################################################## # Wireshark NDR parser generator for IDL structures # Copyright tridge@samba.org 2000-2003 # Copyright tpot@samba.org 2001,2005 # Copyright jelmer@samba.org 2004-2007 # Portions based on idl2eth.c by Ronnie Sahlberg # released under the GNU GPL =pod =head1 NAME Parse::Pidl::Wireshark::NDR - Parser generator for Wireshark =cut package Parse::Pidl::Wireshark::NDR; use Exporter; @ISA = qw(Exporter); @EXPORT_OK = qw(field2name %res PrintIdl StripPrefixes RegisterInterfaceHandoff register_hf_field CheckUsed ProcessImport ProcessInclude find_type DumpEttList DumpEttDeclaration DumpHfList DumpHfDeclaration DumpFunctionTable register_type register_ett); use strict; use warnings; use Parse::Pidl qw(error warning); use Parse::Pidl::Typelist qw(getType mapScalarType); use Parse::Pidl::Util qw(has_property property_matches make_str); use Parse::Pidl::NDR qw(ContainsString GetNextLevel); use Parse::Pidl::Dump qw(DumpType DumpFunction); use Parse::Pidl::Wireshark::Conformance qw(ReadConformance); use File::Basename; use vars qw($VERSION); $VERSION = '0.01'; my %return_types = (); my %dissector_used = (); my %ptrtype_mappings = ( "unique" => "NDR_POINTER_UNIQUE", "ref" => "NDR_POINTER_REF", "ptr" => "NDR_POINTER_PTR" ); sub StripPrefixes($$) { my ($s, $prefixes) = @_; foreach (@$prefixes) { $s =~ s/^$_\_//g; } return $s; } # Convert a IDL structure field name (e.g access_mask) to a prettier # string like 'Access Mask'. sub field2name($) { my($field) = shift; $field =~ s/^(_)*//g; # Remove any starting underscores $field =~ s/_/ /g; # Replace underscores with spaces $field =~ s/(\w+)/\u$1/g; # Capitalise each word return $field; } sub new($) { my ($class) = @_; my $self = {res => {hdr => "", def => "", code => ""}, tabs => "", cur_fn => undef, hf_used => {}, ett => [], conformance => undef }; bless($self, $class); } sub pidl_fn_start($$) { my ($self, $fn) = @_; $self->{cur_fn} = $fn; } sub pidl_fn_end($$) { my ($self, $fn) = @_; die("Inconsistent state: $fn != $self->{cur_fn}") if ($fn ne $self->{cur_fn}); $self->{cur_fn} = undef; } sub pidl_code($$) { my ($self, $d) = @_; return if (defined($self->{cur_fn}) and defined($self->{conformance}->{manual}->{$self->{cur_fn}})); if ($d) { $self->{res}->{code} .= $self->{tabs}; $self->{res}->{code} .= $d; } $self->{res}->{code} .="\n"; } sub pidl_hdr($$) { my ($self,$x) = @_; $self->{res}->{hdr} .= "$x\n"; } sub pidl_def($$) { my ($self,$x) = @_; $self->{res}->{def} .= "$x\n"; } sub indent($) { my ($self) = @_; $self->{tabs} .= "\t"; } sub deindent($) { my ($self) = @_; $self->{tabs} = substr($self->{tabs}, 0, -1); } sub PrintIdl($$) { my ($self, $idl) = @_; foreach (split /\n/, $idl) { $self->pidl_code("/* IDL: $_ */"); } $self->pidl_code(""); } ##################################################################### # parse the interface definitions sub Interface($$) { my($self, $interface) = @_; $self->Const($_,$interface->{NAME}) foreach (@{$interface->{CONSTS}}); $self->Type($_, $_->{NAME}, $interface->{NAME}) foreach (@{$interface->{TYPES}}); $self->Function($_,$interface->{NAME}) foreach (@{$interface->{FUNCTIONS}}); } sub Enum($$$$) { my ($self, $e,$name,$ifname) = @_; my $valsstring = "$ifname\_$name\_vals"; my $dissectorname = "$ifname\_dissect\_enum\_".StripPrefixes($name, $self->{conformance}->{strip_prefixes}); return if (defined($self->{conformance}->{noemit}->{StripPrefixes($name, $self->{conformance}->{strip_prefixes})})); foreach (@{$e->{ELEMENTS}}) { if (/([^=]*)=(.*)/) { $self->pidl_hdr("#define $1 ($2)"); } } $self->pidl_hdr("extern const value_string $valsstring\[];"); $self->pidl_hdr("int $dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, g$e->{BASE_TYPE} *param _U_);"); $self->pidl_def("const value_string ".$valsstring."[] = {"); foreach (@{$e->{ELEMENTS}}) { next unless (/([^=]*)=(.*)/); $self->pidl_def("\t{ $1, \"$1\" },"); } $self->pidl_def("{ 0, NULL }"); $self->pidl_def("};"); $self->pidl_fn_start($dissectorname); $self->pidl_code("int"); $self->pidl_code("$dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, g$e->{BASE_TYPE} *param _U_)"); $self->pidl_code("{"); $self->indent; $self->pidl_code("g$e->{BASE_TYPE} parameter=0;"); $self->pidl_code("if (param) {"); $self->indent; $self->pidl_code("parameter = *param;"); $self->deindent; $self->pidl_code("}"); $self->pidl_code("offset = dissect_ndr_$e->{BASE_TYPE}(tvb, offset, pinfo, tree, di, drep, hf_index, ¶meter);"); $self->pidl_code("if (param) {"); $self->indent; $self->pidl_code("*param = parameter;"); $self->deindent; $self->pidl_code("}"); $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end($dissectorname); my $enum_size = $e->{BASE_TYPE}; $enum_size =~ s/uint//g; $self->register_type($name, "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);", "FT_UINT$enum_size", "BASE_DEC", "0", "VALS($valsstring)", $enum_size / 8); } sub Pipe($$$$) { my ($self,$e,$name,$ifname) = @_; error($e->{ORIGINAL}, "Pipe not yet supported"); return; } sub Bitmap($$$$) { my ($self,$e,$name,$ifname) = @_; my $dissectorname = "$ifname\_dissect\_bitmap\_".StripPrefixes($name, $self->{conformance}->{strip_prefixes}); my $element_count = 0; my $total_ev = 0; $self->register_ett("ett_$ifname\_$name"); $self->pidl_hdr("int $dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, uint32_t param _U_);"); $self->pidl_fn_start($dissectorname); $self->pidl_code("int"); $self->pidl_code("$dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *parent_tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, uint32_t param _U_)"); $self->pidl_code("{"); $self->indent; foreach (@{$e->{ELEMENTS}}) { next unless (/([^ ]*) (.