Samba4 developer howto ====================== tridge@samba.org, December 2004 A more up to date version of this howto can be found in the wiki at http://wiki.samba.org/index.php/Samba4/HOWTO. This is a very basic document on how to setup a simple Samba4 server. This is aimed at developers who are already familiar with Samba3 and wish to participate in Samba4 development. This is not aimed at production use of Samba4. .. contents:: Step 1: download Samba4 ----------------------- If you have downloaded the Samba4 code via a tarball released from the samba.org website, Step 1 has already been completed for you. For testing with the version released in the tarball, you may continue on to Step 2. Note that the references below to the top-level directory named "samba4" will instead be based on the name of the tarball downloaded (e.g. "samba-4.0.0alpha3" for the tarball samba-4.0.0alpha3.tar.gz). There are 2 methods of doing this: method 1: "rsync -avz samba.org::ftp/unpacked/samba_4_0_test/ samba4" method 2: "git clone git://git.samba.org/samba.git samba4; cd samba4; git checkout v4-0-test; cd .." both methods will create a directory called "samba4" in the current directory. If you don't have rsync or git then install one of them. Since only released versions of Samba contain a pregenerated configure script, you will have to generate it by hand:: $ cd samba4/source $ ./autogen.sh Note that the above rsync command will give you a checked out git repository. So if you also have git you can update it to the latest version at some future date using:: $ cd samba4 $ git pull origin v4-0-test Step 2: compile Samba4 ---------------------- Recommended optional development libraries: - acl and xattr development libraries - gnutls - readline Run this:: $ cd samba4/source $ ./configure $ make proto all If you have gcc 3.4 or newer, then substitute "pch" for "proto" to greatly speed up the compile process (about 5x faster). Step 3: install Samba4 ---------------------- Run this as a user who have permission to write to the install directory (defaults to /usr/local/samba). Use --prefix option to configure above to change this. :: # make install Step 4: provision Samba4 ------------------------ The "provision" step sets up a basic user database. Must be run as a user with permission to write to the install directory. :: # cd source # bin/smbpython ./setup/provision --realm=YOUR.REALM --domain=YOURDOM \ # --adminpass=SOMEPASSWORD --server-role='domain controller' REMINDER: Use the path to smbpython, as the provision command will not work with the system python. 'YOURDOM' is the NT4 style domain name. 'YOUR.REALM' is your kerberos realm, which is typically your DNS domain name. Step 5: Create a simple smb.conf -------------------------------- The provisioning will create a very simple smb.conf with no shares by default. You will need to update it to add at least one share. For example:: [test] path = /data/test read only = no Step 6: starting Samba4 ----------------------- The simplest is to just run "smbd", but as a developer you may find the following more useful:: # smbd -i -M single that means "start smbd without messages in stdout, and running a single process. That mode of operation makes debugging smbd with gdb particularly easy. Note that now it is no longer necessary to have an instance of nmbd from Samba 3 running. If you are running any smbd or nmbd processes they need to be stopped before starting smbd from Samba 4. Make sure you put the bin and sbin directories from your new install in your $PATH. Make sure you run the right version! Step 7: testing Samba4 ---------------------- try these commands:: $ smbclient //localhost/test -Uadministrator%SOMEPASSWORD or:: $ ./script/tests/test_posix.sh //localhost/test administrator SOMEPASSWORD NOTE about filesystem support ----------------------------- To use the advanced features of Samba4 you need a filesystem that supports both the "user" and "system" xattr namespaces. If you run Linux with a 2.6 kernel and ext3 this means you need to include the option "user_xattr" in your /etc/fstab. For example:: /dev/hda3 /home ext3 user_xattr 1 1 You also need to compile your kernel with the XATTR and SECURITY options for your filesystem. For ext3 that means you need:: CONFIG_EXT3_FS_XATTR=y CONFIG_EXT3_FS_SECURITY=y If you are running a Linux 2.6 kernel with CONFIG_IKCONFIG_PROC defined you can check this with the following command:: $ zgrep CONFIG_EXT3_FS /proc/config.gz If you don't have a filesystem with xattr support, then you can simulate it by using the option:: posix:eadb = /usr/local/samba/eadb.tdb that will place all extra file attributes (NT ACLs, DOS EAs, streams etc), in that tdb. It is not efficient, and doesn't scale well, but at least it gives you a choice when you don't have a modern filesystem. Testing your filesystem ----------------------- To test your filesystem support, install the 'attr' package and run the following 4 commands as root:: # touch test.txt # setfattr -n user.test -v test test.txt # setfattr -n security.test -v test2 test.txt # getfattr -d test.txt # getfattr -n security.test -d test.txt You should see output like this:: # file: test.txt user.test="test" # file: test.txt security.test="test2" If you get any "Operation not supported" errors then it means your kernel is not configured correctly, or your filesystem is not mounted with the right options. If you get any "Operation not permitted" errors then it probably means you didn't try the test as root. .. vim: ft=rest