In recent Firefox versions I noticed that the search field next to the address bar disappeared. While it is still possible to simply enter keywords in the address bar and therefore use it as search field, it is not possible to dynamically change the search engine, which was pretty handy sometimes.

But the search field can be made visible again. It simply requires a quick change of Firefox's settings.

Open a new tab and enter "about:config" in the address bar, then enter. Accept the warning that you'll be careful.

In the search field (inside the about:config tab), enter: "browser.search.widget.inNavBar".

As you can see, the value is set to "False". Double-click on the line/text of the preference and it will change to "True" (and text will become bold). And you'll also see that the search field magically re-appeared next to the address bar:

While looking for a way to handle certain tasks differently inside a LXC container and on a (physical) host, I first tried to use ansible variables based on some hardware. 

But the problem, as you might know, is that LXC containers basically see the same hardware as the host because they use the same kernel (there is no hardware virtualization layer in between).
Note: That's what makes the containers much faster than VM's, just sayin'.

So checking for hardware will not work, as both host and container see the same:

$ ansible host -m setup | grep ansible_system_vendor
        "ansible_system_vendor": "HP",

$ ansible container -m setup | grep ansible_system_vendor
        "ansible_system_vendor": "HP",

When I looked through all available variables coming from "-m setup", I stumbled across ansible_virtualization_role at the end of the output. Looks interesting!

$ ansible host -m setup | grep ansible_virtualization_role
        "ansible_virtualization_role": "host",

$ ansible container -m setup | grep ansible_virtualization_role
        "ansible_virtualization_role": "guest",

Awesome!

I was about to create a new Galera Cluster where a third node is simply being used as Arbitrator, not as data node. 

As this is a simple process starting up, I usually just added a line in /etc/rc.local to start the process. But in the new Ubuntu 18.04 this file does not exist anymore:

root@arbitrator:~# file /etc/rc.local
/etc/rc.local: cannot open `/etc/rc.local' (No such file or directory)

Sure, I could write a SystemD unit file for a garbd.service now, but lazy, you know.

So I wondered if and how /etc/rc.local is still working in Ubuntu 18.04 and I stumbled on the manpage of systemd-rc-local-generator:

"systemd-rc-local-generator is a generator that checks whether /etc/rc.local exists and is executable, and if it is pulls the rc-local.service unit into the boot process[...]"

Cool, let's give it a shot.

root@arbitrator:~# echo "/usr/bin/garbd --cfg /etc/garbd.conf &" > /etc/rc.local
root@arbitrator:~# echo "exit 0" >> /etc/rc.local
root@arbitrator:~# chmod 755 /etc/rc.local

After a reboot, the process didn't show up. What happened?

root@arbitrator:~# systemctl status rc-local
● rc-local.service - /etc/rc.local Compatibility
   Loaded: loaded (/lib/systemd/system/rc-local.service; enabled-runtime; vendor preset: enabled)
  Drop-In: /lib/systemd/system/rc-local.service.d
           └─debian.conf
   Active: failed (Result: exit-code) since Mon 2018-06-11 16:53:47 CEST; 1min 53s ago
     Docs: man:systemd-rc-local-generator(8)
  Process: 1182 ExecStart=/etc/rc.local start (code=exited, status=203/EXEC)

Jun 11 16:53:46 arbitrator systemd[1]: Starting /etc/rc.local Compatibility...
Jun 11 16:53:47 arbitrator systemd[1182]: rc-local.service: Failed to execute command: Exec format error
Jun 11 16:53:47 arbitrator systemd[1182]: rc-local.service: Failed at step EXEC spawning /etc/rc.local: Exec format error
Jun 11 16:53:47 arbitrator systemd[1]: rc-local.service: Control process exited, code=exited status=203
Jun 11 16:53:47 arbitrator systemd[1]: rc-local.service: Failed with result 'exit-code'.
Jun 11 16:53:47 arbitrator systemd[1]: Failed to start /etc/rc.local Compatibility.

Exec format error? Huh?

I came across an older article from SUSE (SLES12), which looked kind of similar: The after.local.service fails to start with exec format error. The resolution on that knowledge base article:

"Add a hashpling to the begining [...]"

