Table of Contents
schema_path (string)
keys (string)
verbosity (int)
opt_tls (int)
max_key_length (int)
mapping_struct_type (int)
hash_value (string)
hash_expires (int)
db_pass (string)
ca_path (string)
with_sentinels (int)
sentinels_config (string)
redis_master_name (string)
use_replicas (int)
recheck_replicas_interval (int)
List of Examples
Table of Contents
schema_path (string)
keys (string)
verbosity (int)
opt_tls (int)
max_key_length (int)
mapping_struct_type (int)
hash_value (string)
hash_expires (int)
db_pass (string)
ca_path (string)
with_sentinels (int)
sentinels_config (string)
redis_master_name (string)
use_replicas (int)
recheck_replicas_interval (int)
This module provides a DB APIv1 connector for the Redis server (https://www.redis.io).
It can be used as a replacement for other database modules such as db_mysql and db_postgres. Not all the specs of DB APIv1 are implemented, thus the usage of this module might be restricted to specific modules. Also, for proper performance, this module needs particular configuration tailored to the modules that make use of it.
Since Redis does not provide a schema by itself, db_redis ships with schema files. The path to these has to be defined using the module parameter "schema_path". The schema definition is defined in one file per table, such that the file name corresponds to the table name, and each file is composed of a comma-separated list of column definitions in the format <column-name>/<type>[,<column-name>/<type> ...] in one line, followed by a line holding the table version.
Example definition for the "location" table (from the usrloc module):
username/string,domain/string,contact/string,received/string,path/string,expires/timestamp,q/double,callid/string,cseq/int,last_modified/timestamp,flags/int,cflags/int,user_agent/string,socket/string,methods/int,ruid/string,reg_id/int,instance/string,server_id/int,connection_id/int,keepalive/int,partition/int 8
Because Redis is a key-value store, it requires unique keys. This means that tables and rows from a relational SQL database, e.g. from MySQL, can not be ported one a 1:1 basis to Redis.
For instance, usrloc relies on a key of "username@domain", but in order to store multiple contacts per AoR, it cannot be constrained to uniqueness. To work around this, db_redis supports mapping structures (either sets or hashes). If sets are chosen, in the case of the usrloc module for example, one would have a set with a key of "username@domain" and its entries being unique keys per contact based on the ruid of a contact. Thus, one contact in usrloc consists of a unique key "location:entry::example-ruid-1" being a hash with the columns like username, domain, contact, path etc. In addition, this unique key is stored in a set "location:usrdom::exampleuser:exampledomain.org". When usrloc does a lookup based on "username@domain", db_redis figures out via the keys/values the query constructed by usrloc to look for the final entry key in the mapping set first. It then query the actual entries from there, avoiding full table scans. For usrloc, the same holds true for expired contacts, requiring a different kind of mapping. There is a certain balance of read performance vs. write performance to consider, because inserts and deletes also have to maintain the mappings, though this yields much faster selects. The mappings can be freely defined, so even though other kamailio modules don't require a specific mapping to be in place for proper performance, mappings could be defined for external applications to read faster (for instance letting the acc module also write mappings besides the actual records for billing systems to correlate start and stop records faster).
The key is always prefixed with 'tablename:entry::'. For example the record in 'subscriber' table for user 'alice@sip.com' has the key: 'subscriber:entry::alice:sip.com'. If all the records are just loaded at startup (or all reloaded at runtime), the key can just be made unique using whatever values added after 'tablename:entry::' prefix. For example, keys for 'address' table records can be: 'address:entry::1', address:entry::2', address:entry::3', ... No 'keys' modparam of 'db_redis' for 'address' table needs to be defined.
Important Note: at this moment the module requires at least one 'keys' parameter, but it does not need to be related to the table loaded from Redis server -- for example, if used only for permissions module with 'address' table, then the 'keys' parameter can be specified for 'version' table. However, if it used for a module that inserts or updates the records in database table, the key for entry must be defined for that table.
The mappings can be freely defined in the "keys" module parameter, which is composed of a semi-colon separated list of definitions in the format <table-name>=<entry>:<column-name>[&<map-name>:<column-name>,<column-name>...]. Each table must at least have an "entry" key for db_redis to be able to store data.