*)/); $element_count++; } if ($element_count > 0) { $self->pidl_code("proto_item *item;"); $self->pidl_code("static int * const $ifname\_$name\_fields[] = {"); $self->indent; foreach (@{$e->{ELEMENTS}}) { next unless (/([^ ]*) (.*)/); my ($en,$ev) = ($1,$2); my $hf_bitname = "hf_$ifname\_$name\_$1"; $ev =~ s/[()\s]//g; if (hex($ev) != 0) { $total_ev += hex($ev); $self->pidl_code("&$hf_bitname,"); } } $self->pidl_code("NULL"); $self->deindent; $self->pidl_code("};"); } $self->pidl_code("g$e->{BASE_TYPE} flags;"); if ($e->{ALIGN} > 1) { $self->pidl_code("ALIGN_TO_$e->{ALIGN}_BYTES;"); } $self->pidl_code(""); if ($element_count > 0) { $self->pidl_code("item = proto_tree_add_bitmask_with_flags(parent_tree, tvb, offset, hf_index,"); $self->pidl_code("\t\t\tett_$ifname\_$name, $ifname\_$name\_fields, DREP_ENC_INTEGER(drep), BMT_NO_FALSE);"); $self->pidl_code(""); $self->pidl_code("offset = dissect_ndr_$e->{BASE_TYPE}(tvb, offset, pinfo, parent_tree, di, drep, -1, &flags);"); $self->pidl_code(""); $self->pidl_code("if (!flags)"); $self->pidl_code("\tproto_item_append_text(item, \": (No values set)\");\n"); } else { $self->pidl_code("proto_tree_add_item(parent_tree, hf_index, tvb, offset, $e->{ALIGN}, DREP_ENC_INTEGER(drep));"); $self->pidl_code(""); $self->pidl_code("offset = dissect_ndr_$e->{BASE_TYPE}(tvb, offset, pinfo, parent_tree, di, drep, -1, &flags);"); $self->pidl_code(""); } foreach (@{$e->{ELEMENTS}}) { next unless (/([^ ]*) (.*)/); my ($en,$ev) = ($1,$2); my $hf_bitname = "hf_$ifname\_$name\_$en"; my $filtername = "$ifname\.$name\.$en"; $self->{hf_used}->{$hf_bitname} = 1; $ev =~ s/[()\s]//g; if (hex($ev) != 0) { $self->register_hf_field($hf_bitname, field2name($en), $filtername, "FT_BOOLEAN", $e->{ALIGN} * 8, "TFS(&$name\_$en\_tfs)", "( $ev )", ""); $self->pidl_def("static const true_false_string $name\_$en\_tfs = {"); if (defined($self->{conformance}->{tfs}->{$hf_bitname})) { $self->pidl_def(" $self->{conformance}->{tfs}->{$hf_bitname}->{TRUE_STRING},"); $self->pidl_def(" $self->{conformance}->{tfs}->{$hf_bitname}->{FALSE_STRING},"); $self->{conformance}->{tfs}->{$hf_bitname}->{USED} = 1; } else { $self->pidl_def(" \"$en is SET\","); $self->pidl_def(" \"$en is NOT SET\","); } $self->pidl_def("};"); } } if ($element_count > 0) { my $total_ev_hex = sprintf("0x%08x", $total_ev); $self->pidl_code("if (flags & (~$total_ev_hex)) {"); $self->pidl_code("\tflags &= (~$total_ev_hex);"); $self->pidl_code("\tproto_item_append_text(item, \"Unknown bitmap value 0x%x\", flags);"); $self->pidl_code("}\n"); } $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end($dissectorname); my $size = $e->{BASE_TYPE}; $size =~ s/uint//g; $self->register_type($name, "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);", "FT_UINT$size", "BASE_HEX", "0", "NULL", $size/8); } sub ElementLevel($$$$$$$$) { my ($self,$e,$l,$hf,$myname,$pn,$ifname,$param) = @_; if (defined($self->{conformance}->{dissectorparams}->{$myname})) { $param = $self->{conformance}->{dissectorparams}->{$myname}->{PARAM}; } if ($l->{TYPE} eq "POINTER") { my $type; if ($l->{LEVEL} eq "TOP") { $type = "toplevel"; } elsif ($l->{LEVEL} eq "EMBEDDED") { $type = "embedded"; } $self->pidl_code("offset = dissect_ndr_$type\_pointer(tvb, offset, pinfo, tree, di, drep, $myname\_, $ptrtype_mappings{$l->{POINTER_TYPE}}, \"Pointer to ".field2name(StripPrefixes($e->{NAME}, $self->{conformance}->{strip_prefixes})) . " ($e->{TYPE})\",$hf);"); } elsif ($l->{TYPE} eq "ARRAY") { if ($l->{IS_INLINE}) { error($e->{ORIGINAL}, "Inline arrays not supported"); } elsif ($l->{IS_FIXED}) { $self->pidl_code("int i;"); $self->pidl_code("for (i = 0; i < $l->{SIZE_IS}; i++)"); $self->pidl_code("\toffset = $myname\_(tvb, offset, pinfo, tree, di, drep);"); } else { my $type = ""; $type .= "c" if ($l->{IS_CONFORMANT}); $type .= "v" if ($l->{IS_VARYING}); unless ($l->{IS_ZERO_TERMINATED}) { $self->pidl_code("offset = dissect_ndr_u" . $type . "array(tvb, offset, pinfo, tree, di, drep, $myname\_);"); } else { my $nl = GetNextLevel($e,$l); my $nl_ctype = mapScalarType($nl->{DATA_TYPE}); $self->pidl_code("char *data;"); $self->pidl_code(""); $self->pidl_code("offset = dissect_ndr_$type" . "string(tvb, offset, pinfo, tree, di, drep, sizeof($nl_ctype), $hf, false, &data);"); $self->pidl_code("proto_item_append_text(tree, \": %s\", data);"); } } } elsif ($l->{TYPE} eq "DATA") { if ($l->{DATA_TYPE} eq "string") { my $bs = 2; # Byte size defaults to that of UCS2 ($bs = 1) if (property_matches($e, "flag", ".*LIBNDR_FLAG_STR_ASCII.*")); if (property_matches($e, "flag", ".*LIBNDR_FLAG_STR_SIZE4.*") and property_matches($e, "flag", ".*LIBNDR_FLAG_STR_LEN4.*")) { $self->pidl_code("char *data;\n"); $self->pidl_code("offset = dissect_ndr_cvstring(tvb, offset, pinfo, tree, di, drep, $bs, $hf, false, &data);"); $self->pidl_code("proto_item_append_text(tree, \": %s\", data);"); } elsif (property_matches($e, "flag", ".*LIBNDR_FLAG_STR_SIZE4.*")) { $self->pidl_code("offset = dissect_ndr_vstring(tvb, offset, pinfo, tree, di, drep, $bs, $hf, false, NULL);"); } elsif (property_matches($e, "flag", ".*STR_NULLTERM.*")) { if ($bs == 2) { $self->pidl_code("offset = dissect_null_term_wstring(tvb, offset, pinfo, tree, drep, $hf , 0);") } else { $self->pidl_code("offset = dissect_null_term_string(tvb, offset, pinfo, tree, drep, $hf , 0);") } } else { warn("Unable to handle string with flags $e->{PROPERTIES}->{flag}"); } } elsif ($l->{DATA_TYPE} eq "DATA_BLOB") { my $remain = 0; $remain = 1 if (property_matches($e->{ORIGINAL}, "flag", ".