Chapter 4. Configuration

Table of Contents

4.1. Node Properties
4.2. Node
4.3. Node Group
4.4. Node Group Link
4.5. Channel
4.6. Triggers and Routers
4.6.1. Trigger
4.6.2. Router
4.6.2.1. Default Router
4.6.2.2. Column Match Router
4.6.2.3. Lookup Table Router
4.6.2.4. Relational Router
4.6.2.5. Scripted Router
4.6.3. Trigger / Router Mappings
4.6.3.1. Initial Load
4.6.3.2. Dead Triggers
4.6.3.3. Enabling "Ping Back"
4.7. Opening Registration

Chapter 3 introduced numerous concepts and the analysis and design needed to create an implementation of SymmetricDS. This chapter re-visits each analysis step and documents how to turn a SymmetricDS design into reality through configuration of the various SymmetricDS tables. In addition, several advanced configuration options, not presented previously, will also be covered.

4.1. Node Properties

To get a SymmetricDS node running, it needs to be given an identity and it needs to know how to connect to the database it will be synchronizing. A typical way to specify this is to place properties in the symmetric.properties file. When started up, SymmetricDS reads the configuration and state from the database. If the configuration tables are missing, they are created automatically (auto creation can be disabled). Basic configuration is described by inserting into the following tables (the complete data model is defined in Appendix A, Data Model).

  • NODE_GROUP - specifies the tiers that exist in a SymmetricDS network

  • NODE_GROUP_LINK - links two node groups together for synchronization

  • CHANNEL - grouping and priority of synchronizations

  • TRIGGER - specifies tables, channels, and conditions for which changes in the database should be captured

  • ROUTER - specifies the routers defined for synchronization, along with other routing details

  • TRIGGER_ROUTER - provides mappings of routers and triggers

During start up, triggers are verified against the database, and database triggers are installed on tables that require data changes to be captured. The Route, Pull and Push Jobs begin running to synchronize changes with other nodes.

Each node requires properties that allow it to connect to a database and register with a parent node. To give a node its identity, the following properties are used:

group.id

The node group that this node is a member of. Synchronization is specified between node groups, which means you only need to specify it once for multiple nodes in the same group.

external.id

The external id for this node has meaning to the user and provides integration into the system where it is deployed. For example, it might be a retail store number or a region number. The external id can be used in expressions for conditional and subset data synchronization. Behind the scenes, each node has a unique sequence number for tracking synchronization events. That makes it possible to assign the same external id to multiple nodes, if desired.

sync.url

The URL where this node can be contacted for synchronization. At startup and during each heartbeat, the node updates its entry in the database with this URL.

When a new node is first started, it is has no information about synchronizing. It contacts the registration server in order to join the network and receive its configuration. The configuration for all nodes is stored on the registration server, and the URL must be specified in the following property:

registration.url

The URL where this node can connect for registration to receive its configuration. The registration server is part of SymmetricDS and is enabled as part of the deployment.

Important

Note that a registration server node is defined as one whose registration.url is either (a) blank, or (b) identical to its sync.url.

When deploying to an application server, it is common for database connection pools to be found in the Java naming directory (JNDI). In this case, set the following property:

db.jndi.name

The name of the database connection pool to use, which is registered in the JNDI directory tree of the application server. It is recommended that this DataSource is NOT transactional, because SymmetricDS will handle its own transactions.

For a deployment where the database connection pool should be created using a JDBC driver, set the following properties:

db.driver

The class name of the JDBC driver.

db.url

The JDBC URL used to connect to the database.

db.user

The database username, which is used to login, create, and update SymmetricDS tables.

db.password

The password for the database user.

4.2. Node

A node, a single instance of SymmetricDS, is defined in the NODE table. Two other tables play a direct role in defining a node, as well The first is NODE_IDENTITY. The only row in this table is inserted in the database when the node first registers with a parent node. In the case of a root node, the row is entered by the user. The row is used by a node instance to determine its node identity.

The following SQL statements set up a top-level registration server as a node identified as "00000" in the "corp" node group.

insert into SYM_NODE 
  (node_id, node_group_id, external_id, sync_enabled)
values
  ('00000', 'corp', '00000', 1);

insert into SYM_NODE_IDENTITY values ('00000');

The second table, NODE_SECURITY has rows created for each child node that registers with the node, assuming auto-registration is enabled. If auto registration is not enabled, you must create a row in NODE and NODE_SECURITY for the node to be able to register. You can also, with this table, manually cause a node to re-register or do a re-initial load by setting the corresponding columns in the table itself. Registration is discussed in more detail in Section 4.7, “Opening Registration”.

