Add a tool that (semi)automatically created the API documentation

required for FIPS.

fips/tools/README

+FIPS tools explained
+====================
+
+api_list.pl
+    a script to produce an API description, saying what parameters are
+    for input, output or both.
+
+    Most often, the direction of a parameter is determined automatically.
+    However, quite a number of them are educated guesses.  Either way,
+    the information is stored in the file declarations.dat in this
+    directory, and can be manually corrected; simply go through
+    declarations.dat, look for any value with the key 'direction'
+    where the value contains a question mark.  Those should be changed
+    to whatever is true, and the values should be one of the
+    following:
+
+	<-	output
+	->	input
+	<->	both
+
+api_fns.pm
+    a module that helps api_list.pl do its job.
+
+declarations.dat
+    a file of information about public fips symbols.  See api_list.pl
+    above.

fips/tools/api_fns.pm

+package api_data;
+use strict;
+
+use Data::Dumper;
+use File::Slurp;
+
+# The basic data store for a declaration is a hash holding the following
+# information (let's simply call this structure "declaration"):
+# sym       => string (the symbol of the declaration)
+# symcomment=> string (if there's a comment about this symbol) or undef
+# type      => string (type definition text, with a '?' where the symbol should be
+# kind      => 0 (variable)
+#              1 (function)
+# params    => list reference (list of declarations, one for each parameter)
+#              [only exists when kind = 1]
+# direction => 0 (input)
+#              1 (output)
+#              2 (input and output)
+#              3 (output or input and output)
+#              +4 (guess)
+#              [only exists when this symbol is a parameter to a function]
+
+# Constructor
+sub new {
+    my $class = shift;
+    my $self = {};
+    $self->{DECLARATIONS} = {};
+    bless($self, $class);
+    return $self;
+}
+
+sub read_declaration_db {
+    my $self = shift;
+    my $declaration_file = shift;
+    my $buf = read_file($declaration_file);
+    $self->{DECLARATIONS} = eval $buf;
+    die $@ if $@;
+}
+
+sub write_declaration_db {
+    my $self = shift;
+    my $declaration_file = shift;
+
+    $Data::Dumper::Purity = 1;
+    open FILE,">".$declaration_file ||
+	die "Can't open '$declaration_file': $!\n";
+    print FILE "my ",Data::Dumper->Dump([ $self->{DECLARATIONS} ], [qw(declaration_db)]);
+    close FILE;
+}
+
+sub insert_declaration {
+    my $self = shift;
+    my %decl = @_;
+    my $sym = $decl{sym};
+
+    if ($self->{DECLARATIONS}->{$sym}) {
+	foreach my $k (('sym', 'symcomment','oldsym','objfile','kind')) {
+	    $self->{DECLARATIONS}->{$sym}->{$k} = $decl{$k};
+	}
+	if ($self->{DECLARATIONS}->{$sym}->{kind} == 1) {
+	    # Replace parameters only if the kind or type has changed
+	    my $oldp = $self->{DECLARATIONS}->{$sym}->{params};
+	    my $newp = $decl{params};
+	    my $l = scalar(@{$oldp});
+	    for my $pn (0..($l - 1)) {
+		if ($oldp->[$pn]->{kind} != $newp->[$pn]->{kind}
+		    || $oldp->[$pn]->{type} ne $newp->[$pn]->{type}) {
+		    $self->{DECLARATIONS}->{$sym}->{params} = $newp;
+		}
+	    }
+	}
+    } else {
+	$self->{DECLARATIONS}->{$decl{sym}} = { %decl };
+    }
+}
+
+# Input is a simple C declaration, output is a declaration structure
+sub _parse_declaration {
+    my $decl = shift;
+    my $newname = shift;
+    my $objfile = shift;
+    my $namecomment = shift;
+    my %parsed_decl = ();
+
+    my $debug = 0;
+
+    print "DEBUG: going to parse: $decl\n" if $debug;
+
+    # Start with changing all parens to { and } except the outermost
+    # Within these, convert all commas to semi-colons
+    my $s = "";
+    do {
+	print "DEBUG: decl: $decl\n" if $debug;
+	$s = $decl;
+	if ($decl =~ m/
+		       \(
+		         ([^\(\)]*)
+		         \(
+		           ([^\(\)]*)
+		         \)
+		     /x) {
+	    print "DEBUG: \`: $`\n" if $debug;
+	    print "DEBUG: 1: $1\n" if $debug;
+	    print "DEBUG: 2: $2\n" if $debug;
+	    print "DEBUG: \': $'\n" if $debug;
+
+	    my $a = "$`"."("."$1";
+	    my $b = "{"."$2"."}";
+	    my $c = "$'";
+	    print "DEBUG: a: $a\n" if $debug;
+	    print "DEBUG: b: $b\n" if $debug;
+	    print "DEBUG: c: $c\n" if $debug;
+	    $b =~ s/,/;/g;
+	    print "DEBUG: b: $b\n" if $debug;
+
+	    $decl = $a.$b.$c;
+	}
+    } while ($s ne $decl);
+
+    # There are types that we look for.  The first is the function pointer
+    # T (*X)(...)