*LIBNDR_FLAG_REMAINING.*")); $self->pidl_code("offset = dissect_ndr_datablob(tvb, offset, pinfo, tree, di, drep, $hf, $remain);"); } else { my $call; if ($self->{conformance}->{imports}->{$l->{DATA_TYPE}}) { $call = $self->{conformance}->{imports}->{$l->{DATA_TYPE}}->{DATA}; $self->{conformance}->{imports}->{$l->{DATA_TYPE}}->{USED} = 1; } elsif (defined($self->{conformance}->{imports}->{"$pn.$e->{NAME}"})) { $call = $self->{conformance}->{imports}->{"$pn.$e->{NAME}"}->{DATA}; $self->{conformance}->{imports}->{"$pn.$e->{NAME}"}->{USED} = 1; } elsif (defined($self->{conformance}->{types}->{$l->{DATA_TYPE}})) { $call= $self->{conformance}->{types}->{$l->{DATA_TYPE}}->{DISSECTOR_NAME}; $self->{conformance}->{types}->{$l->{DATA_TYPE}}->{USED} = 1; } else { my $t; if (ref($l->{DATA_TYPE}) eq "HASH" ) { $t = "$l->{DATA_TYPE}->{TYPE}_$l->{DATA_TYPE}->{NAME}"; } else { $t = $l->{DATA_TYPE}; } $self->pidl_code("offset = $ifname\_dissect_struct_" . $t . "(tvb,offset,pinfo,tree,di,drep,$hf,$param);"); return; } $call =~ s/\@HF\@/$hf/g; $call =~ s/\@PARAM\@/$param/g; $self->pidl_code($call); } } elsif ($_->{TYPE} eq "SUBCONTEXT") { my $varswitch; if (has_property($e, "switch_is")) { $varswitch = $e->{PROPERTIES}->{switch_is}; } my $num_bits = ($l->{HEADER_SIZE}*8); my $hf2 = $self->register_hf_field($hf."_", "Subcontext length", "$ifname.$pn.$_->{NAME}subcontext", "FT_UINT$num_bits", "BASE_HEX", "NULL", 0, ""); $num_bits = 3264 if ($num_bits == 32); $self->{hf_used}->{$hf2} = 1; $self->pidl_code("guint$num_bits size;"); $self->pidl_code("int conformant = di->conformant_run;"); $self->pidl_code("tvbuff_t *subtvb;"); $self->pidl_code(""); # We need to be able to dissect the length of the context in every case # and conformant run skips the dissections of scalars ... $self->pidl_code("if (!conformant) {"); $self->indent; $self->pidl_code("guint32 saved_flags = di->call_data->flags;"); $self->pidl_code("offset = dissect_ndr_uint$num_bits(tvb, offset, pinfo, tree, di, drep, $hf2, &size);"); # This is a subcontext, there is normally no such thing as # 64 bit NDR is subcontext so we clear the flag so that we can # continue to dissect handmarshalled stuff with pidl $self->pidl_code("di->call_data->flags &= ~DCERPC_IS_NDR64;"); $self->pidl_code("subtvb = tvb_new_subset_length_caplen(tvb, offset, (const int)size, -1);"); if ($param ne 0) { $self->pidl_code("$myname\_(subtvb, 0, pinfo, tree, di, drep, $param);"); } else { $self->pidl_code("$myname\_(subtvb, 0, pinfo, tree, di, drep);"); } $self->pidl_code("offset += (int)size;"); $self->pidl_code("di->call_data->flags = saved_flags;"); $self->deindent; $self->pidl_code("}"); } elsif ($_->{TYPE} eq "PIPE") { error($e->{ORIGINAL}, "Type PIPE not yet supported"); } else { die("Unknown type `$_->{TYPE}'"); } } sub SwitchType($$;$) { my ($e, $type, $nodiscriminant) = @_; my $switch_dt = getType($type); my $switch_type = undef; if ($switch_dt->{DATA}->{TYPE} eq "ENUM") { $switch_type = Parse::Pidl::Typelist::enum_type_fn($switch_dt->{DATA}); } elsif ($switch_dt->{DATA}->{TYPE} eq "BITMAP") { $switch_type = Parse::Pidl::Typelist::bitmap_type_fn($switch_dt->{DATA}); } elsif ($switch_dt->{DATA}->{TYPE} eq "SCALAR") { if (defined $e->{SWITCH_TYPE}) { $switch_type = "$e->{SWITCH_TYPE}"; } else { $switch_type = "$switch_dt->{DATA}->{NAME}"; } } elsif (not defined $e->{SWITCH_TYPE}) { $switch_type = $nodiscriminant; } return $switch_type } sub Element($$$$$$) { my ($self,$e,$pn,$ifname,$isoruseswitch,%switchvars) = @_; my $dissectorname = "$ifname\_dissect\_element\_".StripPrefixes($pn, $self->{conformance}->{strip_prefixes})."\_".StripPrefixes($e->{NAME}, $self->{conformance}->{strip_prefixes}); my ($call_code, $moreparam); my $param = 0; if (defined $isoruseswitch) { my $type = $isoruseswitch->[0]; my $name = $isoruseswitch->[1]; my $switch_dt = getType($type); my $switch_raw_type = SwitchType($e, $type, "uint32"); if (not defined($switch_raw_type)) { die("Unknown type[$type]\n"); } my $switch_type = "g${switch_raw_type}"; if ($name ne "") { $moreparam = ", $switch_type *".$name; } else { $moreparam = ""; } if (($e->{PROPERTIES}->{switch_is} eq "") && ($switchvars{$name}) && #not a "native" type (!($type =~ /^uint(8|16|1632|32|3264|64)/))) { $param = $name; } elsif ( $switch_dt->{DATA}->{TYPE} eq "ENUM") { $param = $name; } elsif ($name ne "") { $param = "*".$name; } if ($name ne "") { $call_code = "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep, &$name);"; } else { $call_code = "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep);"; } } else { $moreparam = ""; $call_code = "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep);"; } my $type = $self->find_type($e->{TYPE}); if (not defined($type)) { # default settings $type = { MASK => 0, VALSSTRING => "NULL", FT_TYPE => "FT_NONE", BASE_TYPE => "BASE_NONE" }; } if (ContainsString($e)) { $type = { MASK => 0, VALSSTRING => "NULL", FT_TYPE => "FT_STRING", BASE_TYPE => "BASE_NONE" }; } if (property_matches($e, "flag", ".*LIBNDR_FLAG_ALIGN.*")) { my $align_flag = $e->{PROPERTIES}->{flag}; if ($align_flag =~ m/LIBNDR_FLAG_ALIGN(\d+)/) { $call_code = "ALIGN_TO_$1_BYTES; ".$call_code; } } my $hf = $self->register_hf_field("hf_$ifname\_$pn\_$e->{NAME}", field2name($e->{NAME}), "$ifname.$pn.$e->{NAME}", $type->{FT_TYPE}, $type->{BASE_TYPE}, $type->{VALSSTRING}, $type->{MASK}, ""); $self->{hf_used}->{$hf} = 1; my $eltname = StripPrefixes($pn, $self->{conformance}->{strip_prefixes}) . ".