4.3. Node Group

Node Groups are straightforward to configure and are defined in the NODE_GROUP table. The following SQL statements would create node groups for "corp" and "store" based on our retail store example.

insert into SYM_NODE_GROUP 
  (node_group_id, description)
values
  ('store', 'A retail store node');

insert into SYM_NODE_GROUP 
  (node_group_id, description)
values
  ('corp', 'A corporate node');

4.4. Node Group Link

Similarly, Node Group links are established using a data event action of 'P' for Push and 'W' for Pull ("wait"). The following SQL statements links the "corp" and "store" node groups for synchronization. It configures the "store" nodes to push their data changes to the "corp" nodes, and the "corp" nodes to send changes to "store" nodes by waiting for a pull.

insert into SYM_NODE_GROUP_LINK
  (source_node_group, target_node_group, data_event_action)
values
  ('store', 'corp', 'P');

insert into SYM_NODE_GROUP_LINK
  (source_node_group, target_node_group, data_event_action)
values
  ('corp', 'store', 'W');

4.5. Channel

By categorizing data into channels and assigning them to TRIGGERs, the user gains more control and visibility into the flow of data. In addition, SymmetricDS allows for synchronization to be enabled, suspended, or scheduled by channels as well. The frequency of synchronization and order that data gets synchronized is also controlled at the channel level.

The following SQL statements setup channels for a retail store. An "item" channel includes data for items and their prices, while a "sale_transaction" channel includes data for ringing sales at a register.

insert into SYM_CHANNEL 
  (channel_id, processing_order, max_batch_size, max_batch_to_send, 
   extract_period_millis, batch_algorithm, enabled, description)
values
  ('item', 10, 1000, 10,  0, 'default', 1, 'Item and pricing data');

insert into SYM_CHANNEL 
  (channel_id, processing_order, max_batch_size, max_batch_to_send, 
   extract_period_millis, batch_algorithm, enabled, description)
values
  ('sale_transaction', 1, 1000, 10,  60000, 'transactional', 1, 
   'retail sale transactions from register');

Batching is the grouping of data, by channel, to be transferred and committed at the client together. There are three different out-of-the-box batching algorithms which may be configured in the batch_algorithm column on channel.

default

All changes that happen in a transaction are guaranteed to be batched together. Multiple transactions will be batched and committed together until there is no more data to be sent or the max_batch_size is reached.

transactional

Batches will map directly to database transactions. If there are many small database transactions, then there will be many batches. The max_batch_size column has no effect.

nontransactional

Multiple transactions will be batched and committed together until there is no more data to be sent or the max_batch_size is reached. The batch will be cut off at the max_batch_size regardless of whether it is in the middle of a transaction.

4.6. Triggers and Routers

4.6.1. Trigger

SymmetricDS captures synchronization data using database triggers. SymmetricDS' Triggers are defined in the TRIGGER table. Each record is used by SymmetricDS when generating database triggers. Database triggers are only generated when a trigger is associated with a ROUTER whose source_node_group_id matches the node group id of the current node.

When determining whether a data change has occurred or not, by defalt the triggers will record a change even if the data was updated to the same value(s) they were originally. For example, a data change will be captured if an update of one column in a row updated the value to the same value it already was. There is a global property, trigger.update.capture.changed.data.only.enabled (false by default), that allows you to override this behavior. When set to true, SymmetricDS will only capture a change if the data has truly changed (i.e., when the new column data is not equal to the old column data).

Important

The property trigger.update.capture.changed.data.only.enabled is currently only supported in the MySQL and Oracle dialects.

The following SQL statement defines a trigger that will capture data for a table named "item" whenever data is inserted, updated, or deleted. The trigger is assigned to a channel also called 'item'.

insert into SYM_TRIGGER 
    (trigger_id,source_table_name,channel_id,last_update_time,create_time)
  values
    ('item', 'item', 'item', current_timestamp, current_timestamp);

Important

Note that many databases allow for multiple triggers of the same type to be defined. Each database defines the order in which the triggers fire differently. If you have additional triggers beyond those SymmetricDS installs on your table, please consult your database documentation to determine if there will be issues with the ordering of the triggers.

