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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [net/] [snmp/] [agent/] [v2_0/] [utils/] [mib2c/] [mib2c] - Rev 174
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#!/usr/bin/perl#!/usr/bin/perl -w## Description:## This program, given an OID reference as an argument, creates some# template mib module files to be used with the ucd-snmp agent. It is# far from perfect and will not generate working modules, but it# significantly shortens development time by outlining the basic# structure.## Its up to you to verify what it does and change the default values# it returns.#use SNMP;use FileHandle;#use strict 'vars';$SNMP::save_descriptions=1;$SNMP::use_long_names=1;$SNMP::use_enums=1;SNMP::initMib();$configfile="mib2c.conf";$debug=0;$nostats = 0;sub usage {print "$0 [-h] [-c configfile] [-f prefix] mibNode\n\n";print " -h\t\tThis message.\n\n";print " -c configfile\tSpecifies the configuration file to use\n\t\tthat dictates what the output of mib2c will look like.\n\n";print " -f prefix\tSpecifies the output prefix to use. All code\n\t\twill be put into prefix.c and prefix.h\n\n";print " mibNode\tThe name of the top level mib node you want to\n\t\tgenerate code for. By default, the code will be stored in\n\t\tmibNode.c and mibNode.h (use the -f flag to change this)\n\n";print " -d\t\tdebugging output (dont do it. trust me.)\n\n";print " -s\t\tDon't display statistics at the end\n\n";1;}while($#ARGV >= 0) {$_ = shift;$configfile = shift if (/-c/);$debug = 1 if (/-d/);$nostats = 1 if (/-s/);usage && exit(1) if (/-h/);$outputName = shift if (/-f/);$oid = $_ if (/^[^-]/);}read_config($configfile);## internal conversion tables#%accessToUCD = qw(ReadOnly RONLY ReadWrite RWRITEWriteOnly RWRITE Create RWRITE);# The lengths of the defined 'variableN' structures@varLengths = (2,4,7,8,13);if (!defined($oid)) {print STDERR "You didn\'t specify a mib oid to convert!\n";usage();exit(1);}$mib = $SNMP::MIB{$oid};$_ = $commaoid = $fulloid = $mib->{'objectID'};if (!defined ($fulloid)) {print STDERR "Couldn\'t find mib reference: $oid\n";exit(1);}s/[^.]//g;$commaoid =~ s/\./,/g;$commaoid =~ s/^,//g;$outputName = $mib->{'label'} if (!defined($outputName));$OUTPUTNAME = uc($outputName);$vroutine="$outputName";print "outputting to $outputName.c and $outputName.h ...\n";#============================================## Walk the MIB tree, and construct strings# holding the various fragments of code needed.## 'loadMib' returns the length of the longest OID suffix# encountered.## The variables constructed and used are:## (in the header file)# functionInfo : A list of definitions for the table-handling functions,# and routines for SETtable variables.# (The main scalar handling routine is handled implicitly)## (in the code file)# structinfo : The contents of the variableN structure listing# the variables handled, including type, access level,# OID suffix and 'magic number'## caseStatements: A hash array (indexed by variable routine name)# containing the body of the switch statement# used for returning the appropriate values.# At a minimum, this consists of the various 'case' labels# If full type information is available (from mib2c.conf)# then this will also include a default initialiser,# and setting of a 'write_method' (if appropriate).## writeFuncs: A list of function skeletons for setting variables# (for variables with suitable access levels).# Note that this list will not include functions# for variables which don't provide type information# in the mib2c.conf file (even if such variables are# defined as writeable in the variableN structure).##============================================$count = 0;$depth = loadMib($mib,0)-1;# Determine which 'variableN' structure is neededfor($varlen = 0; $varlen <= $#varLengths; $varlen++) {last if ($depth <= $varLengths[$varlen]);}$varlen = $varLengths[$varlen];#============================================## Table-handling routines.##============================================foreach $vtable (@table_list) {foreach $ptable (@processtable) {$variables{$ptable}{'processed'} .