$e->{NAME}"; if (defined($self->{conformance}->{noemit}->{$eltname})) { return $call_code; } my $add = ""; my $oldparam = undef; foreach (@{$e->{LEVELS}}) { if (defined $_->{SWITCH_IS}) { $oldparam = $param; if (($param ne "0") && (!($param =~ /\*/))) { $param = "*$param"; } } next if ($_->{TYPE} eq "SWITCH"); next if (defined($self->{conformance}->{noemit}->{"$dissectorname$add"})); $self->pidl_def("static int $dissectorname$add(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_$moreparam);"); $self->pidl_fn_start("$dissectorname$add"); $self->pidl_code("static int"); $self->pidl_code("$dissectorname$add(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_$moreparam)"); $self->pidl_code("{"); $self->indent; $self->ElementLevel($e,$_,$hf,$dissectorname.$add,$pn,$ifname,$param); if (defined $oldparam) { $param = $oldparam; } $self->pidl_code(""); $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end("$dissectorname$add"); $add.="_"; last if ($_->{TYPE} eq "ARRAY" and $_->{IS_ZERO_TERMINATED}); } return $call_code; } sub Function($$$) { my ($self, $fn,$ifname) = @_; my %dissectornames; foreach (@{$fn->{ELEMENTS}}) { $dissectornames{$_->{NAME}} = $self->Element($_, $fn->{NAME}, $ifname, undef, ()) if not defined($dissectornames{$_->{NAME}}); } my $fn_name = $_->{NAME}; $fn_name =~ s/^${ifname}_//; $self->PrintIdl(DumpFunction($fn->{ORIGINAL})); $self->pidl_fn_start("$ifname\_dissect\_$fn_name\_response"); $self->pidl_code("static int"); $self->pidl_code("$ifname\_dissect\_${fn_name}_response(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_)"); $self->pidl_code("{"); $self->indent; if ( not defined($fn->{RETURN_TYPE})) { } elsif ($fn->{RETURN_TYPE} eq "NTSTATUS" or $fn->{RETURN_TYPE} eq "WERROR" or $fn->{RETURN_TYPE} eq "HRESULT") { $self->pidl_code("guint32 status;\n"); } elsif (my $type = getType($fn->{RETURN_TYPE})) { if ($type->{DATA}->{TYPE} eq "ENUM") { $self->pidl_code("g".Parse::Pidl::Typelist::enum_type_fn($type->{DATA}) . " status;\n"); } elsif ($type->{DATA}->{TYPE} eq "SCALAR") { $self->pidl_code("g$fn->{RETURN_TYPE} status;\n"); } else { error($fn, "return type `$fn->{RETURN_TYPE}' not yet supported"); } } else { error($fn, "unknown return type `$fn->{RETURN_TYPE}'"); } $self->pidl_code("di->dcerpc_procedure_name=\"${fn_name}\";"); foreach (@{$fn->{ELEMENTS}}) { if (grep(/out/,@{$_->{DIRECTION}})) { $self->pidl_code("$dissectornames{$_->{NAME}}"); $self->pidl_code("offset = dissect_deferred_pointers(pinfo, tvb, offset, di, drep);"); $self->pidl_code(""); } } if (not defined($fn->{RETURN_TYPE})) { } elsif ($fn->{RETURN_TYPE} eq "NTSTATUS") { $self->pidl_code("offset = dissect_ntstatus(tvb, offset, pinfo, tree, di, drep, hf\_$ifname\_status, &status);\n"); $self->pidl_code("if (status != 0)"); $self->pidl_code("\tcol_append_fstr(pinfo->cinfo, COL_INFO, \", Error: %s\", val_to_str(status, NT_errors, \"Unknown NT status 0x%08x\"));\n"); $return_types{$ifname}->{"status"} = ["NTSTATUS", "NT Error"]; } elsif ($fn->{RETURN_TYPE} eq "WERROR") { $self->pidl_code("offset = dissect_ndr_uint32(tvb, offset, pinfo, tree, di, drep, hf\_$ifname\_werror, &status);\n"); $self->pidl_code("if (status != 0)"); $self->pidl_code("\tcol_append_fstr(pinfo->cinfo, COL_INFO, \", Error: %s\", val_to_str(status, WERR_errors, \"Unknown DOS error 0x%08x\"));\n"); $return_types{$ifname}->{"werror"} = ["WERROR", "Windows Error"]; } elsif ($fn->{RETURN_TYPE} eq "HRESULT") { $self->pidl_code("offset = dissect_ndr_uint32(tvb, offset, pinfo, tree, di, drep, hf\_$ifname\_hresult, &status);\n"); $self->pidl_code("if (status != 0)"); $self->pidl_code("\tcol_append_fstr(pinfo->cinfo, COL_INFO, \", Error: %s\", val_to_str(status, HRES_errors, \"Unknown HRES error 0x%08x\"));\n"); $return_types{$ifname}->{"hresult"} = ["HRESULT", "HRES Windows Error"]; } elsif (my $type = getType($fn->{RETURN_TYPE})) { if ($type->{DATA}->{TYPE} eq "ENUM") { my $return_type = "g".Parse::Pidl::Typelist::enum_type_fn($type->{DATA}); my $return_dissect = "dissect_ndr_" .Parse::Pidl::Typelist::enum_type_fn($type->{DATA}); $self->pidl_code("offset = $return_dissect(tvb, offset, pinfo, tree, di, drep, hf\_$ifname\_$fn->{RETURN_TYPE}_status, &status);"); $self->pidl_code("if (status != 0)"); $self->pidl_code("\tcol_append_fstr(pinfo->cinfo, COL_INFO, \", Status: %s\", val_to_str(status, $ifname\_$fn->{RETURN_TYPE}\_vals, \"Unknown " . $fn->{RETURN_TYPE} . " error 0x%08x\"));\n"); $return_types{$ifname}->{$fn->{RETURN_TYPE}."_status"} = [$fn->{RETURN_TYPE}, $fn->{RETURN_TYPE}]; } elsif ($type->{DATA}->{TYPE} eq "SCALAR") { $self->pidl_code("offset = dissect_ndr_$fn->{RETURN_TYPE}(tvb, offset, pinfo, tree, di, drep, hf\_$ifname\_$fn->{RETURN_TYPE}_status, &status);"); $self->pidl_code("if (status != 0)"); $self->pidl_code("\tcol_append_fstr(pinfo->cinfo, COL_INFO, \", Status: %d\", status);\n"); $return_types{$ifname}->{$fn->{RETURN_TYPE}."