[ViewVC] Diff of: cvs/Convert-BER-XS/XS.pm

Comparing Convert-BER-XS/XS.pm (file contents):
Revision 1.35 by root, Sat Apr 20 21:51:40 2019 UTC vs.
Revision 1.63 by root, Wed Mar 3 05:30:23 2021 UTC

…		…
4		4
5	=head1 SYNOPSIS	5	=head1 SYNOPSIS
6		6
7	use Convert::BER::XS ':all';	7	use Convert::BER::XS ':all';
8		8
		9	# decode a binary BER data structure using the SNMP profile
9	my $ber = ber_decode $buf, $Convert::BER::XS::SNMP_PROFILE	10	my $ber = ber_decode $buf, $Convert::BER::XS::SNMP_PROFILE
10	or die "unable to decode SNMP message";	11	or die "unable to decode SNMP message";
11		12
12	# The above results in a data structure consisting of	13	# The above results in a data structure consisting of
13	# (class, tag, flags, data)	14	# (class, tag, flags, data)
14	# tuples. Below is such a message, SNMPv1 trap	15	# tuples. Below is such a message, an SNMPv1 trap
15	# with a Cisco mac change notification.	16	# with a Cisco mac change notification.
16	# Did you know that Cisco is in the news almost	17	# (Did you know that Cisco is in the news almost
17	# every week because of some backdoor password	18	# every week because of some backdoor password
18	# or other extremely stupid security bug?	19	# or other extremely stupid security bug?)
19		20
20	[ ASN_UNIVERSAL, ASN_SEQUENCE, 1,	21	[ ASN_UNIVERSAL, ASN_SEQUENCE, 1,
21	[	22	[
22	[ ASN_UNIVERSAL, ASN_INTEGER, 0, 0 ], # snmp version 1	23	[ ASN_UNIVERSAL, ASN_INTEGER, 0, 0 ], # snmp version 1
23	[ ASN_UNIVERSAL, 4, 0, "public" ], # community	24	[ ASN_UNIVERSAL, 4, 0, "public" ], # community
…		…
37	]	38	]
38	]	39	]
39	],	40	],
40	...	41	...
41		42
		43	# let's dump the above structure, for debugging
		44	ber_dump $ber, $Convert::BER::XS::SNMP_PROFILE;
		45
42	# let's decode it a bit with some helper functions	46	# let's decode it a bit with some helper functions.
43		47	# first check whether it starts with a sequence
44	my $msg = ber_is_seq $ber	48	my $msg = ber_is_seq $ber
45	or die "SNMP message does not start with a sequence";	49	or die "SNMP message does not start with a sequence";
46		50
		51	# then check if its some kind of integer
47	ber_is $msg->[0], ASN_UNIVERSAL, ASN_INTEGER, 0	52	ber_is $msg->[0], ASN_UNIVERSAL, ASN_INTEGER, 0
48	or die "SNMP message does not start with snmp version\n";	53	or die "SNMP message does not start with snmp version";
49		54
50	# message is SNMP v1 or v2c?	55	# message is SNMP v1 or v2c?
51	if ($msg->[0][BER_DATA] == 0 \|\| $msg->[0][BER_DATA] == 1) {	56	if ($msg->[0][BER_DATA] == 0 \|\| $msg->[0][BER_DATA] == 1) {
52		57
53	# message is v1 trap?	58	# message is v1 trap?
…		…
61	and (ber_is_int $trap->[3], 1) # mac changed msg	66	and (ber_is_int $trap->[3], 1) # mac changed msg
62	) {	67	) {
63	... and so on	68	... and so on
64		69
65	# finally, let's encode it again and hope it results in the same bit pattern	70	# finally, let's encode it again and hope it results in the same bit pattern
66
67	my $buf = ber_encode $ber, $Convert::BER::XS::SNMP_PROFILE;	71	my $buf = ber_encode $ber, $Convert::BER::XS::SNMP_PROFILE;
68		72
69	=head1 DESCRIPTION	73	=head1 DESCRIPTION
70
71	WARNING: Before release 1.0, the API is not considered stable in any way.
72		74
73	This module implements a I<very> low level BER/DER en-/decoder.	75	This module implements a I<very> low level BER/DER en-/decoder.
74		76
75	It is tuned for low memory and high speed, while still maintaining some	77	It is tuned for low memory and high speed, while still maintaining some
76	level of user-friendlyness.	78	level of user-friendlyness.