+    if ($decl =~ m/
+		   ^\s*
+		   ([^\(]+)	# Return type of the function pointed at
+		   \(
+		     \s*\*\s*
+		     ([^\)]*)	# Function returning or variable holding fn ptr
+		   \)
+		   \s*
+		   \(
+		     ([^\)]*)	# Parameter for the function pointed at
+		   \)
+		   \s*$
+		 /x) {
+	print "DEBUG: function pointer variable or function\n" if $debug;
+	print "DEBUG:  1: $1\n" if $debug;
+	print "DEBUG:  2: $2\n" if $debug;
+	print "DEBUG:  3: $3\n" if $debug;
+
+	my $tmp1 = $1 . "(*?)" . "(" . $3 . ")";
+	my $tmp2 = $2;
+
+	$tmp1 =~ tr/\{\}\;/(),/; # Convert all braces and semi-colons
+				# back to parens and commas
+
+	$tmp2 =~ tr/\{\}\;/(),/; # Convert all braces and semi-colons
+				# back to parens and commas
+
+	# Parse the symbol part with a fake type.  This will determine if
+	# it's a variable or a function.
+	my $subdeclaration = _parse_declaration("int " . $tmp2, $newname);
+	map { $parsed_decl{$_} = $subdeclaration->{$_} } ( "sym",
+							   "kind",
+							   "params" );
+	$parsed_decl{symcomment} = $namecomment if $namecomment;
+	$parsed_decl{type} = $tmp1;
+    }
+    # If that wasn't it, check for the simple function declaration
+    # T X(...)
+    elsif ($decl =~ m/^\s*(.*?\W)(\w+)\s*\(\s*(.*)\s*\)\s*$/) {
+	print "DEBUG: function\n" if $debug;
+	print "DEBUG:  1: $1\n" if $debug;
+	print "DEBUG:  2: $2\n" if $debug;
+	print "DEBUG:  3: $3\n" if $debug;
+
+	$parsed_decl{kind} = 1;
+	$parsed_decl{type} = $1."?";
+	$parsed_decl{sym} = $newname ? $newname : $2;
+	$parsed_decl{symcomment} = $namecomment if $namecomment;
+	$parsed_decl{oldsym} = $newname ? $2 : undef;
+	$parsed_decl{params} = [
+	    map { tr/\{\}\;/(),/; _parse_declaration($_,undef,undef,undef) }
+	    grep { !/^\s*void\s*$/ }
+	    split(/\s*,\s*/, $3)
+	    ];
+    }
+    # If that wasn't it either, try to get a variable
+    # T X or T X[...]
+    elsif ($decl =~ m/^\s*(.*\W)(\w+)(\s*\[.*\])?\s*$/) {
+	print "DEBUG: variable\n" if $debug;
+	print "DEBUG:  1: $1\n" if $debug;
+	print "DEBUG:  2: $2\n" if $debug;
+
+	$parsed_decl{kind} = 0;
+	$parsed_decl{type} = $1."?";
+	$parsed_decl{sym} = $newname ? $newname : $2;
+	$parsed_decl{symcomment} = $namecomment if $namecomment;
+	$parsed_decl{oldsym} = $newname ? $2 : undef;
+    }
+    # Special for the parameter "..."
