DESCRIPTION

The purpose of DACS Quick Start is to explain, step-by-step, how to configure a very basic DACS-enabled web site from scratch so that you can try DACS with minimal effort. We hope that by performing the entire example configuration yourself, you will gain a better understanding of how DACS works and how to go about configuring it to meet your needs. By following along with some simple examples, you will create a completely stand-alone, single jurisdiction DACS federation on one of your hosts. You will become familiar with some of the DACS utilities and web services. When you are done, you can simply delete a few directories to uninstall everything. The tutorial should take about 30 minutes to complete the first time.

After successfully completing Quick Start, you should understand DACS well enough that you can proceed to experiment with configuration and features, and perhaps use the example configuration as a starting point to meet your requirements.

We do not provide much background or technical information about DACS here, or tell you how to set up a fully functional, production-quality DACS system. You may find it worthwhile to review the \m[blue]FAQ\m[]\s-2\u[1]\d\s+2 before beginning, but if you're itching to get started right away you may do so. For technical details, please refer to the \m[blue]manual pages\m[]\s-2\u[2]\d\s+2 and other documentation.

We assume that you've got some hands-on experience configuring and using Apache, although Quick Start tells you exactly what to do. To avoid frustrating problems, we recommend that you resist the temptation to stray from the instructions except when indicated. Experienced Apache administrators may recognize the opportunity for some shortcuts, but since we're trying to keep things simple for a wide audience, we'd rather not get sidetracked by mentioning them. Likewise, experienced DACS administrators may recognize alternative ways - maybe even better ways - of doing things. But our goal is to get beginners started quickly, so we'll progress in small steps, explaining what is being done, and providing assurance that everything is correct so far. That way if you run into a problem, you should be able to isolate and fix it more easily.

We'll assume that you've already obtained the latest version of DACS, unpacked it, and at least skimmed through \m[blue]dacs.readme(7)\m[]\s-2\u[3]\d\s+2 and \m[blue]dacs.install(7)\m[]\s-2\u[4]\d\s+2. This document should have come from that version of DACS.

Note

You will be installing and configuring a basic Apache server (httpd) as part of this tutorial. You may perform this installation on any supported platform, whether your desktop Unix host or some other host, such as a remote server. You will find the former somewhat easier and safer to do, so it is recommended when possible. If doing the installation on a particular host may expose the tutorial's web server to requests from the Internet, be sure to carefully consider the security implications and take appropriate precautions before proceeding. Nothing in the tutorial ought to make the host running the web server more vulnerable, but if you experiment with DACS on your own there could be unintended consequences. It is probably a good idea to stop Apache when you are no longer using it.

You will find it much easier to follow along if you use the HTML version of this document because it includes links that save you from having to type examples. Obviously these links will only work if you have configured the tutorial's environment. Some links from this document to other documentation point at the tutorial environment, so they will not function if that environment is not available. Also, your web browser must be capable of handling cookies and have that feature enabled.

Make sure that this document came with the DACS release that you are working with.

The Quick Start procedure has been performed successfully on FreeBSD and CentOS, but we expect it to work on most Unix-like systems. If you run into a problem, you should not proceed until you have fixed it.

Depending on your environment, some tasks may need to be done as root (e.g., using sudo). In particular, editing /etc/hosts and DACS configuration files, setting file ownership and permissions, and the make install commands are likely to need this. No program or web service used in the examples needs to run as root. Except for one or two optional DACS web services, none of the DACS web services needs to run set-uid or set-gid.

Ordinarily, all DACS-related network communication must be done over SSL. Setting up SSL appropriately is primarily \m[blue]an Apache configuration task\m[]\s-2\u[5]\d\s+2, requiring a server certificate; anyone who has done this before will likely understand what needs to be done after completing Quick Start. But to help keep this document simple and because our goal is not to create a production-quality DACS installation, we will neither use SSL in the examples nor mention SSL again.

It's a challenge to write instructions that will work everywhere, everytime, for everyone, so please accept our apologies for any deficiencies in this document. We are keen to improve it, so if you encounter any problems while trying this tutorial, or if you have any questions, please \m[blue]contact us\m[]\s-2\u[6]\d\s+2. Our goal is to make it as easy as possible to get started with DACS.

Quick Start Steps:

Step 1: Install required third-party packages

Step 2: Install and configure Apache

Step 3: Build and install DACS

Step 4: DACS-enable Apache

Step 5: Do basic DACS configuration

Step 6: Do basic Apache configuration for DACS

Step 7: Test basic DACS services

Step 8: Try DACS authentication

Step 9: DACS-wrapping a web service

Step 10: What's next?

Step 11: Clean up

Step 1: Install required third-party packages

Obtain the versions of \m[blue]Apache\m[]\s-2\u[7]\d\s+2, \m[blue]OpenSSL\m[]\s-2\u[8]\d\s+2, and \m[blue]Expat\m[]\s-2\u[9]\d\s+2 that are specified in \m[blue]dacs.install(7)\m[]\s-2\u[4]\d\s+2. If your system already has suitable versions of \m[blue]OpenSSL\m[]\s-2\u[8]\d\s+2, and \m[blue]Expat\m[]\s-2\u[9]\d\s+2 installed, you may use them if you are comfortable deviating from these instructions; you may have to adjust paths that are used below, however. Detailed instructions have been provided for building \m[blue]OpenSSL\m[]\s-2\u[10]\d\s+2 and \m[blue]Expat\m[]\s-2\u[11]\d\s+2. This document assumes that Apache2.2 is being used; you may use 2.4 if you are able to adapt the instructions on your own.

For the purposes of this exercise, those are the only third-party packages that you need, other than gmake, GCC, and the usual software development tools. Install OpenSSL and Expat now; we will deal with Apache in the next step.

Note

We will assume that these packages are installed under /usr/local. If you installing elsewhere, be sure to adjust paths appropriately in the examples below.

Some administrators prefer to use a particular file extension, such as ".cgi", for CGI executables. The easiest way to make DACS accommodate this is to pass the --with-cgi-suffix flag to configure (see \m[blue]dacs.install(7)\m[]\s-2\u[4]\d\s+2). This results in the configuration variable ${Conf::dacs_cgi_bin_suffix} being set to the suffix. In this document, we will assume that no special file extension is required.

