################################################### # Samba4 NDR parser generator for IDL structures # Copyright tridge@samba.org 2000-2003 # Copyright tpot@samba.org 2001 # Copyright jelmer@samba.org 2004-2005 # released under the GNU GPL package NdrParser; use strict; use needed; # list of known types my %typedefs; my %typefamily; sub get_typedef($) { my $n = shift; return $typedefs{$n}; } sub get_typefamily($) { my $n = shift; return $typefamily{$n}; } sub RegisterPrimitives() { my %type_alignments = ( "char" => 1, "int8" => 1, "uint8" => 1, "short" => 2, "wchar_t" => 2, "int16" => 2, "uint16" => 2, "long" => 4, "int32" => 4, "uint32" => 4, "dlong" => 4, "udlong" => 4, "udlongr" => 4, "NTTIME" => 4, "NTTIME_1sec" => 4, "time_t" => 4, "DATA_BLOB" => 4, "error_status_t" => 4, "WERROR" => 4, "NTSTATUS" => 4, "boolean32" => 4, "unsigned32" => 4, "ipv4address" => 4, "hyper" => 8, "NTTIME_hyper" => 8 ); foreach my $k (keys %type_alignments) { $typedefs{$k} = { NAME => $k, TYPE => "TYPEDEF", DATA => { TYPE => "SCALAR", ALIGN => $type_alignments{$k} } }; } } sub is_scalar_type($) { my $type = shift; if (my $dt = $typedefs{$type}->{DATA}->{TYPE}) { return 1 if ($dt eq "SCALAR" or $dt eq "ENUM" or $dt eq "BITMAP"); } return 0; } sub pointer_type($) { my $e = shift; return undef unless $e->{POINTERS}; return "ref" if (util::has_property($e, "ref")); return "ptr" if (util::has_property($e, "ptr")); return "unique" if (util::has_property($e, "unique")); return "relative" if (util::has_property($e, "relative")); return "ignore" if (util::has_property($e, "ignore")); return undef; } # determine if an element needs a reference pointer on the wire # in its NDR representation sub need_wire_pointer($) { my $e = shift; my $pt; return 0 unless ($pt = pointer_type($e)); if ($pt ne "ref") { return 1; } else { return 0; } } # determine if an element is a pure scalar. pure scalars do not # have a "buffers" section in NDR sub is_pure_scalar($) { my $e = shift; if (util::has_property($e, "ref")) { return 1; } if (is_scalar_type($e->{TYPE}) && !$e->{POINTERS} && !util::array_size($e)) { return 1; } return 0; } # see if a variable needs to be allocated by the NDR subsystem on pull sub need_alloc($) { my $e = shift; if (util::has_property($e, "ref")) { return 0; } if ($e->{POINTERS} || util::array_size($e)) { return 1; } return 0; } # determine the C prefix used to refer to a variable when passing to a push # function. This will be '*' for pointers to scalar types, '' for scalar # types and normal pointers and '&' for pass-by-reference structures sub c_push_prefix($) { my $e = shift; if ($e->{TYPE} =~ "string") { return ""; } if (is_scalar_type($e->{TYPE}) && $e->{POINTERS}) { return "*"; } if (!is_scalar_type($e->{TYPE}) && !$e->{POINTERS} && !util::array_size($e)) { return "&"; } return ""; } # determine the C prefix used to refer to a variable when passing to a pull # return '&' or '' sub c_pull_prefix($) { my $e = shift; if (!$e->{POINTERS} && !util::array_size($e)) { return "&"; } if ($e->{TYPE} =~ "string") { return "&"; } return ""; } my $res = ""; my $tabs = ""; sub pidl($) { my $d = shift; if ($d) { $res .= $tabs; $res .= $d; } $res .="\n"; } sub indent { $tabs .= "\t"; } sub deindent { $tabs = substr($tabs, 0, -1); } ################################### # find a sibling var in a structure sub find_sibling($$) { my($e) = shift; my($name) = shift; my($fn) = $e->{PARENT}; if ($name =~ /\*(.*)/) { $name = $1; } for my $e2 (@{$fn->{ELEMENTS}}) { return $e2 if ($e2->{NAME} eq $name); } die "invalid sibling '$name'"; } #################################################################### # work out the name of a size_is() variable sub ParseExpr($$$) { my($e) = shift; my($size) = shift; my($var_prefix) = shift; my($fn) = $e->{PARENT}; return $size if (util::is_constant($size)); return $size if ($size =~ /ndr->|\(/); my $prefix = ""; if ($size =~ /\*(.*)/) { $size = $1; $prefix = "*"; } if ($fn->{TYPE} ne "FUNCTION") { return $prefix . "r->$size"; } my $e2 = find_sibling($e, $size); if (util::has_property($e2, "in") && util::has_property($e2, "out")) { return $prefix . "$var_prefix$size"; } if (util::has_property($e2, "in")) { return $prefix . "r->in.$size"; } if (util::has_property($e2, "out")) { return $prefix . "r->out.$size"; } die "invalid variable in $size for element $e->{NAME} in $fn->{NAME}\n"; } ##################################################################### # check that a variable we get from ParseExpr isn't a null pointer sub check_null_pointer($) { my $size = shift; if ($size =~ /^\*/) { my $size2 = substr($size, 1); pidl "if ($size2 == NULL) return NT_STATUS_INVALID_PARAMETER_MIX;"; } } ##################################################################### # check that a variable we get from ParseExpr isn't a null pointer # void return varient sub check_null_pointer_void($) { my $size = shift; if ($size =~ /^\*/) { my $size2 = substr($size, 1); pidl "if ($size2 == NULL) return;"; } } ##################################################################### # work out is a parse function should be declared static or not sub fn_prefix($) { my $fn = shift; if ($fn->{TYPE} eq "TYPEDEF") { if (util::has_property($fn, "public")) { return ""; } } if ($fn->{TYPE} eq "FUNCTION") { if (util::has_property($fn, "public")) { return ""; } } return "static "; } ################################################################### # setup any special flags for an element or structure sub start_flags($) { my $e = shift; my $flags = util::has_property($e, "flag"); if (defined $flags) { pidl "{ uint32_t _flags_save_$e->{TYPE} = ndr->flags;"; pidl "ndr_set_flags(&ndr->flags, $flags);"; } } ################################################################### # end any special flags for an element or structure sub end_flags($) { my $e = shift; my $flags = util::has_property($e, "flag"); if (defined $flags) { pidl "ndr->flags = _flags_save_$e->{TYPE};\n\t}"; } } ##################################################################### # work out the correct alignment for a structure or union sub find_largest_alignment($) { my $s = shift; my $align = 1; for my $e (@{$s->{ELEMENTS}}) { my $a = 1; if (need_wire_pointer($e)) { $a = 