/usr/bin/yaz-asncomp is in libyaz4-dev 4.2.30-2.1build1.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 | #!/usr/bin/tclsh
#
# yaz-comp: ASN.1 Compiler for YAZ
# (c) Index Data 1996-2012
# See the file LICENSE for details.
#
set yc_version 0.4
# Syntax for the ASN.1 supported:
# file -> file module
# | module
# module -> name skip DEFINITIONS ::= mbody END
# mbody -> EXPORTS { nlist }
# | IMPORTS { imlist }
# | name ::= tmt
# | skip
# tmt -> tag mod type
# type -> SEQUENCE { sqlist }
# | SEQUENCE OF type
# | CHOICE { chlist }
# | basic enlist
#
# basic -> INTEGER
# | BOOLEAN
# | OCTET STRING
# | BIT STRING
# | EXTERNAL
# | name
# sqlist -> sqlist , name tmt opt
# | name tmt opt
# chlist -> chlist , name tmt
# | name tmt
# enlist -> enlist , name (n)
# | name (n)
# imlist -> nlist FROM name
# imlist nlist FROM name
# nlist -> name
# | nlist , name
# mod -> IMPLICIT | EXPLICIT | e
# tag -> [tagtype n] | [n] | e
# opt -> OPTIONAL | e
#
# name identifier/token
# e epsilon/empty
# skip one token skipped
# n number
# tagtype APPLICATION, CONTEXT, etc.
# lex: moves input file pointer and returns type of token.
# The globals $type and $val are set. $val holds name if token
# is normal identifier name.
# sets global var type to one of:
# {} eof-of-file
# \{ left curly brace
# \} right curly brace
# , comma
# ; semicolon
# ( (n)
# [ [n]
# : ::=
# n other token n
proc lex {} {
global inf val type
while {![string length $inf(str)]} {
incr inf(lineno)
set inf(cnt) [gets $inf(inf) inf(str)]
if {$inf(cnt) < 0} {
set type {}
return {}
}
lappend inf(asn,$inf(asndef)) $inf(str)
set l [string first -- $inf(str)]
if {$l >= 0} {
incr l -1
set inf(str) [string range $inf(str) 0 $l]
}
set inf(str) [string trim $inf(str)]
}
set s [string index $inf(str) 0]
set type $s
set val {}
switch -- $s {
\{ { }
\} { }
, { }
; { }
\( { }
\) { }
\[ { regexp {^\[[ ]*(.+)[ ]*\]} $inf(str) s val }
: { regexp {^::=} $inf(str) s }
default {
regexp "^\[^,\t :\{\}();\]+" $inf(str) s
set type n
set val $s
}
}
set off [string length $s]
set inf(str) [string trim [string range $inf(str) $off end]]
return $type
}
# lex-expect: move pointer and expect token $t
proc lex-expect {t} {
global type val
lex
if {[string compare $t $type]} {
asnError "Got $type '$val', expected $t"
}
}
# lex-name-move: see if token is $name; moves pointer and returns
# 1 if it is; returns 0 otherwise.
proc lex-name-move {name} {
global type val
if {![string compare $type n] && ![string compare $val $name]} {
lex
return 1
}
return 0
}
# asnError: Report error and die
proc asnError {msg} {
global inf
puts "Error in line $inf(lineno) in module $inf(module)"
puts " $msg"
error
exit 1
}
# asnWarning: Report warning and return
proc asnWarning {msg} {
global inf
puts "Warning in line $inf(lineno) in module $inf(module)"
puts " $msg"
}
# asnEnum: parses enumerated list - { name1 (n), name2 (n), ... }
# Uses $name as prefix. If there really is a list, $lx holds the C
# preprocessor definitions on return; otherwise lx isn't set.
proc asnEnum {name lx} {
global type val inf
if {[string compare $type \{]} return
upvar $lx l
while {1} {
set pq [asnName $name]
set id [lindex $pq 0]
set id ${name}_$id
lex-expect n
lappend l "#define $inf(dprefix)$id $val"
lex-expect ")"
lex
if {[string compare $type ,]} break
}
if {[string compare $type \}]} {
asnError "Missing \} in enum list got $type '$val'"
}
lex
}
# asnMod: parses tag and modifier.
# $xtag and $ximplicit holds tag and implicit-indication on return.
# $xtag is empty if no tag was specified. $ximplicit is 1 on implicit
# tagging; 0 otherwise.
proc asnMod {xtag ximplicit xtagtype} {
global type val inf
upvar $xtag tag
upvar $ximplicit implicit
upvar $xtagtype tagtype
set tag {}
set tagtype {}
if {![string compare $type \[]} {
if {[regexp {^([a-zA-Z]+)[ ]+([0-9]+)$} $val x tagtype tag]} {
set tagtype ODR_$tagtype
} elseif {[regexp {^([0-9]+)$} $val x tag]} {
set tagtype ODR_CONTEXT
} else {
asnError "bad tag specification: $val"
}
lex
}
set implicit $inf(implicit-tags)