Step 2: Install and configure Apache

Because you probably do not want to use a production web server for this exercise, so that we're on the same page to begin with, and to make it easier for you to clean up later, we'll build and install a fresh Apache server. It will be best if you start from scratch by unpacking an Apache distribution into a new directory, building and installing it, and then verifying that the default Apache configuration works. We will install this Apache in /usr/local/apache-dacs so that it does not interfere with anything already on your system - you may change this path, but remember to make appropriate changes to the instructions that follow.

From the root of the Apache distribution, you need to build Apache. Review the ApacheINSTALL file. Unfortunately, there is no simple way to build Apache that will work on all platforms, so you will need to review the \m[blue]detailed instructions\m[]\s-2\u[12]\d\s+2. Then build and install Apache.

Do not configure any Apache modules or customizations. We want to create a vanilla web server. The path /usr/local/apache-dacs is being used to avoid any existing Apache installation; when you are finished with the tutorial, you will remove this directory.

We will soon configure a virtual host for a (fake) domain name that we have reserved for this purpose, but first we must make dodgers.dacstest.dss.ca an alias for the host that will run httpd. Choose one of the following two options:

If you are installing Apache on the same machine from which you are running your web browser, edit /etc/hosts as follows:

127.0.0.1     localhost dodgers.dacstest.dss.ca

If you will be running your browser on a host different from where Apache is running, you will need to add an alias in /etc/hosts for that host's IP address on both machines. The entry will have the format:

hostip       hostname dodgers.dacstest.dss.ca

For example, on my system I used:

10.0.0.125     i7.dss.ca i7 dodgers.dacstest.dss.ca

So the hostip I selected above is 10.0.0.125.

Notes

If your desktop is a Windows platform rather than Unix-based, you will need to edit C:\Windows\system32\drivers\etc\hosts or C:\WINNT\system32\drivers\etc\hosts (or similar) instead of /etc/hosts.

You can use the domain dodgers.dacstest.dss.ca and the others in this document no matter where your host is located. These domain names will not be visible outside of the hosts on which you define them by hand.

After you have completed this exercise, please remember to delete the aliases.

To verify the change, use ping:

% ping dodgers.dacstest.dss.ca

(You may need to run it as /sbin/ping or something similar on your system.)

We need to make a few changes to Apache's default configuration, in case you are already running a web server on this machine and as a first step towards some customization that we will need shortly. We will add a virtual host definition and do some initial set up for DACS. Edit /usr/local/apache-dacs/conf/httpd.conf, advance to the bottom of the file, and insert the text that appears below:

# Permit access to the DACS documents
<Directory /usr/local/dacs/www/*>
  Options Indexes FollowSymLinks
  Order allow,deny
  Allow from all
</Directory>

# Permit access
# Configure a virtual host and make the DACS documents available
Listen dodgers.dacstest.dss.ca:18123
<VirtualHost *:18123>
  ServerName dodgers.dacstest.dss.ca:18123
  DocumentRoot "/usr/local/apache-dacs/htdocs"
  ErrorLog     "/usr/local/apache-dacs/logs/error_log"
  TransferLog  "/usr/local/apache-dacs/logs/access_log"
  ScriptAlias /cgi-bin/ "/usr/local/apache-dacs/cgi-bin/"

  Alias /css       "/usr/local/dacs/www/css/"
  Alias /dacs      "/usr/local/dacs/www/"
  Alias /dtd-xsd   "/usr/local/dacs/www/dtd-xsd/"
  Alias /examples  "/usr/local/dacs/www/examples/"
  Alias /handlers  "/usr/local/dacs/www/handlers/"
  Alias /infocards "/usr/local/dacs/www/infocards/"
  Alias /man       "/usr/local/dacs/www/man/"
  Alias /misc      "/usr/local/dacs/www/misc/"
  Alias /mod       "/usr/local/dacs/www/mod/"
</VirtualHost>

This \m[blue]VirtualHost\m[]\s-2\u[13]\d\s+2 section is going to correspond to the DACS jurisdiction that we will define shortly. The purpose of the \m[blue]Directory\m[]\s-2\u[14]\d\s+2 and \m[blue]Alias\m[]\s-2\u[15]\d\s+2 directives is to make various web resources available without having to copy them under your \m[blue]DocumentRoot\m[]\s-2\u[16]\d\s+2.

Note

In our examples, we use port 18123, which we're guessing is unlikely to already be in use on your machine. If you are unlucky and it is in use, Apache will complain when you start it and you will obviously need to select a different port number. So that the examples will continue to work, consider creating a copy of this document and changing all occurrences of "18123" to the port number you have selected. If available, commands such as \m[blue]netstat(1)\m[]\s-2\u[17]\d\s+2 and \m[blue]sockstat(1)\m[]\s-2\u[18]\d\s+2 can tell you which ports are currently in use. In the event that you will be accessing your server from the other side of a firewall (which is not recommended, as previously mentioned), keep in mind that traffic may not ordinarily be passed through on this port.

If you are already running Apache on port 80 (the default) or if you are not root whenever you run apachectl in any of the following steps, you must comment out (or delete) all \m[blue]Listen\m[]\s-2\u[19]\d\s+2 directives for port 80 in httpd.conf. Therefore, comment out all directives that look like any of the following:

Listen 80
Listen 0.0.0.0:80
Listen [::]:80

It is good practice to run httpd as an unprivileged user id and Apache does this by default through the \m[blue]User\m[]\s-2\u[20]\d\s+2 directive in httpd.conf:

User nobody

DACS web services are run as the same user id as httpd, but they must be able to read and sometimes write files within the DACS installation directory. These files should not be readable or writable by other processes or anyone other than a DACS administrator. Using \m[blue]mod_suexec\m[]\s-2\u[21]\d\s+2 is one approach, but for the purpose of this tutorial we want to keep things simple. Note that setting \m[blue]User\m[]\s-2\u[20]\d\s+2 (or \m[blue]Group\m[]\s-2\u[22]\d\s+2) to root is not a good idea.

