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SubjectRe: Wrong system clock vs X.509 date specifiers
Date

How about the attached? I knew perl had to be good for something...

David
---
#!/usr/bin/perl -w
#
# Generate an X.509 certificate from a public key.
#
# Format:
#
# gen-x509-cert <private-key> \
# [C=<country>] [O=<org>] [CN=<cn>] [Email=<email>] \
# [--from=<secs-before-now>] [--to=<secs-after-now] >output
#
use strict;
use POSIX qw(strftime);

my $UNIV = 0 << 6;
my $APPL = 1 << 6;
my $CONT = 2 << 6;
my $PRIV = 3 << 6;

my $BOOLEAN = 0x01;
my $INTEGER = 0x02;
my $BIT_STRING = 0x03;
my $OCTET_STRING = 0x04;
my $NULL = 0x05;
my $OBJ_ID = 0x06;
my $UTF8String = 0x0c;
my $SEQUENCE = 0x10;
my $SET = 0x11;
my $GeneralizedTime = 0x18;

my %OIDs = (
commonName => pack("CCC", 85, 4, 3),
countryName => pack("CCC", 85, 4, 6),
organizationName => pack("CCC", 85, 4, 10),
organizationUnitName => pack("CCC", 85, 4, 11),
rsaEncryption => pack("CCCCCCCCC", 42, 134, 72, 134, 247, 13, 1, 1, 1),
sha1WithRSAEncryption => pack("CCCCCCCCC", 42, 134, 72, 134, 247, 13, 1, 1, 5),
emailAddress => pack("CCCCCCCCC", 42, 134, 72, 134, 247, 13, 1, 9, 1),
authorityKeyIdentifier => pack("CCC", 85, 29, 35),
subjectKeyIdentifier => pack("CCC", 85, 29, 14),
keyUsage => pack("CCC", 85, 29, 15),
basicConstraints => pack("CCC", 85, 29, 19)
);


#
# Set up the X.509 params
#
die "Format: <private-key> [options]"
if ($#ARGV == -1);

my $privfilename = shift @ARGV;

my %subject_name;

if ($#ARGV == -1) {
# Make something up if they don't want to admit to it
$subject_name{"C"} = 'h2g2',
$subject_name{"O"} = 'Magrathea',
$subject_name{"CN"} = 'Glacier signing key',
$subject_name{"Email"} = 'slartibartfast@magrathea.h2g2'
}

my $from = 7 * 24 * 60 * 60;
my $to = 36500 * 24 * 60 * 60;
foreach my $_ (@ARGV) {
if (/--from=(.*)/) {
$from = $1;
} elsif (/--to=(.*)/) {
$to = $1;
} elsif (/([A-Z][A-Za-z]*)=(.*)/) {
$subject_name{$1} = $2;
} else {
last;
}
}

my $now = time();
my $valid_from = strftime("%Y%m%d%H%M%SZ", gmtime($now - $from));
my $valid_to = strftime("%Y%m%d%H%M%SZ", gmtime($now + $to));

#
# openssl can be used to give us the public key in exactly the form we need -
# including ASN.1 wrappings - for inclusion in the certificate.
#
open PUBKEYFD, "openssl rsa -in $privfilename -pubout -outform DER 2>/dev/null |" ||
die "Unable to process $privfilename through openssl rsa: $!\n";
binmode PUBKEYFD;

my $pubkey = "";
my $tmp;
while (read(PUBKEYFD, $tmp, 512)) {
$pubkey .= $tmp;
}
close PUBKEYFD ||
die "Unable to close channel to openssl rsa: $!\n";

#
# Generate a serial number
#
my $serial = "";
for (my $i = int(rand(6)) + 6; $i > 0; $i--) {
$serial .= pack("C", rand(256));
}
$serial = pack("x") . $serial
if (unpack("C", substr($serial, 0, 1)) >= 0x80);

