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{{From| | {{From|http://wiki.ubuntu.org.cn/UbuntuHelp:Beginners/BashScripting}} | ||
{{Languages|Beginners/BashScripting}} | |||
{{Translator|ganthur}} | |||
Bash 脚本是最容易学习的脚本类型之一,它十分类似于Windows下的批处理脚本. Bash非常的灵活, 而且它有很多你在批处理中无法看到的高级特性. 但如果你对电脑一无所知,那么它对你来说毫无用处. 一般来说,你会喜欢学习Bash,因为大多数在Ubuntu下的日常工作,都可以用终端来解决. 你也会渐渐明白大部分事情都可以通过用户图形界面和命令行来完成, 然而有些事情选择其中一种方法要更容易一些. 例如,使用命令行来更改一个文件夹及其子文件夹中的文件的权限要比使用用户图形界面容易的多. | |||
== 介绍 == | |||
在本文中我们将讨论一些有用的日常命令, 而且将深入讨论Bash脚本的高级特性. | |||
Bash不仅仅可以用来运行程序,而且还可以用来写程序和脚本. | |||
== Bash -- Ubuntu 日常应用 == | |||
作为一名Ubuntu'er,你会经常的使用终端来处理一些任务,例如 | |||
* 创建文件夹 | |||
* 删除文件 | |||
* 删除文件夹及其子文件夹 | |||
* 以root权限运行程序 | |||
* 备份文件 | |||
* 备份文件夹 | |||
* 检查系统性能 | |||
* 检查设备 | |||
* 检查无线连接 | |||
以及许多其他事情, 上表所列就是我们将要讨论的命令. | |||
== 命令 == | |||
=== 创建文件夹 === | |||
创建文件夹可以简单的通过单击鼠标右键然后选择'新建文件夹'来完成, 但是如果你想在命令行环境下完成,你需要在终端中键入以下命令: | |||
<pre><nowiki> | |||
sudo mkdir /home/joe/Desktop/new_folder | |||
</nowiki></pre> | |||
命令 ''mkdir'' (创建目录) 可以创建文件夹,而文件路径会告诉电脑应该在何处创建. | |||
(我使用了 ''sudo'' ,因为如果你试图在任意位置而不是在'/home'目录或其子目录创建文件夹的话,你需要有root/superuser 用户权限. 下同.) | |||
=== 删除文件 === | |||
删除文件可以使用如下命令来完成 | |||
<pre><nowiki> | |||
sudo rm /home/joe/file_to_be_deleted | |||
</nowiki></pre> | |||
命令 ''rm'' (移除)用来在命令行环境下进行移除操作 | |||
=== 删除文件夹及其子文件夹 === | |||
此命令有可能 (如果错误的使用) ''摧毁''你的系统! | |||
<pre><nowiki> | |||
sudo rm -rf /home/joe/useless_Parent_folder | |||
</nowiki></pre> | |||
此命令与前一个命令不同, 它使用了两个选项: '-r'表示递归(将递归的删除文件夹及其子文件夹), '-f' 表示强制(不会再次询问你). 此命令可以完美的删除目录及其子目录. 请注意,以下命令绝对不能执行!!!!绝对不能!!. 除非你想跟你的系统说再见! | |||
<pre><nowiki> | |||
sudo rm -rf /* | |||
sudo rm -rf / | |||
</nowiki></pre> | |||
这将删除root文件夹内的所有文件,如果你选择的标准安装,这意味着"整个系统''. | |||
=== 以root权限运信程序 === | |||
有时候你需要编辑root文件夹中的配置文件,这时你就需要root权限来保存更改,因此你需要使用root权限来运行文本编辑器. (假设你的文本编辑器是gedit) | |||
<pre><nowiki> | |||
gksudo gedit /path/to/conf_file.txt | |||
</nowiki></pre> | |||
''gksudo'' 与 ''sudo''相同,唯一不同是它会弹出一个对话框来询问你密码, ''gksudo'' 用来以root权限运行使用图形界面的程序. | |||
编辑这些系统文件可能导致严重的系统错误. 建议你在编辑它们之前先创建备份文件. | |||
=== 备份文件 === | |||
要创建备份文件, 我们将要使用 ''cp'' (复制) 命令. ''cp'' 基本的用法如下所示: | |||
<pre><nowiki> | |||
cp source_file dest_file | |||
</nowiki></pre> | |||
此命令会复制 'source_file' 到 'dest_file'. 现在可以使用先前的例子,假如我们想要备份 '/path/to/conf_file.txt'. 则输入以下命令: | |||
<pre><nowiki> | |||
sudo cp /path/to/conf_file.txt /path/to/conf_file.txt.old | |||
</nowiki></pre> | |||
That's fine and dandy, but what if I want to copy my file to another directory? Well that's just as easy. Let's say instead of copying /path/to/conf_file.txt to the /path/to/ directory, you want to copy it to a directory where you store all of your backup files, say /my/backup/folder/. In order to accomplish this you would type: | |||
<pre><nowiki> | |||
sudo cp /path/to/conf_file.txt /my/backup/folder/ #saves conf_file.txt to /my/backup/folder/ | |||
#OR | |||
sudo cp /path/to/conf_file.txt /my/backup/folder/conf_file_new_name.txt | |||
</nowiki></pre> | |||
***This is a typical safety measure that has saved many users in the past from a complete disaster.*** | |||
Okay, so we know how to copy a file a) to a different filename and b) to a different folder. But how do we copy entire directories? | |||
=== Backing up your directories === | |||
To backup one directory to another, we introduce ''cp''s '-r' (recursive) option. The basic syntax is as follow: | |||
<pre><nowiki> | |||
cp -r /directory/to/be/copied/ /where/to/copy/to/ | |||
</nowiki></pre> | |||
So if we wanted to copy all of the contents of our /path/to/ folder to our /my/backup/folder, we would type the following: | |||
<pre><nowiki> | |||
sudo cp -r /path/to/ /my/backup/folder/foldername #foldername can be whatever you want the foldername to be | |||
</nowiki></pre> | |||
=== Checking system performance === | |||
If your computer starts to lag, you can see which applications are using the most CPU power with this command: | |||
<pre><nowiki> | |||
top | |||
</nowiki></pre> | |||
This is generally the same information given as the GUI application 'System Monitor'. | |||
=== Check Devices === | |||
<u>USB Devices</u> | |||
If a USB device stops working, you may want to see if it is still connected/detected. To check if a device is connected/detected, type the following: | |||
<pre><nowiki> | |||
lsusb | |||
</nowiki></pre> | |||
<u>PCI Devices</u> | |||
PCI devices are checked with: | |||
<pre><nowiki> | |||
lspci | |||
</nowiki></pre> | |||
