Ease 3.0: High Level Language for Sendmail (Part 5 of 6)

Sat Feb 23 18:18:15 AEST 1991

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X...
X... $Header: /home/kreskin/u0/barnett/Src/Ease/ease/doc/RCS/ease.paper,v 2.0 1990/01/30 12:50:44 jeff Exp barnett $
X... 
X... $Log: ease.paper,v $
X... Revision 2.0  1990/01/30  12:50:44  jeff
X... Baseline version, corresponding to netwide release 2.0.
X...
X... Revision 1.6  88/06/15  10:12:36  root
X... Some editorial cleanup, added Acknowledgements section.
X... 
X... Revision 1.5  88/01/21  17:19:35  root
X... Several editorial changes. ADR.
X... 
X... Revision 1.4  87/12/23  11:30:47  root
X... Updated list of authors. Documented extended canon() capability.
X... Integrated fluke changes in a little better. ADR.
X... 
X... Revision 1.3  87/11/04  11:33:45  root
X... Documented new keyword "while" which is equivalent to "if". ADR.
X... 
X... Revision 1.2  87/08/13  17:08:05  root
X... Changes from Jeff Stearns, fluke!jeff, for Sun. ADR.
X... 
X... Revision 1.1  87/08/13  17:05:00  root
X... Initial revision
X... 
X...
X.LP
X.TL
XEase: A Configuration Language
Xfor Sendmail
X.AU
XJames S. Schoner
X.AI
XPurdue University Computing Center
XWest Lafayette, Indiana  47907
X.AU
XJeff P. Stearns
X.AI
XJohn Fluke Manufacturing Company
XEverett, Washington  98206
X.AU
XArnold D. Robbins
X.AI
XEmory University Computing Center
XAtlanta, Georgia  30322
X.AU
XBruce G. Barnett
X.AI
XGeneral Electric Corporate Research and Development
XSchenectady, NY 12301
X.sp 2
X.I
X.ce
XABSTRACT
X.R
X.PP
XThe rapid expansion of computer networks and ensuing variation among mailing
Xaddress formats have made address interpretation an increasingly
Xcomplex task.  In the UNIX* 4.2BSD operating system, a program named 
X\fIsendmail\fR was introduced which provided a
Xgeneral internetwork mail routing facility.  This facility has significantly
Xdiminished the complexity of handling address interpretation.
X.PP
X\fISendmail\fR's address interpretation is based on a rewriting
Xsystem composed of
Xa number of rewriting rules (or productions) arranged as part of a 
Xconfiguration file.  Unfortunately, the syntactical format of a
Xconfiguration file for \fIsendmail\fR is both terse and rigid, making it
Xrather difficult to modify.  The standard format certainly serves its 
Xpurpose, but, as 
Xthe need to change these configurations increases in frequency, a more 
Xreadable format (i.e., one that is similar to the format 
Xof modern programming languages) is required to permit reasonably 
Xquick modifications to the configuration.  As a solution to this problem, 
X\fBEase\fR 
Xprovides a level of abstraction which eliminates most of the current
Xsyntactic hindrances
Xfaced by programmers who must reconfigure \fIsendmail\fR's 
Xaddress parsing scheme.  
X.PP
XAs a high-level specification format, \fBEase\fR is proving to be an 
Xexcellent alternative to \fIsendmail\fR's cryptic 
Xconfiguration file syntax.  The syntactic structures of \fBEase\fR 
Xare patterned after modern language constructs, making the language
Xeasy to learn and easy to remember.  The format of the address rewriting
Xrule is perhaps the most significant syntactical improvement.  It was 
Xundoubtedly
Xthe most needed improvement.  Nevertheless, every element of a configuration 
Xfile is structurally enhanced through the use of \fBEase\fR. 
X.FS
X*  UNIX is a registered trademark of AT&T.
X.FE
X.sp 2
X.NH
XIntroduction
X.PP
XThe \fBEase\fR language is a high-level specification format for \fIsendmail\fR's
Xconfiguration file.  The motivation for its development
Xwas to fulfill a goal of providing a readable and easily modifiable 
X\fIsendmail\fR configuration file format.  \fBEase\fR fulfills this goal by
Xshielding the programmer from the cryptic configuration specification required
Xby \fIsendmail\fR and providing a high-level language with which the programmer
Xmay specify all modifications to a configuration file.  The development 
Xof Ease coincided with
Xthe development of an \fBEase\fR translator, \fIet\fR,
Xwhich translates a configuration file written 
Xin \fBEase\fR to an
Xequivalent file of the standard format accepted by \fIsendmail\fR.
X.NH
XEase in Profile
X.PP
XAs will be seen in the next section, the syntax of \fBEase\fR is quite
Xreadable and easy to learn.  
XIn order to acquire a relevant perspective
Xon this issue,
Xthe reader is advised to examine a raw configuration file for \fIsendmail\fR (the 
Xoutput
Xof the \fBEase\fR translator, \fIet\fR, will do nicely).  The raw syntax, while
Xquite fitting for quick translation, can prove to be a programmer's nightmare.  
