Key-value authentication database ================================= Key-value databases can be used as auth backends. They probably should be used only for caching in front of e.g. SQL auth backends. Iteration is supported if the underlying dict provider supports iteration. See for list of supported databases. Auth configuration ------------------ 'dovecot.conf': ---%<------------------------------------------------------------------------- passdb { driver = dict args = /etc/dovecot/dovecot-dict-auth.conf } userdb { driver = dict args = /etc/dovecot/dovecot-dict-auth.conf } ---%<------------------------------------------------------------------------- Dict configuration ------------------ ---%<------------------------------------------------------------------------- uri = redis:host=127.0.0.1:port=6379 # Dictionary URI #uri = # Default password scheme default_pass_scheme = MD5 # Username iteration prefix. Keys under this are assumed to contain usernames. iterate_prefix = userdb/ # Should iteration be disabled for this userdb? If this userdb acts only as a # cache there's no reason to try to iterate the (partial & duplicate) users. #iterate_disable = no # The example here shows how to do multiple dict lookups and merge the replies. # The "passdb" and "userdb" keys are JSON objects containing key/value pairs, # for example: { "uid": 1000, "gid": 1000, "home": "/home/user" } key passdb { key = passdb/%u format = json } key userdb { key = userdb/%u format = json } key quota { key = userdb/%u/quota # or e.g. quota/%{userdb:quota_class} #format = value # The default_value is used if the key isn't found. If default_value setting # isn't specified at all (even as empty), the passdb/userdb lookup fails with # "user doesn't exist". default_value = 100M } # Space separated list of keys whose values contain key/value paired objects. # All the key/value pairs inside the object are added as passdb fields. # This can only be used for JSON formatted values. passdb_objects = passdb #passdb_fields { #} # Userdb key/value object list. userdb_objects = userdb userdb_fields { # dict: refers to key names quota_rule = *:storage=%{dict:quota} # dict:. refers to the objkey inside (JSON) object mail = maildir:%{dict:userdb.home}/Maildir } ---%<------------------------------------------------------------------------- Example values -------------- The value formats are either "value" that contains a direct value, or "json". For example userdb lookup should return something like: ---%<------------------------------------------------------------------------- { "uid": 123, "gid": 123, "home": "/home/username" } ---%<------------------------------------------------------------------------- dict proxying ------------- It may be useful to do the lookups via the "dict" or "dict-async" service. For example: 'dovecot.conf': ---%<------------------------------------------------------------------------- dict { cassandra-userdb = cassandra:/etc/dovecot/dovecot-dict-userdb-cql.conf.ext } ---%<------------------------------------------------------------------------- 'dovecot-dict-auth.conf.ext': ---%<------------------------------------------------------------------------- uri = proxy:dict-async:cassandra-userdb iterate_disable = yes # The _key and _path suffixes are not necessary, they're just here to help # understand how to match them between different parts of the configuration. key email_key { key = userdb/email_path/%u } key displayname_key { key = userdb/displayname_path/%u } userdb_fields { # these fields will be visible as %{userdb:u_email} and %{userdb:u_displayname} u_email = %{dict:email_key} u_displayname = %{dict:displayname_key} } ---%<------------------------------------------------------------------------- 'dovecot-dict-userdb-cql.conf.ext': ---%<------------------------------------------------------------------------- driver = cassandra connect = host=127.0.0.1 dbname=email_users # SELECT displayname FROM user_profile WHERE id = %u map { # pattern must match the "key" path, except with added shared/ prefix. %u gets caught into $username pattern = shared/userdb/displayname_path/$username table = user_profile value_field = displayname value_type = string fields { id = $username } } # SELECT email FROM user_profile WHERE id = %u map { pattern = shared/userdb/email_path/$username table = user_profile value_field = email value_type = string fields { id = $username } } ---%<------------------------------------------------------------------------- Complete example for authenticating via the CDB dictionary ---------------------------------------------------------- This example uses the CDB dictionary to store the userdb and passdb. Auth configuration ------------------ 'dovecot.conf': ---%<------------------------------------------------------------------------- # Access to the CDB has to go through a dict process. dict { auth = cdb:/etc/dovecot/auth.cdb } passdb { driver = dict args = /etc/dovecot/dovecot-cdb.conf } userdb { driver = dict args = /etc/dovecot/dovecot-cdb.conf } ---%<------------------------------------------------------------------------- Dict configuration ------------------ The CDB dictionary doesn't support iteration yet. 