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Initial Docker environment to run ejabberd test suite

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Mickael Remond 2019-05-07 17:59:05 +02:00
parent 2fff4d1ea6
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test/docker/README.md Normal file
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# Docker database images to run ejabberd tests
You can start the Docker environment with Docker Compose, from ejabberd repository root.
The following command will launch MySQL, PostgreSQL, Redis and Riak, and keep the console
attached to it.
```
mkdir test/docker/db/mysql/data
mkdir test/docker/db/postgres/data
mkdir test/docker/db/riak/data
(cd test/docker; docker-compose up)
```
You can stop all the databases with CTRL-C.
You can fully clean up the environment with:
```
(cd test/docker; docker-compose down)
```
## TODO
- Document how to fully clean the test data.

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--
-- ejabberd, Copyright (C) 2002-2019 ProcessOne
--
-- This program is free software; you can redistribute it and/or
-- modify it under the terms of the GNU General Public License as
-- published by the Free Software Foundation; either version 2 of the
-- License, or (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- General Public License for more details.
--
-- You should have received a copy of the GNU General Public License along
-- with this program; if not, write to the Free Software Foundation, Inc.,
-- 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
--
CREATE TABLE users (
username varchar(191) PRIMARY KEY,
password text NOT NULL,
serverkey varchar(64) NOT NULL DEFAULT '',
salt varchar(64) NOT NULL DEFAULT '',
iterationcount integer NOT NULL DEFAULT 0,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
-- Add support for SCRAM auth to a database created before ejabberd 16.03:
-- ALTER TABLE users ADD COLUMN serverkey varchar(64) NOT NULL DEFAULT '';
-- ALTER TABLE users ADD COLUMN salt varchar(64) NOT NULL DEFAULT '';
-- ALTER TABLE users ADD COLUMN iterationcount integer NOT NULL DEFAULT 0;
CREATE TABLE last (
username varchar(191) PRIMARY KEY,
seconds text NOT NULL,
state text NOT NULl
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE rosterusers (
username varchar(191) NOT NULL,
jid varchar(191) NOT NULL,
nick text NOT NULL,
subscription character(1) NOT NULL,
ask character(1) NOT NULL,
askmessage text NOT NULL,
server character(1) NOT NULL,
subscribe text NOT NULL,
type text,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_rosteru_user_jid ON rosterusers(username(75), jid(75));
CREATE INDEX i_rosteru_username ON rosterusers(username);
CREATE INDEX i_rosteru_jid ON rosterusers(jid);
CREATE TABLE rostergroups (
username varchar(191) NOT NULL,
jid varchar(191) NOT NULL,
grp text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX pk_rosterg_user_jid ON rostergroups(username(75), jid(75));
CREATE TABLE sr_group (
name varchar(191) NOT NULL,
opts text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE sr_user (
jid varchar(191) NOT NULL,
grp varchar(191) NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_sr_user_jid_group ON sr_user(jid(75), grp(75));
CREATE INDEX i_sr_user_jid ON sr_user(jid);
CREATE INDEX i_sr_user_grp ON sr_user(grp);
CREATE TABLE spool (
username varchar(191) NOT NULL,
xml mediumtext NOT NULL,
seq BIGINT UNSIGNED NOT NULL AUTO_INCREMENT UNIQUE,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_despool USING BTREE ON spool(username);
CREATE INDEX i_spool_created_at USING BTREE ON spool(created_at);
CREATE TABLE archive (
username varchar(191) NOT NULL,
timestamp BIGINT UNSIGNED NOT NULL,
peer varchar(191) NOT NULL,
bare_peer varchar(191) NOT NULL,
xml mediumtext NOT NULL,
txt mediumtext,
id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT UNIQUE,
kind varchar(10),
nick varchar(191),
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE FULLTEXT INDEX i_text ON archive(txt);
CREATE INDEX i_username_timestamp USING BTREE ON archive(username(191), timestamp);
CREATE INDEX i_username_peer USING BTREE ON archive(username(191), peer(191));
CREATE INDEX i_username_bare_peer USING BTREE ON archive(username(191), bare_peer(191));
CREATE INDEX i_timestamp USING BTREE ON archive(timestamp);
CREATE TABLE archive_prefs (
username varchar(191) NOT NULL PRIMARY KEY,
def text NOT NULL,
always text NOT NULL,
never text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE vcard (
username varchar(191) PRIMARY KEY,
vcard mediumtext NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE vcard_search (
username varchar(191) NOT NULL,
lusername varchar(191) PRIMARY KEY,
fn text NOT NULL,
lfn varchar(191) NOT NULL,
family text NOT NULL,
lfamily varchar(191) NOT NULL,
given text NOT NULL,
lgiven varchar(191) NOT NULL,
middle text NOT NULL,
lmiddle varchar(191) NOT NULL,
nickname text NOT NULL,
lnickname varchar(191) NOT NULL,
bday text NOT NULL,
lbday varchar(191) NOT NULL,
ctry text NOT NULL,
lctry varchar(191) NOT NULL,
locality text NOT NULL,
llocality varchar(191) NOT NULL,
email text NOT NULL,
lemail varchar(191) NOT NULL,
orgname text NOT NULL,
lorgname varchar(191) NOT NULL,
orgunit text NOT NULL,
lorgunit varchar(191) NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_vcard_search_lfn ON vcard_search(lfn);
CREATE INDEX i_vcard_search_lfamily ON vcard_search(lfamily);
CREATE INDEX i_vcard_search_lgiven ON vcard_search(lgiven);
CREATE INDEX i_vcard_search_lmiddle ON vcard_search(lmiddle);
CREATE INDEX i_vcard_search_lnickname ON vcard_search(lnickname);
CREATE INDEX i_vcard_search_lbday ON vcard_search(lbday);
CREATE INDEX i_vcard_search_lctry ON vcard_search(lctry);
CREATE INDEX i_vcard_search_llocality ON vcard_search(llocality);
CREATE INDEX i_vcard_search_lemail ON vcard_search(lemail);
CREATE INDEX i_vcard_search_lorgname ON vcard_search(lorgname);
CREATE INDEX i_vcard_search_lorgunit ON vcard_search(lorgunit);
CREATE TABLE privacy_default_list (
username varchar(191) PRIMARY KEY,