X.PP
XIt is recommended that you learn \fBEase\fP by converting your current
Xconfiguration file into \fBEase\fP format by using the program
X\fIcfc\fP written by Arnold Robbins and modified by Bruce G. Barnett.
X.PP
XUndoubtedly, one of the more prominent features of \fBEase\fR is the ability 
Xto attach
Xnames to address fields.  When address field names are well-chosen, a distinct,
Xself-documenting quality becomes a visible part of the address rewriting 
Xrules.  Ostensibly, address field names provide a new level of semantic 
Xabstraction.  A brief comparison of the formats can be accomplished by examining
Xthe following equivalent representations of an address pattern:
X.DS
X	user_path at host_name			(\fBEase\fR format)
X	$+@$-					(raw format)
X.DE
XIn the above, \*Quser_path\*U represents a field of one or more address
Xtokens, and \*Qhost_name\*U represents one address token exactly.  These
Xtoken fields are represented by \*Q$+\*U and \*Q$-\*U in the raw format.  Clearly, 
Xthe \fBEase\fR format is preferable, not only for increased readability, but 
Xstructural comprehension as well.
X.PP
XOther features of \fBEase\fR include ruleset naming, long identifiers for 
Xmacros and classes, flow-of-control structures, and free formatting.  In
Xaddition, it supports C language preprocessor (cpp) commands, which can be used for file inclusion
Xand conditionally defined code constructs.  The next section describes
Xthe \fBEase\fR language in complete detail.
X.NH
XEase Syntax*
X.FS
X*  \fINo attempt is made to describe the complete semantic meaning 
Xassociated with all of the constructs of a sendmail configuration file.  Items 
Xnot covered in this document include the semantic distinction among rulesets, 
Xthe special uses of
Xpre-defined macros, and the method of building configuration files.  To
Xobtain this information, the reader is advised to refer to
Xthe Sendmail Installation and Operation Guide (SMM:7 in the 4.3 BSD
XUNIX System Manager's Manual),
Xby Eric Allman.\fR
X.FE
X.PP
XAt its highest level, \fBEase\fR can be viewed as a collection of 
Xblock-structures, where each block begins with a keyword and is followed by
Xzero or more related definitions and/or declarations.  There are ten distinct 
Xblock types.  The following is 
Xa list containing all ten block keywords and the block type it denotes.
X.TS
Xcenter;
Xl l .
X\fIbind\fR	-ruleset identifier bindings
X\fImacro\fR	-macro definitions
X\fIclass\fR	-class definitions
X\fIoptions\fR	-\fIsendmail\fR option definitions
X\fIprecedence\fR	-precedence definitions
X\fItrusted\fR	-trusted users
X\fIheader\fR	-mail header definitions
X\fImailer\fR	-mailer definitions
X\fIfield\fR	-address field definitions
X\fIruleset\fR	-address rewriting rules
X.TE
X.sp 1
XIn general,
X.TS
Xcenter ;
Xl .
X
X* Letters are distinguished by case,
X
XT{
X* An \fBEase\fR identifier is defined to be a letter, followed by zero or 
Xmore letters, digits, underscores (_), or dashes (-),
XT}
X
XT{
X* A literal newline or double quotation (") character may be included in 
Xany quoted string by preceding the character with a backslash (\\\\\), and
XT}
X
XT{
X* \fBEase\fR source is preprocessed by the C language preprocessor (cpp)
Xif the program is executed with an option understood by cpp.
XThus source comments (i.e., text enclosed by \*Q/*\*U and \*Q*/\*U) may appear 
Xanywhere as part of \fBEase\fR whitespace.
XT}
X.TE
X.PP
XFor notational convenience, this document specifies all reserved
Xwords of the \fBEase\fR language in italics.  In addition, quantities
Xenclosed in angle brackets (<..>) represent arbitrary 
Xidentifiers, strings, or numbers.  
X.NH 2
XRuleset Identifier Bindings
X.PP
XA ruleset (a set of rewriting rules) is identified solely by an integer 
Xin \fIsendmail\fR's
Xconfiguration file.  \fBEase\fR, however, allows each ruleset to be named with
Xa meaningful identifier.  Since a special numeric association for each 
Xruleset is required by the address parsing scheme of \fIsendmail\fR, a \fIbind\fR
Xblock must be present in any \fBEase\fR file which defines one or more 
Xrulesets.  A
X\fIbind\fR block consists of the keyword \fIbind\fR, followed by zero or more
Xstatements of the form:
X.TS
Xcenter box;
Xl .
X<ruleset-id> = \fIruleset\fR <ruleset-number> ;
X.TE
XThe following example, 
X.sp 1
X\fIbind\fR
X.PP
XFINAL_RW = \fIruleset\fR 4;
X.sp 1
Xspecifies that FINAL_RW, the final rewriting ruleset, is \fIsendmail\fR's ruleset 
Xnumber 4.