…		…
105	BER_CLASS BER_TAG BER_FLAGS BER_DATA	107	BER_CLASS BER_TAG BER_FLAGS BER_DATA
106		108
107	=item C<:const_asn>	109	=item C<:const_asn>
108		110
109	ASN class values (these are C<0>, C<1>, C<2> and C<3>, respectively -	111	ASN class values (these are C<0>, C<1>, C<2> and C<3>, respectively -
110	exactly thw two topmost bits from the identifier octet shifted 6 bits to	112	exactly the two topmost bits from the identifier octet shifted 6 bits to
111	the right):	113	the right):
112		114
113	ASN_UNIVERSAL ASN_APPLICATION ASN_CONTEXT ASN_PRIVATE	115	ASN_UNIVERSAL ASN_APPLICATION ASN_CONTEXT ASN_PRIVATE
114		116
115	ASN tag values (some of which are aliases, such as C<ASN_OID>). Their	117	ASN tag values (some of which are aliases, such as C<ASN_OID>). Their
116	numerical value corresponds exactly to the numbers used in BER/X.690.	118	numerical value corresponds exactly to the numbers used in BER/X.690.
117		119
118	ASN_BOOLEAN ASN_INTEGER ASN_BIT_STRING ASN_OCTET_STRING ASN_NULL ASN_OBJECT_IDENTIFIER	120	ASN_BOOLEAN ASN_INTEGER ASN_BIT_STRING ASN_OCTET_STRING ASN_NULL ASN_OID
119	ASN_OBJECT_DESCRIPTOR ASN_OID ASN_EXTERNAL ASN_REAL ASN_SEQUENCE ASN_ENUMERATED	121	ASN_OBJECT_IDENTIFIER ASN_OBJECT_DESCRIPTOR ASN_EXTERNAL ASN_REAL ASN_SEQUENCE ASN_ENUMERATED
120	ASN_EMBEDDED_PDV ASN_UTF8_STRING ASN_RELATIVE_OID ASN_SET ASN_NUMERIC_STRING	122	ASN_EMBEDDED_PDV ASN_UTF8_STRING ASN_RELATIVE_OID ASN_SET ASN_NUMERIC_STRING
121	ASN_PRINTABLE_STRING ASN_TELETEX_STRING ASN_T61_STRING ASN_VIDEOTEX_STRING ASN_IA5_STRING	123	ASN_PRINTABLE_STRING ASN_TELETEX_STRING ASN_T61_STRING ASN_VIDEOTEX_STRING ASN_IA5_STRING
122	ASN_ASCII_STRING ASN_UTC_TIME ASN_GENERALIZED_TIME ASN_GRAPHIC_STRING ASN_VISIBLE_STRING	124	ASN_ASCII_STRING ASN_UTC_TIME ASN_GENERALIZED_TIME ASN_GRAPHIC_STRING ASN_VISIBLE_STRING
123	ASN_ISO646_STRING ASN_GENERAL_STRING ASN_UNIVERSAL_STRING ASN_CHARACTER_STRING ASN_BMP_STRING	125	ASN_ISO646_STRING ASN_GENERAL_STRING ASN_UNIVERSAL_STRING ASN_CHARACTER_STRING ASN_BMP_STRING
124		126
…		…
143		145
144	C<ber_decode> and the match helper functions:	146	C<ber_decode> and the match helper functions:
145		147
146	ber_decode ber-decode_prefix	148	ber_decode ber-decode_prefix
147	ber_is ber_is_seq ber_is_int ber_is_oid	149	ber_is ber_is_seq ber_is_int ber_is_oid
		150	ber_dump
148		151
149	=item C<:encode>	152	=item C<:encode>
150		153
151	C<ber_encode> and the construction helper functions:	154	C<ber_encode> and the construction helper functions:
152		155
…		…
171	This works because BER values are tagged with a type and a namespace,	174	This works because BER values are tagged with a type and a namespace,
172	and also have a flag that says whether a value consists of subvalues (is	175	and also have a flag that says whether a value consists of subvalues (is
173	"constructed") or not (is "primitive").	176	"constructed") or not (is "primitive").