name varchar(191) NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE privacy_list (
username varchar(191) NOT NULL,
name varchar(191) NOT NULL,
id BIGINT UNSIGNED NOT NULL AUTO_INCREMENT UNIQUE,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_privacy_list_username USING BTREE ON privacy_list(username);
CREATE UNIQUE INDEX i_privacy_list_username_name USING BTREE ON privacy_list (username(75), name(75));
CREATE TABLE privacy_list_data (
id bigint,
t character(1) NOT NULL,
value text NOT NULL,
action character(1) NOT NULL,
ord NUMERIC NOT NULL,
match_all boolean NOT NULL,
match_iq boolean NOT NULL,
match_message boolean NOT NULL,
match_presence_in boolean NOT NULL,
match_presence_out boolean NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_privacy_list_data_id ON privacy_list_data(id);
CREATE TABLE private_storage (
username varchar(191) NOT NULL,
namespace varchar(191) NOT NULL,
data text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_private_storage_username USING BTREE ON private_storage(username);
CREATE UNIQUE INDEX i_private_storage_username_namespace USING BTREE ON private_storage(username(75), namespace(75));
-- Not tested in mysql
CREATE TABLE roster_version (
username varchar(191) PRIMARY KEY,
version text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
-- To update from 1.x:
-- ALTER TABLE rosterusers ADD COLUMN askmessage text AFTER ask;
-- UPDATE rosterusers SET askmessage = '';
-- ALTER TABLE rosterusers ALTER COLUMN askmessage SET NOT NULL;
CREATE TABLE pubsub_node (
host text NOT NULL,
node text NOT NULL,
parent VARCHAR(191) NOT NULL DEFAULT '',
plugin text NOT NULL,
nodeid bigint auto_increment primary key
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_pubsub_node_parent ON pubsub_node(parent(120));
CREATE UNIQUE INDEX i_pubsub_node_tuple ON pubsub_node(host(71), node(120));
CREATE TABLE pubsub_node_option (
nodeid bigint,
name text NOT NULL,
val text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_pubsub_node_option_nodeid ON pubsub_node_option(nodeid);
ALTER TABLE `pubsub_node_option` ADD FOREIGN KEY (`nodeid`) REFERENCES `pubsub_node` (`nodeid`) ON DELETE CASCADE;
CREATE TABLE pubsub_node_owner (
nodeid bigint,
owner text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_pubsub_node_owner_nodeid ON pubsub_node_owner(nodeid);
ALTER TABLE `pubsub_node_owner` ADD FOREIGN KEY (`nodeid`) REFERENCES `pubsub_node` (`nodeid`) ON DELETE CASCADE;
CREATE TABLE pubsub_state (
nodeid bigint,
jid text NOT NULL,
affiliation character(1),
subscriptions VARCHAR(191) NOT NULL DEFAULT '',
stateid bigint auto_increment primary key
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_pubsub_state_jid ON pubsub_state(jid(60));
CREATE UNIQUE INDEX i_pubsub_state_tuple ON pubsub_state(nodeid, jid(60));
ALTER TABLE `pubsub_state` ADD FOREIGN KEY (`nodeid`) REFERENCES `pubsub_node` (`nodeid`) ON DELETE CASCADE;
CREATE TABLE pubsub_item (
nodeid bigint,
itemid text NOT NULL,
publisher text NOT NULL,
creation varchar(32) NOT NULL,
modification varchar(32) NOT NULL,
payload mediumtext NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_pubsub_item_itemid ON pubsub_item(itemid(36));
CREATE UNIQUE INDEX i_pubsub_item_tuple ON pubsub_item(nodeid, itemid(36));
ALTER TABLE `pubsub_item` ADD FOREIGN KEY (`nodeid`) REFERENCES `pubsub_node` (`nodeid`) ON DELETE CASCADE;
CREATE TABLE pubsub_subscription_opt (
subid text NOT NULL,
opt_name varchar(32),
opt_value text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_pubsub_subscription_opt ON pubsub_subscription_opt(subid(32), opt_name(32));
CREATE TABLE muc_room (
name text NOT NULL,
host text NOT NULL,
opts mediumtext NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_muc_room_name_host USING BTREE ON muc_room(name(75), host(75));
CREATE TABLE muc_registered (
jid text NOT NULL,
host text NOT NULL,
nick text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_muc_registered_nick USING BTREE ON muc_registered(nick(75));
CREATE UNIQUE INDEX i_muc_registered_jid_host USING BTREE ON muc_registered(jid(75), host(75));
CREATE TABLE muc_online_room (
name text NOT NULL,
host text NOT NULL,
node text NOT NULL,
pid text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_muc_online_room_name_host USING BTREE ON muc_online_room(name(75), host(75));
CREATE TABLE muc_online_users (
username text NOT NULL,
server text NOT NULL,
resource text NOT NULL,
name text NOT NULL,
host text NOT NULL,
node text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_muc_online_users USING BTREE ON muc_online_users(username(75), server(75), resource(75), name(75), host(75));
CREATE INDEX i_muc_online_users_us USING BTREE ON muc_online_users(username(75), server(75));
CREATE TABLE muc_room_subscribers (
room varchar(191) NOT NULL,
host varchar(191) NOT NULL,
jid varchar(191) NOT NULL,
nick text NOT NULL,
nodes text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP,
UNIQUE KEY i_muc_room_subscribers_host_room_jid (host, room, jid)
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_muc_room_subscribers_host_jid USING BTREE ON muc_room_subscribers(host, jid);
CREATE TABLE motd (
username varchar(191) PRIMARY KEY,
xml text,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE caps_features (
node varchar(191) NOT NULL,
subnode varchar(191) NOT NULL,
feature text,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE INDEX i_caps_features_node_subnode ON caps_features(node(75), subnode(75));
CREATE TABLE sm (
usec bigint NOT NULL,
pid text NOT NULL,
node text NOT NULL,
username varchar(191) NOT NULL,
resource varchar(191) NOT NULL,
priority text NOT NULL,
info text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_sid ON sm(usec, pid(75));
CREATE INDEX i_node ON sm(node(75));
CREATE INDEX i_username ON sm(username);
CREATE TABLE oauth_token (
token varchar(191) NOT NULL PRIMARY KEY,
jid text NOT NULL,
scope text NOT NULL,
expire bigint NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE TABLE route (
domain text NOT NULL,
server_host text NOT NULL,
node text NOT NULL,
pid text NOT NULL,