X.NH 2
XMacro Definitions
X.PP
XA macro is an identifier which, when referenced in the text of a program,
Xis replaced by its value, a string of zero or more characters.  The value
Xof a macro may include references to other macros, but not itself!  \fISendmail\fR
Xallows a maximum of 26 user-declared macros in its configuration file.  In 
Xaddition, there are a number of pre-declared macros which have special meaning
Xto \fIsendmail\fR (see Appendix A).  \fBEase\fR macros are defined in 
X\fImacro\fR blocks.  \fBEase\fR allows any macro to be declared 
X(which is equivalent to simply referencing it) before it is defined.  A macro
Xidentifier is replaced by its value when it is preceded by the character
X\*Q$\*U.  In addition, a macro reference inside a quoted string must always 
Xinclude braces ({}) around the macro identifier (for delimiting purposes).  
X.PP
XA \fImacro\fR block consists of the keyword \fImacro\fR, followed by zero
Xor more statements taking either of the following forms:
X.TS
Xcenter box;
Xl .
X<macro-identifier> = "<macro-value>" ;
X<macro-identifier> = \fBconditional-expression\fR ;
X.TE
XThe \fBconditional-expression\fR format will be discussed 
Xlater.  
X.sp 1
XThe following example,
X.sp 1
X\fImacro\fR
X.PP
Xfirst_name = "James";
X.PP
Xlast_name = "Schoner";
X.PP
Xwhole_name = "${first_name} ${last_name}";
X.sp 1
Xdefines the macros first_name, last_name, and whole_name, where whole_name
Xis the string, "James Schoner".
X.NH 2
XClass definitions
X.PP
XA class is denoted by an identifier representing a logical grouping of zero 
Xor more names.  Classes are used to represent the range of values a token
Xmay assume in the pattern matching of an address.  Further discussion on the
Xuse of classes will be deferred until address fields are described.
X.PP
XOne identifier may be used to distinctly represent both a macro
Xand class (i.e., the set of macro identifiers and the set of class identifiers
Xmay form a non-empty intersection).  A name, or class element, may 
Xbe an identifier or any quoted word.
X.PP
XA \fIclass\fR block consists of the keyword \fIclass\fR, followed by zero
Xor more statements taking any of the following forms:
X.TS
Xcenter box;
Xl .
X<class-identifier> = { <name1>, <name2>, <name3>, ... } ;
X<class-identifier> = \fIreadclass\fR ( "<file-name>" ) ;
X<class-identifier> = \fIreadclass\fR ( "<file-name>", "<read-format>" ) ;
X.TE
XThe second and third forms cause \fIsendmail\fR to read the names of the class 
Xfrom the named
Xfile.  The third form contains a read format, which should be a \fIscanf\fR(3)
Xpattern yielding a single string.
X.sp 1
XThe following example,
X.sp 1
X\fIclass\fR
X.PP
Xcampus_hosts = { statistics, engineering, chemistry, physics, physics-2 } ;
X.PP
Xversions     = { "1.0", "1.1", "4.0", "4.2", latest-and-greatest } ;
X.PP
Xphone_hosts  = \fIreadclass\fR ( "/tmp/phonenet.list" ) ;
X.sp 1
Xdefines the classes campus_hosts, versions, and phone_hosts.
X.NH 2
XSendmail option definitions
X.PP
XA number of options to the \fIsendmail\fR program may be specified in 
Xan \fIoptions\fR
Xblock.  For a description of the various \fIsendmail\fR options and their 
Xvalues, see Appendix B.  
X.PP
XAn
X\fIoptions\fR block consists of the keyword \fIoptions\fR, followed by zero
Xor more statements taking any of the following forms:
X.TS
Xcenter box;
Xl l .
X<option-identifier>	= "<option-value>" ;
X\fIo_delivery\fR	= \fBspecial-value\fR ;
X\fIo_handling\fR	= \fBspecial-value\fR ;
X.TE
XAll but two options (\fIo_delivery\fR and \fIo_handling\fR) use the first 
Xform.  To specify an option without a value, simply assign to it the null 
Xstring ("").  The \fBspecial-value\fR field of the second and third form
Xrefers to special values (non-quoted) which are specified in Appendix B.
X.sp 1
XThe following example,
X.sp 1
X\fIoptions\fR
X.PP
X\fIo_alias\fR = "/usr/lib/aliases" ;
X.PP
X\fIo_tmode\fR = "0600" ;
X.PP
X\fIo_delivery\fR = \fId_background\fR ;
X.sp 1
Xsets the options \fIo_alias\fR, \fIo_tmode\fR, and \fIo_delivery\fR.
X.NH 2
XPrecedence definitions
X.PP
XMessage headers may contain a \*QPrecedence:\*U field describing the precedence
Xof the message class.  Identifiers which may appear in the precedence field of
Xa message are given precedence values in a configuration file \fIprecedence\fR 
Xdefinition.  This association will be illustrated below in an example.
X.PP
XA \fIprecedence\fR block consists of the keyword \fIprecedence\fR, followed 
Xby zero or more statements of the form:
X.KS
X.TS
Xcenter box;
Xl .