174		177
175	Tags are simple integers, and ASN.1 defines a somewhat weird assortment	178	Tags are simple integers, and ASN.1 defines a somewhat weird assortment
176	of those - for example, you have one integers and 16(!) different	179	of those - for example, you have one integer but 16(!) different
177	string types, but there is no Unsigned32 type for example. Different	180	string types, but there is no Unsigned32 type for example. Different
178	applications work around this in different ways, for example, SNMP defines	181	applications work around this in different ways, for example, SNMP defines
179	application-specific Gauge32, Counter32 and Unsigned32, which are mapped	182	application-specific Gauge32, Counter32 and Unsigned32, which are mapped
180	to two different tags: you can distinguish between Counter32 and the	183	to two different tags: you can distinguish between Counter32 and the
181	others, but not between Gause32 and Unsigned32, without the ASN.1 schema.	184	others, but not between Gause32 and Unsigned32, without the ASN.1 schema.
…		…
292	Also, since BER is self-delimited, this can be used to decode multiple BER	295	Also, since BER is self-delimited, this can be used to decode multiple BER
293	values joined together.	296	values joined together.
294		297
295	=item $bindata = ber_encode $tuple[, $profile]	298	=item $bindata = ber_encode $tuple[, $profile]
296		299
297	Encodes the BER tuple into a BER/DER data structure. AS with	300	Encodes the BER tuple into a BER/DER data structure. As with
298	Cyber_decode>, an optional profile can be given.	301	Cyber_decode>, an optional profile can be given.
299		302
300	The encoded data should be both BER and DER ("shortest form") compliant	303	The encoded data should be both BER and DER ("shortest form") compliant
301	unless the input says otherwise (e.g. it uses constructed strings).	304	unless the input says otherwise (e.g. it uses constructed strings).
302		305
…		…
405	use common::sense;	408	use common::sense;
406		409
407	use XSLoader ();	410	use XSLoader ();
408	use Exporter qw(import);	411	use Exporter qw(import);
409		412
		413	use Carp ();
		414
410	our $VERSION;	415	our $VERSION;
411		416
412	BEGIN {	417	BEGIN {
413	$VERSION = '1.0';	418	$VERSION = 1.21;
414	XSLoader::load __PACKAGE__, $VERSION;	419	XSLoader::load __PACKAGE__, $VERSION;
415	}	420	}
416		421
417	our %EXPORT_TAGS = (	422	our %EXPORT_TAGS = (
418	const_index => [qw(	423	const_index => [qw(
419	BER_CLASS BER_TAG BER_FLAGS BER_DATA	424	BER_CLASS BER_TAG BER_FLAGS BER_DATA
420	)],	425	)],
		426	const_asn_class => [qw(
		427	ASN_UNIVERSAL ASN_APPLICATION ASN_CONTEXT ASN_PRIVATE
		428	)],
421	const_asn => [qw(	429	const_asn_tag => [qw(
422	ASN_BOOLEAN ASN_INTEGER ASN_BIT_STRING ASN_OCTET_STRING ASN_NULL ASN_OBJECT_IDENTIFIER	430	ASN_BOOLEAN ASN_INTEGER ASN_BIT_STRING ASN_OCTET_STRING ASN_NULL ASN_OID ASN_OBJECT_IDENTIFIER
423	ASN_OBJECT_DESCRIPTOR ASN_OID ASN_EXTERNAL ASN_REAL ASN_SEQUENCE ASN_ENUMERATED	431	ASN_OBJECT_DESCRIPTOR ASN_EXTERNAL ASN_REAL ASN_SEQUENCE ASN_ENUMERATED
