# ldapdock
*_a configurable container running openLDAP_*

Step by step approach on how to setup and run the openLDAP server on a classic systemd-less Docker image container

_note about the dockerfile and running the generated image container on FG (foreground) or BG (background): by default the dockerfile generates an image to be run in FG, it expects to be run into it and launch slapd (openLDAP server) manually; to run the image container in BG and start slapd automatically without any user intervention, uncomment the line number 31 of the dockerfile._

## _Creating the ldapdock image container_

build ldapdock
```
> docker build -t ldapdock /path/to/dockerfile
```

after build, check the docker image has been created properly with the given REPOSITORY name
```
> docker images
REPOSITORY    TAG       IMAGE ID       CREATED       SIZE
ldapdock      latest    0e4a1521b346   6 hours ago   138MB
```

You can run into the container in an interactive way already with this command:
```
> docker run -h example.com -i -t ldapdock /bin/bash
```

If you wish (and it is recommended in development) to save the configuration and LDAP directory structure (also called LDAP database) outside of the container, run this command instead:
```
> docker run -h example.com -i -t -v ldap_data:/var/lib/ldap -v ldap_config:/etc/ldap/slapd.d ldapdock /bin/bash
```
With -h we are specifying the name of the host, we are using example.com, this is very important. -i tells docker to run in an interactive way instead of running the container in the background. -t goes in hand with -i, and allocates a tty (terminal) so we can run commands. -v mounts a volume to save information (we use one to save the data and another one to save the configuration).

## _Explaining DN, parentDN, CN, and DC as parameters_

One of the key configuration of LDAP is our "DC" or "parent DN" and other terms, which to explain it in a pure pragmatic way, we will use some examples: we use per defect example.com as our domain, so the DC (Distinguished Name) that we would use it is **"dc=example,dc=com"**, instead, if our domain would be for example "ideas.lab.com", the parent DN would be "dc=ideas,dc=lab,dc=com". This configuration it's very often passed with the CN (Common Name) in concatenation with the DN (Distinguished Name), and the result it's very simple, in the case of the domain example.com, it is **DN: "cn=config,dn=example,dn=com"**, or for ideas.lab.com DN: "cn=config,dn=ideas,dn=lab,dn=com". 

## _Inside the ldapdock image container_

make sure to use the following command to start openLDAP
```
root@example:/# slapd -h "ldap:/// ldapi:///" -g openldap -u openldap -F /etc/ldap/slapd.d
```

test connectivity to slapd
```
root@example:/# ldapsearch -x -H ldap://localhost -b "dc=example,dc=com" -s base "(objectclass=*)"
# extended LDIF
#
# LDAPv3
# base <dc=example,dc=com> with scope baseObject
...
```
## _Create an Administrator account_

In order to create users with different attributes and permits, we need to create a new admin account besides the root one that comes by default.\
We will refer to the Administrator account as admin, and in a few cases, the root account as the set by default.\

**`why is this needed?`** _unnecesary long explanation, but just in case:_ in openLDAP, by default a special administrative account is created as core base to execute first hand tasks, however aside being able to bypass ACLs (Access Control Lists), and therefore any other account created, being allowed to authenthicate for operations like ldapadd, ldapmodify and ldapsearch, etc. it has not an actual entry in the dc=example,dc=com tree (our parentDN). This account it is only configured as olcRootDN in the core base directory/database, cn=config (/etc/ldap/slapd.d/'cn=config') and nothing more. It does not create the corresponding entry in any data tree, therefore the server cannot locate the full entry cn=admin,dc=example,dc=com because it does not exists. In pragmatic terms, we need to create an administrative account for our DN and our parentDN, the later being our domain name as previously explained.