+    elsif ($decl =~ m/^\s*\.\.\.\s*$/) {
+	%parsed_decl = ( kind => 0, type => "?", sym => "..." );
+    }
+    # Otherwise, we got something weird
+    else {
+	print "Warning: weird declaration: $decl\n";
+	%parsed_decl = ( kind => -1, decl => $decl );
+    }
+    $parsed_decl{objfile} = $objfile;
+
+    print Dumper({ %parsed_decl }) if $debug;
+    return { %parsed_decl };
+}
+
+sub add_declaration {
+    my $self = shift;
+    my $parsed = _parse_declaration(@_);
+    $self->insert_declaration( %{$parsed} );
+}
+
+sub complete_directions {
+    my $self = shift;
+    foreach my $sym (keys %{$self->{DECLARATIONS}}) {
+	if ($self->{DECLARATIONS}->{$sym}->{kind} == 1) {
+	    map {
+		if (!$_->{direction} || $_->{direction} =~ m/\?/) {
+		    if ($_->{type} =~ m/const/) {
+			$_->{direction} = '->'; # Input
+		    } elsif ($_->{sym} =~ m/ctx/ || $_->{type} =~ m/ctx/i) {
+			$_->{direction} = '<-?'; # Guess output
+		    } elsif ($_->{type} =~ m/\*/) {
+			if ($_->{type} =~ m/(short|int|char|size_t)/) {
+			    $_->{direction} = '<-?'; # Guess output
+			} else {
+			    $_->{direction} = '<-? <->?'; # Guess output or input/output
+			}
+		    } else {
+			$_->{direction} = '->'; # Input
+		    }
+		}
+	    } @{$self->{DECLARATIONS}->{$sym}->{params}};
+	}
+    }
+}
+
+sub on_all_declarations {
+    my $self = shift;
+    my $fn = shift;
+    foreach my $sym (sort keys %{$self->{DECLARATIONS}}) {
+	&$fn($self->{DECLARATIONS}->{$sym});
+    }
+}
+
+sub get_function_declaration_strings_from_file {
+    my $fn = shift;
+    my %declarations = ();
+    my $line = "";
+    my $cppline = "";
+
+    my $debug = 0;
+
+    foreach my $headerline (`cat $fn`) {
+	chomp $headerline;
+	print STDERR "DEBUG0: $headerline\n" if $debug;
+	# First, treat the line at a CPP level; remove comments, add on more
+	# lines if there's an ending backslash or an incomplete comment.
+	# If none of that is true, then remove all comments and check if the
+	# line starts with a #, skip if it does, otherwise continue.
+	if ($cppline && $headerline) { $cppline .= " "; }
+	$cppline .= $headerline;
+	$cppline =~ s^\"(.|\\\")*\"^@@^g; # Collapse strings
+	$cppline =~ s^/\*.*?\*/^^g;	  # Remove all complete comments
+	print STDERR "DEBUG1: $cppline\n" if $debug;
+	if ($cppline =~ m/\\$/) { # Keep on reading if the current line ends
+				  # with a backslash
+	    $cppline = $`;
+	    next;
+	}
+	next if $cppline =~ m/\/\*/; # Keep on reading if there remains the
+				     # start of a comment
+	next if $cppline =~ m/"/;    # Keep on reading if there remains the
+				     # start of a string
+	if ($cppline =~ m/^\#/) {
+	    $cppline = "";
+	    next;
+	}
+
+	# Done with the preprocessor part, add the resulting line to the
+	# line we're putting together to get a statement.
+	if ($line && $cppline) { $line .= " "; }
+	$line .= $cppline;
+	$cppline = "";
+	$line =~ s%extern\s+\@\@\s+\{%%g; # Remove 'extern "C" {'
+	$line =~ s%\{[^\{\}]*\}%\$\$%g; # Collapse any compound structure
+	print STDERR "DEBUG2: $line\n" if $debug;
+	next if $line =~ m%\{%;	# If there is any compound structure start,
+	# we are not quite done reading.
