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[#]: collector: (lujun9972)
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[#]: translator: (YungeG)
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[#]: reviewer: ( )
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[#]: publisher: ( )
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[#]: url: ( )
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[#]: subject: (Understanding systemd at startup on Linux)
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[#]: via: (https://opensource.com/article/20/5/systemd-startup)
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[#]: author: (David Both https://opensource.com/users/dboth)
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Understanding systemd at startup on Linux
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======
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systemd's startup provides important clues to help you solve problems
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when they occur.
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![People at the start line of a race][1]
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In [_Learning to love systemd_][2], the first article in this series, I looked at systemd's functions and architecture and the controversy around its role as a replacement for the old SystemV init program and startup scripts. In this second article, I'll start exploring the files and tools that manage the Linux startup sequence. I'll explain the systemd startup sequence, how to change the default startup target (runlevel in SystemV terms), and how to manually switch to a different target without going through a reboot.
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I'll also look at two important systemd tools. The first is the **systemctl** command, which is the primary means of interacting with and sending commands to systemd. The second is **journalctl**, which provides access to the systemd journals that contain huge amounts of system history data such as kernel and service messages (both informational and error messages).
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Be sure to use a non-production system for testing and experimentation in this and future articles. Your test system needs to have a GUI desktop (such as Xfce, LXDE, Gnome, KDE, or another) installed.
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I wrote in my previous article that I planned to look at creating a systemd unit and adding it to the startup sequence in this article. Because this article became longer than I anticipated, I will hold that for the next article in this series.
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### Exploring Linux startup with systemd
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Before you can observe the startup sequence, you need to do a couple of things to make the boot and startup sequences open and visible. Normally, most distributions use a startup animation or splash screen to hide the detailed messages that would otherwise be displayed during a Linux host's startup and shutdown. This is called the Plymouth boot screen on Red Hat-based distros. Those hidden messages can provide a great deal of information about startup and shutdown to a sysadmin looking for information to troubleshoot a bug or to just learn about the startup sequence. You can change this using the GRUB (Grand Unified Boot Loader) configuration.
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The main GRUB configuration file is **/boot/grub2/grub.cfg**, but, because this file can be overwritten when the kernel version is updated, you do not want to change it. Instead, modify the **/etc/default/grub** file, which is used to modify the default settings of **grub.cfg**.
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Start by looking at the current, unmodified version of the **/etc/default/grub** file:
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```
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[root@testvm1 ~]# cd /etc/default ; cat grub
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GRUB_TIMEOUT=5
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GRUB_DISTRIBUTOR="$(sed 's, release .*$,,g' /etc/system-release)"
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GRUB_DEFAULT=saved
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GRUB_DISABLE_SUBMENU=true
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GRUB_TERMINAL_OUTPUT="console"
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GRUB_CMDLINE_LINUX="resume=/dev/mapper/fedora_testvm1-swap rd.lvm.
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lv=fedora_testvm1/root rd.lvm.lv=fedora_testvm1/swap rd.lvm.lv=fedora_
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testvm1/usr rhgb quiet"
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GRUB_DISABLE_RECOVERY="true"
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[root@testvm1 default]#
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```
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Chapter 6 of the [GRUB documentation][3] contains a list of all the possible entries in the **/etc/default/grub** file, but I focus on the following:
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* I change **GRUB_TIMEOUT**, the number of seconds for the GRUB menu countdown, from five to 10 to give a bit more time to respond to the GRUB menu before the countdown hits zero.
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* I delete the last two parameters on **GRUB_CMDLINE_LINUX**, which lists the command-line parameters that are passed to the kernel at boot time. One of these parameters, **rhgb** stands for Red Hat Graphical Boot, and it displays the little Fedora icon animation during the kernel initialization instead of showing boot-time messages. The other, the **quiet** parameter, prevents displaying the startup messages that document the progress of the startup and any errors that occur. I delete both **rhgb** and **quiet** because sysadmins need to see these messages. If something goes wrong during boot, the messages displayed on the screen can point to the cause of the problem.
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After you make these changes, your GRUB file will look like:
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```
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[root@testvm1 default]# cat grub
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GRUB_TIMEOUT=10
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GRUB_DISTRIBUTOR="$(sed 's, release .*$,,g' /etc/system-release)"
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GRUB_DEFAULT=saved
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GRUB_DISABLE_SUBMENU=true
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GRUB_TERMINAL_OUTPUT="console"
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GRUB_CMDLINE_LINUX="resume=/dev/mapper/fedora_testvm1-swap rd.lvm.
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lv=fedora_testvm1/root rd.lvm.lv=fedora_testvm1/swap rd.lvm.lv=fedora_
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testvm1/usr"
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GRUB_DISABLE_RECOVERY="false"
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[root@testvm1 default]#
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```
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The **grub2-mkconfig** program generates the **grub.cfg** configuration file using the contents of the **/etc/default/grub** file to modify some of the default GRUB settings. The **grub2-mkconfig** program sends its output to **STDOUT**. It has a **-o** option that allows you to specify a file to send the datastream to, but it is just as easy to use redirection. Run the following command to update the **/boot/grub2/grub.cfg** configuration file:
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```
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[root@testvm1 grub2]# grub2-mkconfig > /boot/grub2/grub.cfg
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Generating grub configuration file ...
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Found linux image: /boot/vmlinuz-4.18.9-200.fc28.x86_64
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Found initrd image: /boot/initramfs-4.18.9-200.fc28.x86_64.img
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Found linux image: /boot/vmlinuz-4.17.14-202.fc28.x86_64
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Found initrd image: /boot/initramfs-4.17.14-202.fc28.x86_64.img
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Found linux image: /boot/vmlinuz-4.16.3-301.fc28.x86_64
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Found initrd image: /boot/initramfs-4.16.3-301.fc28.x86_64.img
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Found linux image: /boot/vmlinuz-0-rescue-7f12524278bd40e9b10a085bc82dc504
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Found initrd image: /boot/initramfs-0-rescue-7f12524278bd40e9b10a085bc82dc504.img
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done
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[root@testvm1 grub2]#
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```
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Reboot your test system to view the startup messages that would otherwise be hidden behind the Plymouth boot animation. But what if you need to view the startup messages and have not disabled the Plymouth boot animation? Or you have, but the messages stream by too fast to read? (Which they do.)
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There are a couple of options, and both involve log files and systemd journals—which are your friends. You can use the **less** command to view the contents of the **/var/log/messages** file. This file contains boot and startup messages as well as messages generated by the operating system during normal operation. You can also use the **journalctl** command without any options to view the systemd journal, which contains essentially the same information:
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```
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[root@testvm1 grub2]# journalctl
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\-- Logs begin at Sat 2020-01-11 21:48:08 EST, end at Fri 2020-04-03 08:54:30 EDT. --
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Jan 11 21:48:08 f31vm.both.org kernel: Linux version 5.3.7-301.fc31.x86_64 ([mockbuild@bkernel03.phx2.fedoraproject.org][4]) (gcc version 9.2.1 20190827 (Red Hat 9.2.1-1) (GCC)) #1 SMP Mon Oct >
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Jan 11 21:48:08 f31vm.both.org kernel: Command line: BOOT_IMAGE=(hd0,msdos1)/vmlinuz-5.3.7-301.fc31.x86_64 root=/dev/mapper/VG01-root ro resume=/dev/mapper/VG01-swap rd.lvm.lv=VG01/root rd>
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Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x001: 'x87 floating point registers'
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Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x002: 'SSE registers'
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Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x004: 'AVX registers'
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Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: xstate_offset[2]: 576, xstate_sizes[2]: 256
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Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Enabled xstate features 0x7, context size is 832 bytes, using 'standard' format.
