Compiling Dovecot From Sources
For most people it is enough to do:
./configure make sudo make install
That installs Dovecot under the /usr/local directory. The configuration file is in /usr/local/etc/dovecot.conf. Logging goes to syslog's mail facility by default, which typically goes to /var/log/mail.log or something similar. If you are in a hurry, you can then jump to QuickConfiguration.
Anchor(nonstdpaths) If you have installed some libraries into locations which require special include or library paths, you can pass them in the CPPFLAGS and LDFLAGS environment variables. For example:
CPPFLAGS=-I/opt/openssl/include LDFLAGS=-L/opt/openssl/lib ./configure
Solaris 10 includes a bundled OpenSSL that does not function correctly with Dovecot 1.0beta8 when attempting to use TLS/SSL with the default dovecot config. This is because the default setting of ssl_cipher_list in dovecot.conf is HIGH:!ALL; due to import restrictions in some countries (now apparently relaxed) the high level routines are part of the unbundled SUNWcry package and are not available if you don't have this package installed. This confuses the client as dovecot announces support for high level crypto and then cannot deliver. In any case, to resolve this you can alternatively (in decreasing order of simplicity):
- Set ssl_cipher_list= MEDIUM:!ALL in dovecot.conf
- Find and install the missing SUNWcry package.
Provide an alternate version of the openssl libraries that doesn't have the high grade routines removed for your protection (sigh). The bundled version of OpenSSL cannot be removed. Installing a newer OpenSSL from source or package (for instance, from http://sunfreeware.com/) will enable Dovecot to work correctly as long as you link against the new OpenSSL. Assuming you are building with the built-in ld, make and gcc, then your build should go something like this (notice the -R required by Sun's linker that sets the runtime linking path in the resulting programs so the OpenSSL libraries load from /usr/local/ssl/lib):
PATH=$PATH:/usr/sfw/bin:/usr/ccs/bin export PATH mv /usr/lib/pkgconfig/openssl.pc /usr/lib/pkgconfig/openssl.pc.orig CPPFLAGS=-I/usr/local/ssl/include LDFLAGS='-L/usr/local/ssl/lib -R/usr/local/ssl/lib' ./configure --with-ssl=openssl make make install
Compiling Dovecot From CVS
If you got Dovecot from CVS, for instance with
cvs -d :pserver:firstname.lastname@example.org:/home/cvs checkout -r branch_1_0 dovecot
you will first need to run autoreconf -isv to generate the configure script.
This requires that you have the autoconf, automake, libtool and pkg-config packages installed. It is also advisable to add --enable-maintainer-mode to the configure script. Thus:
autoreconf -isv ./configure -C --enable-maintainer-mode make sudo make install
For later updates from CVS, you can use:
cvs update -dP make sudo make install
Compiling Dovecot with rpmbuild (Mandriva, RedHat, etc.)
Fetch the source rpm from ftp://ftp.surfnet.nl/vol/5/mandrakelinux/official/2007.0/SRPMS/contrib/release/ or any other mirror. At the moment of this writing dovecot-10.rc7.src.rpm can be found there. Current release is rc14. Updating the source rpm is not difficult. Unpack with 'rpm -ivh dovecot-10.rc7.src.rpm' to a build environment (/usr/src/rpm...) Copy the newer tarball (rc14) from the dovecot site to the SOURCES directory of the build environment. Change the dovecot.spec file in the SPECS direcctory to reflect the new release and the new name of the tarball. The maintainer seems to work with a bz2 tarball; a tar.gz tarball makes no difference Issue a rpmbuild -ba dovecot.spec. The resulting rpm will be placed in RPMS/i586 Install with rpm or urpmi.
rpm -ivh dovecot-1.0.rc7.src.rpm cd /usr/src/rpm mv ~/downloads/dovecot-1.0.rc14.tar.gz ./SOURCES cd SPECS vi dovecot.spec ...edit release and tarball name. Change default options if needed... rpmbuild -ba dovecot.spec cd ../RPMS/i586 urpmi ./dovecot-1.0.rc14-1mdv2007.0.i586.rpm
During this proces missing prerequisits may be detected. Install them and rerun the build proces. Hopefully dovecot will move to the main tree as soon as 1.0-final is released. From then on I expect that a ready to go binary rpm will be available.
Dovecot was initially built to support both OpenSSL and GNUTLS. GNUTLS has however had some problems and nowadays it does not work any more. Patches to fix it are welcome.
OpenSSL is used by default now, and it should be automatically detected. If it is not, you are missing some header files or libraries, or they are just in a non-standard path. Make sure you have the openssl-dev or a similar package installed, and if it is not in the standard location, set CPPFLAGS and LDFLAGS as shown in [#nonstdpaths the first section above.]
By default the SSL certificate is read from /etc/ssl/certs/dovecot.pem and the private key from /etc/ssl/private/dovecot.pem. The /etc/ssl directory can be changed using the --with-ssldir=DIR configure option. Both can of course be overridden from the configuration file.
