<box begindoc>**This is automatically generated documentation.**  Edit after the "[[#COMMENTS|COMMENTS]]" heading; changes to the main body will be lost.</box>

====== Configuration Language ======

Click configuration language

===== DESCRIPTION =====

The Click language describes the configuration of a Click router. It has
two main directives:
//declarations//
declare new elements, and
//connections//
connect those elements together.  Click router configurations are like
directed graphs of elements; in this interpretation, declarations specify
the vertices of the graph and connections specify the edges.  Other
language statements define configuration parameters and create new element
types.

==== Declarations ====

A declaration looks like this:

//name// :: //class//(//config//);

(The semicolon, like all semicolons in Click syntax, is optional.)
This declares an element called
//name//
that has element class
//class//
and configuration arguments
//config//.
If the configuration string is empty, the parentheses can be left off.
Also, there can be two or more names in a comma-separated list, which has
the same effect as multiple declarations.

//name// :: //class//;\\
//name1//, //name2//, ..., //nameN// ::
//class//(//config//);

==== Connections ====

A connection looks like this:

//name1// [//port1//] -> [//port2//] //name2//;

where the two
//name//s
are names of previously declared elements, and the two
//port//s
are nonnegative integers. This says that
//name1//'s output port //port1//
should be connected to
//name2//'s input port //port2//.
Two connections can be strung together into a single statement if the
output element of one is the same as the input element of the other:

//n1// [//p1//] -> [//p2//] //x//;\\
//x// [//p3//] -> [//p4//] //n2//;

is the same as

//n1// [//p1//] -> [//p2//] //x//
[//p3//] -> [//p4//] //n2//;

This can be extended to three or more connections. Furthermore, if an input
or output port is 0, it can be omitted along with the brackets. These two
lines are equivalent:

//n1// [0] -> [0] //n2//;\\
//n1// -> //n2//;

You can also declare elements inside connections:

... -> [//p1//] //name// ::
//class//(//config//) [//p2//] -> ...;

is equivalent to

//name// :: //class//(//config//);\\
... -> [//p1//] //name// [//p2//] -> ...;

Every such declaration can declare at most one element.

==== Anonymous elements ====

You may declare an element without specifying its name, in which case the
system will choose an element name for you. For example:

//class//(//config//);

is equivalent to

//generatedname// :: //class//(//config//);

As usual, the parentheses can be left off if
//config// 
is empty. You may also declare an anonymous element inside a connection:

... -> [//p1//] //class//(//config//)
[//p2//] -> ...;

is equivalent to

//generatedname// :: //class//(//config//);\\
... -> [//p1//] //generatedname// [//p2//] -> ...;

The
//generatedname// 
has the form
'//class//@//number//',
where the
//number//
is chosen to make the name unique. These numbers are predictable: when the
system parses a Click file twice, that file's anonymous elements will get
the same generated names each time. Nothing prevents a user from declaring
an element named like an anonymous element. We suggest that users avoid the '@'
character in their element names.

Not all elements can usefully be anonymous, since an anonymous element can
be part of at most two connections (once as input, once as output).

===== CONFIGURATION STRINGS =====

Click configuration strings are comma-separated lists of arguments, where
each argument is a space-separated list of objects. This section describes
some common object types. See the element documentation for argument types
expected by a particular element.

Configuration strings may contain comments ('%%/%%/ ... EOL' and '%%/%%* ... */%%'%%),
which are replaced with single space characters. Inside single- or
double-quoted strings, commas, spaces, and comment-starting sequences lose
their regular meaning and are treated as normal characters.

The most common object types are:

  * **Strings.**  Any sequence of characters.  Single- or double-quoted strings are allowed (and required, if the string contains a space or comma).  Inside double-quoted strings, backslash substitutions are performed; see below. You can concatenate strings by juxtaposing them.  For example, 'a"b"c' is equivalent to 'abc'.
  * **Booleans.**  '0', 'false', and 'no' mean false; '1', 'true', and 'yes' mean true.
  * **Integers**  preceded by an optional '%%+%%' or '-' sign. Decimal, octal (first digit '0%%'%%), and hexadecimal (starting with '0x%%'%%) are allowed.
  * **Real numbers**  in decimal notation.
  * **Times and delays**  in decimal real notation, followed by an optional unit: 's'%%/%%'sec', 'ms', 'us', 'ns', 'm'%%/%%'min', 'h'%%/%%'hr'.
  * **Bandwidths**  in decimal real notation, followed by an optional unit: 'bps' or 'Bps' for bits or bytes per second, with an optional SI prefix 'k', 'M', or 'G'.  The default unit is generally 'Bps'.
  * **IP addresses**  in the conventional 'n.n.n.n' form (for example, '18.26.4.15%%'%%).
  * **IP network prefixes**  in the CIDR form 'n.n.n.n/k' (for example, '18.26.4/24%%'%%).
  * **IPv6 addresses**  in any of the conventional forms (for example, '::', '1080::8:800:200C:417A', or '::18.26.4.15%%'%%).
  * **Ethernet addresses**  in the conventional 'x:x:x:x:x:x' form (for example, '0:a0:c9:9c:fd:9c%%'%%).
  * **Element names.** 

Some elements, like
//Classifier//,
take arguments that don't fit any of these types. See the element
documentation for details.

If the last argument in a configuration string is empty (containing only
whitespace and comments), then it is ignored.  Thus, 'Element(1, %%)%%',
'Element(1, %%/%%* comment */%%)%%', and 'Element(1%%)%%' behave exactly alike.

Configuration strings may also contain parameter references, such as
'$interface'. The parameter values are substituted in. Parameters may be
defined either by compound element arguments, by explicit 'define'
statements, or on the command line.

==== Backslash Substitutions ====

The following backslash substitutions are performed inside double quotes.
Additionally, as a special case, a bare data substitution sequence %%'%%\<
... >' acts as if it were enclosed in double quotes.  (Inside single
quotes, %%'%%\< ... >' is not special.)

  - C-like substitutions. Specifically, %%'%%\a', %%'%%\b', %%'%%\t', %%'%%\n', %%'%%\v', %%'%%\f', %%'%%\r', '%%\%%%%\%%', and '%%\%%[1, 2, or 3 octal digits%%]%%' have their C meanings.  %%'%%\x[any number of hex digits%%]%%' is replaced with the byte defined by the last 2 hex digits.
  - Data substitutions. An escape sequence %%'%%\< ... hex digits and spaces ... >' is replaced with the data represented by the hex digits. For example, the sequence %%'%%\< 48 45 4c 4C 4f >' is replaced with 'HELLO'.
  - Backlash-newline sequences ('%%\%%[LF%%]%%', '%%\%%[CR%%]%%', or '%%\%%[CR%%]%%[LF]%%'%%) are removed.
  - Any other '%%\%%[CHAR%%]%%' sequence is replaced with %%'%%[CHAR%%]%%'.

===== COMPOUND ELEMENTS =====

A
//compound element// 
is a scoped collection of elements that acts like a single element from
outside. A compound element can be used anywhere an element class is
expected (that is, in a declaration or connection). Syntactically, a
compound element is a set of Click statements enclosed in braces %%'%%{ %%}%%'.
Inside the braces, the special names 'input' and 'output' represent
connections from or to the outside. Before a router is put on line,
compound elements are systematically expanded until none remain; thus, they
have no run-time overhead.

Here are some examples. This code, with a compound element,

a -> { input -> X -> output } -> b;

expands to

a -> X -> b;

Here is a more complicated example, with multiple ports:

compound :: {\\
'' '''' ''input -> X -> output;\\
'' '''' ''input [1] -> Y -> [1] output;\\
};\\
a -> compound -> b;\\
c -> [1] compound [1] -> d;

expands to

a -> X -> b;\\
c -> Y -> d;

The 'input' and 'output' pseudoelements incur no run-time overhead. (In
fact, they are connection tunnel endpoints; see below for more.)

The actual expansions will differ from these examples because the elements
will have different names. A prefix is prepended to the components' names,
providing locality relative to other names in the configuration. The new
names have the form
'//compoundname//%%/%%//componentname//',
where
//compoundname// 
is the name of the compound element being expanded, and
//componentname// 
is the name of the component element inside that compound. For example,

compound :: { input -> x :: X -> output };\\
a -> compound -> b;

is really expanded to

a -> compound/x :: X -> b;

For this purpose, anonymous compound elements are given constructed names
like
'@//number//'.
Nothing prevents a user from declaring an element named like a compound
element component. We suggest that users generally avoid using the '%%/%%'
character in their element names.

