MOLT Fetch moves data from a source database into CockroachDB as part of a database migration.
MOLT Fetch uses IMPORT INTO
or COPY FROM
to move the source data to cloud storage (Google Cloud Storage or Amazon S3), a local file server, or local memory. Once the data is exported, MOLT Fetch can load the data into a target CockroachDB database and replicate changes from the source database. For details, see Usage.
Supported databases
The following source databases are currently supported:
- PostgreSQL
- MySQL
- CockroachDB
Installation
To install MOLT Fetch, download the binary that matches your system. To download the latest binary:
Operating System | AMD 64-bit | ARM 64-bit |
---|---|---|
Windows | Download | Download |
Linux | Download | Download |
Mac | Download | Download |
For previous binaries, refer to the MOLT version manifest. For release details, see the MOLT changelog.
MOLT Fetch is supported on Red Hat Enterprise Linux (RHEL) 9 and above.
Docker image
Docker multi-platform images containing both the AMD and ARM binaries are available. To pull the latest image:
docker pull cockroachdb/molt
To pull a specific version (e.g., 1.1.3
):
docker pull cockroachdb/molt:1.1.3
For details on running in Docker, see Docker usage.
Setup
Complete the following items before using MOLT Fetch:
Follow the recommendations in Best practices and Security recommendations.
Ensure that the source and target schemas are identical, unless you enable automatic schema creation with the
drop-on-target-and-recreate
option. If you are creating the target schema manually, review the behaviors in Mismatch handling.Ensure that the SQL user running MOLT Fetch has
SELECT
privileges on the source and target CockroachDB databases, along with the required privileges to runIMPORT INTO
orCOPY FROM
(depending on the command used for data movement) on CockroachDB, as described on their respective pages.If you plan to use continuous replication, using either the MOLT Fetch replication feature or an external change data capture (CDC) tool:
- For PostgreSQL sources, enable logical replication. In
postgresql.conf
or in the SQL shell, setwal_level
tological
. - For MySQL sources, enable GTID consistency. In
mysql.cnf
, in the SQL shell, or as flags in themysql
start command, setgtid-mode
andenforce-gtid-consistency
toON
and setbinlog_row_metadata
tofull
.
- For PostgreSQL sources, enable logical replication. In
Percent-encode the connection strings for the source database and CockroachDB. This ensures that the MOLT tools can parse special characters in your password.
Given a password
a$52&
, pass it to themolt escape-password
command with single quotes:molt escape-password 'a$52&'
Substitute the following encoded password in your original connection url string: a%2452%26
Use the encoded password in your connection string. For example:
postgres://postgres:a%2452%26@localhost:5432/replicationload
If you plan to use cloud storage for the data migration, follow the steps in Secure cloud storage.
Best practices
To prevent connections from terminating prematurely during data export, set the following to high values on the source database:
- Maximum allowed number of connections: MOLT Fetch can export data across multiple connections. The number of connections it will create is the number of shards (
--export-concurrency
) multiplied by the number of tables (--table-concurrency
) being exported concurrently. - Maximum lifetime of a connection: This is particularly important for MySQL sources, which can only use a single connection to move data. See the following note.
- Maximum allowed number of connections: MOLT Fetch can export data across multiple connections. The number of connections it will create is the number of shards (
If a MySQL database is set as a source, the
--table-concurrency
and--export-concurrency
flags cannot be set above1
. If these values are changed, MOLT Fetch returns an error. This guarantees consistency when moving data from MySQL, due to MySQL limitations. MySQL data is migrated to CockroachDB one table and shard at a time, usingWITH CONSISTENT SNAPSHOT
transactions.To prevent memory outages during data export of tables with large rows, estimate the amount of memory used to export a table:
--row-batch-size * --export-concurrency * average size of the table rows
If you are exporting more than one table at a time (i.e.,
--table-concurrency
is set higher than1
), add the estimated memory usage for the tables with the largest row sizes. Ensure that you have sufficient memory to runmolt fetch
, and adjust--row-batch-size
accordingly.If a table in the source database is much larger than the other tables, filter and export the largest table in its own
molt fetch
task. Repeat this for each of the largest tables. Then export the remaining tables in another task.When using
IMPORT INTO
to load tables into CockroachDB, if the fetch task terminates before the import job completes, the hanging import job on the target database will keep the table offline. To make this table accessible again, manually resume or cancel the job. Then resumemolt fetch
using continuation, or restart the task from the beginning.
Security recommendations
Cockroach Labs strongly recommends the following:
Secure connections
- Use secure connections to the source and target CockroachDB database whenever possible.
- By default, insecure connections (i.e.,
sslmode=disable
on PostgreSQL;sslmode
not set on MySQL) are disallowed. When using an insecure connection,molt fetch
returns an error. To override this check, you can enable the--allow-tls-mode-disable
flag. Do this only for testing, or if a secure SSL/TLS connection to the source or target database is not possible.
Connection strings
- Avoid plaintext connection strings.
- Provide your connection strings as environment variables.
If possible within your security infrastructure, use an external secrets manager to load the environment variables from stored secrets.
