Introduction
Awk is a powerful text analysis tool, with the search for grep and the editing of SED, which is especially powerful when it comes to analyzing data and generating reports. To put it simply, awk reads the file line-by-row, using spaces as the default delimiter to slice each row, and then perform various analytical processing of the cut.
AWK has 3 different versions: AWK, Nawk, and gawk, which are not specifically described, generally referred to as the GNU version of awk, Gawk,gawk.
Awk has its name from the first letter of its founder Alfred Aho, Peter Weinberger and Brian Kernighan's surname. In fact, Awk does have its own language: The awk programming language, a three-bit creator has formally defined it as "style scanning and processing language." It allows you to create short programs that read input files, sort data, manipulate data, perform calculations on input, and generate reports, as well as countless other features.
How to use
awk ' {pattern + action} ' {filenames}
Although the operation can be complex, the syntax is always the same, where pattern represents what AWK looks for in the data, and the action is a series of commands that are executed when a match is found. Curly braces ({}) do not need to always appear in the program, but they are used to group a series of instructions according to a particular pattern. pattern is the regular expression to be represented, surrounded by slashes.
The most basic function of the awk language is to browse and extract information in a file or string based on the specified rules, before awk extracts the information for additional text operations. A complete awk script is typically used to format the information in a text file.
Typically, awk is treated as a unit of a file's behavior. awk processes the text by executing the corresponding command for each line that receives the file.
Call awk
There are three ways of calling Awk
1. Command line mode awk [-f field-separator] ' commands ' input-file (s) where commands is the true awk command, [-F domain delimiter] is optional. Input-file (s) is the file to be processed. In awk, each line in a file, separated by a domain delimiter, is called a domain. In general, the default field delimiter is a space without naming the-F domain delimiter. The 2.shell script inserts all of the awk commands into a file and makes the awk program executable, and then the awk command interpreter is invoked as the first line of the script, again by typing the script name. Equivalent to the first line of the shell script: #!/bin/sh can be replaced by: #!/bin/awk3. Inserts all awk commands into a single file and then calls: Awk-f awk-script-file input-file (s) where,- The f option loads the awk script in Awk-script-file, and Input-file (s) is the same as above.
This chapter focuses on the command-line approach.
Getting Started instance
Suppose the output of Last-n 5 is as follows
[[email protected] ~]# last-n 5 <== Only remove the first five elements root pts/1 192.168.1.100 Tue Feb 11:21 still logged Inroo T pts/1 192.168.1.100 Tue Feb 00:46-02:28 (01:41) root pts/1 192.168.1.100 Mon Feb 9 11:41-18:30 (06:48) Dmtsai pts/1 192.168.1.100 Mon Feb 9 11:41-11:41 (00:00) root tty1 Fri Sep 5 14:09-14:10 (00:01)
If you only show the 5 most recently logged-in accounts
#last-N 5 | awk ' {print '} '
Root
Root
Root
Dmtsai
Root
The awk workflow is this: reads a record with a ' \ n ' line break, then divides the record by the specified domain delimiter, fills the field, and $ $ represents all fields, representing the first field, $n representing the nth field. The default Domain delimiter is the "blank key" or "[tab] key", so the login user, $ $ means the login user IP, and so on.
If you just show/etc/passwd's account
#cat/etc/passwd |awk- F ': ' {print $} ' Rootdaemonbinsys
This is an example of awk+action, where each line executes action{print $.
-f Specifies the domain delimiter as ': '.
If you only display the/ETC/PASSWD account and the shell of the account, and the account and the shell are split by tab
#cat/etc/passwd |awk- F ': ' {print ' \ t ' $7} ' root /bin/bashdaemon /bin/shbin /bin/shsys /bin/sh
If you just show/etc/passwd's account and the shell of the account, and the account is separated by a comma from the shell, and the column name Name,shell is added to all rows, add "Blue,/bin/nosh" to the last line.
CAT/ETC/PASSWD |awk- F ': ' BEGIN {print ' Name,shell '} {print $ ', ' $7} END {print ' Blue,/bin/nosh '} ' name, Shellroot,/bin/bashdaemon,/bin/shbin,/bin/shsys,/bin/sh....blue,/bin/nosh
The awk workflow is done by first executing the beging, then reading the file, reading a record with the/n line break, and then dividing the record by the specified field delimiter, populating the field, and $ $ representing all fields, representing the first field, $n representing the nth field, The action action corresponding to the execution pattern is then started. Then start reading the second record ... Until all the records have been read, the end operation is performed.
Search all rows with the root keyword/etc/passwd
#awk-F: '/root/'/etc/passwdroot:x:0:0:root:/root:/bin/bash
This is an example of the use of pattern, which matches the line of pattern (this is root) to execute the action (without specifying an action, the default output of the contents of each row).
