4 Preamble: referenced user accounts
5 ----------------------------------
7 In subsequent sections, we will refer to a number of different accounts, as
10 * Linux user accounts:
11 ** The *user* Linux account is the account that you use to log onto the
12 Linux system as a regular user.
13 ** The *root* Linux account is an account that has system administrator
14 privileges. On Debian and Fedora you can switch to this account from
15 your *user* account by issuing the `su -` command and entering the
16 password for the *root* account when prompted. On Ubuntu you can switch
17 to this account from your *user* account using the `sudo su -` command
18 and entering the password for your *user* account when prompted.
19 ** The *opensrf* Linux account is an account that you will create as part
20 of installing OpenSRF. You can switch to this account from the *root*
21 account by issuing the `su - opensrf` command.
23 Installing prerequisites
24 ------------------------
26 OpenSRF has a number of prerequisite packages that must be installed
27 before you can successfully configure, compile, and install OpenSRF.
28 On Debian and Ubuntu, the easiest way to install these prerequisites
29 is to use the Makefile.install prerequisite installer.
31 Issue the following commands as the root user to install prerequisites
32 using the Makefile.install prerequisite installer, substituting your
33 operating system identifier for <osname> below:
35 ---------------------------------------------------------------------------
37 make -f src/extras/Makefile.install <osname>
38 ---------------------------------------------------------------------------
40 Well-tested values for <osname> include:
42 * `debian-jessie` for Debian 8.0
43 * `debian-wheezy` for Debian 7.0
44 * `debian-squeeze` for Debian 6.0
45 * `ubuntu-lucid` for Ubuntu 10.04
46 * `ubuntu-precise` for Ubuntu 12.04
47 * `fedora` for Fedora 17 and later
49 Patches and suggestions for improvement from users of these distributions,
50 or others, are welcome!
52 When the prerequisite installer reaches the Perl module stage, you may
53 be prompted for configuration of Comprehensive Perl Archive Network (CPAN)
54 on your server. You can generally accept the defaults by pressing <return>
55 for all of the prompts, except for the country configuration.
57 Preamble: Developer instructions
58 --------------------------------
61 Skip this section if you are using an official release tarball downloaded
62 from http://evergreen-ils.org/downloads
64 Developers working directly with the source code from the Git repository,
65 rather than an official release tarball, must install some extra packages
66 and perform one step before they can proceed with the `./configure` step.
68 As the *root* Linux account, install the following packages:
74 As the *user* Linux account, issue the following command in the OpenSRF
75 source directory to generate the configure script and Makefiles:
78 ------------------------------------------------------------------------------
80 ------------------------------------------------------------------------------
82 Configuration and compilation instructions
83 ------------------------------------------
85 Use the `configure` command to configure OpenSRF, and the `make` command to
86 build OpenSRF. The default installation prefix (PREFIX) for OpenSRF is
89 If you are building OpenSRF for Evergreen, issue the following commands as
90 the *user* Linux account to configure and build OpenSRF:
92 ---------------------------------------------------------------------------
93 ./configure --prefix=/openils --sysconfdir=/openils/conf
95 ---------------------------------------------------------------------------
97 By default, OpenSRF includes C, Perl, and JavaScript support.
98 You can add the `--enable-python` option to the configure command
99 to build Python support and `--enable-java` for Java support.
101 Installation instructions
102 -------------------------
104 1. Once you have configured and compiled OpenSRF, issue the following
105 command as the *root* Linux account to install OpenSRF:
108 ---------------------------------------------------------------------------
110 ---------------------------------------------------------------------------
112 Create and set up the opensrf Unix user environment
113 ---------------------------------------------------
115 This user is used to start and stop all OpenSRF processes, and must own all
116 files contained in the PREFIX directory hierarchy. Issue the following
117 commands as the *root* Linux account to create the `opensrf` user and set up
118 its environment, substituting <PREFIX> with the value you passed to `--prefix`
119 in your configure command:
121 .Creating the `opensrf` user
123 ---------------------------------------------------------------------------
124 useradd -m -s /bin/bash opensrf
125 echo "export PATH=\$PATH:/<PREFIX>/bin" >> /home/opensrf/.bashrc
127 chown -R opensrf:opensrf /<PREFIX>
128 ---------------------------------------------------------------------------
130 Define your public and private OpenSRF domains
131 ----------------------------------------------
133 For security purposes, OpenSRF uses Jabber domains to separate services
134 into public and private realms. Throughout these instructions, we will use
135 the example domains `public.localhost` and `private.localhost`.