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-provided physical RAM map:
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000000000000-0x000000000009fbff] usable
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x000000000009fc00-0x000000000009ffff] reserved
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000000f0000-0x00000000000fffff] reserved
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000000100000-0x00000000dffeffff] usable
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000dfff0000-0x00000000dfffffff] ACPI data
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fec00000-0x00000000fec00fff] reserved
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fee00000-0x00000000fee00fff] reserved
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fffc0000-0x00000000ffffffff] reserved
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Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000100000000-0x000000041fffffff] usable
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Jan 11 21:48:08 f31vm.both.org kernel: NX (Execute Disable) protection: active
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Jan 11 21:48:08 f31vm.both.org kernel: SMBIOS 2.5 present.
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Jan 11 21:48:08 f31vm.both.org kernel: DMI: innotek GmbH VirtualBox/VirtualBox, BIOS VirtualBox 12/01/2006
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Jan 11 21:48:08 f31vm.both.org kernel: Hypervisor detected: KVM
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Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: Using msrs 4b564d01 and 4b564d00
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Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: cpu 0, msr 30ae01001, primary cpu clock
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Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: using sched offset of 8250734066 cycles
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Jan 11 21:48:08 f31vm.both.org kernel: clocksource: kvm-clock: mask: 0xffffffffffffffff max_cycles: 0x1cd42e4dffb, max_idle_ns: 881590591483 ns
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Jan 11 21:48:08 f31vm.both.org kernel: tsc: Detected 2807.992 MHz processor
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Jan 11 21:48:08 f31vm.both.org kernel: e820: update [mem 0x00000000-0x00000fff] usable ==> reserved
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Jan 11 21:48:08 f31vm.both.org kernel: e820: remove [mem 0x000a0000-0x000fffff] usable
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<snip>
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```
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I truncated this datastream because it can be hundreds of thousands or even millions of lines long. (The journal listing on my primary workstation is 1,188,482 lines long.) Be sure to try this on your test system. If it has been running for some time—even if it has been rebooted many times—huge amounts of data will be displayed. Explore this journal data because it contains a lot of information that can be very useful when doing problem determination. Knowing what this data looks like for a normal boot and startup can help you locate problems when they occur.
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I will discuss systemd journals, the **journalctl** command, and how to sort through all of that data to find what you want in more detail in a future article in this series.
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After GRUB loads the kernel into memory, it must first extract itself from the compressed version of the file before it can perform any useful work. After the kernel has extracted itself and started running, it loads systemd and turns control over to it.
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This is the end of the boot process. At this point, the Linux kernel and systemd are running but unable to perform any productive tasks for the end user because nothing else is running, there's no shell to provide a command line, no background processes to manage the network or other communication links, and nothing that enables the computer to perform any productive function.
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Systemd can now load the functional units required to bring the system up to a selected target run state.
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### Targets
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A systemd target represents a Linux system's current or desired run state. Much like SystemV start scripts, targets define the services that must be present for the system to run and be active in that state. Figure 1 shows the possible run-state targets of a Linux system using systemd. As seen in the first article of this series and in the systemd bootup man page (man bootup), there are other intermediate targets that are required to enable various necessary services. These can include **swap.target**, **timers.target**, **local-fs.target**, and more. Some targets (like **basic.target**) are used as checkpoints to ensure that all the required services are up and running before moving on to the next-higher level target.
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Unless otherwise changed at boot time in the GRUB menu, systemd always starts the **default.target**. The **default.target** file is a symbolic link to the true target file. For a desktop workstation, this is typically going to be the **graphical.target**, which is equivalent to runlevel 5 in SystemV. For a server, the default is more likely to be the **multi-user.target**, which is like runlevel 3 in SystemV. The **emergency.target** file is similar to single-user mode. Targets and services are systemd units.
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The following table, which I included in the previous article in this series, compares the systemd targets with the old SystemV startup runlevels. The systemd target aliases are provided by systemd for backward compatibility. The target aliases allow scripts—and sysadmins—to use SystemV commands like **init 3** to change runlevels. Of course, the SystemV commands are forwarded to systemd for interpretation and execution.
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**systemd targets** | **SystemV runlevel** | **target aliases** | **Description**
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---|---|---|---
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default.target | | | This target is always aliased with a symbolic link to either **multi-user.target** or **graphical.target**. systemd always uses the **default.target** to start the system. The **default.target** should never be aliased to **halt.target**, **poweroff.target**, or **reboot.target**.
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graphical.target | 5 | runlevel5.target | **Multi-user.target** with a GUI
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| 4 | runlevel4.target | Unused. Runlevel 4 was identical to runlevel 3 in the SystemV world. This target could be created and customized to start local services without changing the default **multi-user.target**.
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multi-user.target | 3 | runlevel3.target | All services running, but command-line interface (CLI) only
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| 2 | runlevel2.target | Multi-user, without NFS, but all other non-GUI services running
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rescue.target | 1 | runlevel1.target | A basic system, including mounting the filesystems with only the most basic services running and a rescue shell on the main console
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emergency.target | S | | Single-user mode—no services are running; filesystems are not mounted. This is the most basic level of operation with only an emergency shell running on the main console for the user to interact with the system.
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halt.target | | | Halts the system without powering it down
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reboot.target | 6 | runlevel6.target | Reboot
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poweroff.target | 0 | runlevel0.target | Halts the system and turns the power off
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Each target has a set of dependencies described in its configuration file. systemd starts the required dependencies, which are the services required to run the Linux host at a specific level of functionality. When all of the dependencies listed in the target configuration files are loaded and running, the system is running at that target level. If you want, you can review the systemd startup sequence and runtime targets in the first article in this series, [_Learning to love systemd_][2].
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### Exploring the current target
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Many Linux distributions default to installing a GUI desktop interface so that the installed systems can be used as workstations. I always install from a Fedora Live boot USB drive with an Xfce or LXDE desktop. Even when I'm installing a server or other infrastructure type of host (such as the ones I use for routers and firewalls), I use one of these installations that installs a GUI desktop.
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I could install a server without a desktop (and that would be typical for data centers), but that does not meet my needs. It is not that I need the GUI desktop itself, but the LXDE installation includes many of the other tools I use that are not in a default server installation. This means less work for me after the initial installation.
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But just because I have a GUI desktop does not mean it makes sense to use it. I have a 16-port KVM that I can use to access the KVM interfaces of most of my Linux systems, but the vast majority of my interaction with them is via a remote SSH connection from my primary workstation. This way is more secure and uses fewer system resources to run **multi-user.target** compared to **graphical.target.**
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To begin, check the default target to verify that it is the **graphical.target**:
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```
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[root@testvm1 ~]# systemctl get-default
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graphical.target
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[root@testvm1 ~]#
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```
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Now verify the currently running target. It should be the same as the default target. You can still use the old method, which displays the old SystemV runlevels. Note that the previous runlevel is on the left; it is **N** (which means None), indicating that the runlevel has not changed since the host was booted. The number 5 indicates the current target, as defined in the old SystemV terminology:
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```
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[root@testvm1 ~]# runlevel
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N 5
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[root@testvm1 ~]#
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```
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Note that the runlevel man page indicates that runlevels are obsolete and provides a conversion table.
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You can also use the systemd method. There is no one-line answer here, but it does provide the answer in systemd terms:
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```
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[root@testvm1 ~]# systemctl list-units --type target
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UNIT LOAD ACTIVE SUB DESCRIPTION
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basic.target loaded active active Basic System
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cryptsetup.target loaded active active Local Encrypted Volumes
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getty.target loaded active active Login Prompts
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graphical.target loaded active active Graphical Interface
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local-fs-pre.target loaded active active Local File Systems (Pre)
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local-fs.target loaded active active Local File Systems
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multi-user.target loaded active active Multi-User System
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network-online.target loaded active active Network is Online
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network.target loaded active active Network
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nfs-client.target loaded active active NFS client services
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nss-user-lookup.target loaded active active User and Group Name Lookups
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paths.target loaded active active Paths
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remote-fs-pre.target loaded active active Remote File Systems (Pre)
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remote-fs.target loaded active active Remote File Systems
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rpc_pipefs.target loaded active active rpc_pipefs.target
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slices.target loaded active active Slices
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sockets.target loaded active active Sockets
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sshd-keygen.target loaded active active sshd-keygen.target
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swap.target loaded active active Swap
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sysinit.target loaded active active System Initialization
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timers.target loaded active active Timers
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LOAD = Reflects whether the unit definition was properly loaded.
