Performance#
The analyze subcommand was added to cloud-init
to help analyze
cloud-init
boot time performance. It is loosely based on
systemd-analyze
, where there are four subcommands:
blame
show
dump
boot
Usage#
The analyze command requires one of the four subcommands:
$ cloud-init analyze blame
$ cloud-init analyze show
$ cloud-init analyze dump
$ cloud-init analyze boot
Availability#
The analyze boot subcommand only works on operating systems that use systemd.
Subcommands#
Blame#
The blame subcommand matches systemd-analyze blame where
it prints, in descending order, the units that took the longest time to run.
This output is highly useful for examining where cloud-init
is spending
its time.
$ cloud-init analyze blame
Example output:
-- Boot Record 01 --
00.80300s (init-network/config-growpart)
00.64300s (init-network/config-resizefs)
00.62100s (init-network/config-ssh)
00.57300s (modules-config/config-grub_dpkg)
00.40300s (init-local/search-NoCloud)
00.38200s (init-network/config-users_groups)
00.19800s (modules-config/config-apt_configure)
00.03700s (modules-final/config-keys_to_console)
00.02100s (init-network/config-update_etc_hosts)
00.02100s (init-network/check-cache)
00.00800s (modules-final/config-ssh_authkey_fingerprints)
00.00800s (init-network/consume-vendor-data)
00.00600s (modules-config/config-timezone)
00.00500s (modules-final/config-final_message)
00.00400s (init-network/consume-user-data)
00.00400s (init-network/config-mounts)
00.00400s (init-network/config-disk_setup)
00.00400s (init-network/config-bootcmd)
00.00400s (init-network/activate-datasource)
00.00300s (init-network/config-update_hostname)
00.00300s (init-network/config-set_hostname)
00.00200s (modules-final/config-snappy)
00.00200s (init-network/config-rsyslog)
00.00200s (init-network/config-ca_certs)
00.00200s (init-local/check-cache)
00.00100s (modules-final/config-scripts_vendor)
00.00100s (modules-final/config-scripts_per_once)
00.00100s (modules-final/config-salt_minion)
00.00100s (modules-final/config-rightscale_userdata)
00.00100s (modules-final/config-phone_home)
00.00100s (modules-final/config-package_update_upgrade_install)
00.00100s (modules-final/config-fan)
00.00100s (modules-config/config-ubuntu_advantage)
00.00100s (modules-config/config-ssh_import_id)
00.00100s (modules-config/config-snap)
00.00100s (modules-config/config-set_passwords)
00.00100s (modules-config/config-runcmd)
00.00100s (modules-config/config-locale)
00.00100s (modules-config/config-byobu)
00.00100s (modules-config/config-apt_pipelining)
00.00100s (init-network/config-write_files)
00.00100s (init-network/config-seed_random)
00.00100s (init-network/config-migrator)
00.00000s (modules-final/config-ubuntu_drivers)
00.00000s (modules-final/config-scripts_user)
00.00000s (modules-final/config-scripts_per_instance)
00.00000s (modules-final/config-scripts_per_boot)
00.00000s (modules-final/config-puppet)
00.00000s (modules-final/config-power_state_change)
00.00000s (modules-final/config-mcollective)
00.00000s (modules-final/config-lxd)
00.00000s (modules-final/config-landscape)
00.00000s (modules-final/config-chef)
00.00000s (modules-config/config-snap_config)
00.00000s (modules-config/config-ntp)
00.00000s (modules-config/config-disable_ec2_metadata)
00.00000s (init-network/setup-datasource)
1 boot records analyzed
Show#
The show subcommand is similar to
systemd-analyze critical-chain which prints a list of units, the
time they started and how long they took. Cloud-init
has five
boot stages, and within each stage a number of modules may
run depending on configuration. cloudinit-analyze show will, for
each boot, print this information and a summary of the total time.
The following is an abbreviated example of the show subcommand:
$ cloud-init analyze show
Example output:
-- Boot Record 01 --
The total time elapsed since completing an event is printed after the "@" character.
The time the event takes is printed after the "+" character.
Starting stage: init-local
|``->no cache found @00.01700s +00.00200s
|`->found local data from DataSourceNoCloud @00.11000s +00.40300s
Finished stage: (init-local) 00.94200 seconds
Starting stage: init-network
|`->restored from cache with run check: DataSourceNoCloud [seed=/dev/sr0][dsmode=net] @04.79500s +00.02100s
|`->setting up datasource @04.88900s +00.00000s
|`->reading and applying user-data @04.90100s +00.00400s
|`->reading and applying vendor-data @04.90500s +00.00800s
|`->activating datasource @04.95200s +00.00400s
Finished stage: (init-network) 02.72100 seconds
Starting stage: modules-config
|`->config-snap ran successfully @15.43100s +00.00100s
...
|`->config-runcmd ran successfully @16.22300s +00.00100s
|`->config-byobu ran successfully @16.23400s +00.00100s
Finished stage: (modules-config) 00.83500 seconds
Starting stage: modules-final
|`->config-snappy ran successfully @16.87400s +00.00200s
|`->config-package_update_upgrade_install ran successfully @16.87600s +00.00100s
...
|`->config-final_message ran successfully @16.93700s +00.00500s
|`->config-power_state_change ran successfully @16.94300s +00.00000s
Finished stage: (modules-final) 00.10300 seconds
Total Time: 4.60100 seconds
1 boot records analyzed
If additional boot records are detected then they are printed out from oldest to newest.