if {![string compare $type n]} {
if {![string compare $val EXPLICIT]} {
lex
set implicit 0
} elseif {![string compare $val IMPLICIT]} {
lex
set implicit 1
}
}
}
# asnName: moves pointer and expects name. Returns C-validated name.
proc asnName {name} {
global val inf
lex-expect n
if {[info exists inf(membermap,$inf(module),$name,$val)]} {
set nval $inf(membermap,$inf(module),$name,$val)
if {$inf(verbose)} {
puts " mapping member $name,$val to $nval"
}
if {![string match {[A-Z]*} $val]} {
lex
}
} else {
set nval $val
if {![string match {[A-Z]*} $val]} {
lex
}
}
return [join [split $nval -] _]
}
# asnOptional: parses optional modifier. Returns 1 if OPTIONAL was
# specified; 0 otherwise.
proc asnOptional {} {
global type val
if {[lex-name-move OPTIONAL]} {
return 1
} elseif {[lex-name-move DEFAULT]} {
lex
return 0
}
return 0
}
# asnSizeConstraint: parses the optional SizeConstraint.
# Currently not used for anything.
proc asnSizeConstraint {} {
global type val
if {[lex-name-move SIZE]} {
asnSubtypeSpec
}
}
# asnSubtypeSpec: parses the SubtypeSpec ...
# Currently not used for anything. We now it's balanced however, i.e.
# (... ( ... ) .. )
proc asnSubtypeSpec {} {
global type val
if {[string compare $type "("]} {
return
}
lex
set level 1
while {$level > 0} {
if {![string compare $type "("]} {
incr level
} elseif {![string compare $type ")"]} {
incr level -1
}
lex
}
}
# asnType: parses ASN.1 type.
# On entry $name should hold the name we are currently defining.
# Returns type indicator:
# SequenceOf SEQUENCE OF
# Sequence SEQUENCE
# SetOf SET OF
# Set SET
# Choice CHOICE
# Simple Basic types.
# In this casecalling procedure's $tname variable is a list holding:
# {C-Function C-Type} if the type is IMPORTed or ODR defined.
# or
# {C-Function C-Type 1} if the type should be defined in this module
proc asnType {name} {
global type val inf
upvar tname tname
set tname {}
if {[string compare $type n]} {
asnError "Expects type specifier, but got $type"
}
set v $val
lex
switch -- $v {
SEQUENCE {
asnSizeConstraint
if {[lex-name-move OF]} {
asnSubtypeSpec
return SequenceOf
} else {
asnSubtypeSpec
return Sequence
}
}
SET {
asnSizeConstraint
if {[lex-name-move OF]} {
asnSubtypeSpec
return SetOf
} else {
asnSubtypeSpec
return Set
}
}
CHOICE {
asnSubtypeSpec
return Choice
}
}
if {[string length [info commands asnBasic$v]]} {
set tname [asnBasic$v]
} else {
if {[info exists inf(map,$inf(module),$v)]} {
set v $inf(map,$inf(module),$v)
}
if {[info exists inf(imports,$v)]} {
set tname $inf(imports,$v)
} else {
set w [join [split $v -] _]
set tname [list $inf(fprefix)$w $inf(vprefix)$w 1]
}
}
if {[lex-name-move DEFINED]} {
if {[lex-name-move BY]} {
lex
}
}
asnSubtypeSpec
return Simple
}
proc mapName {name} {
global inf
if {[info exists inf(map,$inf(module),$name)]} {
set name $inf(map,$inf(module),$name)
if {$inf(verbose)} {
puts -nonewline " $name ($inf(lineno))"
puts " mapping to $name"
}
} else {
if {$inf(verbose)} {
puts " $name ($inf(lineno))"
}
}
return $name
}
# asnDef: parses type definition (top-level) and generates C code
# On entry $name holds the type we are defining.
proc asnDef {name} {
global inf file
set name [mapName $name]
if {[info exist inf(defined,$inf(fprefix)$name)]} {
incr inf(definedl,$name)
if {$inf(verbose) > 1} {
puts "set map($inf(module),$name) $name$inf(definedl,$name)"
}
} else {
set inf(definedl,$name) 0
}
set mname [join [split $name -] _]
asnMod tag implicit tagtype
set t [asnType $mname]