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ACTIVE = The high-level unit activation state, i.e. generalization of SUB.
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SUB = The low-level unit activation state, values depend on unit type.
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21 loaded units listed. Pass --all to see loaded but inactive units, too.
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To show all installed unit files use 'systemctl list-unit-files'.
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```
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This shows all of the currently loaded and active targets. You can also see the **graphical.target** and the **multi-user.target**. The **multi-user.target** is required before the **graphical.target** can be loaded. In this example, the **graphical.target** is active.
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### Switching to a different target
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Making the switch to the **multi-user.target** is easy:
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```
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`[root@testvm1 ~]# systemctl isolate multi-user.target`
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```
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The display should now change from the GUI desktop or login screen to a virtual console. Log in and list the currently active systemd units to verify that **graphical.target** is no longer running:
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```
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`[root@testvm1 ~]# systemctl list-units --type target`
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```
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|
||||||
Be sure to use the **runlevel** command to verify that it shows both previous and current "runlevels":
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 ~]# runlevel
|
|
||||||
5 3
|
|
||||||
```
|
|
||||||
|
|
||||||
### Changing the default target
|
|
||||||
|
|
||||||
Now, change the default target to the **multi-user.target** so that it will always boot into the **multi-user.target** for a console command-line interface rather than a GUI desktop interface. As the root user on your test host, change to the directory where the systemd configuration is maintained and do a quick listing:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 ~]# cd /etc/systemd/system/ ; ll
|
|
||||||
drwxr-xr-x. 2 root root 4096 Apr 25 2018 basic.target.wants
|
|
||||||
<snip>
|
|
||||||
lrwxrwxrwx. 1 root root 36 Aug 13 16:23 default.target -> /lib/systemd/system/graphical.target
|
|
||||||
lrwxrwxrwx. 1 root root 39 Apr 25 2018 display-manager.service -> /usr/lib/systemd/system/lightdm.service
|
|
||||||
drwxr-xr-x. 2 root root 4096 Apr 25 2018 getty.target.wants
|
|
||||||
drwxr-xr-x. 2 root root 4096 Aug 18 10:16 graphical.target.wants
|
|
||||||
drwxr-xr-x. 2 root root 4096 Apr 25 2018 local-fs.target.wants
|
|
||||||
drwxr-xr-x. 2 root root 4096 Oct 30 16:54 multi-user.target.wants
|
|
||||||
<snip>
|
|
||||||
[root@testvm1 system]#
|
|
||||||
```
|
|
||||||
|
|
||||||
I shortened this listing to highlight a few important things that will help explain how systemd manages the boot process. You should be able to see the entire list of directories and links on your virtual machine.
|
|
||||||
|
|
||||||
The **default.target** entry is a symbolic link (symlink, soft link) to the directory **/lib/systemd/system/graphical.target**. List that directory to see what else is there:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
`[root@testvm1 system]# ll /lib/systemd/system/ | less`
|
|
||||||
```
|
|
||||||
|
|
||||||
You should see files, directories, and more links in this listing, but look specifically for **multi-user.target** and **graphical.target**. Now display the contents of **default.target**, which is a link to **/lib/systemd/system/graphical.target**:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 system]# cat default.target
|
|
||||||
# SPDX-License-Identifier: LGPL-2.1+
|
|
||||||
#
|
|
||||||
# This file is part of systemd.
|
|
||||||
#
|
|
||||||
# systemd is free software; you can redistribute it and/or modify it
|
|
||||||
# under the terms of the GNU Lesser General Public License as published by
|
|
||||||
# the Free Software Foundation; either version 2.1 of the License, or
|
|
||||||
# (at your option) any later version.
|
|
||||||
|
|
||||||
[Unit]
|
|
||||||
Description=Graphical Interface
|
|
||||||
Documentation=man:systemd.special(7)
|
|
||||||
Requires=multi-user.target
|
|
||||||
Wants=display-manager.service
|
|
||||||
Conflicts=rescue.service rescue.target
|
|
||||||
After=multi-user.target rescue.service rescue.target display-manager.service
|
|
||||||
AllowIsolate=yes
|
|
||||||
[root@testvm1 system]#
|
|
||||||
```
|
|
||||||
|
|
||||||
This link to the **graphical.target** file describes all of the prerequisites and requirements that the graphical user interface requires. I will explore at least some of these options in the next article in this series.
|
|
||||||
|
|
||||||
To enable the host to boot to multi-user mode, you need to delete the existing link and create a new one that points to the correct target. Make the [PWD][5] **/etc/systemd/system**, if it is not already:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 system]# rm -f default.target
|
|
||||||
[root@testvm1 system]# ln -s /lib/systemd/system/multi-user.target default.target
|
|
||||||
```
|
|
||||||
|
|
||||||
List the **default.target** link to verify that it links to the correct file:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 system]# ll default.target
|
|
||||||
lrwxrwxrwx 1 root root 37 Nov 28 16:08 default.target -> /lib/systemd/system/multi-user.target
|
|
||||||
[root@testvm1 system]#
|
|
||||||
```
|
|
||||||
|
|
||||||
If your link does not look exactly like this, delete it and try again. List the content of the **default.target** link:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 system]# cat default.target
|
|
||||||
# SPDX-License-Identifier: LGPL-2.1+
|
|
||||||
#
|
|
||||||
# This file is part of systemd.
|
|
||||||
#
|
|
||||||
# systemd is free software; you can redistribute it and/or modify it
|
|
||||||
# under the terms of the GNU Lesser General Public License as published by
|
|
||||||
# the Free Software Foundation; either version 2.1 of the License, or
|
|
||||||
# (at your option) any later version.
|
|
||||||
|
|
||||||
[Unit]
|
|
||||||
Description=Multi-User System
|
|
||||||
Documentation=man:systemd.special(7)
|
|
||||||
Requires=basic.target
|
|
||||||
Conflicts=rescue.service rescue.target
|
|
||||||
After=basic.target rescue.service rescue.target
|
|
||||||
AllowIsolate=yes
|
|
||||||
[root@testvm1 system]#
|
|
||||||
```
|
|
||||||
|
|
||||||
The **default.target**—which is really a link to the **multi-user.target** at this point—now has different requirements in the **[Unit]** section. It does not require the graphical display manager.
|
|
||||||
|
|
||||||
Reboot. Your virtual machine should boot to the console login for virtual console 1, which is identified on the display as tty1. Now that you know how to change the default target, change it back to the **graphical.target** using a command designed for the purpose.
|
|
||||||
|
|
||||||
First, check the current default target:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
[root@testvm1 ~]# systemctl get-default
|
|
||||||
multi-user.target
|
|
||||||
[root@testvm1 ~]# systemctl set-default graphical.target
|
|
||||||
Removed /etc/systemd/system/default.target.
|
|
||||||
Created symlink /etc/systemd/system/default.target → /usr/lib/systemd/system/graphical.target.
|
|
||||||
[root@testvm1 ~]#
|
|
||||||
```
|
|
||||||
|
|
||||||
Enter the following command to go directly to the **graphical.target** and the display manager login page without having to reboot:
|
|
||||||
|
|
||||||
|
|
||||||
```
|
|
||||||
`[root@testvm1 system]# systemctl isolate default.target`
|
|
||||||
```
|
|
||||||
|
|
||||||
I do not know why the term "isolate" was chosen for this sub-command by systemd's developers. My research indicates that it may refer to running the specified target but "isolating" and terminating all other targets that are not required to support the target. However, the effect is to switch targets from one run target to another—in this case, from the multi-user target to the graphical target. The command above is equivalent to the old init 5 command in SystemV start scripts and the init program.
