libvirt/tools/wireshark/util/genxdrstub.pl

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#!/usr/bin/env perl
# genxdrstub.pl --- Generate C header file which used by packet-libvirt.[ch]
#
# Copyright (C) 2013 Yuto KAWAMURA(kawamuray) <kawamuray.dadada@gmail.com>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library. If not, see
# <http://www.gnu.org/licenses/>.
#
# Author: Yuto KAWAMURA(kawamuray)
#
# For XDR syntax, see http://tools.ietf.org/html/rfc4506#section-6.3
# This script does not strictly check syntax of xdr protocol specification.
# Make sure the specification files you have are correctly compilable with rpcgen(1).
# If something fails with this script in spite of you had confirmed that the `make' with libvirt was succeed,
# please report your error output to kawamuray<kawamuray.dadada@gmail.com>.
use strict;
use warnings;
use File::Spec;
my $DEBUG = 0; # Enable if you want to see debug output
sub dbg { print STDERR @_ if $DEBUG }
die "ERROR: No arguments" unless @ARGV;
# Context object referenced from entire this script
my $c = Context->new;
for my $proto (@ARGV) {
# We need to do this heuristic parsing to determine
# variable name of enum <protocol>_procedures.
my ($name) = $proto =~ m{(?:vir)?([^/]+?)_?protocol\.x$};
unless ($name) {
warn "WARNING: Cannot extract protocol name from $proto, skipping.";
next;
}
$c->add_to_set(progs => $name);
my $source;
{
open my $fh, '<', $proto
or die "Cannot open $proto: $!";
local $/;
$source = <$fh>;
close $fh;
}
$c->add_header_file($name, sub {
dbg "*** Start parsing $proto\n";
$c->print("extern int hf_libvirt_unknown;\n");
my @lexs = Lexicalizer->parse($source);
for my $lex (@lexs) {
next if $lex->ident eq "enum $name\_procedure";
if ($lex->isa('Sym::Variable')) {
$c->print(sprintf "#define %s (%s)\n", $lex->ident, $lex->value);
} elsif ($lex->isa('Sym::Type')) {
# Top level of name path is type identification of itself
$lex->define_dissector($lex->idstrip);
} else {
die "Unknown lexical appeared: $lex";
}
}
my $procs = $c->symbol("enum $name\_procedure")
or die "Cannot find procedures enumeration: enum $name\_procedure";
# Procedure numbers are expected to be containing gaps, but needed to be sorted in ascending order.
my @procedures = sort { $a->value <=> $b->value } @{ $procs->members };
my @dissectors = map {
(my $ident = lc($_->ident)) =~ s/^$name\_proc/$name/;
+{
value => $_->value,
map { $_ => $c->rinc($c->symbols->{"$ident\_$_"} ? "dissect_xdr_$ident\_$_" : 'NULL') }
qw{ args ret msg }
};
} @procedures;
$c->print(PT->render('code.dissectorlist', {
name => $name,
dissectors => \@dissectors,
}));
$c->print(PT->render('code.procedure_strings', {
name => $name,
procedures => \@procedures,
}));
});
}
$c->add_header_file('protocol', sub {
for my $prog (@{ $c->get_set('progs') }) {
$c->print("#include \"libvirt/$prog.h\"\n");
}
# hf_ variables set
$c->print(PT->render('macro.hfvars', {
programs => $c->get_set('progs'),
hfvars => [ grep $_->{segment}{refcnt}, @{ $c->get_set('hfvars') } ],
}));
# ett_ variables set
$c->print(PT->render('macro.ettvars', {
ettvars => [ map $_->{sym}, grep $_->{refcnt}, @{ $c->get_set('ettvars') } ],
}));
# value_string program_strings
$c->print(PT->render('code.program_strings', { programs => $c->get_set('progs') }));
$c->print("static int hf_$_\_procedure = -1;\n") for @{ $c->get_set('progs') };
$c->print(PT->render('code.program_data', { programs => $c->get_set('progs') }));
});
$c->finalize; exit 0;
# Used for handy class building
sub register_profile {
my %prof = @_;
my $caller = caller;
no strict 'refs';
if ($prof{isa}) {
push @{ "$caller\::ISA" }, $prof{isa};
}
while (my ($name, $v) = each %{ $prof{consts} || {} }) {
*{ "$caller\::$name" } = sub { $v };
}
for my $attr (@{ $prof{attrs} || [] }) {
*{ "$caller\::$attr" } = sub {
if (@_ > 1) { $_[0]->{$attr} = $_[1]; $_[0] }
else { $_[0]->{$attr} }
};