X<precedence-identifier> = <precedence-integer> ;
X.TE
X.KE
XThe following example,
X.sp 1
X\fIprecedence\fR
X.PP
Xspecial-delivery = 100;
X.PP
Xjunk = -100;
X.sp 1
Xdefines the precedence level for the names \*Qspecial-delivery\*U and 
X\*Qjunk\*U.  Thus, whenever the name \*Qjunk\*U appears in 
Xa \*QPrecedence:\*U field, the corresponding message class will be set to -100.
X.NH 2
XTrusted users
X.PP
X\fISendmail\fR's \fB\-f\fR flag allows trusted users to override the sender's
Xmachine address.  Trusted users are listed in \fItrusted\fR blocks.  A 
X\fItrusted\fR block consists of the keyword \fItrusted\fR, followed 
Xby zero or more sets of users taking the form:
X.TS
Xcenter box;
Xl .
X{ <user1>, <user2>, <user3>, ... } ;
X.TE
XThe following example,
X.sp 1
X\fItrusted\fR
X.PP
X{ root, uucp, network } ;
X.PP
X{ acu, kcs, jss } ;
X.sp 1
Xspecifies that the users root, uucp, network, acu, kcs, and jss can be trusted 
Xto use the \fIsendmail\fR flag, \fB\-f\fR.
X.NH 2
XMail header definitions
X.PP
XThe format of the message headers inserted by \fIsendmail\fR is defined in one
Xor more \fIheader\fR blocks in the configuration file.  A \fIheader\fR block
Xconsists of the keyword \fIheader\fR, followed by zero or more statements
Xtaking any of the following forms:
X.TS
Xcenter box;
Xl 
Xl
Xl
Xl
Xl
Xl
Xl
Xl
Xl
Xl
Xl .
X\fIfor\fR ( <mailer-flag1>, <mailer-flag2>, ... )
X       \fIdefine\fR ( "<header-title>" , \fBheader-value\fR ) ;
X
X\fIfor\fR ( <mailer-flag1>, <mailer-flag2>, ... ) {
X       \fIdefine\fR ( "<header-title>" , \fBheader-value\fR ) ;
X       \fIdefine\fR ( "<header-title>" , \fBheader-value\fR ) ;
X       .
X       .
X} ;
X
X\fIdefine\fR ( "<header-title>" , \fBheader-value\fR ) ;
X.TE
XThe first form is used to define one header for one or more mailer
Xflags.  The second form differs from the first in that more than one
Xheader may be defined for a given set of flags.  The third form is used to 
Xdefine a header,
Xregardless of mailer flags.  Refer to Appendix C for a list of \fBEase\fR 
Xidentifiers representing mailer flags.  The header title is a simple
Xstring of characters (no macro references), whereas the \fBheader-value\fR
Xis a series of one or more strings and
X\fBconditional-expressions\fP (discussed later).
XConcatenation is implicit (as in \fIawk\fP).
X.sp 1
XThe following example,
X.DS
X\fIheader\fR
X
X	\fIdefine\fR ( "Subject:", "") ;
X
X	\fIfor\fR ( \fIf_return\fR )
X		\fIdefine\fR ( "Return-Path:", "<${\fIm_sreladdr\fR}>" ) ;
X
X	\fIfor\fR ( \fIf_date\fR ) {
X		\fIdefine\fR ( "Resent-Date:", "${\fIm_odate\fR}" ) ;
X		\fIdefine\fR ( "Date:", "${\fIm_odate\fR}" );
X	} ;
X.DE
Xdefines a \*QSubject\*U field for all mailers, regardless of their flags, a
X\*QReturn-Path\*U field for mailers whose definition specifies
Xthe flag, \fIf_return\fR, and the headers, \*QResent-Date\*U and \*QDate\*U,
Xfor mailers whose definition specifies the flag, \fIf_date\fR.
X.NH 2
XMailer Definitions
X.PP
X\fISendmail\fR's definition of a mailer (or an interface to one) occurs in a
X\fImailer\fR block.  A \fImailer\fR block consists of the keyword \fImailer\fR,
Xfollowed by zero or more statements of the form:
X.TS
Xcenter box;
Xl .
X<mailer-identifier> { \fBmailer-spec\fR } ;
X.TE
XThe field, \fBmailer-spec\fR, is a list of zero or more of the
Xfollowing attribute assignments (where successive assignment statements are
Xseparated by commas):
X.TS
Xcenter ;
Xl l 
Xl l
Xl l
Xl l
Xl l
Xl l
Xl l .
X\fIPath\fR	= \fBstring-attribute\fR
X\fIArgv\fR	= \fBstring-attribute\fR
X\fIEol\fR	= \fBstring-attribute\fR
X\fIMaxsize\fR	= \fBstring-attribute\fR
X\fIFlags\fR	= { <mailer-flag1>, <mailer-flag2>, ... } 
X\fISender\fR	= <sender-ruleset-id>
X\fIRecipient\fR	= <recipient-ruleset-id>
X.TE
XThe \fBstring-attribute\fR value can take the form of a quoted string
X(possibly containing macro references) or a \fBconditional-expression\fR 
X(discussed later).
