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getopt_long(). This is more or less the same problem as we saw earlier with getaddrinfo() and struct addrinfo, and for the same reason: random user-added libraries might contain the subroutine, but there's no guarantee we will find the matching header files. |
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pg_autovacuum.c | ||
pg_autovacuum.h | ||
README.pg_autovacuum | ||
TODO |
pg_autovacuum README -------------------- pg_autovacuum is a libpq client program that monitors all the databases associated with a postgresql server. It uses the stats collector to monitor insert, update and delete activity. When a table exceeds its insert or delete threshold (more detail on thresholds below) then that table will be vacuumed or analyzed. This allows postgresql to keep the fsm and table statistics up to date, and eliminates the need to schedule periodic vacuums. The primary benefit of pg_autovacuum is that the FSM and table statistic information are updated as needed. When a table is actively changing, pg_autovacuum will perform the necessary vacuums and analyzes, whereas if a table remains static, no cycles will be wasted performing unnecessary vacuums/analyzes. A secondary benefit of pg_autovacuum is that it ensures that a database wide vacuum is performed prior to xid wraparound. This is an important, if rare, problem, as failing to do so can result in major data loss. KNOWN ISSUES: ------------- pg_autovacuum has been tested under Redhat Linux (by me) and Solaris (by Christopher B. Browne) and all known bugs have been resolved. Please report any problems to the hackers list. pg_autovacuum does not get started automatically by either the postmaster or by pg_ctl. Along the sames lines, when the postmaster exits no one tells pg_autovacuum. The result is that at the start of the next loop, pg_autovacuum fails to connect to the server and exits. Any time it fails to connect pg_autovacuum exits. pg_autovacuum requires that the stats system be enabled and reporting row level stats. The overhead of the stats system has been shown to be significant under certain workloads. For instance a tight loop of queries performing "select 1" was nearly 30% slower with stats enabled. However, in practice with more realistic workloads, the stats system overhead is usually nominal. INSTALL: -------- As of postgresql v7.4 pg_autovacuum is included in the main source tree under contrib. Therefore you just make && make install (similar to most other contrib modules) and it will be installed for you. If you are using an earlier version of postgresql just uncompress the tar.gz into the contrib directory and modify the contrib/Makefile to include the pg_autovacuum directory. pg_autovacuum will then be made as part of the standard postgresql install. make sure that the folowing are set in postgresql.conf stats_start_collector = true stats_row_level = true start up the postmaster, then execute the pg_autovacuum executable. Command line arguments: ----------------------- pg_autovacuum has the following optional arguments: -d debug: 0 silent, 1 basic info, 2 more debug info, etc... -D dameonize: Detach from tty and run in background. -s sleep base value: see "Sleeping" below. -S sleep scaling factor: see "Sleeping" below. -v vacuum base threshold: see Vacuum and Analyze. -V vacuum scaling factor: see Vacuum and Analyze. -a analyze base threshold: see Vacuum and Analyze. -A analyze scaling factor: see Vacuum and Analyze. -L log file: Name of file to which output is submitted, otherwise STDERR -U username: Username pg_autovacuum will use to connect with, if not specified the current username is used. -P password: Password pg_autovacuum will use to connect with. -H host: host name or IP to connect too. -p port: port used for connection. -h help: list of command line options. All arguments have default values defined in pg_autovacuum.h. At the time of writing they are: -d 1 -v 1000 -V 2 -a 500 (half of -v is not specified) -A 1 (half of -v is not specified) -s 300 (5 minutes) -S 2 Vacuum and Analyze: ------------------- pg_autovacuum performs either a vacuum analyze or just analyze depending on the quantity and type of table activity (insert, update, or delete): - If the number of (inserts + updates + deletes) > AnalyzeThreshold, then only an analyze is performed. - If the number of (deletes + updates ) > VacuumThreshold, then a vacuum analyze is performed. deleteThreshold is equal to: vacuum_base_value + (vacuum_scaling_factor * "number of tuples in the table") insertThreshold is equal to: analyze_base_value + (analyze_scaling_factor * "number of tuples in the table") The AnalyzeThreshold defaults to half of the VacuumThreshold since it represents a much less expensive operation (approx 5%-10% of vacuum), and running it more often should not substantially degrade system performance. Sleeping: --------- pg_autovacuum sleeps for a while after it is done checking all the databases. It does this in order to limit the amount of system resources it consumes. This also allows the system administrator to configure pg_autovacuum to be more or less aggressive. Reducing the sleep time will cause pg_autovacuum to respond more quickly to changes, whether they be database addition/removal, table addition/removal, or just normal table activity. On the other hand, setting pg_autovaccum to sleep values to agressivly (for too short a period of time) can have a negative effect on server performance. If a table gets vacuumed 5 times during the course of a large update, this is likely to take much longer than if the table was vacuumed only once, at the end. The total time it sleeps is equal to: base_sleep_value + sleep_scaling_factor * "duration of the previous loop" Note that timing measurements are made in seconds; specifying "pg_vacuum -s 1" means pg_autovacuum could poll the database upto 60 times minute. In a system with large tables where vacuums may run for several minutes, longer times between vacuums are likely to be appropriate. What pg_autovacuum monitors: ---------------------------- pg_autovacuum dynamically generates a list of all databases and tables that exist on the server. It will dynamically add and remove databases and tables that are removed from the database server while pg_autovacuum is running. Overhead is fairly small per object. For example: 10 databases with 10 tables each appears to less than 10k of memory on my Linux box.