=== Checking wireless connection === | |||
To check the status on your wireless connection, use: | |||
<pre><nowiki> | |||
iwconfig | |||
</nowiki></pre> | |||
This also shows packets sent/received. | |||
== Scripting == | |||
Bash is primarily a scripting language, so it would be a crime not to talk about scripting. | |||
Let's dive straight in with a bash script. More precisely the infamous "Hello World" script. | |||
You can create a bash script by opening your favorite text-editor to edit your script and then saving it (typically the .sh file extension is used for your reference, but is not necessary. In our examples, we will be using the .sh extension). | |||
<pre><nowiki> | |||
#!/bin/bash | |||
echo "Hello, World" | |||
</nowiki></pre> | |||
The first line of the script just defines which interpreter to use. NOTE: There is no leading whitespace before #!/bin/bash. | |||
That's it, simple as that. To run a bash script you first have to have the correct file permissions. We do this with ''chmod'' (change mode) as follows: | |||
<pre><nowiki> | |||
sudo chmod 700 /where/i/saved/it/hello_world.sh #Gives read,write,execute permissions to the Owner | |||
# OR | |||
sudo chmod a+x /where/i/saved/it/hello_world.sh #Gives everyone execute permissions | |||
</nowiki></pre> | |||
This will give the file the appropriate permissions so that it can be executed. | |||
Now open a terminal and run the script like this: | |||
<pre><nowiki> | |||
/where/i/saved/it/hello_world.sh | |||
</nowiki></pre> | |||
Hopefully you should have seen it print Hello, World onto your screen. If so well done! That is your first Bash script. | |||
<u>TIP</u> | |||
If you type: | |||
<pre><nowiki> | |||
pwd | |||
</nowiki></pre> | |||
You will see the directory that you are currently working in (''pwd'' stands for 'print working directory'). If your current working directory is /where/i/saved/it/, then you can shorten the above command to: | |||
<pre><nowiki> | |||
prompt$ pwd | |||
/where/i/saved/it | |||
prompt$ ./hello_world.sh | |||
</nowiki></pre> | |||
Now, lets get to more interesting aspects of Bash programming, Variables! | |||
=== Variables === | |||
Variables store information basically. You set variables like this | |||
<pre><nowiki> | |||
var="FOO" | |||
</nowiki></pre> | |||
'var' can be anything you want as long as it doesn't begin with a number. "FOO" can be anything you want. | |||
To access the information from the variable you need to put a '$' in front of it like this: | |||
<pre><nowiki> | |||
var="FOO" | |||
echo $var | |||
</nowiki></pre> | |||
Try entering those lines into a terminal one at a time; you will see that the first one just gives you another prompt and the second one prints FOO. | |||
But that's all a bit boring. So let's make a script to ask the user for some information and then echo that information. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
clear | |||
echo "Please enter your name" | |||
read name | |||
echo "Please enter your age" | |||
read age | |||
echo "Please enter your sex. Male/Female" | |||
read sex | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
''read'' allows the user to input information where it is then stored in the variable defined after the read. ''read variable'' would take whatever input the user entered and store it in $variable. We then access this with echo and set up a neat sentence. | |||
This script is reasonably messy though; read has another function that could halve the size of this script. | |||
<pre><nowiki> | |||
#! /bin/bash | |||
clear | |||
read -p "Please enter your name : " name | |||
read -p "Please enter your age : " age | |||
read -p "Please enter your sex. Male/Female : " sex | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
That is more efficient code. However it's still a bit messy when run. A solution? Good old white spaces! | |||
<pre><nowiki> | |||
#! /bin/bash | |||
clear | |||
read -p "Please enter your name : " name | |||
echo "" | |||
read -p "Please enter your age : " age | |||
echo "" | |||
read -p "Please enter your sex. Male/Female : " sex | |||
echo "" | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
Now we have an efficient and clean Bash script. | |||
=== If Statements === | |||
An if statement can be used to check for something and do something else depending on the outcome of the check. For example, if I had an 'apple', I would want to make sure it's still an 'apple' and not an 'orange' because I don't like Oranges! | |||