local_hint text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_route ON route(domain(75), server_host(75), node(75), pid(75));
CREATE INDEX i_route_domain ON route(domain(75));
CREATE TABLE bosh (
sid text NOT NULL,
node text NOT NULL,
pid text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_bosh_sid ON bosh(sid(75));
CREATE TABLE proxy65 (
sid text NOT NULL,
pid_t text NOT NULL,
pid_i text NOT NULL,
node_t text NOT NULL,
node_i text NOT NULL,
jid_i text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_proxy65_sid ON proxy65 (sid(191));
CREATE INDEX i_proxy65_jid ON proxy65 (jid_i(191));
CREATE TABLE push_session (
username text NOT NULL,
timestamp bigint NOT NULL,
service text NOT NULL,
node text NOT NULL,
xml text NOT NULL
);
CREATE UNIQUE INDEX i_push_usn ON push_session (username(191), service(191), node(191));
CREATE UNIQUE INDEX i_push_ut ON push_session (username(191), timestamp);
CREATE TABLE mix_channel (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
jid text NOT NULL,
hidden boolean NOT NULL,
hmac_key text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_mix_channel ON mix_channel (channel(191), service(191));
CREATE INDEX i_mix_channel_serv ON mix_channel (service(191));
CREATE TABLE mix_participant (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
jid text NOT NULL,
id text NOT NULL,
nick text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_mix_participant ON mix_participant (channel(191), service(191), username(191), domain(191));
CREATE INDEX i_mix_participant_chan_serv ON mix_participant (channel(191), service(191));
CREATE TABLE mix_subscription (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
node text NOT NULL,
jid text NOT NULL
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_mix_subscription ON mix_subscription (channel(153), service(153), username(153), domain(153), node(153));
CREATE INDEX i_mix_subscription_chan_serv_ud ON mix_subscription (channel(191), service(191), username(191), domain(191));
CREATE INDEX i_mix_subscription_chan_serv_node ON mix_subscription (channel(191), service(191), node(191));
CREATE INDEX i_mix_subscription_chan_serv ON mix_subscription (channel(191), service(191));
CREATE TABLE mix_pam (
username text NOT NULL,
channel text NOT NULL,
service text NOT NULL,
id text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
) ENGINE=InnoDB CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;
CREATE UNIQUE INDEX i_mix_pam ON mix_pam (username(191), channel(191), service(191));
CREATE INDEX i_mix_pam_u ON mix_pam (username(191));
CREATE TABLE mqtt_pub (
username varchar(191) NOT NULL,
resource varchar(191) NOT NULL,
topic text NOT NULL,
qos tinyint NOT NULL,
payload blob NOT NULL,
payload_format tinyint NOT NULL,
content_type text NOT NULL,
response_topic text NOT NULL,
correlation_data blob NOT NULL,
user_properties blob NOT NULL,
expiry int unsigned NOT NULL,
UNIQUE KEY i_mqtt_topic (topic(191))
);

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--
-- ejabberd, Copyright (C) 2002-2019 ProcessOne
--
-- This program is free software; you can redistribute it and/or
-- modify it under the terms of the GNU General Public License as
-- published by the Free Software Foundation; either version 2 of the
-- License, or (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- General Public License for more details.
--
-- You should have received a copy of the GNU General Public License along
-- with this program; if not, write to the Free Software Foundation, Inc.,
-- 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
--
CREATE TABLE users (
username text PRIMARY KEY,
"password" text NOT NULL,
serverkey text NOT NULL DEFAULT '',
salt text NOT NULL DEFAULT '',
iterationcount integer NOT NULL DEFAULT 0,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
-- Add support for SCRAM auth to a database created before ejabberd 16.03:
-- ALTER TABLE users ADD COLUMN serverkey text NOT NULL DEFAULT '';
-- ALTER TABLE users ADD COLUMN salt text NOT NULL DEFAULT '';
-- ALTER TABLE users ADD COLUMN iterationcount integer NOT NULL DEFAULT 0;
CREATE TABLE last (
username text PRIMARY KEY,
seconds text NOT NULL,
state text NOT NULL
);
CREATE TABLE rosterusers (
username text NOT NULL,
jid text NOT NULL,
nick text NOT NULL,
subscription character(1) NOT NULL,
ask character(1) NOT NULL,
askmessage text NOT NULL,
server character(1) NOT NULL,
subscribe text NOT NULL,
"type" text,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE UNIQUE INDEX i_rosteru_user_jid ON rosterusers USING btree (username, jid);
CREATE INDEX i_rosteru_username ON rosterusers USING btree (username);
CREATE INDEX i_rosteru_jid ON rosterusers USING btree (jid);
CREATE TABLE rostergroups (
username text NOT NULL,
jid text NOT NULL,
grp text NOT NULL
);
CREATE INDEX pk_rosterg_user_jid ON rostergroups USING btree (username, jid);
CREATE TABLE sr_group (
name text NOT NULL,
opts text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE TABLE sr_user (
jid text NOT NULL,
grp text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE UNIQUE INDEX i_sr_user_jid_grp ON sr_user USING btree (jid, grp);
CREATE INDEX i_sr_user_jid ON sr_user USING btree (jid);
CREATE INDEX i_sr_user_grp ON sr_user USING btree (grp);
CREATE TABLE spool (
username text NOT NULL,
xml text NOT NULL,
seq SERIAL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_despool ON spool USING btree (username);
CREATE TABLE archive (
username text NOT NULL,
timestamp BIGINT NOT NULL,
peer text NOT NULL,
bare_peer text NOT NULL,
xml text NOT NULL,
txt text,
id SERIAL,
kind text,
nick text,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_username_timestamp ON archive USING btree (username, timestamp);
CREATE INDEX i_username_peer ON archive USING btree (username, peer);
CREATE INDEX i_username_bare_peer ON archive USING btree (username, bare_peer);
CREATE INDEX i_timestamp ON archive USING btree (timestamp);
CREATE TABLE archive_prefs (
username text NOT NULL PRIMARY KEY,
def text NOT NULL,
always text NOT NULL,