_status"} = [$fn->{RETURN_TYPE}, $fn->{RETURN_TYPE}]; } } $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end("$ifname\_dissect\_$fn_name\_response"); $self->pidl_fn_start("$ifname\_dissect\_$fn_name\_request"); $self->pidl_code("static int"); $self->pidl_code("$ifname\_dissect\_${fn_name}_request(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_)"); $self->pidl_code("{"); $self->indent; $self->pidl_code("di->dcerpc_procedure_name=\"${fn_name}\";"); foreach (@{$fn->{ELEMENTS}}) { if (grep(/in/,@{$_->{DIRECTION}})) { $self->pidl_code("$dissectornames{$_->{NAME}}"); $self->pidl_code("offset = dissect_deferred_pointers(pinfo, tvb, offset, di, drep);"); } } $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end("$ifname\_dissect\_$fn_name\_request"); } sub Struct($$$$) { my ($self,$e,$name,$ifname) = @_; my $dissectorname = "$ifname\_dissect\_struct\_".StripPrefixes($name, $self->{conformance}->{strip_prefixes}); return if (defined($self->{conformance}->{noemit}->{StripPrefixes($name, $self->{conformance}->{strip_prefixes})})); $self->register_ett("ett_$ifname\_$name"); my $res = ""; my $varswitchs = {}; # will contain the switch var declaration; my $vars = []; my %switch_hash; foreach (@{$e->{ELEMENTS}}) { if (has_property($_, "switch_is")) { $varswitchs->{$_->{PROPERTIES}->{switch_is}} = []; $switch_hash{ $_->{PROPERTIES}->{switch_is}} = $_->{PROPERTIES}->{switch_is}; } } foreach (@{$e->{ELEMENTS}}) { my $switch_info = undef; my $v = $_->{NAME}; if (scalar(grep {/^$v$/} keys(%$varswitchs)) == 1) { # This element is one of the switch attribute my $switch_raw_type = SwitchType($e, $_->{TYPE}, "uint32"); if (not defined($switch_raw_type)) { die("Unknown type[$_->{TYPE}]\n"); } my $switch_type = "g${switch_raw_type}"; if ($switch_type ne "") { push @$vars, "$switch_type $v = 0;"; } $switch_info = [ $_->{TYPE}, $v ]; $varswitchs->{$v} = $switch_info; } if (has_property($_, "switch_is")) { my $varswitch = $_->{PROPERTIES}->{switch_is}; $switch_info = $varswitchs->{$varswitch}; } $res.="\t".$self->Element($_, $name, $ifname, $switch_info, %switch_hash)."\n\n"; } my $doalign = undef; if ($e->{ALIGN} > 1 and not property_matches($e, "flag", ".*LIBNDR_FLAG_NOALIGN.*")) { $doalign = 1; } elsif (property_matches($e, "flag", ".*LIBNDR_FLAG_NOALIGN.*")) { $doalign = 0; } $self->pidl_hdr("int $dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *parent_tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, uint32_t param _U_);"); $self->pidl_fn_start($dissectorname); $self->pidl_code("int"); $self->pidl_code("$dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *parent_tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, uint32_t param _U_)"); $self->pidl_code("{"); $self->indent; $self->pidl_code($_) foreach (@$vars); $self->pidl_code("proto_item *item = NULL;"); if($res) { $self->pidl_code("proto_tree *tree = NULL;"); } if (defined($doalign) and $doalign == 0) { $self->pidl_code("bool oldalign = di->no_align;"); } $self->pidl_code("int old_offset;"); $self->pidl_code(""); if (defined($doalign)) { if ($doalign == 1) { $self->pidl_code("ALIGN_TO_$e->{ALIGN}_BYTES;"); } if ($doalign == 0) { $self->pidl_code("di->no_align = true;"); } $self->pidl_code(""); } $self->pidl_code("old_offset = offset;"); $self->pidl_code(""); $self->pidl_code("if (parent_tree) {"); $self->indent; $self->pidl_code("item = proto_tree_add_item(parent_tree, hf_index, tvb, offset, -1, ENC_NA);"); if($res) { $self->pidl_code("tree = proto_item_add_subtree(item, ett_$ifname\_$name);"); } $self->deindent; $self->pidl_code("}"); $self->pidl_code(""); $self->deindent; $self->pidl_code("$res"); $self->indent; $self->pidl_code("proto_item_set_len(item, offset-old_offset);\n"); if (defined($doalign) and $doalign == 1) { $self->pidl_code(""); $self->pidl_code("if (di->call_data->flags & DCERPC_IS_NDR64) {"); $self->indent; $self->pidl_code("ALIGN_TO_$e->{ALIGN}_BYTES;"); $self->deindent; $self->pidl_code("}"); } if (defined($doalign) and $doalign == 0) { $self->pidl_code(""); $self->pidl_code("di->no_align = oldalign;"); } $self->pidl_code(""); $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end($dissectorname); $self->register_type($name, "offset = $dissectorname(tvb,offset,pinfo,tree,di,drep,\@HF\@,\@PARAM\@);", "FT_NONE", "BASE_NONE", 0, "NULL", 0); } sub Union($$$$) { my ($self,$e,$name,$ifname) = @_; my $dissectorname = "$ifname\_dissect_".StripPrefixes($name, $self->{conformance}->{strip_prefixes}); return if (defined($self->{conformance}->{noemit}->{StripPrefixes($name, $self->{conformance}->{strip_prefixes})})); $self->register_ett("ett_$ifname\_$name"); my $res = ""; foreach (@{$e->{ELEMENTS}}) { $res.="\n\t\t$_->{CASE}:\n"; if ($_->{TYPE} ne "EMPTY") { $res.="\t\t\t".$self->Element($_, $name, $ifname, undef, ())."\n"; } $res.="\t\tbreak;\n"; } my $switch_type = undef; my $switch_dissect = undef; my $switch_raw_type = SwitchType($e, $e->{SWITCH_TYPE}); if (defined($switch_raw_type)) { $switch_type = "g${switch_raw_type}"; $switch_dissect = "dissect_ndr_${switch_raw_type}"; } $self->pidl_fn_start($dissectorname); $self->pidl_code("static int"); $self->pidl_code("$dissectorname(tvbuff_t *tvb _U_, int offset _U_, packet_info *pinfo _U_, proto_tree *parent_tree _U_, dcerpc_info* di _U_, uint8_t *drep _U_, int hf_index _U_, uint32_t param _U_)"); $self->pidl_code("{"); $self->indent; $self->pidl_code("proto_item *item = NULL;"); $self->pidl_code("proto_tree *tree = NULL;"); $self->pidl_code("int old_offset;"); if (!defined $switch_type) { $self->pidl_code("guint32 level = param;"); } else { $self->pidl_code("$switch_type level;"); } $self->pidl_code(""); $self->pidl_code("old_offset = offset;"); $self->pidl_code("if (parent_tree) {"); $self->indent; $self->pidl_code("tree = proto_tree_add_subtree(parent_tree, tvb, offset, -1, ett_$ifname\_$name, &item, \"$name\");"); $self->deindent; $self->pidl_code("}"); $self->pidl_code(""); if (defined $switch_type) { $self->pidl_code("offset = $switch_dissect(tvb, offset, pinfo, tree, di, drep, hf_index, &level);"); if ($e->{ALIGN} > 