# Copyright (C) The Arvados Authors. All rights reserved. # # SPDX-License-Identifier: AGPL-3.0 # EC2 configuration for Arvados Node Manager. # All times are in seconds unless specified otherwise. [Manage] # The management server responds to http://addr:port/status.json with # a snapshot of internal state. # Management server listening address (default 127.0.0.1) #address = 0.0.0.0 # Management server port number (default -1, server is disabled) #port = 8989 [Daemon] # The dispatcher can customize the start and stop procedure for # cloud nodes. For example, the SLURM dispatcher drains nodes # through SLURM before shutting them down. #dispatcher = slurm # Node Manager will ensure that there are at least this many nodes running at # all times. If node manager needs to start new idle nodes for the purpose of # satisfying min_nodes, it will use the cheapest node type. However, depending # on usage patterns, it may also satisfy min_nodes by keeping alive some # more-expensive nodes min_nodes = 0 # Node Manager will not start any compute nodes when at least this # many are running. max_nodes = 8 # Upper limit on rate of spending (in $/hr), will not boot additional nodes # if total price of already running nodes meets or exceeds this threshold. # default 0 means no limit. max_total_price = 0 # Poll EC2 nodes and Arvados for new information every N seconds. poll_time = 60 # Polls have exponential backoff when services fail to respond. # This is the longest time to wait between polls. max_poll_time = 300 # If Node Manager can't succesfully poll a service for this long, # it will never start or stop compute nodes, on the assumption that its # information is too outdated. poll_stale_after = 600 # If Node Manager boots a cloud node, and it does not pair with an Arvados # node before this long, assume that there was a cloud bootstrap failure and # shut it down. Note that normal shutdown windows apply (see the Cloud # section), so this should be shorter than the first shutdown window value. boot_fail_after = 1800 # "Node stale time" affects two related behaviors. # 1. If a compute node has been running for at least this long, but it # isn't paired with an Arvados node, do not shut it down, but leave it alone. # This prevents the node manager from shutting down a node that might # actually be doing work, but is having temporary trouble contacting the # API server. # 2. When the Node Manager starts a new compute node, it will try to reuse # an Arvados node that hasn't been updated for this long. node_stale_after = 14400 # Scaling factor to be applied to nodes' available RAM size. Usually there's a # variable discrepancy between the advertised RAM value on cloud nodes and the # actual amount available. # If not set, this value will be set to 0.95 node_mem_scaling = 0.95 # File path for Certificate Authorities certs_file = /etc/ssl/certs/ca-certificates.crt [Logging] # Log file path file = /var/log/arvados/node-manager.log # Log level for most Node Manager messages. # Choose one of DEBUG, INFO, WARNING, ERROR, or CRITICAL. # WARNING lets you know when polling a service fails. # INFO additionally lets you know when a compute node is started or stopped. level = INFO # You can also set different log levels for specific libraries. # Pykka is the Node Manager's actor library. # Setting this to DEBUG will display tracebacks for uncaught # exceptions in the actors, but it's also very chatty. pykka = WARNING # Setting apiclient to INFO will log the URL of every Arvados API request. apiclient = WARNING [Arvados] host = zyxwv.arvadosapi.com token = ARVADOS_TOKEN timeout = 15 jobs_queue = yes # Get work request from Arvados jobs queue (jobs API) slurm_queue = yes # Get work request from squeue (containers API) # Accept an untrusted SSL certificate from the API server? insecure = no [Cloud] provider = ec2 # It's usually most cost-effective to shut down compute nodes during narrow # windows of time. For example, EC2 bills each node by the hour, so the best # time to shut down a node is right before a new hour of uptime starts. # Shutdown windows define these periods of time. These are windows in # full minutes, separated by commas. Counting from the time the node is # booted, the node WILL NOT shut down for N1 minutes; then it MAY shut down # for N2 minutes; then it WILL NOT shut down for N3 minutes; and so on. # For example, "54, 5, 1" means the node may shut down from the 54th to the # 59th minute of each hour of uptime. # Specify at least two windows. You can add as many as you need beyond that. shutdown_windows = 54, 5, 1 [Cloud Credentials] key = KEY secret = SECRET_KEY region = us-east-1 timeout = 60 [Cloud List] # This section defines filters that find compute nodes. # Tags that you specify here will automatically be added to nodes you create. # Replace colons in Amazon filters with underscores # (e.g., write "tag:mytag" as "tag_mytag"). instance-state-name = running tag_arvados-class = dynamic-compute tag_cluster = zyxwv [Cloud Create] # New compute nodes will send pings to Arvados at this host. # You may specify a port, and use brackets to disambiguate IPv6 addresses. ping_host = hostname:port # Give the name of an SSH key on AWS... ex_keyname = string # ... or a file path for an SSH key that can log in to the compute node. # (One or the other, not both.) # ssh_key = path # The EC2 IDs of the image and subnet compute nodes should use. image_id = idstring subnet_id = idstring # Comma-separated EC2 IDs for the security group(s) assigned to each # compute node. security_groups = idstring1, idstring2 # You can define any number of Size sections to list EC2 sizes you're # willing to use. The Node Manager should boot the cheapest size(s) that # can run jobs in the queue. # # Each size section MUST define the number of cores are available in this # size class (since libcloud does not provide any consistent API for exposing # this setting). # You may also want to define the amount of scratch space (expressed # in GB) for Crunch jobs. You can also override Amazon's provided # data fields (such as price per hour) by setting them here. [Size m4.large] cores = 2 price = 0.126 scratch = 100 [Size m4.xlarge] cores = 4 price = 0.252 scratch = 100