asnSub $mname $t $tname $tag $implicit $tagtype
}
# asnSub: parses type and generates C-code
# On entry,
# $name holds the type we are defining.
# $t is the type returned by the asnType procedure.
# $tname is the $tname set by the asnType procedure.
# $tag is the tag as returned by asnMod
# $implicit is the implicit indicator as returned by asnMod
proc asnSub {name t tname tag implicit tagtype} {
global file inf
set ignore 0
set defname defined,$inf(fprefix)$name
if {[info exist inf($defname)]} {
asnWarning "$name already defined in line $inf($defname)"
set ignore 1
}
set inf($defname) $inf(lineno)
switch -- $t {
Sequence { set l [asnSequence $name $tag $implicit $tagtype] }
SequenceOf { set l [asnOf $name $tag $implicit $tagtype 0] }
SetOf { set l [asnOf $name $tag $implicit $tagtype 1] }
Choice { set l [asnChoice $name $tag $implicit $tagtype] }
Simple { set l [asnSimple $name $tname $tag $implicit $tagtype] }
default { asnError "switch asnType case not handled" }
}
if {$ignore} return
puts $file(outc) {}
puts $file(outc) "int $inf(fprefix)${name}(ODR o, $inf(vprefix)$name **p, int opt, const char *name)"
puts $file(outc) \{
puts $file(outc) [lindex $l 0]
puts $file(outc) \}
set ok 1
set fdef "$inf(cprefix)int $inf(fprefix)${name}(ODR o, $inf(vprefix)$name **p, int opt, const char *name);"
switch -- $t {
Simple {
set decl "typedef [lindex $l 1] $inf(vprefix)$name;"
if {![string compare [lindex $tname 2] 1]} {
if {![info exist inf(defined,[lindex $tname 0])]} {
set ok 0
}
}
set inf(var,$inf(nodef)) [join [lindex $l 2] \n]
incr inf(nodef)
}
default {
set decl "typedef struct $inf(vprefix)$name $inf(vprefix)$name;"
set inf(var,$inf(nodef)) "[lindex $l 1];"
incr inf(nodef)
}
}
if {$ok} {
puts $file(outh) {}
puts $file(outh) $decl
puts $file(outh) $fdef
asnForwardTypes $name
} else {
lappend inf(forward,code,[lindex $tname 0]) {} $decl $fdef
lappend inf(forward,ref,[lindex $tname 0]) $name
}
}
proc asnForwardTypes {name} {
global inf file
if {![info exists inf(forward,code,$inf(fprefix)$name)]} {
return 0
}
foreach r $inf(forward,code,$inf(fprefix)$name) {
puts $file(outh) $r
}
unset inf(forward,code,$inf(fprefix)$name)
while {[info exists inf(forward,ref,$inf(fprefix)$name)]} {
set n $inf(forward,ref,$inf(fprefix)$name)
set m [lrange $n 1 end]
if {[llength $m]} {
set inf(forward,ref,$inf(fprefix)$name) $m
} else {
unset inf(forward,ref,$inf(fprefix)$name)
}
asnForwardTypes [lindex $n 0]
}
}
# asnSimple: parses simple type definition and generates C code
# On entry,
# $name is the name we are defining
# $tname is the tname as returned by asnType
# $tag is the tag as returned by asnMod
# $implicit is the implicit indicator as returned by asnMod
# Returns,
# {c-code, h-code}
# Note: Doesn't take care of enum lists yet.
proc asnSimple {name tname tag implicit tagtype} {
global inf
set j "[lindex $tname 1] "
if {[info exists inf(unionmap,$inf(module),$name)]} {
set uName $inf(unionmap,$inf(module),$name)
} else {
set uName $name
}
asnEnum $uName jj
if {![string length $tag]} {
set l "\treturn [lindex $tname 0] (o, p, opt, name);"
} elseif {$implicit} {
set l \
"\treturn odr_implicit_tag(o, [lindex $tname 0], p, $tagtype, $tag, opt, name);"
} else {
set l \
"\treturn odr_explicit_tag(o, [lindex $tname 0], p, $tagtype, $tag, opt, name);" \
}
if {[info exists jj]} {
return [list $l $j $jj]
} else {
return [list $l $j]
}
}
# asnSequence: parses "SEQUENCE { s-list }" and generates C code.
# On entry,
# $name is the type we are defining
# $tag tag
# $implicit
# Returns,
# {c-code, h-code}
proc asnSequence {name tag implicit tagtype} {
global val type inf
lappend j "struct $inf(vprefix)$name \{"
set level 0
set nchoice 0
if {![string length $tag]} {
lappend l "\tif (!odr_sequence_begin(o, p, sizeof(**p), name))"
lappend l "\t\treturn odr_missing(o, opt, name) && odr_ok (o);"
} elseif {$implicit} {
lappend l "\tif (!odr_implicit_settag(o, $tagtype, $tag) ||"
lappend l "\t\t!odr_sequence_begin (o, p, sizeof(**p), name))"
lappend l "\t\treturn odr_missing(o, opt, name);"
} else {
lappend l "\tif (!odr_constructed_begin(o, p, $tagtype, $tag, name))"
lappend l "\t\treturn odr_missing(o, opt, name);"
lappend l "\tif (o->direction == ODR_DECODE)"