never text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE TABLE vcard (
username text PRIMARY KEY,
vcard text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE TABLE vcard_search (
username text NOT NULL,
lusername text PRIMARY KEY,
fn text NOT NULL,
lfn text NOT NULL,
family text NOT NULL,
lfamily text NOT NULL,
given text NOT NULL,
lgiven text NOT NULL,
middle text NOT NULL,
lmiddle text NOT NULL,
nickname text NOT NULL,
lnickname text NOT NULL,
bday text NOT NULL,
lbday text NOT NULL,
ctry text NOT NULL,
lctry text NOT NULL,
locality text NOT NULL,
llocality text NOT NULL,
email text NOT NULL,
lemail text NOT NULL,
orgname text NOT NULL,
lorgname text NOT NULL,
orgunit text NOT NULL,
lorgunit text NOT NULL
);
CREATE INDEX i_vcard_search_lfn ON vcard_search(lfn);
CREATE INDEX i_vcard_search_lfamily ON vcard_search(lfamily);
CREATE INDEX i_vcard_search_lgiven ON vcard_search(lgiven);
CREATE INDEX i_vcard_search_lmiddle ON vcard_search(lmiddle);
CREATE INDEX i_vcard_search_lnickname ON vcard_search(lnickname);
CREATE INDEX i_vcard_search_lbday ON vcard_search(lbday);
CREATE INDEX i_vcard_search_lctry ON vcard_search(lctry);
CREATE INDEX i_vcard_search_llocality ON vcard_search(llocality);
CREATE INDEX i_vcard_search_lemail ON vcard_search(lemail);
CREATE INDEX i_vcard_search_lorgname ON vcard_search(lorgname);
CREATE INDEX i_vcard_search_lorgunit ON vcard_search(lorgunit);
CREATE TABLE privacy_default_list (
username text PRIMARY KEY,
name text NOT NULL
);
CREATE TABLE privacy_list (
username text NOT NULL,
name text NOT NULL,
id SERIAL UNIQUE,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_privacy_list_username ON privacy_list USING btree (username);
CREATE UNIQUE INDEX i_privacy_list_username_name ON privacy_list USING btree (username, name);
CREATE TABLE privacy_list_data (
id bigint REFERENCES privacy_list(id) ON DELETE CASCADE,
t character(1) NOT NULL,
value text NOT NULL,
action character(1) NOT NULL,
ord NUMERIC NOT NULL,
match_all boolean NOT NULL,
match_iq boolean NOT NULL,
match_message boolean NOT NULL,
match_presence_in boolean NOT NULL,
match_presence_out boolean NOT NULL
);
CREATE INDEX i_privacy_list_data_id ON privacy_list_data USING btree (id);
CREATE TABLE private_storage (
username text NOT NULL,
namespace text NOT NULL,
data text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_private_storage_username ON private_storage USING btree (username);
CREATE UNIQUE INDEX i_private_storage_username_namespace ON private_storage USING btree (username, namespace);
CREATE TABLE roster_version (
username text PRIMARY KEY,
version text NOT NULL
);
-- To update from 0.9.8:
-- CREATE SEQUENCE spool_seq_seq;
-- ALTER TABLE spool ADD COLUMN seq integer;
-- ALTER TABLE spool ALTER COLUMN seq SET DEFAULT nextval('spool_seq_seq');
-- UPDATE spool SET seq = DEFAULT;
-- ALTER TABLE spool ALTER COLUMN seq SET NOT NULL;
-- To update from 1.x:
-- ALTER TABLE rosterusers ADD COLUMN askmessage text;
-- UPDATE rosterusers SET askmessage = '';
-- ALTER TABLE rosterusers ALTER COLUMN askmessage SET NOT NULL;
CREATE TABLE pubsub_node (
host text NOT NULL,
node text NOT NULL,
parent text NOT NULL DEFAULT '',
plugin text NOT NULL,
nodeid SERIAL UNIQUE
);
CREATE INDEX i_pubsub_node_parent ON pubsub_node USING btree (parent);
CREATE UNIQUE INDEX i_pubsub_node_tuple ON pubsub_node USING btree (host, node);
CREATE TABLE pubsub_node_option (
nodeid bigint REFERENCES pubsub_node(nodeid) ON DELETE CASCADE,
name text NOT NULL,
val text NOT NULL
);
CREATE INDEX i_pubsub_node_option_nodeid ON pubsub_node_option USING btree (nodeid);
CREATE TABLE pubsub_node_owner (
nodeid bigint REFERENCES pubsub_node(nodeid) ON DELETE CASCADE,
owner text NOT NULL
);
CREATE INDEX i_pubsub_node_owner_nodeid ON pubsub_node_owner USING btree (nodeid);
CREATE TABLE pubsub_state (
nodeid bigint REFERENCES pubsub_node(nodeid) ON DELETE CASCADE,
jid text NOT NULL,
affiliation character(1),
subscriptions text NOT NULL DEFAULT '',
stateid SERIAL UNIQUE
);
CREATE INDEX i_pubsub_state_jid ON pubsub_state USING btree (jid);
CREATE UNIQUE INDEX i_pubsub_state_tuple ON pubsub_state USING btree (nodeid, jid);
CREATE TABLE pubsub_item (
nodeid bigint REFERENCES pubsub_node(nodeid) ON DELETE CASCADE,
itemid text NOT NULL,
publisher text NOT NULL,
creation varchar(32) NOT NULL,
modification varchar(32) NOT NULL,
payload text NOT NULL DEFAULT ''
);
CREATE INDEX i_pubsub_item_itemid ON pubsub_item USING btree (itemid);
CREATE UNIQUE INDEX i_pubsub_item_tuple ON pubsub_item USING btree (nodeid, itemid);
CREATE TABLE pubsub_subscription_opt (
subid text NOT NULL,
opt_name varchar(32),
opt_value text NOT NULL
);
CREATE UNIQUE INDEX i_pubsub_subscription_opt ON pubsub_subscription_opt USING btree (subid, opt_name);
CREATE TABLE muc_room (
name text NOT NULL,
host text NOT NULL,
opts text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE UNIQUE INDEX i_muc_room_name_host ON muc_room USING btree (name, host);
CREATE TABLE muc_registered (
jid text NOT NULL,
host text NOT NULL,
nick text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_muc_registered_nick ON muc_registered USING btree (nick);
CREATE UNIQUE INDEX i_muc_registered_jid_host ON muc_registered USING btree (jid, host);
CREATE TABLE muc_online_room (
name text NOT NULL,
host text NOT NULL,
node text NOT NULL,
pid text NOT NULL
);
CREATE UNIQUE INDEX i_muc_online_room_name_host ON muc_online_room USING btree (name, host);
CREATE TABLE muc_online_users (
username text NOT NULL,
server text NOT NULL,
resource text NOT NULL,
name text NOT NULL,
host text NOT NULL,
node text NOT NULL
);
CREATE UNIQUE INDEX i_muc_online_users ON muc_online_users USING btree (username, server, resource, name, host);
CREATE INDEX i_muc_online_users_us ON muc_online_users USING btree (username, server);
CREATE TABLE muc_room_subscribers (
room text NOT NULL,
host text NOT NULL,
jid text NOT NULL,
nick text NOT NULL,
nodes text NOT NULL,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_muc_room_subscribers_host_jid ON muc_room_subscribers USING btree (host, jid);
