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* '''aggressive parallelization capabilities using socket''': to speed up the entire boot and start more processes in parallel, systemd creates the listening sockets before actually starting the daemon, and then just passes the socket to it. All sockets for all daemons are created in one step in the init system, and then in a second step run all daemons at once. If a service needs another, and it is not fully started up, what will happen is that the connection is queued in the providing service and the client will potentially block on that single request. But only that one client will block and only on that one request. Also, dependencies between services no longer have to be configured to allow proper parallelized start-up: starting all sockets at once and a service needing another, it surely can connect to its socket.
 
* '''aggressive parallelization capabilities using socket''': to speed up the entire boot and start more processes in parallel, systemd creates the listening sockets before actually starting the daemon, and then just passes the socket to it. All sockets for all daemons are created in one step in the init system, and then in a second step run all daemons at once. If a service needs another, and it is not fully started up, what will happen is that the connection is queued in the providing service and the client will potentially block on that single request. But only that one client will block and only on that one request. Also, dependencies between services no longer have to be configured to allow proper parallelized start-up: starting all sockets at once and a service needing another, it surely can connect to its socket.
  
* D-Bus activation for starting services  
+
* '''D-Bus activation for starting services''': using bus activation, a service can be started the first time it is accessed. Bus activation also gives the minimal per-request synchronisation needed for starting up the providers and the consumers of D-Bus services at the same time: starting a service at the same time as another, if one is quicker, than via the bus activation logic we can get D-Bus to queue the request until the otehr manages to establish its service name.
 +
 
* offers on-demand starting of daemons
 
* offers on-demand starting of daemons
 
* keeps track of processes using Linux cgroups  
 
* keeps track of processes using Linux cgroups  

Revision as of 17:42, 31 January 2011

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Contents

systemd

systemd is the new system and service manager for Fedora 15. It provides:

  • aggressive parallelization capabilities using socket: to speed up the entire boot and start more processes in parallel, systemd creates the listening sockets before actually starting the daemon, and then just passes the socket to it. All sockets for all daemons are created in one step in the init system, and then in a second step run all daemons at once. If a service needs another, and it is not fully started up, what will happen is that the connection is queued in the providing service and the client will potentially block on that single request. But only that one client will block and only on that one request. Also, dependencies between services no longer have to be configured to allow proper parallelized start-up: starting all sockets at once and a service needing another, it surely can connect to its socket.
  • D-Bus activation for starting services: using bus activation, a service can be started the first time it is accessed. Bus activation also gives the minimal per-request synchronisation needed for starting up the providers and the consumers of D-Bus services at the same time: starting a service at the same time as another, if one is quicker, than via the bus activation logic we can get D-Bus to queue the request until the otehr manages to establish its service name.
  • offers on-demand starting of daemons
  • keeps track of processes using Linux cgroups
  • supports snapshotting and restoring of the system state
  • maintains mount and automount points
  • implements an elaborate transactional dependency-based service control logic.


It can work as a drop-in replacement for sysvinit.

It is implemented around the notion of units. Units have a name and a type, whose configuration is in a file with the same name. There are several kinds of units: service, socket, device, others.


Why systemd?

Its Features

Its Benefits