For example, to export connection strings as environment variables:
export SOURCE="postgres://postgres:postgres@localhost:5432/molt?sslmode=verify-full" export TARGET="postgres://root@localhost:26257/molt?sslmode=verify-full"
Afterward, to pass the environment variables in
molt fetch
commands:molt fetch \ --source $SOURCE \ --target $TARGET \ --table-filter 'employees' \ --bucket-path 's3://molt-test' \ --table-handling truncate-if-exists
Secure cloud storage
When using cloud storage for your intermediate store, ensure that access control is properly configured.
If you are using Amazon S3 for cloud storage:
Ensure that the environment variable and access tokens are set appropriately in the terminal running
molt fetch
. For example:export AWS_REGION='us-east-1' export AWS_SECRET_ACCESS_KEY='key' export AWS_ACCESS_KEY_ID='id'
Alternatively, set the
--use-implicit-auth
flag to use implicit authentication.Ensure the S3 bucket is created and accessible by CockroachDB.
If you are using Google Cloud Storage for cloud storage:
Ensure that your local environment is authenticated using Application Default Credentials:
Using
gcloud
:gcloud init gcloud auth application-default login
Using the environment variable:
export GOOGLE_APPLICATION_CREDENTIALS={path_to_cred_json}
Alternatively, set the
--use-implicit-auth
flag to use implicit authentication.Ensure the Google Cloud Storage bucket is created and accessible by CockroachDB.
Do not use public cloud storage in production.
Perform a dry run
To verify that your connections and configuration work properly, run MOLT Fetch in a staging environment before moving any data in production. Use a test or development environment that is as similar as possible to production.
Commands
Command | Usage |
---|---|
fetch |
Start the fetch task. This loads data from a source database to a target CockroachDB database. |
Subcommands
Command | Usage |
---|---|
tokens list |
List active continuation tokens. |
Flags
Global flags
Flag | Description |
---|---|
--source |
(Required) Connection string for the source database. For details, see Source and target databases. |
--target |
(Required) Connection string for the target database. For details, see Source and target databases. |
--allow-tls-mode-disable |
Allow insecure connections to databases. Secure SSL/TLS connections should be used by default. This should be enabled only if secure SSL/TLS connections to the source or target database are not possible. |
--bucket-path |
The path within the cloud storage bucket where intermediate files are written (e.g., 's3://bucket/path' or 'gs://bucket/path' ). Only the path is used; query parameters (e.g., credentials) are ignored. |
--cleanup |
Whether to delete intermediate files after moving data using cloud or local storage. Note: Cleanup does not occur on continuation. |
--compression |
Compression method for data when using IMPORT INTO (gzip /none ).Default: gzip |
--continuation-file-name |
Restart fetch at the specified filename if the task encounters an error. --fetch-id must be specified. For details, see Fetch continuation. |
--continuation-token |
Restart fetch at a specific table, using the specified continuation token, if the task encounters an error. --fetch-id must be specified. For details, see Fetch continuation. |
--crdb-pts-duration |
The duration for which each timestamp used in data export from a CockroachDB source is protected from garbage collection. This ensures that the data snapshot remains consistent. For example, if set to 24h , each timestamp is protected for 24 hours from the initiation of the export job. This duration is extended at regular intervals specified in --crdb-pts-refresh-interval .Default: 24h0m0s |
--crdb-pts-refresh-interval |
The frequency at which the protected timestamp's validity is extended. This interval maintains protection of the data snapshot until data export from a CockroachDB source is completed. For example, if set to 10m , the protected timestamp's expiration will be extended by the duration specified in --crdb-pts-duration (e.g., 24h ) every 10 minutes while export is not complete. Default: 10m0s |
--direct-copy |
Enables direct copy, which copies data directly from source to target without using an intermediate store. |
--export-concurrency |
Number of shards to export at a time, each on a dedicated thread. This only applies when exporting data from the source database, not when loading data into the target database. The number of concurrent threads is the product of --export-concurrency and --table-concurrency .This value cannot be set higher than 1 when moving data from MySQL. Refer to Best practices.Default: 4 with a PostgreSQL source; 1 with a MySQL source |
--fetch-id |
Restart fetch task corresponding to the specified ID. If --continuation-file-name or --continuation-token are not specified, fetch restarts for all failed tables. |
--flush-rows |
Number of rows before the source data is flushed to intermediate files. Note: If --flush-size is also specified, the fetch behavior is based on the flag whose criterion is met first. |
--flush-size |
Size (in bytes) before the source data is flushed to intermediate files. Note: If --flush-rows is also specified, the fetch behavior is based on the flag whose criterion is met first. |
--import-batch-size |
The number of files to be imported at a time to the target database. This applies only when using IMPORT INTO to load data into the target. Note: Increasing this value can improve the performance of full-scan queries on the target database shortly after fetch completes, but very high values are not recommended. If any individual file in the import batch fails, you must retry the entire batch.Default: 1000 |
--local-path |
The path within the local file server where intermediate files are written (e.g., data/migration/cockroach ). --local-path-listen-addr must be specified. |
--local-path-crdb-access-addr |
Address of a local file server that is publicly accessible. This flag is only necessary if CockroachDB cannot reach the local address specified with --local-path-listen-addr (e.g., when moving data to a CockroachDB Cloud deployment). --local-path and --local-path-listen-addr must be specified.Default: Value of --local-path-listen-addr . |