1) { $self->pidl_code("ALIGN_TO_$e->{ALIGN}_BYTES;"); $self->pidl_code(""); } } $self->pidl_code("switch(level) {$res\t}"); $self->pidl_code("proto_item_set_len(item, offset-old_offset);\n"); $self->pidl_code(""); $self->pidl_code("return offset;"); $self->deindent; $self->pidl_code("}"); $self->pidl_fn_end($dissectorname); $self->register_type($name, "offset = $dissectorname(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);", "FT_NONE", "BASE_NONE", 0, "NULL", 0); } sub Const($$$) { my ($self,$const,$ifname) = @_; if (!defined($const->{ARRAY_LEN}[0])) { $self->pidl_hdr("#define $const->{NAME}\t( $const->{VALUE} )\n"); } else { $self->pidl_hdr("#define $const->{NAME}\t $const->{VALUE}\n"); } } sub Typedef($$$$) { my ($self,$e,$name,$ifname) = @_; $self->Type($e->{DATA}, $name, $ifname); } sub Type($$$$) { my ($self, $e, $name, $ifname) = @_; $self->PrintIdl(DumpType($e->{ORIGINAL})); { ENUM => \&Enum, STRUCT => \&Struct, UNION => \&Union, BITMAP => \&Bitmap, TYPEDEF => \&Typedef, PIPE => \&Pipe }->{$e->{TYPE}}->($self, $e, $name, $ifname); } sub RegisterInterface($$) { my ($self, $x) = @_; $self->pidl_fn_start("proto_register_dcerpc_$x->{NAME}"); $self->pidl_code("void proto_register_dcerpc_$x->{NAME}(void)"); $self->pidl_code("{"); $self->indent; $self->{res}->{headers} .= "void proto_register_dcerpc_$x->{NAME}(void);\n"; $self->{res}->{code}.=$self->DumpHfList()."\n"; $self->{res}->{code}.="\n".DumpEttList($self->{ett})."\n"; if (defined($x->{UUID})) { # These can be changed to non-pidl_code names if the old # dissectors in epan/dissectors are deleted. my $name = uc($x->{NAME}) . " (pidl)"; my $short_name = uc($x->{NAME}); my $filter_name = $x->{NAME}; if (has_property($x, "helpstring")) { $name = $x->{PROPERTIES}->{helpstring}; } if (defined($self->{conformance}->{protocols}->{$x->{NAME}})) { $short_name = $self->{conformance}->{protocols}->{$x->{NAME}}->{SHORTNAME}; $name = $self->{conformance}->{protocols}->{$x->{NAME}}->{LONGNAME}; $filter_name = $self->{conformance}->{protocols}->{$x->{NAME}}->{FILTERNAME}; } $self->pidl_code("proto_dcerpc_$x->{NAME} = proto_register_protocol(".make_str($name).", ".make_str($short_name).", ".make_str($filter_name).");"); $self->pidl_code("proto_register_field_array(proto_dcerpc_$x->{NAME}, hf, array_length (hf));"); $self->pidl_code("proto_register_subtree_array(ett, array_length(ett));"); } else { $self->pidl_code("proto_dcerpc = proto_get_id_by_filter_name(\"dcerpc\");"); $self->pidl_code("proto_register_field_array(proto_dcerpc, hf, array_length(hf));"); $self->pidl_code("proto_register_subtree_array(ett, array_length(ett));"); } $self->deindent; $self->pidl_code("}\n"); $self->pidl_fn_end("proto_register_dcerpc_$x->{NAME}"); } sub RegisterInterfaceHandoff($$) { my ($self,$x) = @_; if (defined($x->{UUID})) { $self->pidl_fn_start("proto_reg_handoff_dcerpc_$x->{NAME}"); $self->pidl_code("void proto_reg_handoff_dcerpc_$x->{NAME}(void)"); $self->pidl_code("{"); $self->indent; $self->pidl_code("dcerpc_init_uuid(proto_dcerpc_$x->{NAME}, ett_dcerpc_$x->{NAME},"); $self->pidl_code("\t&uuid_dcerpc_$x->{NAME}, ver_dcerpc_$x->{NAME},"); $self->pidl_code("\t$x->{NAME}_dissectors, hf_$x->{NAME}_opnum);"); $self->deindent; $self->pidl_code("}"); $self->pidl_fn_end("proto_reg_handoff_dcerpc_$x->{NAME}"); $self->{res}->{headers} .= "void proto_reg_handoff_dcerpc_$x->{NAME}(void);\n"; $self->{hf_used}->{"hf_$x->{NAME}_opnum"} = 1; } } sub ProcessInclude { my $self = shift; my @includes = @_; foreach (@includes) { $self->pidl_hdr("#include \"$_\""); } $self->pidl_hdr(""); } sub ProcessImport { my $self = shift; my @imports = @_; foreach (@imports) { next if($_ eq "security"); s/^\"//; s/\.idl"?$//; $self->pidl_hdr("#include \"packet-dcerpc-$_\.h\""); } $self->pidl_hdr(""); } sub ProcessInterface($$) { my ($self, $x) = @_; push(@{$self->{conformance}->{strip_prefixes}}, $x->{NAME}); my $define = "__PACKET_DCERPC_" . uc($_->{NAME}) . "_H"; $self->pidl_hdr("#ifndef $define"); $self->pidl_hdr("#define $define"); $self->pidl_hdr(""); $self->pidl_def("static int proto_dcerpc_$x->{NAME};"); $self->register_ett("ett_dcerpc_$x->{NAME}"); $self->register_hf_field("hf_$x->{NAME}_opnum", "Operation", "$x->{NAME}.opnum", "FT_UINT16", "BASE_DEC", "NULL", 0, ""); if (defined($x->{UUID})) { my $if_uuid = $x->{UUID}; $self->pidl_def("/* Version information */\n\n"); $self->pidl_def("static e_guid_t uuid_dcerpc_$x->{NAME} = {"); $self->pidl_def("\t0x" . substr($if_uuid, 1, 8) . ", 0x" . substr($if_uuid, 10, 4) . ", 0x" . substr($if_uuid, 15, 4) . ","); $self->pidl_def("\t{ 0x" . substr($if_uuid, 20, 2) . ", 0x" . substr($if_uuid, 22, 2) . ", 0x" . substr($if_uuid, 25, 2) . ", 0x" . substr($if_uuid, 27, 2) . ", 0x" . substr($if_uuid, 29, 2) . ", 0x" . substr($if_uuid, 31, 2) . ", 0x" . substr($if_uuid, 33, 2) . ", 0x" . substr($if_uuid, 35, 2) . " }"); $self->pidl_def("};"); my $maj = 0x0000FFFF & $x->{VERSION}; $maj =~ s/\.(.*)$//g; $self->pidl_def("static uint16_t ver_dcerpc_$x->{NAME} = $maj;"); $self->pidl_def(""); } $return_types{$x->{NAME}} = {}; $self->Interface($x); $self->pidl_code("\n".DumpFunctionTable($x)); foreach (sort(keys %{$return_types{$x->{NAME}}})) { my ($type, $desc) = @{$return_types{$x->{NAME}}->{$_}}; my $dt = $self->find_type($type); $dt or die("Unable to find information about return type `$type'"); $self->register_hf_field("hf_$x->{NAME}_$_", $desc, "$x->{NAME}.