}
while (my ($klass, $meths) = each %{ $prof{roles} || {} }) {
for my $meth (@$meths) {
# This assignment cannot be like: *{ "$caller\::$meth" } = \&{ "$klass\::$meth" }.
# "$klass\::$meth" maybe not defined yet(e.g. Methods defined by PT)
*{ "$caller\::$meth" } = sub { goto &{ "$klass\::$meth" } };
}
}
}
# Minimal template engine for code generating
package PT; # is PicoTemplate
our $Token;
our %Templates;
INIT { # Load templates from __END__ section
$Token = join '', map { chr(65 + rand(26)) } 1..64;
my $current;
while (my $l = <main::DATA>) {
if ($l =~ /^\@\@\s*(.+)/) {
$current = \($Templates{$1} = '');
} else {
$$current .= $l if $current;
}
}
for my $name (keys %Templates) {
$Templates{$name} = __PACKAGE__->compile($Templates{$name});
if ($name =~ /^([\w:]+)#([^#]+)$/) {
no strict 'refs';
my $meth = "$1\::$2";
unless (defined &$meth) {
*$meth = $Templates{$name};
}
}
}
}
sub compile {
my ($class, $tmpl) = @_;
$tmpl =~ s{<%(=)?(.*?)%>\n?|((?:(?!<%).)+)}{
$2 ? $1 ? "\$$Token .= qq{\@{[do{ $2 }]}};" : $2
: "\$$Token .= substr <<$Token, 0, -1;\n".quotemeta($3)."\n$Token\n";
}gse;
eval "sub { my \$$Token = ''; $tmpl \$$Token }"
or die "ERROR: Cannot compile template: $@";
}
sub render {
my ($class, $name, $vars, @args) = @_;
local $_ = $vars || {};
my $renderer = $Templates{$name}
or die "No such template: $name";
$renderer->(@args);
}
# / package PT
package Sym;
BEGIN{::register_profile(
attrs => [qw[ ident ]],
)}
sub new {
my ($class, %args) = @_;
CORE::bless \%args, $class;
}
sub bless {
my ($self, $klass) = @_;
CORE::bless $self, "Sym::$klass"
if ref($self) ne "Sym::$klass";
$self;
}
sub idstrip {
my $ident = shift()->ident;
$ident =~ s/^(?:struct|enum|union)\s+// if $ident;
$ident;
}
# / package Sym
package Sym::Type;
BEGIN{::register_profile(
isa => 'Sym',
attrs => [qw[ alias ]],
)}
sub is_primitive { !(shift)->alias }
sub dealias {
my ($self) = @_;
$self->is_primitive ? $self : $self->alias->dealias;
}
sub xdr_type {
my ($self) = @_;
if (!$self->is_primitive) {
return $self->dealias->xdr_type;
}
my $type = ref $self;
if ($type eq __PACKAGE__) {
$type = $self->ident;
} else {
$type =~ s/^.*:://;
}
uc($type);
}
sub render_caller {
my ($self, $hfid) = @_;
my $name = $c->rinc( 'dissect_xdr_'.($self->idstrip || lc($self->xdr_type)) );
"$name(tvb, tree, xdrs, hf)";
}
sub ft_type {
my ($self) = @_;
return $self->dealias->ft_type unless $self->is_primitive;
my $xt = $self->xdr_type;
+{
INT => 'INT32',
U_INT => 'UINT32',
SHORT => 'INT16',
U_SHORT => 'UINT16',
CHAR => 'INT8',
U_CHAR => 'UINT8',
HYPER => 'INT64',
U_HYPER => 'UINT64',
BOOL => 'BOOLEAN',
}->{$xt} || $xt;
}
sub hf_base {
my ($self) = @_;
$self->is_primitive
? $self->ft_type =~ /INT/ ? 'DEC' : 'NONE'
: $self->dealias->hf_base;
}
sub define_dissector {
my ($self, @path) = @_;
$self->declare_hfvar(@path);
my $path = join '__', @path;