137 On a single-server system, the easiest way to define public and private
138 domains is to define separate hostnames by adding entries to the `/etc/hosts`
139 file. Here are entries that you could add to a stock `/etc/hosts` file for our
142 .Example added entries for `/etc/hosts`
143 ---------------------------------------------------------------------------
144 127.0.1.2 public.localhost public
145 127.0.1.3 private.localhost private
146 ---------------------------------------------------------------------------
148 Adjust the system dynamic library path
149 --------------------------------------
151 Add `<PREFIX>/lib/` to the system's dynamic library path, and then run
152 `ldconfig` as the *root* Linux account.
154 On Debian, Ubuntu, and Fedora systems, run the following commands as the *root*
157 .Adjusting the system dynamic library path
159 ---------------------------------------------------------------------------
160 echo <PREFIX>/lib > /etc/ld.so.conf.d/opensrf.conf
162 ---------------------------------------------------------------------------
164 On most other systems, you can add these entries to `/etc/ld.so.conf`, or
165 create a file within the `/etc/ld.so.conf.d/` directory, and then run
166 `ldconfig` as the *root* Linux account.
168 Configure the ejabberd server
169 -----------------------------
171 OpenSRF requires an XMPP (Jabber) server. For performance reasons, ejabberd is
172 the Jabber server of choice for the OpenSRF project. In most cases, you only
173 have to make a few changes to the default `ejabberd.cfg` file to make ejabberd
176 1. Stop ejabberd before making any changes to its configuration by issuing the
177 following command as the *root* Linux account:
179 .(Debian / Ubuntu) Stopping ejabberd
181 ---------------------------------------------------------------------------
182 /etc/init.d/ejabberd stop
183 ---------------------------------------------------------------------------
185 .(Fedora) Stopping ejabberd
187 ---------------------------------------------------------------------------
188 systemctl stop ejabberd.service
189 ---------------------------------------------------------------------------
191 2. Open `/etc/ejabberd/ejabberd.cfg` and make the following
193 a. Define your public and private domains in the `hosts` directive. For
196 ---------------------------------------------------------------------------
197 {hosts, ["localhost", "private.localhost", "public.localhost"]}.
198 ---------------------------------------------------------------------------
200 b. Comment out the `mod_offline` directive
201 c. Increase the `max_user_sessions` value to 10000
202 d. Change all `max_stanza_size` values to 2000000
203 e. Change all `maxrate` values to 500000
205 3. Restart the ejabberd server to make the changes take effect:
207 .(Debian / Ubuntu) Starting ejabberd
209 ---------------------------------------------------------------------------
210 /etc/init.d/ejabberd start
211 ---------------------------------------------------------------------------
213 .(Fedora) Starting ejabberd
215 ---------------------------------------------------------------------------
216 systemctl start ejabberd.service
217 ---------------------------------------------------------------------------
219 Create the OpenSRF Jabber users
220 -------------------------------
222 On each domain, you need two Jabber users to manage the OpenSRF communications:
224 * a `router` user, to whom all requests to connect to an OpenSRF service
225 will be routed; this Jabber user must be named `router`
226 * an `opensrf` user, which clients use to connect to OpenSRF services; this
227 user can be named anything you like
229 Create the Jabber users by issuing the following commands as the *root* Linux
230 account. Substitute `<password>` for your chosen passwords for each user
233 .Creating the OpenSRF Jabber users
235 ---------------------------------------------------------------------------
236 ejabberdctl register router private.localhost <password>
237 ejabberdctl register opensrf private.localhost <password>
238 ejabberdctl register router public.localhost <password>
239 ejabberdctl register opensrf public.localhost <password>
240 ---------------------------------------------------------------------------
242 Update the OpenSRF configuration files
243 --------------------------------------
245 About the OpenSRF configuration files
246 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
247 There are several configuration files that you must update to make OpenSRF
248 work. SYSCONFDIR is `/opensrf/etc` by default, or the value that you passed to
249 `--sysconfdir` during the configuration phase.