X.sp 1
XThe following example,
X.sp 1
X\fImailer\fR
X.DS
X	local {
X		\fIPath\fR		= "/bin/mail",
X		\fIFlags\fR		= { \fIf_from\fR, \fIf_locm\fR },
X		\fISender\fR	= Sender_RW,
X		\fIRecipient\fR	= Recip_RW,
X		\fIArgv\fR		= "mail -d ${\fIm_ruser\fR}",
X		\fIMaxsize\fR	= "200000"
X	} ;
X.DE
Xdefines a mailer named \*Qlocal\*U.
X.NH 2
XAddress field definitions
X.PP
X\fISendmail\fR's address parsing scheme treats an address as a group of tokens
X(an address token is precisely defined in the Arpanet protocol RFC822).  In
Xgeneral, \fIsendmail\fR divides an address into tokens based on a list of
Xcharacters assigned as a string to the special macro \fIm_addrops\fR.  These
Xcharacters will individually be considered as tokens and will separate tokens
Xwhen parsing is performed. 
X.PP
XFor
Xthe \fBEase\fR language, there is a distinct set of address tokens (defined
Xbelow) which are used in combination to represent generic forms of 
Xaddresses.  In 
Xaddition to literal address tokens, the pattern to be matched in a rewriting 
Xrule (often referred to as the LHS) may
Xinclude field identifiers which match one of five possibilities:
X.DS
X	- zero or more tokens
X	- one or more tokens
X	- one token exactly
X	- one token which is an element of an arbitrary class \fBX\fR
X	- one token which is not an element of an arbitrary class \fBX\fR
X.DE
XA particular field type may be assigned to one or more identifiers.  Each
Xfield identifier is associated with (or defined to be) a field type in
Xa \fIfield\fR declarations block.  A \fIfield\fR declarations block consists
Xof the keyword \fIfield\fR, followed by zero or more field definitions of
Xthe form:
X.TS
Xcenter box;
Xl .
X\fBfield-id-list\fR : \fBfield-type\fR ;
X.TE
XA \fBfield-id-list\fR is a list of one or more identifiers, each separated by
Xa comma.  A \fBfield-type\fR, on the other hand, is a representation of 
Xone of the five fields 
Xdescribed above.  The syntax for each of the five forms follows:
X.DS
X	\fImatch\fR ( 0* )
X	\fImatch\fR ( 1* )
X	\fImatch\fR ( 1 )
X	\fImatch\fR ( 1 ) \fIin\fR <class-X>
X	\fImatch\fR ( 0 ) \fIin\fR <class-X>
X.DE
XThe star in the first two forms means: "or more".  Thus, the first
Xform would read: "match zero or more tokens".  The fourth form describes
Xa field where one token is matched from an arbitrary class (class-X), whereas
Xthe fifth form describes a field where one token is matched if it is not of the
Xgiven class (class-X).
X.sp 1
XIn addition, the Sun release 3.0 version of \fIsendmail\fR supports several
Xnew pattern matching operations represented by the following forms:
X.DS
X	\fImatch\fR ( 0 ) \fImap\fR <macro-identifier-X>
X	\fImatch\fR ( 1 ) \fImap\fR <macro-identifier-X>
X	\fImatch host\fR
X.DE
XThe macro \*Qmacro-identifier-X\*U should be assigned the name of the
Xrelevant YP map.
X.sp 1
XThe following example,
X.sp 1
X.DS
X\fIfield\fR
X	anypath		: \fImatch\fR ( 0* );
X	recipient_host	: \fImatch\fR ( 1 );
X	local_site		: \fImatch\fR ( 1 ) \fIin m_sitename\fR;
X	remote_site		: \fImatch\fR ( 0 ) \fIin m_sitename\fR;
X.DE
Xdefines the fields anypath, recipient_host, local_site, and remote_site.
X.NH 2
XAddress rewriting rules
X.PP
XAddress rewriting rules are grouped according to the function they perform.  For
Xexample, it is desirable to form a distinct group for those rewriting rules 
Xwhich perform transformations on recipient addresses.
X.PP
XSets of rewriting rules are defined in \fIruleset\fR blocks.  A \fIruleset\fR
Xblock consists of the keyword \fIruleset\fR, followed by zero or more
Xruleset definitions of the form:
X.TS
Xcenter box;
Xl .
X<ruleset-id> { <rewriting-rule1> <rewriting-rule2> ... }
X.TE
XThe ruleset identifier, ruleset-id, must be defined in a \fIbind\fR block, as
Xdescribed earlier.  The rewriting rules have the form:
X.DS
X	\fIif\fR ( <match-pattern> )
X		<match-action> ( <rewriting-pattern> ) ;
X.DE
Xwhere match-pattern, rewriting-pattern, and match-action are described below.