my $code = $self->render_dissector($path);
$c->print({ sym => "dissect_xdr_$path", body => $code })
if $code;
}
sub declare_hfvar {
my ($self, @path) = @_;
my $path = join '__', @path;
$c->add_to_set(hfvars => {
segment => $c->print({
sym => "hf_$path",
body => "static int hf_$path = -1;\n"
}),
name => $path[-1],
abbrev => join('.', @path),
ft_type => $self->ft_type,
hf_base => $self->hf_base,
});
}
# / package Sym
package Sym::Type::HasAnonTypes; # Types which possibly have anonymous subtypes
BEGIN{::register_profile(
isa => 'Sym::Type',
)}
sub declare_anontypes {
my ($self, @path) = @_;
for my $m (@{ $self->members }) {
unless (defined $m->type->ident) {
$m->type->ident(join '__', @path, $m->ident);
}
$m->type->define_dissector(@path, $m->ident);
}
}
sub define_dissector {
my ($self, @path) = @_;
$self->declare_anontypes(@path);
$self->SUPER::define_dissector(@path);
}
package Sym::Type::HasSubtree; # Types which should be declare ett variables
sub declare_ettvar {
my ($self) = @_;
my $ettvar = 'ett_'.$self->idstrip;
$c->add_to_set(ettvars => $c->print({
sym => $ettvar,
body => "static gint $ettvar = -1;\n",
}));
}
package Sym::Type::HasReference; # Types which references subtype
BEGIN{::register_profile(
attrs => [qw[ reftype ]],
consts => { ft_type => 'NONE' },
)}
sub render_caller {
my ($self) = @_;
my ($klass) = ref($self) =~ /([^:]+)$/;
sprintf '%s(tvb, tree, xdrs, hf, %s)',
$c->rinc('dissect_xdr_'.lc($klass)),
$c->rinc('dissect_xdr_'.$self->reftype->idstrip);
}
package Sym::Type::HasLength; # Types which has length attribute
BEGIN{::register_profile(
attrs => [qw[ length ]],
consts => { ft_type => 'NONE' },
)}
sub render_caller {
my ($self, $hfid) = @_;
my ($klass) = ref($self) =~ /([^:]+)$/;
sprintf '%s(tvb, tree, xdrs, hf, %s)',
$c->rinc('dissect_xdr_'.lc($klass)), $self->length || '~0';
}
package Sym::Type::Struct;
BEGIN{::register_profile(
isa => 'Sym::Type',
attrs => [qw[ members ]],
consts => { ft_type => 'NONE' },
roles => {
'Sym::Type::HasAnonTypes' => [qw[ declare_anontypes ]],
'Sym::Type::HasSubtree' => [qw[ declare_ettvar ]],
},
)}
sub define_dissector {
my ($self, @path) = @_;
$self->declare_anontypes(@path);
$self->declare_ettvar;
$self->SUPER::define_dissector(@path);
}
package Sym::Type::Enum;
BEGIN{::register_profile(
isa => 'Sym::Type',
attrs => [qw[ members ]],
consts => { ft_type => 'UINT32' },
)}
package Sym::Type::Union;
BEGIN{::register_profile(
isa => 'Sym::Type',
attrs => [qw[ decl case_specs ]],
consts => { ft_type => 'NONE' },
roles => {
'Sym::Type::HasAnonTypes' => [qw[ declare_anontypes define_dissector ]],
},
)}
sub members {
my ($self) = @_;
[ map { $_->[1] } @{ $self->case_specs } ];
}
package Sym::Type::String;
BEGIN{::register_profile(
isa => 'Sym::Type',
consts => { ft_type => 'STRING' },
roles => {
'Sym::Type::HasLength' => [qw[ length render_caller ]],
},
)}