Dump#
The dump subcommand simply dumps the cloud-init
logs that the
analyze module is performing its analysis on, and returns a list of
dictionaries that can be consumed for other reporting needs. Each element in
the list is a boot entry.
$ cloud-init analyze dump
Example output:
[
{
"description": "starting search for local datasources",
"event_type": "start",
"name": "init-local",
"origin": "cloudinit",
"timestamp": 1567057578.037
},
{
"description": "attempting to read from cache [check]",
"event_type": "start",
"name": "init-local/check-cache",
"origin": "cloudinit",
"timestamp": 1567057578.054
},
{
"description": "no cache found",
"event_type": "finish",
"name": "init-local/check-cache",
"origin": "cloudinit",
"result": "SUCCESS",
"timestamp": 1567057578.056
},
{
"description": "searching for local data from DataSourceNoCloud",
"event_type": "start",
"name": "init-local/search-NoCloud",
"origin": "cloudinit",
"timestamp": 1567057578.147
},
{
"description": "found local data from DataSourceNoCloud",
"event_type": "finish",
"name": "init-local/search-NoCloud",
"origin": "cloudinit",
"result": "SUCCESS",
"timestamp": 1567057578.55
},
{
"description": "searching for local datasources",
"event_type": "finish",
"name": "init-local",
"origin": "cloudinit",
"result": "SUCCESS",
"timestamp": 1567057578.979
},
{
"description": "searching for network datasources",
"event_type": "start",
"name": "init-network",
"origin": "cloudinit",
"timestamp": 1567057582.814
},
{
"description": "attempting to read from cache [trust]",
"event_type": "start",
"name": "init-network/check-cache",
"origin": "cloudinit",
"timestamp": 1567057582.832
},
...
{
"description": "config-power_state_change ran successfully",
"event_type": "finish",
"name": "modules-final/config-power_state_change",
"origin": "cloudinit",
"result": "SUCCESS",
"timestamp": 1567057594.98
},
{
"description": "running modules for final",
"event_type": "finish",
"name": "modules-final",
"origin": "cloudinit",
"result": "SUCCESS",
"timestamp": 1567057594.982
}
]
Boot#
The boot subcommand prints out kernel-related timestamps that are
not included in any of the cloud-init
logs. There are three different
timestamps that are presented to the user:
kernel start
kernel finish boot
cloud-init start
This was added for additional clarity into the boot process that
cloud-init
does not have control over, to aid in debugging performance
issues related to cloud-init
startup, and tracking regression.
$ cloud-init analyze boot
Example output:
-- Most Recent Boot Record --
Kernel Started at: 2019-08-29 01:35:37.753790
Kernel ended boot at: 2019-08-29 01:35:38.807407
Kernel time to boot (seconds): 1.053617000579834
Cloud-init activated by systemd at: 2019-08-29 01:35:43.992460
Time between Kernel end boot and Cloud-init activation (seconds): 5.185053110122681
Cloud-init start: 2019-08-29 08:35:45.867000
successful
Timestamp gathering#
The following boot-related timestamps are gathered on demand when cloud-init analyze boot runs:
Kernel startup gathered from system uptime
Kernel finishes initialization from systemd
UserSpaceMonotonicTimestamp
property
Cloud-init
activation from the propertyInactiveExitTimestamp
of thecloud-init
local systemd unit
In order to gather the necessary timestamps using systemd, running the
following command will gather the UserspaceTimestamp
:
$ systemctl show -p UserspaceTimestampMonotonic
Example output:
UserspaceTimestampMonotonic=989279
The UserspaceTimestamp
tracks when the init system starts, which is used
as an indicator of the kernel finishing initialisation.
Running the following command will gather the InactiveExitTimestamp
:
$ systemctl show cloud-init-local -p InactiveExitTimestampMonotonic
Example output:
InactiveExitTimestampMonotonic=4493126
The InactiveExitTimestamp
tracks when a particular systemd unit
transitions from the Inactive to Active state, which can be used to mark
the beginning of systemd’s activation of cloud-init
.
Currently this only works for distros that use systemd as the init process. We will be expanding support for other distros in the future and this document will be updated accordingly.
If systemd is not present on the system, dmesg
is used to attempt to find
an event that logs the beginning of the init system. However, with this method
only the first two timestamps are able to be found; dmesg
does not monitor
userspace processes, so no cloud-init
start timestamps are emitted –
unlike when using systemd.