The Apache documentation recommends setting up a new group specifically for running the server, and we will take this approach. We will assume in our examples that this group is called www. You may need to create this group (see \m[blue]group(5)\m[]\s-2\u[23]\d\s+2) or you may already have a different but suitable group name to use (e.g., webservd, _www, or daemon). Whatever group name you choose, when DACS is installed in the next step you will be prompted for this group id and you must make the appropriate change to httpd.conf:

Group www

Because we will refer to this group name often in later steps, save its name as the value of the shell variable dacsgroup (we will use csh/tcsh syntax - use the syntax preferred by your shell):

% set dacsgroup=www

Note

Consider adding yourself to this group while you are working on this tutorial because you will have to do much less of the work as root. Remember to logout and login again after adding yourself, and verify the change using the groups command.

Change the group id of files in the Apache installation directory to this group and adjust permissions (you may have to do this as root):

% chgrp -R $dacsgroup /usr/local/apache-dacs
% chmod -R g+w /usr/local/apache-dacs

As root, start your httpd...

# /usr/local/apache-dacs/bin/apachectl start

The reason you must do this as root is because it is required by Apache's \m[blue]User\m[]\s-2\u[20]\d\s+2 and \m[blue]Group\m[]\s-2\u[22]\d\s+2 directives.

Use your favourite browser (or link fetcher, such as wget) to verify that Apache is serving content, starting with this link:

\m[blue]http://dodgers.dacstest.dss.ca:18123\m[]

If this fails, check again that your host has the correct IP address for dodgers.dacstest.dss.ca. If you are running your browser on a different host than Apache, check for a networking or firewall related problem (and try the browser on the same host as Apache).

Note

It appears that CentOS disallows non-localhost connection requests by default; to allow Apache to receive non-localhost requests on CentOS, run (as root):

# system-config-securitylevel

In the "Other ports" section of the "Firewall Options", add port 18123 for protocol tcp. Once the change is applied it is persistent, so remember to remove the port from the list when you are finished with this tutorial. Another option, if it is safe to do so, is to totally disable the firewall. On CentOS:

# service iptables stop

If you choose to do this you should either restart the firewall when you are done ("service iptables start") or reboot.

Another alternative, for CentOS and other systems, is to use the appropriate command (e.g., iptables, ipfw, or pfctl) to add a firewall rule to allow TCP access to port 18123.

You should now check that your httpd was built properly. First, make sure that test-cgi is executable (a CGI that is installed by Apache):

% chmod 0750 /usr/local/apache-dacs/cgi-bin/test-cgi

And then invoke it:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/test-cgi\m[]

Look for the SERVER_SOFTWARE variable in its output and ensure that its value shows the correct versions of Apache, mod_ssl, and OpenSSL; if you find something unexpected, you probably didn't configure and/or install Apache or OpenSSL correctly.

You have confirmed that Apache is properly installed, so stop the web server:

% /usr/local/apache-dacs/bin/apachectl stop

Step 3: Build and install DACS

Now it is time to build and install the DACS utilities and web services. Make your working directory the src subdirectory of the DACS distribution.

Build and install DACS web services and utilities. You must use gmake, the GNU Make utility. Adjust the paths specified for Expat, Apache, and OpenSSL as necessary. The DACS installation directory must be writable to you and you must be able to set file user and group ownership (see below); you may need to be root.

% ./configure --prefix=/usr/local/dacs \
   --disable-shared --enable-static \
   --enable-passwd-auth --disable-bdb \
   --with-apache=/usr/local/apache-dacs \
   --with-apache-apr=/usr/local/apache-dacs/apr-httpd \
   --with-expat=/usr/local/expat-2.0.1 \
   --with-ssl=/usr/local/openssl-1.0.1c
% gmake

If all goes well:

% gmake install

You can ignore any warnings about ACLs.

You will be prompted for the user id and group id to be used for DACS files and directories. The group id you give should match the value you used for Apache'sGroup directive (that is, the value of $dacsgroup). The user id can be your user id; if it is not, you will need to do the upcoming install command (and some later commands) as root. You will need to do gmake install as root if your account has insufficient privileges to set the user and group ids that you specify. The installation procedure will remember your answers to the prompts; if you make a mistake or want to change them, do:

% conftools/setaccess-sh reset

and try gmake install again.

Step 4: DACS-enable Apache

We'll continue by installing the \m[blue]mod_auth_dacs\m[]\s-2\u[24]\d\s+2 module for Apache. Make your working directory the apache subdirectory of the DACS distribution.

Compile and install the mod_auth_dacs module. As earlier, you will need to do gmake install as root if your account has insufficient privileges to set the user and group ids that you specify.

% gmake tag
% gmake install

If this succeeds, your Apache\m[blue]httpd.conf\m[]\s-2\u[25]\d\s+2 file should now contain the following directive:

LoadModule auth_dacs_module modules/mod_auth_dacs.so

Please check that this is so. If you cannot find that directive, add it manually near the part of httpd.conf that talks about the \m[blue]LoadModule\m[]\s-2\u[26]\d\s+2 directive.

Start Apache again (as root):

# /usr/local/apache-dacs/bin/apachectl start

and take another look at the SERVER_SOFTWARE variable:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/test-cgi\m[]

The SERVER_SOFTWARE variable ought to look the same as before, except it should now also mention mod_auth_dacs.

Congratulations - you are now running a DACS-enabled web server! DACS is not configured to do anything at the moment, mind you, but your web server is now capable of DACS-wrapping web services. You should be able to view the DACS manual pages served from the web server you just installed:

\m[blue]http://dodgers.dacstest.dss.ca:18123/man\m[]

Step 5: Do basic DACS configuration

Although your Apache is now DACS-enabled, a little more configuration of both DACS and Apache are necessary before you can do anything interesting. We'll continue by working with the DACS configuration (see \m[blue]dacs.conf(5)\m[]\s-2\u[27]\d\s+2).

We begin this step by defining a new DACS federation that consists of one jurisdiction. We will call the new federation DACSTEST and associate it with the domain name dacstest.dss.ca. We will call our jurisdiction LA. Incidentally, the names that we are using in this tutorial for our federation and jurisdiction ("DACSTEST", "LA", and "dacstest.dss.ca") are not "special"; there's an underlying theme that should be apparent to any baseball fan but we could have chosen any syntactically valid names. The domain name for our jurisdiction (dodgers.dacstest.dss.ca) is only special in that it is a subdomain of dacstest.dss.ca; this must be the case for all jurisdictions in our example federation.