package Sym::Type::Opaque;
BEGIN{::register_profile(
isa => 'Sym::Type',
consts => { ft_type => 'BYTES' },
roles => {
'Sym::Type::HasLength' => [qw[ length render_caller ]],
},
)}
package Sym::Type::Bytes;
BEGIN{::register_profile(
isa => 'Sym::Type',
consts => { ft_type => 'BYTES' },
roles => {
'Sym::Type::HasLength' => [qw[ length render_caller ]],
},
)}
package Sym::Type::Pointer;
BEGIN{::register_profile(
isa => 'Sym::Type',
roles => {
'Sym::Type::HasReference' => [qw[ reftype render_caller ]],
},
)}
sub ft_type { (shift)->reftype->ft_type }
package Sym::Type::Array; # a.k.a Variable-Length Array
BEGIN{::register_profile(
isa => 'Sym::Type',
roles => {
'Sym::Type::HasLength' => [qw[ length ft_type ]],
'Sym::Type::HasReference' => [qw[ reftype ]],
'Sym::Type::HasSubtree' => [qw[ declare_ettvar ]],
},
)}
sub render_caller {
my ($self, $hfid) = @_;
my ($pname) = reverse split /__/, $hfid;
sprintf 'dissect_xdr_array(tvb, tree, xdrs, hf, %s, %s, "%s", %s, %s)',
$c->rinc('ett_'.$self->idstrip),
$c->rinc("hf_$hfid\__$pname"),
$self->reftype->idstrip,
$self->length || '~0',
$c->rinc('dissect_xdr_'.$self->reftype->idstrip);
}
sub define_dissector {
my ($self, @path) = @_;
$self->reftype->declare_hfvar(@path, $path[-1]);
$self->declare_ettvar;
$self->SUPER::define_dissector(@path);
}
package Sym::Type::Vector; # a.k.a Fixed-Length Array
BEGIN{::register_profile(
isa => 'Sym::Type',
roles => {
'Sym::Type::HasLength' => [qw[ length ft_type ]],
'Sym::Type::HasReference' => [qw[ reftype ]],
'Sym::Type::Array' => [qw[ define_dissector ]],
'Sym::Type::HasSubtree' => [qw[ declare_ettvar ]],
},
)}
sub render_caller {
my ($self, $hfid) = @_;
my ($pname) = reverse split /__/, $hfid;
sprintf 'dissect_xdr_vector(tvb, tree, xdrs, hf, %s, %s, "%s", %s, %s)',
$c->rinc('ett_'.$self->idstrip),
$c->rinc("hf_$hfid\__$pname"),
$self->reftype->idstrip,
$self->length || '~0',
$c->rinc('dissect_xdr_'.$self->reftype->idstrip);
}
package Sym::Variable;
BEGIN{::register_profile(
isa => 'Sym',
attrs => [qw[ type value ]],
)}
package Context;
BEGIN{::register_profile(
attrs => [qw[ symbols ]],
)}
sub new {
my ($class) = @_;
bless {
symbols => {},
segments => {},
}, $class;
}
sub symbol {
my ($self, $ident) = @_;
my $sym = $self->symbols->{$ident} ||= Sym->new;
$sym->ident($ident);
# In XDR syntax specification, defining struct/enum/union will automatically
# create alias having symbol which excludes its prefix type specifier.
# e.g:
# struct foo { int bar; }; will convert to:
# struct foo { int bar; }; typedef struct foo foo;
if ($ident =~ s/^(?:struct|enum|union)\s+//) {
$self->symbol($ident)->bless('Type')->alias($sym);
}
$sym;
}
sub add_to_set {
my ($self, $set, @elems) = @_;
$self->{sets} ||= {};
$self->{sets}{$set} ||= [];
push @{ $self->{sets}{$set} }, @elems;
}
sub get_set {
my ($self, $set) = @_;
$self->{sets}{$set} || [];