=(eval "\"$variables{$ptable}{'code'}\"") . "\n\n";}$var_routines .=(eval "\"$variables{'code-var_table'}{'code'}\"") . "\n\n";}#============================================## Output the header file##============================================open(DOTH,">$outputName.h");print DOTH (eval "\"$variables{'code-dot-h'}{'code'}\"") . "\n";close(DOTH);#============================================## Output the code file:# Initialisation and main variable routine.##============================================open(DOTC,">$outputName.c");print DOTC (eval "\"$variables{'code-main-part'}{'code'}\"") . "\n\n";;close(DOTC);#============================================## Everyone loves statistics.##============================================print " depth: $depth\n";print " Number of Lines Created:\n";system("wc -l $outputName.c $outputName.h");print "Done.\n";#============================================## loadMib:# Recursive routine to walk the mib,# and construct the various code fragment strings.##============================================sub loadMib {my $mib = shift;my $i;my $depth = shift;$depth = $depth + 1;my $name = $mib->{'label'};my $NAME = uc($name);print "doing $mib->{label} : $mib->{objectID}\n" if $debug;if (defined($mib->{'access'}) &&$mib->{'access'} =~ /ReadOnly|ReadWrite|WriteOnly|Create|NoAccess/) {$count = $count + 1;$subid = $mib->{'objectID'};$subid =~ s/$fulloid\.//;$subid =~ s/\./,/g;if (!defined($variables{$mib->{'type'}}) && !defined($mib->{'indexes'})) {print STDERR "unknown type: $mib->{type} for $mib->{label} $mib->{'access'}\n";print STDERR "unknown type: no information generated for $mib->{label}\n";} else {foreach $i (@process) {next if (defined($variables{$i}{'skipif'}) &&eval $variables{$i}{'skipif'});my $result = (eval "\"$variables{$i}{'code'}\"");$variables{$i}{'processed'} .= "$result\n";$variables{$vroutine}{$i}{'processed'} .= "$result\n";}}if (defined($mib->{'indexes'})) {print "indexes: ", join(", ",@{$mib->{'indexes'}}),"\n" if ($debug);$variables{$vroutine}{'indexes'} = $mib->{'indexes'};foreach $i (@{$mib->{'indexes'}}) {$variables{$vroutine}{$i}{'isanindex'} = 1;}}}my $children = $$mib{'children'};my $i;my $newdepth = $depth;foreach $i (@{$children}) {if ( $name =~ /Table$/ ) {$vroutine="$name";push @table_list, $name;$newdepth = max(loadMib($i, $depth), $newdepth);$vroutine="$outputName";}else {$newdepth = max(loadMib($i, $depth), $newdepth);}}return $newdepth;}sub max {my $x = shift;my $y = shift;return ($x > $y) ? $x : $y;}sub read_config() {my $configfile = shift;my ($type, $lasttoken);my $fh = new FileHandle;if ( $fh->open("<$configfile") ) {while(<$fh>) {next if (/^\s*\#/ || /^\s*$/);if (/^\s*type:\s*(.*)/) {if (defined($type) && defined($lasttoken) &&defined ($variables{$type}{$lasttoken})) {chomp($variables{$type}{$lasttoken});}$type = $1;chomp($type);} elsif (/include:\s*(.*)/) {read_config($1);} elsif (/process:\s*(.*)/) {push (@process, $1);} elsif (/processtable:\s*(.*)/) {push (@processtable, $1);} elsif (/delete:\s*(.*)/) {delete($variables{$type}{$1});} elsif (/copy:\s*(.*)/) {my $item;chomp($1);foreach $item (keys(%{$variables{$1}})) {$variables{$type}{$item} = $variables{$1}{$item};}} else {if (/\s*([^:]*):(\s*.*)/) {if (!defined($variables{$type}{$1})) {if (defined($type) && defined($lasttoken) &&defined ($variables{$type}{$lasttoken})) {chomp($variables{$type}{$lasttoken});}$variables{$type}{$1} = $2;$lasttoken = $1;$variables{$type}{$1} =~ s/^\t+//;} else {# duplicate entry: tack it on.my ($x, $y) = ($1, $2);$y =~ s/^\t+//;$variables{$type}{$x} .= "\n" . $y;}} else {# continuation line, it started with spaces or a +s/^\s*//;s/^\+//;$variables{$type}{$lasttoken} .= "\n" . $_;chomp($variables{$type}{$lasttoken});}}}$fh->close();} else {warn "Config file ($configfile) not found.\n";}}sub evalstr {my $str = shift;# if ($str !~ /^\"/) {$str = "\"$str\""; # surround by quotes.# }eval ($str); # should return a string, with variables expanded}sub evalrstr {my $rstr = shift;# if ($str !~ /^\"/) {# $$rstr = "\"" . $$rstr . "\""; # surround by quotes.# }eval ("\"$$rstr\""); # should return a string, with variables expanded}