--local-path-listen-addr |
Write intermediate files to a local file server at the specified address (e.g., 'localhost:3000' ). --local-path must be specified. |
--log-file |
Write messages to the specified log filename. If no filename is provided, messages write to fetch-{datetime}.log . If "stdout" is provided, messages write to stdout . |
--logging |
Level at which to log messages (trace /debug /info /warn /error /fatal /panic ).Default: info |
--metrics-listen-addr |
Address of the Prometheus metrics endpoint, which has the path {address}/metrics . For details on important metrics to monitor, see Metrics.Default: '127.0.0.1:3030' |
--mode |
Configure the MOLT Fetch behavior: data-load , data-load-and-replication , replication-only , export-only , or import-only . For details, refer to Fetch mode.Default: data-load |
--non-interactive |
Run the fetch task without interactive prompts. This is recommended only when running molt fetch in an automated process (i.e., a job or continuous integration). |
--pglogical-replication-slot-drop-if-exists |
Drop the replication slot, if specified with --pglogical-replication-slot-name . Otherwise, the default replication slot is not dropped. |
--pglogical-replication-slot-name |
The name of a replication slot to create before taking a snapshot of data (e.g., 'fetch' ). Required in order to perform continuous replication from a source PostgreSQL database. |
--pglogical-replication-slot-plugin |
The output plugin used for logical replication under --pglogical-replication-slot-name .Default: pgoutput |
--pprof-listen-addr |
Address of the pprof endpoint. Default: '127.0.0.1:3031' |
--replicator-flags |
If continuous replication is enabled with --mode data-load-and-replication or --mode replication-only , specify replication flags (PostgreSQL or MySQL) to override. |
--row-batch-size |
Number of rows per shard to export at a time. See Best practices. Default: 100000 |
--schema-filter |
Move schemas that match a specified regular expression. Default: '.*' |
--table-concurrency |
Number of tables to export at a time. The number of concurrent threads is the product of --export-concurrency and --table-concurrency .This value cannot be set higher than 1 when moving data from MySQL. Refer to Best practices.Default: 4 with a PostgreSQL source; 1 with a MySQL source |
--table-exclusion-filter |
Exclude tables that match a specified POSIX regular expression. This value cannot be set to '.*' , which would cause every table to be excluded. Default: Empty string |
--table-filter |
Move tables that match a specified POSIX regular expression. Default: '.*' |
--table-handling |
How tables are initialized on the target database (none /drop-on-target-and-recreate /truncate-if-exists ). For details, see Target table handling.Default: none |
--transformations-file |
Path to a JSON file that defines transformations to be performed on the target schema during the fetch task. Refer to Transformations. |
--type-map-file |
Path to a JSON file that contains explicit type mappings for automatic schema creation, when enabled with --table-handling drop-on-target-and-recreate . For details on the JSON format and valid type mappings, see type mapping. |
--use-console-writer |
Use the console writer, which has cleaner log output but introduces more latency. Default: false (log as structured JSON) |
--use-copy |
Use COPY FROM to move data. This makes tables queryable during data load, but is slower than using IMPORT INTO . For details, refer to Data movement. |
--use-implicit-auth |
Use implicit authentication for cloud storage URIs. |
tokens list
flags
Flag | Description |
---|---|
--conn-string |
(Required) Connection string for the target database. For details, see List active continuation tokens. |
-n , --num-results |
Number of results to return. |
Usage
The following sections describe how to use the molt fetch
flags.
Source and target databases
Follow the recommendations in Connection strings.
--source
specifies the connection string of the source database.
PostgreSQL or CockroachDB:
--source 'postgresql://{username}:{password}@{host}:{port}/{database}'
MySQL:
--source 'mysql://{username}:{password}@{protocol}({host}:{port})/{database}'
--target
specifies the CockroachDB connection string:
--target 'postgresql://{username}:{password}@{host}:{port}/{database}
Fetch mode
--mode
specifies the MOLT Fetch behavior:
- Load data into CockroachDB
- Load data and replicate changes to CockroachDB
- Replicate changes to CockroachDB
- Export the data to storage
Load data
data-load
(default) instructs MOLT Fetch to load the source data into CockroachDB. It does not replicate any subsequent changes on the source.
--mode data-load
Load data and replicate changes
Before using this option, the source PostgreSQL or MySQL database must be configured for continuous replication, as described in Setup.
data-load-and-replication
instructs MOLT Fetch to load the source data into CockroachDB, and replicate any subsequent changes on the source.
--mode data-load-and-replication
If the source is a PostgreSQL database, you must also specify a replication slot name. For example, the following snippet instructs MOLT Fetch to create a slot named replication_slot
to use for replication:
--mode data-load-and-replication
--pglogical-replication-slot-name 'replication_slot'
Continuous replication begins once the initial load is complete, as indicated by a fetch complete
message in the output.
To cancel replication, enter ctrl-c
to issue a SIGTERM
signal. This returns an exit code 0
. If replication fails, a non-zero exit code is returned.
To customize the replication behavior (an advanced use case), use --replicator-flags
to specify one or more replication-specific flags (PostgreSQL or MySQL) to override.
--mode data-load-and-replication
--replicator-flags "--applyTimeout '1h' --parallelism 64"
Replicate changes
Before using this option, the source PostgreSQL or MySQL database must be configured for continuous replication, as described in Setup.
replication-only
instructs MOLT Fetch to replicate ongoing changes on the source to CockroachDB, using the specified replication marker.