D'oh! I compared with a /etc/rc.local from another system (Xenial) and indeed it starts with the shell, like a normal shell script. I changed my /etc/rc.local and added #!/bin/bash:

root@arbitrator:~# cat /etc/rc.local
#!/bin/bash
/usr/bin/garbd --cfg /etc/garbd.conf &
exit 0

The rc-local service could now be restarted with success:

root@arbitrator:~# systemctl restart rc-local

root@arbitrator:~# systemctl status rc-local
● rc-local.service - /etc/rc.local Compatibility
   Loaded: loaded (/lib/systemd/system/rc-local.service; enabled-runtime; vendor preset: enabled)
  Drop-In: /lib/systemd/system/rc-local.service.d
           └─debian.conf
   Active: active (running) since Mon 2018-06-11 16:59:31 CEST; 11s ago
     Docs: man:systemd-rc-local-generator(8)
  Process: 1948 ExecStart=/etc/rc.local start (code=exited, status=0/SUCCESS)
    Tasks: 3 (limit: 4664)
   CGroup: /system.slice/rc-local.service
           └─1949 /usr/bin/garbd --cfg /etc/garbd.conf

Jun 11 16:59:31 arbitrator systemd[1]: Starting /etc/rc.local Compatibility...
Jun 11 16:59:31 arbitrator systemd[1]: Started /etc/rc.local Compatibility.

And garbd is started:

root@arbitrator:~# ps auxf | grep garb | grep -v grep
root      1949  0.0  0.2 181000  9664 ?        Sl   16:59   0:00 /usr/bin/garbd --cfg /etc/garbd.conf

TL;DR: /etc/rc.local still works in Ubuntu 18.04, when
1) it exists
2) is executable
3) Starts with a valid shell hashpling (is that really the name for it?)

In the past weeks I've seen recurring file system warnings on certain servers. After some investigation it turned out to be Filebeat still hanging on to a already rotated log file and therefore not releasing the inode, ergo not giving back the available disk space to the file system.

Let's start off at the begin. Icinga sent the disk warning for /var:

root@server:~# df -h
Filesystem            Type        Size  Used Avail Use% Mounted on
sysfs                 sysfs          0     0     0    - /sys
proc                  proc           0     0     0    - /proc
udev                  devtmpfs    2.0G   12K  2.0G   1% /dev
devpts                devpts         0     0     0    - /dev/pts
tmpfs                 tmpfs       396M  736K  395M   1% /run
/dev/sda1             ext4        4.5G  2.0G  2.3G  48% /
none                  tmpfs       4.0K     0  4.0K   0% /sys/fs/cgroup
none                  fusectl        0     0     0    - /sys/fs/fuse/connections
none                  debugfs        0     0     0    - /sys/kernel/debug
none                  securityfs     0     0     0    - /sys/kernel/security
none                  tmpfs       5.0M     0  5.0M   0% /run/lock
none                  tmpfs       2.0G     0  2.0G   0% /run/shm
none                  tmpfs       100M     0  100M   0% /run/user
none                  pstore         0     0     0    - /sys/fs/pstore
/dev/mapper/vg0-lvvar ext4         37G   33G  3.0G  92% /var
/dev/mapper/vg0-lvtmp ext4        922M  1.2M  857M   1% /tmp
systemd               cgroup         0     0     0    - /sys/fs/cgroup/systemd

As you can see, /var is at 92% full.

With lsof we checked for open yet deleted files:

root@server:~# lsof +L1
COMMAND    PID     USER   FD   TYPE DEVICE   SIZE/OFF NLINK   NODE NAME
init         1     root   11w   REG  252,1        309     0     79 /var/log/upstart/systemd-logind.log.1 (deleted)
filebeat 30336     root    3r   REG  252,1 1538307897     0    326 /var/log/haproxy.log.1 (deleted)
filebeat 30336     root    4r   REG  252,1 1474951702     0   2809 /var/log/haproxy.log.1 (deleted)
filebeat 30336     root    6r   REG  252,1 1513061121     0   1907 /var/log/haproxy.log.1 (deleted)
filebeat 30336     root    7r   REG  252,1 1566966965     0     72 /var/log/haproxy.log.1 (deleted)
filebeat 30336     root    8r   REG  252,1 1830485663     0   2558 /var/log/haproxy.log.1 (deleted)
filebeat 30336     root    9r   REG  252,1 1426600050     0    163 /var/log/haproxy.log.1 (deleted)
nginx    31673 www-data   64u   REG  252,1     204800     0   2978 /var/lib/nginx/proxy/9/53/0008826539 (deleted)
nginx    31674 www-data  154u   REG  252,1     204800     0 131334 /var/lib/nginx/proxy/2/95/0008825952 (deleted)
nginx    31676 www-data  111u   REG  252,1     241664     0   4064 /var/lib/nginx/proxy/0/54/0008826540 (deleted)

There it is; Filebeat still hanging on to a (meanwhile) rotated HAProxy log file (which is quite big as you can see in the column SIZE/OFF).