4; } else { $a = align_type($e->{TYPE}); } $align = $a if ($align < $a); } return $align; } ##################################################################### # align a type sub align_type { my $e = shift; unless (defined($typedefs{$e}) && defined($typedefs{$e}->{DATA}->{TYPE})) { # it must be an external type - all we can do is guess # print "Warning: assuming alignment of unknown type '$e' is 4\n"; return 4; } my $dt = $typedefs{$e}->{DATA}; return $dt->{ALIGN} if ($dt->{ALIGN}); return $typefamily{$dt->{TYPE}}->{ALIGN}->($dt); } ##################################################################### # parse an array - push side sub ParseArrayPush($$$) { my $e = shift; my $var_prefix = shift; my $ndr_flags = shift; my $size = ParseExpr($e, util::array_size($e), $var_prefix); if (defined $e->{CONFORMANT_SIZE}) { # the conformant size has already been pushed } elsif (!util::is_inline_array($e)) { # we need to emit the array size pidl "NDR_CHECK(ndr_push_uint32(ndr, NDR_SCALARS, $size));"; } if (my $length = util::has_property($e, "length_is")) { $length = ParseExpr($e, $length, $var_prefix); pidl "NDR_CHECK(ndr_push_uint32(ndr, NDR_SCALARS, 0));"; pidl "NDR_CHECK(ndr_push_uint32(ndr, NDR_SCALARS, $length));"; $size = $length; } if (is_scalar_type($e->{TYPE})) { pidl "NDR_CHECK(ndr_push_array_$e->{TYPE}(ndr, $ndr_flags, $var_prefix$e->{NAME}, $size));"; } else { pidl "NDR_CHECK(ndr_push_array(ndr, $ndr_flags, $var_prefix$e->{NAME}, sizeof($var_prefix$e->{NAME}\[0]), $size, (ndr_push_flags_fn_t)ndr_push_$e->{TYPE}));"; } } ##################################################################### # print an array sub ParseArrayPrint($$) { my $e = shift; my $var_prefix = shift; my $size = ParseExpr($e, util::array_size($e), $var_prefix); my $length = util::has_property($e, "length_is"); if (defined $length) { $size = ParseExpr($e, $length, $var_prefix); } if (is_scalar_type($e->{TYPE})) { pidl "ndr_print_array_$e->{TYPE}(ndr, \"$e->{NAME}\", $var_prefix$e->{NAME}, $size);"; } else { pidl "ndr_print_array(ndr, \"$e->{NAME}\", $var_prefix$e->{NAME}, sizeof($var_prefix$e->{NAME}\[0]), $size, (ndr_print_fn_t)ndr_print_$e->{TYPE});"; } } ##################################################################### # check the size_is and length_is constraints sub CheckArraySizes($$) { my $e = shift; my $var_prefix = shift; if (!defined $e->{CONFORMANT_SIZE} && util::has_property($e, "size_is")) { my $size = ParseExpr($e, util::array_size($e), $var_prefix); pidl "if ($var_prefix$e->{NAME}) {"; indent; check_null_pointer($size); pidl "NDR_CHECK(ndr_check_array_size(ndr, (void*)&$var_prefix$e->{NAME}, $size));"; deindent; pidl "}"; } if (my $length = util::has_property($e, "length_is")) { $length = ParseExpr($e, $length, $var_prefix); pidl "if ($var_prefix$e->{NAME}) {"; indent; check_null_pointer($length); pidl "NDR_CHECK(ndr_check_array_length(ndr, (void*)&$var_prefix$e->{NAME}, $length));"; deindent; pidl "}"; } } ##################################################################### # parse an array - pull side sub ParseArrayPull($$$) { my $e = shift; my $var_prefix = shift; my $ndr_flags = shift; my $size = ParseExpr($e, util::array_size($e), $var_prefix); my $alloc_size = $size; # if this is a conformant array then we use that size to allocate, and make sure # we allocate enough to pull the elements if (defined $e->{CONFORMANT_SIZE}) { $alloc_size = $e->{CONFORMANT_SIZE}; check_null_pointer($size); pidl "if ($size > $alloc_size) {"; indent; pidl "return ndr_pull_error(ndr, NDR_ERR_CONFORMANT_SIZE, \"Bad conformant size %u should be %u\", $alloc_size, $size);"; deindent; pidl "}"; } elsif (!util::is_inline_array($e)) { if ($var_prefix =~ /^r->out/ && $size =~ /^\*r->in/) { my $size2 = substr($size, 1); pidl "if (ndr->flags & LIBNDR_FLAG_REF_ALLOC) { NDR_ALLOC(ndr, $size2); }"; } # non fixed arrays encode the size just before the array pidl "NDR_CHECK(ndr_pull_array_size(ndr, &$var_prefix$e->{NAME}));"; $alloc_size = "ndr_get_array_size(ndr, &$var_prefix$e->{NAME})"; } if ((need_alloc($e) && !util::is_fixed_array($e)) || ($var_prefix eq "r->in." && util::has_property($e, "ref"))) { if (!util::is_inline_array($e) || $ndr_flags eq "NDR_SCALARS") { pidl "NDR_ALLOC_N(ndr, $var_prefix$e->{NAME}, $alloc_size);"; } } if (($var_prefix eq "r->out." && util::has_property($e, "ref"))) { if (!util::is_inline_array($e) || $ndr_flags eq "NDR_SCALARS") { pidl "if (ndr->flags & LIBNDR_FLAG_REF_ALLOC) {"; indent; pidl "NDR_ALLOC_N(ndr, $var_prefix$e->{NAME}, $alloc_size);"; deindent; pidl "}"; } } if (my $length = util::has_property($e, "length_is")) { pidl "NDR_CHECK(ndr_pull_array_length(ndr, &$var_prefix$e->{NAME}));"; $size = "ndr_get_array_length(ndr, &$var_prefix$e->{NAME})"; } check_null_pointer($size); if (is_scalar_type($e->{TYPE})) { pidl "NDR_CHECK(ndr_pull_array_$e->{TYPE}(ndr, $ndr_flags, $var_prefix$e->{NAME}, $size));"; } else { pidl "NDR_CHECK(ndr_pull_array(ndr, $ndr_flags, (void **)$var_prefix$e->{NAME}, sizeof($var_prefix$e->{NAME}\[0]), $size, (ndr_pull_flags_fn_t)ndr_pull_$e->{TYPE}));"; } } ##################################################################### # parse scalars in a structure element sub ParseElementPushScalar($$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $cprefix = c_push_prefix($e); my $sub_size = util::has_property($e, "subcontext"); start_flags($e); if (my $value = util::has_property($e, "value")) { pidl "$cprefix$var_prefix$e->{NAME} = $value;"; } if (util::has_property($e, "relative")) { pidl "NDR_CHECK(ndr_push_relative_ptr1(ndr, $var_prefix$e->{NAME}));"; } elsif (util::is_inline_array($e)) { ParseArrayPush($e, "r->", "NDR_SCALARS"); } elsif (need_wire_pointer($e)) { ParseElementPushPtr($e, $var_prefix, $ndr_flags); } elsif (need_alloc($e)) { # no scalar component } elsif (my $switch = util::has_property($e, "switch_is")) { ParseElementPushSwitch($e, $var_prefix, $ndr_flags, $switch); } elsif (defined $sub_size) { pidl "NDR_CHECK(ndr_push_subcontext_flags_fn(ndr, $sub_size, $cprefix$var_prefix$e->{NAME}, (ndr_push_flags_fn_t) ndr_push_$e->{TYPE}));"; } else { pidl "NDR_CHECK(ndr_push_$e->{TYPE}(ndr, $ndr_flags, $cprefix$var_prefix$e->{NAME}));"; } end_flags($e); } ##################################################################### # parse