For a PostgreSQL source, first create a logical replication slot. For example, to create a replication slot named
replication_slot
:SELECT * FROM pg_create_logical_replication_slot('replication_slot', 'pgoutput');
In the
molt fetch
command, specify the replication slot name using--pglogical-replication-slot-name
. For example:--mode replication-only --pglogical-replication-slot-name 'replication_slot'
For a MySQL source, first get your GTID record:
SELECT source_uuid, min(interval_start), max(interval_end) FROM mysql.gtid_executed GROUP BY source_uuid;
In the
molt fetch
command, specify a GTID set using the formatsource_uuid:min(interval_start)-max(interval_end)
. For example:--mode replication-only --replicator-flags "--defaultGTIDSet 'b7f9e0fa-2753-1e1f-5d9b-2402ac810003:3-21'"
To cancel replication, enter ctrl-c
to issue a SIGTERM
signal. This returns an exit code 0
. If replication fails, a non-zero exit code is returned.
Export data to storage
export-only
instructs MOLT Fetch to export the source data to the specified cloud storage or local file server. It does not load the data into CockroachDB.
--mode export-only
Import data from storage
import-only
instructs MOLT Fetch to load the source data in the specified cloud storage or local file server into the CockroachDB target.
--mode import-only
Data movement
MOLT Fetch can use either IMPORT INTO
or COPY FROM
to load data into CockroachDB.
By default, MOLT Fetch uses IMPORT INTO
:
IMPORT INTO
achieves the highest throughput, but requires taking the CockroachDB tables offline to achieve its import speed. Tables are taken back online once an import job completes successfully. See Best practices.IMPORT INTO
supports compression using the--compression
flag, which reduces the amount of storage used.
--use-copy
configures MOLT Fetch to use COPY FROM
:
COPY FROM
enables your tables to remain online and accessible. However, it is slower than usingIMPORT INTO
.COPY FROM
does not support compression.
COPY FROM
is also used for direct copy.
Data path
MOLT Fetch can move the source data to CockroachDB via cloud storage, a local file server, or directly without an intermediate store.
Cloud storage
Only the path specified in --bucket-path
is used. Query parameters, such as credentials, are ignored. To authenticate cloud storage, follow the steps in Secure cloud storage.
--bucket-path
instructs MOLT Fetch to write intermediate files to a path within a Google Cloud Storage or Amazon S3 bucket to which you have the necessary permissions. For example:
Google Cloud Storage:
--bucket-path 'gs://migration/data/cockroach'
Amazon S3:
--bucket-path 's3://migration/data/cockroach'
Cloud storage can be used to move data with either IMPORT INTO
or COPY FROM
.
Local file server
--local-path
instructs MOLT Fetch to write intermediate files to a path within a local file server. local-path-listen-addr
specifies the address of the local file server. For example:
--local-path /migration/data/cockroach
--local-path-listen-addr 'localhost:3000'
In some cases, CockroachDB will not be able to use the local address specified by --local-path-listen-addr
. This will depend on where CockroachDB is deployed, the runtime OS, and the source dialect.
For example, if you are migrating to CockroachDB Cloud, such that the Cloud cluster is in a different physical location than the machine running molt fetch
, then CockroachDB cannot reach an address such as localhost:3000
. In these situations, use --local-path-crdb-access-addr
to specify an address for the local file server that is publicly accessible. For example:
--local-path /migration/data/cockroach
--local-path-listen-addr 'localhost:3000'
--local-path-crdb-access-addr '44.55.66.77:3000'
A local file server can be used to move data with either IMPORT INTO
or COPY FROM
.
Cloud storage is often preferable to a local file server, which can require considerable disk space.
Direct copy
--direct-copy
specifies that MOLT Fetch should use COPY FROM
to move the source data directly to CockroachDB without an intermediate store:
Because the data is held in memory, the machine must have sufficient RAM for the data currently in flight:
average size of each row * --row-batch-size * --export-concurrency * --table-concurrency
Direct copy does not support compression or continuation.
The
--use-copy
flag is redundant with--direct-copy
.
Schema and table selection
By default, MOLT Fetch moves all data from the --source
database to CockroachDB. Use the following flags to move a subset of data.
--schema-filter
specifies a range of schema objects to move to CockroachDB, formatted as a POSIX regex string. For example, to move every table in the source database's public
schema:
--schema-filter 'public'
--table-filter
and --table-exclusion-filter
specify tables to include and exclude from the migration, respectively, formatted as POSIX regex strings. For example, to move every source table that has "user" in the table name and exclude every source table that has "temp" in the table name:
--table-filter '.*user.*' --table-exclusion-filter '.*temp.*'
Target table handling
--table-handling
defines how MOLT Fetch loads data on the CockroachDB tables that match the selection.
To load the data without changing the existing data in the tables, use none
:
--table-handling none
To truncate tables before loading the data, use truncate-if-exists
:
--table-handling truncate-if-exists
To drop existing tables and create new tables before loading the data, use drop-on-target-and-recreate
:
--table-handling drop-on-target-and-recreate
When using the drop-on-target-and-recreate
option, MOLT Fetch creates a new CockroachDB table to load the source data if one does not already exist. To guide the automatic schema creation, you can explicitly map source types to CockroachDB types.
