How do I build lustre on centos 7.x?
Refer to Walk-thru- Build Lustre MASTER on RHEL 7.3/CentOS 7.3 from Intel Git
Also refer to Building Lustre/LNet Centos/RHEL 7.x for some quirks when building.
How can I load LNet
Load the module
modprbe lnet
if using standard /etc/modprob.d/lustre.conf for module parameters, then:
# load all the module parameters lnetctl lnet configure --all
if dynamically configuring then
# don't configure via module parameters lnetctl lnet configure
How can I configure networks dynamically?
Ensure that you have loaded the lnet module and configured it as shown above
lnetctl net add --net <net-name> --if <interface name> # Examples lnetctl net add --net o2ib --if ib0 lnetctl net add --net tcp --if eth0
How can I configure different tunables per network interface?
Sometimes nodes can have different types of interfaces, for example, MLX and OPA. It is desired to configure both of those with different tunables. To do that, we must use the YAML configuration.
Assuming a node with two interfaces one OPA and one MLX. Configure MLX on o2ib and OPA on 2ib1
#> cat networkConfig.yaml
net:
- net type: o2ib
local NI(s):
- interfaces:
0: ib0
tunables:
peer_timeout: 180
peer_credits: 8
peer_buffer_credits: 0
credits: 256
lnd tunables:
peercredits_hiw: 4
map_on_demand: 0
concurrent_sends: 8
fmr_pool_size: 512
fmr_flush_trigger: 384
fmr_cache: 1
conns_per_peer: 1
- net type: o2ib1
local NI(s):
- interfaces:
0: ib2
tunables:
peer_timeout: 180
peer_credits: 128
peer_buffer_credits: 0
credits: 1024
lnd tunables:
peercredits_hiw: 4
map_on_demand: 32
concurrent_sends: 256
fmr_pool_size: 2048
fmr_flush_trigger: 512
fmr_cache: 1
conns_per_peer: 4
ntx: 2048
#> lnetctl import < networkConfig.yaml
How can I configure routing?
An LNet router routes LNet messages from one LNet network to another. For example from o2ib1 to tcp2 or from o2ib1 to o2ib2. This is especially useful when you have a cluster with nodes divided on different types of fabric, like OPA and MLX.
- Configure LNet and its interfaces as shown above
- Configure a router
# enable routing lnetctl set routing 1
- Configure route entries on each of the nodes
lnetctl route add --net <destination net> --gateway <gateway nid> #Examples lnetctl route add --net o2ib1 --gateway 10.10.10.2@o2ib # The above says: # any messages destined to o2ib1 should be forwarded to 10.10.10.2@o2ib # o2ib has to be a reachable network lnetctl route add --net tcp --gateway 10.10.10.3@2o2ib --hop 2 --priority 1 # If there are multiple routes sometimes it's useful to define the priority between these routes # hop should define the number of hops to the gateway. # Unfortunately, due to legacy reasons hop and priority perform the same function # it would have been better to only have one to reduce confusion. # routes with less number of hops or with higher priority are selected first # if routes have the same number of hops and priority they are visited in round-robin.
What tunables impact routing?
A router can be configured with a set number of buffers. These buffers are used to receive messages to be forwarded
There are three categories of buffers:
- Tiny buffers, which have no pages for 0 payload messages
- Small buffers, which consist of 1 PAGE
- Large buffers, which consist of 256 PAGEs
The number of buffers allocated can be controlled by the following module parameters.
tiny_router_buffers # 512 min for each CPT small_router_buffers # 4096 min for each CPT large_router_buffers # 256 min for each CPT
They can also dynamically change them via lnetctl. Note that the values you enter are divided among the CPTs configured. The minimum value restriction is enforced per CPT.
lnetctl set tiny_buffers <value> lnetctl set small_buffers <value> lnetctl set large_buffers <value>
They can also be set via YAML config:
buffers:
tiny: <value>
small: <value>
large: <value>
Other parameters of interest
check_routers_before_use # Assume routers are down and ping them before use. Defaults to disabled. avoid_asym_router_failure # Avoid asymmetrical router failures (0 to disable). Defaults to enabled dead_router_check_interval # Seconds between dead router health checks (<= 0 to disable). Defaults to 60 seconds live_router_check_interval # Seconds between live router health checks (<= 0 to disable). Defaults to 60 seconds router_ping_timeout # Seconds to wait for the reply to a router health query. Defaults to 50 seconds
What is a router pinger?