'dovecot-cdb.conf': ---%<------------------------------------------------------------------------- uri = proxy::auth # FIXME: obsolete configuration - should use the key { .. } instead password_key = passdb/%u user_key = userdb/%u # iterate_prefix = userdb/ # no yet supported iterate_disable = yes default_pass_scheme = BLF-CRYPT ---%<------------------------------------------------------------------------- Complete example for authenticating via a UNIX socket ----------------------------------------------------- The Dict auth backend can be used to query a local UNIX socket for users. This can be handy for accessing user databases which would otherwise only be accessible via the [AuthDatabase.CheckPassword.txt] backend and a scripting language. When given a <"proxy:"> [Quota.Dict.txt] URL the Dict backend speaks a simple protocol over a UNIX socket. The protocol is defined in 'src/lib-dict/dict-client.h' (GitHub [https://github.com/dovecot/core/blob/master/src/lib-dict/dict-client.h]). Auth configuration ------------------ 'dovecot.conf': ---%<------------------------------------------------------------------------- passdb { driver = dict args = /etc/dovecot/dovecot-dict-auth.conf } userdb { # optional driver = prefetch } userdb { driver = dict args = /etc/dovecot/dovecot-dict-auth.conf } ---%<------------------------------------------------------------------------- Dict configuration ------------------ The last "dictionary name" ("somewhere") argument is redundant here. '/etc/dovecot/dovecot-dict-auth.conf.ext': ---%<------------------------------------------------------------------------- uri = proxy:/var/run/auth_proxy_dovecot/socket:somewhere # FIXME: obsolete configuration - should use the key { .. } instead password_key = passdb/%u user_key = userdb/%u iterate_disable = yes #default_pass_scheme = plain ---%<------------------------------------------------------------------------- Server process for answering Dict lookups ----------------------------------------- The server process listening on '/var/run/auth_proxy_dovecot/socket' can be written in any language.Here's an example in Perl: ---%<------------------------------------------------------------------------- package AuthProxyDovecot; use base qw( Net::Server::PreFork ); use strict; use warnings; use JSON::XS; AuthProxyDovecot->run() or die "Could not initialize"; sub default_values { return { port => '/var/run/auth_proxy_dovecot/socket|unix', log_level => 2, log_file => 'Sys::Syslog', syslog_logsock => 'unix', syslog_ident => 'auth_proxy_dovecot', syslog_facility => 'daemon', background => 1, setsid => 1, pid_file => '/var/run/auth_proxy_dovecot.pid', user => 'root', group => 'root', max_spare_servers => 2, min_spare_servers => 1, min_servers => 2, max_servers => 10, }; } ## end sub default_values ################################################## sub process_request { my $self = shift; my %L_handler = ( passdb => sub { my ($arg) = @_; my $ret = { password => '$1$JrTuEHAY$gZA1y4ElkLHtnsrWNHT/e.', userdb_home => "/home/username/", userdb_uid => 1000, userdb_gid => 1000, }; return $ret; }, userdb => sub { my ($arg) = @_; my $ret = { home => "/home/username/", uid => 1000, gid => 1000, }; return $ret; }, ); # protocol from src/lib-dict/dict-client.h my $json = JSON::XS->new; eval { my $ret; # Dict protocol is multiline... go through the lines. while () { $self->log(2, "Got request: $_"); chomp; my $cmd = substr($_,0,1); next if $cmd eq 'H'; # "hello", skip this line, assume it's ok die "Protocol error: Bad command $cmd" unless ($cmd eq 'L'); # Process request my ($namespace,$type,$arg) = split ('/',substr($_,1),3); if ($namespace eq 'shared') { my $f = $L_handler{$type}; if (defined $f && defined $arg) { $ret = $f->($arg); } else { die 'Protocol error: Bad arg'; } } else { die 'Protocol error: Bad namespace' } last; # Got an "L" , now respond. } if ($ret) { my $json = JSON::XS->new->indent(0)->utf8->encode($ret); $self->log(3,"O:$json"); print "O".$json."\n"; } else { $self->log(3,"NOUSER"); print "N\n"; } 1; } or do { $self->log(2, "Error: $@"); print "F\n"; }; } sub pre_loop_hook { my $self = shift; $self->log(1, 'Starting server'); } sub pre_server_close_hook { my $self = shift; $self->log(1, 'Server is shut down'); } 1; __END__ ---%<------------------------------------------------------------------------- (This file was created from the wiki on 2019-06-19 12:42)