Security

All of the files and directories that we create in this and future steps must be readable by DACS web services. This means that they must have their group ownership set to $dacsgroup and have group read and write permissions, as discussed earlier.

We're going to be using a few long pathnames in this step and later on, so to help unclutter the instructions, and for your convenience, we will represent them as shell variables. For example, the pathname /usr/local/dacs/federations will be referred to as $feds and the pathname $feds/dacstest.dss.ca/LA will be $la. You may find it useful at this time to define the following variables in your shell using the particular syntax it prefers (we use tcsh):

% set dacs=/usr/local/dacs
% set bin=$dacs/bin
% set feds=$dacs/federations
% set la=$feds/dacstest.dss.ca/LA

If you are using a compatible shell, such as csh, you will then be able to copy and paste command lines and other text that follows in the tutorial.

Tip

At this point you can use the \m[blue]dacsinit(1)\m[]\s-2\u[28]\d\s+2 program, found in the distribution's src directory, to perform the operations in this step for you. By default, the program uses the default paths that were established when DACS was built and the example paths used in this step. When prompted, simply use the dacsinit default values (just hit Return/Enter), which should result in the same configuration as you would obtain by manually following the directions in this step.

You can also use dacsinit to create a configuration for a federation with one very basic jurisdiction based on names of your choosing. You can later extend or customize this configuration manually. Also see \m[blue]Initial Configuration\m[]\s-2\u[29]\d\s+2.

Although you can get away with having a single DACS configuration file on a host, we recommend a hierarchical organization. The file site.conf, although optional, holds standard default configuration directives as well as site-specific directives for all federations configured on this host. One or more files named dacs.conf can be used on a per-jurisdiction, per-federation, or per-host basis; that is, each jurisdiction on a host can have its own dacs.conf, or all (or some) of the jurisdictions on a host can share a dacs.conf, or everything can just be lumped into one dacs.conf. It's entirely up to you.

When configure is run to build DACS, you can specify default locations for various configuration files, including site.conf and dacs.conf. We did not change the defaults when we built DACS above, so our examples will use the default paths.

Tip

We recommend that you always use the site.conf-std that comes with your DACS distribution as your site.conf file and that you do not make any modifications to it, instead putting customizations in your dacs.conf file. This will make upgrades easier and less error-prone.

Proceed by installing the default site configuration file as $feds/site.conf (recall that we defined the shell variables \m[blue]earlier\m[]\s-2\u[30]\d\s+2, and that you may have to be root to be able to install correctly):

% install -c -g $dacsgroup -m 0640 $feds/site.conf-std $feds/site.conf

Note

If the install command is unavailable on your system, you can use src/conftools/install-sh relative to your DACS distribution directory. Or just use cp (or mkdir), chgrp, and chmod.

Since we are not using SSL in this tutorial, edit $feds/site.conf and change the value of the \m[blue]SECURE_MODE\m[]\s-2\u[31]\d\s+2 directive to "off". For production use, the directive's value should always be "on":

SECURE_MODE "off"

It is convenient - though not required - to collect the configuration directives for all jurisdictions on this host in a single file. It's not unusual for a host to be associated with just one jurisdiction (and one federation), but this is certainly not always the case.

% install -c -g $dacsgroup -m 0660 /dev/null $feds/dacs.conf

We will create a directory where most of the files associated with our new federation will live:

% install -d -g $dacsgroup -m 0770 $feds/dacstest.dss.ca

And a subdirectory within it where most of the files associated with our new jurisdiction will live:

% install -d -g $dacsgroup -m 0770 $la

Create a directory where we will put access control rules (also called ACLs, access control lists, or simply rules) for our jurisdiction, and we also need an empty revocation file:

% install -d -g $dacsgroup -m 0770 $la/acls
% install -c -g $dacsgroup -m 0660 /dev/null $la/acls/revocations

Create directories where we will put group definitions for our jurisdiction and define the membership of our federation:

% install -d -g $dacsgroup -m 0770 $la/groups $la/groups/LA $la/groups/DACS
% install -c -g $dacsgroup -m 0660 /dev/null $la/groups/DACS/jurisdictions.grp

Paste the following text into the $la/groups/DACS/jurisdictions.grp file:

<groups xmlns="http://dss.ca/dacs/v1.4">
 <group_definition jurisdiction="LA" name="jurisdictions"
     mod_date="Tue, 14-Jun-2005 16:06:00 GMT" type="public">
   <group_member jurisdiction="LA" name="LA Jurisdiction" type="meta"
     alt_name="Test Jurisdiction for the LA Dodgers"
     dacs_url="http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs"
     authenticates="yes" prompts="no"/>
 </group_definition>
</groups>

(Remember to change 18123 if you are using a different port.) The purpose of jurisdictions.grp is to provide DACS with information about the jurisdictions in this federation. All jurisdictions in a federation should use identical jurisdictions.grp files. We're not going to make much use of this in the tutorial, but if you add a jurisdiction or if any of this information changes, jurisdictions.grp would ordinarily be updated everywhere in your federation. For instance, if you were to add a jurisdiction to your federation, you should add another group_member element to the group_definition that describes the new jurisdiction, and then copy the updated jurisdictions.grp file to each jurisdiction. Please see \m[blue]dacs.groups(5)\m[]\s-2\u[32]\d\s+2 for additional information.

We need some basic configuration directives for the jurisdiction LA. Paste the following text into the $feds/dacs.conf file:

<Configuration xmlns="http://dss.ca/dacs/v1.4">

 <Default>
   FEDERATION_DOMAIN "dacstest.dss.ca"
   FEDERATION_NAME "DACSTEST"
   LOG_LEVEL "info"
 </Default>

 <Jurisdiction uri="dodgers.dacstest.dss.ca">
   JURISDICTION_NAME "LA"
 </Jurisdiction>

</Configuration>

And let's make this the default configuration file for DACS jurisdictions at this site:

% rm -f $la/dacs.conf
% ln -s $feds/dacs.conf $la/dacs.conf

Now, let's ask DACS to display its configuration by running the \m[blue]dacsconf(1)\m[]\s-2\u[33]\d\s+2 utility:

% $bin/dacsconf -uj LA -q

This configuration is the result of merging the contents of $la/dacs.conf (which points to $feds/dacs.conf) and $feds/site.conf, with directives in the former file overriding directives in the latter.