To release the inode, Filebeat can either restart or force reloaded.

root@server:~# /etc/init.d/filebeat force-reload
 * Restarting Filebeat sends log files to Logstash or directly to Elasticsearch. filebeat
2018/05/23 13:39:20.004534 beat.go:297: INFO Home path: [/usr/share/filebeat] Config path: [/etc/filebeat] Data path: [/var/lib/filebeat] Logs path: [/var/log/filebeat]
2018/05/23 13:39:20.004580 beat.go:192: INFO Setup Beat: filebeat; Version: 5.6.9
2018/05/23 13:39:20.004623 logstash.go:91: INFO Max Retries set to: 3
2018/05/23 13:39:20.004663 outputs.go:108: INFO Activated logstash as output plugin.
2018/05/23 13:39:20.004681 metrics.go:23: INFO Metrics logging every 30s
2018/05/23 13:39:20.004727 publish.go:300: INFO Publisher name: server
2018/05/23 13:39:20.004850 async.go:63: INFO Flush Interval set to: 1s
2018/05/23 13:39:20.006018 async.go:64: INFO Max Bulk Size set to: 2048
Config OK

Verification with lsof again:

root@server:~# lsof +L1
COMMAND   PID     USER   FD   TYPE DEVICE SIZE/OFF NLINK   NODE NAME
init        1     root   11w   REG  252,1      309     0     79 /var/log/upstart/systemd-logind.log.1 (deleted)
nginx   31674 www-data  154u   REG  252,1   204800     0 131334 /var/lib/nginx/proxy/2/95/0008825952 (deleted)

Looks better! What about the file system size?

root@server:~# df -h
Filesystem            Type        Size  Used Avail Use% Mounted on
sysfs                 sysfs          0     0     0    - /sys
proc                  proc           0     0     0    - /proc
udev                  devtmpfs    2.0G   12K  2.0G   1% /dev
devpts                devpts         0     0     0    - /dev/pts
tmpfs                 tmpfs       396M  736K  395M   1% /run
/dev/sda1             ext4        4.5G  2.0G  2.3G  48% /
none                  tmpfs       4.0K     0  4.0K   0% /sys/fs/cgroup
none                  fusectl        0     0     0    - /sys/fs/fuse/connections
none                  debugfs        0     0     0    - /sys/kernel/debug
none                  securityfs     0     0     0    - /sys/kernel/security
none                  tmpfs       5.0M     0  5.0M   0% /run/lock
none                  tmpfs       2.0G     0  2.0G   0% /run/shm
none                  tmpfs       100M     0  100M   0% /run/user
none                  pstore         0     0     0    - /sys/fs/pstore
/dev/mapper/vg0-lvvar ext4         37G   24G   12G  68% /var
/dev/mapper/vg0-lvtmp ext4        922M  1.2M  857M   1% /tmp
systemd               cgroup         0     0     0    - /sys/fs/cgroup/systemd

The /var partition is now back to 68% used. Good!

But how does one prevent this from happening again? In the logrotate config for HAProxy (/etc/logrotate.d/haproxy) I added a postrotate command to reload Filebeat:

root@server:~# cat /etc/logrotate.d/haproxy
/var/log/haproxy.log {
    daily
    rotate 52
    missingok
    notifempty
    compress
    delaycompress
    postrotate
        invoke-rc.d rsyslog rotate >/dev/null 2>&1 || true
        service filebeat force-reload >/dev/null 2>&1
    endscript
}

For the last couple of weeks I've been watching this on that particular server and it turns out this definitely solved the problem that Filebeat was still hanging on to inodes not in use anymore. The following graphs shows the disk usage of /var:

The red circles show when I manually forced a reload of Filebeat.
The blue circle notes the day when I added the "service filebeat force-reload >/dev/null 2>&1" line into postrotate in the logrotate file - and when it first executed (note the significant fall compared to the days before).

I also had to add the reload line to the logrotate config of Nginx, as I'm using Filebeat to go through HAProxy and Nginx logs.