a pointer in a struct element or function sub ParseElementPushPtr($$$) { my $e = shift; my $var_prefix = shift; my $ndr_flags = shift; pidl "NDR_CHECK(ndr_push_unique_ptr(ndr, $var_prefix$e->{NAME}));"; } ##################################################################### # print scalars in a structure element sub ParseElementPrintScalar($$) { my($e) = shift; my($var_prefix) = shift; my $cprefix = c_push_prefix($e); if (util::has_property($e, "noprint")) { return; } if (my $value = util::has_property($e, "value")) { pidl "if (ndr->flags & LIBNDR_PRINT_SET_VALUES) {"; indent; pidl "$cprefix$var_prefix$e->{NAME} = $value;"; deindent; pidl "}"; } if (util::is_fixed_array($e)) { ParseElementPrintBuffer($e, $var_prefix); } elsif ($e->{POINTERS} || util::array_size($e)) { pidl "ndr_print_ptr(ndr, \"$e->{NAME}\", $var_prefix$e->{NAME});"; pidl "ndr->depth++;"; ParseElementPrintBuffer($e, $var_prefix); pidl "ndr->depth--;"; } elsif (my $switch = util::has_property($e, "switch_is")) { ParseElementPrintSwitch($e, $var_prefix, $switch); } else { pidl "ndr_print_$e->{TYPE}(ndr, \"$e->{NAME}\", $cprefix$var_prefix$e->{NAME});"; } } ##################################################################### # parse scalars in a structure element - pull size sub ParseElementPullSwitch($$$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $switch = shift; my $switch_var = ParseExpr($e, $switch, $var_prefix); my $cprefix = c_pull_prefix($e); my $utype = $typedefs{$e->{TYPE}}; check_null_pointer($switch_var); if (!defined $utype || !util::has_property($utype, "nodiscriminant")) { my $e2 = find_sibling($e, $switch); my $type_decl = util::map_type($e2->{TYPE}); pidl "if (($ndr_flags) & NDR_SCALARS) {"; indent; if ($typedefs{$e2->{TYPE}}->{DATA}->{TYPE} eq "ENUM") { $type_decl = util::enum_type_decl($e2); } elsif ($typedefs{$e2->{TYPE}}->{DATA}->{TYPE} eq "BITMAP") { $type_decl = util::bitmap_type_decl($e2); } pidl "$type_decl _level;"; pidl "NDR_CHECK(ndr_pull_$e2->{TYPE}(ndr, NDR_SCALARS, &_level));"; if ($switch_var =~ /r->in/) { pidl "if (!(ndr->flags & LIBNDR_FLAG_REF_ALLOC) && _level != $switch_var) {"; indent; } else { pidl "if (_level != $switch_var) {"; indent; } pidl "return ndr_pull_error(ndr, NDR_ERR_BAD_SWITCH, \"Bad switch value %u in $e->{NAME}\", _level);"; deindent; if ($switch_var =~ /r->/) { pidl "} else { $switch_var = _level; }"; } else { pidl "}"; } deindent; pidl "}"; } my $sub_size = util::has_property($e, "subcontext"); if (defined $sub_size) { pidl "if (($ndr_flags) & NDR_SCALARS) {"; indent; pidl "NDR_CHECK(ndr_pull_subcontext_union_fn(ndr, $sub_size, $switch_var, $cprefix$var_prefix$e->{NAME}, (ndr_pull_union_fn_t) ndr_pull_$e->{TYPE}));"; deindent; pidl "}"; } else { pidl "NDR_CHECK(ndr_pull_$e->{TYPE}(ndr, $ndr_flags, $switch_var, $cprefix$var_prefix$e->{NAME}));"; } } ##################################################################### # push switch element sub ParseElementPushSwitch($$$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $switch = shift; my $switch_var = ParseExpr($e, $switch, $var_prefix); my $cprefix = c_push_prefix($e); check_null_pointer($switch_var); my $utype = $typedefs{$e->{TYPE}}; if (!defined $utype || !util::has_property($utype, "nodiscriminant")) { my $e2 = find_sibling($e, $switch); pidl "if (($ndr_flags) & NDR_SCALARS) {"; indent; pidl "NDR_CHECK(ndr_push_$e2->{TYPE}(ndr, NDR_SCALARS, $switch_var));"; deindent; pidl "}"; } my $sub_size = util::has_property($e, "subcontext"); if (defined $sub_size) { pidl "if(($ndr_flags) & NDR_SCALARS) {"; indent; pidl "NDR_CHECK(ndr_push_subcontext_union_fn(ndr, $sub_size, $switch_var, $cprefix$var_prefix$e->{NAME}, (ndr_push_union_fn_t) ndr_push_$e->{TYPE}));"; deindent; pidl "}"; } else { pidl "NDR_CHECK(ndr_push_$e->{TYPE}(ndr, $ndr_flags, $switch_var, $cprefix$var_prefix$e->{NAME}));"; } } ##################################################################### # print scalars in a structure element sub ParseElementPrintSwitch($$$) { my($e) = shift; my($var_prefix) = shift; my $switch = shift; my $switch_var = ParseExpr($e, $switch, $var_prefix); my $cprefix = c_push_prefix($e); check_null_pointer_void($switch_var); pidl "ndr_print_$e->{TYPE}(ndr, \"$e->{NAME}\", $switch_var, $cprefix$var_prefix$e->{NAME});"; } ##################################################################### # parse scalars in a structure element - pull size sub ParseElementPullScalar($$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $cprefix = c_pull_prefix($e); my $sub_size = util::has_property($e, "subcontext"); start_flags($e); if (util::is_inline_array($e)) { ParseArrayPull($e, "r->", "NDR_SCALARS"); } elsif (need_wire_pointer($e)) { ParseElementPullPtr($e, $var_prefix, $ndr_flags); } elsif (need_alloc($e)) { # no scalar component } elsif (my $switch = util::has_property($e, "switch_is")) { ParseElementPullSwitch($e, $var_prefix, $ndr_flags, $switch); } elsif (defined $sub_size) { pidl "NDR_CHECK(ndr_pull_subcontext_flags_fn(ndr, $sub_size, $cprefix$var_prefix$e->{NAME}, (ndr_pull_flags_fn_t) ndr_pull_$e->{TYPE}));"; } else { pidl "NDR_CHECK(ndr_pull_$e->{TYPE}(ndr, $ndr_flags, $cprefix$var_prefix$e->{NAME}));"; } if (my $range = util::has_property($e, "range")) { my ($low, $high) = split(/ /, $range, 2); pidl "if ($var_prefix$e->{NAME} < $low || $var_prefix$e->{NAME} > $high) {"; pidl "\treturn ndr_pull_error(ndr, NDR_ERR_RANGE, \"value out of range\");"; pidl "}"; } end_flags($e); } ##################################################################### # parse a pointer in a struct element or function sub ParseElementPullPtr($$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; pidl "NDR_CHECK(ndr_pull_unique_ptr(ndr, &_ptr_$e->{NAME}));"; pidl "if (_ptr_$e->{NAME}) {"; indent; pidl "NDR_ALLOC(ndr, $var_prefix$e->{NAME});"; if (util::has_property($e, "relative")) { pidl "NDR_CHECK(ndr_pull_relative_ptr1(ndr, $var_prefix$e->{NAME}, _ptr_$e->{NAME}));"; } deindent; pidl "} else {"; pidl "\t$var_prefix$e->{NAME} = NULL;"; pidl "}"; } ##################################################################### # parse buffers in a structure element sub