Mismatch handling
If either none
or truncate-if-exists
is set, molt fetch
loads data into the existing tables on the target CockroachDB database. If the target schema mismatches the source schema, molt fetch
will exit early in certain cases, and will need to be re-run from the beginning.
This does not apply when drop-on-target-and-recreate
is specified, since this option automatically creates a compatible CockroachDB schema.
molt fetch
exits early in the following cases, and will output a log with a corresponding mismatch_tag
and failable_mismatch
set to true
:
- A source table is missing a primary key.
- A source and table primary key have mismatching types.
- A
STRING
primary key has a different collation on the source and target. - A source and target column have mismatching types that are not allowable mappings.
- A target table is missing a column that is in the corresponding source table.
- A source column is nullable, but the corresponding target column is not nullable (i.e., the constraint is more strict on the target).
molt fetch
can continue in the following cases, and will output a log with a corresponding mismatch_tag
and failable_mismatch
set to false
:
- A target table has a column that is not in the corresponding source table.
- A source column has a
NOT NULL
constraint, and the corresponding target column is nullable (i.e., the constraint is less strict on the target). - A
DEFAULT
,CHECK
,FOREIGN KEY
, orUNIQUE
constraint is specified on a target column and not on the source column.
Type mapping
If drop-on-target-and-recreate
is set, MOLT Fetch automatically creates a CockroachDB schema that is compatible with the source data. The column types are determined as follows:
- PostgreSQL types are mapped to existing CockroachDB types that have the same
OID
. The following MySQL types are mapped to corresponding CockroachDB types:
MySQL type CockroachDB type CHAR
,CHARACTER
,VARCHAR
,NCHAR
,NVARCHAR
VARCHAR
TINYTEXT
,TEXT
,MEDIUMTEXT
,LONGTEXT
STRING
GEOMETRY
GEOMETRY
LINESTRING
LINESTRING
POINT
POINT
POLYGON
POLYGON
MULTIPOINT
MULTIPOINT
MULTILINESTRING
MULTILINESTRING
MULTIPOLYGON
MULTIPOLYGON
GEOMETRYCOLLECTION
,GEOMCOLLECTION
GEOMETRYCOLLECTION
JSON
JSONB
TINYINT
,INT1
INT2
BLOB
BYTES
SMALLINT
,INT2
INT2
MEDIUMINT
,INT
,INTEGER
,INT4
INT4
BIGINT
,INT8
INT
FLOAT
FLOAT4
DOUBLE
FLOAT
DECIMAL
,NUMERIC
,REAL
DECIMAL
(Negative scale values are autocorrected to0
)BINARY
,VARBINARY
BYTES
DATETIME
TIMESTAMP
TIMESTAMP
TIMESTAMPTZ
TIME
TIME
BIT
VARBIT
DATE
DATE
TINYBLOB
,MEDIUMBLOB
,LONGBLOB
BYTES
BOOL
,BOOLEAN
BOOL
ENUM
ANY_ENUM
To override the default mappings for automatic schema creation, you can map source to target CockroachDB types explicitly. These are defined in the JSON file indicated by the
--type-map-file
flag. The allowable custom mappings are valid CockroachDB aliases, casts, and the following mappings specific to MOLT Fetch and Verify:
--type-map-file
specifies the path to the JSON file containing the explicit type mappings. For example:
--type-map-file 'type-mappings.json'
The following JSON example defines two type mappings:
[
{
"table": "public.t1",
"column-type-map": [
{
"column": "*",
"type-kv": {
"source-type": "int",
"crdb-type": "INT2"
}
},
{
"column": "name",
"type-kv": {
"source-type": "varbit",
"crdb-type": "string"
}
}
]
}
]
table
specifies the table that will use the custom type mappings incolumn-type-map
, written as{schema}.{table}
.column
specifies the column that will use the custom type mapping intype-kv
. If*
is specified, then all columns in thetable
with the matchingsource-type
are converted.type-kv
specifies thesource-type
that maps to the targetcrdb-type
.
Transformations
You can define transformation rules to be performed on the target schema during the fetch task. These can be used to:
- Map computed columns to a target schema.
- Map partitioned tables to a single target table.
- Rename tables on the target schema.
Transformation rules are defined in the JSON file indicated by the --transformations-file
flag. For example:
--transformations-file 'transformation-rules.json'
The following JSON example defines two transformation rules:
{
"transforms": [
{
"id": 1,
"resource_specifier": {
"schema": ".*",
"table": ".*"
},
"column_exclusion_opts": {
"add_computed_def": true,
"column": "^age$"
}
},
{
"id": 2,
"resource_specifier": {
"schema": "public",
"table": "charges_part.*"
},
"table_rename_opts": {
"value": "charges"
}
}
]
}
resource_specifier
configures the following options for transformation rules:schema
specifies the schemas to be affected by the transformation rule, formatted as a POSIX regex string.table
specifies the tables to be affected by the transformation rule, formatted as a POSIX regex string.
column_exclusion_opts
configures the following options for column exclusions and computed columns:column
specifies source columns to exclude from being mapped to regular columns on the target schema. It is formatted as a POSIX regex string.add_computed_def
, when set totrue
, specifies that each matchingcolumn
should be mapped to a computed column on the target schema. Instead of being moved from the source, the column data is generated on the target usingALTER TABLE ... ADD COLUMN
and the computed column definition from the source schema. This assumes that all matching columns are computed columns on the source.Warning:Columns that match thecolumn
regex will not be moved to CockroachDB ifadd_computed_def
is omitted or set tofalse
(default), or if a matching column is a non-computed column.