The syntax for an if statement is | |||
<pre><nowiki> | |||
if [something] | |||
then | |||
elif | |||
then | |||
elif | |||
then | |||
....etc.... | |||
else | |||
fi | |||
</nowiki></pre> | |||
The elif is not necessary, but it can be used if needed. | |||
An if statement to check if our $fruit variable is an 'apple' would look like this | |||
<pre><nowiki> | |||
if [ $fruit = apple ] | |||
then echo "Good, I like Apples" | |||
else echo "Oh no, I hate Oranges!" | |||
fi | |||
</nowiki></pre> | |||
Just to explain this statement, | |||
<pre><nowiki> | |||
if [ the contents of $fruit is 'apple' ] | |||
then say "Good, I like Apples" | |||
if it's not, then say "Oh no, I hate Oranges!" | |||
finish | |||
</nowiki></pre> | |||
If statements are an easy concept to grasp as they are similar to the "if" used in spoken English. But say you wanted to have 4 or 5 checks, the answer may be to write 4 or 5 statements but that's not the most practical way. This is where elif comes in handy. | |||
<pre><nowiki> | |||
if [ $fruit = apple ] | |||
then echo "Good, I like Apples" | |||
elif [ $fruit = pear ] | |||
then echo "Good, I like Pears" | |||
elif [ $fruit = banana ] | |||
then echo "Good, I like Bananas" | |||
else echo "Oh no, I hate Oranges!" | |||
fi | |||
</nowiki></pre> | |||
This saves us from from repetitive scripting. There are better ways to check what the fruit is, but we won't go into that now. | |||
=== Variables === | |||
Variables store information basically. You set variables like this | |||
<pre><nowiki> | |||
var="FOO" | |||
</nowiki></pre> | |||
'var' can be anything you want as long as it doesn't begin with a number. "FOO" can be anything you want. | |||
To access the information from the variable you need to put a '$' in front of it like this: | |||
<pre><nowiki> | |||
var="FOO" | |||
echo $var | |||
</nowiki></pre> | |||
Try entering those lines into a terminal one at a time; you will see that the first one just gives you another prompt and the second one prints FOO. | |||
But that's all a bit boring. So let's make a script to ask the user for some information and then echo that information. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
clear | |||
echo "Please enter your name" | |||
read name | |||
echo "Please enter your age" | |||
read age | |||
echo "Please enter your sex. Male/Female" | |||
read sex | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
''read'' allows the user to input information where it is then stored in the variable defined after the read. ''read variable'' would take whatever input the user entered and store it in $variable. We then access this with echo and set up a neat sentence. | |||
This script is reasonably messy though; read has another function that could halve the size of this script. | |||
<pre><nowiki> | |||
#! /bin/bash | |||
clear | |||
read -p "Please enter your name : " name | |||
read -p "Please enter your age : " age | |||
read -p "Please enter your sex. Male/Female : " sex | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
That is more efficient code. However it's still a bit messy when run. A solution? Good old white spaces! | |||
<pre><nowiki> | |||
#! /bin/bash | |||
clear | |||
read -p "Please enter your name : " name | |||
echo "" | |||
read -p "Please enter your age : " age | |||
echo "" | |||
read -p "Please enter your sex. Male/Female : " sex | |||
echo "" | |||
echo "So you're a $age year old $sex called $name" | |||
</nowiki></pre> | |||
Now we have an efficient and clean Bash script. | |||
=== If Statements === | |||
An if statement can be used to check for something and do something else depending on the outcome of the check. For example, if I had an 'apple', I would want to make sure it's still an 'apple' and not an 'orange' because I don't like Oranges! | |||
The syntax for an if statement is | |||
<pre><nowiki> | |||
if [something] | |||
then | |||
elif | |||
then | |||
elif | |||
then | |||
....etc.... | |||
else | |||
fi | |||
</nowiki></pre> | |||
The elif is not necessary, but it can be used if needed. | |||
An if statement to check if our $fruit variable is an 'apple' would look like this | |||
<pre><nowiki> | |||
if [ $fruit = apple ] | |||
then echo "Good, I like Apples" | |||
else echo "Oh no, I hate Oranges!" | |||
fi | |||
</nowiki></pre> | |||
Just to explain this statement, | |||