|
|
||||||
|
|
||||||
Log into the GUI desktop, and verify that it is working as it should.
|
|
||||||
|
|
||||||
### Summing up
|
|
||||||
|
|
||||||
This article explored the Linux systemd startup sequence and started to explore two important systemd tools, **systemctl** and **journalctl**. It also explained how to switch from one target to another and to change the default target.
|
|
||||||
|
|
||||||
The next article in this series will create a new systemd unit and configure it to run during startup. It will also look at some of the configuration options that help determine where in the sequence a particular unit will start, for example, after networking is up and running.
|
|
||||||
|
|
||||||
### Resources
|
|
||||||
|
|
||||||
There is a great deal of information about systemd available on the internet, but much is terse, obtuse, or even misleading. In addition to the resources mentioned in this article, the following webpages offer more detailed and reliable information about systemd startup.
|
|
||||||
|
|
||||||
* The Fedora Project has a good, practical [guide][6] [to systemd][6]. It has pretty much everything you need to know in order to configure, manage, and maintain a Fedora computer using systemd.
|
|
||||||
* The Fedora Project also has a good [cheat sheet][7] that cross-references the old SystemV commands to comparable systemd ones.
|
|
||||||
* For detailed technical information about systemd and the reasons for creating it, check out [Freedesktop.org][8]'s [description of systemd][9].
|
|
||||||
* [Linux.com][10]'s "More systemd fun" offers more advanced systemd [information and tips][11].
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
There is also a series of deeply technical articles for Linux sysadmins by Lennart Poettering, the designer and primary developer of systemd. These articles were written between April 2010 and September 2011, but they are just as relevant now as they were then. Much of everything else good that has been written about systemd and its ecosystem is based on these papers.
|
|
||||||
|
|
||||||
* [Rethinking PID 1][12]
|
|
||||||
* [systemd for Administrators, Part I][13]
|
|
||||||
* [systemd for Administrators, Part II][14]
|
|
||||||
* [systemd for Administrators, Part III][15]
|
|
||||||
* [systemd for Administrators, Part IV][16]
|
|
||||||
* [systemd for Administrators, Part V][17]
|
|
||||||
* [systemd for Administrators, Part VI][18]
|
|
||||||
* [systemd for Administrators, Part VII][19]
|
|
||||||
* [systemd for Administrators, Part VIII][20]
|
|
||||||
* [systemd for Administrators, Part IX][21]
|
|
||||||
* [systemd for Administrators, Part X][22]
|
|
||||||
* [systemd for Administrators, Part XI][23]
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
Alison Chiaken, a Linux kernel and systems programmer at Mentor Graphics, offers a preview of her...
|
|
||||||
|
|
||||||
--------------------------------------------------------------------------------
|
|
||||||
|
|
||||||
via: https://opensource.com/article/20/5/systemd-startup
|
|
||||||
|
|
||||||
作者:[David Both][a]
|
|
||||||
选题:[lujun9972][b]
|
|
||||||
译者:[译者ID](https://github.com/译者ID)
|
|
||||||
校对:[校对者ID](https://github.com/校对者ID)
|
|
||||||
|
|
||||||
本文由 [LCTT](https://github.com/LCTT/TranslateProject) 原创编译,[Linux中国](https://linux.cn/) 荣誉推出
|
|
||||||
|
|
||||||
[a]: https://opensource.com/users/dboth
|
|
||||||
[b]: https://github.com/lujun9972
|
|
||||||
[1]: https://opensource.com/sites/default/files/styles/image-full-size/public/lead-images/start_line.jpg?itok=9reaaW6m (People at the start line of a race)
|
|
||||||
[2]: https://opensource.com/article/20/4/systemd
|
|
||||||
[3]: http://www.gnu.org/software/grub/manual/grub
|
|
||||||
[4]: mailto:mockbuild@bkernel03.phx2.fedoraproject.org
|
|
||||||
[5]: https://en.wikipedia.org/wiki/Pwd
|
|
||||||
[6]: https://docs.fedoraproject.org/en-US/quick-docs/understanding-and-administering-systemd/index.html
|
|
||||||
[7]: https://fedoraproject.org/wiki/SysVinit_to_Systemd_Cheatsheet
|
|
||||||
[8]: http://Freedesktop.org
|
|
||||||
[9]: http://www.freedesktop.org/wiki/Software/systemd
|
|
||||||
[10]: http://Linux.com
|
|
||||||
[11]: https://www.linux.com/training-tutorials/more-systemd-fun-blame-game-and-stopping-services-prejudice/
|
|
||||||
[12]: http://0pointer.de/blog/projects/systemd.html
|
|
||||||
[13]: http://0pointer.de/blog/projects/systemd-for-admins-1.html
|
|
||||||
[14]: http://0pointer.de/blog/projects/systemd-for-admins-2.html
|
|
||||||
[15]: http://0pointer.de/blog/projects/systemd-for-admins-3.html
|
|
||||||
[16]: http://0pointer.de/blog/projects/systemd-for-admins-4.html
|
|
||||||
[17]: http://0pointer.de/blog/projects/three-levels-of-off.html
|
|
||||||
[18]: http://0pointer.de/blog/projects/changing-roots
|
|
||||||
[19]: http://0pointer.de/blog/projects/blame-game.html
|
|
||||||
[20]: http://0pointer.de/blog/projects/the-new-configuration-files.html
|
|
||||||
[21]: http://0pointer.de/blog/projects/on-etc-sysinit.html
|
|
||||||
[22]: http://0pointer.de/blog/projects/instances.html
|
|
||||||
[23]: http://0pointer.de/blog/projects/inetd.html
|
|
@ -0,0 +1,421 @@
|
|||||||
|
[#]: collector: (lujun9972)
|
||||||
|
[#]: translator: (YungeG)
|
||||||
|
[#]: reviewer: ( )
|
||||||
|
[#]: publisher: ( )
|
||||||
|
[#]: url: ( )
|
||||||
|
[#]: subject: (Understanding systemd at startup on Linux)
|
||||||
|
[#]: via: (https://opensource.com/article/20/5/systemd-startup)
|
||||||
|
[#]: author: (David Both https://opensource.com/users/dboth)
|
||||||
|
|
||||||
|
在 Linux 启动时理解 systemd
|
||||||
|
======
|
||||||
|
|
||||||
|
systemd 启动过程提供的重要线索可以在问题出现时助你一臂之力。
|
||||||
|
![People at the start line of a race][1]
|
||||||
|
|
||||||
|
在本系列的第一篇文章[_学着爱上 systemd_][2],我考察了 systemd 的功能和架构,以及围绕 systemd 作为古老的 SystemV 初始化程序和启动脚本的替代品的争论。在这第二篇文章中,我将开始探索管理 Linux 启动序列的文件和工具。我会解释 systemd 启动序列、如何更改默认的启动目标(SystemV 术语中的运行级别)、以及在不重启的情况下如何手动切换到不同的目标。
|
||||||
|
|
||||||
|
我还将考察两个重要的 systemd 工具。第一个 **systemctl** 命令是和 systemd 交互、向其发送命令的基本方式。第二个是 **journalctl**,用于访问 systemd 日志,后者包含了大量系统历史数据,比如内核和服务的消息(包括指示性信息和错误信息)。
|
||||||
|
|
||||||
|
务必使用一个非生产系统进行本文和后续文章中的测试和实验。你的测试系统需要安装一个 GUI 桌面(比如 Xfce,LXDE,Gnome,KD E或其他)。
|
||||||
|
|
||||||
|
上一篇文章中我写道计划在这篇文章创建一个 systemd 单元并添加到启动序列。由于这篇文章比我预期中要长,这些内容将留到本系列的下一篇文章。
|
||||||
|
|
||||||
|
### 使用 systemd 探索 Linux 的启动
|
||||||
|
|
||||||
|
在观察启动序列之前,你需要做几件事情得使引导和启动序列开放可见。正常情况下,大多数发行版使用一个开机动画或者启动画面隐藏 Linux 启动和关机过程中的显示细节,在基于 Red Hat 的发行版中称作 Plymouth 引导画面。这些隐藏的消息能够向寻找信息以排除程序故障、或者只是学习启动序列的系统管理员提供大量有关系统启动和关闭的信息。你可以通过 GRUB(Grand Unified Boot Loader)配置改变这个设置。
|
||||||
|
|
||||||
|
主要的 GRUB 配置文件是 **/boot/grub2/grub.cfg** ,但是这个文件在更新内核版本时会被覆盖,你不会想修改它的。相反,修改用于改变 **grub.cfg** 默认设置的 **/etc/default/grub** 文件。
|
||||||
|
|
||||||
|
从 **/etc/default/grub** 文件当前还未修改的版本看起:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# cd /etc/default ; cat grub
|
||||||
|
GRUB_TIMEOUT=5
|
||||||
|
GRUB_DISTRIBUTOR="$(sed 's, release .*$,,g' /etc/system-release)"
|
||||||
|
GRUB_DEFAULT=saved
|
||||||
|
GRUB_DISABLE_SUBMENU=true
|
||||||
|
GRUB_TERMINAL_OUTPUT="console"
|
||||||
|
GRUB_CMDLINE_LINUX="resume=/dev/mapper/fedora_testvm1-swap rd.lvm.