Note that current inotify is in the Linux kernel since version 2.6.13 and it is preferred over dnotify. If your distribution does not have the required inotify header file, you can get it from the inotify maintainer (this example requires [http://curl.haxx.se/ cURL]):
mkdir -p /usr/local/include/sys cd /usr/local/include/sys curl ftp://ftp.kernel.org/pub/linux/kernel/people/rml/inotify/headers/inotify.h -O curl ftp://ftp.kernel.org/pub/linux/kernel/people/rml/inotify/headers/inotify-syscalls.h >> inotify.h
Optional Configure Options
- gives a full list of available options
- just lists the options added by the particular package (= Dovecot)
Options are usually listed as --with-something or --enable-something. If you want to disable them, do it as --without-something or --disable-something. There are many default options that come from autoconf, automake or libtool. They are explained elsewhere.
Here is a list of options that Dovecot adds. You should not usually have to change these, but they are described here just for completeness:
- Enable IPv6 support. This is enabled by default if the system is detected to support it.
- Enables some extra checks for debugging. This is mostly useful for developers. It does quite a lot of unnecessary work but should catch some programming mistakes more quickly.
- Enable assertion checks, enabled by default. Disabling them may slightly save some CPU, but if there are bugs they can cause more problems since they are not detected as early.
- Specifies if we use 32bit or 64bit file offsets. 64bit is the default if the system supports it (Linux and Solaris do). Dropping this to 32bit may save some memory, but it prevents accessing any file larger than 2 GB.
- Specifies memory alignment used for memory allocations. It is needed with many non-x86 systems and it should speed up x86 systems too. Default is 8, to make sure 64bit memory accessing works.
Specifies what I/O loop method to use. Possibilities are select, poll, epoll and kqueue. The default is to use poll if possible and fall back to select. epoll is faster than either of them, but it works only on Linux 2.6 kernels. kqueue is also faster, but works only on BSDs.
Specifies what file system notification method to use. Possibilities are dnotify, inotify (both on Linux), kqueue (FreeBSD) and none. The default is to use dnotify if it is compilable, otherwise none. See [#notify Notify method] above for more information.
- Build POP3 server binary as well as IMAP server. It still has to be separately enabled from the configuration file before it is actually used.
- Build Local Delivery Agent binary.
Specifies what mailbox formats to support. Default is maildir,mbox.
SQL Driver Options
SQL drivers are typically used only for authentication, but they may be used as a lib-dict backend too, which can be used by plugins for different purposes.
--with-sql-drivers Build with specified SQL drivers. Defaults to all that were found with autodetection. --with-pgsql Build with PostgreSQL support --with-mysql Build with MySQL support --with-sqlite Build with SQLite3 driver support
Authentication Backend Options
The basic backends are built if the system is detected to support them:
--with-passwd Build with /etc/passwd support --with-passwd-file Build with passwd-like file support --with-shadow Build with shadow password support --with-pam Build with PAM support --with-checkpassword Build with checkpassword support --with-bsdauth Build with BSD authentication support --with-static-userdb Build with static userdb support --with-prefetch-userdb Build with prefetch userdb support
Some backends require extra libraries and are not necessarily wanted, so they are built only if specifically enabled:
--with-sql Build with generic SQL support (drivers are enabled separately) --with-ldap Build with LDAP support --with-gssapi Build with GSSAPI authentication support --with-vpopmail Build with vpopmail support
Dynamic Authentication Modules
Dovecot can also dynamically load authentication modules from the $prefix/lib/dovecot/auth/ directory. Binary packages builders should use them for authentication modules which require external libraries (e. g. LDAP and vpopmail). There is no standard way to build them as modules currently, but something like this should work:
gcc -shared -fPIC -DHAVE_CONFIG_H -DUSERDB_LDAP -DPASSDB_LDAP \ -I../.. -I../lib -I../lib-settings \ db-ldap.c userdb-ldap.c passdb-ldap.c -o ldap.so -lldap gcc -shared -fPIC -DHAVE_CONFIG_H -DUSERDB_VPOPMAIL -DPASSDB_VPOPMAIL \ -I../.. -I../lib userdb-vpopmail.c passdb-vpopmail.c -o vpopmail.so \ -lvpopmail
Dynamic IMAP and POP3 Modules
The mail_plugins setting lists all plugins that Dovecot is supposed to load from the mail_plugin_dir directory at program start. These plugins can do anything they want. They are only expected to contain the <plugin name>_init and <plugin name>_deinit functions which are called at startup and at exit.
The plugin filename is prefixed with a number which specifies the order in which the plugins are loaded. This is important if one plugin depends on another.
Dynamic SQL drivers
The SQL drivers can be used by dovecot-auth, but also by lib-dict. lib-dict then can be used by some plugins, for example enabling dict quota backend to keep the quota information in SQL database.
You could place the SQL drivers into main plugin directory and create symlinks for them into auth/, imap/, pop3/ and lda/.
cd src/lib-sql gcc -shared -fPIC -DHAVE_CONFIG_H -DBUILD_PGSQL \ -I../.. -I../lib -I../lib-settings -I/usr/include/postgresql \ driver-pgsql.c -o driver_pgsql.so -L/usr/lib/postgresql -lpq gcc -shared -fPIC -DHAVE_CONFIG_H -DBUILD_MYSQL \ -I../.. -I../lib -I../lib-settings -I/usr/include/mysql \ driver-mysql.c -o driver_mysql.so -lmysqlclient