Search support for the regular, for example, root start: awk-f: '/^root/'/etc/passwd
Search all lines that have the root keyword/etc/passwd and display the corresponding shell
# awk-f: '/root/{print $7} '/etc/passwd /bin/bash
Action{print $7} is specified here.
awk built-in variables
Awk has many built-in variables for setting up environment information, which can be changed, and some of the most commonly used variables are given below.
ARGC command-line arguments argv command-line parameter arrangement environ support the use of system environment variables in queues filename awk browses the file name Fnr the number of records to browse files FS Set input field delimiter, equivalent to command line-F option NF Browse record number of fields nr Read records ofs output field delimiter ors Output record delimiter Rs control record delimiter
In addition, the $ variable refers to the entire record. $ $ represents the first field of the current row, which is the second field of the current row,...... And so on
Statistics/etc/passwd: File name, line number per line, number of columns per row, corresponding full line contents:
#awk- F ': ' {print ' filename: ' filename ', linenumber: ' NR ', columns: ' NF ', linecontent: ' $ '/etc/ passwdfilename:/etc/passwd,linenumber:1,columns:7,linecontent:root:x:0:0:root:/root:/bin/bashfilename:/etc/ Passwd,linenumber:2,columns:7,linecontent:daemon:x:1:1:daemon:/usr/sbin:/bin/shfilename:/etc/passwd,linenumber : 3,columns:7,linecontent:bin:x:2:2:bin:/bin:/bin/shfilename:/etc/passwd,linenumber:4,columns:7,linecontent:sys : x:3:3:sys:/dev:/bin/sh
Use printf instead of print to make your code more concise and easy to read
awk -F ': ' {printf ("filename:%10s,linenumber:%s,columns:%s,linecontent:%s\n", Filename,nr,nf,$0)} '/etc/ passwd
Print and printf
The functions of print and printf two printouts are also available in awk.
The parameters of the print function can be variables, values, or strings. The string must be quoted in double quotation marks, and the arguments are separated by commas. If there are no commas, the parameters are concatenated together and cannot be distinguished. Here, the function of the comma is the same as the delimiter of the output file, except that the latter is a space.
The printf function, whose usage is basically similar to printf in the C language, can format strings, and when the output is complex, printf is more useful and the code more understandable.
awk Programming
Variables and Assignments
In addition to Awk's built-in variables, awk can also customize variables.
The following statistics/etc/passwd account number
awk ' {count++;p rint;} End{print "User Count is", count} '/etc/passwdroot:x:0:0:root:/root:/bin/bash......user count is 40
Count is a custom variable. The previous action{} has only one print, in fact print is just a statement, and action{} can have more than one statement, separated by a number.
The count is not initialized here, although the default is 0, but the proper approach is initialized to 0:
awk ' BEGIN {count=0;print ' [Start]user count is ', count} {Count=count+1;print $;} End{print "[End]user Count is], count} '/etc/passwd[start]user count is 0root:x:0:0:root:/root:/bin/bash ... [End]user count is 40
Count the number of bytes occupied by a file under a folder
Ls-l |awk ' BEGIN {size=0;} {size=size+$5;} End{print "[End]size is", size} '
[End]size is 8657198
If displayed in units of M:
[End]size is 8.25889 M
Note that the statistics do not include subdirectories of folders.
Conditional statements
The conditional statements in awk are drawn from the C language, as described in the following declaration:
if (expression) { statement; statement; ... ...} if (expression) { statement;} else { statement2;} if (expression) { statement1;} else if (expression1) { statement2;} else { statement3;}
Count the number of bytes in a file under a folder, filtering files of 4096 size (typically folders):
[End]size is 8.22339 M
Looping statements
The looping statements in awk also draw on the C language, supporting while, Do/while, for, break, continue, which are semantically identical to the semantics of the C language.
Array
Because the subscript of an array in awk can be numbers and letters, the subscript of an array is often referred to as the keyword (key). The values and keywords are stored inside a table for the Key/value application hash. Since hash is not stored sequentially, it is found in the display of array contents, which are not displayed in the order you expect. Arrays, like variables, are created automatically when they are used, and awk automatically determines whether they store numbers or strings. In general, an array in awk is used to collect information from records, which can be used to calculate sums, count words, and how many times the tracking template is matched.
Show/ETC/PASSWD's account
Awk-f ': ' BEGIN {count=0;} {Name[count] = $1;count++;}; End{for (i = 0; i < NR; i++) print I, Name[i]} '/etc/passwd0 root1 daemon2 bin3 sys4 sync5 Games ...
This uses the For loop to iterate through the array
There's a lot of programming in awk, and here's just a list of simple and common uses, see http://www.gnu.org/software/gawk/manual/gawk.html for more information.