|
||||||
|
lv=fedora_testvm1/root rd.lvm.lv=fedora_testvm1/swap rd.lvm.lv=fedora_
|
||||||
|
testvm1/usr rhgb quiet"
|
||||||
|
GRUB_DISABLE_RECOVERY="true"
|
||||||
|
[root@testvm1 default]#
|
||||||
|
```
|
||||||
|
|
||||||
|
[GRUB 文档][3]的第 6 章列出了 **/etc/default/grub** 文件的所有可用项,我只关注下面的部分:
|
||||||
|
|
||||||
|
* 我将 GRUB 菜单倒计时的秒数 **GRUB_TIMEOUT**,从 5 改成 10,以便在倒计时达到 0 之前有更多的时间响应 GRUB 菜单。
|
||||||
|
* **GRUB_CMDLINE_LINUX** 列出了启动阶段传递给内核的命令行参数,我删除了其中的最后两个参数。其中的一个参数 **rhgb** 代表 Red Hat Graphical Boot,在内核初始化阶段显示一个小小的 Fedora 图标动画,而不是显示启动阶段的信息。另一个参数 **quiet**,屏蔽记录启动进度和发生错误的消息。系统管理员需要这些信息,因此我删除了 **rhgb** 和 **quiet**。如果启动阶段发生了错误,屏幕上显示的信息可以指向故障的原因。
|
||||||
|
|
||||||
|
更改之后,你的 GRUB 文件将会像下面一样:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 default]# cat grub
|
||||||
|
GRUB_TIMEOUT=10
|
||||||
|
GRUB_DISTRIBUTOR="$(sed 's, release .*$,,g' /etc/system-release)"
|
||||||
|
GRUB_DEFAULT=saved
|
||||||
|
GRUB_DISABLE_SUBMENU=true
|
||||||
|
GRUB_TERMINAL_OUTPUT="console"
|
||||||
|
GRUB_CMDLINE_LINUX="resume=/dev/mapper/fedora_testvm1-swap rd.lvm.
|
||||||
|
lv=fedora_testvm1/root rd.lvm.lv=fedora_testvm1/swap rd.lvm.lv=fedora_
|
||||||
|
testvm1/usr"
|
||||||
|
GRUB_DISABLE_RECOVERY="false"
|
||||||
|
[root@testvm1 default]#
|
||||||
|
```
|
||||||
|
|
||||||
|
**grub2-mkconfig** 程序使用 **/etc/default/grub** 文件的内容生成 **grub.cfg** 配置文件,从而改变一些默认的 GRUB 设置。**grub2-mkconfig** 输出到 **STDOUT**,你可以使用程序的 **-o** 参数指明数据流输出的文件,不过使用重定向也同样简单。执行下面的命令更新 **/boot/grub2/grub.cfg** 配置文件:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 grub2]# grub2-mkconfig > /boot/grub2/grub.cfg
|
||||||
|
Generating grub configuration file ...
|
||||||
|
Found linux image: /boot/vmlinuz-4.18.9-200.fc28.x86_64
|
||||||
|
Found initrd image: /boot/initramfs-4.18.9-200.fc28.x86_64.img
|
||||||
|
Found linux image: /boot/vmlinuz-4.17.14-202.fc28.x86_64
|
||||||
|
Found initrd image: /boot/initramfs-4.17.14-202.fc28.x86_64.img
|
||||||
|
Found linux image: /boot/vmlinuz-4.16.3-301.fc28.x86_64
|
||||||
|
Found initrd image: /boot/initramfs-4.16.3-301.fc28.x86_64.img
|
||||||
|
Found linux image: /boot/vmlinuz-0-rescue-7f12524278bd40e9b10a085bc82dc504
|
||||||
|
Found initrd image: /boot/initramfs-0-rescue-7f12524278bd40e9b10a085bc82dc504.img
|
||||||
|
done
|
||||||
|
[root@testvm1 grub2]#
|
||||||
|
```
|
||||||
|
|
||||||
|
重新启动你的测试系统查看本来会隐藏在 Plymouth 开机动画之下的启动信息。但是如果你没有关闭开机动画,又需要查看启动信息的话又该如何操作?或者你关闭了开机动画,而消息流过的速度太快,无法阅读怎么办?(实际情况如此。)
|
||||||
|
|
||||||
|
有两个解决方案,都涉及到日志文件和 systemd 日志——两个都是你的好伙伴。你可以使用 **less** 命令查看 **/var/log/messages** 文件的内容。这个文件包含引导和启动信息,以及操作系统执行正常操作时生成的信息。你也可以使用不加任何参数的 **journalctl** 命令查看 systemd 日志,包含基本相同的信息:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 grub2]# journalctl
|
||||||
|
\-- Logs begin at Sat 2020-01-11 21:48:08 EST, end at Fri 2020-04-03 08:54:30 EDT. --
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: Linux version 5.3.7-301.fc31.x86_64 ([mockbuild@bkernel03.phx2.fedoraproject.org][4]) (gcc version 9.2.1 20190827 (Red Hat 9.2.1-1) (GCC)) #1 SMP Mon Oct >
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: Command line: BOOT_IMAGE=(hd0,msdos1)/vmlinuz-5.3.7-301.fc31.x86_64 root=/dev/mapper/VG01-root ro resume=/dev/mapper/VG01-swap rd.lvm.lv=VG01/root rd>
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x001: 'x87 floating point registers'
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x002: 'SSE registers'
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Supporting XSAVE feature 0x004: 'AVX registers'
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: xstate_offset[2]: 576, xstate_sizes[2]: 256
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: x86/fpu: Enabled xstate features 0x7, context size is 832 bytes, using 'standard' format.
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-provided physical RAM map:
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000000000000-0x000000000009fbff] usable
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x000000000009fc00-0x000000000009ffff] reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000000f0000-0x00000000000fffff] reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000000100000-0x00000000dffeffff] usable
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000dfff0000-0x00000000dfffffff] ACPI data
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fec00000-0x00000000fec00fff] reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fee00000-0x00000000fee00fff] reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x00000000fffc0000-0x00000000ffffffff] reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: BIOS-e820: [mem 0x0000000100000000-0x000000041fffffff] usable
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: NX (Execute Disable) protection: active
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: SMBIOS 2.5 present.