$_", $dt->{FT_TYPE}, "BASE_HEX", $dt->{VALSSTRING}, 0, ""); $self->{hf_used}->{"hf_$x->{NAME}_$_"} = 1; } $self->RegisterInterface($x); $self->RegisterInterfaceHandoff($x); if (exists ($self->{conformance}->{header})) { $self->pidl_hdr($self->{conformance}->{header}); } $self->pidl_hdr("#endif /* $define */"); } sub find_type($$) { my ($self, $n) = @_; return $self->{conformance}->{types}->{$n}; } sub register_type($$$$$$$$) { my ($self, $type,$call,$ft,$base,$mask,$vals,$length) = @_; return if (defined($self->{conformance}->{types}->{$type})); $self->{conformance}->{types}->{$type} = { NAME => $type, DISSECTOR_NAME => $call, FT_TYPE => $ft, BASE_TYPE => $base, MASK => $mask, VALSSTRING => $vals, ALIGNMENT => $length }; } # Loads the default types sub Initialize($$) { my ($self, $cnf_file) = @_; $self->{conformance} = { imports => {}, header_fields=> {} }; ReadConformance($cnf_file, $self->{conformance}) or print STDERR "warning: No conformance file `$cnf_file'\n"; foreach my $bytes (qw(1 2 4 8)) { my $bits = $bytes * 8; $self->register_type("uint$bits", "offset = PIDL_dissect_uint$bits(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);", "FT_UINT$bits", "BASE_DEC", 0, "NULL", $bytes); $self->register_type("int$bits", "offset = PIDL_dissect_uint$bits(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);", "FT_INT$bits", "BASE_DEC", 0, "NULL", $bytes); } $self->register_type("uint3264", "offset = dissect_ndr_uint3264(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);", "FT_UINT32", "BASE_DEC", 0, "NULL", 8); $self->register_type("hyper", "offset = dissect_ndr_uint64(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);", "FT_UINT64", "BASE_DEC", 0, "NULL", 8); $self->register_type("int64", "offset = dissect_ndr_uint64(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);", "FT_INT64", "BASE_DEC", 0, "NULL", 8); $self->register_type("udlong", "offset = dissect_ndr_duint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);", "FT_UINT64", "BASE_DEC", 0, "NULL", 4); $self->register_type("bool8", "offset = PIDL_dissect_uint8(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_INT8", "BASE_DEC", 0, "NULL", 1); $self->register_type("char", "offset = PIDL_dissect_uint8(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_INT8", "BASE_DEC", 0, "NULL", 1); $self->register_type("long", "offset = PIDL_dissect_uint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_INT32", "BASE_DEC", 0, "NULL", 4); $self->register_type("dlong", "offset = dissect_ndr_duint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);","FT_INT64", "BASE_DEC", 0, "NULL", 8); $self->register_type("GUID", "offset = dissect_ndr_uuid_t(tvb, offset, pinfo, tree, di, drep, \@HF\@, NULL);","FT_GUID", "BASE_NONE", 0, "NULL", 4); $self->register_type("policy_handle", "offset = PIDL_dissect_policy_hnd(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_BYTES", "BASE_NONE", 0, "NULL", 4); $self->register_type("NTTIME", "offset = dissect_ndr_nt_NTTIME(tvb, offset, pinfo, tree, di, drep, \@HF\@);","FT_ABSOLUTE_TIME", "ABSOLUTE_TIME_LOCAL", 0, "NULL", 4); $self->register_type("NTTIME_hyper", "offset = dissect_ndr_nt_NTTIME(tvb, offset, pinfo, tree, di, drep, \@HF\@);","FT_ABSOLUTE_TIME", "ABSOLUTE_TIME_LOCAL", 0, "NULL", 4); $self->register_type("time_t", "offset = dissect_ndr_time_t(tvb, offset, pinfo,tree, di, drep, \@HF\@, NULL);","FT_ABSOLUTE_TIME", "ABSOLUTE_TIME_LOCAL", 0, "NULL", 4); $self->register_type("NTTIME_1sec", "offset = dissect_ndr_nt_NTTIME(tvb, offset, pinfo, tree, di, drep, \@HF\@);", "FT_ABSOLUTE_TIME", "ABSOLUTE_TIME_LOCAL", 0, "NULL", 4); $self->register_type("dom_sid28", "offset = dissect_ndr_nt_SID28(tvb, offset, pinfo, tree, di, drep, \@HF\@);", "FT_STRING", "BASE_NONE", 0, "NULL", 4); $self->register_type("SID", "offset = dissect_ndr_nt_SID_with_options(tvb, offset, pinfo, tree, di, drep, param, \@HF\@);","FT_STRING", "BASE_NONE", 0, "NULL", 4); $self->register_type("WERROR", "offset = PIDL_dissect_uint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_UINT32", "BASE_DEC", 0, "VALS(WERR_errors)", 4); $self->register_type("NTSTATUS", "offset = PIDL_dissect_uint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_UINT32", "BASE_DEC", 0, "VALS(NT_errors)", 4); $self->register_type("HRESULT", "offset = PIDL_dissect_uint32(tvb, offset, pinfo, tree, di, drep, \@HF\@, \@PARAM\@);","FT_UINT32", "BASE_DEC", 0, "VALS(HRES_errors)", 4); $self->register_type("ipv6address", "proto_tree_add_item(tree, \@HF\@, tvb, offset, 16, ENC_NA); offset += 16;", "FT_IPv6", "BASE_NONE", 0, "NULL", 16); $self->register_type("ipv4address", "proto_tree_add_item(tree, \@HF\@, tvb, offset, 4, ENC_BIG_ENDIAN); offset += 4;", "FT_IPv4", "BASE_NONE", 0, "NULL", 4); } ##################################################################### # Generate Wireshark parser and header code sub Parse($$$$$) { my($self,$ndr,$idl_file,$h_filename,$cnf_file) = @_; $self->Initialize($cnf_file); return (undef, undef) if defined($self->{conformance}->{noemit_dissector}); my $notice = "/* DO NOT EDIT This file was automatically generated by Pidl from $idl_file and $cnf_file. Pidl is a perl based IDL compiler for DCE/RPC idl files. It is maintained by the Samba team, not the Wireshark team. Instructions on how to download and install Pidl can be found at https://wiki.wireshark.org/Pidl */ "; $self->{res}->{headers} = "\n"; $self->{res}->{headers} .= "#include \"config.h\"\n"; $self->{res}->{headers} .= "#include \n"; $self->{res}->{headers} .= "#include \n"; $self->{res}->{headers} .= "#include \n\n"; $self->{res}->{headers} .= "#include \"packet-dcerpc.h\"\n"; $self->{res}->{headers} .= "#include \"packet-dcerpc-nt.h\"\n"; $self->{res}->{headers} .