It is an error to use the 'input' pseudoelement's input ports or the
'output' pseudoelement's output ports. It is also an error to leave an
intermediate port unused -- for example, to use 'input [0%%]%%' and 'input [2%%]%%'
but not 'input [1%%]%%'.

==== The 'elementclass' statement ====

The 'elementclass' statement lets the user name a frequently-occurring
compound element, and use the name as if it were a primitive element class.
Syntactically, it looks like this:

elementclass
//identifier// 
//compoundelement// 
;

After this statement, every occurrence of the
//identifier// 
will be replaced with the
//compoundelement//.
For example, this code, with an 'elementclass':

elementclass MyQueue {\\
'' '''' ''input -> Queue -> Shaper(1000) -> output;\\
}\\
q :: MyQueue;\\
a -> q -> b;

is equivalent to this code, without it:

q :: { input -> Queue -> Shaper(1000) -> output };\\
a -> q -> b;

which roughly expands to:

a -> Queue -> Shaper(1000) -> b;

The user can declare element classes that have the names of previously
existing element classes:

elementclass Queue {\\
'' '''' ''input -> Queue -> Shaper(1000) -> output;\\
}

Element classes are nonrecursive and lexically scoped, so the 'Queue'
inside this definition refers to the original 'Queue'. The scope of an
element class definition extends from immediately after its closing right
brace to the end of the enclosing scope.

A variant of the elementclass statement makes synonyms for preexisting
element classes. For example, this statement

elementclass MyQueue Queue;

makes MyQueue a synonym for Queue.

==== Configuration parameters ====

Compound elements may take configuration parameters, which are expanded
into the configuration strings of its components. The parameters are named
at the beginning of the compound element. Each parameter looks like a Perl
variable -- a dollar sign followed by one or more letters, numbers, and
underscores. For example, this compound element

{ $a, $b | ... }

takes two configuration parameters, named '$a' and '$b'. Keyword arguments
are also supported. For example, this compound element

{ COUNT $count | ... }

takes a COUNT keyword parameter. Mismatched configuration parameters cause
errors; for example:

{ $a, $b | ... } (1)         %%/%%/ Error: too few arguments\\
{ $a, $b | ... } (1, 2, 3)   %%/%%/ Error: too many arguments\\
{ COUNT $count | ... } (1)   %%/%%/ Error: missing 'COUNT' parameter

The special keyword '%%_%%_REST%%_%%%%_%%' matches any additional arguments supplied to
the compound element. For example:

{ $a, COUNT $count, %%_%%_REST%%_%%_ $rest | ... }\\
'' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' ''(1, 2, COUNT 3, FOO 4)

This compound element will be expanded with '$a' set to '1', '$count' set
to '3', and '$rest' set to '2, FOO 4'. 

In a compound element definition, all positional parameters must precede
any keyword parameters, and '%%_%%_REST%%_%%%%_%%', if present, must appear last of
all.

As the compound is expanded, its components' configuration strings are
searched for references to the parameters. Any such references are replaced
with the supplied arguments. For example, this code:

... -> { $a | input ->\\
'' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' ''A(1, $a, 3) -> output } (100) -> ...

expands to this:

... -> A(1, 100, 3) -> ...

You can avoid substitution by putting the dollar sign inside single quotes.

Use braces, like '${a%%}%%', to avoid including following letters in a variable
name. Click also supports the shell-like '${VAR-DEFAULT%%}%%' syntax, which
substitutes the value of '$VAR', or 'DEFAULT' if that variable was not set.
See also PARAMETER DEFINITIONS, below.

==== Overloading ====

A single compound element may contain multiple overloaded definitions
separated from one another by two vertical bars "''%%|%%|''". Different
definitions may have different numbers of input ports, different numbers of
output ports, or different sets of configuration arguments. For example,
this extended MyQueue compound element takes an optional capacity argument,
just like Queue itself:

elementclass MyQueue {\\
'' '''' ''input -> Queue -> Shaper(1000) -> output;\\
%%|%%|\\
'' '''' ''$cap | input -> Queue($cap)\\
'' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' ''-> Shaper(1000) -> output;\\
}

For each use of an overloaded compound element, Click will choose the first
definition that matches the provided number of input ports, number of
output ports, and configuration arguments. It is an error if no definition
matches these properties exactly.