XAn alternative form is available:
X.DS
X	\fIwhile\fR ( <match-pattern> )
X		<match-action> ( <rewriting-pattern> ) ;
X.DE
Xwhich is somewhat more useful when the \*Qmatch-action\*U is \fIretry\fP
X(see below).
X.NH 3
XMatch-patterns
X.PP
XA match-pattern is a sequence of Ease address elements representing an
Xaddress format.  If the address being rewritten matches the pattern
X\*Qmatch-pattern\*U,
Xthen the address is reformatted using the pattern \*Qrewriting-pattern\*U, and 
Xthe corresponding
Xaction (\*Qmatch-action\*U) is performed.  The five distinct Ease address
Xelements which may constitute a match-pattern are as follows:
X.TS
Xcenter ;
Xl .
X1. Field Identifiers (refer to previous section)
XT{
X2. Non-alphanumeric characters (the exception is the case for literal 
Xdouble quotes, which must be preceded by a backslash (\\\\\)
XT}
X3. Macro references
X4. Quoted strings ("...")
X5. \fBConditional-expressions\fR (discussed later)
X.TE
XBelow are two sample match-patterns, each describing the same address format:
X.DS
X	user-id @ hostname . $arpa_suffix
X	user-id @ hostname ".ARPA"
X.DE
Xwhere user-id and hostname are field identifiers, and arpa_suffix is a 
Xuser-defined macro with the value \*QARPA\*U.
X.NH 3
XRewriting-patterns
X.PP
XA rewriting-pattern specifies the form in which to rewrite a matched 
Xaddress.  The seven distinct elements which may be used to form 
Xa rewriting-pattern are as follows:
X.TS
Xcenter ;
Xl .
X
XT{
X1. Non-alphanumeric characters (the exception is the case for literal
Xdouble quotes, left parentheses, or right parentheses, each of which 
Xmust be preceded by a backslash (\\\\\). 
XT}
X
XT{
X2. A call to another ruleset.  This is used to perform rewrites
Xon a suffix of the rewriting-pattern.  The proper use of this
Xfeature will be demonstrated by example below. 
XT}
X
X3. Quoted strings ("...").
X
X4. \fBConditional-expressions\fR (discussed later).
X
X5. A macro reference.
X
XT{
X6. A positional reference in the matched address.  A positional 
Xreference takes the form: $<integer-position>.  For example, 
X$3 references the value of the third \fBEase\fR address 
Xelement in the matched address.
XT}
X
XT{
X7. Canonicalized host names of the form \fIcanon\fR (<id-token-list>),
Xwhere \*Qid-token-list\*U is a list of one or more \*Qid-tokens.\*U
XAn \*Qid-token\*U is a regular identifier, a quoted identifier (with
Xdouble quotes), a macro reference yielding an identifier,
Xa numeric internet specification (see below),
Xa literal character (such as a \*Q.\*U or a \*Q[\*U), or a 
Xpositional reference in the matched address.  The canonicalization of 
Xa host name is simply a mapping to its canonical (or official) form.
XT}
X
X.TE
XBelow are two sample rewriting-patterns:
X.DS
X	$1 % $2 < @ $3 ".ARPA" >
X	OLDSTYLE_RW ( $1 )
X.DE
XThe first form specifies an address such as a%b<@c.ARPA>, where a, b, and c
Xrepresent matched identifiers or paths.  The second form specifies a call to
Xthe ruleset \*QOLDSTYLE_RW\*U, for old-style rewriting on the parameter 
X$1, which probably references the entire matched address.  This will become 
Xclear in later examples.
X.NH 3
XMatch-actions
X.PP
XWhen a ruleset is called, the address to be rewritten is compared (or matched)
Xsequentially against the match-address of each rewriting rule.  When a
Xmatch-address describes the address \fIsendmail\fR is attempting to rewrite, the
Xaddress is rewritten (or reformatted) using the rule's 
Xrewriting-pattern.  Following this rewrite, the corresponding match-action
Xis performed.  There are four match-actions:
X.TS
Xcenter ;
Xl l .
X\fIretry\fR	T{
X-a standard action which causes the rewritten address
Xto be again compared to the match-address of the current rule. 
XT}
X
X\fInext\fR	T{
X-an action which causes the rewritten address to be
Xcompared to the match-address of the next rewriting rule of the current 
Xruleset.  If the end of the list is reached, the ruleset returns the 
Xrewritten address.
XT}
X
X\fIreturn\fR	T{
X-an action which causes an immediate return of the 
Xruleset with the current rewritten address.
XT}
X
X\fIresolve\fR	T{
X-an action which specifies that the address has been
Xcompletely resolved (i.e., no further rewriting is necessary).  The 
X\fIresolve\fR action is described in more detail below. 