4.6.2. Router

Routers provided in the base implementation currently include:

  • Default Router - a router that sends all data to all nodes that belong to the target node group defined in the router.
  • Column Match Router - a router that compares old or new column values to a constant value or the value of a node's external_id or node_id.
  • Sub-select Router - a router that executes a SQL expression against the database to select nodes to route to. This SQL expression can be passed values of old and new column values.
  • Bean Shell Router - a router that executes a BSH expression in order to select nodes to route to. The BSH expression can use the the old and new column values.
  • Xml Publishing Router - a router the publishes data changes directly to a messaging solution instead of transmitting changes to registered nodes. This router must be configured manually in XML as an extension point.

The mapping between the set of triggers and set of routers is many-to-many. This means that one trigger can capture changes and route to multiple locations. It also means that one router can be defined an associated with many different triggers.

4.6.2.1. Default Router

The simplest router is a router that sends all the data that is captured by its associated triggers to all the nodes that belong to the target node group defined in the router. A router is defined as a row in the ROUTER table. It is then linked to triggers in the TRIGGER_ROUTER table.

The following SQL statement defines a router that will send data from the 'corp' group to the 'store' group.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, 
    create_time, last_update_time)
values
  ('corp-2-store','corp', 'store', current_timestamp, current_timestamp);

The following SQL statement maps the 'corp-2-store' router to the item trigger.

insert into SYM_TRIGGER_ROUTER 
  (trigger_id, router_id, initial_load_order,  create_time, last_update_time)
values
  ('item', 'corp-2-store', 1, current_timestamp, current_timestamp);

4.6.2.2. Column Match Router

Sometimes requirements may exist that require data to be routed based on the current value or the old value of a column in the table that is being routed. Column routers are configured by setting the router_type column on the ROUTER table to column and setting the router_expression column to an equality expression that represents the expected value of the column.

The first part of the expression is always the column name. The column name should always be defined in upper case. The upper case column name prefixed by OLD_ can be used for a comparison being done with the old column data value.

The second part of the expression can be a constant value, a token that represents another column, or a token that represents some other SymmetricDS concept. Token values always begin with a colon (:).

Consider a table that needs to be routed to all nodes in the target group only when a status column is set to 'OK.' The following SQL statement will insert a column router to accomplish that.

insert into SYM_ROUTER 
(router_id, source_node_group_id, target_node_group_id, router_type, 
 router_expression, create_time, last_update_time)
values
('corp-2-store-ok','corp', 'store', 'column', 
 'STATUS=OK', current_timestamp, current_timestamp);

Consider a table that needs to be routed to all nodes in the target group only when a status column changes values. The following SQL statement will insert a column router to accomplish that.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-status','corp', 'store', 'column', 
    'STATUS!=:OLD_STATUS', current_timestamp, current_timestamp);

Consider a table that needs to be routed to only nodes in the target group whose STORE_ID column matches the external id of a node. The following SQL statement will insert a column router to accomplish that.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-id','corp', 'store', 'column', 
    'STORE_ID=:EXTERNAL_ID', current_timestamp, current_timestamp);

Attributes on a NODE that can be referenced with tokens include:

  • NODE_ID
  • EXTERNAL_ID
  • NODE_GROUP_ID

Consider a table that needs to be routed to a redirect node defined by its external id in the REGISTRATION_REDIRECT table. The following SQL statement will insert a column router to accomplish that.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-redirect','corp', 'store', 'column', 
    'STORE_ID=:REDIRECT_NODE', current_timestamp, current_timestamp);

More than one column may be configured in a router_expression. When more than one column is configured, all matches are added to the list of nodes to route to. The following is an example where the STORE_ID column may contain the STORE_ID to route to or the constant of ALL which indicates that all nodes should receive the update.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-multiple-matches','corp', 'store', 'column', 
   'STORE_ID=ALL
    STORE_ID=:EXTERNAL_ID', current_timestamp, current_timestamp);

The NULL keyword may be used to check if a column is null. If the column is null, then data will be routed to all nodes who qualify for the update. This following is an example where the STORE_ID column is used to route to a set of nodes who have a STORE_ID equal to their EXTERNAL_ID, or to all nodes if the STORE_ID is null.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-multiple-matches','corp', 'store', 'column', 
   'STORE_ID=NULL
    STORE_ID=:EXTERNAL_ID', current_timestamp, current_timestamp);

4.6.2.3. Lookup Table Router

A lookup table may contain the id of the node where data needs to be routed. This could be an existing table or an ancillary table that is added specifically for the purpose of routing data. Lookup table routers are configured by setting the router_type column on the ROUTER table to lookuptable and setting a list of configuration parameters in the router_expression column.