We must create encryption keys for this federation using the \m[blue]dacskey(1)\m[]\s-2\u[34]\d\s+2 utility:

% install -c -g $dacsgroup -m 0640 /dev/null $feds/dacstest.dss.ca/federation_keyfile
% $bin/dacskey -uj LA -q $feds/dacstest.dss.ca/federation_keyfile
% ls -l $feds/dacstest.dss.ca/federation_keyfile

We could not do this until after the jurisdiction had been configured because dacskey needs to look at dacs.conf.

Security

The federation key file must be kept secret. Any person or process that can read the federation key file can create DACS identities. It should be readable only by its owner and DACS and not readable by anyone else.

Similarly, we should create encryption keys for our jurisdiction:

% install -c -g $dacsgroup -m 0640 /dev/null $la/jurisdiction_keyfile
% $bin/dacskey -uj LA -q $la/jurisdiction_keyfile
% ls -l $la/jurisdiction_keyfile

Like the federation keys, these keys must also be kept secret. But the jurisdiction keys are private to their jurisdiction and are not shared among federation members.

Make sure that all of the files and directories starting with /usr/local/dacs have appropriate permissions, as discussed earlier.

Note

If you modify httpd.conf you must restart Apache for the changes to take effect. If you modify dacs.conf, site.conf, or any other DACS configuration file, the changes take effect immediately and do not require restarting Apache.

Step 6: Do basic Apache configuration for DACS

Your Apache is now DACS-enabled and we've configured DACS. Before we can do anything interesting we must make some changes to the Apache configuration. We will begin by DACS-wrapping DACS web services, which is required.

Edit /usr/local/apache-dacs/conf/httpd.conf and locate the \m[blue]VirtualHost\m[]\s-2\u[13]\d\s+2 section that you added earlier. Inside that VirtualHost section and near its end, add the following text (remember to adjust paths as necessary):

AddDACSAuth dacs-acs /usr/local/dacs/bin/dacs_acs "-t -v"
SetDACSAuthMethod dacs-acs external
SetDACSAuthConf dacs-acs "/usr/local/dacs/federations/dacs.conf"

<Location /cgi-bin/dacs>
  Require valid-user
# Note: For Apache 2.4, instead use:
# Require dacs-authz
  Options ExecCGI
  AuthType DACS
  AuthDACS dacs-acs
</Location>

These directives configure the virtual host to DACS-wrap the contents of all URLs that fall under the /cgi-bin/dacs namespace. The first three directives tell mod_auth_dacs where to find the external DACS access control program (\m[blue]dacs_acs(8)\m[]\s-2\u[35]\d\s+2) and the DACS configuration file.

Start (or restart) Apache so that it uses its new configuration (as root):

# /usr/local/apache-dacs/bin/apachectl restart

DACS should now be enforcing access control on the /cgi-bin/dacs part of the server's URL space.

Check that you can still access test-cgi (which you have not DACS-wrapped):

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/test-cgi\m[]

Now, let's see what happens when we try to access dacs_prenv:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_prenv\m[]\s-2\u[36]\d\s+2

Apache should produce a "403 Forbidden" error, which causes DACS to display an "Access Denied by DACS" page (actually, it is the contents of the file /usr/local/dacs/www/handlers/acs_failed.html, which is set by the \m[blue]ACS_ERROR_HANDLER\m[]\s-2\u[37]\d\s+2 directive in site.conf). This happens because the default rules do not grant access to dacs_prenv, so all access will be denied.

To finish up this step, let's add a rule that will grant everyone access to dacs_prenv. Create $la/acls/acl-tutorial.0 with appropriate permissions:

% install -c -g $dacsgroup -m 0660 /dev/null $la/acls/acl-tutorial.0

and then paste the following text into it:

<acl_rule status="enabled">
  <services>
    <service url_expr='"${Conf::dacs_cgi_bin_prefix}/dacs_prenv${Conf::dacs_cgi_bin_suffix}"'/>
    <service url_expr='"${Conf::dacs_cgi_bin_prefix}/dacs_version${Conf::dacs_cgi_bin_suffix}"'/>
  </services>

  <rule order="allow,deny">
    <allow>
      user("any")
    </allow>
  </rule>
</acl_rule>

Whenever you add or change an access rule, you must rebuild the rule index for the jurisdiction:

% $bin/dacsacl -uj LA -q -build
% chgrp $dacsgroup $la/acls/INDEX

It's currently only really necessary to run dacsacl if you add a rule or modify any part of a rule's services element, but this may change in a future release so just do it always. We make sure that the index file's group ID is correct.

This time dacs_prenv should work because our new rule grants access to everyone. Try it:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_prenv\m[]\s-2\u[36]\d\s+2

This output includes some new environment variables that are passed to all DACS-wrapped programs. These variables begin with "DACS_", such as DACS_VERSION - see \m[blue]dacs_acs(8)\m[]\s-2\u[38]\d\s+2 for additional information.

Step 7: Test basic DACS services

There's still not too much you can do at this point, but there are a few DACS services that you can try. If one of these requests fails, take a look at the DACS log files in the /usr/local/dacs/logs directory for clues. The most likely cause is incorrect permissions on a file or directory, or possibly you made an editing mistake.

The \m[blue]dacs_version(8)\m[]\s-2\u[39]\d\s+2 web service displays various version information, naturally enough:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_version\m[]

The \m[blue]dacs_list_jurisdictions(8)\m[]\s-2\u[40]\d\s+2 web service displays information about jurisdictions:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_list_jurisdictions\m[]

You may recognize some of this material from the jurisdictions.grp file.

We saw the conf utility earlier. We can get the same information from a web service:

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_conf\m[]

Ooops! You should have been denied access to this web service. If you examine the default ACL (see \m[blue]dacs.acls(5)\m[]\s-2\u[41]\d\s+2) for this web service, which can be found in /usr/local/dacs/acls/acl-conf.0, you might suspect that access to dacs_conf will only be granted to identities that satisfy the expression "dacs_admin()" (see \m[blue]dacs.exprs(5)\m[]\s-2\u[42]\d\s+2). And since you have not signed on to obtain a DACS identity, the ACL should deny access. After we do a little more DACS configuration work in the next step, we will give this another try.