CREATE UNIQUE INDEX i_muc_room_subscribers_host_room_jid ON muc_room_subscribers USING btree (host, room, jid);
CREATE TABLE motd (
username text PRIMARY KEY,
xml text,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE TABLE caps_features (
node text NOT NULL,
subnode text NOT NULL,
feature text,
created_at TIMESTAMP NOT NULL DEFAULT now()
);
CREATE INDEX i_caps_features_node_subnode ON caps_features USING btree (node, subnode);
CREATE TABLE sm (
usec bigint NOT NULL,
pid text NOT NULL,
node text NOT NULL,
username text NOT NULL,
resource text NOT NULL,
priority text NOT NULL,
info text NOT NULL
);
CREATE UNIQUE INDEX i_sm_sid ON sm USING btree (usec, pid);
CREATE INDEX i_sm_node ON sm USING btree (node);
CREATE INDEX i_sm_username ON sm USING btree (username);
CREATE TABLE oauth_token (
token text NOT NULL,
jid text NOT NULL,
scope text NOT NULL,
expire bigint NOT NULL
);
CREATE UNIQUE INDEX i_oauth_token_token ON oauth_token USING btree (token);
CREATE TABLE route (
domain text NOT NULL,
server_host text NOT NULL,
node text NOT NULL,
pid text NOT NULL,
local_hint text NOT NULL
);
CREATE UNIQUE INDEX i_route ON route USING btree (domain, server_host, node, pid);
CREATE INDEX i_route_domain ON route USING btree (domain);
CREATE TABLE bosh (
sid text NOT NULL,
node text NOT NULL,
pid text NOT NULL
);
CREATE UNIQUE INDEX i_bosh_sid ON bosh USING btree (sid);
CREATE TABLE proxy65 (
sid text NOT NULL,
pid_t text NOT NULL,
pid_i text NOT NULL,
node_t text NOT NULL,
node_i text NOT NULL,
jid_i text NOT NULL
);
CREATE UNIQUE INDEX i_proxy65_sid ON proxy65 USING btree (sid);
CREATE INDEX i_proxy65_jid ON proxy65 USING btree (jid_i);
CREATE TABLE push_session (
username text NOT NULL,
timestamp bigint NOT NULL,
service text NOT NULL,
node text NOT NULL,
xml text NOT NULL
);
CREATE UNIQUE INDEX i_push_usn ON push_session USING btree (username, service, node);
CREATE UNIQUE INDEX i_push_ut ON push_session USING btree (username, timestamp);
CREATE TABLE mix_channel (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
jid text NOT NULL,
hidden boolean NOT NULL,
hmac_key text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
);
CREATE UNIQUE INDEX i_mix_channel ON mix_channel (channel, service);
CREATE INDEX i_mix_channel_serv ON mix_channel (service);
CREATE TABLE mix_participant (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
jid text NOT NULL,
id text NOT NULL,
nick text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
);
CREATE UNIQUE INDEX i_mix_participant ON mix_participant (channel, service, username, domain);
CREATE INDEX i_mix_participant_chan_serv ON mix_participant (channel, service);
CREATE TABLE mix_subscription (
channel text NOT NULL,
service text NOT NULL,
username text NOT NULL,
domain text NOT NULL,
node text NOT NULL,
jid text NOT NULL
);
CREATE UNIQUE INDEX i_mix_subscription ON mix_subscription (channel, service, username, domain, node);
CREATE INDEX i_mix_subscription_chan_serv_ud ON mix_subscription (channel, service, username, domain);
CREATE INDEX i_mix_subscription_chan_serv_node ON mix_subscription (channel, service, node);
CREATE INDEX i_mix_subscription_chan_serv ON mix_subscription (channel, service);
CREATE TABLE mix_pam (
username text NOT NULL,
channel text NOT NULL,
service text NOT NULL,
id text NOT NULL,
created_at timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP
);
CREATE UNIQUE INDEX i_mix_pam ON mix_pam (username, channel, service);
CREATE INDEX i_mix_pam_us ON mix_pam (username);
CREATE TABLE mqtt_pub (
username text NOT NULL,
resource text NOT NULL,
topic text NOT NULL,
qos smallint NOT NULL,
payload bytea NOT NULL,
payload_format smallint NOT NULL,
content_type text NOT NULL,
response_topic text NOT NULL,
correlation_data bytea NOT NULL,
user_properties bytea NOT NULL,
expiry bigint NOT NULL
);
CREATE UNIQUE INDEX i_mqtt_topic ON mqtt_pub (topic);

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@ -0,0 +1,53 @@
# docker build -t ejabberd/riak .
# docker run --rm -it -p 8087:8087 -p 8098:8098 -v "`pwd`/ebin:/usr/lib/ejabberd/ebin" --name ejabberd-riak ejabberd/riak
# docker exec -it ejabberd-riak /bin/bash
# docker push ejabberd/riak:latest
FROM ubuntu:16.04
ENV DEBIAN_FRONTEND noninteractive
# ENV RIAK_VERSION 2.0.9-1
# install riak=${RIAK_VERSION} to fallback to an older version
RUN \
apt-get update -qq && \
apt-get install -y curl apt-utils iputils-ping && \
curl -s https://packagecloud.io/install/repositories/basho/riak/script.deb.sh | bash && \
apt-get install -y riak && \
apt-get clean && rm -rf /var/lib/apt/lists/* /tmp/* /var/tmp/*
# Expose default ports
EXPOSE 8087
EXPOSE 8098
# Expose volumes for data and logs
VOLUME /var/log/riak
VOLUME /var/lib/riak
# Expose volumes for ejabberd code for map/reduce in Riak.
# It can be overloaded to provide a new ejabberd_riak.beam file.
# Note that ejabberd_riak.beam needs to be compiled with Erlang/OTP R16
# as this is the version of Erlang Basho has packaged with Riak.
COPY ejabberd_riak.beam /usr/lib/ejabberd/ebin/ejabberd_riak.beam
VOLUME /usr/lib/ejabberd/ebin
# Install custom start script
COPY riak-cluster.sh /sbin/riak-cluster.sh
RUN chmod a+x /sbin/riak-cluster.sh
# Change configuration to make it work with ejabberd
COPY advanced.config /etc/riak/advanced.config
COPY riak.conf /etc/riak/riak.conf
# Install custom hooks
COPY prestart.d /etc/riak/prestart.d
# COPY poststart.d /etc/riak/poststart.d
# Prepare for bootstrapping schemas
RUN mkdir -p /etc/riak/schemas
# Clean up APT cache
RUN rm -rf /var/lib/apt/lists/* /tmp/*
WORKDIR /var/lib/riak
CMD ["/sbin/riak-cluster.sh"]

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%% Config file used to set advanced configuration options
[{lager,
[
{extra_sinks,
[
{object_lager_event,
[{handlers,
[{lager_file_backend,
[{file, "/var/log/riak/object.log"},
{level, info},
{formatter_config, [date, " ", time," [",severity,"] ",message, "\n"]}
]
}]
},
{async_threshold, 500},
{async_threshold_window, 50}]
}
]
}
]},
{riak_kv, [
%% Other configs
{add_paths, ["/usr/lib/ejabberd/ebin"]}
]}
].