table_rename_opts
configures the following option for table renaming:value
specifies the table name to which the matchingresource_specifier
is mapped. If only one source table matchesresource_specifier
, it is renamed totable_rename_opts.value
on the target. If more than one table matchesresource_specifier
(i.e., an n-to-1 mapping), the fetch task assumes that all matching tables are partitioned tables with the same schema, and moves their data to a table namedtable_rename_opts.value
on the target. Otherwise, the task will error.Additionally, in an n-to-1 mapping situation:
- Specify
--use-copy
or--direct-copy
for data movement. This is because the data from the source tables is loaded concurrently into the target table. - Create the target table schema manually, and do not use
--table-handling drop-on-target-and-recreate
for target table handling.
- Specify
The preceding JSON example therefore defines two rules:
- Rule
1
maps all sourceage
columns on the source database to computed columns on CockroachDB. This assumes that all matchingage
columns are defined as computed columns on the source. - Rule
2
maps all table names with prefixcharges_part
from the source database to a singlecharges
table on CockroachDB (i.e., an n-to-1 mapping). This assumes that all matchingcharges_part.*
tables have the same schema.
Each rule is applied in the order it is defined. If two rules overlap, the later rule will override the earlier rule.
To verify that the logging shows that the computed columns are being created:
When running molt fetch
, set --logging debug
and look for ALTER TABLE ... ADD COLUMN
statements with the STORED
or VIRTUAL
keywords in the log output:
{"level":"debug","time":"2024-07-22T12:01:51-04:00","message":"running: ALTER TABLE IF EXISTS public.computed ADD COLUMN computed_col INT8 NOT NULL AS ((col1 + col2)) STORED"}
After running molt fetch
, issue a SHOW CREATE TABLE
statement on CockroachDB:
SHOW CREATE TABLE computed;
table_name | create_statement
-------------+-------------------------------------------------------------------
computed | CREATE TABLE public.computed (
...
| computed_col INT8 NOT NULL AS (col1 + col2) STORED
| )
Fetch continuation
If MOLT Fetch fails while loading data into CockroachDB from intermediate files, it exits with an error message, fetch ID, and continuation token for each table that failed to load on the target database. You can use this information to continue the task from the continuation point where it was interrupted. For an example, see Continue fetch after encountering an error.
Continuation is only possible under the following conditions:
- All data has been exported from the source database into intermediate files on cloud or local storage.
- The initial load of source data into the target CockroachDB database is incomplete. This means that ongoing replication of source data has not begun.
Only one fetch ID and set of continuation tokens, each token corresponding to a table, are active at any time. See List active continuation tokens.
To retry all data starting from the continuation point, reissue the molt fetch
command and include the --fetch-id
.
--fetch-id d44762e5-6f70-43f8-8e15-58b4de10a007
To retry a specific table that failed, include both --fetch-id
and --continuation-token
. The latter flag specifies a token string that corresponds to a specific table on the source database. A continuation token is written in the molt fetch
output for each failed table. If the fetch task encounters a subsequent error, it generates a new token for each failed table. See List active continuation tokens.
This will retry only the table that corresponds to the continuation token. If the fetch task succeeds, there may still be source data that is not yet loaded into CockroachDB.
--fetch-id d44762e5-6f70-43f8-8e15-58b4de10a007
--continuation-token 011762e5-6f70-43f8-8e15-58b4de10a007
To retry all data starting from a specific file, include both --fetch-id
and --continuation-file-name
. The latter flag specifies the filename of an intermediate file in cloud or local storage. All filenames are prepended with part_
and have the .csv.gz
or .csv
extension, depending on compression type (gzip by default). For example:
--fetch-id d44762e5-6f70-43f8-8e15-58b4de10a007
--continuation-file-name part_00000003.csv.gz
Continuation is not possible when using direct copy.
List active continuation tokens
To view all active continuation tokens, issue a molt fetch tokens list
command along with --conn-string
, which specifies the connection string for the target CockroachDB database. For example:
molt fetch tokens list \
--conn-string 'postgres://root@localhost:26257/defaultdb?sslmode=verify-full'
+--------------------------------------+--------------------------------------+------------------+----------------------+
| ID | FETCH ID | TABLE NAME | FILE NAME |
+--------------------------------------+--------------------------------------+------------------+----------------------+
| f6f0284c-d9c1-43c9-8fde-af609d0dbd82 | 66443597-5689-4df3-a7b9-9fc5e27180eb | public.employees | part_00000001.csv.gz |
+--------------------------------------+--------------------------------------+------------------+----------------------+
Continuation Tokens.
CDC cursor
A change data capture (CDC) cursor is written to the output as cdc_cursor
at the beginning and end of the fetch task. For example:
{"level":"info","type":"summary","fetch_id":"735a4fe0-c478-4de7-a342-cfa9738783dc","num_tables":1,"tables":["public.employees"],"cdc_cursor":"0/3F41E40","net_duration_ms":4879.890041,"net_duration":"000h 00m 04s","time":"2024-03-18T12:37:02-04:00","message":"fetch complete"}
You can use the cdc_cursor
value with an external change data capture (CDC) tool to continuously replicate subsequent changes on the source data to CockroachDB.