+	$line =~ s%\}%%;		# Remove a lonely }, it's probably a rest
+	# from 'extern "C" {'
+	$line =~ s%^\s+%%;		# Remove beginning blanks
+	$line =~ s%\s+$%%;		# Remove trailing blanks
+	$line =~ s%\s+% %g;		# Collapse multiple blanks to one.
+	if ($line =~ m/;/) {
+	    print STDERR "DEBUG3: $`\n" if $debug;
+	    my $decl = $`;	#`; # (emacs is stupid that way)
+	    $line = $';		#'; # (emacs is stupid that way)
+
+	    # Find the symbol by taking the declaration and fiddling with it:
+	    # (remember, we're just extracting the symbol, so we're allowed
+	    # to cheat here ;-))
+	    # 1. Remove all paired parenthesies, innermost first.  While doing
+	    #    this, if something like "(* foo)(" is found, this is a
+	    #    function pointer; change it to "foo("
+	    # 2. Remove all paired square parenthesies.
+	    # 3. Remove any $$ with surrounding spaces.
+	    # 4. Pick the last word, that's the symbol.
+	    my $tmp;
+	    my $sym = $decl;
+	    print STDERR "DEBUG3.1: $sym\n" if $debug;
+	    do {
+		$tmp = $sym;
+		# NOTE: The order of these two is important, and it's also
+		# important not to use the g modifier.
+		$sym =~ s/\(\s*\*\s*(\w+)\s*\)\s*\(/$1(/;
+		$sym =~ s/\([^\(\)]*\)//;
+		print STDERR "DEBUG3.2: $sym\n" if $debug;
+	    } while ($tmp ne $sym);
+	    do {
+		$tmp = $sym;
+		$sym =~ s/\[[^\[\]]*\]//g;
+	    } while ($tmp ne $sym);
+	    $sym =~ s/\s*\$\$\s*//g;
+	    $sym =~ s/.*[\s\*](\w+)\s*$/$1/;
+	    print STDERR "DEBUG4: $sym\n" if $debug;
+	    if ($sym =~ m/\W/) {
+		print STDERR "Warning[$fn]: didn't find proper symbol in declaration:\n";
+		print STDERR "    decl: $decl\n";
+		print STDERR "    sym:  $sym\n";
+	    }
+	    $declarations{$sym} = $decl;
+	}
+    }
+    return %declarations;
+}
+
+1;

fips/tools/api_list.pl

+#!/bin/env perl
+#
+# Quick and dirty utility to help assemble the mandated (but otherwise
+# useless) API documentation. We get the list of external function
+# symbols from fipscanister.o, pair those with the source file names
+# (from ./fips/fipssyms.h), and map to the object file name containing
+# them.
+# 
+# Requires the "nm" and "find" utilities.
+# Execure from the root of the FIPS module source code workarea
+
+use HTML::Entities;
+use File::Basename;
+
+$here = dirname($0);
+require "$here/api_fns.pm";
+
+$_direction_question = ''; # Set to '?' to show "<-?", "<->?" for uncertain directions
+
+print STDERR "Info: finding FIPS renames and reimplementations of OpenSSL symbols\n";
+# Get mapping of old (source code) to new (live as renamed) symbols
+foreach $file ("./fips/fipssyms.h") {
+    open(IN, $file) || die "Error opening $file";
+    # grab pairs until assembler symbols
+    my $buf = '';
+    my $reimplementations = 1;	# When 1, we're looking at reimplementations
+				# (not renames) of OpenSSL functions.  They
+				# still have to be saved to get the API.
