gitlab-org--gitlab-foss/lib/gitlab/usage_data/topology.rb

258 lines
9.1 KiB
Ruby

# frozen_string_literal: true
module Gitlab
class UsageData
class Topology
include Gitlab::Utils::UsageData
JOB_TO_SERVICE_NAME = {
'gitlab-rails' => 'web',
'gitlab-sidekiq' => 'sidekiq',
'gitlab-workhorse' => 'workhorse',
'redis' => 'redis',
'postgres' => 'postgres',
'gitaly' => 'gitaly',
'prometheus' => 'prometheus',
'node' => 'node-exporter',
'registry' => 'registry'
}.freeze
CollectionFailure = Struct.new(:query, :error) do
def to_h
{ query => error }
end
end
def topology_usage_data
@failures = []
@instances = Set[]
topology_data, duration = measure_duration { topology_fetch_all_data }
{
topology: topology_data
.merge(duration_s: duration)
.merge(failures: @failures.map(&:to_h))
}
end
private
def topology_fetch_all_data
with_prometheus_client(fallback: {}) do |client|
{
application_requests_per_hour: topology_app_requests_per_hour(client),
nodes: topology_node_data(client)
}.compact
end
rescue => e
@failures << CollectionFailure.new('other', e.class.to_s)
{}
end
def topology_app_requests_per_hour(client)
result = query_safely('gitlab_usage_ping:ops:rate5m', 'app_requests', fallback: nil) do |query|
client.query(one_week_average(query)).first
end
return unless result
# the metric is recorded as a per-second rate
(result['value'].last.to_f * 1.hour).to_i
end
def topology_node_data(client)
# node-level data
by_instance_mem = topology_node_memory(client)
by_instance_cpus = topology_node_cpus(client)
by_instance_uname_info = topology_node_uname_info(client)
# service-level data
by_instance_by_job_by_type_memory = topology_all_service_memory(client)
by_instance_by_job_process_count = topology_all_service_process_count(client)
by_instance_by_job_server_types = topology_all_service_server_types(client)
@instances.map do |instance|
{
node_memory_total_bytes: by_instance_mem[instance],
node_cpus: by_instance_cpus[instance],
node_uname_info: by_instance_uname_info[instance],
node_services:
topology_node_services(
instance, by_instance_by_job_process_count, by_instance_by_job_by_type_memory, by_instance_by_job_server_types
)
}.compact
end
end
def topology_node_memory(client)
query_safely('gitlab_usage_ping:node_memory_total_bytes:avg', 'node_memory', fallback: {}) do |query|
aggregate_by_instance(client, one_week_average(query))
end
end
def topology_node_cpus(client)
query_safely('gitlab_usage_ping:node_cpus:count', 'node_cpus', fallback: {}) do |query|
aggregate_by_instance(client, one_week_average(query, aggregation: :max))
end
end
def topology_node_uname_info(client)
node_uname_info = query_safely('node_uname_info', 'node_uname_info', fallback: []) do |query|
client.query(query)
end
map_instance_labels(node_uname_info, %w(machine sysname release))
end
def topology_all_service_memory(client)
{
rss: topology_service_memory_rss(client),
uss: topology_service_memory_uss(client),
pss: topology_service_memory_pss(client)
}
end
def topology_service_memory_rss(client)
query_safely(
'gitlab_usage_ping:node_service_process_resident_memory_bytes:avg', 'service_rss', fallback: {}
) { |query| aggregate_by_labels(client, one_week_average(query)) }
end
def topology_service_memory_uss(client)
query_safely(
'gitlab_usage_ping:node_service_process_unique_memory_bytes:avg', 'service_uss', fallback: {}
) { |query| aggregate_by_labels(client, one_week_average(query)) }
end
def topology_service_memory_pss(client)
query_safely(
'gitlab_usage_ping:node_service_process_proportional_memory_bytes:avg', 'service_pss', fallback: {}
) { |query| aggregate_by_labels(client, one_week_average(query)) }
end
def topology_all_service_process_count(client)
query_safely(
'gitlab_usage_ping:node_service_process:count', 'service_process_count', fallback: {}
) { |query| aggregate_by_labels(client, one_week_average(query)) }
end
def topology_all_service_server_types(client)
query_safely(
'gitlab_usage_ping:node_service_app_server_workers:sum', 'service_workers', fallback: {}
) { |query| aggregate_by_labels(client, query) }
end
def query_safely(query, query_name, fallback:)
result = yield query
return result if result.present?
