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authorMaryam Tahhan <maryam.tahhan@intel.com>2016-12-02 17:32:22 +0000
committerMaryam Tahhan <maryam.tahhan@intel.com>2016-12-05 13:17:43 +0000
commit843ea84d9da3a4a20a7ad388d94ae8c861380254 (patch)
tree47ee1849d62e4aee406abceeed7e28009ae2cdf0 /docs/userguide/keepalive.userguide.rst
parent791bf2a756c8d4e7e7b2937481ee2d8d5d95fb97 (diff)
src: build all dependencies and plugins
Build all dependencies and plugins. Provide sample plugin configurations and update user guide. Change-Id: I5170c84529e514e12bb1bd4dc34ecdd93eb764d7 Signed-off-by: Maryam Tahhan <maryam.tahhan@intel.com>
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-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. (c) OPNFV, Intel Corporation and others.
-
-DPDK Keep Alive description
-===========================
-SFQM aims to enable fault detection within DPDK, the very first feature to
-meet this goal is the DPDK Keep Alive Sample app that is part of DPDK 2.2.
-
-DPDK Keep Alive or KA is a sample application that acts as a heartbeat/watchdog
-for DPDK packet processing cores, to detect application thread failure. The
-application supports the detection of ‘failed’ DPDK cores and notification to a
-HA/SA middleware. The purpose is to detect Packet Processing Core fails (e.g.
-infinite loop) and ensure the failure of the core does not result in a fault
-that is not detectable by a management entity.
-
-.. Figure:: dpdk_ka.png
-
- DPDK Keep Alive Sample Application
-
-Essentially the app demonstrates how to detect 'silent outages' on DPDK packet
-processing cores. The application can be decomposed into two specific parts:
-detection and notification.
-
-* The detection period is programmable/configurable but defaults to 5ms if no
- timeout is specified.
-* The Notification support is enabled by simply having a hook function that where this
- can be 'call back support' for a fault management application with a compliant
- heartbeat mechanism.
-
-DPDK Keep Alive Sample App Internals
-------------------------------------
-This section provides some explanation of the The Keep-Alive/'Liveliness'
-conceptual scheme as well as the DPDK Keep Alive App. The initialization and
-run-time paths are very similar to those of the L2 forwarding application (see
-`L2 Forwarding Sample Application (in Real and Virtualized Environments)`_ for more
-information).
-
-There are two types of cores: a Keep Alive Monitor Agent Core (master DPDK core)
-and Worker cores (Tx/Rx/Forwarding cores). The Keep Alive Monitor Agent Core
-will supervise worker cores and report any failure (2 successive missed pings).
-The Keep-Alive/'Liveliness' conceptual scheme is:
-
-* DPDK worker cores mark their liveliness as they forward traffic.
-* A Keep Alive Monitor Agent Core runs a function every N Milliseconds to
- inspect worker core liveliness.
-* If keep-alive agent detects time-outs, it notifies the fault management
- entity through a call-back function.
-
-**Note:** Only the worker cores state is monitored. There is no mechanism or agent
-to monitor the Keep Alive Monitor Agent Core.
-
-DPDK Keep Alive Sample App Code Internals
------------------------------------------
-The following section provides some explanation of the code aspects that are
-specific to the Keep Alive sample application.
-
-The heartbeat functionality is initialized with a struct rte_heartbeat and the
-callback function to invoke in the case of a timeout.
-
-.. code:: c
-
- rte_global_keepalive_info = rte_keepalive_create(&dead_core, NULL);
- if (rte_global_hbeat_info == NULL)
- rte_exit(EXIT_FAILURE, "keepalive_create() failed");
-
-The function that issues the pings hbeat_dispatch_pings() is configured to run
-every check_period milliseconds.
-
-.. code:: c
-
- if (rte_timer_reset(&hb_timer,
- (check_period * rte_get_timer_hz()) / 1000,
- PERIODICAL,
- rte_lcore_id(),
- &hbeat_dispatch_pings, rte_global_keepalive_info
- ) != 0 )
- rte_exit(EXIT_FAILURE, "Keepalive setup failure.\n");
-
-The rest of the initialization and run-time path follows the same paths as the
-the L2 forwarding application. The only addition to the main processing loop is
-the mark alive functionality and the example random failures.
-
-.. code:: c
-
- rte_keepalive_mark_alive(&rte_global_hbeat_info);
- cur_tsc = rte_rdtsc();
-
- /* Die randomly within 7 secs for demo purposes.. */
- if (cur_tsc - tsc_initial > tsc_lifetime)
- break;
-
-The rte_keepalive_mark_alive() function simply sets the core state to alive.
-
-.. code:: c
-
- static inline void
- rte_keepalive_mark_alive(struct rte_heartbeat *keepcfg)
- {
- keepcfg->state_flags[rte_lcore_id()] = 1;
- }
-
-Keep Alive Monitor Agent Core Monitoring Options
-The application can run on either a host or a guest. As such there are a number
-of options for monitoring the Keep Alive Monitor Agent Core through a Local
-Agent on the compute node:
-
- ====================== ========== =============
- Application Location DPDK KA LOCAL AGENT
- ====================== ========== =============
- HOST X HOST/GUEST
- GUEST X HOST/GUEST
- ====================== ========== =============
-
-
-For the first implementation of a Local Agent SFQM will enable:
-
- ====================== ========== =============
- Application Location DPDK KA LOCAL AGENT
- ====================== ========== =============
- HOST X HOST
- ====================== ========== =============
-
-Through extending the dpdkstat plugin for collectd with KA functionality, and
-integrating the extended plugin with Monasca for high performing, resilient,
-and scalable fault detection.
-
-.. _L2 Forwarding Sample Application (in Real and Virtualized Environments): http://dpdk.org/doc/guides/sample_app_ug/l2_forward_real_virtual.html