+    while (<IN>) {
+	$reimplementations = 0 if m|^\s*/\*\sRename\ssymbols\s|;
+
+	if ($buf) {
+	    $_ = $buf . $_;
+	    $buf = '';
+	}
+	if (s/\\\n$//) {
+	    $buf = $_;
+	    next;
+	}
+	if (m/\(/) {
+	    ($oldname, $newname) = m/#define\s+(\S+)\(.*\)\s+(\S+)\(.*\)/;
+	} else {
+	    ($oldname, $newname) = m/#define\s+(\S+)\s+(\S+)/;
+	}
+
+	$oldname || next;
+	if (!$reimplementations) {
+	    $oldname{$newname} = $oldname;
+	}
+	$oldimpl{$newname} = $oldname;
+	last if (/assembler/)
+    }
+    close(IN);
+    # %oldname is the mapping of new function names to old
+    print "<!-- Total of ", scalar(keys %oldname), " mapped symbols in $file -->\n";
+}
+
+print STDERR "Info: finding FIPS symbols in object files\n";
+# generate list of external function names in fipscanister.o
+$file = "./fips/fipscanister.o";
+for (`nm -g --defined-only -p -o $file`) {
+    chomp;
+    s/^\S+ T // || next;
+    m/^fips_/ && next;
+    $fipssyms{$_}++;
+    $objname =~ s/\.o$/\.\[o\|c\]/;
+    $objname{$symname} = $objname;
+}
+# keys %fipssyms is the list of module functions
+print "<!-- Total of ", scalar(keys %fipssyms), " functions in $file -->\n";
+
+# grab filename to symbol name mapping, each line is of the format
+#	./fips/sha/fips_sha1_selftest.o:00000000 T FIPS_selftest_sha1
+# discard the offset and type ":00000000 T".
+for (`find . -name '*.o' \\! -name 'fipscanister.o' -exec nm -g --defined-only -p -o {} \\;`) {
+        ($objname, $symname) = m/^(\S+):\S+\s+T+\s+(\S+)/;
+        $objname || next;
+#	$fipssyms{$symname} || next;
+	$objname =~ s/\.o$/\.\[o\|c\]/;
+        $objname{$symname} = $objname;
+        }
+# %objname is the mapping of new symbol name to (source/object) file name
+print "<!-- Total of ", scalar(keys %objname), " functions found in files -->\n";
+
+print STDERR "Info: finding declarations in header files\n";
+
+# grab filenames in include/openssl, run each of them through
+# get_function_declarations_from_file (defined in api_fns.pl)
+# and collect the result.
+%declarations = ();
+while (<include/openssl/*.h ./crypto/cryptlib.h>) {
+    my %decls = api_data::get_function_declaration_strings_from_file($_);
+    map { $declarations{$_} = $decls{$_} } keys %decls;
+}
+# %declarations is the mapping of old symbol name to their declaration
+print "<!-- Total of ", scalar(keys %declarations), " declarations found in header files -->\n";
+
+# Add the markers FIPS_text_start and FIPS_text_end
+$declarations{FIPS_text_start} = "void *FIPS_text_start()";
+$declarations{FIPS_text_end} = "void *FIPS_text_end()";
+
+
+# Read list of API names obtained from edited "nm -g fipscanister.o"
+$spill = 0;
+sub printer {
+    foreach (@_) {
+	if ($_->{kind} >= 0) {
+	    if ($spill) {
+		print " " x $indent;
+		print "kind:     ",$_->{kind} ? "function" : "variable","\n";
+		print " " x $indent;
+		print "sym:      ",$_->{sym},"\n";
+		print " " x $indent;
+		print "type:     ",$_->{type},"\n";
+	    }
+	    if ($_->{kind}) {
+		$c = 0;
+		map {
+		    if ($spill) {
+			print " " x $indent;
+			printf "param %d:\n", ++$c;
+		    }
+		    $indent += 2;
+		    printer($_);
+		    my $direction = $_->{direction};
+		    if (!$_direction_question) {
+			$direction =~ s/<-\? <->\?/<->/;
+			$direction =~ s/\?//g;
+		    }
+		    print " " x $indent,$direction," ",$_->{sym},"\n";
+		    $indent -= 2;
+		} @{$_->{params}};
+		if ($_->{type} !~ m/^\s*void\s*$/) {
+		    print " " x $indent;