## _Users administrative tasks_

### <ins>_Reset root password_</ins>

Build line by line, the **.ldif** file we will need to reset root password, starting with the following command:
```
root@example:/# ldapsearch -Q -LLL -Y EXTERNAL -H ldapi:/// -b cn=config '(olcSuffix=dc=example,dc=com)' dn > rootpw.ldif
```
which writes to the rootpw.ldif file, the current rootDN (Distinguised Name): `dn: olcDatabase={1}mdb,cn=config`\
The next command will add the 'changetype' (modify, add, etc.) and what object are we working with:
```
root@example:/# echo -e 'changetype: modify\nreplace: olcRootPW: ' >> rootpw.ldif
root@example:/etc/ldap# cat rootpw.ldif
dn: olcDatabase={1}mdb,cn=config

changetype: modify
replace: olcRootPW
```
We run a simple sed command to delete blank lines
```
root@example:/# sed '/^$/d' rootpw.ldif > chrootpw.ldif
root@example:/# cat chrootpw.ldif
dn: olcDatabase={1}mdb,cn=config
changetype: modify
replace: olcRootPW
```
It's time to write our new password (_newpasswd_):
```
root@example:/# slappasswd -s 1234
{SSHA}2xbd33S4ZumAZW4Oks0GJidBFJYEVBPz
```
The last line it's our password 1234 hashed in SSHA cryptography. We will need to copy and paste it in the following command:
```
root@example:/# echo "olcRootPW: {SSHA}2xbd33S4ZumAZW4Oks0GJidBFJYEVBPz" >> chrootpw.ldif
```
The file that describes the variables needed to change our root password, **chrootpw.ldif** should be ready, we finally run:
```
root@example:/etc/ldap# ldapmodify -Q -Y EXTERNAL -H ldapi:/// -f chrootpw.ldif
modifying entry "olcDatabase={1}mdb,cn=config"
```
If successful, the output will show the modified entry.

### <ins>_Add users_</ins>

create a new LDAP directory called Supergirls (LDAP OU) with the following data
```
root@example:/# vim add_ou.ldif
dn: ou=Supergirls,dc=example,dc=com
objectClass: organizationalUnit
ou: Supergirls
```

create it in our LDAP server, when asked for the root password, remember in the dockerfile by default is _admin_
```
root@example:/# ldapadd -x -D "cn=admin,dc=example,dc=com" -W -f add_ou.ldif
Enter LDAP Password:
adding new entry "ou=Supergirls,dc=example,dc=com"
```

verify the entry in the LDAP server
```
root@example:/# ldapsearch -x -LLL -b "dc=example,dc=com" "(ou=Supergirls)" dn
dn: ou=Supergirls,dc=example,dc=com
```

create a new LDAP password to manage our new directory, annotate both the entered _plain password_ and the result _hashed password_
```
root@example:/# slappasswd
New password:
Re-enter new password:
{SSHA}hashedpasswd
```

create a .ldif file with the necessary attributes to insert in our Supergirls directory
```
root@example:/# vim add_user_supergirls.ldif
dn: uid=marisa,ou=Supergirls,dc=example,dc=com
objectClass: inetOrgPerson
objectClass: posixAccount
cn: Marisa
sn: Kirisame
givenName: Marisa
displayName: Marisa Kirisame
uid: marisa
uidNumber: 1001
gidNumber: 5000
homeDirectory: /home/marisa
loginShell: /bin/bash
userPassword: {SSHA}hashedpasswd
mail: marisa@example.com
```

insert the new user (marisa) in our Supergirls directory (LDAP OU), still using the root password _admin_
```
root@example:/# ldapadd -x -D "cn=admin,dc=example,dc=com" -W -f add_user_supergirls.ldif
Enter LDAP Password:
adding new entry "uid=marisa,ou=Supergirls,dc=example,dc=com"
```

verify the user (marisa) has been added to the Supergirls OU
```
root@example:/# ldapsearch -x -LLL -b "dc=example,dc=com" "(uid=marisa)" dn
dn: uid=marisa,ou=Supergirls,dc=example,dc=com
```