Step 8: Try DACS authentication

It is possible to create accounts or identities specifically for DACS users. These identities are managed by the \m[blue]dacspasswd(1)\m[]\s-2\u[43]\d\s+2 utility (there are user accounts managed by other DACS commands, but we will not discuss them here). Similar to Apache's\m[blue]htpasswd\m[]\s-2\u[44]\d\s+2 command, these accounts are "private" in that they are unrelated to any other identities you might have on your system, unless you tie them together. For example, we can create a DACS identity named "root" that has no relationship to a Unix system's superuser - perhaps you are creating a DACS account for actor \m[blue]Stephen Root\m[]\s-2\u[45]\d\s+2.

We begin this step by creating an empty password file for dacspasswd (to ensure correct permissions). Then we create a DACS account for username "sandy".

% install -c -g $dacsgroup -m 0660 /dev/null $la/passwd
% $bin/dacspasswd -uj LA -q -a sandy

You will be prompted for a password to assign to sandy's account. Choose any password you like as long as it is at least six characters long. You can change sandy's password by running this command again.

Next, we edit $la/dacs.conf and add the following text in the Jurisdiction section for dodgers.dacstest.dss.ca:

<Auth id="passwd">
   URL \
"http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/local_passwd_authenticate"
   STYLE "pass"
   CONTROL "sufficient"
 </Auth>

This configuration enables authentication (see \m[blue]dacs_authenticate(8)\m[]\s-2\u[46]\d\s+2) for accounts managed by the dacspasswd utility. Check again that all files starting with /usr/local/dacs have appropriate permissions, as discussed earlier.

We should now be able to authenticate ("login") as sandy by providing the password you set up earlier. If successful, your browser will be sent credentials (in an HTTP cookie) for the identity DACS calls LA:sandy. Note that the cookies DACS creates are deleted when your browser exits. Even if a cookie is not deleted, DACS credentials have a limited lifetime and will become useless when they expire.

DACS comes with examples of simple HTML login pages with which you can authenticate:

\m[blue]http://dodgers.dacstest.dss.ca:18123/examples/login.html\m[]

Your browser must have JavaScript enabled to use this page. Select the jurisdiction (LA), enter the username (sandy) and password, and then click "Login". If all is well, you should see the "DACS Authentication Succeeded" page, which is the contents of /usr/local/dacs/www/handlers/auth_ok.html. Of course in a production environment you would write custom login and signout pages, or integrate the functionality with a portal or in whatever way you prefer for your site.

Things get a bit more interesting now that you are able to authenticate. You can follow one link on the "DACS Authentication Succeeded" page to see your current credentials (using \m[blue]dacs_current_credentials\m[]\s-2\u[47]\d\s+2) or another to visit a page that will allow you to signout (\m[blue]dacs_signout(8)\m[]\s-2\u[48]\d\s+2) from all or some identities (you can also \m[blue]invoke dacs_signout directly\m[]\s-2\u[49]\d\s+2 to signout from all identities). If you signout, there will be a link that you can follow to login again.

Now use dacspasswd to create another account:

% $bin/dacspasswd -uj LA -q -a don

If you are curious, you can take a peek at the password file, which we have configured to be $la/passwd.

You can now authenticate as sandy or don. You can have more than one identity active at the same time (i.e., you could be signed on as both sandyanddon), but this is disallowed by default; see \m[blue]ACS_CREDENTIALS_LIMIT\m[]\s-2\u[50]\d\s+2 and \m[blue]AUTH_SINGLE_COOKIE\m[]\s-2\u[51]\d\s+2.

Now that you're able to authenticate, let's have another try at running dacs_conf (recall you were not granted access to it earlier). We must first make one of the identities that you have created a DACS administrator identity. Edit $la/dacs.conf and add the following text in the Jurisdiction section for dodgers.dacstest.dss.ca (but not within the Auth section):

ADMIN_IDENTITY "LA:sandy"

As you might assume, this confers special privileges to LA:sandy.

Authenticate as sandy using the \m[blue]login page\m[] and then try this link again (it should work this time):

\m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_conf\m[]

If you \m[blue]signout\m[]\s-2\u[52]\d\s+2 as sandy, then \m[blue]authenticate\m[] as don, and try \m[blue]http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_conf\m[] again, you should be denied access.

In an earlier step, you created an ACL ($la/acls/acl-tutorial.0) that grants access to dacs_prenv to any user, whether authenticated or not. Edit that rule and replace:

user("any")

with:

user("auth")

Try invoking \m[blue]dacs_prenv\m[]\s-2\u[53]\d\s+2 when you are not authenticated - you should be denied access. Now authenticate and try \m[blue]dacs_prenv\m[]\s-2\u[53]\d\s+2 again - it should work. Edit the rule again and replace:

user("auth")

with:

user("LA:don")

Now you should only be granted access if you've authenticated as the DACS username LA:don.

Step 9: DACS-wrapping a web service

To use DACS to control access to a resource, there are just a few things you need to do:

Make the URL space in which the resource lies within the scope of a \m[blue]Location\m[]\s-2\u[54]\d\s+2 directive for the VirtualHost that corresponds to the DACS jurisdiction responsible for the resource.

Make an appropriate DACS access control rule for the jurisdiction responsible for the URL space in which the resource lies.

Basically, you have to configure Apache to allow DACS to perform access control for the resource, and you have to configure DACS to enforce the selective access that you want. This is ordinarily both easy to do and something that is done infrequently because closely related resources are typically grouped together within the URL space you have defined (for example, all image files may be collected under /images in the URL space, related applications are collected somewhere under /cgi-bin, and so on) and because ACLs can be written with wildcard patterns that will match everything "under" a given URL space prefix.

Security

It is important to verify that all resources that you intend to be DACS-wrapped really are access controlled and that DACS cannot be bypassed (e.g., by using different URLs for the same resource). For instance, despite many improvements, getting Apache's\m[blue]Virtual Hosts\m[]\s-2\u[55]\d\s+2 configured exactly as you require can be challenging - make sure that security cannot be bypassed through selection of a particular hostname or port number.