<pre><nowiki> | |||
if [ the contents of $fruit is 'apple' ] | |||
then say "Good, I like Apples" | |||
if it's not, then say "Oh no, I hate Oranges!" | |||
finish | |||
</nowiki></pre> | |||
If statements are an easy concept to grasp as they are similar to the "if" used in spoken English. But say you wanted to have 4 or 5 checks, the answer may be to write 4 or 5 statements but that's not the most practical way. This is where elif comes in handy. | |||
<pre><nowiki> | |||
if [ $fruit = apple ] | |||
then echo "Good, I like Apples" | |||
elif [ $fruit = pear ] | |||
then echo "Good, I like Pears" | |||
elif [ $fruit = banana ] | |||
then echo "Good, I like Bananas" | |||
else echo "Oh no, I hate Oranges!" | |||
fi | |||
</nowiki></pre> | |||
This saves us from from repetitive scripting. There are better ways to check what the fruit is, but we won't go into that now. | |||
== Storing application stdout to a variable: == | |||
Application stdout ( what you see on the terminal screen, with an un-piped application ) can be saved and used in Bash. The simplest and most elegant way is to use the back-tick (`) this is not an apostrophe or quote (' or ") and is found on the same key as the tilde (~) | |||
=== Example === | |||
<pre><nowiki> | |||
#!/bin/bash | |||
fooVar=`who` | |||
echo $fooVar | |||
</nowiki></pre> | |||
This code should output the current users, their respective ttys, and date of login. | |||
Note that this strips newlines. Be sure to do any parsing in line ( | grep, etc ) and then pass it to a variable. | |||
We will try this again, but grep for tty7, the GUI's tty. | |||
=== Example 2 === | |||
<pre><nowiki> | |||
fooVar=`who | grep tty7` | |||
echo $fooVar | |||
</nowiki></pre> | |||
This should output the single user that is currently logged into the WM. | |||
Let's move on to more advanced data manipulation within back ticks. | |||
=== Example === | |||
<pre><nowiki> | |||
#!/bin/bash | |||
fooVar=`who` | |||
echo $fooVar | |||
</nowiki></pre> | |||
This code should output the current users, their respective ttys, and date of login. | |||
Note that this strips newlines. Be sure to do any parsing in line ( | grep, etc ) and then pass it to a variable. | |||
We will try this again, but grep for tty7, the GUI's tty. | |||
=== Example 2 === | |||
<pre><nowiki> | |||
fooVar=`who | grep tty7` | |||
echo $fooVar | |||
</nowiki></pre> | |||
This should output the single user that is currently logged into the WM. | |||
Let's move on to more advanced data manipulation within back ticks. | |||
== FUNctions == | |||
Bash lets you create a function on the fly, really handy if you plan on using a code block more then once. Functions reduce the amounts of editing you have to do in a script, if and when you have to update your script. Let's get to it! | |||
=== Example === | |||
Here is an example script: | |||
<pre><nowiki> | |||
#!/bin/bash | |||
echo "echo is Called" | |||
echo "Functions are FUN!" | |||
echo "echo is Called" | |||
{{ | </nowiki></pre> | ||
{ | Although this example is simple, you can see that if you want to change "echo is Called" to say "foo is Called" you would have to edit twice. | ||
Below is the same app using functions. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
echoFunction() { | |||
echo "echo is Called" | |||
} | |||
fooBar() { | |||
echo "Functions are FUN!" | |||
} | |||
echoFunction; | |||
fooBar; | |||
echoFunction; | |||
# You call functions without (), just the function name then a semicolon. | |||
</nowiki></pre> | |||
This example, as you can see may be longer now, but you can imagine how, adding features, this will eliminate code and reduce complexity. Also, you can see if you want to change the echo call, you have to edit one line, not two. | |||
==== Debugging ==== | |||
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so: | |||
<pre><nowiki> | |||
bash -x ./script.sh | |||
</nowiki></pre> | |||
This will write each command to standard error (preceded by a ‘+ ’) before it is executed. | |||
=== Example === | |||
Here is an example script: | |||
<pre><nowiki> | |||
#!/bin/bash | |||
echo "echo is Called" | |||
echo "Functions are FUN!" | |||
echo "echo is Called" | |||
</nowiki></pre> | |||
Although this example is simple, you can see that if you want to change "echo is Called" to say "foo is Called" you would have to edit twice. | |||
Below is the same app using functions. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