@failures << CollectionFailure.new(query_name, 'empty_result')
fallback
rescue => e
@failures << CollectionFailure.new(query_name, e.class.to_s)
fallback
end
def topology_node_services(instance, all_process_counts, all_process_memory, all_server_types)
# returns all node service data grouped by service name as the key
instance_service_data =
topology_instance_service_process_count(instance, all_process_counts)
.deep_merge(topology_instance_service_memory(instance, all_process_memory))
.deep_merge(topology_instance_service_server_types(instance, all_server_types))
# map to list of hashes where service names become values instead, and remove
# unknown services, since they might not be ours
instance_service_data.each_with_object([]) do |entry, list|
service, service_metrics = entry
gitlab_service = JOB_TO_SERVICE_NAME[service.to_s]
next unless gitlab_service
list << { name: gitlab_service }.merge(service_metrics)
end
end
def topology_instance_service_process_count(instance, all_instance_data)
topology_data_for_instance(instance, all_instance_data).to_h do |metric, count|
[metric['job'], { process_count: count }]
end
end
# Given a hash mapping memory set types to Prometheus response data, returns a hash
# mapping instance/node names to services and their respective memory use in bytes
def topology_instance_service_memory(instance, instance_data_by_type)
result = {}
instance_data_by_type.each do |memory_type, instance_data|
topology_data_for_instance(instance, instance_data).each do |metric, memory_bytes|
job = metric['job']
key = "process_memory_#{memory_type}".to_sym
result[job] ||= {}
result[job][key] ||= memory_bytes
end
end
result
end
def topology_instance_service_server_types(instance, all_instance_data)
topology_data_for_instance(instance, all_instance_data).to_h do |metric, _value|
[metric['job'], { server: metric['server'] }]
end
end
def topology_data_for_instance(instance, all_instance_data)
all_instance_data.filter { |metric, _value| metric['instance'] == instance }
end
def normalize_instance_label(instance)
normalize_localhost_address(drop_port_number(instance))
end
def normalize_localhost_address(instance)
ip_addr = IPAddr.new(instance)
is_local_ip = ip_addr.loopback? || ip_addr.to_i.zero?
is_local_ip ? 'localhost' : instance
rescue IPAddr::InvalidAddressError
# This most likely means it was a host name, not an IP address
instance
end
def drop_port_number(instance)
instance.gsub(/:\d+$/, '')
end
def normalize_and_track_instance(instance)
normalize_instance_label(instance).tap do |normalized_instance|
@instances << normalized_instance
end
end
def one_week_average(query, aggregation: :avg)
"#{aggregation}_over_time (#{query}[1w])"
end
def aggregate_by_instance(client, query)
client.aggregate(query) { |metric| normalize_and_track_instance(metric['instance']) }
end
# Will retain a composite key that values are mapped to
def aggregate_by_labels(client, query)
client.aggregate(query) do |metric|
metric['instance'] = normalize_and_track_instance(metric['instance'])
metric
end
end
# Given query result vector, map instance to a hash of target labels key/value.
# @return [Hash] mapping instance to a hash of target labels key/value, or the empty hash if input empty vector
def map_instance_labels(query_result_vector, target_labels)
query_result_vector.to_h do |result|
key = normalize_and_track_instance(result['metric']['instance'])
value = result['metric'].slice(*target_labels).symbolize_keys
[key, value]
end
end
end
end
end