ParseElementPushBuffer($$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $cprefix = c_push_prefix($e); my $sub_size = util::has_property($e, "subcontext"); if (is_pure_scalar($e)) { return; } start_flags($e); if (need_wire_pointer($e)) { pidl "if ($var_prefix$e->{NAME}) {"; indent; if (util::has_property($e, "relative")) { pidl "NDR_CHECK(ndr_push_relative_ptr2(ndr, $var_prefix$e->{NAME}));"; } } if (util::is_inline_array($e)) { ParseArrayPush($e, "r->", "NDR_BUFFERS"); } elsif (util::array_size($e)) { ParseArrayPush($e, "r->", "NDR_SCALARS|NDR_BUFFERS"); } elsif (my $switch = util::has_property($e, "switch_is")) { if ($e->{POINTERS}) { ParseElementPushSwitch($e, $var_prefix, "NDR_BUFFERS|NDR_SCALARS", $switch); } else { ParseElementPushSwitch($e, $var_prefix, "NDR_BUFFERS", $switch); } } elsif (defined $sub_size) { if ($e->{POINTERS}) { pidl "NDR_CHECK(ndr_push_subcontext_flags_fn(ndr, $sub_size, $cprefix$var_prefix$e->{NAME}, (ndr_push_flags_fn_t) ndr_push_$e->{TYPE}));"; } } elsif ($e->{POINTERS}) { pidl "NDR_CHECK(ndr_push_$e->{TYPE}(ndr, NDR_SCALARS|NDR_BUFFERS, $cprefix$var_prefix$e->{NAME}));"; } else { pidl "NDR_CHECK(ndr_push_$e->{TYPE}(ndr, $ndr_flags, $cprefix$var_prefix$e->{NAME}));"; } if (need_wire_pointer($e)) { deindent; pidl "}"; } end_flags($e); } ##################################################################### # print buffers in a structure element sub ParseElementPrintBuffer($$) { my($e) = shift; my($var_prefix) = shift; my $cprefix = c_push_prefix($e); if (need_wire_pointer($e)) { pidl "if ($var_prefix$e->{NAME}) {"; indent; } if (util::array_size($e)) { ParseArrayPrint($e, $var_prefix) } elsif (my $switch = util::has_property($e, "switch_is")) { ParseElementPrintSwitch($e, $var_prefix, $switch); } else { pidl "ndr_print_$e->{TYPE}(ndr, \"$e->{NAME}\", $cprefix$var_prefix$e->{NAME});"; } if (need_wire_pointer($e)) { deindent; pidl "}"; } } ##################################################################### # parse buffers in a structure element - pull side sub ParseElementPullBuffer($$$) { my($e) = shift; my($var_prefix) = shift; my($ndr_flags) = shift; my $cprefix = c_pull_prefix($e); my $sub_size = util::has_property($e, "subcontext"); if (is_pure_scalar($e)) { return; } start_flags($e); if (need_wire_pointer($e)) { pidl "if ($var_prefix$e->{NAME}) {"; indent; if (util::has_property($e, "relative")) { pidl "struct ndr_pull_save _relative_save;"; pidl "ndr_pull_save(ndr, &_relative_save);"; pidl "NDR_CHECK(ndr_pull_relative_ptr2(ndr, $var_prefix$e->{NAME}));"; } } if (util::is_inline_array($e)) { ParseArrayPull($e, "r->", "NDR_BUFFERS"); } elsif (util::array_size($e)) { ParseArrayPull($e, "r->", "NDR_SCALARS|NDR_BUFFERS"); } elsif (my $switch = util::has_property($e, "switch_is")) { if ($e->{POINTERS}) { ParseElementPullSwitch($e, $var_prefix, "NDR_SCALARS|NDR_BUFFERS", $switch); } else { ParseElementPullSwitch($e, $var_prefix, "NDR_BUFFERS", $switch); } } elsif (defined $sub_size) { if ($e->{POINTERS}) { pidl "NDR_CHECK(ndr_pull_subcontext_flags_fn(ndr, $sub_size, $cprefix$var_prefix$e->{NAME}, (ndr_pull_flags_fn_t) ndr_pull_$e->{TYPE}));"; } } elsif ($e->{POINTERS}) { pidl "NDR_CHECK(ndr_pull_$e->{TYPE}(ndr, NDR_SCALARS|NDR_BUFFERS, $cprefix$var_prefix$e->{NAME}));"; } else { pidl "NDR_CHECK(ndr_pull_$e->{TYPE}(ndr, $ndr_flags, $cprefix$var_prefix$e->{NAME}));"; } if (need_wire_pointer($e)) { if (util::has_property($e, "relative")) { pidl "ndr_pull_restore(ndr, &_relative_save);"; } deindent; pidl "}"; } end_flags($e); } ##################################################################### # parse a struct sub ParseStructPush($) { my($struct) = shift; return unless defined($struct->{ELEMENTS}); start_flags($struct); # see if the structure contains a conformant array. If it # does, then it must be the last element of the structure, and # we need to push the conformant length early, as it fits on # the wire before the structure (and even before the structure # alignment) my $e = $struct->{ELEMENTS}[-1]; if (defined $e->{ARRAY_LEN} && $e->{ARRAY_LEN} eq "*") { my $size = ParseExpr($e, util::array_size($e), "r->"); $e->{CONFORMANT_SIZE} = $size; check_null_pointer($size); pidl "NDR_CHECK(ndr_push_uint32(ndr, NDR_SCALARS, $size));"; } if (defined $e->{TYPE} && $e->{TYPE} eq "string" && util::property_matches($e, "flag", ".*LIBNDR_FLAG_STR_CONFORMANT.*")) { pidl "NDR_CHECK(ndr_push_uint32(ndr, NDR_SCALARS, ndr_string_array_size(ndr, r->$e->{NAME})));"; } pidl "if (!(ndr_flags & NDR_SCALARS)) goto buffers;"; pidl "NDR_CHECK(ndr_push_struct_start(ndr));"; my $align = find_largest_alignment($struct); pidl "NDR_CHECK(ndr_push_align(ndr, $align));"; foreach my $e (@{$struct->{ELEMENTS}}) { ParseElementPushScalar($e, "r->", "NDR_SCALARS"); } pidl "buffers:"; pidl "if (!(ndr_flags & NDR_BUFFERS)) goto done;"; foreach my $e (@{$struct->{ELEMENTS}}) { ParseElementPushBuffer($e, "r->", "NDR_BUFFERS"); } pidl "ndr_push_struct_end(ndr);"; pidl "done:"; end_flags($struct); } ##################################################################### # generate a push function for an enum sub ParseEnumPush($) { my($enum) = shift; my($type_fn) = util::enum_type_fn($enum); start_flags($enum); pidl "NDR_CHECK(ndr_push_$type_fn(ndr, NDR_SCALARS, r));"; end_flags($enum); } ##################################################################### # generate a pull function for an enum sub ParseEnumPull($) { my($enum) = shift; my($type_fn) = util::enum_type_fn($enum); my($type_v_decl) = util::map_type(util::enum_type_fn($enum)); pidl "$type_v_decl v;"; start_flags($enum); pidl "NDR_CHECK(ndr_pull_$type_fn(ndr, NDR_SCALARS, &v));"; pidl "*r = v;"; end_flags($enum); } ##################################################################### # generate a print function for an enum sub ParseEnumPrint($) { my($enum) = shift; pidl "const char *val = NULL;"; pidl ""; start_flags($enum); pidl "switch (r) {"; indent; my $els = \@{$enum->{ELEMENTS}}; foreach my $i (0 .. $#{$els}) { my $e = ${$els}[$i]; chomp $e; if ($e =~ /^(.