251 * `SYSCONFDIR/opensrf.xml` - this file lists the services that this
252 OpenSRF installation supports; if you create a new OpenSRF service,
253 you need to add it to this file.
254 ** The `<hosts>` element at the bottom of the file lists the services
255 that should be started for each hostname. You can force the system
256 to use `localhost`, so in most cases you will leave this section
259 * `SYSCONFDIR/opensrf_core.xml` - this file lists the Jabber connection
260 information that will be used for the system, as well as determining
261 logging verbosity and defining which services will be exposed on the
264 * `~/.srfsh.xml` - this file gives a Linux account the ability to use
265 the `srfsh` interpreter to communicate with OpenSRF services.
267 Updating the OpenSRF configuration files
268 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
269 1. As the *opensrf* Linux account, copy the example configuration files
270 to create your locally customizable OpenSRF configuration files:
272 .Copying the example OpenSRF configuration files
274 ---------------------------------------------------------------------------
276 cp opensrf_core.xml.example opensrf_core.xml
277 cp opensrf.xml.example opensrf.xml
278 ---------------------------------------------------------------------------
280 2. Edit the `SYSCONFDIR/opensrf_core.xml` file to update the four username
281 / password pairs to match the Jabber user accounts you just created:
283 a. `<config><opensrf>` = use the private Jabber `opensrf` user
284 b. `<config><gateway>` = use the public Jabber `opensrf` user
285 c. `<config><routers><router>` = use the public Jabber `router` user
286 d. `<config><routers><router>` = use the private Jabber `router` user
287 3. Create a `.srfsh.xml` file in the home directory of each user
288 that you want to use `srfsh` to communicate with OpenSRF services. For
289 example, to enable the *opensrf* Linux account to use `srfsh`:
290 a. `cp SYSCONFDIR/srfsh.xml.example ~/.srfsh.xml`
291 b. Open `~/.srfsh.xml` in your text editor of choice and update the
292 password to match the password you set for the Jabber `opensrf` user
293 at the `private.localhost` domain.
295 Starting and stopping OpenSRF services
296 --------------------------------------
298 To start all OpenSRF services with a hostname of `localhost`, issue the
299 following command as the *opensrf* Linux account:
302 ---------------------------------------------------------------------------
303 osrf_control --localhost --start-all
304 ---------------------------------------------------------------------------
306 To stop all OpenSRF services with a hostname of `localhost`, issue the
307 following command as the *opensrf* Linux account:
310 ---------------------------------------------------------------------------
311 osrf_control --localhost --stop-all
312 ---------------------------------------------------------------------------
314 Testing the default OpenSRF services
315 ------------------------------------
317 By default, OpenSRF ships with an `opensrf.math` service that performs basic
318 calculations involving two integers. Once you have started the OpenSRF
319 services, test the services as follows:
321 1. Start the `srfsh` interactive OpenSRF shell by issuing the following
322 command as the *opensrf* Linux account:
324 .Starting the `srfsh` interactive OpenSRF shell
326 ---------------------------------------------------------------------------
328 ---------------------------------------------------------------------------
330 2. Issue the following request to test the `opensrf.math` service:
332 ---------------------------------------------------------------------------
333 srfsh# request opensrf.math add 2,2
334 ---------------------------------------------------------------------------
336 You should receive the value `4`.
338 Troubleshooting note for Python users
339 -------------------------------------
341 If you are running a Python client and trying to connect to OpenSRF running on
342 localhost rather than a hostname that can be resolved via DNS, you will
343 probably receive exceptions about `dns.resolver.NXDOMAIN`. If this happens,
344 you need to install the `dnsmasq` package, configure it to serve up a DNS
345 entry for localhost, and point your local DNS resolver to `dnsmasq`. For example,
346 on Ubuntu you can issue the following commands as the *root* Linux account:
348 .(Debian / Ubuntu) Installing and starting `dnsmasq`
350 ---------------------------------------------------------------------------
351 aptitude install dnsmasq
352 /etc/init.d/dnsmasq restart
353 ---------------------------------------------------------------------------
355 Then edit `/etc/resolv.conf` and ensure that `nameserver 127.0.0.1` is the
356 first entry in the file.
361 Need help installing or using OpenSRF? Join the mailing lists at
362 http://evergreen-ils.org/listserv.php or contact us on the Freenode
363 IRC network on the #evergreen channel.