wildduck/setup/15_install_deploy.sh
2020-03-16 12:54:47 +02:00

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#! /bin/bash
OURNAME=15_install_deploy.sh
echo -e "\n-- Executing ${ORANGE}${OURNAME}${NC} subscript --"
cd "$INSTALLDIR"
echo "DEPLOY SETUP
1. Add your ssh key to /home/deploy/.ssh/authorized_keys
2. Clone application code
\$ git clone deploy@$HOSTNAME:/var/opt/wildduck.git
\$ git clone deploy@$HOSTNAME:/var/opt/zone-mta.git
\$ git clone deploy@$HOSTNAME:/var/opt/wildduck-webmail.git
\$ git clone deploy@$HOSTNAME:/var/opt/haraka-plugin-wildduck.git
\$ git clone deploy@$HOSTNAME:/var/opt/zonemta-wildduck.git
3. After making a change in local copy deploy to server
\$ git push origin master
(you might need to use -f when pushing first time)
NAMESERVER SETUP
================
MX
--
Add this MX record to the $MAILDOMAIN DNS zone:
$MAILDOMAIN. IN MX 5 $HOSTNAME.
SPF
---
Add this TXT record to the $MAILDOMAIN DNS zone:
$MAILDOMAIN. IN TXT \"v=spf1 a:$HOSTNAME a:$MAILDOMAIN ip4:$PUBLIC_IP ~all\"
Or:
$MAILDOMAIN. IN TXT \"v=spf1 a:$HOSTNAME ip4:$PUBLIC_IP ~all\"
$MAILDOMAIN. IN TXT \"v=spf1 ip4:$PUBLIC_IP ~all\"
Some explanation:
SPF is basically a DNS entry (TXT), where you can define,
which server hosts (a:[HOSTNAME]) or ip address (ip4:[IP_ADDRESS])
are allowed to send emails.
So the receiver server (eg. gmail's server) can look up this entry
and decide if you(as a sender server) is allowed to send emails as
this email address.
If you are unsure, list more a:, ip4 entries, rather then fewer.
Example:
company website: awesome.com
company's email server: mail.awesome.com
company's reverse dns entry for this email server: mail.awesome.com -> 11.22.33.44
SPF record in this case would be:
awesome.com. IN TXT \"v=spf1 a:mail.awesome.com a:awesome.com ip4:11.22.33.44 ~all\"
The following servers can send emails for *@awesome.com email addresses:
awesome.com (company's website handling server)
mail.awesome.com (company's mail server)
11.22.33.44 (company's mail server's ip address)
Please note, that a:mail.awesome.com is the same as ip4:11.22.33.44, so it is
redundant. But better safe than sorry.
And in this example, the company's website handling server can also send
emails and in general it is an outbound only server.
If a website handles email sending (confirmation emails, contact form, etc).
DKIM
----
Add this TXT record to the $MAILDOMAIN DNS zone:
$DKIM_SELECTOR._domainkey.$MAILDOMAIN. IN TXT \"$DKIM_DNS\"
The DKIM .json text we added to wildduck server:
curl -i -XPOST http://localhost:8080/dkim \\
-H 'Content-type: application/json' \\
-d '$DKIM_JSON'
Please refer to the manual how to change/delete/update DKIM keys
via the REST api (with curl on localhost) for the newest version.
List DKIM keys:
curl -i http://localhost:8080/dkim
Delete DKIM:
curl -i -XDELETE http://localhost:8080/dkim/59ef21aef255ed1d9d790e81
Move DKIM keys to another machine:
Save the above curl command and dns entry.
Also copy the following two files too:
/opt/zone-mta/keys/[MAILDOMAIN]-dkim.cert
/opt/zone-mta/keys/[MAILDOMAIN]-dkim.pem
pem: private key (guard it well)
cert: public key
PTR
---
Make sure that your public IP has a PTR record set to $HOSTNAME.
If your hosting provider does not allow you to set PTR records but has
assigned their own hostname, then edit /etc/zone-mta/pools.toml and replace
the hostname $HOSTNAME with the actual hostname of this server.
(this text is also stored to $INSTALLDIR/$MAILDOMAIN-nameserver.txt)" > "$INSTALLDIR/$MAILDOMAIN-nameserver.txt"
printf "Waiting for the server to start up.."
until $(curl --output /dev/null --silent --fail http://localhost:8080/users); do
printf '.'
sleep 2
done
echo "."
# Ensure DKIM key
echo "Registering DKIM key for $MAILDOMAIN"
echo $DKIM_JSON
curl -i -XPOST http://localhost:8080/dkim \
-H 'Content-type: application/json' \
-d "$DKIM_JSON"
echo ""
cat "$INSTALLDIR/$MAILDOMAIN-nameserver.txt"
echo ""
echo "All done, open https://$HOSTNAME/ in your browser"