Metrics
By default, MOLT Fetch exports Prometheus metrics at 127.0.0.1:3030/metrics
. You can configure this endpoint with the --metrics-listen-addr
flag.
Cockroach Labs recommends monitoring the following metrics:
Metric Name | Description |
---|---|
molt_fetch_num_tables |
Number of tables that will be moved from the source. |
molt_fetch_num_task_errors |
Number of errors encountered by the fetch task. |
molt_fetch_overall_duration |
Duration (in seconds) of the fetch task. |
molt_fetch_rows_exported |
Number of rows that have been exported from a table. For example:molt_fetch_rows_exported{table="public.users"} |
molt_fetch_rows_imported |
Number of rows that have been imported from a table. For example:molt_fetch_rows_imported{table="public.users"} |
molt_fetch_table_export_duration_ms |
Duration (in milliseconds) of a table's export. For example:molt_fetch_table_export_duration_ms{table="public.users"} |
molt_fetch_table_import_duration_ms |
Duration (in milliseconds) of a table's import. For example:molt_fetch_table_import_duration_ms{table="public.users"} |
Docker usage
For details on pulling Docker images, see Docker image.
Performance
MOLT Fetch and Verify are likely to run more slowly in a Docker container than on a local machine. To improve performance, increase the memory or compute resources, or both, on your Docker container.
Authentication
When using MOLT Fetch with cloud storage, it is necessary to specify volumes and environment variables, as described in the following sections for Google Cloud Storage and Amazon S3.
No additional configuration is needed when running MOLT Fetch with a local file server or in direct copy mode:
docker run -it cockroachdb/molt fetch ...
For more information on docker run
, see the Docker documentation.
Google Cloud Storage
If you are using Google Cloud Storage for cloud storage:
Volume map the application_default_credentials.json
file into the container, and set the GOOGLE_APPLICATION_CREDENTIALS
environment variable to point to this file.
docker run \
-v ~/.config/gcloud/application_default_credentials.json:/gcp/creds.json:ro \
-e GOOGLE_APPLICATION_CREDENTIALS=/gcp/creds.json \
-it \
cockroachdb/molt fetch ...
In case the previous authentication method fails, you can volume map the entire Google Cloud configuration directory into the container. In addition to setting the GOOGLE_APPLICATION_CREDENTIALS
environment variable, set CLOUDSDK_CONFIG
to point to the configuration directory:
docker run \
-v ~/.config/gcloud:/gcp/config:ro \
-e CLOUDSDK_CONFIG=/gcp/config \
-e GOOGLE_APPLICATION_CREDENTIALS=/gcp/config/application_default_credentials.json \
-it \
cockroachdb/molt fetch ...
For details on Google Cloud Storage authentication, see Application Default Credentials.
Amazon S3
If you are using Amazon S3 for cloud storage:
Volume map the host's ~/.aws
directory to the /root/.aws
directory inside the container, and set the required AWS_REGION
, AWS_SECRET_ACCESS_KEY
, and AWS_ACCESS_KEY_ID
environment variables:
docker run \
-v ~/.aws:/root/.aws \
-e AWS_REGION=your-region \
-e AWS_SECRET_ACCESS_KEY=your-secret-access-key \
-e AWS_ACCESS_KEY_ID=your-access-key-id \
-it \
cockroachdb/molt fetch ...
Local connection strings
When testing locally, specify the host as follows:
- For macOS, use
host.docker.internal
. For example:
--source 'postgres://postgres:postgres@host.docker.internal:5432/molt?sslmode=disable'
--target "postgres://root@host.docker.internal:26257/molt?sslmode=disable"
- For Linux and Windows, use
172.17.0.1
. For example:
--source 'postgres://postgres:postgres@172.17.0.1:5432/molt?sslmode=disable'
--target "postgres://root@172.17.0.1:26257/molt?sslmode=disable"
Examples
The following examples demonstrate how to issue molt fetch
commands to load data into CockroachDB. These examples assume that secure connections to the source and target database are used.
After successfully running MOLT Fetch, you can run molt verify
to confirm that replication worked successfully without missing or mismatched rows.
Load PostgreSQL data via S3 with continuous replication
The following molt fetch
command uses IMPORT INTO
to load a subset of tables from a PostgreSQL database to CockroachDB.
molt fetch \
--source 'postgres://postgres:postgres@localhost/molt' \
--target 'postgres://root@localhost:26257/defaultdb?sslmode=verify-full' \
--table-handling 'truncate-if-exists' \
--table-filter 'employees' \
--bucket-path 's3://migration/data/cockroach' \
--cleanup \
--pglogical-replication-slot-name 'replication_slot' \
--mode data-load-and-replication
--table-handling
specifies that existing tables on CockroachDB should be truncated before the source data is loaded.--table-filter
filters for tables with theemployees
string in the name.--bucket-path
specifies a directory on an Amazon S3 bucket where intermediate files will be written.--cleanup
specifies that the intermediate files should be removed after the source data is loaded.--pglogical-replication-slot-name
specifies a replication slot name to be created on the source PostgreSQL database. This is used in continuous replication.--mode data-load-and-replication
starts continuous replication of data from the source database to CockroachDB after the fetch task succeeds.