lappend l "\t\t*p = ($inf(vprefix)$name *) odr_malloc(o, sizeof(**p));"
lappend l "\tif (!odr_sequence_begin(o, p, sizeof(**p), 0))"
lappend l "\t\{"
lappend l "\t\tif (o->direction == ODR_DECODE)"
lappend l "\t\t\t*p = 0;"
lappend l "\t\treturn 0;"
lappend l "\t\}"
}
lappend l "\treturn"
while {1} {
set p [lindex [asnName $name] 0]
asnMod ltag limplicit ltagtype
set t [asnType $p]
set uName { }
if {[info exists inf(unionmap,$inf(module),$name,$p)]} {
set uName $inf(unionmap,$inf(module),$name,$p)
}
if {![string compare $t Simple]} {
if {[string compare $uName { }]} {
set enumName $uName
} else {
set enumName $name
}
asnEnum $enumName j
set opt [asnOptional]
if {![string length $ltag]} {
lappend l "\t\t[lindex $tname 0](o, &(*p)->$p, $opt, \"$p\") &&"
} elseif {$limplicit} {
lappend l "\t\todr_implicit_tag(o, [lindex $tname 0],"
lappend l "\t\t\t&(*p)->$p, $ltagtype, $ltag, $opt, \"$p\") &&"
} else {
lappend l "\t\todr_explicit_tag(o, [lindex $tname 0],"
lappend l "\t\t\t&(*p)->$p, $ltagtype, $ltag, $opt, \"$p\") &&"
}
set dec "\t[lindex $tname 1] *$p;"
} elseif {![string compare $t SequenceOf] && [string length $uName] &&\
(![string length $ltag] || $limplicit)} {
set u [asnType $p]
if {[llength $uName] < 2} {
set uName [list num_$p $p]
}
if {[string length $ltag]} {
if {!$limplicit} {
asnError explicittag
}
lappend l "\t\todr_implicit_settag(o, $ltagtype, $ltag) &&"
}
switch -- $u {
Simple {
asnEnum $name j
set tmpa "odr_sequence_of(o, (Odr_fun) [lindex $tname 0], &(*p)->$p,"
set tmpb "&(*p)->[lindex $uName 0], \"$p\")"
lappend j "\tint [lindex $uName 0];"
set dec "\t[lindex $tname 1] **[lindex $uName 1];"
}
default {
set subName [mapName ${name}_$level]
asnSub $subName $u {} {} 0 {}
set tmpa "odr_sequence_of(o, (Odr_fun) $inf(fprefix)$subName, &(*p)->$p,"
set tmpb "&(*p)->[lindex $uName 0], \"$p\")"
lappend j "\tint [lindex $uName 0];"
set dec "\t$inf(vprefix)$subName **[lindex $uName 1];"
incr level
}
}
set opt [asnOptional]
if {$opt} {
lappend l "\t\t($tmpa"
lappend l "\t\t $tmpb || odr_ok(o)) &&"
} else {
lappend l "\t\t$tmpa"
lappend l "\t\t $tmpb &&"
}
} elseif {!$nchoice && ![string compare $t Choice] && \
[string length $uName]} {
if {[llength $uName] < 3} {
set uName [list which u $name]
incr nchoice
}
lappend j "\tint [lindex $uName 0];"
lappend j "\tunion \{"
lappend v "\tstatic Odr_arm arm\[\] = \{"
asnArm $name [lindex $uName 2] v j
lappend v "\t\};"
set dec "\t\} [lindex $uName 1];"
set opt [asnOptional]
set oa {}
set ob {}
if {[string length $ltag]} {
if {$limplicit} {
lappend l "\t\todr_implicit_settag(o, $ltagtype, $ltag) &&"
if {$opt} {
asnWarning "optional handling missing in CHOICE in SEQUENCE"
asnWarning " set unionmap($inf(module),$name,$p) to {}"
}
} else {
if {$opt} {
set la "(("
} else {
set la ""
}
lappend l "\t\t${la}odr_constructed_begin(o, &(*p)->[lindex $uName 1], $ltagtype, $ltag, \"$p\") &&"
}
} else {
if {$opt} {
set oa "("
set ob " || odr_ok(o))"
}
}
lappend l "\t\t${oa}odr_choice(o, arm, &(*p)->[lindex $uName 1], &(*p)->[lindex $uName 0], 0)${ob} &&"
if {[string length $ltag]} {
if {!$limplicit} {
if {$opt} {
set lb ") || odr_ok(o))"
} else {
set lb ""
}
lappend l "\t\todr_constructed_end(o)${lb} &&"
}
}
} else {
set subName [mapName ${name}_$level]
asnSub $subName $t {} {} 0 {}
set opt [asnOptional]
if {![string length $ltag]} {
lappend l "\t\t$inf(fprefix)${subName}(o, &(*p)->$p, $opt, \"$p\") &&"
} elseif {$limplicit} {
lappend l "\t\todr_implicit_tag(o, $inf(fprefix)${subName},"
lappend l "\t\t\t&(*p)->$p, $ltagtype, $ltag, $opt, \"$p\") &&"
} else {
lappend l "\t\todr_explicit_tag(o, $inf(fprefix)${subName},"
lappend l "\t\t\t&(*p)->$p, $ltagtype, $ltag, $opt, \"$p\") &&"
}
set dec "\t$inf(vprefix)${subName} *$p;"
incr level
}
if {$opt} {
lappend j "$dec /* OPT */"
} else {
lappend j $dec
}
if {[string compare $type ,]} break
}
lappend j "\}"
if {[string length $tag] && !$implicit} {
lappend l "\t\todr_sequence_end(o) &&"
lappend l "\t\todr_constructed_end(o);"
} else {
lappend l "\t\todr_sequence_end(o);"
}
if {[string compare $type \}]} {
asnError "Missing \} got $type '$val'"
}
lex
if {[info exists v]} {
set l [concat $v $l]
}
return [list [join $l \n] [join $j \n]]
