Detecting a Failed Segment

With mirroring enabled, Greenplum Database automatically fails over to a mirror segment when a primary segment goes down. Provided one segment instance is online per portion of data, users may not realize a segment is down. If a transaction is in progress when a fault occurs, the in-progress transaction rolls back and restarts automatically on the reconfigured set of segments.

If the entire Greenplum Database system becomes nonoperational due to a segment failure (for example, if mirroring is not enabled or not enough segments are online to access all user data), users will see errors when trying to connect to a database. The errors returned to the client program may indicate the failure. For example:

  1. ERROR: All segment databases are unavailable

How Segment Failure is Detected and Managed

On the Greenplum Database master host, the Postgres postmaster process forks a fault probe process, ftsprobe. This is sometimes called the FTS (Fault Tolerance Server) process. The postmaster process restarts the FTS if it fails.

The FTS runs in a loop with a sleep interval between each cycle. On each loop, the FTS probes each primary segment database by making a TCP socket connection to the segment database using the hostname and port registered in the gp_segment_configuration table. If the connection succeeds, the segment performs a few simple checks and reports back to the FTS. The checks include executing a stat system call on critical segment directories and checking for internal faults in the segment instance. If no issues are detected, a positive reply is sent to the FTS and no action is taken for that segment database.

If the connection cannot be made, or if a reply is not received in the timeout period, then a retry is attempted for the segment database. If the configured maximum number of probe attempts fail, the FTS probes the segment’s mirror to ensure that it is up, and then updates the gp_segment_configuration table, marking the primary segment “down” and setting the mirror to act as the primary. The FTS updates the gp_configuration_history table with the operations performed.

When there is only an active primary segment and the corresponding mirror is down, the primary goes into “Change Tracking Mode.” In this mode, changes to the segment are recorded, so the mirror can be synchronized without performing a full copy of data from the primary to the mirror.

The gprecoverseg utility is used to bring up a mirror that is down. By default, gprecoverseg performs an incremental recovery, placing the mirror into resync mode, which starts to replay the recorded changes from the primary onto the mirror. If the incremental recovery cannot be completed, the recovery fails and gprecoverseg should be run again with the -F option, to perform full recovery. This causes the primary to copy all of the data to the mirror.

You can see the mode—“change tracking”, “resync”, or “in-sync”—for each segment, as well as the status “up” or “down”, in the gp_segment_configuration table.

The gp_segment_configuration table also has columns role and preferred_role. These can have values of either p for primary or m for mirror. The role column shows the segment database’s current role and the preferred_role shows the original role of the segment. In a balanced system the role and preferred_role matches for all segments. When they do not match, there may be skew resulting from the number of active primary segments on each hardware host. To rebalance the cluster and bring all the segments into their preferred role, the gprecoverseg command can be run with the -r option.

There is a set of server configuration parameters that affect FTS behavior:

gp_fts_probe_threadcount

The number of threads used for probing segments. Default: 16

gp_fts_probe_interval

How often, in seconds, to begin a new FTS loop. For example if the setting is 60 and the probe loop takes 10 seconds, the FTS process sleeps 50 seconds. If the setting is 60 and probe loop takes 75 seconds, the process sleeps 0 seconds. The default is 60, and the maximum is 3600.

gp_fts_probe_timeout

Probe timeout between master and segment, in seconds. The default is 20, and the maximum is 3600.

gp_fts_probe_retries

The number of attempts to probe a segment. For example if the setting is 5 there will be 4 retries after the first attempt fails. Default: 5

gp_log_fts

Logging level for FTS. The value may be “off”, “terse”, “verbose”, or “debug”. The “verbose” setting can be used in production to provide useful data for troubleshooting. The “debug” setting should not be used in production. Default: “terse”

gp_segment_connect_timeout

The maximum time (in seconds) allowed for a mirror to respond. Default: 180

In addition to the fault checking performed by the FTS, a primary segment that is unable to send data to its mirror can change the status of the mirror to down. The primary queues up the data and after gp_segment_connect_timeout seconds passes, indicates a mirror failure, causing the mirror to be marked down and the primary to go into change tracking mode.

Parent topic: Enabling High Availability and Data Consistency Features