Each of the following configuration parameters are required.

LOOKUP_TABLE

This is the name of the lookup table.

KEY_COLUMN

This is the name of the column on the table that is being routed. It will be used as a key into the lookup table.

LOOKUP_KEY_COLUMN

This is the name of the column that is the key on the lookup table.

EXTERNAL_ID_COLUMN

This is the name of the column that contains the external_id of the node to route to on the lookup table.

Note that the lookup table will be read into memory and cached for the duration of a routing pass for a single channel.

Consider a table that needs to be routed to a specific store, but the data in the changing table only contains brand information. In this case, the STORE table may be used as a lookup table.

insert into SYM_ROUTER 
(router_id, source_node_group_id, target_node_group_id, router_type, 
 router_expression, create_time, last_update_time)
values
('corp-2-store-ok','corp', 'store', 'lookuptable', 
 'LOOKUP_TABLE=STORE
KEY_COLUMN=BRAND_ID
LOOKUP_KEY_COLUMN=BRAND_ID
EXTERNAL_ID_COLUMN=STORE_ID', current_timestamp, current_timestamp);

4.6.2.4. Relational Router

Sometimes routing decisions need to be made based on data that is not in the current row being synchronized. Consider an example where an Order table and a OrderLineItem table need to be routed to a specific store. The Order table has a column named order_id and STORE_ID. A store node has an external_id that is equal to the STORE_ID on the Order table. OrderLineItem, however, only has a foreign key to its Order of order_id. To route OrderLineItems to the same nodes that the Order will be routed to, we need to reference the master Order record.

There are two possible ways to route the OrderLineItem in SymmetricDS. One is to configure a 'subselect' router_type on the ROUTER table and the other is to configure an external_select on the TRIGGER table.

A 'subselect' is configured with a router_expression that is a SQL select statement which returns a result set of the node_ids that need routed to. Column tokens can be used in the SQL expression and will be replaced with row column data. The overhead of using this router type is high because the 'subselect' statement runs for each row that is routed. It should not be used for tables that have a lot of rows that are updated. It also has the disadvantage that if the Order master record is deleted, then no results would be returned and routing would not happen. The router_expression is appended to the following SQL statement in order to select the node ids.


select c.node_id from sym_node c where 
  c.node_group_id=:NODE_GROUP_ID and c.sync_enabled=1 and 

Consider a table that needs to be routed to all nodes in the target group only when a status column is set to 'OK.' The following SQL statement will insert a column router to accomplish that.

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store','corp', 'store', 'subselect', 
    'c.external_id in (select STORE_ID from order where order_id=:ORDER_ID)', 
    current_timestamp, current_timestamp);

Alternatively, when using an external_select on the TRIGGER table, data is captured in the EXTERNAL_DATA column of the DATA table at the time a trigger fires. The EXTERNAL_DATA can then be used for routing by using a router_type of 'column'. The advantage of this approach is that it is very unlikely that the master Order table will have been deleted at the time any DML accures on the OrderLineItem table. It also is a bit more effcient than the 'subselect' approach, although the triggers produced do run the extra external_select inline with application database updates.

In the following example, the STORE_ID is captured from the Order table in the EXTERNAL_DATA column. EXTERNAL_DATA is always available for routing as a virtual column in a 'column' router. The router is configured to route based on the captured EXTERNAL_DATA to all nodes whose external_id matches. Note that other supported node attribute token can also be used for routing.


insert into SYM_TRIGGER 
  (trigger_id,source_table_name,channel_id,external_select,
    last_update_time,create_time)
values
  ('orderlineitem', 'orderlineitem', 'orderlineitem','select STORE_ID 
    from order where order_id=$(curTriggerValue).$(curColumnPrefix)order_id',
    current_timestamp, current_timestamp);

insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-ext','corp', 'store', 'column', 
    'EXTERNAL_DATA=:EXTERNAL_ID', current_timestamp, current_timestamp);

4.6.2.5. Scripted Router

When more flexibility is needed in the logic to choose the nodes to route to, then the a Bean Shell router may be used. Bean Shell is a Java-like scripting language. Documentation for the Bean Shell scripting language can be found at http://www.beanshell.org.