XT}
X.TE
X.PP
XThe match-action, \fIresolve\fR, is special in that it terminates
Xthe address rewriting altogether.  The semantic structure of \fIsendmail\fR's
Xrewriting scheme requires that a \fIresolve\fR action appear only in the 
Xruleset whose numerical binding is to the number zero.  The \fIresolve\fR action
Xmust specify three parameters: \fImailer\fR, \fIhost\fR, and \fIuser\fR.  If
Xthe \fImailer\fR is local, the \fIhost\fR parameter may be omitted.  The
X\fImailer\fR argument must be specified as a single word, macro, or positional
Xreference in the matched address.  The \fIhost\fR argument may be specified as 
Xa single word or as an expression which expands to a single word (e.g.,
X\fIhost\fR ($1 ".ARPA")).  In addition, the \fIhost\fR argument may be a
Xcanonicalization (as described above) or a numeric internet specification.  The
Xkeyword \fIhostnum\fR is used for numeric internet specifications, as in 
X\fIhostnum\fR ("128.61.1.1") or \fIhostnum\fR ( $2 ).  The \fIuser\fR 
Xspecification is a rewriting-pattern, as described above.  
X.PP
XIn general, the format of a \fIresolve\fR action will be as follows:
X.DS
X	\fIresolve\fR (	\fImailer\fR ( <mailer-name> ),
X			\fIhost\fR   ( <host-name> ),
X			\fIuser\fR   ( <user-address>)   );
X.DE
XExamples of the match-action statement are shown below:
X.DS
X\fIfield\fR
X	anypath	: \fImatch\fR (0*);
X	usr, path	: \fImatch\fR (1*);
X	hostname	: \fImatch\fR (1);
X	phone_host	: \fImatch\fR (1) \fIin\fR phonehosts;
X.DE
X.DS
X\fIruleset\fR
X
X	EXAMPLE_RW {
X	
X		\fIif\fR ( anypath < path > anypath )   /* basic RFC821/822 parse */
X			\fIretry\fR ( $2 );
X		\fIif\fR ( usr " at " path )		/* \*Qat\*U -> \*Q@\*U */
X			\fInext\fR ( $1 @ $2 );
X		\fIif\fR ( @path: usr )
X			\fIreturn\fR ( LOCAL_RW ( < @$1 > : $2 ) );
X		\fIif\fR ( anypath < @phone_host".ARPA" > anypath )
X			\fIresolve\fR (	\fImailer\fR ( tcp ),
X					\fIhost\fR ( relay.cs.net ),
X					\fIuser\fR ( $1 % $2 < @"relay.cs.net" > $3 ) );
X	}
X.DE
X.PP
XThe example above defines the ruleset \*QEXAMPLE_RW\*U, which contains four
Xrewriting rules.  The first rewriting rule discards all tokens of an address
Xwhich lie on either side of a pair of angle brackets (<>), thereby 
Xrewriting the address as
Xthe sequence of tokens contained within the angle brackets ($2).  Following the
Xaddress rewrite, the rule is applied again (\fIretry\fR).  When the first rule
Xfails to match the address being rewritten, the second rule is applied.  
X.PP
XThe second 
Xrule simply replaces the word \*Qat\*U by the symbol \*Q@\*U.  The \*Q\fInext\fR\*U
Xaction specifies that if a match is made, a rewrite is performed and 
Xmatching continues at the next (or following) rule.  
X.PP
XThe third rule illustrates
Xthe use of the \*Q\fIreturn\fR\*U action, which is executed if the 
Xpattern \*Q at path: usr\*U
Xdescribes the current format of the address being rewritten.  In this example,
Xthe \fIreturn\fR action returns the result of a call to ruleset \*QLOCAL_RW\*U,
Xwhich rewrites the address \*Q<@$1>:$2\*U, where $1 and $2 are substituted
Xwith the token(s) matched respectively by \*Qpath\*U and \*Qusr\*U.
X.PP
XThe fourth (and final) rule signals a resolution (and termination) of the
Xrewriting process if the given pattern is matched.  The resolution specifies
Xthat the mailer \*Qtcp\*U will be used to deliver the message to the host
X\*Qrelay.cs.net\*U.
XThe \fIuser\fR parameter specifies the final form of the address
Xwhich \fIsendmail\fR has just resolved.
X.sp 2
X.PP
XThe \fBEase\fR construct which remains to be examined is the 
X\fBconditional-expression\fR.  The \fBconditional-expression\fR provides a 
Xmethod for
Xconstructing strings based on the condition that some test macro is (or is not)
Xset.  The general form begins with the concatenation of a string and a
X\fBstring-conditional\fR:
X.DS
X	\fIconcat\fR ( <quoted-string>, \fBstring-conditional\fR )
X	\fIconcat\fR ( \fBstring-conditional\fR, <quoted-string> )
X.DE
XA \fBstring-conditional\fR assumes either of the following forms:
X.DS
X	\fIifset\fR ( <macro-name>, <ifset-string> )
X	\fIifset\fR ( <macro-name>, <ifset-string>, <notset-string> )
X.DE
XA \fBstring-conditional\fR of the first form evaluates to \*Qifset-string\*U 
Xif the macro \*Qmacro-name\*U has been assigned a value; otherwise it
Xevaluates to the null string.  The second form behaves similarly, except
Xthat the \fBstring-conditional\fR evaluates to \*Qnotset-string\*U, instead
Xof the null string, if the macro \*Qmacro-name\*U has no value.