Also, note that DACS performs access control on resource names rather than on the resources themselves. This means that if a particular resource is known by multiple names, because of symbolic links, for example, then to correctly manage access to the resource all of its names must be DACS-wrapped.

Step 10: What's next?

Having successfully completed all of the previous steps, you should have a feel for some of the things that you can do with DACS. Of course, there's much more to DACS than what we've covered. You should be capable of using the system you've configured to this point to try some things on your own. Here are a few ideas (in order of increasing difficulty):

Add a DACS-wrapped resource and experiment with access control rules. It might be a static web page or a CGI program. Remember that by default, your site-specific ACLs for the jurisdiction LA are files in the $la/acls directory. Review \m[blue]dacs.acls(5)\m[]\s-2\u[56]\d\s+2 before beginning.

Assign a few roles to DACS user sandy and modify an access control rule to consider roles when granting or denying access. Roles provide a convenient way to classify users so that access control rules can be concisely written to grant (or deny) access to a set of users that are related in some way. For example, you might assign some users to "students", some to "staff", and some to "faculty", and then write rules that reference those roles rather than individual DACS usernames. Roles only have meaning with respect to how they are used in ACLs, so you can make up any syntactically valid words you want.

Here are some hints to get you started. You'll need to do two things: assign roles to users and enable roles. Once enabled, your DACS will look for roles in the file $la/roles. Each line of that file assigns roles to a user and consists of the username, a colon, and a comma-separated list of roles. For example:

sandy:pitchers,retired-players
don:pitchers,retired-players
eric:pitchers,active-players
cesar:infielders,active-players

The other thing you'll need is some DACS configuration to enable roles. Add the following to the Jurisdiction section of dacs.conf:

<Roles id="roles">
  URL "http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/local_roles"
</Roles>

Now you can create rules that depend on the user making the request having certain roles. For example, a rule can be written to grant access to a resource only if the user making the request has the role "pitchers" by using the predicate (see \m[blue]dacs.exprs(5)\m[]\s-2\u[57]\d\s+2):

user("%LA:pitchers")

Or you can create a rule that will grant access only if the user has the roles "active-players" and "pitchers"; use the predicate:

user("%LA:pitchers") and user("%LA:active-players")

If you create a DACS account for a username that corresponds to a user on your system, you can configure DACS to assign roles to that user based on the Unix groups that she belongs to. This is very easy to do: instead of using local_roles as in the example above, use local_unix_roles instead. If you create a DACS account for alice, for example, and the account "alice" has group membership on your system (see group(5)), then alice would authenticate using her DACS password and be assigned roles from her Unix group membership.

Instead of using a DACS account to authenticate alice, you can easily configure DACS to use alice's Unix password. The DACS module local_unix_authenticate, which must be installed set-uid root so that it can access passwords, provides this functionality.

Add a DACS jurisdiction named NY (yankees.dacstest.dss.ca) on the same host where you configured dodgers.dacstest.dss.ca. You do not have to configure authentication at the new jurisdiction. Notice that you can authenticate at dodgers.dacstest.dss.ca and then access resources at yankees.dacstest.dss.ca. This is "single sign-on".

Run DACS on an additional host. The procedure is basically the same as what you already did in this tutorial. Name the jurisdiction BOSTON and assign it the domain name redsox.dacstest.dss.ca. You won't be able to use the IP address 127.0.0.1 for this; you'll have to alias the domain names to the IP addresses of real interfaces and make the same changes to /etc/hosts on both hosts. You'll also have to use the identical federation_keyfile on both hosts (simply copy the file you've already made).

Configure a different (or additional) authentication method for your jurisdiction. See \m[blue]dacs_authenticate(8)\m[]\s-2\u[58]\d\s+2. For the password style of authentication, you might try the NTLM authentication method. For a bit more of a challenge, see if you can make the expr or cert style of authentication work.

Step 11: Clean up

If you are done, you may want to do some clean up now. First, stop Apache:

# /usr/local/apache-dacs/bin/apachectl stop

Next, delete dodgers.dacstest.dss.ca and any other domain names you created for this exercise from /etc/hosts. Delete any groups you created. Remove /usr/local/apache-dacs, /usr/local/dacs, and everything underneath them.

Troubleshooting

The first thing to do if you encounter a problem is to check that you've got the latest version of DACS; a newer version might fix your problem. Also, visit the \m[blue]Post-Release Notes\m[]\s-2\u[59]\d\s+2 area for your release in case a newer edition of this document is available or a bug fix has been posted.

By default, the DACS log files are put in the /usr/local/dacs/logs directory. If you encounter any problems or just want to see what's going on, examine the log files in that directory. Depending on the DACS\m[blue]LOG_LEVEL\m[]\s-2\u[60]\d\s+2 and \m[blue]LOG_FILTER\m[]\s-2\u[61]\d\s+2 directives in effect, log files can quickly become big. It is safe to delete them or truncate them at any time.

In the event of problems, you should also take a look at the Apache logs (in /usr/local/apache-dacs/logs).

There are five main sources of problems:

Typos (you got the spelling or punctuation incorrect, or didn't paste text correctly),

File permissions are incorrect (DACS cannot read or write its files or directories),

You didn't follow the instructions correctly (you skipped something or misunderstood something),

You ran into unexpected platform dependencies, or

We goofed.

If you're sure the problem is either of the last two types, please \m[blue]contact us\m[]\s-2\u[6]\d\s+2. and tell us what happened. Be sure to mention which steps succeeded and which one failed.

RELATED TO dacs.quick…

\m[blue]dacs(1)\m[]\s-2\u[62]\d\s+2, \m[blue]dacsinit(1)\m[]\s-2\u[28]\d\s+2, \m[blue]dacs.readme(7)\m[]\s-2\u[3]\d\s+2, \m[blue]dacs.install(7)\m[]\s-2\u[4]\d\s+2

AUTHOR

Distributed Systems Software (\m[blue]www.dss.ca\m[]\s-2\u[63]\d\s+2)

COPYING

Copyright2003-2013 Distributed Systems Software. See the \m[blue]LICENSE\m[]\s-2\u[64]\d\s+2 file that accompanies the distribution for licensing information.

NOTES

1.