If the fetch task succeeds, the output displays a fetch complete
message like the following:
{"level":"info","type":"summary","fetch_id":"f5cb422f-4bb4-4bbd-b2ae-08c4d00d1e7c","num_tables":1,"tables":["public.employees"],"cdc_cursor":"0/3F41E40","net_duration_ms":6752.847625,"net_duration":"000h 00m 06s","time":"2024-03-18T12:30:37-04:00","message":"fetch complete"}
If the fetch task encounters an error, it will exit and can be continued.
Continuous replication begins immediately afterward:
{"level":"info","time":"2024-05-13T14:33:07-04:00","message":"starting replicator"}
{"level":"info","time":"2024-05-13T14:36:22-04:00","message":"creating publication"}
To cancel replication, enter ctrl-c
to issue a SIGTERM
signal.
Load MySQL data via GCP with continuous replication
The following molt fetch
command uses COPY FROM
to load a subset of tables from a MySQL database to CockroachDB.
molt fetch \
--source 'mysql://root:password@localhost/molt?sslcert=.%2fsource_certs%2fclient.root.crt&sslkey=.%2fsource_certs%2fclient.root.key&sslmode=verify-full&sslrootcert=.%2fsource_certs%2fca.crt' \
--target 'postgres://root@localhost:26257/defaultdb?sslmode=verify-full' \
--table-handling 'truncate-if-exists' \
--table-filter 'employees' \
--bucket-path 'gs://migration/data/cockroach' \
--use-copy \
--cleanup \
--mode data-load-and-replication
--source
specifies the MySQL connection string and the certificates in URL-encoded format. Secure connections should be used by default. Refer to Best practices.--table-handling
specifies that existing tables on CockroachDB should be truncated before the source data is loaded.--table-filter
filters for tables with theemployees
string in the name.--bucket-path
specifies a directory on an Google Cloud Storage bucket where intermediate files will be written.--use-copy
specifies thatCOPY FROM
is used to load the tables, keeping the source tables online and queryable but loading the data more slowly thanIMPORT INTO
.--cleanup
specifies that the intermediate files should be removed after the source data is loaded.--mode data-load-and-replication
starts continuous replication of data from the source database to CockroachDB after the fetch task succeeds.
If the fetch task succeeds, the output displays a fetch complete
message like the following:
{"level":"info","type":"summary","fetch_id":"f5cb422f-4bb4-4bbd-b2ae-08c4d00d1e7c","num_tables":1,"tables":["public.employees"],"cdc_cursor":"0/3F41E40","net_duration_ms":6752.847625,"net_duration":"000h 00m 06s","time":"2024-03-18T12:30:37-04:00","message":"fetch complete"}
If the fetch task encounters an error, it will exit and can be continued.
Continuous replication begins immediately afterward:
{"level":"info","time":"2024-05-13T14:33:07-04:00","message":"starting replicator"}
To cancel replication, enter ctrl-c
to issue a SIGTERM
signal.
Load CockroachDB data via direct copy
The following molt fetch
command uses COPY FROM
to load all tables directly from one CockroachDB database to another.
molt fetch \
--source 'postgres://root@localhost:26257/defaultdb?sslmode=disable' \
--target 'postgres://root@localhost:26258/defaultdb?sslmode=disable' \
--table-handling 'none' \
--direct-copy \
--allow-tls-mode-disable
--source
specifiessslmode=disable
to establish an insecure connection. By default, insecure connections are disallowed and should be used only for testing or if a secure SSL/TLS connection to the source or target database is not possible.--table-handling
specifies that existing tables on the target CockroachDB database should not be modified before the source data is loaded.--direct-copy
specifies thatCOPY FROM
is used to load the tables directly, without creating intermediate files.--allow-tls-mode-disable
enables insecure connections to the source and target databases. Refer to Secure connections.
Continue fetch after encountering an error
If the fetch task encounters an error, it exits with an error message, fetch ID, and continuation token for each table that failed to load on the target database. You can use these values to continue the fetch task from where it was interrupted.
{"level":"info","table":"public.tbl1","file_name":"shard_01_part_00000001.csv","message":"creating or updating token for duplicate key value violates unique constraint \"tbl1_pkey\"; Key (id)=(22) already exists."}
{"level":"info","table":"public.tbl1","continuation_token":"5e7c7173-101c-4539-9b8d-28fad37d0240","message":"created continuation token"}
{"level":"info","fetch_id":"87bf8dc0-803c-4e26-89d5-3352576f92a7","message":"continue from this fetch ID"}
To retry a specific table, reissue the initial molt fetch
command and include the fetch ID and a continuation token:
You can use molt fetch tokens list
to list all active continuation tokens. Refer to List active continuation tokens.
molt fetch \
... \
--fetch-id '87bf8dc0-803c-4e26-89d5-3352576f92a7' \
--continuation-token '5e7c7173-101c-4539-9b8d-28fad37d0240'
To retry all tables that failed, exclude --continuation-token
from the command. When prompted, type y
to clear all active continuation tokens. To avoid the prompt (e.g., when running molt fetch
in a job), include the --non-interactive
flag:
molt fetch \
... \
--fetch-id '87bf8dc0-803c-4e26-89d5-3352576f92a7' \
--non-interactive