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: DMI: innotek GmbH VirtualBox/VirtualBox, BIOS VirtualBox 12/01/2006
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: Hypervisor detected: KVM
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: Using msrs 4b564d01 and 4b564d00
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: cpu 0, msr 30ae01001, primary cpu clock
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: kvm-clock: using sched offset of 8250734066 cycles
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: clocksource: kvm-clock: mask: 0xffffffffffffffff max_cycles: 0x1cd42e4dffb, max_idle_ns: 881590591483 ns
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: tsc: Detected 2807.992 MHz processor
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: e820: update [mem 0x00000000-0x00000fff] usable ==> reserved
|
||||||
|
Jan 11 21:48:08 f31vm.both.org kernel: e820: remove [mem 0x000a0000-0x000fffff] usable
|
||||||
|
```
|
||||||
|
|
||||||
|
由于数据流可能长达几百甚至几百万行,我在这里截断了它。(我的主要工作站上列出的日志长度是 1,188,482 行。)一定要在你的测试系统尝试这个命令。如果系统已经运行了一段时间——即使重启过很多次——还是会显示大量的数据。进行问题诊断时查看这个日志数据,因为其中包含了很多可能十分有用的信息。了解这个数据文件在正常的引导和启动过程中的模样,可以帮助你在问题出现时定位问题。
|
||||||
|
|
||||||
|
我将在本系列之后的文章讨论 systemd 日志、**journalctl** 命令、以及如何整列输出的日志数据来寻找更详细的信息。
|
||||||
|
|
||||||
|
内核被 GRUB 加载到内存后,必须先将自己从压缩后的文件中解压出来,才能执行任何有意义的操作。解压自己后,内核开始运行,加载 systemd 并转交控制权。
|
||||||
|
|
||||||
|
引导阶段到此结束,此时 Linux 内核和 systemd 正在运行,但是无法为用户执行任何生产性任务,因为其他的程序都没有执行,没有命令行解释器提供命令行,没有后台进程管理网络和其他的通信链接,也没有任何东西能够控制计算机执行生产功能。
|
||||||
|
|
||||||
|
现在 systemd 可以加载所需的功能性单元以便将系统启动到选择的目标运行状态。
|
||||||
|
|
||||||
|
### 目标
|
||||||
|
|
||||||
|
一个 systemd 目标代表一个 Linux 系统当前的或期望的运行状态。与 SystemV 启动脚本十分类似,目标定义了系统运行必须存在的服务,以及处于目标状态下必须激活的服务。图片 1 展示了使用 systemd 的 Linux 系统可能的运行状态目标。就像在本系列的第一篇文章以及 systemd 启动的手册页(`man bootup`)所看到的一样,有一些开启不同必要服务的其他中间目标,包括 **swap.target**、**timers.target**、**local-fs.target** 等。一些目标(像 **basic.target**)作为检查点使用,在移动到下一个更高级的目标之前保证所有需要的服务已经启动并运行。
|
||||||
|
|
||||||
|
除非开机时在 GRUB 菜单进行更改,systemd 总是启动 **default.target**。**default.target** 文件是指向真实的目标文件的符号链接。对于桌面工作站,**default.target** 通常是 **graphical.target**,等同于 SystemV 的运行等级 5。对于服务器,默认目标多半是 **multi-user.target**,就像 SystemV 的运行等级 3。**emergency.target** 文件类似单用户模式。目标和服务都是 systemd 单元。
|
||||||
|
|
||||||
|
下面的表格,包含在本系列的上一篇文章中,比较了 systemd 目标和古老的 SystemV 启动运行等级。为了向后兼容,systemd 提供了 systemd 目标别名,允许脚本——和系统管理员——使用像 **init 3** 一样的 SystemV 命令改变运行等级。当然,SystemV 命令被转发给 systemd 进行解释和执行。
|
||||||
|
|
||||||
|
**systemd targets** | **SystemV runlevel** | **target aliases** | **Description**
|
||||||
|
---|---|---|---
|
||||||
|
default.target | | | 这个目标通常是一个符号链接,作为 **multi-user.target** 或 **graphical.target** 的别名。systemd 总是用 **default.target** 启动系统。**default.target** 不能命名为 **halt.target**、**poweroff.target**、和 **reboot.target**。
|
||||||
|
graphical.target | 5 | runlevel5.target | 带有 GUI 的 **Multi-user.target**
|
||||||
|
| 4 | runlevel4.target | 未使用。运行等级 4 和 SystemV 的运行等级 3 一致,可以创建这个目标并进行定制,用于启动本地服务,而不必更改默认的 **multi-user.target**。
|
||||||
|
multi-user.target | 3 | runlevel3.target | 运行所有的服务,但是只有命令行接口(command-line interface,CLI)
|
||||||
|
| 2 | runlevel2.target | 多用户,没有 NFS,但是运行其他所有的非 GUI 服务
|
||||||
|
rescue.target | 1 | runlevel1.target | 一个基本的系统,包括挂载文件系统,但是只运行最基础的服务,以及一个主控制台上的救援命令行解释器
|
||||||
|
emergency.target | S | | 单用户模式——没有服务运行;文件系统没有挂载。这是最基础级的操作模式,只有一个运行在主控制台的紧急情况命令行解释器,供用户和系统交互。
|
||||||
|
halt.target | | | 不断电的情况下停止系统
|
||||||
|
reboot.target | 6 | runlevel6.target | 重启
|
||||||
|
poweroff.target | 0 | runlevel0.target | 停止系统并关闭电源
|
||||||
|
|
||||||
|
|
||||||
|
每个目标在配置文件中都描述了一组依赖关系。systemd 启动需要的依赖,即 Linux 主机运行在特定功能级别所需的服务。加载目标配置文件中列出的所有依赖并运行后,系统就运行在那个目标等级。如果愿意,你可以在本系列的第一篇文章 [_学着爱上 systemd_][2] 中回顾 systemd 的启动序列和运行时目标。
|
||||||
|
|
||||||
|
### 探索当前的目标
|
||||||
|
|
||||||
|
许多 Linux 发行版默认安装一个 GUI 桌面接口,以便安装的系统可以像工作站一样使用。我总是从 Fedora Live USB 引导驱动器安装 Xfce 或 LXDE 桌面。即使是安装一个服务器或者其他基础类型的主机(比如用于路由器和防火墙的主机),我也使用 GUI 桌面的安装方式。
|
||||||
|
|
||||||
|
我可以安装一个没有桌面的服务器(数据中心的典型做法),但是这样不满足我的需求。原因不是我需要 GUI 桌面本身,而是 LXDE 安装包含了许多其他默认的服务器安装没有提供的工具,这意味着初始安装之后我需要做的工作更少。
|
||||||
|
|
||||||
|
但是,仅仅因为有一个 GUI 桌面并不意味着我要使用它。我有一个 16 端口的 KVM,可以用于访问我的大部分 Linux 系统的 KVM 接口,但我和它们交互的大部分交互是通过从我的主要工作站建立的远程 SSH 连接。这种方式更安全,而且和 **graphical.target** 相比,运行 **multi-user.target** 使用更少的系统资源。
|
||||||
|
|
||||||
|
首先,检查默认目标,确认是 **graphical.target**:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# systemctl get-default
|
||||||
|
graphical.target
|
||||||
|
[root@testvm1 ~]#
|
||||||
|
```
|
||||||
|
|
||||||
|
然后确认当前正在运行的目标,应该和默认目标相同。你仍可以使用老方法,输出古老的 SystemV 运行等级。注意,前一个运行等级在左边,这里是 **N**(意思是 None),表示主机启动后没有修改过运行等级。数字 5 是当前的目标,正如古老的 SystemV 术语中的定义:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# runlevel
|
||||||
|
N 5
|
||||||
|
[root@testvm1 ~]#
|
||||||
|
```
|
||||||
|
|
||||||
|
注意,runlevel 的手册页指出运行等级已经被淘汰,并提供了一个转换表。
|
||||||
|
|
||||||
|
你也可以使用 systemd 方式,命令的输出有很多行,但确实用 systemd 术语提供了答案:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# systemctl list-units --type target
|
||||||
|
UNIT LOAD ACTIVE SUB DESCRIPTION
|
||||||
|
basic.target loaded active active Basic System
|
||||||
|
cryptsetup.target loaded active active Local Encrypted Volumes
|
||||||
|
getty.target loaded active active Login Prompts
|
||||||
|
graphical.target loaded active active Graphical Interface
|
||||||
|
local-fs-pre.target loaded active active Local File Systems (Pre)
|
||||||
|
local-fs.target loaded active active Local File Systems
|
||||||
|
multi-user.target loaded active active Multi-User System
|
||||||
|
network-online.target loaded active active Network is Online
|
||||||
|
network.target loaded active active Network
|
||||||
|
nfs-client.target loaded active active NFS client services
|
||||||
|
nss-user-lookup.target loaded active active User and Group Name Lookups
|
||||||
|
paths.target loaded active active Paths
|
||||||
|
remote-fs-pre.target loaded active active Remote File Systems (Pre)
|
||||||
|
remote-fs.target loaded active active Remote File Systems
|
||||||
|
rpc_pipefs.target loaded active active rpc_pipefs.target
|
||||||
|
slices.target loaded active active Slices
|
||||||
|
sockets.target loaded active active Sockets
|
||||||
|
sshd-keygen.target loaded active active sshd-keygen.target
|
||||||
|
swap.target loaded active active Swap
|
||||||
|
sysinit.target loaded active active System Initialization
|
||||||
|
timers.target loaded active active Timers
|
||||||
|
|
||||||
|
LOAD = Reflects whether the unit definition was properly loaded.