The router_type for a Bean Shell router is 'bsh'. The router_expression is a valid Bean Shell script that:

  • adds node ids to the 'targetNodes' collection which is bound to the script
  • returns a new collection of node ids
  • returns a single node id
  • returns true to indicate that all nodes should be routed or returns false to indicate that no nodes should be routed

Also bound to the script evaluation is a list of 'nodes'. The list of 'nodes' is a list of eligible Node objects. The current data column values and the old data column values are bound to the script evaluation as Java object representations of the column data. The columns are bound using the uppercase names of the columns. Old values are bound to uppercase representations that are prefixed with 'OLD_'.

In the following example, the node_id is a combination of STORE_ID and WORKSTATION_NUMBER, both of which are columns on the table that is being routed.


insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-bsh','corp', 'store', 'bsh', 
    'targetNodes.add(STORE_ID + "-" + WORKSTATION_NUMBER);', 
    current_timestamp, current_timestamp);

The same could also be accomplished by simply returning the node id. The last line of a bsh script is always the return value.


insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-bsh','corp', 'store', 'bsh', 
    'STORE_ID + "-" + WORKSTATION_NUMBER', 
    current_timestamp, current_timestamp);

The following example will synchronize to all nodes if the FLAG column has changed, otherwise no nodes will be synchronized.


insert into SYM_ROUTER 
  (router_id, source_node_group_id, target_node_group_id, router_type, 
    router_expression, create_time, last_update_time)
values
  ('corp-2-store-flag-changed','corp', 'store', 'bsh', 
    'FLAG != null && !FLAG.equals(OLD_FLAG)', 
    current_timestamp, current_timestamp);

4.6.3. Trigger / Router Mappings

Two important controls can be configured for a specific Trigger / Router combination: Initial Load and Ping Back. The parameters for these can be found in the Trigger / Router mapping table, TRIGGER_ROUTER.

4.6.3.1. Initial Load

An initial load is the process of seeding tables at a target node with data from its parent node. When a node connects and data is extracted, after it is registered and if an initial load was requested, each table that is configured to synchronize to the target node group will be given a reload event in the order defined by the end user. A SQL statement is run against each table to get the data load that will be streamed to the target node. The selected data is filtered through the configured router for the table being loaded. If the data set is going to be large, then SQL criteria can optionally be provided to pair down the data that is selected out of the database.

An initial load can not occur until after a node is registered. An initial load is requested by setting the initial_load_enabled column on NODE_SECURITY to 1 on the row for the target node in the parent node's database. The next time the target node synchronizes, reload batches will be inserted. At the same time reload batches are inserted, all previously pending batches for the node are marked as successfully sent.

Important

Note that if the parent node that a node is registering with is not a registration server node (as can happen with a registration redirect or certain non-tree structure node configurations) the parent node's NODE_SECURITY entry must exist at the parent node and have a non-null value for column initial_load_time. Nodes can't be registered to non-registration-server nodes without this value being set one way or another (i.e., manually, or as a result of an initial load occuring at the parent node).

SymmetricDS recognizes that an initial load has completed when the initial_load_time column on the target node is set to a non-null value.

An initial load is accomplished by inserting reload batches in a defined order according to the initial_load_order column on TRIGGER_ROUTER. Initial load data is always queried from the source database table. All data is passed through the configured router to filter out data that might not be targeted at a node.

An efficient way to select a subset of data from a table for an initial load is to provide an initial_load_select clause on TRIGGER_ROUTER. This clause, if present, is applied as a where clause to the SQL used to select the data to be loaded. If an initial_load_select clause is provided, data will not be passed through the configured router during initial load. In cases where custom routing is done using a feature like Section 4.6.2.4, “Relational Router”, an initial_load_select clause will always need to be provided because the router would not function properly with initial load data.

One example of the use of an initial load select would be if you wished to only load data created more recently than the start of year 2011. Say, for example, the column created_time contains the creation date. Your initial_load_select would read created_time > ts {'2011-01-01 00:00:00.0000'} (using whatever timestamp format works for your database). This then gets applied as a where clause when selecting data from the table.

Important

When providing an initial_load_select be sure to test out the criteria against production data in a query browser. Do an explain plan to make sure you are properly using indexes.

