)
else:
# This is an alternate domain but using the same cert as the primary domain.
return ("success", "Signed & valid. " + ssl_via)
elif cert_status == "SELF-SIGNED":
return ("warning", "Self-signed. Get a signed certificate to stop warnings.")
else:

View File

@ -38,7 +38,7 @@ These services are protected by [TLS](https://en.wikipedia.org/wiki/Transport_La
The services all follow these rules:
* SSL certificates are generated with 2048-bit RSA keys and SHA-256 fingerprints. The box provides a self-signed certificate by default. The [setup guide](https://mailinabox.email/guide.html) explains how to verify the certificate fingerprint on first login. Users are encouraged to replace the certificate with a proper CA-signed one. ([source](setup/ssl.sh))
* TLS certificates are generated with 2048-bit RSA keys and SHA-256 fingerprints. The box provides a self-signed certificate by default. The [setup guide](https://mailinabox.email/guide.html) explains how to verify the certificate fingerprint on first login. Users are encouraged to replace the certificate with a proper CA-signed one. ([source](setup/ssl.sh))
* Only TLSv1, TLSv1.1 and TLSv1.2 are offered (the older SSL protocols are not offered).
* Export-grade ciphers, the anonymous DH/ECDH algorithms (aNULL), and clear-text ciphers (eNULL) are not offered.
* The minimum cipher key length offered is 112 bits. The maximum is 256 bits. Diffie-Hellman ciphers use a 2048-bit key for forward secrecy.

View File

@ -11,8 +11,11 @@ if [ -f /usr/local/lib/python2.7/dist-packages/boto/__init__.py ]; then hide_out
# build-essential libssl-dev libffi-dev python3-dev: Required to pip install cryptography.
apt_install python3-flask links duplicity python-boto libyaml-dev python3-dnspython python3-dateutil \
build-essential libssl-dev libffi-dev python3-dev python-pip
hide_output pip3 install --upgrade rtyaml "email_validator>=1.0.0" "idna>=2.0.0" "cryptography>=1.0.2" boto psutil
# Install other Python packages. The first line is the packages that Josh maintains himself!
hide_output pip3 install --upgrade \
rtyaml "email_validator>=1.0.0" free_tls_certificates \
"idna>=2.0.0" "cryptography>=1.0.2" boto psutil
# email_validator is repeated in setup/questions.sh
# Create a backup directory and a random key for encrypting backups.
@ -44,5 +47,5 @@ cat > /etc/cron.d/mailinabox-nightly << EOF;
0 3 * * * root (cd `pwd` && management/daily_tasks.sh)
EOF
# Start it.
# Start the management server.
restart_service mailinabox

View File

@ -116,6 +116,9 @@ done
tools/dns_update
tools/web_update
# If DNS is already working, try to provision TLS certficates from Let's Encrypt.
management/ssl_certificates.py
# If there aren't any mail users yet, create one.
source setup/firstuser.sh