Note: This happened under both Ubuntu 14.04 and 16.04 with Filebeat 5.6.9. Meanwhile Filebeat 6.x is out, maybe this fixes the rotated log file issue but I didn't have the time to upgrade yet. 

Whlie creating a new template for Ubuntu 18.04, I stumbled across something I didn't expect. 

At the end of the template creation process, I usually comment the used IP addresses (to avoid human mistake when someone powers up the template with network card enabled). So I wanted to configure /etc/network/interfaces, as always. But:

root@ubuntu1804:~# cat /etc/network/interfaces
root@ubuntu1804:~#

Umm... the config file is empty. Huh? What's going on?

But during the setup I defined a static IP (10.10.4.44)?

root@ubuntu1804:~# ip a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host
       valid_lft forever preferred_lft forever
2: ens192: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP group default qlen 1000
    link/ether 00:50:56:8d:5c:45 brd ff:ff:ff:ff:ff:ff
    inet 10.10.4.44/24 brd 194.40.217.255 scope global ens192
       valid_lft forever preferred_lft forever
    inet6 fe80::250:56ff:fe8d:5c45/64 scope link
       valid_lft forever preferred_lft forever

Yep, the static IP is configured. Where the hell is this stored now?

root@ubuntu1804:~# grep -rni 10.10.4.44 /etc/*
/etc/hosts:2:10.10.4.44    ubuntu1804.nzzmg.local    ubuntu1804
/etc/netplan/01-netcfg.yaml:8:      addresses: [ 10.10.4.44/24 ]

/etc/netplan? Never heard of it... 

Let's check out this config file (which is written in YAML format):

root@ubuntu1804:~# cat /etc/netplan/01-netcfg.yaml
# This file describes the network interfaces available on your system
# For more information, see netplan(5).
network:
  version: 2
  renderer: networkd
  ethernets:
    ens192:
      addresses: [ 10.10.4.44/24 ]
      gateway4: 10.10.4.44.1
      nameservers:
          search: [ example.com ]
          addresses:
              - "1.1.1.1"
              - "8.8.8.8"

OK, doesn't look that complicated and is quite understandable. Important here is also the "renderer". According to the documentation, this refers to the network daemon reading the netplan config file:

"Netplan reads network configuration from /etc/netplan/*.yaml which are written by administrators, installers, cloud image instantiations, or other OS deployments. During early boot, Netplan generates backend specific configuration files in /run to hand off control of devices to a particular networking daemon."

The Ubuntu default is to hand off control to networkd, which is part of the SystemD jungle:

root@ubuntu1804:~# ps auxf|grep networkd
systemd+   750  0.0  0.1 71816  5244 ?        Ss   13:27   0:00 /lib/systemd/systemd-networkd
root       930  0.0  0.4 170424 17128 ?        Ssl  13:27   0:00 /usr/bin/python3 /usr/bin/networkd-dispatcher

So if I change the IP address to something else, how does one apply the new IP and will it be immediate?

root@ubuntu1804:~# ip address show ens192
2: ens192: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP group default qlen 1000
    link/ether 00:50:56:8d:5d:37 brd ff:ff:ff:ff:ff:ff
    inet 10.10.4.44/25 brd 10.150.2.127 scope global ens192
       valid_lft forever preferred_lft forever
    inet6 fe80::250:56ff:fe8d:5d37/64 scope link
       valid_lft forever preferred_lft forever

root@ubuntu1804:~# sed -i "s/10.10.4.44/10.150.2.98/g" /etc/netplan/01-netcfg.yaml

root@ubuntu1804:~# netplan apply

# [ Note: Here my SSH session got disconnected - so yes, IP change was immediate ]

admck@ubuntu1804:~$ ip address show ens192
2: ens192: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP group default qlen 1000
    link/ether 00:50:56:8d:5d:37 brd ff:ff:ff:ff:ff:ff
    inet 10.150.2.98/25 brd 10.150.2.127 scope global ens192
       valid_lft forever preferred_lft forever
    inet6 fe80::250:56ff:fe8d:5d37/64 scope link
       valid_lft forever preferred_lft forever

Right after "netplan apply", the IP was changed. I lost my SSH connection (of course) and could log back in using the new IP. So yes, IP change was immediate.

I just wonder how often I will still use "vi /etc/network/interfaces" as this has been stuck in my head for more than 10 years. Old habits die hard.