}
# asnOf: parses "SEQUENCE/SET OF type" and generates C code.
# On entry,
# $name is the type we are defining
# $tag tag
# $implicit
# Returns,
# {c-code, h-code}
proc asnOf {name tag implicit tagtype isset} {
global inf
if {$isset} {
set func odr_set_of
} else {
set func odr_sequence_of
}
if {[info exists inf(unionmap,$inf(module),$name)]} {
set numName $inf(unionmap,$inf(module),$name)
} else {
set numName {num elements}
}
lappend j "struct $inf(vprefix)$name \{"
lappend j "\tint [lindex $numName 0];"
lappend l "\tif (!odr_initmember(o, p, sizeof(**p)))"
lappend l "\t\treturn odr_missing(o, opt, name);"
if {[string length $tag]} {
if {$implicit} {
lappend l "\todr_implicit_settag(o, $tagtype, $tag);"
} else {
asnWarning "Constructed SEQUENCE/SET OF not handled"
}
}
set t [asnType $name]
switch -- $t {
Simple {
asnEnum $name j
lappend l "\tif (${func}(o, (Odr_fun) [lindex $tname 0], &(*p)->[lindex $numName 1],"
lappend l "\t\t&(*p)->[lindex $numName 0], name))"
lappend j "\t[lindex $tname 1] **[lindex $numName 1];"
}
default {
set subName [mapName ${name}_s]
lappend l "\tif (${func}(o, (Odr_fun) $inf(fprefix)$subName, &(*p)->[lindex $numName 1],"
lappend l "\t\t&(*p)->[lindex $numName 0], name))"
lappend j "\t$inf(vprefix)$subName **[lindex $numName 1];"
asnSub $subName $t {} {} 0 {}
}
}
lappend j "\}"
lappend l "\t\treturn 1;"
lappend l "\tif (o->direction == ODR_DECODE)"
lappend l "\t\t*p = 0;"
lappend l "\treturn odr_missing(o, opt, name);"
return [list [join $l \n] [join $j \n]]
}
# asnArm: parses c-list in choice
proc asnArm {name defname lx jx} {
global type val inf
upvar $lx l
upvar $jx j
while {1} {
set pq [asnName $name]
set p [lindex $pq 0]
set q [lindex $pq 1]
if {![string length $q]} {
set q $p
set p ${defname}_$p
}
asnMod ltag limplicit ltagtype
set t [asnType $q]
lappend enums "$inf(dprefix)$p"
if {![string compare $t Simple]} {
asnEnum $name j
if {![string length $ltag]} {
lappend l "\t\t\{-1, -1, -1, $inf(dprefix)$p,"
lappend l "\t\t (Odr_fun) [lindex $tname 0], \"$q\"\},"
} elseif {$limplicit} {
lappend l "\t\t\{ODR_IMPLICIT, $ltagtype, $ltag, $inf(dprefix)$p,"
lappend l "\t\t(Odr_fun) [lindex $tname 0], \"$q\"\},"
} else {
lappend l "\t\t\{ODR_EXPLICIT, $ltagtype, $ltag, $inf(dprefix)$p,"
lappend l "\t\t(Odr_fun) [lindex $tname 0], \"$q\"\},"
}
lappend j "\t\t[lindex $tname 1] *$q;"
} else {
set subName [mapName ${name}_$q]
if {![string compare $inf(dprefix)${name}_$q \
$inf(vprefix)$subName]} {
set po [string toupper [string index $q 0]][string \
range $q 1 end]
set subName [mapName ${name}${po}]
}
asnSub $subName $t $tname {} 0 {}
if {![string length $ltag]} {
lappend l "\t\t\{-1, -1, -1, $inf(dprefix)$p,"
lappend l "\t\t (Odr_fun) $inf(fprefix)$subName, \"$q\"\},"
} elseif {$limplicit} {
lappend l "\t\t\{ODR_IMPLICIT, $ltagtype, $ltag, $inf(dprefix)$p,"
lappend l "\t\t(Odr_fun) $inf(fprefix)$subName, \"$q\"\},"
} else {
lappend l "\t\t\{ODR_EXPLICIT, $ltagtype, $ltag, $inf(dprefix)$p,"
lappend l "\t\t(Odr_fun) $inf(fprefix)$subName, \"$q\"\},"
}
lappend j "\t\t$inf(vprefix)$subName *$q;"
}
if {[string compare $type ,]} break
}
if {[string compare $type \}]} {
asnError "Missing \} got $type '$val'"
}
lex
set level 1
foreach e $enums {
lappend j "#define $e $level"
incr level
}
lappend l "\t\t\{-1, -1, -1, -1, (Odr_fun) 0, 0\}"