It is also possible to extend an existing element class with new overloaded
definitions with "''...''". For example, this definition introduces a
two-argument version of Queue:

elementclass Queue {\\
'' '''' ''$cap, $rate | input -> Queue($cap)\\
'' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' '''' ''-> Shaper($rate) -> output;\\
%%|%%| ...\\
}

(The ellipsis in this example must be typed verbatim.) The overloadings
visible at a given declaration are those that lexically precede that
declaration. For example, the following example is an error since the
two-argument version of Test is not visible at the declaration where it is
required:

elementclass Test { $a | %%/%%* nothing %%*%%/ }\\
test :: Test(1, 2);\\
elementclass Test { $a, $b | %%/%%* nothing %%*%%/ %%|%%| ... }

===== CONNECTION TUNNELS =====

A
//connection tunnel// 
is a pair of element names that acts as a tunnel for connections.
Consider a tunnel
'//p1// -> //p2//'.
Then connections to 
//p1// 
pass through the tunnel and are transformed, at compile time, into
connections from
//p2//.
For example, this code, with a tunnel,

connectiontunnel p1 -> p2;\\
a -> p1; p2 -> b;

is transformed into this code, without it:

a -> b;

The connections to p1's 
//i//th
input port have been expanded into connections from p2's
//i//th
output port. Thus, a is connected to b in the result because a was
connected to p1's input port 0, and p2's output port 0 was connected to b.
Here is a slightly more complicated example involving several connections
and different port numbers:

connectiontunnel p1 -> p2;\\
a -> p1; b -> p1; p2 -> c;\\
a [1] -> [1] p1; p2 [1] -> Discard;

is transformed into

a -> c; b -> c;\\
a [1] -> Discard;

And one final example:

connectiontunnel p1 -> p2;\\
a -> p1; p2 -> b; p2 -> c;

becomes

a -> b; a -> c;

Connection tunnels can be connected to each other. The system will
recursively expand the tunnels until none of them remain. (Circular
connections are silently ignored.) For example:

connectiontunnel p1 -> p2, q1 -> q2;\\
a -> p1; p2 -> q1; q2 -> b;

becomes

a -> b;

An identifier that has been used for a connection tunnel cannot be used for
an element, and vice versa. However, an identifier can be used for two
tunnels, once as the input end and once as the output end. For example:

connectiontunnel p -> p/input, p/output -> p;\\
a -> p; %%/%%/ using 'p' as input\\
p/input -> Counter -> p/output;\\
p -> b; %%/%%/ using 'p' as output

becomes

a -> Counter -> b;

Compound elements use this mechanism.

===== REQUIREMENTS =====

A configuration can say that it depends on optional packages by using the
'require' statement. Its argument is a comma-separated list of package
names:

require(fastclassifier, specialcode);

Installation programs can use the package names to find and upload any
necessary package code. Furthermore, the required package names are checked
against a list of currently active packages when a configuration is
installed. If any required packages are unavailable, an error is reported.

===== PARAMETER DEFINITIONS =====

Parameters are defined using the 'define' statement. Its argument is a
comma-separated list of pairs, each pair consisting of a configuration
variable and a value:

define($DEVNAME eth0, $COUNT 1);

This sets the '$DEVNAME' parameter to 'eth0' and the '$COUNT' parameter to
'1'. Definitions are lexically scoped, so definitions inside a compound
element are not visible outside it. However, all definitions in a given
scope take place simultaneously, regardless of their ordering. The
following two configurations have the same effect:

1) define($a 2); Message($a)\\
2) Message($a); define($a 2)

It is an error to define a parameter more than once in any single
scope. Click programs such as
[[userdriver]]
and
[[click-install]]
allow parameters to specified on the command line; these override any
global parameters with the same names.

===== LEXICAL ISSUES =====

Click identifiers are nonempty sequences of letters, numbers, underscores
'%%_%%', at-signs '@', and slashes '%%/%%' that do not begin or end with a slash.
The system uses '@' and '%%/%%' for special purposes: '@' in constructed names
for anonymous elements and prefixes, and '%%/%%' in names for components of
compound elements. Users are discouraged from using these characters in
their own identifiers. Identifiers are case-sensitive. No component of an
identifier may consist solely of numbers; for example, '1/x' is an illegal
identifier.