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#!/bin/bash
# Add standard config items
cat <<END >>$RIAK_CONF
nodename = riak@$HOST
distributed_cookie = $CLUSTER_NAME
listener.protobuf.internal = $HOST:$PB_PORT
listener.http.internal = $HOST:$HTTP_PORT
END

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#!/bin/bash
#
# Cluster start script to bootstrap a Riak cluster.
#
set -ex
if [[ -x /usr/sbin/riak ]]; then
export RIAK=/usr/sbin/riak
else
export RIAK=$RIAK_HOME/bin/riak
fi
export RIAK_CONF=/etc/riak/riak.conf
export USER_CONF=/etc/riak/user.conf
export RIAK_ADVANCED_CONF=/etc/riak/advanced.config
if [[ -x /usr/sbin/riak-admin ]]; then
export RIAK_ADMIN=/usr/sbin/riak-admin
else
export RIAK_ADMIN=$RIAK_HOME/bin/riak-admin
fi
export SCHEMAS_DIR=/etc/riak/schemas/
# Set ports for PB and HTTP
export PB_PORT=${PB_PORT:-8087}
export HTTP_PORT=${HTTP_PORT:-8098}
# Use ping to discover our HOSTNAME because it's easier and more reliable than other methods
export HOST=$(ping -c1 $HOSTNAME | awk '/^PING/ {print $3}' | sed 's/[()]//g')||'127.0.0.1'
# CLUSTER_NAME is used to name the nodes and is the value used in the distributed cookie
export CLUSTER_NAME=${CLUSTER_NAME:-riak}
# The COORDINATOR_NODE is the first node in a cluster to which other nodes will eventually join
export COORDINATOR_NODE=${COORDINATOR_NODE:-$HOSTNAME}
export COORDINATOR_NODE_HOST=$(ping -c1 $COORDINATOR_NODE | awk '/^PING/ {print $3}' | sed 's/[()]//g')||'127.0.0.1'
# Run all prestart scripts
PRESTART=$(find /etc/riak/prestart.d -name *.sh -print | sort)
for s in $PRESTART; do
. $s
done
# Start the node and wait until fully up
$RIAK start
$RIAK_ADMIN wait-for-service riak_kv
# Run all poststart scripts
POSTSTART=$(find /etc/riak/poststart.d -name *.sh -print | sort)
for s in $POSTSTART; do
. $s
done
# Trap SIGTERM and SIGINT and tail the log file indefinitely
tail -n 1024 -f /var/log/riak/console.log &
PID=$!
trap "$RIAK stop; kill $PID" SIGTERM SIGINT
wait $PID

