Serial Terminal: Difference between revisions
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During boot, the kernel sends its boot messages, like device detection, to this default console, and at the end of the boot processes, fires a "login: " prompt on this console. (Actually it spawns multiple login prompts, you can switch between them with Ctrl-alt-F1, Ctrl-alt-F2, etc ... ) | During boot, the kernel sends its boot messages, like device detection, to this default console, and at the end of the boot processes, fires a "login: " prompt on this console. (Actually it spawns multiple login prompts, you can switch between them with Ctrl-alt-F1, Ctrl-alt-F2, etc ... ) | ||
Now it is perfectly fine to send the boot messages and start a login prompt on something else. For instance the Linux Kernel has a '''netconsole''' feature, to send the boot messages over the network to another Linux computer. It is also possible to send a copy of the boot messages, and start a login prompt on the '''serial port''' of the PC. | Now it is perfectly fine to send the boot messages and start a login prompt on something else. For instance the Linux Kernel has a '''netconsole''' feature, to send the boot messages over the network to another Linux computer. It is also possible to send a copy of the boot messages, and start a login prompt on the '''serial port''' of the PC. We get then what is called a '''serial console''' | ||
If you connect to this serial port any computing device with a '''terminal emulation''' program, it will be possible to work on the Linux PC as if you were using the PC locally in text mode. The requirements of the terminal emulation are quite low, so you could use HyperTerminal on a Windows PC, Minicom on Linux or even an [http://www.tldp.org/LDP/LG/issue70/arndt.html old Atari ST] with the appropriate program. | If you connect to this serial port any computing device with a '''terminal emulation''' program, it will be possible to work on the Linux PC as if you were using the PC locally in text mode. The requirements of the terminal emulation are quite low, so you could use HyperTerminal on a Windows PC, Minicom on Linux or even an [http://www.tldp.org/LDP/LG/issue70/arndt.html old Atari ST] with the appropriate program. | ||
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===== Add a virtual serial port to the VM ===== | ===== Add a virtual serial port to the VM ===== | ||
Provided your VM IS is 101 | |||
# open /etc/pve/qemu-server/101.conf and add the following parameter at the end of file | # open /etc/pve/qemu-server/101.conf and add the following parameter at the end of file | ||
serial0: socket | serial0: socket | ||
or use | |||
qm set 101 -serial0 socket | |||
== Configuration on the guest == | == Configuration on the guest == | ||
==== Configure the terminal if not present ==== | |||
As detailed in https://help.ubuntu.com/community/SerialConsoleHowto#Server_Setup , check if you have the file '''/etc/init/ttyS0.conf'''. If not, create it: | |||
'''# ttyS0 - getty | |||
'''# | |||
'''# This service maintains a getty on ttyS0 from the point the system is | |||
'''# started until it is shut down again. | |||
'''start on stopped rc RUNLEVEL=[12345] | |||
'''stop on runlevel [!12345] | |||
'''respawn''' | |||
'''exec /sbin/getty -L 115200 ttyS0 vt102''' | |||
then ask upstart to start terminal | |||
'''sudo start ttyS0''' | |||
You might consider creating the ttyS1.conf file as well, just as a backup in case you have a crash with ttyS0 | |||
===== Reboot the VM, verify that the emulated serial port is there ===== | ===== Reboot the VM, verify that the emulated serial port is there ===== | ||
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dmesg | grep ttyS | dmesg | grep ttyS | ||
[ 0.457814] 00:0a: ttyS0 at I/O 0x3f8 (irq = 4) is a 16550A | [ 0.457814] 00:0a: ttyS0 at I/O 0x3f8 (irq = 4) is a 16550A | ||
If ttyS0 is not there, type | |||
'''sudo start ttyS0''' | |||
from the VM shell | |||
===== Instruct grub2 to send the boot messages on the VGA display and on the serial port ===== | ===== Instruct grub2 to send the boot messages on the VGA display and on the serial port ===== | ||
# in /etc/default/grub change the | # in /etc/default/grub change the GRUB_CMDLINE_LINUX parameter to | ||
GRUB_CMDLINE_LINUX="quiet console=tty0 console=ttyS0,115200" | |||
run | |||
# debian based | |||
update-grub | update-grub | ||
# redhat based | |||
grub2-mkconfig --output=/boot/grub2/grub.cfg | |||
and do a final reboot | |||
== Connecting to the Serial Terminal == | == Connecting to the Serial Terminal == | ||
On the Host, just enter | On the Host, just enter | ||
qm terminal <VMiD> | '''qm terminal <VMiD>''' | ||
and enter enter a second time you should get a login prompt | and enter '''enter''' a second time you should get a login prompt | ||
'''Note:''' if it seems this is not working, and if you have defined ttyS1, you can connect to itwith the command | |||
'''qm terminal <VMiD> -iface serial1''' | |||
Now if you reboot your system you should see that the kernel startup messages are send to both your serial terminal and NoVNC display. | |||
Additionally (quoting from a private email, edited for clarity): | |||
Qemu also supports binding the emulated serial port to a telnet server. Look for the -chardev parameter in the qemu-kvm manual page. (With proxmox you would then use the "args:" parameter in vm.conf to specify extra args.) This would allow you to telnet to your host on a specific port to get a serial console. As with every telnet traffic remember that nothing is encrypted, so I wouldn't do this in a production setup. | |||
== Trouble shooting == | == Trouble shooting == | ||
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Remember the <code>qm terminal</code> uses Ctrl-O as shortcut, so saving a file from <code>nano</code> with Ctrl-O will log you out instead | Remember the <code>qm terminal</code> uses Ctrl-O as shortcut, so saving a file from <code>nano</code> with Ctrl-O will log you out instead | ||
== Going Further | == References == | ||
It is also possible to have the grub2 | * Systemd documentation: http://0pointer.de/blog/projects/serial-console.html | ||
== Going Further == | |||
It is also possible to have the grub2 and grub accessible from the serial port. See https://help.ubuntu.com/community/Grub2#Booting_from_a_serial_console for how to do this with Grub2. | |||
Latest revision as of 10:00, 27 August 2018
Why would I need a serial terminal / serial console?