}
# $c->print(...string...); # Does work as regular 'print'
# $c->print({ sym => symbol, body => ...string... });
# Does treat segment as code block should be referenced.
# It will not printed unless it is referenced from other code by $c->rinc();
sub print {
my $self = shift;
my $content;
if (ref $_[0]) {
$content = $self->{segments}{ $_[0]{sym} } ||= $_[0];
$content->{refcnt} //= 0;
$content->{body} = $_[0]{body};
} else {
$content = join '', @_;
}
push @{ $self->{header_contents} }, $content;
$content;
}
sub rinc {
my ($self, $sym) = @_;
($self->{segments}{$sym} ||= { sym => $sym, refcnt => 0 })->{refcnt}++;
$sym;
}
sub add_header_file {
my ($self, $name, $block) = @_;
$self->{headers} ||= [];
local $self->{header_contents} = [];
$self->print("/* *DO NOT MODIFY* this file directly.\n");
$self->print(" * This file was generated by $0 from libvirt version $ENV{LIBVIRT_VERSION} */\n");
my $ucname = uc $name;
$self->print("#ifndef _$ucname\_H_\n");
$self->print("#define _$ucname\_H_\n");
$block->();
$self->print("#endif /* _$ucname\_H_ */");
push @{ $self->{headers} }, [ $name, delete $self->{header_contents} ];
}
sub finalize {
my ($self) = @_;
# Referenced from macro defined in packet-libvirt.h
$self->rinc('dissect_xdr_remote_error');
for my $header (@{ $self->{headers} || [] }) {
my ($name, $contents) = @$header;
my $file = File::Spec->catfile($ENV{PWD}, 'libvirt', "$name.h");
open my $fh, '>', $file
or die "Cannot open file $file: $!";
CORE::print $fh map { ref($_) ? ($_->{refcnt} ? $_->{body} : ()) : $_ } @$contents;
CORE::print $fh "\n";
close $fh;
}
}
# / package Context
package Lexicalizer;
our $Depth;
INIT { # Wrap all lexicalizer subroutine by debugger function
$Depth = 0;
no strict 'refs';
no warnings 'redefine';
for my $name (keys %{ __PACKAGE__.'::' }) {
next if $name =~ /^(?:parse|adv)$/;
my $fullname = __PACKAGE__."::$name";
next unless defined &$fullname;
my $sub = \&$fullname;
*$fullname = sub {
my (undef, undef, $line) = caller;
::dbg ' 'x($Depth*2), "$name L$line", "\n";
local $Depth = $Depth + 1;
$sub->(@_);
};