|
||||||
|
ACTIVE = The high-level unit activation state, i.e. generalization of SUB.
|
||||||
|
SUB = The low-level unit activation state, values depend on unit type.
|
||||||
|
|
||||||
|
21 loaded units listed. Pass --all to see loaded but inactive units, too.
|
||||||
|
To show all installed unit files use 'systemctl list-unit-files'.
|
||||||
|
```
|
||||||
|
|
||||||
|
上面列出了当前加载的和激活的目标,你也可以看到 **graphical.target** 和 **multi-user.target**。**multi-user.target** 需要在 **graphical.target** 之前加载。这个例子中,**graphical.target** 是激活的。
|
||||||
|
|
||||||
|
### 切换到不同的目标
|
||||||
|
|
||||||
|
切换到 **multi-user.target** 很简单:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# systemctl isolate multi-user.target
|
||||||
|
```
|
||||||
|
|
||||||
|
显示器现在应该从 GUI 桌面或登录界面切换到了一个虚拟控制台。登录并列出当前激活的 systemd 单元,确认 **graphical.target** 不再运行:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# systemctl list-units --type target
|
||||||
|
```
|
||||||
|
|
||||||
|
务必使用 **runlevel** 确认命令输出了之前的和当前的“运行等级”:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# runlevel
|
||||||
|
5 3
|
||||||
|
```
|
||||||
|
|
||||||
|
### 更改默认目标
|
||||||
|
|
||||||
|
现在,将默认目标改为 **multi-user.target**,以便系统总是启动进入 **multi-user.target**,从而使用控制台命令行接口而不是 GUI 桌面接口。使用你的测试主机的根用户,切换到保存 systemd 配置的目录,执行一次快速列出操作:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# cd /etc/systemd/system/ ; ll
|
||||||
|
drwxr-xr-x. 2 root root 4096 Apr 25 2018 basic.target.wants
|
||||||
|
<snip>
|
||||||
|
lrwxrwxrwx. 1 root root 36 Aug 13 16:23 default.target -> /lib/systemd/system/graphical.target
|
||||||
|
lrwxrwxrwx. 1 root root 39 Apr 25 2018 display-manager.service -> /usr/lib/systemd/system/lightdm.service
|
||||||
|
drwxr-xr-x. 2 root root 4096 Apr 25 2018 getty.target.wants
|
||||||
|
drwxr-xr-x. 2 root root 4096 Aug 18 10:16 graphical.target.wants
|
||||||
|
drwxr-xr-x. 2 root root 4096 Apr 25 2018 local-fs.target.wants
|
||||||
|
drwxr-xr-x. 2 root root 4096 Oct 30 16:54 multi-user.target.wants
|
||||||
|
<snip>
|
||||||
|
[root@testvm1 system]#
|
||||||
|
```
|
||||||
|
|
||||||
|
为了强调一些有助于解释 systemd 如何管理启动过程的重要事项,我缩短了这个列表。你应该可以在虚拟机看到完整的目录和链接列表。
|
||||||
|
|
||||||
|
**default.target** 项是指向目录 **/lib/systemd/system/graphical.target** 的符号链接(软链接),列出那个目录查看目录中的其他内容:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# ll /lib/systemd/system/ | less
|
||||||
|
```
|
||||||
|
|
||||||
|
你应该在这个列表中看到文件、目录、以及更多链接,但是专门寻找一下 **multi-user.target** 和 **graphical.target**。现在列出 **default.target**——一个指向 **/lib/systemd/system/graphical.target** 的链接——的内容:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# cat default.target
|
||||||
|
# SPDX-License-Identifier: LGPL-2.1+
|
||||||
|
#
|
||||||
|
# This file is part of systemd.
|
||||||
|
#
|
||||||
|
# systemd is free software; you can redistribute it and/or modify it
|
||||||
|
# under the terms of the GNU Lesser General Public License as published by
|
||||||
|
# the Free Software Foundation; either version 2.1 of the License, or
|
||||||
|
# (at your option) any later version.
|
||||||
|
|
||||||
|
[Unit]
|
||||||
|
Description=Graphical Interface
|
||||||
|
Documentation=man:systemd.special(7)
|
||||||
|
Requires=multi-user.target
|
||||||
|
Wants=display-manager.service
|
||||||
|
Conflicts=rescue.service rescue.target
|
||||||
|
After=multi-user.target rescue.service rescue.target display-manager.service
|
||||||
|
AllowIsolate=yes
|
||||||
|
[root@testvm1 system]#
|
||||||
|
```
|
||||||
|
|
||||||
|
**graphical.target** 文件的这个链接描述了图形用户接口需要的所有必备条件。我会在本系列的下一篇文章至少探讨其中的一些选项。
|
||||||
|
|
||||||
|
为了使主机启动到多用户模式,你需要删除已有的链接,创建一个新链接指向正确目标。如果你的 [PWD][5] 不是 **/etc/systemd/system**,切换过去:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# rm -f default.target
|
||||||
|
[root@testvm1 system]# ln -s /lib/systemd/system/multi-user.target default.target
|
||||||
|
```
|
||||||
|
|
||||||
|
列出 **default.target** 链接,确认其指向了正确的文件:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# ll default.target
|
||||||
|
lrwxrwxrwx 1 root root 37 Nov 28 16:08 default.target -> /lib/systemd/system/multi-user.target
|
||||||
|
[root@testvm1 system]#
|
||||||
|
```
|
||||||
|
|
||||||
|
如果你的链接看起来不一样,删除并重试。列出 **default.target** 链接的内容:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# cat default.target
|
||||||
|
# SPDX-License-Identifier: LGPL-2.1+
|
||||||
|
#
|
||||||
|
# This file is part of systemd.
|
||||||
|
#
|
||||||
|
# systemd is free software; you can redistribute it and/or modify it
|
||||||
|
# under the terms of the GNU Lesser General Public License as published by
|
||||||
|
# the Free Software Foundation; either version 2.1 of the License, or
|
||||||
|
# (at your option) any later version.
|
||||||
|
|
||||||
|
[Unit]
|
||||||
|
Description=Multi-User System
|
||||||
|
Documentation=man:systemd.special(7)
|
||||||
|
Requires=basic.target
|
||||||
|
Conflicts=rescue.service rescue.target
|
||||||
|
After=basic.target rescue.service rescue.target
|
||||||
|
AllowIsolate=yes
|
||||||
|
[root@testvm1 system]#
|
||||||
|
```
|
||||||
|
|
||||||
|
**default.target**——这里其实是指向 **multi-user.target** 的链接——其中的 **[Unit]** 部分现在有不同的必需条件。这个目标不需要有图形显示管理器。
|
||||||
|
|
||||||
|
重启,你的虚拟机应该启动到虚拟控制台 1 的控制台登录,虚拟控制台 1 在显示器标识为 tty1。现在你已经知道如何修改默认的目标,使用所需的命令将默认目标改回 **graphical.target**。
|
||||||
|
|
||||||
|
首先检查当前的默认目标:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 ~]# systemctl get-default
|
||||||
|
multi-user.target
|
||||||
|
[root@testvm1 ~]# systemctl set-default graphical.target
|
||||||
|
Removed /etc/systemd/system/default.target.