*)=/) { $e = $1; } pidl "case $e: val = \"$e\"; break;"; } deindent; pidl "}"; pidl "ndr_print_enum(ndr, name, \"$enum->{TYPE}\", val, r);"; end_flags($enum); } sub ArgsEnumPush($) { my $e = shift; return "struct ndr_push *ndr, int ndr_flags, enum $e->{NAME} r"; } sub ArgsEnumPrint($) { my $e = shift; return "struct ndr_print *ndr, const char *name, enum $e->{NAME} r"; } sub ArgsEnumPull($) { my $e = shift; return "struct ndr_pull *ndr, int ndr_flags, enum $e->{NAME} *r"; } $typefamily{ENUM} = { PUSH_FN_BODY => \&ParseEnumPush, PUSH_FN_ARGS => \&ArgsEnumPush, PULL_FN_BODY => \&ParseEnumPull, PULL_FN_ARGS => \&ArgsEnumPull, PRINT_FN_BODY => \&ParseEnumPrint, PRINT_FN_ARGS => \&ArgsEnumPrint, ALIGN => sub { return align_type(util::enum_type_fn(shift)); } }; ##################################################################### # generate a push function for a bitmap sub ParseBitmapPush($) { my($bitmap) = shift; my($type_fn) = util::bitmap_type_fn($bitmap); start_flags($bitmap); pidl "NDR_CHECK(ndr_push_$type_fn(ndr, NDR_SCALARS, r));"; end_flags($bitmap); } ##################################################################### # generate a pull function for an bitmap sub ParseBitmapPull($) { my($bitmap) = shift; my($type_fn) = util::bitmap_type_fn($bitmap); my($type_decl) = util::bitmap_type_decl($bitmap); pidl "$type_decl v;"; start_flags($bitmap); pidl "NDR_CHECK(ndr_pull_$type_fn(ndr, NDR_SCALARS, &v));"; pidl "*r = v;"; end_flags($bitmap); } ##################################################################### # generate a print function for an bitmap sub ParseBitmapPrintElement($$) { my($e) = shift; my($bitmap) = shift; my($type_decl) = util::bitmap_type_decl($bitmap); my($type_fn) = util::bitmap_type_fn($bitmap); my($name) = $bitmap->{PARENT}->{NAME}; my($flag); if ($e =~ /^(\w+) .*$/) { $flag = "$1"; } else { die "Bitmap: \"$name\" invalid Flag: \"$e\""; } pidl "ndr_print_bitmap_flag(ndr, sizeof($type_decl), \"$flag\", $flag, r);"; } ##################################################################### # generate a print function for an bitmap sub ParseBitmapPrint($) { my($bitmap) = shift; my($type_decl) = util::bitmap_type_decl($bitmap); my($type_fn) = util::bitmap_type_fn($bitmap); start_flags($bitmap); pidl "ndr_print_$type_fn(ndr, name, r);"; pidl "ndr->depth++;"; foreach my $e (@{$bitmap->{ELEMENTS}}) { ParseBitmapPrintElement($e, $bitmap); } pidl "ndr->depth--;"; end_flags($bitmap); } sub ArgsBitmapPush($) { my $e = shift; my $type_decl = util::bitmap_type_decl($e->{DATA}); return "struct ndr_push *ndr, int ndr_flags, $type_decl r"; } sub ArgsBitmapPrint($) { my $e = shift; my $type_decl = util::bitmap_type_decl($e->{DATA}); return "struct ndr_print *ndr, const char *name, $type_decl r"; } sub ArgsBitmapPull($) { my $e = shift; my $type_decl = util::bitmap_type_decl($e->{DATA}); return "struct ndr_pull *ndr, int ndr_flags, $type_decl *r"; } $typefamily{BITMAP} = { PUSH_FN_BODY => \&ParseBitmapPush, PUSH_FN_ARGS => \&ArgsBitmapPush, PULL_FN_BODY => \&ParseBitmapPull, PULL_FN_ARGS => \&ArgsBitmapPull, PRINT_FN_BODY => \&ParseBitmapPrint, PRINT_FN_ARGS => \&ArgsBitmapPrint, ALIGN => sub { return align_type(util::bitmap_type_fn(shift)); } }; ##################################################################### # generate a struct print function sub ParseStructPrint($) { my($struct) = shift; my($name) = $struct->{PARENT}->{NAME}; return unless defined $struct->{ELEMENTS}; pidl "ndr_print_struct(ndr, name, \"$name\");"; start_flags($struct); pidl "ndr->depth++;"; foreach my $e (@{$struct->{ELEMENTS}}) { ParseElementPrintScalar($e, "r->"); } pidl "ndr->depth--;"; end_flags($struct); } ##################################################################### # parse a struct - pull side sub ParseStructPull($) { my($struct) = shift; my $conform_e; return unless defined $struct->{ELEMENTS}; # see if the structure contains a conformant array. If it # does, then it must be the last element of the structure, and # we need to pull the conformant length early, as it fits on # the wire before the structure (and even before the structure # alignment) my $e = $struct->{ELEMENTS}[-1]; if (defined $e->{ARRAY_LEN} && $e->{ARRAY_LEN} eq "*") { $conform_e = $e; } if (defined $e->{TYPE} && $e->{TYPE} eq "string" && util::property_matches($e, "flag", ".*LIBNDR_FLAG_STR_CONFORMANT.*")) { $conform_e = $e; } if (defined $conform_e) { $conform_e = $e; pidl "uint32_t _conformant_size;"; $conform_e->{CONFORMANT_SIZE} = "_conformant_size"; } # declare any internal pointers we need foreach my $e (@{$struct->{ELEMENTS}}) { if (need_wire_pointer($e)) { pidl "uint32_t _ptr_$e->{NAME};"; } } start_flags($struct); pidl "if (!(ndr_flags & NDR_SCALARS)) goto buffers;"; pidl "NDR_CHECK(ndr_pull_struct_start(ndr));"; if (defined $conform_e) { pidl "NDR_CHECK(ndr_pull_uint32(ndr, NDR_SCALARS, &$conform_e->{CONFORMANT_SIZE}));"; } my $align = find_largest_alignment($struct); pidl "NDR_CHECK(ndr_pull_align(ndr, $align));"; foreach my $e (@{$struct->{ELEMENTS}}) { ParseElementPullScalar($e, "r->", "NDR_SCALARS"); } pidl "buffers:\n"; pidl "if (!(ndr_flags & NDR_BUFFERS)) goto done;"; foreach my $e (@{$struct->{ELEMENTS}}) { ParseElementPullBuffer($e, "r->", "NDR_BUFFERS"); } foreach my $e (@{$struct->{ELEMENTS}}) { CheckArraySizes($e, "r->"); } pidl "ndr_pull_struct_end(ndr);"; pidl "done:"; end_flags($struct); } ##################################################################### # calculate size of ndr struct sub ParseStructNdrSize($) { my $t = shift; my $static = fn_prefix($t); my $sizevar; pidl "size_t ndr_size_$t->{NAME}(const struct $t->{NAME} *r, int flags)"; pidl "{"; indent; if (my $flags = util::has_property($t, "flag")) { pidl "flags |= $flags;"; } pidl "return ndr_size_struct(r, flags, (ndr_push_flags_fn_t)ndr_push_$t->{NAME});"; deindent; pidl "}"; pidl ""; } sub ArgsStructPush($) { my $e = shift; return "struct ndr_push *ndr, int ndr_flags, struct $e->{NAME} *r"; } sub ArgsStructPrint($) { my $e = shift; return "struct ndr_print *ndr, const char *name, struct $e->{NAME} *r"; } sub ArgsStructPull($) { my $e = shift; return "struct ndr_pull *ndr, int ndr_flags, struct $e->{NAME} *r"; } $typefamily{STRUCT} = { PUSH_FN_BODY => \&ParseStructPush, PUSH_FN_ARGS => \&ArgsStructPush, PULL_FN_BODY => \&ParseStructPull, PULL_FN_ARGS => \&ArgsStructPull, PRINT_FN_BODY => \&ParseStructPrint, PRINT_FN_ARGS => \&ArgsStructPrint, SIZE_FN => \&ParseStructNdrSize, ALIGN => \&find_largest_alignment }; ##################################################################### # calculate size of ndr struct sub ParseUnionNdrSize($) { my $t = shift; my $static = fn_prefix($t); my $sizevar; pidl "size_t ndr_size_$t->{NAME}(const union $t->{NAME} *r, int level, int flags)"; pidl "{"; indent; if (my $flags = util::has_property($t, "flag")) { pidl "flags |= $flags;"; } pidl "return ndr_size_union(r, flags, level, (ndr_push_union_fn_t)ndr_push_$t->{NAME});"; deindent; pidl "}"; pidl "";; } ##################################################################### # parse a union - push side sub ParseUnionPush($) { my $e = shift; my $have_default = 0; start_flags($e); pidl "if (!