echoFunction() { | |||
echo "echo is Called" | |||
} | |||
fooBar() { | |||
echo "Functions are FUN!" | |||
} | |||
echoFunction; | |||
fooBar; | |||
echoFunction; | |||
# You call functions without (), just the function name then a semicolon. | |||
</nowiki></pre> | |||
This example, as you can see may be longer now, but you can imagine how, adding features, this will eliminate code and reduce complexity. Also, you can see if you want to change the echo call, you have to edit one line, not two. | |||
==== Debugging ==== | |||
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so: | |||
<pre><nowiki> | |||
bash -x ./script.sh | |||
</nowiki></pre> | |||
This will write each command to standard error (preceded by a ‘+ ’) before it is executed. | |||
==== Debugging ==== | |||
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so: | |||
<pre><nowiki> | |||
bash -x ./script.sh | |||
</nowiki></pre> | |||
This will write each command to standard error (preceded by a ‘+ ’) before it is executed. | |||
{{ | == Other Scripting Languages related to Bash == | ||
=== tr === | |||
''tr'' is one of the most basic applications to pipe data through that uses a basic scripting syntax. In this case, it accepts Regular Expressions. Let's do a normally complicated task, transforming a string to all uppercase. | |||
==== Example ==== | |||
<pre><nowiki> | |||
#!/bin/bash | |||
read foo | |||
var=`echo $foo | tr "{a-z}" "{A-Z}"` | |||
# {a-z} Matches a through z | |||
# {A-Z} matches A through Z | |||
echo $var | |||
</nowiki></pre> | |||
The output should look something like this: | |||
<pre><nowiki> | |||
this is a test | |||
THIS IS A TEST | |||
</nowiki></pre> | |||
''tr'' also can TRanslate strings, so let's translate all "tar" in $foo to "bar". | |||
==== Example ==== | |||
<pre><nowiki> | |||
#!/bin/bash | |||
read foo | |||
var=`echo $foo | tr "t" "b"` | |||
</nowiki></pre> | |||
the output should look something like this: | |||
<pre><nowiki> | |||
I love tars | |||
I love bars | |||
</nowiki></pre> | |||
=== awk === | |||
AWK ( Short for Aho, Weinberger & Kernighan ) | |||
''awk'' has its own custom scripting language, suitable for a tutorial by itself, so I will cover only the basics to help assist when you are bash scripting. This is not meant to be complete or comprehensive in any way. | |||
==== pidof clone ==== | |||
Let's make a quick pidof clone that prompts for a process identifier, then echoes the process ID. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
read pname | |||
ps -ef | grep -v grep | grep $pname | awk '{print $2}' | |||
</nowiki></pre> | |||
Single quotes are used to pass the ''awk'' command(s). The curly braces are to use the ''awk'' language (for stuff like prints, ifs, etc.). | |||
''Print'' prints the column passed given by the $ markup, space delimited. | |||
There are a lot more commands than the print command, including if statements, etc., and is worth looking into if you are interested in what you see here! | |||
=== sed === | |||
''sed'' is one of the most complicated scripting languages on the GNU / Linux system. I am only going to cover the s/ command here. | |||
==== Basic Substitution ==== | |||
Try this out to show that ''sed'' can not only replace inline, but unlike ''tr'', replace with a longer or shorter string than before. | |||
<pre><nowiki> | |||
#!/bin/bash | |||
read foo | |||
echo $foo | sed "s/foo/bars/" | |||
</nowiki></pre> | |||
When this command is run, it should substitute the first appearance of "foo" with "bars". | |||
This is an example of the output. | |||
<pre><nowiki> | |||
I love to go to foo | |||
I love to go to bars | |||
</nowiki></pre> | |||
---- | |||
[[category:CategoryCommandLine]] | |||
[[category:UbuntuHelp]] |
2009年1月27日 (二) 23:48的最新版本
文章出处: |
{{#if: | {{{2}}} | http://wiki.ubuntu.org.cn/UbuntuHelp:Beginners/BashScripting }} |
点击翻译: |
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Bash 脚本是最容易学习的脚本类型之一,它十分类似于Windows下的批处理脚本. Bash非常的灵活, 而且它有很多你在批处理中无法看到的高级特性. 但如果你对电脑一无所知,那么它对你来说毫无用处. 一般来说,你会喜欢学习Bash,因为大多数在Ubuntu下的日常工作,都可以用终端来解决. 你也会渐渐明白大部分事情都可以通过用户图形界面和命令行来完成, 然而有些事情选择其中一种方法要更容易一些. 例如,使用命令行来更改一个文件夹及其子文件夹中的文件的权限要比使用用户图形界面容易的多.
介绍
在本文中我们将讨论一些有用的日常命令, 而且将深入讨论Bash脚本的高级特性. Bash不仅仅可以用来运行程序,而且还可以用来写程序和脚本.
Bash -- Ubuntu 日常应用
作为一名Ubuntu'er,你会经常的使用终端来处理一些任务,例如
- 创建文件夹
- 删除文件
- 删除文件夹及其子文件夹
- 以root权限运行程序
- 备份文件
- 备份文件夹
- 检查系统性能
- 检查设备
- 检查无线连接
以及许多其他事情, 上表所列就是我们将要讨论的命令.
