forked from troglobit/pimd
This is the original USC pimd, revived at github to serve as a central point of collaboration for all in need of a small and efficient PIM-SM implementation. Thanks to OpenBSD pimd is now free software under the 3-clause BSD license!
License
Unknown, Unknown licenses found
Licenses found
Unknown
LICENSE
Unknown
LICENSE.mrouted
tzuryby/pimd
This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.
Folders and files
| Name | Name | Last commit message | Last commit date | |
|---|---|---|---|---|
Repository files navigation
README for pimd, the PIM-SM v2 multicast daemon =============================================== This is pimd, a lightweight, stand-alone implementation of Protocol Independent Multicast-Sparse Mode that may be freely distributed and/or deployed under the BSD license. The project implements the full PIM-SM specification according to RFC 2362 with a few noted exceptions (see the RELEASE.NOTES for details). The software should compile and run on most UNIX varieties, including FreeBSD, BSDi, NetBSD, OpenBSD, SunOS, IRIX, Solaris 2.5, Solaris 2.6, and GNU/Linux. It has, however, not been thoroughly tested on all these. If you have any questions, suggestions, bug reports, patches, or pull requests, please do NOT send them to the PIM IETF Working Group mailing list! Instead, contact the current maintainer, see the file AUTHORS, or use the github issue tracker at: http://github.com/troglobit/pimd/issues The following helpful text is a rip-off from the book Linux Routing. See http://linux-networks.net/New.Riders-Linux.Routing/tindex.htm for more. Configuring pimd ---------------- Since pimd is a single-function daemon, the configuration is really not that complex -- at least when compared to a monster tool such as gated. The configuration data is kept in the file /etc/pimd.conf. While the order of the statements does not have to strictly follow what is about to be presented, I'll walk you through the contents you might want to add to this file. The /etc/pimd.conf file begins with the following statement: default_source_preference value Routers hold elections to determine which gets to be a site's upstream router. Because pimd is such a focused tool, you generally don't want it to win over something more general. Using a value of 101 here is a minimum for making sure that gated and other routing tools are going to win the election and leave pimd to do its PIM-SM handling. The next line is: default_source_metric value This item sets the cost for sending data through this router. You want only PIM-SM data to go to this daemon; so once again, a high value is recommended to prevent accidental usage. The preferred default value is 1024. Though you can swap the first two statements around, you must have the next statement after you set default_source_metric. This item starts with: phyint interface phyint refers to physical interface. You fill in interface with a reference to the ethernet card or other network interface you're telling pimd about, either with the device's IP address or name (for example, eth0). If you just want to activate this interface with default values, you don't need to put anything else on the line. However, you do have some additional items you can add. The items are, in the order you would need to use them, as follows: * _disable_. Do not send PIM-SM traffic through this interface nor listen for PIM-SM traffic from this interface. * preference pref. This interface's value in an election. It will have the default_source_preference if not assigned. * metric cost. The cost of sending data through this interface. It will have the default_source_metric if not assigned. Add one phyint line per interface on this router. If you don't do this, pimd will simply assume that you want it to utilize all interfaces on the machine with the default values. If you set phyint for one or more interfaces but not for all, the missing ones will be assigned the defaults. After you have done this, start the next line with: cand_rp cand_rp refers to Candidate Rendezvous Point (CRP). This statement specifies which interface on this machine should be included in RP elections. Additional options to choose from are, listed in the order used, as follows: * ipadd. The default is the largest activated IP address. If you don't want to utilize that interface, add the IP address of the interface to use as the next term. * time value. The number of seconds to wait between advertising this CRP. The default value is 60 seconds. * priority num. How important this CRP is compared to others. The lower the value here, the more important the CRP. The next line begins with: cand_bootstrap_router Here you give the information for how this machine advertises itself as a Candidate BootStrap Router (CBSR). If you need to, add the ipaddr and/or priority items as defined earlier after cand_bootstrap_router. What follows is a series of statements that start with: group_prefix Each group_prefix statement outlines the set of multicast addresses that CRP, if it wins an election, will advertise to other routers. The two items you might include here are, listed in order, as follows: * groupaddr. A specific IP or network range this router will handle. Remember that a single multicast network is written as a single IP address. * masklen len. The number of IP address segments taken up by the netmask. Remember that a multicast address is a Class D and has a netmask of 255.255.255.255, which means its length is 4. Max group_prefix multicast addresses supported in pimd is 255. After this comes: switch_data_threshold rate rvalue interval ivalue This statement defines the threshold at which transmission rates trigger the changeover from the shared tree to the RP tree; starting the line with switch_register_threshold does the opposite in the same format. (See Chapter 2, "Multicast Protocols," for more details on the two PIM-SM trees.) Regardless of which of these you choose, the rvalue stands for the transmission rate in bits per second, and ivalue sets how often to sample the rate in seconds -- with a recommended minimum of five seconds. It's recommended by the pimd programmers to have ivalue the same in both statements. For example, I might end up with the following (these are real IP addresses; don't use them for actual testing purposes): default_source_preference 105 phyint 199.60.103.90 disable phyint 199.60.103.91 preference 1029 phyint 199.60.103.92 preference 1024 cand_rp 199.60.103.91 cand_bootstrap_router 199.60.103.92 group_prefix 199.60.103.0 masklen 4 switch_data_threshold rate 60000 interval 10 switch_register_threshold rate 60000 interval 10 Running pimd ------------ After you've set up the configuration file, you're ready to actually run the PIM-SM daemon, pimd. As usual, we tend to recommend that you run this by hand for testing purposes and then later add the daemon, with any startup flags it needs, to your system's startup scripts. The format for running this daemon is: pimd -c file -d level1,...,levelN Both of the flags with their values are optional: * -c file. Utilize the specified configuration file rather than the default, /etc/pimd.conf. * -d level1,...,levelN. Specifies the debug level(s) to utilize when running this daemon. Type pimd -h for a full list of these levels.
About
This is the original USC pimd, revived at github to serve as a central point of collaboration for all in need of a small and efficient PIM-SM implementation. Thanks to OpenBSD pimd is now free software under the 3-clause BSD license!
Resources
License
Unknown, Unknown licenses found
Licenses found
Unknown
LICENSE
Unknown
LICENSE.mrouted
Stars
Watchers
Forks
Packages 0
No packages published