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@ -0,0 +1,682 @@
## Where to emit the default log messages (typically at 'info'
## severity):
## off: disabled
## file: the file specified by log.console.file
## console: to standard output (seen when using `riak attach-direct`)
## both: log.console.file and standard out.
##
## Default: file
##
## Acceptable values:
## - one of: off, file, console, both
log.console = file
## The severity level of the console log, default is 'info'.
##
## Default: info
##
## Acceptable values:
## - one of: debug, info, notice, warning, error, critical, alert, emergency, none
log.console.level = info
## When 'log.console' is set to 'file' or 'both', the file where
## console messages will be logged.
##
## Default: $(platform_log_dir)/console.log
##
## Acceptable values:
## - the path to a file
log.console.file = $(platform_log_dir)/console.log
## The file where error messages will be logged.
##
## Default: $(platform_log_dir)/error.log
##
## Acceptable values:
## - the path to a file
log.error.file = $(platform_log_dir)/error.log
## When set to 'on', enables log output to syslog.
##
## Default: off
##
## Acceptable values:
## - on or off
log.syslog = off
## Whether to enable the crash log.
##
## Default: on
##
## Acceptable values:
## - on or off
log.crash = on
## If the crash log is enabled, the file where its messages will
## be written.
##
## Default: $(platform_log_dir)/crash.log
##
## Acceptable values:
## - the path to a file
log.crash.file = $(platform_log_dir)/crash.log
## Maximum size in bytes of individual messages in the crash log
##
## Default: 64KB
##
## Acceptable values:
## - a byte size with units, e.g. 10GB
log.crash.maximum_message_size = 64KB
## Maximum size of the crash log in bytes, before it is rotated
##
## Default: 10MB
##
## Acceptable values:
## - a byte size with units, e.g. 10GB
log.crash.size = 10MB
## The schedule on which to rotate the crash log. For more
## information see:
## https://github.com/basho/lager/blob/master/README.md#internal-log-rotation
##
## Default: $D0
##
## Acceptable values:
## - text
log.crash.rotation = $D0
## The number of rotated crash logs to keep. When set to
## 'current', only the current open log file is kept.
##
## Default: 5
##
## Acceptable values:
## - an integer
## - the text "current"
log.crash.rotation.keep = 5
## Name of the Erlang node
##
## Default: riak@127.0.0.1
##
## Acceptable values:
## - text
## nodename = riak@127.0.0.1
## Cookie for distributed node communication. All nodes in the
## same cluster should use the same cookie or they will not be able to
## communicate.
##
## Default: riak
##
## Acceptable values:
## - text
distributed_cookie = riak
## Sets the number of threads in async thread pool, valid range
## is 0-1024. If thread support is available, the default is 64.
## More information at: http://erlang.org/doc/man/erl.html
##
## Default: 64
##
## Acceptable values:
## - an integer
erlang.async_threads = 64
## The number of concurrent ports/sockets
## Valid range is 1024-134217727
##
## Default: 262144
##
## Acceptable values:
## - an integer
erlang.max_ports = 262144
## Set scheduler forced wakeup interval. All run queues will be
## scanned each Interval milliseconds. While there are sleeping
## schedulers in the system, one scheduler will be woken for each
## non-empty run queue found. An Interval of zero disables this
## feature, which also is the default.
## This feature is a workaround for lengthy executing native code, and
## native code that do not bump reductions properly.
## More information: http://www.erlang.org/doc/man/erl.html#+sfwi
##
## Default: 500
##
## Acceptable values:
## - an integer
## erlang.schedulers.force_wakeup_interval = 500
## Enable or disable scheduler compaction of load. By default
## scheduler compaction of load is enabled. When enabled, load
## balancing will strive for a load distribution which causes as many
## scheduler threads as possible to be fully loaded (i.e., not run out
## of work). This is accomplished by migrating load (e.g. runnable
## processes) into a smaller set of schedulers when schedulers
## frequently run out of work. When disabled, the frequency with which
## schedulers run out of work will not be taken into account by the
## load balancing logic.
## More information: http://www.erlang.org/doc/man/erl.html#+scl
##
## Default: false
##
## Acceptable values:
## - one of: true, false
## erlang.schedulers.compaction_of_load = false
## Enable or disable scheduler utilization balancing of load. By
## default scheduler utilization balancing is disabled and instead
## scheduler compaction of load is enabled which will strive for a
## load distribution which causes as many scheduler threads as
## possible to be fully loaded (i.e., not run out of work). When
## scheduler utilization balancing is enabled the system will instead
## try to balance scheduler utilization between schedulers. That is,
## strive for equal scheduler utilization on all schedulers.
## More information: http://www.erlang.org/doc/man/erl.html#+sub
##
## Acceptable values:
## - one of: true, false
## erlang.schedulers.utilization_balancing = true
## Number of partitions in the cluster (only valid when first
## creating the cluster). Must be a power of 2, minimum 8 and maximum
## 1024.
##
## Default: 64
##
## Acceptable values:
## - an integer
## ring_size = 64
## Number of concurrent node-to-node transfers allowed.
##
## Default: 2
##
## Acceptable values:
## - an integer
## transfer_limit = 2
## Default cert location for https can be overridden
## with the ssl config variable, for example:
##
## Acceptable values:
## - the path to a file
## ssl.certfile = $(platform_etc_dir)/cert.pem
## Default key location for https can be overridden with the ssl
## config variable, for example:
##
## Acceptable values:
## - the path to a file
## ssl.keyfile = $(platform_etc_dir)/key.pem
## Default signing authority location for https can be overridden
## with the ssl config variable, for example:
##
## Acceptable values:
## - the path to a file
## ssl.cacertfile = $(platform_etc_dir)/cacertfile.pem
## DTrace support Do not enable 'dtrace' unless your Erlang/OTP
## runtime is compiled to support DTrace. DTrace is available in
## R15B01 (supported by the Erlang/OTP official source package) and in
## R14B04 via a custom source repository & branch.
##
## Default: off
##
## Acceptable values:
## - on or off
dtrace = off
## Platform-specific installation paths (substituted by rebar)
##
## Default: /usr/sbin
##
## Acceptable values:
## - the path to a directory
platform_bin_dir = /usr/sbin
##
## Default: /var/lib/riak
##
## Acceptable values:
## - the path to a directory
platform_data_dir = /var/lib/riak
##
## Default: /etc/riak
##
## Acceptable values:
## - the path to a directory
platform_etc_dir = /etc/riak
##
## Default: /usr/lib/riak/lib
##
## Acceptable values:
## - the path to a directory
platform_lib_dir = /usr/lib/riak/lib
##
## Default: /var/log/riak
##
## Acceptable values:
## - the path to a directory
platform_log_dir = /var/log/riak
## Enable consensus subsystem. Set to 'on' to enable the
## consensus subsystem used for strongly consistent Riak operations.
##
## Default: off
##
## Acceptable values:
## - on or off
## strong_consistency = on
## listener.http.<name> is an IP address and TCP port that the Riak
## HTTP interface will bind.
##
## Default: 127.0.0.1:8098
##
## Acceptable values:
## - an IP/port pair, e.g. 127.0.0.1:10011
## listener.http.internal = 127.0.0.1:8098
## listener.protobuf.<name> is an IP address and TCP port that the Riak
## Protocol Buffers interface will bind.
##
## Default: 127.0.0.1:8087
##
## Acceptable values:
## - an IP/port pair, e.g. 127.0.0.1:10011
## listener.protobuf.internal = 127.0.0.1:8087
## The maximum length to which the queue of pending connections
## may grow. If set, it must be an integer > 0. If you anticipate a
## huge number of connections being initialized *simultaneously*, set
## this number higher.
##
## Default: 128
##
## Acceptable values:
## - an integer
## protobuf.backlog = 128
## listener.https.<name> is an IP address and TCP port that the Riak
## HTTPS interface will bind.
##
## Acceptable values:
## - an IP/port pair, e.g. 127.0.0.1:10011
## listener.https.internal = 127.0.0.1:8098
## How Riak will repair out-of-sync keys. Some features require
## this to be set to 'active', including search.
## * active: out-of-sync keys will be repaired in the background
## * passive: out-of-sync keys are only repaired on read
## * active-debug: like active, but outputs verbose debugging
## information
##
## Default: active
##
## Acceptable values:
## - one of: active, passive, active-debug
anti_entropy = active
## Specifies the storage engine used for Riak's key-value data
## and secondary indexes (if supported).
##
## Default: bitcask
##
## Acceptable values:
## - one of: bitcask, leveldb, memory, multi, prefix_multi
storage_backend = leveldb
## Simplify prefix_multi configuration for Riak CS. Keep this
## commented out unless Riak is configured for Riak CS.
##
## Acceptable values:
## - an integer
## cs_version = 20000
## Controls which binary representation of a riak value is stored
## on disk.
## * 0: Original erlang:term_to_binary format. Higher space overhead.
## * 1: New format for more compact storage of small values.
##
## Default: 1
##
## Acceptable values:
## - the integer 1
## - the integer 0
object.format = 1
## Reading or writing objects bigger than this size will write a
## warning in the logs.
##
## Default: 5MB
##
## Acceptable values:
## - a byte size with units, e.g. 10GB
object.size.warning_threshold = 5MB
## Writing an object bigger than this will send a failure to the
## client.
##
## Default: 50MB
##
## Acceptable values:
## - a byte size with units, e.g. 10GB
object.size.maximum = 50MB
## Writing an object with more than this number of siblings will
## generate a warning in the logs.
##
## Default: 25
##
## Acceptable values:
## - an integer
object.siblings.warning_threshold = 25
## Writing an object with more than this number of siblings will
## send a failure to the client.
##
## Default: 100
##
## Acceptable values:
## - an integer
object.siblings.maximum = 100
## Whether to allow list buckets.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.list_buckets = enabled
## Whether to allow streaming list buckets.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.stream_list_buckets = enabled
## Whether to allow list keys.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.list_keys = enabled
## Whether to allow streaming list keys.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.stream_list_keys = enabled
## Whether to allow secondary index queries.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.secondary_index = enabled
## Whether to allow streaming secondary index queries.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.stream_secondary_index = enabled
## Whether to allow term-based map-reduce.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.map_reduce = enabled
## Whether to allow JavaScript map-reduce.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_kv.map_reduce_js = enabled