命令
创建文件夹
创建文件夹可以简单的通过单击鼠标右键然后选择'新建文件夹'来完成, 但是如果你想在命令行环境下完成,你需要在终端中键入以下命令:
sudo mkdir /home/joe/Desktop/new_folder
命令 mkdir (创建目录) 可以创建文件夹,而文件路径会告诉电脑应该在何处创建. (我使用了 sudo ,因为如果你试图在任意位置而不是在'/home'目录或其子目录创建文件夹的话,你需要有root/superuser 用户权限. 下同.)
删除文件
删除文件可以使用如下命令来完成
sudo rm /home/joe/file_to_be_deleted
命令 rm (移除)用来在命令行环境下进行移除操作
删除文件夹及其子文件夹
此命令有可能 (如果错误的使用) 摧毁你的系统!
sudo rm -rf /home/joe/useless_Parent_folder
此命令与前一个命令不同, 它使用了两个选项: '-r'表示递归(将递归的删除文件夹及其子文件夹), '-f' 表示强制(不会再次询问你). 此命令可以完美的删除目录及其子目录. 请注意,以下命令绝对不能执行!!!!绝对不能!!. 除非你想跟你的系统说再见!
sudo rm -rf /* sudo rm -rf /
这将删除root文件夹内的所有文件,如果你选择的标准安装,这意味着"整个系统.
以root权限运信程序
有时候你需要编辑root文件夹中的配置文件,这时你就需要root权限来保存更改,因此你需要使用root权限来运行文本编辑器. (假设你的文本编辑器是gedit)
gksudo gedit /path/to/conf_file.txt
gksudo 与 sudo相同,唯一不同是它会弹出一个对话框来询问你密码, gksudo 用来以root权限运行使用图形界面的程序. 编辑这些系统文件可能导致严重的系统错误. 建议你在编辑它们之前先创建备份文件.
备份文件
要创建备份文件, 我们将要使用 cp (复制) 命令. cp 基本的用法如下所示:
cp source_file dest_file
此命令会复制 'source_file' 到 'dest_file'. 现在可以使用先前的例子,假如我们想要备份 '/path/to/conf_file.txt'. 则输入以下命令:
sudo cp /path/to/conf_file.txt /path/to/conf_file.txt.old
That's fine and dandy, but what if I want to copy my file to another directory? Well that's just as easy. Let's say instead of copying /path/to/conf_file.txt to the /path/to/ directory, you want to copy it to a directory where you store all of your backup files, say /my/backup/folder/. In order to accomplish this you would type:
sudo cp /path/to/conf_file.txt /my/backup/folder/ #saves conf_file.txt to /my/backup/folder/ #OR sudo cp /path/to/conf_file.txt /my/backup/folder/conf_file_new_name.txt
- This is a typical safety measure that has saved many users in the past from a complete disaster.***
Okay, so we know how to copy a file a) to a different filename and b) to a different folder. But how do we copy entire directories?
Backing up your directories
To backup one directory to another, we introduce cps '-r' (recursive) option. The basic syntax is as follow:
cp -r /directory/to/be/copied/ /where/to/copy/to/
So if we wanted to copy all of the contents of our /path/to/ folder to our /my/backup/folder, we would type the following:
sudo cp -r /path/to/ /my/backup/folder/foldername #foldername can be whatever you want the foldername to be
Checking system performance
If your computer starts to lag, you can see which applications are using the most CPU power with this command:
top
This is generally the same information given as the GUI application 'System Monitor'.
Check Devices
USB Devices If a USB device stops working, you may want to see if it is still connected/detected. To check if a device is connected/detected, type the following:
lsusb
PCI Devices PCI devices are checked with:
lspci
Checking wireless connection
To check the status on your wireless connection, use:
iwconfig
This also shows packets sent/received.
Scripting
Bash is primarily a scripting language, so it would be a crime not to talk about scripting. Let's dive straight in with a bash script. More precisely the infamous "Hello World" script. You can create a bash script by opening your favorite text-editor to edit your script and then saving it (typically the .sh file extension is used for your reference, but is not necessary. In our examples, we will be using the .sh extension).
#!/bin/bash echo "Hello, World"
The first line of the script just defines which interpreter to use. NOTE: There is no leading whitespace before #!/bin/bash. That's it, simple as that. To run a bash script you first have to have the correct file permissions. We do this with chmod (change mode) as follows:
sudo chmod 700 /where/i/saved/it/hello_world.sh #Gives read,write,execute permissions to the Owner # OR sudo chmod a+x /where/i/saved/it/hello_world.sh #Gives everyone execute permissions
This will give the file the appropriate permissions so that it can be executed. Now open a terminal and run the script like this:
/where/i/saved/it/hello_world.sh
Hopefully you should have seen it print Hello, World onto your screen. If so well done! That is your first Bash script. TIP If you type:
pwd
You will see the directory that you are currently working in (pwd stands for 'print working directory'). If your current working directory is /where/i/saved/it/, then you can shorten the above command to:
prompt$ pwd /where/i/saved/it prompt$ ./hello_world.sh
Now, lets get to more interesting aspects of Bash programming, Variables!