On our Rancher 1.6 environment one particular developer was unable to login into Rancher using his Github account. Whenever he tried it, he got an error "Internal Server Error".

But all other users were able to log in, so I first suspected a problem with his Github account (e.g. OAuth disabled or similar). On the research of the problem we came across an issue in Rancher's Github repository, having similar problems:

Some of the users from the organization added in the environment can log in with no problem, but some get Internal Server Error

The issue was closed by the OP himself with the reason:

It was because of mysql being in latin and not utf8

Could this be our problem, too?

I verified and indeed the database and all its tables were set to latin1_swedish_ci (the "old default" of MySQL). The Rancher 1.6 install documentation clearly states to create the database with utf8 though:

Instead of using the internal database that comes with Rancher server, you can start Rancher server pointing to an external database. The command would be the same, but appending in additional arguments to direct how to connect to your external database.

Here is an example of a SQL command to create a database and users.

> CREATE DATABASE IF NOT EXISTS cattle COLLATE = 'utf8_general_ci' CHARACTER SET = 'utf8';
> GRANT ALL ON cattle.* TO 'cattle'@'%' IDENTIFIED BY 'cattle';
> GRANT ALL ON cattle.* TO 'cattle'@'localhost' IDENTIFIED BY 'cattle';

Why wasn't our database created with utf8? Turns out we're using AWS RDS for this database and an option to set the collation and character set is not possible:

But can the failed login really be blamed on the database's character set? I entered the Rancher container and checked the logs:

root@rancher01:/# docker exec -it 1d0ec49acc20 bash

root@1d0ec49acc20:/# cd /var/lib/cattle/logs

root@1d0ec49acc20:/var/lib/cattle/logs# cat cattle-debug.log|grep -i github
[...]
Query is: insert into `account` (`name`, `kind`, `uuid`, `state`, `created`, `data`, `external_id`, `external_id_type`, `health_state`, `version`) values (?, ?, ?, ?, ?, ?, ?, ?, ?, ?), parameters ['Paweł Lewandowski','user','de7b9940-e699-422f-8586-5a964adec35a','requested','2018-05-30 10:10:27.511','{}','6796097','github_user','healthy','2']
[...]

Yes, there is indeed a special character "L with stroke" in the first name. This character is not part in the latin1_swedish_ci character set. The failed login can therefore really be blamed on the wrong database/table character sets.

To find out which character sets and collations all tables of a given database (here: rancher_dev) use, the following query helps:

mysql> SELECT TABLE_SCHEMA, TABLE_NAME, COLLATION_NAME, CHARACTER_SET_NAME FROM information_schema.`TABLES` T, information_schema.`COLLATION_CHARACTER_SET_APPLICABILITY` CCSA WHERE CCSA.collation_name = T.table_collation AND T.table_schema = "rancher_dev";
+--------------+-----------------------------------------------+-------------------+--------------------+
| TABLE_SCHEMA | TABLE_NAME                                    | COLLATION_NAME    | CHARACTER_SET_NAME |
+--------------+-----------------------------------------------+-------------------+--------------------+
| rancher_dev  | DATABASECHANGELOG                             | latin1_swedish_ci | latin1             |
| rancher_dev  | DATABASECHANGELOGLOCK                         | latin1_swedish_ci | latin1             |
| rancher_dev  | account                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | account_link                                  | latin1_swedish_ci | latin1             |
| rancher_dev  | agent                                         | latin1_swedish_ci | latin1             |
| rancher_dev  | agent_group                                   | latin1_swedish_ci | latin1             |
| rancher_dev  | audit_log                                     | latin1_swedish_ci | latin1             |
| rancher_dev  | auth_token                                    | latin1_swedish_ci | latin1             |
| rancher_dev  | backup                                        | latin1_swedish_ci | latin1             |
| rancher_dev  | backup_target                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_category                              | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_file                                  | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_label                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_template                              | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_template_category                     | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_version                               | latin1_swedish_ci | latin1             |
| rancher_dev  | catalog_version_label                         | latin1_swedish_ci | latin1             |
| rancher_dev  | certificate                                   | latin1_swedish_ci | latin1             |
| rancher_dev  | cluster_host_map                              | latin1_swedish_ci | latin1             |
| rancher_dev  | cluster_membership                            | latin1_swedish_ci | latin1             |
| rancher_dev  | config_item                                   | latin1_swedish_ci | latin1             |
| rancher_dev  | config_item_status                            | latin1_swedish_ci | latin1             |
| rancher_dev  | container_event                               | latin1_swedish_ci | latin1             |
| rancher_dev  | credential                                    | latin1_swedish_ci | latin1             |
| rancher_dev  | credential_instance_map                       | latin1_swedish_ci | latin1             |
| rancher_dev  | data                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | deployment_unit                               | latin1_swedish_ci | latin1             |
| rancher_dev  | dynamic_schema                                | latin1_swedish_ci | latin1             |
| rancher_dev  | dynamic_schema_role                           | latin1_swedish_ci | latin1             |
| rancher_dev  | environment                                   | latin1_swedish_ci | latin1             |
| rancher_dev  | external_event                                | latin1_swedish_ci | latin1             |
| rancher_dev  | external_handler                              | latin1_swedish_ci | latin1             |
| rancher_dev  | external_handler_external_handler_process_map | latin1_swedish_ci | latin1             |
| rancher_dev  | external_handler_process                      | latin1_swedish_ci | latin1             |
| rancher_dev  | generic_object                                | latin1_swedish_ci | latin1             |
| rancher_dev  | global_load_balancer                          | latin1_swedish_ci | latin1             |
| rancher_dev  | healthcheck_instance                          | latin1_swedish_ci | latin1             |
| rancher_dev  | healthcheck_instance_host_map                 | latin1_swedish_ci | latin1             |
| rancher_dev  | host                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | host_ip_address_map                           | latin1_swedish_ci | latin1             |
| rancher_dev  | host_label_map                                | latin1_swedish_ci | latin1             |
| rancher_dev  | host_template                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | host_vnet_map                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | image                                         | latin1_swedish_ci | latin1             |
| rancher_dev  | image_storage_pool_map                        | latin1_swedish_ci | latin1             |
| rancher_dev  | instance                                      | latin1_swedish_ci | latin1             |
| rancher_dev  | instance_host_map                             | latin1_swedish_ci | latin1             |
| rancher_dev  | instance_label_map                            | latin1_swedish_ci | latin1             |
| rancher_dev  | instance_link                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | ip_address                                    | latin1_swedish_ci | latin1             |
| rancher_dev  | ip_address_nic_map                            | latin1_swedish_ci | latin1             |
| rancher_dev  | ip_association                                | latin1_swedish_ci | latin1             |
| rancher_dev  | ip_pool                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | label                                         | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_certificate_map                 | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_config                          | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_config_listener_map             | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_host_map                        | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_listener                        | latin1_swedish_ci | latin1             |
| rancher_dev  | load_balancer_target                          | latin1_swedish_ci | latin1             |
| rancher_dev  | machine_driver                                | latin1_swedish_ci | latin1             |
| rancher_dev  | mount                                         | latin1_swedish_ci | latin1             |
| rancher_dev  | network                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | network_driver                                | latin1_swedish_ci | latin1             |
| rancher_dev  | network_service                               | latin1_swedish_ci | latin1             |
| rancher_dev  | network_service_provider                      | latin1_swedish_ci | latin1             |
| rancher_dev  | network_service_provider_instance_map         | latin1_swedish_ci | latin1             |
| rancher_dev  | nic                                           | latin1_swedish_ci | latin1             |
| rancher_dev  | offering                                      | latin1_swedish_ci | latin1             |
| rancher_dev  | physical_host                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | port                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | process_execution                             | latin1_swedish_ci | latin1             |
| rancher_dev  | process_instance                              | latin1_swedish_ci | latin1             |
| rancher_dev  | project_member                                | latin1_swedish_ci | latin1             |
| rancher_dev  | project_template                              | latin1_swedish_ci | latin1             |
| rancher_dev  | resource_pool                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | scheduled_upgrade                             | latin1_swedish_ci | latin1             |
| rancher_dev  | secret                                        | latin1_swedish_ci | latin1             |
| rancher_dev  | service                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | service_consume_map                           | latin1_swedish_ci | latin1             |
| rancher_dev  | service_event                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | service_expose_map                            | latin1_swedish_ci | latin1             |
| rancher_dev  | service_index                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | service_log                                   | latin1_swedish_ci | latin1             |
| rancher_dev  | setting                                       | latin1_swedish_ci | latin1             |
| rancher_dev  | snapshot                                      | latin1_swedish_ci | latin1             |
| rancher_dev  | snapshot_storage_pool_map                     | latin1_swedish_ci | latin1             |
| rancher_dev  | storage_driver                                | latin1_swedish_ci | latin1             |
| rancher_dev  | storage_pool                                  | latin1_swedish_ci | latin1             |
| rancher_dev  | storage_pool_host_map                         | latin1_swedish_ci | latin1             |
| rancher_dev  | subnet                                        | latin1_swedish_ci | latin1             |
| rancher_dev  | subnet_vnet_map                               | latin1_swedish_ci | latin1             |
| rancher_dev  | task                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | task_instance                                 | latin1_swedish_ci | latin1             |
| rancher_dev  | ui_challenge                                  | latin1_swedish_ci | latin1             |
| rancher_dev  | user_preference                               | latin1_swedish_ci | latin1             |
| rancher_dev  | vnet                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | volume                                        | latin1_swedish_ci | latin1             |
| rancher_dev  | volume_storage_pool_map                       | latin1_swedish_ci | latin1             |
| rancher_dev  | volume_template                               | latin1_swedish_ci | latin1             |
| rancher_dev  | zone                                          | latin1_swedish_ci | latin1             |
| rancher_dev  | cluster                                       | utf8_general_ci   | utf8               |
+--------------+-----------------------------------------------+-------------------+--------------------+
104 rows in set (0.01 sec)