+		    print "<- Return\n";
+		}
+	    }
+	} else {
+	    if ($spill) {
+		print " " x $indent;
+		print "decl:     ",$_->{decl},"\n";
+	    }
+	}
+    }
+}
+
+sub html_printer {
+    my $print_mode = shift;	# 0 = print declaration with symbol in bold,
+				#     call recursively with 1 for each parameter,
+				#     call recursively with 2 for each parameter
+				# 1 = print declaration with sym grey background,
+				#     call recursivelt with 3 for each parameter
+				# 2 = just print declaration
+    my $d = shift;		# Parsed declaration
+    my $s = '';
+
+    if ($print_mode == 0) {
+	$d->{sym} || return $s;
+	my $h = "<hr><br />\n";
+	$h .= $d->{sym} . ($d->{symcomment} ? " " . $d->{symcomment} : "");
+	$h .= " in file " . $d->{objfile} . "<br />\n<br />\n";
+
+	$s .= '<b>' . $d->{sym} . '</b>';
+	if ($d->{kind} == 1) {
+	    $s .= '(';
+	    $s .= join(', ',
+		       map {
+			   html_printer(1,$_);
+		       } @{$d->{params}});
+	    $s .= ')';
+	}
+	my $t = $d->{type};
+	$t =~ s/\?/$s/;
+	$s = $t;
+	if ($d->{kind} == 1) {
+	    map {
+		my $direction = $_->{direction};
+		if (!$_direction_question) {
+		    $direction =~ s/<-\? <->\?/<->/;
+		    $direction =~ s/\?//g;
+		}
+		$s .= "<br />\n";
+		$s .= encode_entities($direction
+				      . "\xA0" x (9 - length($direction)));
+		$s .= $_->{sym};
+	    } @{$d->{params}};
+	}
+	if ($d->{type} !~ m/^\s*void\s*\?$/) {
+	    $s .= "<br />\n";
+	    $s .= encode_entities('<-'.("\xA0" x 7).'Return');
+	}
+	$s = $h . $s;
+    } elsif ($print_mode == 1) {
+	$s .= '<span style="background: #c0c0c0">' . $d->{sym} . '</span>';
+	if ($d->{kind} == 1) {
+	    $s .= '(';
+	    $s .= join(', ',
+		       map {
+			   html_printer(3,$_);
+		       } @{$d->{params}});
+	    $s .= ')';
+	}
+	my $t = $d->{type};
+	$t =~ s/\?/$s/;
+	$s = $t;
+    } elsif ($print_mode == 2) {
+	$s .= $d->{sym};
+	if ($d->{kind} == 1) {
+	    $s .= '(';
+	    $s .= join(', ',
+		       map {
+			   html_printer(2,$_);
+		       } @{$d->{params}});
+	    $s .= ')';
+	}
+	my $t = $d->{type};
+	$t =~ s/\?/$s/;
+	$s = $t;
+    }
+    return $s;
+}
+
+print STDERR "Info: building/updating symbol information database\n";
+
+$d = api_data->new();
+if (-s "$here/declarations.dat") {
+    $d->read_declaration_db("$here/declarations.dat");
+} else {
+    print STDERR "Warning: there was no file '$here/declarations.dat'.  A new one will be created\n";
+}
+
+for (sort keys %fipssyms) {
+    $newname = $_;
+    $namecomment = undef;
+    if ($oldname{$newname}) {
+	$oldname = $oldname{$newname};
+	$objname = $objname{$oldname} ? $objname{$oldname} : $objname{$newname};
+	$namecomment = "(renames $oldname)";
+    } else {
+	$objname = $objname{$newname};
+    }
+    if ($oldimpl{$newname}) {
+	$apisym = $oldimpl{$newname};
+	$namecomment = "(reimplements $apisym)" if !$namecomment;
+    } else {
+	$apisym = $newname;
+    }
+    $declaration = $declarations{$apisym};
+    print "<!--\n";
+    print "$newname\t\t$namecomment\tin file $objname:\n";
+    print "  ",$declaration,"\n  ";
+    $d->add_declaration($declaration,$newname,$objname,$namecomment);
+    print "-->\n";
+}
+
+$d->complete_directions();
+$d->write_declaration_db("$here/declarations.dat");
+
+print STDERR "Info: printing output\n";
+
+$d->on_all_declarations(
+    sub {
+	my $decl = shift; 
+	#$indent = 2;
+	#print printer($decl);
+	print "<p>",html_printer(0,$decl),"</p>\n";
+    });