(ndr_flags & NDR_SCALARS)) goto buffers;"; pidl "NDR_CHECK(ndr_push_struct_start(ndr));"; # my $align = union_alignment($e); # pidl "NDR_CHECK(ndr_push_align(ndr, $align));"; pidl "switch (level) {"; indent; foreach my $el (@{$e->{ELEMENTS}}) { if (util::has_property($el, "default")) { pidl "default:"; $have_default = 1; } else { pidl "case $el->{PROPERTIES}->{case}:"; } if ($el->{TYPE} ne "EMPTY") { indent; ParseElementPushScalar($el, "r->", "NDR_SCALARS"); deindent; } pidl "break;"; pidl ""; } if (! $have_default) { pidl "default:"; pidl "\treturn ndr_push_error(ndr, NDR_ERR_BAD_SWITCH, \"Bad switch value \%u\", level);"; } deindent; pidl "}"; pidl "buffers:"; pidl "if (!(ndr_flags & NDR_BUFFERS)) goto done;"; pidl "switch (level) {"; indent; foreach my $el (@{$e->{ELEMENTS}}) { if (util::has_property($el, "default")) { pidl "default:"; } else { pidl "case $el->{PROPERTIES}->{case}:"; } if ($el->{TYPE} ne "EMPTY") { indent; ParseElementPushBuffer($el, "r->", "NDR_BUFFERS"); deindent; } pidl "break;"; pidl ""; } if (! $have_default) { pidl "default:"; pidl "\treturn ndr_push_error(ndr, NDR_ERR_BAD_SWITCH, \"Bad switch value \%u\", level);"; } deindent; pidl "}"; pidl "ndr_push_struct_end(ndr);"; pidl "done:"; end_flags($e); } ##################################################################### # print a union sub ParseUnionPrint($) { my $e = shift; my $have_default = 0; my($name) = $e->{PARENT}->{NAME}; pidl "ndr_print_union(ndr, name, level, \"$name\");"; start_flags($e); pidl "switch (level) {"; indent; foreach my $el (@{$e->{ELEMENTS}}) { if (util::has_property($el, "default")) { $have_default = 1; pidl "default:"; } else { pidl "case $el->{PROPERTIES}->{case}:"; } if ($el->{TYPE} ne "EMPTY") { indent; ParseElementPrintScalar($el, "r->"); deindent; } pidl "break;"; pidl ""; } if (! $have_default) { pidl "default:"; pidl "\tndr_print_bad_level(ndr, name, level);"; } deindent; pidl "}"; end_flags($e); } ##################################################################### # parse a union - pull side sub ParseUnionPull($) { my $e = shift; my $have_default = 0; start_flags($e); pidl "if (!(ndr_flags & NDR_SCALARS)) goto buffers;"; pidl "NDR_CHECK(ndr_pull_struct_start(ndr));"; # my $align = union_alignment($e); # pidl "\tNDR_CHECK(ndr_pull_align(ndr, $align));\n"; pidl "switch (level) {"; indent; foreach my $el (@{$e->{ELEMENTS}}) { if (util::has_property($el, "default")) { pidl "default: {"; $have_default = 1; } else { pidl "case $el->{PROPERTIES}->{case}: {"; } if ($el->{TYPE} ne "EMPTY") { indent; if ($el->{POINTERS}) { pidl "uint32_t _ptr_$el->{NAME};"; } ParseElementPullScalar($el, "r->", "NDR_SCALARS"); deindent; } pidl "break; }"; pidl ""; } if (! $have_default) { pidl "default:"; pidl "\treturn ndr_pull_error(ndr, NDR_ERR_BAD_SWITCH, \"Bad switch value \%u\", level);"; } deindent; pidl "}"; pidl "buffers:"; pidl "if (!(ndr_flags & NDR_BUFFERS)) goto done;"; pidl "switch (level) {"; indent; foreach my $el (@{$e->{ELEMENTS}}) { if (util::has_property($el, "default")) { pidl "default:"; } else { pidl "case $el->{PROPERTIES}->{case}:"; } if ($el->{TYPE} ne "EMPTY") { indent; ParseElementPullBuffer($el, "r->", "NDR_BUFFERS"); deindent; } pidl "break;"; pidl ""; } if (! $have_default) { pidl "default:"; pidl "\treturn ndr_pull_error(ndr, NDR_ERR_BAD_SWITCH, \"Bad switch value \%u\", level);"; } deindent; pidl "}"; pidl "ndr_pull_struct_end(ndr);"; pidl "done:"; end_flags($e); } sub ArgsUnionPush($) { my $e = shift; return "struct ndr_push *ndr, int ndr_flags, int level, union $e->{NAME} *r"; } sub ArgsUnionPrint($) { my $e = shift; return "struct ndr_print *ndr, const char *name, int level, union $e->{NAME} *r"; } sub ArgsUnionPull($) { my $e = shift; return "struct ndr_pull *ndr, int ndr_flags, int level, union $e->{NAME} *r"; } $typefamily{UNION} = { PUSH_FN_BODY => \&ParseUnionPush, PUSH_FN_ARGS => \&ArgsUnionPush, PULL_FN_BODY => \&ParseUnionPull, PULL_FN_ARGS => \&ArgsUnionPull, PRINT_FN_BODY => \&ParseUnionPrint, PRINT_FN_ARGS => \&ArgsUnionPrint, SIZE_FN => \&ParseUnionNdrSize, ALIGN => \&find_largest_alignment }; ##################################################################### # parse a typedef - push side sub ParseTypedefPush($) { my($e) = shift; my $static = fn_prefix($e); return unless needed::is_needed("push_$e->{NAME}"); my $args = $typefamily{$e->{DATA}->{TYPE}}->{PUSH_FN_ARGS}->($e); pidl $static . "NTSTATUS ndr_push_$e->{NAME}($args)"; pidl "{"; indent; $typefamily{$e->{DATA}->{TYPE}}->{PUSH_FN_BODY}->($e->{DATA}); pidl "return NT_STATUS_OK;"; deindent; pidl "}"; pidl "";; } ##################################################################### # parse a typedef - pull side sub ParseTypedefPull($) { my($e) = shift; my $static = fn_prefix($e); return unless needed::is_needed("pull_$e->{NAME}"); my $args = $typefamily{$e->{DATA}->{TYPE}}->{PULL_FN_ARGS}->($e); pidl $static . "NTSTATUS ndr_pull_$e->{NAME}($args)"; pidl "{"; indent; $typefamily{$e->{DATA}->{TYPE}}->{PULL_FN_BODY}->($e->{DATA}); pidl "return NT_STATUS_OK;"; deindent; pidl "}"; pidl ""; } ##################################################################### # parse a typedef - print side sub ParseTypedefPrint($) { my($e) = shift; my $args = $typefamily{$e->{DATA}->{TYPE}}->{PRINT_FN_ARGS}->($e); pidl "void ndr_print_$e->{NAME}($args)"; pidl "{"; indent; $typefamily{$e->{DATA}->{TYPE}}->{PRINT_FN_BODY}->($e->{DATA}); deindent; pidl "}"; } ##################################################################### ## calculate the size of a structure sub ParseTypedefNdrSize($) { my($t) = shift; return unless needed::is_needed("ndr_size_$t->{NAME}"); $typefamily{$t->{DATA}->{TYPE}}->{SIZE_FN}($t); } ##################################################################### # parse a function - print side sub ParseFunctionPrint($) { my($fn) = shift; pidl "void ndr_print_$fn->{NAME}(struct ndr_print *ndr, const char *name, int flags, struct $fn->{NAME} *r)"; pidl "{"; indent; pidl "ndr_print_struct(ndr, name, \"$fn->{NAME}\");"; pidl "ndr->depth++;"; pidl "if (flags & NDR_SET_VALUES) {"; pidl "\tndr->flags |= LIBNDR_PRINT_SET_VALUES;"; pidl "}"; pidl "if (flags & NDR_IN) {"; indent; pidl "ndr_print_struct(ndr, \"in\", \"$fn->{NAME}\");"; pidl "ndr->depth++;"; foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "in")) { ParseElementPrintScalar($e, "r->in."); } } pidl "ndr->depth--;"; deindent; pidl "}"; pidl "if (flags & NDR_OUT) {"; indent; pidl "ndr_print_struct(ndr, \"out\", \"$fn->{NAME}\");"; pidl "ndr->depth++;"; foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "out")) { ParseElementPrintScalar($e, "r->out."); } } if ($fn->{RETURN_TYPE} && $fn->{RETURN_TYPE} ne "void") { my $cprefix = "&"; $cprefix = "" if (is_scalar_type($fn->{RETURN_TYPE})) ; # FIXME: Should really use util::c_push_prefix here pidl "ndr_print_$fn->{RETURN_TYPE}(ndr, \"result\", $cprefix"."r->out.result);"; } pidl "ndr->depth--;"; deindent; pidl "}"; pidl "ndr->depth--;"; deindent; pidl "}"; pidl ""; } ##################################################################### # parse a function element sub ParseFunctionElementPush($$) { my $e = shift; my $inout = shift; if (util::array_size($e)) { if (need_wire_pointer($e)) { pidl "NDR_CHECK(ndr_push_unique_ptr(ndr, r->$inout.$e->{NAME}));"; pidl "if (r->$inout.$e->{NAME}) {"; indent; ParseArrayPush($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); deindent; pidl "}"; } else { ParseArrayPush($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); } } else { ParseElementPushScalar($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); if ($e->{POINTERS}) { ParseElementPushBuffer($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); } } } ##################################################################### # parse a function sub ParseFunctionPush($) { my($fn) = shift; my $static = fn_prefix($fn); pidl $static . "NTSTATUS ndr_push_$fn->{NAME}(struct ndr_push *ndr, int flags, struct $fn->{NAME} *r)"; pidl "{"; indent; pidl "if (!(flags & NDR_IN)) goto ndr_out;"; pidl ""; foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "in")) { ParseFunctionElementPush($e, "in"); } } pidl "ndr_out:"; pidl "if (!(flags & NDR_OUT)) goto done;"; pidl ""; foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "out")) { ParseFunctionElementPush($e, "out"); } } if ($fn->{RETURN_TYPE} && $fn->{RETURN_TYPE} ne "void") { pidl "NDR_CHECK(ndr_push_$fn->{RETURN_TYPE}(ndr, NDR_SCALARS, r->out.result));"; } pidl "done:"; pidl "return NT_STATUS_OK;"; deindent; pidl "}"; pidl ""; } ##################################################################### # parse a function element sub ParseFunctionElementPull($$) { my $e = shift; my $inout = shift; if (util::array_size($e)) { if (need_wire_pointer($e)) { pidl "NDR_CHECK(ndr_pull_unique_ptr(ndr, &_ptr_$e->{NAME}));"; pidl "r->$inout.$e->{NAME} = NULL;"; pidl "if (_ptr_$e->{NAME}) {"; indent; } elsif ($inout eq "out" && util::has_property($e, "ref")) { pidl "if (r->$inout.$e->{NAME}) {"; indent; } else { pidl "{"; indent; } ParseArrayPull($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); deindent; pidl "}"; } else { if ($inout eq "out" && util::has_property($e, "ref")) { pidl "if (ndr->flags & LIBNDR_FLAG_REF_ALLOC) {"; pidl "\tNDR_ALLOC(ndr, r->out.$e->{NAME});"; pidl "}"; } if ($inout eq "in" && util::has_property($e, "ref")) { pidl "NDR_ALLOC(ndr, r->in.$e->{NAME});"; } ParseElementPullScalar($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); if ($e->{POINTERS}) { ParseElementPullBuffer($e, "r->$inout.", "NDR_SCALARS|NDR_BUFFERS"); } } } ############################################################ # allocate ref variables sub AllocateRefVars($) { my $e = shift; my $asize = util::array_size($e); # note that if the variable is also an "in" # variable then we copy the initial value from # the in side if (!defined $asize) { # its a simple variable pidl "NDR_ALLOC(ndr, r->out.$e->{NAME});"; if (util::has_property($e, "in")) { pidl "*r->out.$e->{NAME} = *r->in.$e->{NAME};"; } else { pidl "ZERO_STRUCTP(r->out.$e->{NAME});"; } return; } # its an array my $size = ParseExpr($e, $asize, "r->out."); check_null_pointer($size); pidl "NDR_ALLOC_N(ndr, r->out.$e->{NAME}, $size);"; if (util::has_property($e, "in")) { pidl "memcpy(r->out.$e->{NAME},r->in.$e->{NAME},$size * sizeof(*r->in.$e->{NAME}));"; } else { pidl "memset(r->out.$e->{NAME}, 0, $size * sizeof(*r->out.$e->{NAME}));"; } } ##################################################################### # parse a function sub ParseFunctionPull($) { my($fn) = shift; my $static = fn_prefix($fn); # pull function args pidl $static . "NTSTATUS ndr_pull_$fn->{NAME}(struct ndr_pull *ndr, int flags, struct $fn->{NAME} *r)"; pidl "{"; indent; # declare any internal pointers we need foreach my $e (@{$fn->{ELEMENTS}}) { if (need_wire_pointer($e)) { pidl "uint32_t _ptr_$e->{NAME};"; } } pidl "if (!(flags & NDR_IN)) goto ndr_out;"; pidl ""; # auto-init the out section of a structure. I originally argued that # this was a bad idea as it hides bugs, but coping correctly # with initialisation and not wiping ref vars is turning # out to be too tricky (tridge) foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "out")) { pidl "ZERO_STRUCT(r->out);"; pidl ""; last; } } foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "in")) { ParseFunctionElementPull($e, "in"); } # we need to allocate any reference output variables, so that # a dcerpc backend can be sure they are non-null if (util::has_property($e, "out") && util::has_property($e, "ref")) { AllocateRefVars($e); } } foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "in")) { CheckArraySizes($e, "r->in."); } } pidl "ndr_out:"; pidl "if (!