Example:
location=entry:ruid&usrdom:username,domain&timer:partition,keepalive;acc=entry:callid,time_hires&cid:callid
For readability purposes, definitions of keys per table can span multiple Kamailio config lines by providing multiple "keys" modparams.
When the mapping structure is selected to be hash, one contact in usrloc consists of the same unique key "location:entry::example-ruid-1" as before, but now this unique key is also a key in the hash "location:usrdom::exampleuser:exampledomain.org". The value associated with this key is whatever module param hash_value is set to. When usrloc does a lookup based on "username@domain", db_redis goes through the keys in the hash "location:usrdom::exampleuser:exampledomain.org" to retrieve the associated contact keys. All the other mapping structures that used to be sets are now hashes as well (index::timer, location:timer). This possibility of using hashes has only been tested for usrloc and was introduced because from Redis v 7.4.0 onwards the HEXPIRE command is available, which allows expiring individual keys inside a hash. This makes the process of expiring contacts something that Redis itself can handle, without the need for Kamailio to do it.
Example of structures inside Redis for the usrloc module, with mapping structure type 1 (hashes):
HASH "location:entry::example-ruid-1" -> contact info HASH "location:usrdom::exampleuser:exampledomain" -> contains (key:"location:entry::example-ruid-1" , value:"hash_value") HASH "location::index::usrdom" -> contains (key:"location:usrdom::exampleuser:exampledomain", value:"hash_value") HASH "location:timer::YYYY-MM-DD mm:ss:mm" -> contains (key:"location:entry::example-ruid-1", value:"hash_value") HASH "location::index::timer" -> contains (key:"location:timer::YYYY-MM-DD mm:ss:mm", value:"hash_value")
This module has implemented equivalent underlying Redis operations for INSERT, UPDATE, DELETE and SELECT. The ORDER BY clause for SELECT is not implemented. Raw querying is not implemented inside this module; for sending literal commands to the Redis server, use ndb_redis.
The following libraries or applications must be installed before running Kamailio with this module loaded:
hiredis - available at https://github.com/redis/hiredis
The following library is an optional dependency to support redis cluster protocol:
hiredis-cluster - available at https://github.com/Nordix/hiredis-cluster
The path to the table schemas.
Default value: "/usr/share/kamailio/db_redis".
Example 1.1. Setting schema_path module parameter
...
modparam("db_redis", "schema_path", "/usr/local/share/kamailio/db_redis/kamailio")
...
The entry and mapping keys of tables.
Default value: "" (empty).
Example 1.2. Setting keys module parameter
...
modparam("db_redis", "keys", "version=entry:table_name;location=entry:ruid&usrdom:username,domain&timer:partition,keepalive")
...
Control the verbosity of debug messages printed by the module. If set to 1, the module prints schema details for all tables on each connect operation to Redis server.
Default value: 1.
Controls TLS usage while connecting to a remote DB. If set to 1, TLS is used to connect to the DB.
If TLS is enabled, the module will validate the Redis server certificate against the ca_path. There is currently no way to connect with a specified client certificate, the corresponding configuration to check client certificates in the Redis server must therefore be turned off.
Default value: 0.
Controls the max possible key length to be used when adding/prepending strings into the redis key. If used will be always compared against the given string key length.
Default value: 0. Means disabled.
Controls the type of mapping structures to be used. Beforehand, only sets were used. For the rationale behind mapping structures, see the discussion about mapping structures in the overview section. Currently supported values: 0 - sets (default), 1 - hashes.
Motivation of hashes is the implementation of HEXPIRE command in Redis, available since Redis v 7.4.0 onwards, which allows expiring individual keys inside hashes.
Default value: 0.
Only has sense if mapping_struct_type is set to hash (1). Defines the value to be used for the hash entries in the hashes that now replace mapping sets.
Default value: DUMMY.
Set an expiration time in seconds for the keys in the hash data structures in the database. This is useful for the usrloc module for example, for automatic contact expiry. A value of 0 is interpreted as no expiration. This is only supported with mapping_struct_type set to hash (1).
Default value: 0.
Sets the password to connect to the DB.
Default value: "" (empty).
Sets the path where Certificates Authorities certs for the Redis server certificate are stored.