Note: This apply to qemu/kvm virtualization.
If you do a lot of work over ssh on your pve server you would maybe appreciate to connect to your running VMs like:
qm status 101 status: running
qm terminal 101 starting serial terminal on interface serial0 (press control-O to exit) Debian GNU/Linux 8 debian8 ttyS0 debian8 login:
Other use cases:
- you lost network access to the guest and VNC is either too slow for you or does not have the features you need (i.e. easy copy/paste between other terminals)
- your guest freezes or kernel panics, you want to debug it, but it is impossible to capture all messages on VNC screen
- your keyboard layout is borked on the guest
- you are familiar with
xm console <guest>from Xen and you want to use a similar feature here
Some background so you get the idea
When you start Unix/Linux on a PC, the default input device is the attached keyboard (PS/2 or USB), and the default output device is the available VGA /HDMI / Display port of the PC. This is called in Unix-speak the default console, or system console. During boot, the kernel sends its boot messages, like device detection, to this default console, and at the end of the boot processes, fires a "login: " prompt on this console. (Actually it spawns multiple login prompts, you can switch between them with Ctrl-alt-F1, Ctrl-alt-F2, etc ... )
Now it is perfectly fine to send the boot messages and start a login prompt on something else. For instance the Linux Kernel has a netconsole feature, to send the boot messages over the network to another Linux computer. It is also possible to send a copy of the boot messages, and start a login prompt on the serial port of the PC. We get then what is called a serial console If you connect to this serial port any computing device with a terminal emulation program, it will be possible to work on the Linux PC as if you were using the PC locally in text mode. The requirements of the terminal emulation are quite low, so you could use HyperTerminal on a Windows PC, Minicom on Linux or even an old Atari ST with the appropriate program.
How do this apply to Proxmox PVE ?
In proxmox things work exactly the same, but with emulated devices. NoVNC/ VNC Applet connects to your VM keyboard and VM VGA display and displays the stuff you would expect from a real PC on a VGA display with a locally attached keyboard. Now we can also configure our VM to have an emulated serial port, and instruct the OS, to send a copy of the boot messages / start a login prompt on the emulated serial port. Once this is configured it will be possible to connect from the host (ie the server running pve) using a terminal emulation program, which is handily builtin in the Proxmox Qemu Manager.
Configuration on the host
Add a virtual serial port to the VM
Provided your VM IS is 101
# open /etc/pve/qemu-server/101.conf and add the following parameter at the end of file serial0: socket
or use
qm set 101 -serial0 socket
Configuration on the guest
Configure the terminal if not present
As detailed in https://help.ubuntu.com/community/SerialConsoleHowto#Server_Setup , check if you have the file /etc/init/ttyS0.conf. If not, create it:
# ttyS0 - getty # # This service maintains a getty on ttyS0 from the point the system is # started until it is shut down again.
start on stopped rc RUNLEVEL=[12345] stop on runlevel [!12345]
respawn exec /sbin/getty -L 115200 ttyS0 vt102
then ask upstart to start terminal
sudo start ttyS0
You might consider creating the ttyS1.conf file as well, just as a backup in case you have a crash with ttyS0
Reboot the VM, verify that the emulated serial port is there
dmesg | grep ttyS [ 0.457814] 00:0a: ttyS0 at I/O 0x3f8 (irq = 4) is a 16550A
If ttyS0 is not there, type
sudo start ttyS0
from the VM shell
Instruct grub2 to send the boot messages on the VGA display and on the serial port
# in /etc/default/grub change the GRUB_CMDLINE_LINUX parameter to GRUB_CMDLINE_LINUX="quiet console=tty0 console=ttyS0,115200"
run
# debian based update-grub # redhat based grub2-mkconfig --output=/boot/grub2/grub.cfg
and do a final reboot
Connecting to the Serial Terminal
On the Host, just enter
qm terminal <VMiD>
and enter enter a second time you should get a login prompt
Note: if it seems this is not working, and if you have defined ttyS1, you can connect to itwith the command
qm terminal <VMiD> -iface serial1
Now if you reboot your system you should see that the kernel startup messages are send to both your serial terminal and NoVNC display.
Additionally (quoting from a private email, edited for clarity):
Qemu also supports binding the emulated serial port to a telnet server. Look for the -chardev parameter in the qemu-kvm manual page. (With proxmox you would then use the "args:" parameter in vm.conf to specify extra args.) This would allow you to telnet to your host on a specific port to get a serial console. As with every telnet traffic remember that nothing is encrypted, so I wouldn't do this in a production setup.
Trouble shooting
You can check that the virtual serial port is present, and properly bound to the unix socket that qm terminal uses with:
qm monitor <VMiD> info chardev
which should contains a line starting with serial0 like:
serial0: filename=disconnected:unix:/var/run/qemu-server/101.serial0,server
Remember the qm terminal uses Ctrl-O as shortcut, so saving a file from nano with Ctrl-O will log you out instead
References
- Systemd documentation: http://0pointer.de/blog/projects/serial-console.html
Going Further
It is also possible to have the grub2 and grub accessible from the serial port. See https://help.ubuntu.com/community/Grub2#Booting_from_a_serial_console for how to do this with Grub2.