To adapt the query to your own database, simply replace "rancher_dev" by your database name.

Based on the information found on https://stackoverflow.com/questions/1049728/how-do-i-see-what-character-set-a-mysql-database-table-column-is .

When I re-vamped my computer (bought in 2011) a few days ago, I replaced the two internal 750GB hard drives with three SSD's.

• Drive 1 (/dev/sda) 500GB Samsung 850 Evo
• Drive 2 (/dev/sdb) 500GB Samsung 850 Evo
• Drive 3 (/dev/sdc) 120GB ADATA SSD S510

For a couple of months I've always wondered about the following error messages appearing on my NAS, a HP Proliant N40L Microserver running Debian 7 Wheezy, every five minutes:

[Hardware Error]: CPU:0 (10:6:3) MC2_STATUS[-|CE|-|-|AddrV|CECC]: 0x940040000000018a
[Hardware Error]: MC2_ADDR: 0x00000000d3b42540
[Hardware Error]: MC2 Error: : SNP error during data copyback.
[Hardware Error]: cache level: L2, tx: GEN, mem-tx: SNP
[Hardware Error]: Corrected error, no action required.

I came across some articles, like the following:

• https://bbs.archlinux.org/viewtopic.php?id=183192
• https://bugs.launchpad.net/ubuntu/+source/linux/+bug/993758

In the past weeks I've spent quite some time (whenever I had time) to slowly kick off the new monitoring architecture using a dual-master Icinga2 installation, InfluxDB as graphing database and Grafana as graph displaying software. See previous articles "Icinga2 graphing with InfluxDB and Grafana" and "Create separate measurement tables in InfluxDB for Icinga 2 NRPE checks" for further information.

I was quite happy so far with the dashboard I created in Grafana, based on the Icinga2 Grafana dashboard template:

But I was missing some dynamic graphs showing up. We currently have around 850 host objects in our "old" Icinga2 monitoring and not all the hosts are the same. Some have additional database checks, some have HTTP checks, some are running on Windows, others again have very specific application checks. It's difficult in the main dashboard to represent all the services with the (fixed) graph elements in Grafana.

Eventually I came across a question from user TryTryAgain on serverfault, which was basically more about creating a dynamic action_url to point to Grafana. The question itself was irrelvant to me, but something interesting hit my eye:

" I'd like this to work: action_url = "http://grafana-server.example/grafana/dashboard/db/generic-check?var-device=$HOSTNAME$&var-check=$SERVICEDESC$&var-checkmetric=$SERVICECHECKCOMMAND$&var-datatype=perfdata&var-value=value" "

So the user prepared a new template "generic-check" and uses dynamic variables to display the graph for one exact service. That's a great idea!

As I couldn't find a pre-existing template for such a generic graph, I went on to create it. And had to dig deeper into InfluxDB's queries and schemas...

1. Prepare the graph

I added a single graph, first with a static data query:

SELECT mean("value") FROM hostalive WHERE ("hostname" =~ /mytesthost/) AND $timeFilter GROUP BY time($__interval) fill(previous)

This graph needs to be adjusted in the next steps, as I added dynamic variables.