FAQ

http://dacs.dss.ca/faq.html

2.

manual pages

http://dacs.dss.ca/man

3.

dacs.readme(7)

http://dacs.dss.ca/man/dacs.readme.7.html

4.

dacs.install(7)

http://dacs.dss.ca/man/dacs.install.7.html

5.

an Apache configuration task

http://httpd.apache.org/docs-2.2/ssl/

6.

contact us

http://www.dss.ca/contactus.html

7.

Apache

http://httpd.apache.org

8.

OpenSSL

http://www.openssl.org

9.

Expat

http://sourceforge.net/projects/expat

10.

OpenSSL

http://dacs.dss.ca/man/dacs.install.7.html#install-openssl

11.

Expat

http://dacs.dss.ca/man/dacs.install.7.html#install-expat

12.

detailed instructions

http://dacs.dss.ca/man/dacs.install.7.html#install-apache

13.

VirtualHost

http://httpd.apache.org/docs-2.2/mod/core.html#virtualhost

14.

Directory

http://httpd.apache.org/docs-2.2/mod/core.html#directory

15.

Alias

http://httpd.apache.org/docs-2.2/mod/mod_alias.html#alias

16.

DocumentRoot

http://httpd.apache.org/docs-2.2/mod/core.html#documentroot

17.

netstat(1)

http://www.freebsd.org/cgi/man.cgi?query=netstat&apropos=0&sektion=1&manpath=FreeBSD+9.1-RELEASE&format=html

18.

sockstat(1)

http://www.freebsd.org/cgi/man.cgi?query=sockstat&apropos=0&sektion=1&manpath=FreeBSD+9.1-RELEASE&format=html

19.

Listen

http://httpd.apache.org/docs/2.0/mod/mpm_common.html#listen

20.

User

http://httpd.apache.org/docs-2.2/mod/mpm_common.html#user

21.

mod_suexec

http://httpd.apache.org/docs-2.2/mod/mod_suexec.html

22.

Group

http://httpd.apache.org/docs-2.2/mod/mpm_common.html#group

23.

group(5)

http://www.freebsd.org/cgi/man.cgi?query=group&apropos=0&sektion=5&manpath=FreeBSD+9.1-RELEASE&format=html

24.

mod_auth_dacs

http://dacs.dss.ca/man/mod_auth_dacs.html

25.

httpd.conf

file:///usr/local/apache-dacs/conf/httpd.conf

26.

LoadModule

http://httpd.apache.org/docs-2.2/mod/mod_so.html#loadmodule

27.

dacs.conf(5)

http://dodgers.dacstest.dss.ca:18123/man/dacs.conf.5.html

28.

dacsinit(1)

http://dacs.dss.ca/man/dacsinit.1.html

29.

Initial Configuration

http://dacs.dss.ca/man/dacs.install.7.html#initial_config

30.

earlier

http://dacs.dss.ca/man/#var-defs

31.

SECURE_MODE

http://dacs.dss.ca/man/dacs.conf.5.html#SECURE_MODE

32.

dacs.groups(5)

http://dacs.dss.ca/man/dacs.groups.5.html#dacs_metadata

33.

dacsconf(1)

http://dodgers.dacstest.dss.ca:18123/man/dacsconf.1.html

34.

dacskey(1)

http://dodgers.dacstest.dss.ca:18123/man/dacskey.1.html

35.

dacs_acs(8)

http://dodgers.dacstest.dss.ca:18123/man/dacs_acs.8.html

36.

http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_prenv

http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_prenv?FORMAT=html

37.

ACS_ERROR_HANDLER

http://dacs.dss.ca/man/dacs.conf.5.html#ACS_ERROR_HANDLER

38.

dacs_acs(8)

http://dacs.dss.ca/man/dacs_acs.8.html#exported_envars

39.

dacs_version(8)

http://dodgers.dacstest.dss.ca:18123/man/dacs_version.8.html

40.

dacs_list_jurisdictions(8)

http://dodgers.dacstest.dss.ca:18123/man/dacs_list_jurisdictions.8.html

41.

dacs.acls(5)

http://dodgers.dacstest.dss.ca:18123/man/dacs.acls.5.html

42.

dacs.exprs(5)

http://dodgers.dacstest.dss.ca:18123/man/dacs.exprs.5.html

43.

dacspasswd(1)

http://dodgers.dacstest.dss.ca:18123/man/dacspasswd.1.html

44.

htpasswd

http://httpd.apache.org/docs-2.2/programs/htpasswd.html

45.

Stephen Root

http://us.imdb.com/name/nm0740535/

46.

dacs_authenticate(8)

http://dodgers.dacstest.dss.ca:18123/man/dacs_authenticate.8.html

47.

dacs_current_credentials

http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_current_credentials

48.

dacs_signout(8)

http://dodgers.dacstest.dss.ca:18123/man/dacs_signout.8.html

49.

invoke dacs_signout directly

http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_signout

50.

ACS_CREDENTIALS_LIMIT

http://dacs.dss.ca/man/dacs.conf.5.html#ACS_CREDENTIALS_LIMIT

51.

AUTH_SINGLE_COOKIE

http://dacs.dss.ca/man/dacs.conf.5.html#AUTH_SINGLE_COOKIE

52.

signout

http://dodgers.dacstest.dss.ca:18123/examples/signout.html

53.

dacs_prenv

http://dodgers.dacstest.dss.ca:18123/cgi-bin/dacs/dacs_prenv

54.

Location

http://httpd.apache.org/docs-2.2/mod/core.html#location

55.

Virtual Hosts

http://httpd.apache.org/docs/2.2/vhosts/

56.

dacs.acls(5)

http://dacs.dss.ca/man/dacs.acls.5.html

57.

dacs.exprs(5)

http://dacs.dss.ca/man/dacs.exprs.5.html

58.

dacs_authenticate(8)

http://dacs.dss.ca/man/dacs_authenticate.8.html

59.

Post-Release Notes

http://dacs.dss.ca/download.html

60.

LOG_LEVEL

http://dacs.dss.ca/man/dacs.conf.5.html#LOG_LEVEL

61.

LOG_FILTER

http://dacs.dss.ca/man/dacs.conf.5.html#LOG_FILTER

62.

dacs(1)

http://dacs.dss.ca/man/dacs.1.html

63.

www.dss.ca

http://www.dss.ca

64.

LICENSE

http://dacs.dss.ca/man/../misc/LICENSE