}
}
# Check if passed regexp does match to next token and advance position.
# Return matched string if matched. Die else.
sub adv {
my ($rx) = @_;
::dbg ' 'x($Depth*2+1), "- adv( $rx ) = ";
# Remove Comments Comments C++ style, PP directives
s{\A(?:\s*(?:/\*.*?\*/|(?://|%).*?(?:\n+|\z)))*\s*}{}s;
if (s/^(?:$rx)//s) {
::dbg "'$&'\n";
return $&;
}
::dbg "UNMATCH\n";
die;
}
sub lexor {
my $snapshot = $_;
while (my $handler = shift) {
my $ret = eval { $handler->() };
if (defined $ret) {
return $ret;
}
$_ = $snapshot;
}
die;
}
sub decimal_constant {
adv '\-?[0-9]+';
}
sub hexadecimal_constant {
adv '\-?0x[0-9A-Fa-f]+';
}
sub octal_constant {
adv '\-?0[0-9]+';
}
sub constant {
lexor \&hexadecimal_constant, \&octal_constant, \&decimal_constant;
}
sub identifier {
adv '[_a-zA-Z][_a-zA-Z0-9]*';
}
sub value {
lexor \&constant, \&identifier;
}
sub enum_type_spec {
adv 'enum';
my $body = lexor \&enum_body, \&identifier;
if (ref $body eq 'ARRAY') {
Sym::Type::Enum->new(members => $body);
} else {
$c->symbol("enum $body")->bless('Type::Enum');
}
}
sub enum_body {
adv '{';
my @members;
do {
my $ident = identifier();
adv '=';
my $value = value();
push @members, $c->symbol($ident)->bless('Variable')->value($value);
} while adv('[},]') eq ',';
\@members;
}
sub struct_type_spec {
adv 'struct';
my $body = lexor \&struct_body, \&identifier;
if (ref $body eq 'ARRAY') {
Sym::Type::Struct->new(members => $body);
} else {
$c->symbol("struct $body")->bless('Type::Struct');
}
}
sub struct_body {
adv '{';
local $c->{symbols} = { %{ $c->{symbols} } };
my @members;
while (my $decl = lexor \&declaration, sub { adv('}') }) {
last if $decl eq '}';
adv ';';
push @members, $decl;
}
\@members;
}
sub case_spec {
my @cases;
while (my $case = eval { adv 'case' }) {
push @cases, value();
adv ':';
}
my $decl = declaration();
adv ';';
[ \@cases, $decl ];
}
sub union_type_spec {
adv 'union';
local $c->{symbols} = { %{ $c->{symbols} } };
my $body = lexor \&union_body, \&identifier;
if (ref $body eq 'ARRAY') {
Sym::Type::Union->new(decl => $body->[0], case_specs => $body->[1]);
} else {
$c->symbol("union $body")->bless('Type::Union');
}
}
sub union_body {
adv 'switch'; adv '\(';
my $decl = declaration();
adv '\)'; adv '{';
my @case_specs;
while (my $spec = eval { case_spec() }) {
push @case_specs, $spec;
}
# TODO: parse default
adv '}';
[ $decl, \@case_specs ];
}
sub constant_def {
adv 'const';
my $ident = identifier();
adv '=';
my $value = lexor \&constant, \&identifier;
adv ';';
$c->symbol($ident)->bless('Variable')->value($value);
}
sub type_def {
my $ret = lexor sub {
adv 'typedef';
my $var = declaration();
my $type = $var->type;
$var->bless('Type')->alias($type);
}, sub {
adv 'enum';
my $ident = identifier();
my $body = enum_body();
$c->symbol("enum $ident")->bless('Type::Enum')->members($body);
}, sub {
adv 'struct';
my $ident = identifier();
my $body = struct_body();
$c->symbol("struct $ident")->bless('Type::Struct')->members($body);
}, sub {
adv 'union';
my $ident = identifier();
my $body = union_body();
$c->symbol("union $ident")->bless('Type::Union')
->decl($body->[0])->case_specs($body->[1]);
};
adv ';';
$ret;
}
sub type_specifier {
lexor sub {
my $ts = adv '(?:unsigned\s+)?(?:int|hyper|char|short)|float|double|quadruple|bool';