424	ASN_EMBEDDED_PDV ASN_UTF8_STRING ASN_RELATIVE_OID ASN_SET ASN_NUMERIC_STRING	432	ASN_EMBEDDED_PDV ASN_UTF8_STRING ASN_RELATIVE_OID ASN_SET ASN_NUMERIC_STRING
425	ASN_PRINTABLE_STRING ASN_TELETEX_STRING ASN_T61_STRING ASN_VIDEOTEX_STRING ASN_IA5_STRING	433	ASN_PRINTABLE_STRING ASN_TELETEX_STRING ASN_T61_STRING ASN_VIDEOTEX_STRING ASN_IA5_STRING
426	ASN_ASCII_STRING ASN_UTC_TIME ASN_GENERALIZED_TIME ASN_GRAPHIC_STRING ASN_VISIBLE_STRING	434	ASN_ASCII_STRING ASN_UTC_TIME ASN_GENERALIZED_TIME ASN_GRAPHIC_STRING ASN_VISIBLE_STRING
427	ASN_ISO646_STRING ASN_GENERAL_STRING ASN_UNIVERSAL_STRING ASN_CHARACTER_STRING ASN_BMP_STRING	435	ASN_ISO646_STRING ASN_GENERAL_STRING ASN_UNIVERSAL_STRING ASN_CHARACTER_STRING ASN_BMP_STRING
428
429	ASN_UNIVERSAL ASN_APPLICATION ASN_CONTEXT ASN_PRIVATE
430	)],	436	)],
431	const_ber_type => [qw(	437	const_ber_type => [qw(
432	BER_TYPE_BYTES BER_TYPE_UTF8 BER_TYPE_UCS2 BER_TYPE_UCS4 BER_TYPE_INT	438	BER_TYPE_BYTES BER_TYPE_UTF8 BER_TYPE_UCS2 BER_TYPE_UCS4 BER_TYPE_INT
433	BER_TYPE_OID BER_TYPE_RELOID BER_TYPE_NULL BER_TYPE_BOOL BER_TYPE_REAL	439	BER_TYPE_OID BER_TYPE_RELOID BER_TYPE_NULL BER_TYPE_BOOL BER_TYPE_REAL
434	BER_TYPE_IPADDRESS BER_TYPE_CROAK	440	BER_TYPE_IPADDRESS BER_TYPE_CROAK
…		…
438	SNMP_TIMETICKS SNMP_OPAQUE SNMP_COUNTER64	444	SNMP_TIMETICKS SNMP_OPAQUE SNMP_COUNTER64
439	)],	445	)],
440	decode => [qw(	446	decode => [qw(
441	ber_decode ber_decode_prefix	447	ber_decode ber_decode_prefix
442	ber_is ber_is_seq ber_is_int ber_is_oid	448	ber_is ber_is_seq ber_is_int ber_is_oid
		449	ber_dump
443	)],	450	)],
444	encode => [qw(	451	encode => [qw(
445	ber_encode	452	ber_encode
446	ber_int	453	ber_int
447	)],	454	)],
448	);	455	);
449		456
450	our @EXPORT_OK = map @$_, values %EXPORT_TAGS;	457	our @EXPORT_OK = map @$_, values %EXPORT_TAGS;
451		458
452	$EXPORT_TAGS{all} = \@EXPORT_OK;	459	$EXPORT_TAGS{all} = \@EXPORT_OK;
		460	$EXPORT_TAGS{const_asn} = [map @{ $EXPORT_TAGS{$_} }, qw(const_asn_class const_asn_tag)];
453	$EXPORT_TAGS{const} = [map @{ $EXPORT_TAGS{$_} }, qw(const_index const_asn)];	461	$EXPORT_TAGS{const} = [map @{ $EXPORT_TAGS{$_} }, qw(const_index const_asn)];
		462
		463	our $DEFAULT_PROFILE = new Convert::BER::XS::Profile;
		464
		465	$DEFAULT_PROFILE->_set_default;
		466
		467	# additional SNMP application types
		468	our $SNMP_PROFILE = new Convert::BER::XS::Profile;
		469
		470	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_IPADDRESS , BER_TYPE_IPADDRESS);
		471	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER32 , BER_TYPE_INT);
		472	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER64 , BER_TYPE_INT);
		473	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_UNSIGNED32, BER_TYPE_INT);
		474	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_TIMETICKS , BER_TYPE_INT);
		475
		476	# decodes REAL values according to ECMA-63
		477	# this is pretty strict, except it doesn't catch -0.
		478	# I don't have access to ISO 6093 (or BS 6727, or ANSI X.3-42)), so this is all guesswork.