Default value: "" (empty).
Enables the use of Redis sentinels for high availability. If set to 1, the module will connect to the Redis server using the sentinels defined in the "sentinels_config" modparam.
Default value: 0.
Sets the sentinels to connect to the Redis server. The format is semi-colon separated list of key-value pairs: password, sentinels. Sentinels is a pipe separated list of host:port pairs. Password applies to all sentinels.
Default value: "" (empty).
Example 1.12. Setting sentinels
...
modparam("db_redis", "sentinels_config", "password=password;sentinels=host1:port1|host2:port2|host3:port3")
...
Sets the name of the Redis master. This is needed when building the SENTINEL get-master-addr-by-name command. The name should match the name used in the Redis Sentinel configuration.
Default value: "mymaster" (empty).
Example 1.13. Setting Redis master name
...
modparam("db_redis", "redis_master_name", "mymaster")
...
Enables connecting to Redis replicas instead of the master when using sentinels. Replicas are selected randomly. This helps distribute load across the Redis setup (i.e.: read from replicas instead of master). If for whatever reason no replicas are available, the module will fall back to connecting to the master (this cannot be toggled off).
Default value: 0 (connect to master).
The parameter sets the interval in seconds to recheck for available replicas so that we don't remain connected to the master. Because of implementation details, the first check can exceptionally happen after half of this interval. If set to 0, no rechecks will be performed and the module will remain connected to the master until a new connection is established (i.e.: Redis server goes down and comes back up).
Default value: 120 seconds.
Load the module and set the "db_url" modparam for specific modules to: 'redis://[username]@host:port/database'. Username is optional. The database portion must be a valid Redis database number.
For cluster support you need to set the "db_url" modparam with a comma separated list of cluster hosts: 'redis://host1:port1,host2:port2/'. The database portion is not supported in cluster mode.
If accessed DB requires TLS connections, you need to enable TLS support setting the "opt_tls" parameter to 1. In case the DB requires a password, that should be set using the "db_pass" parameter.
Example 1.16. Usage
...
loadmodule "db_redis.so"
...
#!define DBURL_USRLOC "redis://127.0.0.1:6379/5"
#!define DBURL_ACC "redis://127.0.0.1:6379/6"
#!define DBURL_AUTH "redis://127.0.0.1:6379/7"
#!define DBURL_PERM "redis://127.0.0.1:6379/8"
#!define DBURL_DLG "redis://127.0.0.1:6379/9"
...
modparam("db_redis", "schema_path", "/usr/share/kamailio/db_redis/kamailio")
modparam("db_redis", "keys", "version=entry:table_name")
modparam("db_redis", "keys", "location=entry:ruid&usrdom:username,domain&timer:partition,keepalive")
modparam("db_redis", "keys", "acc=entry:callid,time_hires&cid:callid")
modparam("db_redis", "keys", "subscriber=entry:username,domain")
modparam("db_redis", "keys", "dialog=entry:hash_entry,hash_id&cid:callid")
modparam("db_redis", "keys", "dialog_vars=entry:hash_entry,hash_id,dialog_key&dialog:hash_entry,hash_id")
...
modparam("usrloc", "db_url", DBURL_USRLOC)
...
modparam("acc_db", "db_url", DBURL_ACC)
...
modparam("auth_db", "db_url", DBURL_AUTH)
...
modparam("permissions", "db_url", DBURL_PERM)
...
modparam("dialog", "db_url", DBURL_DLG)
...
Samples adding records for address table using 'redis-cli':
Example 1.17. Usage
... SELECT 8 HMSET address:entry::1 id 1 grp 1 ip_addr "127.0.0.1" mask 32 port 0 HMSET address:entry::2 id 2 grp 1 ip_addr "127.0.0.2" mask 32 port 0 HMSET address:entry::3 id 3 grp 2 ip_addr "127.0.0.3" mask 32 port 0 HMSET address:entry::4 id 4 grp 2 ip_addr "127.0.0.4" mask 32 port 0 tag "test" ...
Note that is some cases, the optional values in database tables can be omitted. For 'address' table, the 'tag' value may be omitted. To avoid any issues, set unused fields to their default values as defined by database schema. When definition allows 'NULL', that field can be unset.