## A path under which bitcask data files will be stored.
##
## Default: $(platform_data_dir)/bitcask
##
## Acceptable values:
## - the path to a directory
bitcask.data_root = $(platform_data_dir)/bitcask
## Configure how Bitcask writes data to disk.
## erlang: Erlang's built-in file API
## nif: Direct calls to the POSIX C API
## The NIF mode provides higher throughput for certain
## workloads, but has the potential to negatively impact
## the Erlang VM, leading to higher worst-case latencies
## and possible throughput collapse.
##
## Default: erlang
##
## Acceptable values:
## - one of: erlang, nif
bitcask.io_mode = erlang
## Set to 'off' to disable the admin panel.
##
## Default: off
##
## Acceptable values:
## - on or off
riak_control = off
## Authentication mode used for access to the admin panel.
##
## Default: off
##
## Acceptable values:
## - one of: off, userlist
riak_control.auth.mode = off
## If riak control's authentication mode (riak_control.auth.mode)
## is set to 'userlist' then this is the list of usernames and
## passwords for access to the admin panel.
## To create users with given names, add entries of the format:
## riak_control.auth.user.USERNAME.password = PASSWORD
## replacing USERNAME with the desired username and PASSWORD with the
## desired password for that user.
##
## Acceptable values:
## - text
## riak_control.auth.user.admin.password = pass
## This parameter defines the percentage of total server memory
## to assign to LevelDB. LevelDB will dynamically adjust its internal
## cache sizes to stay within this size. The memory size can
## alternately be assigned as a byte count via leveldb.maximum_memory
## instead.
##
## Default: 70
##
## Acceptable values:
## - an integer
leveldb.maximum_memory.percent = 70
## Enables or disables the compression of data on disk.
## Enabling (default) saves disk space. Disabling may reduce read
## latency but increase overall disk activity. Option can be
## changed at any time, but will not impact data on disk until
## next time a file requires compaction.
##
## Default: on
##
## Acceptable values:
## - on or off
leveldb.compression = on
## Selection of compression algorithms. snappy is
## original compression supplied for leveldb. lz4 is new
## algorithm that compresses to similar volume but averages twice
## as fast on writes and four times as fast on reads.
##
## Acceptable values:
## - one of: snappy, lz4
leveldb.compression.algorithm = lz4
##
## Default: on
##
## Acceptable values:
## - on or off
## multi_backend.name.leveldb.compression = on
##
## Acceptable values:
## - one of: snappy, lz4
## multi_backend.name.leveldb.compression.algorithm = lz4
## Whether to allow search queries.
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.riak_search.query = enabled
## To enable Search set this 'on'.
##
## Default: off
##
## Acceptable values:
## - on or off
search = off
## How long Riak will wait for Solr to start. The start sequence
## will be tried twice. If both attempts timeout, then the Riak node
## will be shutdown. This may need to be increased as more data is
## indexed and Solr takes longer to start. Values lower than 1s will
## be rounded up to the minimum 1s.
##
## Default: 30s
##
## Acceptable values:
## - a time duration with units, e.g. '10s' for 10 seconds
search.solr.start_timeout = 30s
## The port number which Solr binds to.
## NOTE: Binds on every interface.
##
## Default: 8093
##
## Acceptable values:
## - an integer
search.solr.port = 8093
## The port number which Solr JMX binds to.
## NOTE: Binds on every interface.
##
## Default: 8985
##
## Acceptable values:
## - an integer
search.solr.jmx_port = 8985
## The options to pass to the Solr JVM. Non-standard options,
## i.e. -XX, may not be portable across JVM implementations.
## E.g. -XX:+UseCompressedStrings
##
## Default: -d64 -Xms1g -Xmx1g -XX:+UseStringCache -XX:+UseCompressedOops
##
## Acceptable values:
## - text
search.solr.jvm_options = -d64 -Xms1g -Xmx1g -XX:+UseStringCache -XX:+UseCompressedOops
## The minimum batch size, in number of Riak objects. Any batches that
## are smaller than this amount will not be immediately flushed to Solr,
## but are guaranteed to be flushed within the
## "search.queue.batch.flush_interval".
##
## Default: 10
##
## Acceptable values:
## - an integer
## search.queue.batch.minimum = 10
## The maximum batch size, in number of Riak objects. Any batches that are
## larger than this amount will be split, where the first
## search.queue.batch.maximum set of objects will be flushed to Solr, and
## the remaining objects enqueued for that index will be retained until the
## next batch is delivered. This parameter ensures that at most
## "search.queue.batch.maximum object" will be delivered into Solr in any
## given request.
##
## Default: 500
##
## Acceptable values:
## - an integer
## search.queue.batch.maximum = 500
## The maximum delay between notification to flush batches to Solr. This
## setting is used to increase or decrease the frequency of batch delivery
## into Solr, specifically for relatively low-volume input into Riak. This
## setting ensures that data will be delivered into Solr in accordance with
## the "search.queue.batch.minimum" and "search.queue.batch.maximum"
## settings within the specified interval. Batches that are smaller than
## "search.queue.batch.minimum" will be delivered to Solr within this
## interval. This setting will generally hav no effect on heavily loaded
## systems.
##
## Default: 500ms
##
## Acceptable values:
## - a time duration with units, e.g. '10s' for 10 seconds
## - the text "infinity"
## search.queue.batch.flush_interval = 500ms
## The queue high watermark. If the total number of queued messages in a
## Solr Queue Worker instance exceeds this limit, then the calling vnode
## will be blocked until the total number falls below this limit. This
## parameter exercises flow control between Riak and the Riak
## Search batching subsystem if writes into Solr start to fall behind.
##
## Default: 1000
##
## Acceptable values:
## - an integer
## search.queue.high_watermark = 1000
## The strategy for how we handle purging when we hit the
## search.queue.high_watermark.
## - purge_one -> Removes the oldest item on the queue from an
## erroring (references to fuses blown in the code) index in
## order to get below the search.queue.high_watermark.
## - purge_index -> Removes all items associated with one random
## erroring (references to fuses blown in the code) index in
## order to get below the search.queue.high_watermark.
## - off -> purging is disabled
##
## Default: purge_one
##
## Acceptable values:
## - one of: purge_one, purge_index, off
## search.queue.high_watermark.purge_strategy = purge_one
## Whether to allow Yokozuna queries on this node
##
## Default: enabled
##
## Acceptable values:
## - enabled or disabled
## cluster.job.yokozuna.query = enabled

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version: '3.7'
services:
mysql:
image: mysql:latest
container_name: ejabberd-mysql
volumes:
- ./db/mysql/data:/var/lib/mysql
- ./db/mysql/initdb:/docker-entrypoint-initdb.d:ro
command: --default-authentication-plugin=mysql_native_password
restart: always
ports:
- 3306:3306
environment:
MYSQL_ROOT_PASSWORD: root
MYSQL_DATABASE: ejabberd_test
MYSQL_USER: ejabberd_test
MYSQL_PASSWORD: ejabberd_test
postgres:
image: postgres:latest
container_name: ejabberd-postgres
volumes:
- ./db/postgres/data:/var/lib/postgresql/data
- ./db/postgres/initdb:/docker-entrypoint-initdb.d:ro
ports:
- 5432:5432
environment:
POSTGRES_PASSWORD: ejabberd_test
POSTGRES_USER: ejabberd_test
POSTGRES_DB: ejabberd_test
redis:
image: redis:latest
container_name: ejabberd-redis
ports:
- 6379:6379
riak:
image: ejabberd/riak:latest
container_name: ejabberd-riak
ports:
- 8087:8087
- 8098:8098
volumes:
- ./db/riak/data:/var/lib/riak
environment:
WAIT_FOR_ERLANG: 60