		479	sub _decode_real_decimal {
		480	my ($format, $val) = @_;
		481
		482	$val =~ y/,/./; # probably not in ISO-6093
		483
		484	if ($format == 1) {
		485	$val =~ /^ \ * [+-]? [0-9]+ \z/x
		486	or Carp::croak "BER_TYPE_REAL NR1 value not in NR1 format ($val) (X.690 8.5.8)";
		487	} elsif ($format == 2) {
		488	$val =~ /^ \ * [+-]? (?: [0-9]+\.[0-9]* \| [0-9]*\.[0-9]+ ) \z/x
		489	or Carp::croak "BER_TYPE_REAL NR2 value not in NR2 format ($val) (X.690 8.5.8)";
		490	} elsif ($format == 3) {
		491	$val =~ /^ \ * [+-] (?: [0-9]+\.[0-9]* \| [0-9]*\.[0-9]+ ) [eE] [+-]? [0-9]+ \z/x
		492	or Carp::croak "BER_TYPE_REAL NR3 value not in NR3 format ($val) (X.690 8.5.8)";
		493	} else {
		494	Carp::croak "BER_TYPE_REAL invalid decimal numerical representation format $format";
		495	}
		496
		497	$val
		498	}
		499
		500	# this is a mess, but perl's support for floating point formatting is nearly nonexistant
		501	sub _encode_real_decimal {
		502	my ($val, $nvdig) = @_;
		503
		504	$val = sprintf "%.*G", $nvdig + 1, $val;
		505
		506	if ($val =~ /E/) {
		507	$val =~ s/E(?=[^+-])/E+/;
		508	$val =~ s/E/.E/ if $val !~ /\./;
		509	$val =~ s/^/+/ unless $val =~ /^-/;
		510
		511	return "\x03$val" # NR3
		512	}
		513
		514	$val =~ /\./
		515	? "\x02$val" # NR2
		516	: "\x01$val" # NR1
		517	}
		518
		519	=head2 DEBUGGING
		520
		521	To aid debugging, you can call the C<ber_dump> function to print a "nice"
		522	representation to STDOUT.
		523
		524	=over
		525
		526	=item ber_dump $tuple[, $profile[, $prefix]]
		527
		528	In addition to specifying the BER C<$tuple> to dump, you can also specify
		529	a C<$profile> and a C<$prefix> string that is printed in front of each line.
		530
		531	If C<$profile> is C<$Convert::BER::XS::SNMP_PROFILE>, then C<ber_dump>
		532	will try to improve its output for SNMP data.
		533
		534	The output usually contains three columns, the "human readable" tag, the
		535	BER type used to decode it, and the data value.
		536
		537	This function is somewhat slow and uses a number of heuristics and tricks,
		538	so it really is only suitable for debug prints.
		539
		540	Example output:
		541
		542	SEQUENCE
		543	\| OCTET_STRING bytes 800063784300454045045400000001
		544	\| OCTET_STRING bytes
		545	\| CONTEXT (7) CONSTRUCTED
		546	\| \| INTEGER int 1058588941
		547	\| \| INTEGER int 0
		548	\| \| INTEGER int 0
		549	\| \| SEQUENCE
		550	\| \| \| SEQUENCE
		551	\| \| \| \| OID oid 1.3.6.1.2.1.1.3.0
		552	\| \| \| \| TIMETICKS int 638085796
		553
		554	=back
		555
		556	=cut
		557
		558	# reverse enum, very slow and ugly hack
		559	sub _re {
		560	my ($export_tag, $value) = @_;
		561
		562	for my $symbol (@{ $EXPORT_TAGS{$export_tag} }) {
		563	$value == eval $symbol
		564	and return $symbol;
		565	}
		566
		567	"($value)"
		568	}
		569
		570	sub _ber_dump {
		571	my ($ber, $profile, $indent) = @_;
		572
		573	if (my $seq = ber_is_seq $ber) {
		574	printf "%sSEQUENCE\n", $indent;
		575	&_ber_dump ($_, $profile, "$indent\| ")
		576	for @$seq;
		577	} else {
		578	my $asn = $ber->[BER_CLASS] == ASN_UNIVERSAL;
		579
		580	my $class = _re const_asn_class => $ber->[BER_CLASS];
		581	my $tag = $asn ? _re const_asn_tag => $ber->[BER_TAG] : $ber->[BER_TAG];
		582	my $type = _re const_ber_type => $profile->get ($ber->[BER_CLASS], $ber->[BER_TAG]);
		583	my $data = $ber->[BER_DATA];
		584
		585	if ($profile == $SNMP_PROFILE and $ber->[BER_CLASS] == ASN_APPLICATION) {
		586	$tag = _re const_snmp => $ber->[BER_TAG];
		587	} elsif (!$asn) {
		588	$tag = "$class ($tag)";
		589	}