The keywords 'connectiontunnel', 'elementclass', 'require', and 'define'
may not be used as identifiers. The normal identifiers 'input' and 'output'
have special meaning inside compound element definitions.

The following characters and multi-character sequences are single Click
tokens:

->  ::  ;  ,  (  )  [  ]  {  }  |  %%|%%|  ...

Whitespace (using the C definition) and comments separate Click tokens.
Click uses C%%+%%+-style comments: from '%%/%%%%/%%' to the end of the line, or from
'/%%*%%' to the next '*%%/%%'. Either form of comment terminates an identifier, so
this Click fragment

an/identifier/with/slashes%%/%%/too/many

has an identifier 'an/identifier/with/slashes' and a comment
'%%/%%/too/many'. No identifier contains two consecutive slashes.

Parameters, which are used in compound elements, look like Perl variables. A
parameter consists of a dollar sign '$' followed by one or more letters,
numbers, and underscores.

A configuration string starts immediately following a left parenthesis '%%(%%',
and continues up to the next unbalanced right parenthesis '%%)%%'. However,
parentheses inside single or double quotes or comments do not affect
balancing. Here are several examples; in each case, the configuration
string consists of the text between the '#' marks (including the '#' marks
themselves).

C1(#simple string#)\\
C2(#string with (balanced parens)#)\\
C3(#string with ")quoted" paren#)\\
C4(#%%/%%/ end-of-line comment)\\
'' '''' '''' ''still going!#)\\
C5(#%%/%%* slash-star comment) %%*%%/ and backslash \#)

A Click program may contain C preprocessor-style line directives. These
lines start with '#' and have the form '# //linenumber//
"//filename//"' or '#line //linenumber// "//filename//"'; they change
the filenames and line numbers used for error messages. The filename
portion is optional. Line directives are not recognized inside
configuration strings.

===== ARCHIVES =====

Many Click programs also accept
**ar**(1)
archives as configurations. The archive must contain a member called
'config', which is treated as a Click-language configuration. The archive
may also contain package code required by the configuration. The
[[click-install]]
and
[[userdriver]]
programs will decompose the archive and install any package code before
installing the configuration itself. The
[[linuxmodule]]
kernel module will not accept archives; use
[[click-install]].

===== BNF GRAMMAR =====

//stmts// ::= //stmts// //stmt// | //empty//\\
//stmt// ::= //declaration// | //connection//\\
'' '''' '''' '''' ''| //tunnelstmt// | //elementclassstmt// | //requirestmt//\\
'' '''' '''' '''' ''| //definestmt// | ";"\\
//declaration// ::= //element-names// "::" 
//class// //opt-config//\\
//element-names// ::= //element-name//\\
'' '''' '''' '''' ''| //element-names// "," //element-name//\\
//element-name//"//::=//identifier\\
//class// ::= identifier | "{" //compounds// "}"\\
'' '''' '''' '''' ''| "{" //compounds// "%%|%%|" "..." "}"\\
//compounds// ::= //compound// | //compounds// "%%|%%|" //compound//\\
//compound// ::= //stmts// | //opt-formals// "|" //stmts//\\
//opt-formals// ::= //formals// | //empty//\\
//formals// ::= //formal// | //formals// "," //formal//\\
//formal// ::= parameter | identifier parameter\\
//connection// ::= //element// //opt-port// "->" //opt-port// //conntail//\\
//conntail// ::= //element// | //connection//\\
//element// ::= //element-name//\\
'' '''' '''' '''' ''| //element-name// "::" //class// //opt-config//\\
'' '''' '''' '''' ''| //class// //opt-config//\\
//opt-config// ::= "(" configstring ")" | //empty//\\
//opt-port// ::= "[" portnumber "]" | //empty//\\
//tunnelstmt// ::= "connectiontunnel" identifier "->" identifier\\
//elementclassstmt// ::= "elementclass" identifier //class//\\
//requirestmt// ::= "require" "(" configstring ")"\\
//definestmt// ::= "define" "(" configstring ")"\\
//empty// ::= 

===== SEE ALSO =====

[[userdriver]],
[[click-install]],
[[linuxmodule]]

===== AUTHOR =====

Eddie Kohler, kohler@cs.ucla.edu\\
[[http://www.pdos.lcs.mit.edu/click/|http://www.pdos.lcs.mit.edu/click/]]


===== COMMENTS =====