|
||||||
|
Created symlink /etc/systemd/system/default.target → /usr/lib/systemd/system/graphical.target.
|
||||||
|
[root@testvm1 ~]#
|
||||||
|
```
|
||||||
|
|
||||||
|
输入下面的命令直接切换到 **graphical.target** 和显示管理器的登录界面,不需要重启:
|
||||||
|
|
||||||
|
```
|
||||||
|
[root@testvm1 system]# systemctl isolate default.target
|
||||||
|
```
|
||||||
|
|
||||||
|
我不清楚为何 systemd 的开发者选择了术语 “isolate” 作为这个子命令。我的研究表明指的可能是运行指明的目标,但是“隔离”并终结其他所有启动该目标不需要的目标。然而,命令执行的效果是从一个运行的目标切换到另一个——在这个例子中,从多用户目标切换到图形目标。上面的命令等同于 SystemV 启动脚本和 init 程序中古老的 init 5 命令。
|
||||||
|
|
||||||
|
登录 GUI 桌面,确认能正常工作。
|
||||||
|
|
||||||
|
### 总结
|
||||||
|
|
||||||
|
本文探索了 Linux systemd 启动序列,开始探讨两个重要的 systemd 工具 **systemdctl** 和 **journalctl**,还说明了如何从一个目标切换到另一个目标,以及如何修改默认目标。
|
||||||
|
|
||||||
|
本系列的下一篇文章中将会创建一个新的 systemd 单元,并配置为启动阶段运行。下一篇文章还会查看一些配置选项,可以帮助确定某个特定的单元在序列中启动的位置,比如在网络启动运行后。
|
||||||
|
|
||||||
|
### 资源
|
||||||
|
|
||||||
|
关于 systemd 网络上有大量的信息,但大部分都简短生硬、愚钝、甚至令人误解。除了本文提到的资源,下面的网页提供了关于 systemd 启动更详细可靠的信息。
|
||||||
|
|
||||||
|
* Fedora 项目有一个优质实用的 [systemd 指南][6],几乎有你使用 systemd 配置、管理、维护一个 Fedora 计算机需要知道的一切。
|
||||||
|
* Fedora 项目还有一个好用的[速查表][7],交叉引用了古老的 SystemV 命令和对应的 systemd 命令。
|
||||||
|
* 要获取 systemd 的详细技术信息和创立的原因,查看 [Freedesktop.org][8] 的 [systemd 描述][9]。
|
||||||
|
* Linux.com 上”systemd 的更多乐趣"提供了更高级的 systemd [信息和提示][11]。
|
||||||
|
|
||||||
|
还有一系列针对系统管理员的深层技术文章,由 systemd 的设计者和主要开发者 Lennart Poettering 所作。这些文章写于 2010 年 4 月到 2011 年 9 月之间,但在当下仍然像当时一样有价值。关于 systemd 及其生态的许多其他优秀的作品都是基于这些文章的。
|
||||||
|
|
||||||
|
* [Rethinking PID 1][12]
|
||||||
|
* [systemd for Administrators, Part I][13]
|
||||||
|
* [systemd for Administrators, Part II][14]
|
||||||
|
* [systemd for Administrators, Part III][15]
|
||||||
|
* [systemd for Administrators, Part IV][16]
|
||||||
|
* [systemd for Administrators, Part V][17]
|
||||||
|
* [systemd for Administrators, Part VI][18]
|
||||||
|
* [systemd for Administrators, Part VII][19]
|
||||||
|
* [systemd for Administrators, Part VIII][20]
|
||||||
|
* [systemd for Administrators, Part IX][21]
|
||||||
|
* [systemd for Administrators, Part X][22]
|
||||||
|
* [systemd for Administrators, Part XI][23]
|
||||||
|
|
||||||
|
Mentor Graphics 公司的一位 Linux 内核和系统工程师 Alison Chiaken,对 systemd 进行了预展...
|
||||||
|
|
||||||
|
--------------------------------------------------------------------------------
|
||||||
|
|
||||||
|
via: https://opensource.com/article/20/5/systemd-startup
|
||||||
|
|
||||||
|
作者:[David Both][a]
|
||||||
|
选题:[lujun9972][b]
|
||||||
|
译者:[YungeG](https://github.com/YungeG)
|
||||||
|
校对:[校对者ID](https://github.com/校对者ID)
|
||||||
|
|
||||||
|
本文由 [LCTT](https://github.com/LCTT/TranslateProject) 原创编译,[Linux中国](https://linux.cn/) 荣誉推出
|
||||||
|
|
||||||
|
[a]: https://opensource.com/users/dboth
|
||||||
|
[b]: https://github.com/lujun9972
|
||||||
|
[1]: https://opensource.com/sites/default/files/styles/image-full-size/public/lead-images/start_line.jpg?itok=9reaaW6m (People at the start line of a race)
|
||||||
|
[2]: https://opensource.com/article/20/4/systemd
|
||||||
|
[3]: http://www.gnu.org/software/grub/manual/grub
|
||||||
|
[4]: mailto:mockbuild@bkernel03.phx2.fedoraproject.org
|
||||||
|
[5]: https://en.wikipedia.org/wiki/Pwd
|
||||||
|
[6]: https://docs.fedoraproject.org/en-US/quick-docs/understanding-and-administering-systemd/index.html
|
||||||
|
[7]: https://fedoraproject.org/wiki/SysVinit_to_Systemd_Cheatsheet
|
||||||
|
[8]: http://Freedesktop.org
|
||||||
|
[9]: http://www.freedesktop.org/wiki/Software/systemd
|
||||||
|
[10]: http://Linux.com
|
||||||
|
[11]: https://www.linux.com/training-tutorials/more-systemd-fun-blame-game-and-stopping-services-prejudice/
|
||||||
|
[12]: http://0pointer.de/blog/projects/systemd.html
|
||||||
|
[13]: http://0pointer.de/blog/projects/systemd-for-admins-1.html
|
||||||
|
[14]: http://0pointer.de/blog/projects/systemd-for-admins-2.html
|
||||||
|
[15]: http://0pointer.de/blog/projects/systemd-for-admins-3.html
|
||||||
|
[16]: http://0pointer.de/blog/projects/systemd-for-admins-4.html
|
||||||
|
[17]: http://0pointer.de/blog/projects/three-levels-of-off.html
|
||||||
|
[18]: http://0pointer.de/blog/projects/changing-roots
|
||||||
|
[19]: http://0pointer.de/blog/projects/blame-game.html
|
||||||
|
[20]: http://0pointer.de/blog/projects/the-new-configuration-files.html
|
||||||
|
[21]: http://0pointer.de/blog/projects/on-etc-sysinit.html
|
||||||
|
[22]: http://0pointer.de/blog/projects/instances.html
|
||||||
|
[23]: http://0pointer.de/blog/projects/inetd.html
|
Loading…
Reference in New Issue
Block a user