		590
		591	$class =~ s/^ASN_//;
		592	$tag =~ s/^(ASN_\|SNMP_)//;
		593	$type =~ s/^BER_TYPE_//;
		594
		595	if ($ber->[BER_FLAGS]) {
		596	printf "$indent%-16.16s\n", $tag;
		597	&_ber_dump ($_, $profile, "$indent\| ")
		598	for @$data;
		599	} else {
		600	if ($data =~ y/\x20-\x7e//c / (length $data \|\| 1) > 0.2 or $data =~ /\x00./s) {
		601	# assume binary
		602	$data = unpack "H*", $data;
		603	} else {
		604	$data =~ s/[^\x20-\x7e]/./g;
		605	$data = "\"$data\"" if $tag =~ /string/i \|\| !length $data;
		606	}
		607
		608	substr $data, 40, 1e9, "..." if 40 < length $data;
		609
		610	printf "$indent%-16.16s %-6.6s %s\n", $tag, lc $type, $data;
		611	}
		612	}
		613	}
		614
		615	sub ber_dump($;$$) {
		616	_ber_dump $_[0], $_[1] \|\| $DEFAULT_PROFILE, $_[2];
		617	}
454		618
455	=head1 PROFILES	619	=head1 PROFILES
456		620
457	While any BER data can be correctly encoded and decoded out of the box, it	621	While any BER data can be correctly encoded and decoded out of the box, it
458	can be inconvenient to have to manually decode some values into a "better"	622	can be inconvenient to have to manually decode some values into a "better"
…		…
484	=item C<$Convert::BER::XS::SNMP_PROFILE>	648	=item C<$Convert::BER::XS::SNMP_PROFILE>
485		649
486	A profile with mappings for SNMP-specific application tags added. This is	650	A profile with mappings for SNMP-specific application tags added. This is
487	useful when de-/encoding SNMP data.	651	useful when de-/encoding SNMP data.
488		652
		653	The L<Example Profile> section, below, shows how this profile is being
		654	constructed.
		655
489	Example:	656	Example:
490		657
491	$ber = ber_decode $data, $Convert::BER::XS::SNMP_PROFILE;	658	$ber = ber_decode $data, $Convert::BER::XS::SNMP_PROFILE;
492		659
493	=back	660	=back
…		…
519		686
520	Returns the BER type mapped to the given C<$class>/C<$tag> combination.	687	Returns the BER type mapped to the given C<$class>/C<$tag> combination.
521		688
522	=back	689	=back
523		690
524	=head2 BER TYPES	691	=head2 BER Types
525		692
526	This lists the predefined BER types - you can map any C<CLASS>/C<TAG>	693	This lists the predefined BER types. BER types are formatters used
527	combination to any C<BER_TYPE_*>.	694	internally to format and encode BER values. You can assign any C<BER_TYPE>
		695	to any C<CLASS>/C<TAG> combination tgo change how that tag is decoded or
		696	encoded.
528		697
529	=over	698	=over
530		699
531	=item C<BER_TYPE_BYTES>	700	=item C<BER_TYPE_BYTES>
532		701
…		…
561	dot, e.g. C<1.3.6.1.213>.	730	dot, e.g. C<1.3.6.1.213>.
562		731
563	=item C<BER_TYPE_RELOID>	732	=item C<BER_TYPE_RELOID>
564		733
565	Same as C<BER_TYPE_OID> but uses relative object identifier	734	Same as C<BER_TYPE_OID> but uses relative object identifier
566	encoding: ASN.1 has this hack of encoding the first two OID components	735	encoding: ASN.1 uses some hack encoding of the first two OID components
567	into a single integer in a weird attempt to save an insignificant amount	736	into a single integer in a weird attempt to save an insignificant amount
568	of space in an otherwise wasteful encoding, and relative OIDs are	737	of space in an otherwise wasteful encoding, and relative OIDs are
569	basically OIDs without this hack. The practical difference is that the	738	basically OIDs without this hack. The practical difference is that the
570	second component of an OID can only have the values 1..40, while relative	739	second component of an OID can only have the values 1..40, while relative