### <ins>_Modify users attributes_</ins>

create a new .ldif file with the attributes we want to change\
in this case we want to modify the _mail_ marisa@example.com of the user (_uid_) marisa from the group (_ou_) Supergirls
```
root@example:/home# vim modify_user.ldif
dn: uid=marisa,ou=Supergirls,dc=example,dc=com
changetype: modify
replace: mail
mail: marisa.kirisame@example.com
```

run the modify file, when asked for the root password, remember in the dockerfile by default is _admin_
```
root@example:/home# ldapmodify -x -D "cn=admin,dc=example,dc=com" -W -f modify_user.ldif
Enter LDAP Password:
modifying entry "uid=marisa,ou=Supergirls,dc=example,dc=com"
```

verify the _mail_ attribute of the user marisa has been changed to marisa.kirisame@example.com
```
root@example:/home# ldapsearch -x -LLL -b "dc=example,dc=com" "(uid=marisa)" mail
dn: uid=marisa,ou=Engineering,dc=example,dc=com
mail: marisa.kirisame@example.com
```

### <ins>_Modify user password_</ins>

In this examples, we are changing user uid marisa from ou Supergirls **password**.\
\
In order to change the password interactively (writing in the prompt when asked), we can run this command:
```
root@example:/etc/ldap# ldappasswd -H ldap:/// -x -D "uid=marisa,ou=Supergirls,dc=example,dc=com" -W -S "uid=marisa,ou=Supergirls,dc=example,dc=com"
New password: newpasswd
Re-enter new password: newpasswd
Enter LDAP Password: oldpasswd
```
_newpasswd_ being the new password we want to use, and _oldpasswd_, the last password we were using for the user uid marisa.\
\
To change the password in an non interactive (sending the password directly via the command), we can run this:
```
root@example:/etc/ldap# ldappasswd -H ldap:/// -x -D "uid=marisa,ou=Supergirls,dc=example,dc=com" -w newpasswd "uid=marisa,ou=Supergirls,dc=example,dc=com"
New password: 6vUj/2lE
```
_newpasswd_ being the new password we want to use. We can also notice the hashed output of our new password is not a typical LDAP SSHA hash, this is due to security implementations.

### <ins>_Reset user password_</ins>

In the likely common event that we forgot the password of an specific user, we need to reset it.\
In this example we forgot the password of the user uid marisa, we can reset it with this command:
```
root@example:/etc/ldap# ldappasswd -H ldap:/// -x -D "cn=admin,dc=example,dc=com" -W -S "uid=marisa,ou=Supergirls,dc=example,dc=com"
New password: newpasswd
Re-enter new password: newpasswd
Enter LDAP Password: admin
```
Note we need to use the **root** password (_admin_ by default) in the last query ("Enter LDAP Password") to reset an user's password.

### <ins>_Query as an specific user_</ins>

we already created the user (_uid_) marisa, and established the user's own password using slappasswd\
now we are gonna query our LDAP server using the user (_uid_) marisa credentials, and _the password we entered during slappasswd, called plain password (plainpasswd)_ 
```
root@example:/etc/ldap# ldapsearch -D uid=marisa,ou=Supergirls,dc=example,dc=com -b "dc=example,dc=com" -w plainpasswd
# extended LDIF
#
# LDAPv3
# base <dc=example,dc=com> with scope subtree
# filter: (objectclass=*)
# requesting: ALL
#

# example.com
dn: dc=example,dc=com
objectClass: top
objectClass: dcObject
objectClass: organization
o: nodomain
dc: example

# Supergirls, example.com
dn: ou=Supergirls,dc=example,dc=com
...
```

we can narrow this search to get only specific attributes of the user marisa, remember we are using _the plainpasswd when asked_
```
root@example:/etc/ldap# ldapsearch -D uid=marisa,ou=Supergirls,dc=example,dc=com -b "dc=example,dc=com" -w plainpasswd givenName uidNumber gidNumber homeDirectory
# extended LDIF
#
# LDAPv3
# base <dc=example,dc=com> with scope subtree
# filter: (objectclass=*)
# requesting: givenName uidNumber gidNumber homeDirectory
#

# example.com
dn: dc=example,dc=com

# Supergirls, example.com
dn: ou=Supergirls,dc=example,dc=com

# marisa, Supergirls, example.com
dn: uid=marisa,ou=Supergirls,dc=example,dc=com
givenName: Marisa
uidNumber: 1001
gidNumber: 5000
homeDirectory: /home/marisa
```

<!--ldappasswd -H ldap://server_domain_or_IP -x -D "cn=admin,dc=example,dc=com" -W -S "uid=bob,ou=people,dc=example,dc=com"-->