}
# asnChoice: parses "CHOICE {c-list}" and generates C code.
# On entry,
# $name is the type we are defining
# $tag tag
# $implicit
# Returns,
# {c-code, h-code}
proc asnChoice {name tag implicit tagtype} {
global type val inf
if {[info exists inf(unionmap,$inf(module),$name)]} {
set uName $inf(unionmap,$inf(module),$name)
} else {
set uName [list which u $name]
}
lappend j "struct $inf(vprefix)$name \{"
lappend j "\tint [lindex $uName 0];"
lappend j "\tunion \{"
lappend l "\tstatic Odr_arm arm\[\] = \{"
asnArm $name [lindex $uName 2] l j
lappend j "\t\} [lindex $uName 1];"
lappend j "\}"
lappend l "\t\};"
if {![string length $tag]} {
lappend l "\tif (!odr_initmember(o, p, sizeof(**p)))"
lappend l "\t\treturn odr_missing(o, opt, name);"
lappend l "\tif (odr_choice(o, arm, &(*p)->[lindex $uName 1], &(*p)->[lindex $uName 0], name))"
} elseif {$implicit} {
lappend l "\tif (!odr_initmember(o, p, sizeof(**p)))"
lappend l "\t\treturn odr_missing(o, opt, name);"
lappend l "\todr_implicit_settag(o, $tagtype, $tag);"
lappend l "\tif (odr_choice(o, arm, &(*p)->[lindex $uName 1], &(*p)->[lindex $uName 0], name))"
} else {
lappend l "\tif (!odr_constructed_begin(o, p, $tagtype, $tag, 0))"
lappend l "\t\treturn odr_missing(o, opt, name);"
lappend l "\tif (!odr_initmember(o, p, sizeof(**p)))"
lappend l "\t\treturn odr_missing(o, opt, name);"
lappend l "\tif (odr_choice(o, arm, &(*p)->[lindex $uName 1], &(*p)->[lindex $uName 0], name) &&"
lappend l "\t\todr_constructed_end(o))"
}
lappend l "\t\treturn 1;"
lappend l "\tif (o->direction == ODR_DECODE)"
lappend l "\t\t*p = 0;"
lappend l "\treturn odr_missing(o, opt, name);"
return [list [join $l \n] [join $j \n]]
}
# asnImports: parses i-list in "IMPORTS {i-list}"
# On return inf(import,..)-array is updated.
# inf(import,"module") is a list of {C-handler, C-type} elements.
# The {C-handler, C-type} is compatible with the $tname as is used by the
# asnType procedure to solve external references.
proc asnImports {} {
global type val inf file
while {1} {
if {[string compare $type n]} {
asnError "Missing name in IMPORTS list"
}
lappend nam $val
lex
if {![string compare $type n] && ![string compare $val FROM]} {
lex
if {[info exists inf(filename,$val)]} {
set fname $inf(filename,$val)
} else {
set fname $val
}
puts $file(outh) "\#include <$inf(h-dir)${fname}.h>"
if {[info exists inf(prefix,$val)]} {
set prefix $inf(prefix,$val)
} else {
set prefix $inf(prefix)
}
foreach n $nam {
if {[info exists inf(map,$val,$n)]} {
set v $inf(map,$val,$n)
} else {
set v $n
}
set w [join [split $v -] _]
set inf(imports,$n) [list [lindex $prefix 0]$w \
[lindex $prefix 1]$w]
}
unset nam
lex
if {[string compare $type n]} break
} elseif {![string compare $type ,]} {
lex
} else break
}
if {[string compare $type \;]} {
asnError "Missing ; after IMPORTS list - got $type '$val'"
}
lex
}
# asnExports: parses e-list in "EXPORTS {e-list}"
# This function does nothing with elements in the list.
proc asnExports {} {
global type val inf
while {1} {
if {[string compare $type n]} {
asnError "Missing name in EXPORTS list"
}
set inf(exports,$val) 1
lex
if {[string compare $type ,]} break
lex
}
if {[string compare $type \;]} {
asnError "Missing ; after EXPORTS list - got $type ($val)"