$ts =~ s/^unsigned\s+/u_/;
$c->symbol($ts)->bless('Type');
}, \&enum_type_spec, \&struct_type_spec, \&union_type_spec, sub {
my $ident = identifier();
$c->symbol($ident)->bless('Type');
};
}
sub declaration {
lexor sub {
my $type = lexor sub {
my $type = adv 'opaque|string';
my $klass = ucfirst $type;
"Sym::Type::$klass"->new;
}, \&type_specifier;
my $ident = identifier();
# I know that type 'string' does not accept '[]'(fixed length), but I don't care about that
if (my $ex = eval { adv '[<\[]' }) {
my $value = eval { value() };
die if !$value && $ex ne '<'; # Length could be null if it is variable length
adv($ex eq '<' ? '>' : '\]');
if (ref($type) eq 'Sym::Type') { # Expect Array or Vector
my $vtype = ($ex eq '<') ? 'Array' : 'Vector';
$type = "Sym::Type::$vtype"->new(length => $value, reftype => $type);
} else {
$type->length($value);
$type->bless('Type::Bytes') if $type->isa('Sym::Type::Opaque') && $ex eq '<';
}
} elsif ($type->can('length')) { # Found String or Opaque but not followed by length specifier
die;
}
$c->symbol($ident)->bless('Variable')->type($type);
}, sub {
my $type = type_specifier();
adv '\*';
my $ident = identifier();
$c->symbol($ident)->bless('Variable')->type(
Sym::Type::Pointer->new(reftype => $type));
}, sub {
adv 'void';
$c->symbol('void')->bless('Type');
};
}
sub definition {
lexor \&type_def, \&constant_def;
}
sub parse {
my ($class, $source) = @_;
my $nlines = @{[$source =~ /\n/g]};
my @lexs;
while ($source =~ /\S/s) {
(local $_ = $source) =~ s/\A\s*//s;
my $lex = eval { definition() };
if (!$lex) {
my $line = $nlines - @{[/\n/g]} + 1;
my ($near) = /\A((?:.+?\n){0,5})/s;
die "ERROR: Unexpected character near line $line.\n",
"Please check debug output by enabling \$DEBUG flag at top of script.\n",
join("\n", map { ">> $_" } split /\n/, $near);
}
::dbg ' 'x($Depth*2), sprintf "*** Found %s<%s>\n", ref($lex), $lex->ident;
push @lexs, $lex;
$source = $_;
}
@lexs;
}
# Followings are code templates handled by PT
__END__<<DUMMY # Dummy heredoc to disable perl syntax highlighting
@@ Sym::Type#render_dissector
<%
my ($self, $ident) = @_;
return if $self->is_primitive;
%>
static gboolean dissect_xdr_<%= $ident %>(tvbuff_t *tvb, proto_tree *tree, XDR *xdrs, int hf)
{
return <%= $self->dealias->render_caller($self->ident eq $ident ? undef : $ident) %>;
}
@@ Sym::Type::Struct#render_dissector
<% my ($self, $ident) = @_;
my $hfvar = $c->rinc('hf_'.$self->idstrip);
%>
static gboolean dissect_xdr_<%= $ident %>(tvbuff_t *tvb, proto_tree *tree, XDR *xdrs, int hf)
{
goffset start;
proto_item *ti;
start = xdr_getpos(xdrs);
if (hf == -1) {
ti = proto_tree_add_item(tree, <%= $hfvar %>, tvb, start, -1, ENC_NA);
} else {
header_field_info *hfinfo;
hfinfo = proto_registrar_get_nth(<%= $hfvar %>);
ti = proto_tree_add_item(tree, hf, tvb, start, -1, ENC_NA);
proto_item_append_text(ti, " :: %s", hfinfo->name);
}
tree = proto_item_add_subtree(ti, <%= $c->rinc('ett_'.$self->idstrip) %>);
<% for my $m (@{ $self->members }) { %>
hf = <%= $c->rinc('hf_'.$ident.'__'.$m->ident) %>;
if (!<%= $m->type->render_caller($ident.'__'.$m->ident) %>) return FALSE;
<% } %>
proto_item_set_len(ti, xdr_getpos(xdrs) - start);
return TRUE;
}
@@ Sym::Type::Enum#render_dissector
<% my ($self, $ident) = @_; %>