X.sp 1
XThe following \fBconditional-expression\fR,
X.DS
X	\fIconcat\fR ( "New ", \fIifset\fR ( city, "York", "Jersey" ) )
X.DE
Xevaluates to the string "New York", if the macro \*Qcity\*U is set.  Otherwise,
Xthe \fBconditional-expression\fR evaluates to the string "New Jersey".
X.NH 2
XLatest Changes
XThe first two releases of \fBEase\fP provided a good starting point
Xfor managing \fIsendmail\fP  files. However, the translation wasn't
Xperfect. Some editing needed to be done before \fBEase\fB could be
Xused.
XBruce G. Barnett made modifications to Arnold Robbin's \fBEase\fP to
Xsendmail convertor \fIcfc\fP and tested these changes to verify a
X\fIsendmail\fP configuration fle could be translated into \fBEase\fP
Xand back with no errors: at least for the more common versions of
X\fIsendmail\fP.
XIn case this translation is not perfect, \fBEase\fP version 3 supports
Xthe \fIasm("...")\fP command, which passes the contents of the string
Xdirectly to the \fIsendmail.cf\fP file.
XAlso - support for SunOS and Ultrix sendmail were added.
XNew options and flags were added, and well as the \fIypmap\fP (SunOS),
X\fIypalias\fP and \fIyppasswd\fP (Ultrix) functions.
X.NH
XEase Translation
X.PP
XIt is important to note that \fBEase\fR is translated by a stand-alone
Xtranslator to the raw configuration file format.  No modifications were
Xmade to the \fIsendmail\fR program itself.  As a result, syntactical verification
Xof a configuration file can be performed without invoking \fIsendmail\fR.
X.PP
XThe \fBEase\fR language is translated by invoking 
Xthe \fBEase\fR translator (\fIet\fR). If the command line options include a flag understood by the C language preprocessor (cpp), \fIet\fP automatically 
Xpipes input through \fIcpp\fP.
XThe \fBEase\fR
Xtranslator may be invoked on the command line in one of four ways:
X.TS
Xcenter box ;
Xl l .
X\fIet\fR <options>  <input-file>  <output-file>	[read from a file, write to a file]
X\fIet\fR  <options> <input-file>	[read from a file, write to standard output]
X\fIet\fR  <options> -  <output-file>	[read from standard input, write to a file]
X\fIet\fR <options>	[read from standard input, write to standard output]
X.TE
X.NH
XConclusion
X.PP
X\fBEase\fR is [ed - this information is old] currently in use at the
XPurdue University Computing Center.  Source code for the \fBEase\fR
Xtranslator (\fIet\fR) may be obtained on request by writing to:
X.DS
XU.S. Mail:
X		James S. Schoner
X		c/o Kevin S. Braunsdorf
X		Purdue University Computing Center
X		Purdue University
X		West Lafayette, Indiana  47907
X
XElectronic Mail:
X		ksb at j.cc.purdue.edu
X.DE
X.PP
XMuch of the success of this project is attributable to the constant support 
Xand insight offered by Mark Shoemaker.  To him, I owe a debt of gratitude.  In 
Xaddition, I would like to thank Kevin Smallwood, Paul Albitz, and Rich Kulawiec
Xfor their many notable suggestions and valuable insight.
X.NH
XAcknowledgements
X.PP
XArnold Robbins would like to acknowledge contributions from
XStephen Schaefer of Bowling Green State University,
XJeff Stearns of John Fluke Manufacturing Company,
XRaymond A. Schnitzler of Bellcore,
XAndrew Partan of the Corporation for Open Systems,
Xand
XBruce G. Barnett, of General Electric.
XThe good intentions of Rich Salz, of Bolt Beranak, and Newman,
Xare also acknowledged.
X.PP
XThe most up to date version of \fBEase\fR should be gotten from the
Xnearest USENET \fBcomp.sources.unix\fR archive site.
X# Local variables:
X# mode: nroff
X# end:
END_OF_doc/ease.paper
if test 32871 -ne `wc -c <doc/ease.paper`; then
    echo shar: \"doc/ease.paper\" unpacked with wrong size!
fi
# end of overwriting check
fi
echo shar: End of archive 5 \(of 6\).
cp /dev/null ark5isdone
MISSING=""
for I in 1 2 3 4 5 6 ; do
    if test ! -f ark${I}isdone ; then
	MISSING="${MISSING} ${I}"
    fi
done
if test "${MISSING}" = "" ; then
    echo You have unpacked all 6 archives.
    rm -f ark[1-9]isdone
else
    echo You still need to unpack the following archives:
    echo "        " ${MISSING}
fi
##  End of shell archive.
exit 0
--
Bruce G. Barnett	barnett at crd.ge.com	uunet!crdgw1!barnett