571	OIDs do not have this restriction.	740	OIDs do not have this restriction.
…		…
609		778
610	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_IPADDRESS , BER_TYPE_IPADDRESS);	779	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_IPADDRESS , BER_TYPE_IPADDRESS);
611	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER32 , BER_TYPE_INT);	780	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER32 , BER_TYPE_INT);
612	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_UNSIGNED32, BER_TYPE_INT);	781	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_UNSIGNED32, BER_TYPE_INT);
613	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_TIMETICKS , BER_TYPE_INT);	782	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_TIMETICKS , BER_TYPE_INT);
614	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_OPAQUE , BER_TYPE_IPADDRESS);	783	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_OPAQUE , BER_TYPE_BYTES);
615	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER64 , BER_TYPE_INT);	784	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER64 , BER_TYPE_INT);
616		785
617	=cut
618
619	our $DEFAULT_PROFILE = new Convert::BER::XS::Profile;
620
621	$DEFAULT_PROFILE->_set_default;
622
623	# additional SNMP application types
624	our $SNMP_PROFILE = new Convert::BER::XS::Profile;
625
626	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_IPADDRESS , BER_TYPE_IPADDRESS);
627	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER32 , BER_TYPE_INT);
628	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_UNSIGNED32, BER_TYPE_INT);
629	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_TIMETICKS , BER_TYPE_INT);
630	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_OPAQUE , BER_TYPE_IPADDRESS);
631	$SNMP_PROFILE->set (ASN_APPLICATION, SNMP_COUNTER64 , BER_TYPE_INT);
632
633	1;
634
635	=head2 LIMITATIONS/NOTES	786	=head2 LIMITATIONS/NOTES
636		787
637	This module can only en-/decode 64 bit signed and unsigned integers, and	788	This module can only en-/decode 64 bit signed and unsigned
638	only when your perl supports those.	789	integers/tags/lengths, and only when your perl supports those. So no UUID
		790	OIDs for now (unless you map the C<OBJECT IDENTIFIER> tag to something
		791	other than C<BER_TYPE_OID>).
639		792
640	This module does not generally care about ranges, i.e. it will happily	793	This module does not generally care about ranges, i.e. it will happily
641	de-/encode 64 bit integers into an C<ASN_INTEGER> value, or a negative	794	de-/encode 64 bit integers into an C<SNMP_UNSIGNED32> value, or a negative
642	number into an C<SNMP_COUNTER64>.	795	number into an C<SNMP_COUNTER64>.
643		796
644	OBJECT IDENTIFIEERs cannot have unlimited length, although the limit is	797	OBJECT IDENTIFIEERs cannot have unlimited length, although the limit is
645	much larger than e.g. the one imposed by SNMP or other protocols,a nd is	798	much larger than e.g. the one imposed by SNMP or other protocols, and is
646	about 4kB.	799	about 4kB.
647
648	Indefinite length encoding is not supported.
649		800
650	Constructed strings are decoded just fine, but there should be a way to	801	Constructed strings are decoded just fine, but there should be a way to
651	join them for convenience.	802	join them for convenience.
652		803
653	REAL values are not supported and will currently croak.	804	REAL values will always be encoded in decimal form and ssometimes is
654		805	forced into a perl "NV" type, potentially losing precision.
655	The encoder and decoder tend to accept more formats than should be
656	strictly supported.
657
658	This module has undergone little to no testing so far.
659		806
660	=head2 ITHREADS SUPPORT	807	=head2 ITHREADS SUPPORT
661		808
662	This module is unlikely to work when the (officially discouraged) ithreads	809	This module is unlikely to work in any other than the loading thread when
663	are in use.	810	the (officially discouraged) ithreads are in use.
664		811
665	=head1 AUTHOR	812	=head1 AUTHOR
666		813
667	Marc Lehmann <schmorp@schmorp.de>	814	Marc Lehmann <schmorp@schmorp.de>
668	http://software.schmorp.de/pkg/Convert-BER-XS	815	http://software.schmorp.de/pkg/Convert-BER-XS
669		816
670	=cut	817	=cut
671		818
		819	1;
		820

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Comparing Convert-BER-XS/XS.pm (file contents): Revision 1.35 by root, Sat Apr 20 21:51:40 2019 UTC vs. Revision 1.63 by root, Wed Mar 3 05:30:23 2021 UTC

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Comparing Convert-BER-XS/XS.pm (file contents):
Revision 1.35 by root, Sat Apr 20 21:51:40 2019 UTC vs.
Revision 1.63 by root, Wed Mar 3 05:30:23 2021 UTC