static gboolean dissect_xdr_<%= $ident %>(tvbuff_t *tvb, proto_tree *tree, XDR *xdrs, int hf)
{
goffset start;
enum { DUMMY } es;
start = xdr_getpos(xdrs);
if (xdr_enum(xdrs, (enum_t *)&es)) {
switch ((guint)es) {
<% for my $m (@{ $self->members }) { %>
case <%= $m->value %>:
proto_tree_add_uint_format_value(tree, hf, tvb, start, xdr_getpos(xdrs) - start, (guint)es, "<%= $m->idstrip %>(<%= $m->value %>)");
return TRUE;
<% } %>
}
} else {
proto_tree_add_item(tree, hf_libvirt_unknown, tvb, start, -1, ENC_NA);
}
return FALSE;
}
@@ Sym::Type::Union#render_dissector
<%
my ($self, $ident) = @_;
my $decl_type = $self->decl->type->idstrip;
%>
static gboolean dissect_xdr_<%= $ident %>(tvbuff_t *tvb, proto_tree *tree, XDR *xdrs, int hf)
{
gboolean rc = TRUE;
goffset start;
<%= $decl_type %> type = 0;
start = xdr_getpos(xdrs);
if (!xdr_<%= $decl_type %>(xdrs, &type))
return FALSE;
switch (type) {
<% for my $cs (@{ $self->case_specs }) {
my ($vals, $decl) = @$cs;
%>
<% for my $v (@$vals) { %>
case <%= $v %>:
<% } %>
hf = <%= $c->rinc('hf_'.$ident.'__'.$decl->ident) %>;
rc = <%= $decl->type->render_caller($ident.'__'.$decl->ident) %>; break;
<% } %>
}
if (!rc) {
proto_tree_add_item(tree, hf_libvirt_unknown, tvb, start, -1, ENC_NA);
}
return rc;
}
@@ macro.hfvars
#define VIR_DYNAMIC_HFSET \
<% for my $prog (@{ $_->{programs} }) { %>
{ &hf_<%= $prog %>_procedure,\
{ "procedure", "libvirt.procedure",\
FT_INT32, BASE_DEC,\
VALS(<%= $prog %>_procedure_strings), 0x0,\
NULL, HFILL}\
},\
<% } %>
<% for my $hf (@{ $_->{hfvars} }) { %>
{ &<%= $hf->{segment}{sym} %>,\
{ "<%= $hf->{name} %>", "libvirt.<%= $hf->{abbrev} %>",\
FT_<%= $hf->{ft_type} %>, BASE_<%= $hf->{hf_base} %>,\
NULL, 0x0,\
NULL, HFILL}\
},\
<% } %>
/* End of #define VIR_DYNAMIC_HFSET */
@@ macro.ettvars
#define VIR_DYNAMIC_ETTSET \
<% for my $ett (@{ $_->{ettvars} }) { %>
&<%= $ett %>,\
<% } %>
/* End of #define VIR_DYNAMIC_ETTSET */
@@ code.dissectorlist
static const vir_dissector_index_t <%= $_->{name} %>_dissectors[] = {
<% for my $d (@{ $_->{dissectors} }) { %>
{ <%= $d->{value} %>, <%= $d->{args} %>, <%= $d->{ret} %>, <%= $d->{msg} %> },
<% } %>
};
static const gsize <%= $_->{name} %>_dissectors_len = array_length(<%= $_->{name} %>_dissectors);
@@ code.procedure_strings
static const value_string <%= $_->{name} %>_procedure_strings[] = {
<% for my $proc (@{ $_->{procedures} }) {
my $ident = $proc->ident;
$ident =~ s/^$_->{name}_proc_//i;
%>
{ <%= $proc->value %>, "<%= $ident %>" },
<% } %>
{ 0, NULL }
};
@@ code.program_strings
static const value_string program_strings[] = {
<% for my $prog (map uc, @{ $_->{programs} }) { %>
{ <%= $c->symbol("$prog\_PROGRAM")->value %>, "<%= $prog %>" },
<% } %>
{ 0, NULL }
};
@@ code.program_data
static const void *program_data[][VIR_PROGRAM_LAST] = {
<% for my $p (@{ $_->{programs} }) { %>
{ &hf_<%= $p %>_procedure, <%= $p %>_procedure_strings, <%= $p %>_dissectors, &<%= $p %>_dissectors_len },
<% } %>
};
static const void *
get_program_data(guint32 prog, enum vir_program_data_index index)
{
if (index < VIR_PROGRAM_LAST) {
switch (prog) {
<% my $i = 0; %>
<% for my $prog (@{ $_->{programs} }) { %>
case <%= uc($prog) %>_PROGRAM:
return program_data[<%= $i++ %>][index];
<% } %>
}
}
return NULL;
}