}
lex
}
# asnModuleBody: parses a module specification and generates C code.
# Exports lists, imports lists, and type definitions are handled;
# other things are silently ignored.
proc asnModuleBody {} {
global type val file inf
if {[info exists inf(prefix,$inf(module))]} {
set prefix $inf(prefix,$inf(module))
} else {
set prefix $inf(prefix)
}
set inf(fprefix) [lindex $prefix 0]
set inf(vprefix) [lindex $prefix 1]
set inf(dprefix) [lindex $prefix 2]
if {[llength $prefix] > 3} {
set inf(cprefix) [lindex $prefix 3]
} else {
set inf(cprefix) {YAZ_EXPORT }
}
if {$inf(verbose)} {
puts "Module $inf(module), $inf(lineno)"
}
set defblock 0
if {[info exists inf(init,$inf(module),c)]} {
puts $file(outc) $inf(init,$inf(module),c)
}
if {[info exists inf(init,$inf(module),h)]} {
puts $file(outh) "\#ifdef __cplusplus"
puts $file(outh) "extern \"C\" \{"
puts $file(outh) "\#endif"
set defblock 1
puts $file(outh) $inf(init,$inf(module),h)
}
if {[info exists inf(init,$inf(module),p)]} {
puts $file(outp) $inf(init,$inf(module),p)
}
while {[string length $type]} {
if {[string compare $type n]} {
lex
continue
}
if {![string compare $val END]} {
break
} elseif {![string compare $val EXPORTS]} {
lex
asnExports
} elseif {![string compare $val IMPORTS]} {
if {$defblock} {
puts $file(outh) "\#ifdef __cplusplus"
puts $file(outh) "\}"
puts $file(outh) "\#endif"
set defblock 0
}
lex
asnImports
} else {
if {!$defblock} {
puts $file(outh) "\#ifdef __cplusplus"
puts $file(outh) "extern \"C\" \{"
puts $file(outh) "\#endif"
set defblock 1
}
set inf(asndef) $inf(nodef)
set oval $val
lex
if {![string compare $type :]} {
lex
asnDef $oval
set inf(asndef) 0
} elseif {![string compare $type n]} {
lex
if {[string length $type]} {
lex
}
}
}
}
if {$defblock} {
puts $file(outh) "\#ifdef __cplusplus"
puts $file(outh) "\}"
puts $file(outh) "\#endif"
set defblock 0
}
foreach x [array names inf imports,*] {
unset inf($x)
}
}
# asnTagDefault: parses TagDefault section
proc asnTagDefault {} {
global type val inf file
set inf(implicit-tags) 0
while {[string length $type]} {
if {[lex-name-move EXPLICIT]} {
lex
set inf(implicit-tags) 0
} elseif {[lex-name-move IMPLICIT]} {
lex
set inf(implicit-tags) 1
} else {
break
}
}
}
# asnModules: parses a collection of module specifications.
# Depending on the module pattern, $inf(moduleP), a module is either
# skipped or processed.
proc asnModules {} {
global type val inf file yc_version
set inf(nodef) 0
set inf(asndef) 0
lex
while {![string compare $type n]} {
set inf(module) $val
if {[info exists inf(moduleP)] && ![string match $inf(moduleP) $val]} {
if {$inf(verbose)} {
puts "Skipping $id"
}
while {![lex-name-move END]} {
lex
}
} else {
set inf(nodef) 1
set inf(asndef) 1
while {![lex-name-move DEFINITIONS]} {
lex
if {![string length $type]} return
}
if {[info exists inf(filename,$inf(module))]} {
set fname $inf(filename,$inf(module))
} else {
set fname $inf(module)
}
set ppname [join [split $fname -] _]
if {![info exists inf(c-file)]} {
set inf(c-file) ${fname}.c
}
set file(outc) [open $inf(c-file) w]
if {![info exists inf(h-file)]} {
set inf(h-file) ${fname}.h
}
set file(outh) [open $inf(h-path)/$inf(h-dir)$inf(h-file) w]
if {0} {
if {![info exists inf(p-file)]} {
set inf(p-file) ${fname}-p.h
}
set file(outp) [open $inf(h-path)/$inf(h-dir)$inf(p-file) w]
}
set greeting {Generated automatically by YAZ ASN.1 Compiler}
puts $file(outc) "/** \\file $inf(c-file)"
puts $file(outc) " \\brief ASN.1 Module $inf(module)"
puts $file(outc) ""
puts $file(outc) " ${greeting} ${yc_version}"
puts $file(outc) "*/"
puts $file(outc) "\#if HAVE_CONFIG_H"
puts $file(outc) "\#include <config.h>"
puts $file(outc) "\#endif"
puts $file(outc) {}
puts $file(outh) "/** \\file $inf(h-file)"
puts $file(outh) " \\brief ASN.1 Module $inf(module)"
puts $file(outh) ""
puts $file(outh) " ${greeting} ${yc_version}"
puts $file(outh) "*/"
puts $file(outh) {}
if {[info exists file(outp)]} {
puts $file(outp) "/** \\file $inf(p-file)"
puts $file(outp) " \\brief ASN.1 Module $inf(module)"
puts $file(outp) ""
puts $file(outp) " ${greeting} ${yc_version}"
puts $file(outp) "*/"
puts $file(outp) {}
}
if {[info exists inf(p-file)]} {
puts $file(outc) "\#include <$inf(h-dir)$inf(p-file)>"
} else {
puts $file(outc) "\#include <$inf(h-dir)$inf(h-file)>"
}
puts $file(outh) "\#ifndef ${ppname}_H"
puts $file(outh) "\#define ${ppname}_H"
puts $file(outh) {}
puts $file(outh) "\#include <yaz/odr.h>"
if {[info exists file(outp)]} {
puts $file(outp) "\#ifndef ${ppname}_P_H"
puts $file(outp) "\#define ${ppname}_P_H"
puts $file(outp) {}
puts $file(outp) "\#include <$inf(h-dir)$inf(h-file)>"
}
asnTagDefault
if {[string compare $type :]} {
asnError "::= expected got $type '$val'"
}
lex
if {![lex-name-move BEGIN]} {
asnError "BEGIN expected"
}
asnModuleBody
lex
if {[info exists file(outp)]} {
set f $file(outp)
} else {
set f $file(outh)
}
puts $f "\#ifdef __cplusplus"
puts $f "extern \"C\" \{"
puts $f "\#endif"
for {set i 1} {$i < $inf(nodef)} {incr i} {
puts $f $inf(var,$i)
if {[info exists inf(asn,$i)]} {
if {0} {
puts $f "/*"
foreach comment $inf(asn,$i) {
puts $f $comment
}
puts $f " */"
}
unset inf(asn,$i)
}
unset inf(var,$i)
puts $f {}
}
puts $f "\#ifdef __cplusplus"
puts $f "\}"
puts $f "\#endif"
if {[info exists inf(body,$inf(module),h)]} {
puts $file(outh) $inf(body,$inf(module),h)
}
if {[info exists inf(body,$inf(module),c)]} {
puts $file(outc) $inf(body,$inf(module),c)
}
if {[info exists inf(body,$inf(module),p)]} {
if {[info exists file(outp)]} {
puts $file(outp) $inf(body,$inf(module),p)
}
}
puts $file(outh) "\#endif"
if {[info exists file(outp)]} {
puts $file(outp) "\#endif"
}
foreach f [array names file] {
close $file($f)
}
unset inf(c-file)
unset inf(h-file)