= "#include \"packet-windows-common.h\"\n"; my $h_basename = basename($h_filename); $self->{res}->{headers} .= "#include \"$h_basename\"\n"; $self->pidl_code(""); if (defined($self->{conformance}->{ett})) { register_ett($self,$_) foreach(@{$self->{conformance}->{ett}}) } # Wireshark protocol registration foreach (@$ndr) { $self->ProcessInterface($_) if ($_->{TYPE} eq "INTERFACE"); $self->ProcessImport(@{$_->{PATHS}}) if ($_->{TYPE} eq "IMPORT"); $self->ProcessInclude(@{$_->{PATHS}}) if ($_->{TYPE} eq "INCLUDE"); } $self->{res}->{ett} = DumpEttDeclaration($self->{ett}); $self->{res}->{hf} = $self->DumpHfDeclaration(); my $parser = $notice; $parser.= $self->{res}->{headers}; $parser.=$self->{res}->{ett}; $parser.=$self->{res}->{hf}; $parser.=$self->{res}->{def}; if (exists ($self->{conformance}->{override})) { $parser.=$self->{conformance}->{override}; } $parser.=$self->{res}->{code}; my $header = $notice; $header.=$self->{res}->{hdr}; $self->CheckUsed($self->{conformance}); return ($parser,$header); } ############################################################################### # ETT ############################################################################### sub register_ett($$) { my ($self, $name) = @_; push (@{$self->{ett}}, $name); } sub DumpEttList { my ($ett) = @_; my $res = "\tstatic int *ett[] = {\n"; foreach (@$ett) { $res .= "\t\t&$_,\n"; } return "$res\t};\n"; } sub DumpEttDeclaration { my ($ett) = @_; my $res = "\n/* Ett declarations */\n"; foreach (@$ett) { $res .= "static int $_;\n"; } return "$res\n"; } ############################################################################### # HF ############################################################################### sub register_hf_field($$$$$$$$$) { my ($self,$index,$name,$filter_name,$ft_type,$base_type,$valsstring,$mask,$blurb) = @_; if (defined ($self->{conformance}->{hf_renames}->{$index})) { $self->{conformance}->{hf_renames}->{$index}->{USED} = 1; return $self->{conformance}->{hf_renames}->{$index}->{NEWNAME}; } $self->{conformance}->{header_fields}->{$index} = { INDEX => $index, NAME => $name, FILTER => $filter_name, FT_TYPE => $ft_type, BASE_TYPE => $base_type, VALSSTRING => $valsstring, MASK => $mask, BLURB => $blurb }; if ((not defined($blurb) or $blurb eq "") and defined($self->{conformance}->{fielddescription}->{$index})) { $self->{conformance}->{header_fields}->{$index}->{BLURB} = $self->{conformance}->{fielddescription}->{$index}->{DESCRIPTION}; $self->{conformance}->{fielddescription}->{$index}->{USED} = 1; } return $index; } sub change_hf_field_type($$$$) { my ($self,$index,$ft_type,$base_type) = @_; if (defined ($self->{conformance}->{hf_renames}->{$index})) { print "Field $index has been renamed to ".$self->{conformance}->{hf_renames}->{$index}->{NEWNAME}." you can't change it's type"; return 0; } if (!defined ($self->{conformance}->{header_fields}->{$index})) { print "Field $index doesn't exists"; return 0; } $self->{conformance}->{header_fields}->{$index}->{FT_TYPE} = $ft_type; $self->{conformance}->{header_fields}->{$index}->{BASE_TYPE} = $base_type; return 1; } sub DumpHfDeclaration($) { my ($self) = @_; my $res = ""; $res = "\n/* Header field declarations */\n"; foreach (sort(keys %{$self->{conformance}->{header_fields}})) { $res .= "static int $_;\n"; } return "$res\n"; } sub make_str_or_null($) { my $str = shift; if (substr($str, 0, 1) eq "\"") { $str = substr($str, 1, length($str)-2); } $str =~ s/^\s*//; $str =~ s/\s*$//; if ($str eq "") { return "NULL"; } return make_str($str); } sub DumpHfList($) { my ($self) = @_; my $res = "\tstatic hf_register_info hf[] = {\n"; foreach (sort {$a->{INDEX} cmp $b->{INDEX}} values %{$self->{conformance}->{header_fields}}) { $res .= "\t{ &$_->{INDEX},\n". "\t { ".make_str($_->{NAME}).", ".make_str($_->{FILTER}).", $_->{FT_TYPE}, $_->{BASE_TYPE}, $_->{VALSSTRING}, $_->{MASK}, ".make_str_or_null($_->{BLURB}).", HFILL }},\n"; } return $res."\t};\n"; } ############################################################################### # Function table ############################################################################### sub DumpFunctionTable($) { my $if = shift; my $res = "static const dcerpc_sub_dissector $if->{NAME}\_dissectors[] = {\n"; foreach (@{$if->{FUNCTIONS}}) { my $fn_name = $_->{NAME}; $fn_name =~ s/^$if->{NAME}_//; $res.= "\t{ $_->{OPNUM}, \"$fn_name\",\n"; $res.= "\t $if->{NAME}_dissect_${fn_name}_request, $if->{NAME}_dissect_${fn_name}_response},\n"; } $res .= "\t{ 0, NULL, NULL, NULL }\n"; return "$res};\n"; } sub CheckUsed($$) { my ($self, $conformance) = @_; foreach (values %{$conformance->{header_fields}}) { if (not defined($self->{hf_used}->{$_->{INDEX}})) { warning($_->{POS}, "hf field `$_->{INDEX}' not used"); } } foreach (values %{$conformance->{hf_renames}}) { if (not $_->{USED}) { warning($_->{POS}, "hf field `$_->{OLDNAME}' not used"); } } foreach (values %{$conformance->{dissectorparams}}) { if (not $_->{USED}) { warning($_->{POS}, "dissector param never used"); } } foreach (values %{$conformance->{imports}}) { if (not $_->{USED}) { warning($_->{POS}, "import never used"); } } foreach (values %{$conformance->{types}}) { if (not $_->{USED} and defined($_->{POS})) { warning($_->{POS}, "type never used"); } } foreach (values %{$conformance->{fielddescription}}) { if (not $_->{USED}) { warning($_->{POS}, "description never used"); } } foreach (values %{$conformance->{tfs}}) { if (not $_->{USED}) { warning($_->{POS}, "True/False description never used"); } } } 1;