4.6.3.2. Dead Triggers

Occasionally the decision of what data to load initially results in additional triggers. These triggers, known as Dead Triggers, are configured such that they do not capture any data changes. A "dead" Trigger is one that does not capture data changes. In other words, the sync_on_insert, sync_on_update, and sync_on_delete properties for the Trigger are all set to false. However, since the Trigger is specified, it will be included in the initial load of data for target Nodes.

Why might you need a Dead Trigger? A dead Trigger might be used to load a read-only lookup table, for example. It could also be used to load a table that needs populated with example or default data. Another use is a recovery load of data for tables that have a single direction of synchronization. For example, a retail store records sales transaction that synchronize in one direction by trickling back to the central office. If the retail store needs to recover all the sales transactions from the central office, they can be sent are part of an initial load from the central office by setting up dead Triggers that "sync" in that direction.

The following SQL statement sets up a non-syncing dead Trigger that sends the sale_transaction table to the "store" Node Group from the "corp" Node Group during an initial load.


insert into sym_trigger (TRIGGER_ID,SOURCE_CATALOG_NAME,
  SOURCE_SCHEMA_NAME,SOURCE_TABLE_NAME,CHANNEL_ID,
  SYNC_ON_UPDATE,SYNC_ON_INSERT,SYNC_ON_DELETE,
  SYNC_ON_INCOMING_BATCH,NAME_FOR_UPDATE_TRIGGER,
  NAME_FOR_INSERT_TRIGGER,NAME_FOR_DELETE_TRIGGER,
  SYNC_ON_UPDATE_CONDITION,SYNC_ON_INSERT_CONDITION,
  SYNC_ON_DELETE_CONDITION,EXTERNAL_SELECT,
  TX_ID_EXPRESSION,EXCLUDED_COLUMN_NAMES,
  CREATE_TIME,LAST_UPDATE_BY,LAST_UPDATE_TIME) 
  values ('SALE_TRANSACTION_DEAD',null,null,
  'SALE_TRANSACTION','transaction',
  0,0,0,0,null,null,null,null,null,null,null,null,null,
  current_timestamp,'demo',current_timestamp);

insert into sym_router (ROUTER_ID,TARGET_CATALOG_NAME,TARGET_SCHEMA_NAME,
  TARGET_TABLE_NAME,SOURCE_NODE_GROUP_ID,TARGET_NODE_GROUP_ID,ROUTER_TYPE,
  ROUTER_EXPRESSION,SYNC_ON_UPDATE,SYNC_ON_INSERT,SYNC_ON_DELETE,
  CREATE_TIME,LAST_UPDATE_BY,LAST_UPDATE_TIME) 
  values ('CORP_2_STORE',null,null,null,
  'corp','store',null,null,1,1,1,
  current_timestamp,'demo',current_timestamp);
   
insert into sym_trigger_router (TRIGGER_ID,ROUTER_ID,INITIAL_LOAD_ORDER,
  INITIAL_LOAD_SELECT,CREATE_TIME,LAST_UPDATE_BY,LAST_UPDATE_TIME) 
  values ('SALE_TRANSACTION_DEAD','CORP_2_REGION',100,null,
   current_timestamp,'demo',current_timestamp);
   

4.6.3.3. Enabling "Ping Back"

As discussed in Section 3.6.3.2, “Circular References and "Ping Back"” SymmetricDS, by default, avoids circular data changes. When a trigger fires as a result of SymmetricDS itself (such as the case when sync on incoming batch is set), it records the originating source node of the data change in source_node_id. During routing, if routing results in sending the data back to the originating source node, the data is not routed by default. If instead you wish to route the data back to the originating node, you can set the ping_back_enabled column for the needed particular trigger / router combination. This will cause the router to "ping" the data back to the originating node when it usually would not.

4.7. Opening Registration

Node registration is the act of setting up a new NODE and NODE_SECURITY so that when the new node is brought online it is allowed to join the system. Nodes are only allowed to register if rows exist for the node and the registration_enabled flag is set to 1. If the auto.registration SymmetricDS property is set to true, then when a node attempts to register, if registration has not already occurred, the node will automatically be registered.

SymmetricDS allows you to have multiple nodes with the same external_id. Out of the box, openRegistration will open a new registration if a registration already exists for a node with the same external_id. A new registration means a new node with a new node_id and the same external_id will be created. If you want to re-register the same node you can use the reOpenRegistration() JMX method which takes a node_id as an argument.