Variables
Variables store information basically. You set variables like this
var="FOO"
'var' can be anything you want as long as it doesn't begin with a number. "FOO" can be anything you want. To access the information from the variable you need to put a '$' in front of it like this:
var="FOO" echo $var
Try entering those lines into a terminal one at a time; you will see that the first one just gives you another prompt and the second one prints FOO. But that's all a bit boring. So let's make a script to ask the user for some information and then echo that information.
#!/bin/bash clear echo "Please enter your name" read name echo "Please enter your age" read age echo "Please enter your sex. Male/Female" read sex echo "So you're a $age year old $sex called $name"
read allows the user to input information where it is then stored in the variable defined after the read. read variable would take whatever input the user entered and store it in $variable. We then access this with echo and set up a neat sentence. This script is reasonably messy though; read has another function that could halve the size of this script.
#! /bin/bash clear read -p "Please enter your name : " name read -p "Please enter your age : " age read -p "Please enter your sex. Male/Female : " sex echo "So you're a $age year old $sex called $name"
That is more efficient code. However it's still a bit messy when run. A solution? Good old white spaces!
#! /bin/bash clear read -p "Please enter your name : " name echo "" read -p "Please enter your age : " age echo "" read -p "Please enter your sex. Male/Female : " sex echo "" echo "So you're a $age year old $sex called $name"
Now we have an efficient and clean Bash script.
If Statements
An if statement can be used to check for something and do something else depending on the outcome of the check. For example, if I had an 'apple', I would want to make sure it's still an 'apple' and not an 'orange' because I don't like Oranges! The syntax for an if statement is
if [something] then elif then elif then ....etc.... else fi
The elif is not necessary, but it can be used if needed. An if statement to check if our $fruit variable is an 'apple' would look like this
if [ $fruit = apple ] then echo "Good, I like Apples" else echo "Oh no, I hate Oranges!" fi
Just to explain this statement,
if [ the contents of $fruit is 'apple' ] then say "Good, I like Apples" if it's not, then say "Oh no, I hate Oranges!" finish
If statements are an easy concept to grasp as they are similar to the "if" used in spoken English. But say you wanted to have 4 or 5 checks, the answer may be to write 4 or 5 statements but that's not the most practical way. This is where elif comes in handy.
if [ $fruit = apple ] then echo "Good, I like Apples" elif [ $fruit = pear ] then echo "Good, I like Pears" elif [ $fruit = banana ] then echo "Good, I like Bananas" else echo "Oh no, I hate Oranges!" fi
This saves us from from repetitive scripting. There are better ways to check what the fruit is, but we won't go into that now.
Variables
Variables store information basically. You set variables like this
var="FOO"
'var' can be anything you want as long as it doesn't begin with a number. "FOO" can be anything you want. To access the information from the variable you need to put a '$' in front of it like this:
var="FOO" echo $var
Try entering those lines into a terminal one at a time; you will see that the first one just gives you another prompt and the second one prints FOO. But that's all a bit boring. So let's make a script to ask the user for some information and then echo that information.
#!/bin/bash clear echo "Please enter your name" read name echo "Please enter your age" read age echo "Please enter your sex. Male/Female" read sex echo "So you're a $age year old $sex called $name"
read allows the user to input information where it is then stored in the variable defined after the read. read variable would take whatever input the user entered and store it in $variable. We then access this with echo and set up a neat sentence. This script is reasonably messy though; read has another function that could halve the size of this script.
#! /bin/bash clear read -p "Please enter your name : " name read -p "Please enter your age : " age read -p "Please enter your sex. Male/Female : " sex echo "So you're a $age year old $sex called $name"
That is more efficient code. However it's still a bit messy when run. A solution? Good old white spaces!
#! /bin/bash clear read -p "Please enter your name : " name echo "" read -p "Please enter your age : " age echo "" read -p "Please enter your sex. Male/Female : " sex echo "" echo "So you're a $age year old $sex called $name"
Now we have an efficient and clean Bash script.
If Statements
An if statement can be used to check for something and do something else depending on the outcome of the check. For example, if I had an 'apple', I would want to make sure it's still an 'apple' and not an 'orange' because I don't like Oranges! The syntax for an if statement is
if [something] then elif then elif then ....etc.... else fi
The elif is not necessary, but it can be used if needed. An if statement to check if our $fruit variable is an 'apple' would look like this
if [ $fruit = apple ] then echo "Good, I like Apples" else echo "Oh no, I hate Oranges!" fi
Just to explain this statement,
if [ the contents of $fruit is 'apple' ] then say "Good, I like Apples" if it's not, then say "Oh no, I hate Oranges!" finish
If statements are an easy concept to grasp as they are similar to the "if" used in spoken English. But say you wanted to have 4 or 5 checks, the answer may be to write 4 or 5 statements but that's not the most practical way. This is where elif comes in handy.
if [ $fruit = apple ] then echo "Good, I like Apples" elif [ $fruit = pear ] then echo "Good, I like Pears" elif [ $fruit = banana ] then echo "Good, I like Bananas" else echo "Oh no, I hate Oranges!" fi
This saves us from from repetitive scripting. There are better ways to check what the fruit is, but we won't go into that now.
