#!/usr/bin/perl -w # a simple system for generating C parse info # this can be used to write generic C structer load/save routines # Copyright 2002 Andrew Tridgell # released under the GNU General Public License v2 or later use strict; my(%enum_done) = (); my(%struct_done) = (); ################################################### # general handler sub handle_general($$$$$$$$) { my($name) = shift; my($ptr_count) = shift; my($size) = shift; my($element) = shift; my($flags) = shift; my($dump_fn) = shift; my($parse_fn) = shift; my($tflags) = shift; my($array_len) = 0; my($dynamic_len) = "NULL"; # handle arrays, currently treat multidimensional arrays as 1 dimensional while ($element =~ /(.*)\[(.*?)\]$/) { $element = $1; if ($array_len == 0) { $array_len = $2; } else { $array_len = "$2 * $array_len"; } } if ($flags =~ /_LEN\((\w*?)\)/) { $dynamic_len = "\"$1\""; } if ($flags =~ /_NULLTERM/) { $tflags = "FLAG_NULLTERM"; } print OFILE "{\"$element\", $ptr_count, $size, offsetof(struct $name, $element), $array_len, $dynamic_len, $tflags, $dump_fn, $parse_fn},\n"; } #################################################### # parse one element sub parse_one($$$$) { my($name) = shift; my($type) = shift; my($element) = shift; my($flags) = shift; my($ptr_count) = 0; my($size) = "sizeof($type)"; my($tflags) = "0"; # enums get the FLAG_ALWAYS flag if ($type =~ /^enum /) { $tflags = "FLAG_ALWAYS"; } # make the pointer part of the base type while ($element =~ /^\*(.*)/) { $ptr_count++; $element = $1; } # convert spaces to _ $type =~ s/ /_/g; my($dump_fn) = "gen_dump_$type"; my($parse_fn) = "gen_parse_$type"; handle_general($name, $ptr_count, $size, $element, $flags, $dump_fn, $parse_fn, $tflags); } #################################################### # parse one element sub parse_element($$$) { my($name) = shift; my($element) = shift; my($flags) = shift; my($type); my($data); # pull the base type if ($element =~ /^struct (\S*) (.*)/) { $type = "struct $1"; $data = $2; } elsif ($element =~ /^enum (\S*) (.*)/) { $type = "enum $1"; $data = $2; } elsif ($element =~ /^unsigned (\S*) (.*)/) { $type = "unsigned $1"; $data = $2; } elsif ($element =~ /^(\S*) (.*)/) { $type = $1; $data = $2; } else { die "Can't parse element '$element'"; } # handle comma separated lists while ($data =~ /(\S*),[\s]?(.*)/) { parse_one($name, $type, $1, $flags); $data = $2; } parse_one($name, $type, $data, $flags); } my($first_struct) = 1; #################################################### # parse the elements of one structure sub parse_elements($$) { my($name) = shift; my($elements) = shift; if ($first_struct) { $first_struct = 0; print "Parsing structs: $name"; } else { print ", $name"; } print OFILE "int gen_dump_struct_$name(struct parse_string *, const char *, unsigned);\n"; print OFILE "int gen_parse_struct_$name(char *, const char *);\n"; print OFILE "static const struct parse_struct pinfo_" . $name . "[] = {\n"; while ($elements =~ /^.*?([a-z].*?);\s*?(\S*?)\s*?\$(.*)/msi) { my($element) = $1; my($flags) = $2; $elements = $3; parse_element($name, $element, $flags); } print OFILE "{NULL, 0, 0, 0, 0, NULL, 0, NULL, NULL}};\n"; print OFILE " int gen_dump_struct_$name(struct parse_string *p, const char *ptr, unsigned indent) { return gen_dump_struct(pinfo_$name, p, ptr, indent); } int gen_parse_struct_$name(char *ptr, const char *str) { return gen_parse_struct(pinfo_$name, ptr, str); } "; } my($first_enum) = 1; #################################################### # parse out the enum declarations sub parse_enum_elements($$) { my($name) = shift; my($elements) = shift; if ($first_enum) { $first_enum = 0; print "Parsing enums: $name"; } else { print ", $name"; } print OFILE "static const struct enum_struct einfo_" . $name . "[] = {\n"; my(@enums) = split(/,/s, $elements); for (my($i)=0; $i <= $#{@enums}; $i++) { my($enum) = $enums[$i]; if ($enum =~ /\s*(\w*)/) { my($e) = $1; print OFILE "{\"$e\", $e},\n"; } } print OFILE "{NULL, 0}};\n"; print OFILE " int gen_dump_enum_$name(struct parse_string *p, const char *ptr, unsigned indent) { return gen_dump_enum(einfo_$name, p, ptr, indent); } int gen_parse_enum_$name(char *ptr, const char *str) { return gen_parse_enum(einfo_$name, ptr, str); } "; } #################################################### # parse out the enum declarations sub parse_enums($) { my($data) = shift; while ($data =~ /^GENSTRUCT\s+enum\s+(\w*?)\s*{(.*?)}\s*;(.*)/ms) { my($name) = $1; my($elements) = $2; $data = $3; if (!defined($enum_done{$name})) { $enum_done{$name} = 1; parse_enum_elements($name, $elements); } } if (! $first_enum) { print "\n"; } } #################################################### # parse all the structures sub parse_structs($) { my($data) = shift; # parse into structures while ($data =~ /^GENSTRUCT\s+struct\s+(\w+?)\s*{\s*(.*?)\s*}\s*;(.*)/ms) { my($name) = $1; my($elements) = $2; $data = $3; if (!defined($struct_done{$name})) { $struct_done{$name} = 1; parse_elements($name, $elements); } } if (! $first_struct) { print "\n"; } else { print "No GENSTRUCT structures found?\n"; } } #################################################### # parse a header file, generating a dumper structure sub parse_data($) { my($data) = shift; # collapse spaces $data =~ s/[\t ]+/ /sg; $data =~ s/\s*\n\s+/\n/sg; # strip debug lines $data =~ s/^\#.*?\n//smg; parse_enums($data); parse_structs($data); } ######################################### # display help text sub ShowHelp() { print " generator for C structure dumpers Copyright Andrew Tridgell Sample usage: genstruct -o output.h gcc -E -O2 -g test.h Options: --help this help page -o OUTPUT place output in OUTPUT "; exit(0); } ######################################## # main program if ($ARGV[0] ne "-o" || $#ARGV < 2) { ShowHelp(); } shift; my($opt_ofile)=shift; print "creating $opt_ofile\n"; open(OFILE, ">$opt_ofile") || die "can't open $opt_ofile"; print OFILE "/* This is an automatically generated file - DO NOT EDIT! */\n\n"; parse_data(`@ARGV -DGENSTRUCT=GENSTRUCT`); exit(0);