2. Variable $hostname

I decided I want the generic service template to start with the actual host object. This is usually the most important marker (from which host object do I need the graph?). I created the $hostname variable in the template's templating variables:

$hostname = SHOW TAG VALUES FROM "hostalive" WITH KEY = "hostname"

This query looks up the "hostalive" measurements table and shows all unique values of the key "hostname". Remember, InfluxDB is basically explained a key-value store (like Redis).

This one was pretty easy and immediately showed up all the hosts prepared in the new Icinga2 architecture:

To use the dynamic variable $hostname in the graph, the graph's query needs to be adjusted:

SELECT mean("value") FROM hostalive WHERE ("hostname" =~ /^$hostname$/) AND $timeFilter GROUP BY time($__interval) fill(previous)

3. Variable $check

Now it gets slightly more complicated. Now that the host object is selected by using $hostname, Grafana needs to look up for which services it is able to display graphs. I decided the best way would be to look into the different measurement tables. I did this by:

$check = SHOW measurements

But I wasn't happy with that because it just showed all measurement tables, even irrelevant ones like "http" for a non-webserver.

Luckily the show measurements query also allows a WHERE clause:

$check = SHOW measurements WHERE "hostname" =~ /^$hostname$/

This way InfluxDB only shows measurement tables in which our already selected host object has already some data entries.

To use the dynamic variable $check in the graph, the graph's query needs to be adjusted:

SELECT mean("value") FROM /^$check$/ WHERE ("hostname" =~ /^$hostname$/) AND $timeFilter GROUP BY time($__interval) fill(previous)

4. Variable $service

At first I thought my template is almost complete with the defined $check. It worked for example for "ssh" checks, which is (normally) a single service check on the host object. But a very good example disproving it is a disk check: You usually run disk usage checks (check_disk) on several partitions on the same host object, having therefore multiple service objects in Icinga 2. In such a case, the query of the selected $check returns multiple results. A graph would then simply take all the data together (value), whether the value came from a partition "/" or "/tmp". This is wrong.

So I needed to create another variable $service which represents the already existing data for the selected $check:

$service = SHOW TAG VALUES FROM $check WITH KEY = "service" WHERE "hostname" =~ /^$hostname$/

In the following example, a host object with several tcp checks gives the following selection:

5. Variable $metric

But a check can return multiple values! For example a check_http usually returns two sets of performance data: The size of the response and the time of the response (response time). To get the graph we actually want, for example response time of a http check, another flexible variable $metric was defined:

$metric = SHOW TAG VALUES FROM "$check" WITH KEY = "metric" WHERE "hostname" =~ /^$hostname$/

The new variable now allows to select the relevant data:

To use the dynamic variable $metric in the graph, the graph's query needs to be adjusted:

SELECT mean("value") FROM /^$check$/ WHERE ("hostname" =~ /^$hostname$/ AND "metric" =~ /^$metric$/) AND $timeFilter GROUP BY time($__interval) fill(previous)

6. Variable $aggregation

I thought I was done and the first few tests looked promising. Until I came across a host having a MySQL running on it. The graphs for MySQL (metric: connections) just grew:

This is a misinterpretation by the graph because the MySQL connections is a so-called counter (connection = connection +1). Because this is a single graph, how does Grafana know what kind of data it gets?

The solution is to provide yet another dynamic variable $aggregation. With this variable, Grafana can be told how to display the data. I created a custom variable for this purpose with two values:

$aggregation = mean("value"),derivative(mean("value"))

To use the dynamic variable $aggregation in the graph, the graph's query needs to be adjusted:

SELECT $aggregation FROM /^$check$/ WHERE ("hostname" =~ /^$hostname$/ AND "metric" =~ /^$metric$/) AND $timeFilter GROUP BY time($__interval) fill(previous)

The graph for the counter data now dynamically adapts:

The full picture

The template "Generic Service" can be downloaded here as json export.

Next steps

Now being able to dynamically show up a graph for a generic service (by manually selecting the values from the drop down fields or by using the variables in the URL), I will try to use that somehow for the "action_url" in Icinga 2 or integrate it differently.

Open issues:

The graphs for disk/partition usage are not showing up due to an error in the query. I haven't found out yet why this happens (probably due to a conflict between $service and $metric, not sure) but for now I can live with it.