Storing application stdout to a variable:
Application stdout ( what you see on the terminal screen, with an un-piped application ) can be saved and used in Bash. The simplest and most elegant way is to use the back-tick (`) this is not an apostrophe or quote (' or ") and is found on the same key as the tilde (~)
Example
#!/bin/bash fooVar=`who` echo $fooVar
This code should output the current users, their respective ttys, and date of login. Note that this strips newlines. Be sure to do any parsing in line ( | grep, etc ) and then pass it to a variable. We will try this again, but grep for tty7, the GUI's tty.
Example 2
fooVar=`who | grep tty7` echo $fooVar
This should output the single user that is currently logged into the WM. Let's move on to more advanced data manipulation within back ticks.
Example
#!/bin/bash fooVar=`who` echo $fooVar
This code should output the current users, their respective ttys, and date of login. Note that this strips newlines. Be sure to do any parsing in line ( | grep, etc ) and then pass it to a variable. We will try this again, but grep for tty7, the GUI's tty.
Example 2
fooVar=`who | grep tty7` echo $fooVar
This should output the single user that is currently logged into the WM. Let's move on to more advanced data manipulation within back ticks.
FUNctions
Bash lets you create a function on the fly, really handy if you plan on using a code block more then once. Functions reduce the amounts of editing you have to do in a script, if and when you have to update your script. Let's get to it!
Example
Here is an example script:
#!/bin/bash echo "echo is Called" echo "Functions are FUN!" echo "echo is Called"
Although this example is simple, you can see that if you want to change "echo is Called" to say "foo is Called" you would have to edit twice. Below is the same app using functions.
#!/bin/bash echoFunction() { echo "echo is Called" } fooBar() { echo "Functions are FUN!" } echoFunction; fooBar; echoFunction; # You call functions without (), just the function name then a semicolon.
This example, as you can see may be longer now, but you can imagine how, adding features, this will eliminate code and reduce complexity. Also, you can see if you want to change the echo call, you have to edit one line, not two.
Debugging
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so:
bash -x ./script.sh
This will write each command to standard error (preceded by a ‘+ ’) before it is executed.
Example
Here is an example script:
#!/bin/bash echo "echo is Called" echo "Functions are FUN!" echo "echo is Called"
Although this example is simple, you can see that if you want to change "echo is Called" to say "foo is Called" you would have to edit twice. Below is the same app using functions.
#!/bin/bash echoFunction() { echo "echo is Called" } fooBar() { echo "Functions are FUN!" } echoFunction; fooBar; echoFunction; # You call functions without (), just the function name then a semicolon.
This example, as you can see may be longer now, but you can imagine how, adding features, this will eliminate code and reduce complexity. Also, you can see if you want to change the echo call, you have to edit one line, not two.
Debugging
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so:
bash -x ./script.sh
This will write each command to standard error (preceded by a ‘+ ’) before it is executed.
Debugging
I always find it useful to trace a script to find out why something does not work as expected. To trace, start it trough bash explicitly and use the -x option, like so:
bash -x ./script.sh
This will write each command to standard error (preceded by a ‘+ ’) before it is executed.
tr
tr is one of the most basic applications to pipe data through that uses a basic scripting syntax. In this case, it accepts Regular Expressions. Let's do a normally complicated task, transforming a string to all uppercase.
Example
#!/bin/bash read foo var=`echo $foo | tr "{a-z}" "{A-Z}"` # {a-z} Matches a through z # {A-Z} matches A through Z echo $var
The output should look something like this:
this is a test THIS IS A TEST
tr also can TRanslate strings, so let's translate all "tar" in $foo to "bar".
Example
#!/bin/bash read foo var=`echo $foo | tr "t" "b"`
the output should look something like this:
I love tars I love bars
awk
AWK ( Short for Aho, Weinberger & Kernighan ) awk has its own custom scripting language, suitable for a tutorial by itself, so I will cover only the basics to help assist when you are bash scripting. This is not meant to be complete or comprehensive in any way.
pidof clone
Let's make a quick pidof clone that prompts for a process identifier, then echoes the process ID.
#!/bin/bash read pname ps -ef | grep -v grep | grep $pname | awk '{print $2}'
Single quotes are used to pass the awk command(s). The curly braces are to use the awk language (for stuff like prints, ifs, etc.). Print prints the column passed given by the $ markup, space delimited. There are a lot more commands than the print command, including if statements, etc., and is worth looking into if you are interested in what you see here!
sed
sed is one of the most complicated scripting languages on the GNU / Linux system. I am only going to cover the s/ command here.
Basic Substitution
Try this out to show that sed can not only replace inline, but unlike tr, replace with a longer or shorter string than before.
#!/bin/bash read foo echo $foo | sed "s/foo/bars/"
When this command is run, it should substitute the first appearance of "foo" with "bars". This is an example of the output.
I love to go to foo I love to go to bars