(flags & NDR_OUT)) goto done;"; pidl ""; foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "out")) { ParseFunctionElementPull($e, "out"); } } foreach my $e (@{$fn->{ELEMENTS}}) { if (util::has_property($e, "out")) { CheckArraySizes($e, "r->out."); } } if ($fn->{RETURN_TYPE} && $fn->{RETURN_TYPE} ne "void") { pidl "NDR_CHECK(ndr_pull_$fn->{RETURN_TYPE}(ndr, NDR_SCALARS, &r->out.result));"; } pidl "done:"; pidl ""; pidl "return NT_STATUS_OK;"; deindent; pidl "}"; pidl ""; } ##################################################################### # produce a function call table sub FunctionTable($) { my($interface) = shift; my($data) = $interface->{INHERITED_DATA}; my $count = 0; my $uname = uc $interface->{NAME}; foreach my $d (@{$data}) { if ($d->{TYPE} eq "FUNCTION") { $count++; } } return if ($count == 0); pidl "static const struct dcerpc_interface_call $interface->{NAME}\_calls[] = {"; foreach my $d (@{$data}) { if ($d->{TYPE} eq "FUNCTION") { pidl "\t{"; pidl "\t\t\"$d->{NAME}\","; pidl "\t\tsizeof(struct $d->{NAME}),"; pidl "\t\t(ndr_push_flags_fn_t) ndr_push_$d->{NAME},"; pidl "\t\t(ndr_pull_flags_fn_t) ndr_pull_$d->{NAME},"; pidl "\t\t(ndr_print_function_t) ndr_print_$d->{NAME}"; pidl "\t},"; } } pidl "\t{ NULL, 0, NULL, NULL, NULL }"; pidl "};"; pidl ""; # If no endpoint is set, default to the interface name as a named pipe if (! defined $interface->{PROPERTIES}->{endpoint}) { $interface->{PROPERTIES}->{endpoint} = "\"ncacn_np:[\\\\pipe\\\\" . $interface->{NAME} . "]\""; } my @e = split / /, $interface->{PROPERTIES}->{endpoint}; my $endpoint_count = $#e + 1; pidl "static const char * const $interface->{NAME}\_endpoint_strings[] = {"; foreach my $ep (@e) { pidl "\t$ep, "; } pidl "};"; pidl ""; pidl "static const struct dcerpc_endpoint_list $interface->{NAME}\_endpoints = {"; pidl "\t$endpoint_count, $interface->{NAME}\_endpoint_strings"; pidl "};"; pidl ""; pidl "\nconst struct dcerpc_interface_table dcerpc_table_$interface->{NAME} = {"; pidl "\t\"$interface->{NAME}\","; pidl "\tDCERPC_$uname\_UUID,"; pidl "\tDCERPC_$uname\_VERSION,"; pidl "\tDCERPC_$uname\_HELPSTRING,"; pidl "\t$count,"; pidl "\t$interface->{NAME}\_calls,"; pidl "\t&$interface->{NAME}\_endpoints"; pidl "};"; pidl ""; pidl "static NTSTATUS dcerpc_ndr_$interface->{NAME}_init(void)"; pidl "{"; pidl "\treturn librpc_register_interface(&dcerpc_table_$interface->{NAME});"; pidl "}"; pidl ""; } ##################################################################### # parse the interface definitions sub ParseInterface($) { my($interface) = shift; my($data) = $interface->{DATA}; # Push functions foreach my $d (@{$data}) { ($d->{TYPE} eq "TYPEDEF") && ParseTypedefPush($d); ($d->{TYPE} eq "FUNCTION") && ParseFunctionPush($d); } # Pull functions foreach my $d (@{$data}) { ($d->{TYPE} eq "TYPEDEF") && ParseTypedefPull($d); ($d->{TYPE} eq "FUNCTION") && ParseFunctionPull($d); } # Print functions foreach my $d (@{$data}) { if ($d->{TYPE} eq "TYPEDEF" && !util::has_property($d, "noprint")) { ParseTypedefPrint($d); } if ($d->{TYPE} eq "FUNCTION" && !util::has_property($d, "noprint")) { ParseFunctionPrint($d); } } # Size functions foreach my $d (@{$data}) { ($d->{TYPE} eq "TYPEDEF") && ParseTypedefNdrSize($d); } FunctionTable($interface); } sub RegistrationFunction($$) { my $idl = shift; my $filename = shift; $filename =~ /.*\/ndr_(.*).c/; my $basename = $1; pidl "NTSTATUS dcerpc_$basename\_init(void)"; pidl "{"; indent; pidl "NTSTATUS status = NT_STATUS_OK;"; foreach my $interface (@{$idl}) { next if $interface->{TYPE} ne "INTERFACE"; my $data = $interface->{INHERITED_DATA}; my $count = 0; foreach my $d (@{$data}) { if ($d->{TYPE} eq "FUNCTION") { $count++; } } next if ($count == 0); pidl "status = dcerpc_ndr_$interface->{NAME}_init();"; pidl "if (NT_STATUS_IS_ERR(status)) {"; pidl "\treturn status;"; pidl "}"; pidl ""; } pidl "return status;"; deindent; pidl "}"; pidl ""; } sub CheckPointerTypes($$) { my $s = shift; my $default = shift; foreach my $e (@{$s->{ELEMENTS}}) { if ($e->{POINTERS}) { if (not defined(pointer_type($e))) { $e->{PROPERTIES}->{$default} = 1; } if (pointer_type($e) eq "ptr") { print "Warning: ptr is not supported by pidl yet\n"; } } } } sub LoadInterface($) { my $x = shift; if (not util::has_property($x, "pointer_default")) { # MIDL defaults to "ptr" in DCE compatible mode (/osf) # and "unique" in Microsoft Extensions mode (default) $x->{PROPERTIES}->{pointer_default} = "unique"; } foreach my $d (@{$x->{DATA}}) { if (($d->{TYPE} eq "DECLARE") or ($d->{TYPE} eq "TYPEDEF")) { $typedefs{$d->{NAME}} = $d; if ($d->{DATA}->{TYPE} eq "STRUCT" or $d->{DATA}->{TYPE} eq "UNION") { CheckPointerTypes($d->{DATA}, $x->{PROPERTIES}->{pointer_default}); } if (defined($d->{PROPERTIES}) && !defined($d->{DATA}->{PROPERTIES})) { $d->{DATA}->{PROPERTIES} = $d->{PROPERTIES}; } } if ($d->{TYPE} eq "FUNCTION") { CheckPointerTypes($d, $x->{PROPERTIES}->{pointer_default} # MIDL defaults to "ref" ); } } } # Add ORPC specific bits to an interface. sub InterfaceORPC($) { my $x = shift; # Add [in] ORPCTHIS *this, [out] ORPCTHAT *that # for 'object' interfaces if (util::has_property($x, "object")) { foreach my $e (@{$x->{DATA}}) { if($e->{TYPE} eq "FUNCTION") { $e->{PROPERTIES}->{object} = 1; unshift(@{$e->{ELEMENTS}}, { 'NAME' => 'ORPCthis', 'POINTERS' => 0, 'PROPERTIES' => { 'in' => '1' }, 'TYPE' => 'ORPCTHIS' }); unshift(@{$e->{ELEMENTS}}, { 'NAME' => 'ORPCthat', 'POINTERS' => 0, 'PROPERTIES' => { 'out' => '1' }, 'TYPE' => 'ORPCTHAT' }); } } } } sub Load($) { my $idl = shift; foreach my $x (@{$idl}) { LoadInterface($x); } } ##################################################################### # parse a parsed IDL structure back into an IDL file sub Parse($$) { my($idl) = shift; my($filename) = shift; my $h_filename = $filename; $res = ""; Load($idl); if ($h_filename =~ /(.*)\.c/) { $h_filename = "$1.h"; } pidl "/* parser auto-generated by pidl */"; pidl ""; pidl "#include \"includes.h\""; pidl "#include \"$h_filename\""; pidl ""; foreach my $x (@{$idl}) { if ($x->{TYPE} eq "INTERFACE") { needed::BuildNeeded($x); ParseInterface($x); } } RegistrationFunction($idl, $filename); return $res; } RegisterPrimitives(); 1;