Whenever a route entry is configured on a node, the gateway specified is added to a list. The router pinger is a thread that periodically pings the gateways to ensure that they are up. The gateway entries are segregated into two different categories, live gateways and dead gateways. dead_router_check_interval is the time interval used to ping the dead gateways, while live_router_check_interval is the time interval used to ping the live routers.
The router pinger thread wakes up every second in the following cases:
- The node is a router
- There are gateways configured and either the live or dead check intervals are configured.
The pinger waits for router_ping_timeout for the gateway to respond to a ping health check.
What is LNet Multi-Rail?
LNet Multi-Rail allows multiple interfaces to be used for sending LNet messages. This feature boosts performance. A follow up feature, LNet Resiliency, currently being worked on is aimed at increasing resiliency.
Refer to: http://wiki.lustre.org/Multi-Rail_LNet for the Requirements, HLD and LUG presentations.
How can I configure multiple network interfaces per network?
Via command line:
lnetctl net add --net <network> --if <list of comma separated interfaces> # Example lnetctl net add --net o2ib --if ib0,ib1
From YAML configuration. The values of the tunabes can be changed to whatever value desired.
net:
- net type: o2ib
local NI(s):
- interfaces:
0: ib0
tunables:
peer_timeout: 180
peer_credits: 8
peer_buffer_credits: 0
credits: 256
lnd tunables:
peercredits_hiw: 4
map_on_demand: 0
concurrent_sends: 8
fmr_pool_size: 512
fmr_flush_trigger: 384
fmr_cache: 1
conns_per_peer: 1
- interfaces:
0: ib1
tunables:
peer_timeout: 180
peer_credits: 8
peer_buffer_credits: 0
credits: 256
lnd tunables:
peercredits_hiw: 4
map_on_demand: 0
concurrent_sends: 8
fmr_pool_size: 512
fmr_flush_trigger: 384
fmr_cache: 1
conns_per_peer: 1
How can I statically configure Multi-Rail?
There are two steps to configuring multi-rail:
- Configuring the local network interfaces as shown above
- Configuring the Multi-rail enabled peers.
The first step ensures that the local node knows the different interfaces it can send messages over. The second steps tell the local node which peers are multi-rail enabled and which interfaces of these peers to use.
For more information on exact configuration examples, refer to: https://build.hpdd.intel.com/job/lustre-manual/lastSuccessfulBuild/artifact/lustre_manual.xhtml#lnetmr
How can I dynamically configure Multi-Rail?
Configuring the peers manually is error prone process. It's best if a node is able to discover its peers dynamically. The Dynamic Discovery feature allows a node to discover the interfaces of its peers the first time it communicates with it.
Whenever the local interface list change an update is sent to all connected peers.
This feature reduces the configuration burden to only configuring the local interfaces of the node.
For more information on the feature refer to the HLD: http://wiki.lustre.org/images/b/bb/Multi-Rail_High-Level_Design_20150119.pdf. Dynamic Behavior section.
Are there any specific consideration when configuring linux routing for LNet Multi-Rail node?
Refer to: MR Cluster Setup
Are there any specific routing consideration with Multi-Rail?
Refer to: Multi-Rail (MR) Routing
How can I test LNet performance?
lnet_selftest is available for performance testing. Refer to: https://build.hpdd.intel.com/job/lustre-manual/lastSuccessfulBuild/artifact/lustre_manual.xhtml#lnetselftest
For a sample lnet_selftest script: self-test template script
What's the best OPA LND tunables to use?
net:
- net type: o2ib1
local NI(s):
- interfaces:
0: ib2
tunables:
peer_timeout: 180
peer_credits: 128
peer_buffer_credits: 0
credits: 1024
lnd tunables:
peercredits_hiw: 4
map_on_demand: 32
concurrent_sends: 256
fmr_pool_size: 2048
fmr_flush_trigger: 512
fmr_cache: 1
conns_per_peer: 4
ntx: 2048
What's the best HFI tunables to use with Luster?
options hfi1 krcvqs=8 piothreshold=0 sge_copy_mode=2 wss_threshold=70
Can you tell me more about how to configure LNet and QoS?
Refer to: Lustre QoS