catch {unset inf(p-file)}
}
}
}
# asnFile: parses an ASN.1 specification file as specified in $inf(iname).
proc asnFile {} {
global inf file
if {$inf(verbose) > 1} {
puts "Reading ASN.1 file $inf(iname)"
}
set inf(str) {}
set inf(lineno) 0
set inf(inf) [open $inf(iname) r]
asnModules
}
# The following procedures are invoked by the asnType function.
# Each procedure takes the form: asnBasic<TYPE> and they must return
# two elements: the C function handler and the C type.
# On entry upvar $name is the type we are defining and global, $inf(module), is
# the current module name.
proc asnBasicEXTERNAL {} {
return {odr_external {Odr_external}}
}
proc asnBasicINTEGER {} {
return {odr_integer {Odr_int}}
}
proc asnBasicENUMERATED {} {
return {odr_enum {Odr_int}}
}
proc asnBasicNULL {} {
return {odr_null {Odr_null}}
}
proc asnBasicBOOLEAN {} {
return {odr_bool {Odr_bool}}
}
proc asnBasicOCTET {} {
global type val
lex-name-move STRING
return {odr_octetstring {Odr_oct}}
}
proc asnBasicBIT {} {
global type val
lex-name-move STRING
return {odr_bitstring {Odr_bitmask}}
}
proc asnBasicOBJECT {} {
global type val
lex-name-move IDENTIFIER
return {odr_oid {Odr_oid}}
}
proc asnBasicGeneralString {} {
return {odr_generalstring char}
}
proc asnBasicVisibleString {} {
return {odr_visiblestring char}
}
proc asnBasicGeneralizedTime {} {
return {odr_generalizedtime char}
}
proc asnBasicANY {} {
upvar name name
global inf
return [list $inf(fprefix)ANY_$name void]
}
# userDef: reads user definitions file $name
proc userDef {name} {
global inf
if {$inf(verbose) > 1} {
puts "Reading definitions file $name"
}
source $name
if {[info exists default-prefix]} {
set inf(prefix) ${default-prefix}
}
if {[info exists h-path]} {
set inf(h-path) ${h-path}
}
foreach m [array names prefix] {
set inf(prefix,$m) $prefix($m)
}
foreach m [array names body] {
set inf(body,$m) $body($m)
}
foreach m [array names init] {
set inf(init,$m) $init($m)
}
foreach m [array names filename] {
set inf(filename,$m) $filename($m)
}
foreach m [array names map] {
set inf(map,$m) $map($m)
}
foreach m [array names membermap] {
set inf(membermap,$m) $membermap($m)
}
foreach m [array names unionmap] {
set inf(unionmap,$m) $unionmap($m)
}
}
set inf(verbose) 0
set inf(prefix) {yc_ Yc_ YC_}
set inf(h-path) .
set inf(h-dir) ""
# Parse command line
set l [llength $argv]
set i 0
while {$i < $l} {
set arg [lindex $argv $i]
switch -glob -- $arg {
-v {
incr inf(verbose)
}
-c {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(c-file) $p
}
-I* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(h-path) $p
}
-i* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(h-dir) [string trim $p \\/]/
}
-h* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(h-file) $p
}
-p* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(p-file) $p
}
-d* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
userDef $p
}
-m* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
set inf(moduleP) $p
}
-x* {
set p [string range $arg 2 end]
if {![string length $p]} {
set p [lindex $argv [incr i]]
}
if {[llength $p] == 1} {
set inf(prefix) [list [string tolower $p] \
[string toupper $p] [string toupper $p]]
} elseif {[llength $p] == 3} {
set inf(prefix) $p
} else {
puts [llength $p]
exit 1
}
}
default {
set inf(iname) $arg
}
}
incr i
}
if {![info exists inf(iname)]} {
puts "YAZ ASN.1 Compiler ${yc_version}"
puts "Usage:"
puts -nonewline ${argv0}
puts { [-v] [-c cfile] [-h hfile] [-p hfile] [-d dfile] [-I iout]}
puts { [-i idir] [-m module] file}
exit 1
}
asnFile
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