#
# Generate the SubjectKeyIdentifier. This is the ASN.1 sum of the contents of
# the bit string element from the public key.
#
die "Can't disassemble RSA public key wrapping\n"
if (substr($pubkey, 0, 2) ne pack("n", 0x3082) ||
substr($pubkey, 4, 4) ne pack("N", 0x300d0609) ||
substr($pubkey, 8, 9) ne $OIDs{"rsaEncryption"} ||
substr($pubkey, 17, 2) ne pack("n", 0x0500) ||
substr($pubkey, 19, 2) ne pack("n", 0x0382) ||
substr($pubkey, 23, 1) ne pack("C", 0x00));

my $key_data = substr($pubkey, 24);

sub sha1sum($)
{
my ($data) = @_;

my ($TO_RD, $TO_WR, $FROM_RD, $FROM_WR);
pipe $TO_RD, $TO_WR;
pipe $FROM_RD, $FROM_WR;

my $sha1output;
my $child = fork();
if ($child == 0) {
close $TO_WR;
close $FROM_RD;
open(STDIN, ">&", $TO_RD) or die "Can't direct $TO_RD to STDIN: $!";
open(STDOUT, ">&", $FROM_WR) or die "Can't direct $FROM_WR to STDOUT: $!";
close $TO_RD;
close $FROM_WR;
exec("sha1sum");
} elsif (!$child) {
die;
} else {
close $TO_RD;
close $FROM_WR;
binmode $TO_WR;
syswrite $TO_WR, $data || die;
close $TO_WR || die;
$sha1output = <$FROM_RD> || die;
close $FROM_RD;
die "sha1sum failed\n"
if (waitpid($child, 0) != $child);
}

return pack("H*", substr($sha1output, 0, 40));
}

my $keyid = sha1sum($key_data);

###############################################################################
#
# Generate a header
#
###############################################################################
sub emit_asn1_hdr($$)
{
my ($tag, $len) = @_;

if ($len < 0x80) {
return pack("CC", $tag, $len);
} elsif ($len <= 0xff) {
return pack("CCC", $tag, 0x81, $len);
} elsif ($len <= 0xffff) {
return pack("CCn", $tag, 0x82, $len);
} elsif ($len <= 0xffffff) {
return pack("CCCn", $tag, 0x83, $len >> 16, $len & 0xffff);
} else {
return pack("CCN", $tag, 0x84, $len);
}
}

###############################################################################
#
# Generate a primitive containing some data
#
###############################################################################
sub emit_asn1_prim(@)
{
my ($class, $tag, $data) = @_;

$data = ""
if ($#_ == 1);

$tag |= $class;
return emit_asn1_hdr($tag, length($data)) . $data;
}

###############################################################################
#
# Generate an object identifier
#
###############################################################################
sub emit_asn1_OID($$$)
{
my ($class, $tag, $oid_name) = @_;
my $oid;

if (!exists($OIDs{$oid_name})) {
print STDERR "Unknown OID: $oid_name\n";
exit(2);
}

$oid = $OIDs{$oid_name};
return emit_asn1_hdr($class | $tag, length($oid)) . $oid;
}

###############################################################################
#
# Generate a bit string. This has a leading byte indicating the number of
# trailing bits that should be ignored.
#
###############################################################################
sub emit_asn1_bts($$$)
{
my ($class, $tag, $content) = @_;
return emit_asn1_prim($class, $tag, pack("x") . $content);
}

###############################################################################
#
# Generate a construct
#
###############################################################################
sub emit_asn1_cons($$$)
{
my ($class, $tag, $content) = @_;

return emit_asn1_hdr($class | 0x20 | $tag, length($content)) . $content;
}

###############################################################################
#
# Generate a name
#
###############################################################################
sub emit_x509_AttributeValueAssertion($$$)
{
my ($type, $name, $sym) = @_;
my $output;
my $data;

return "" if (!exists($name->{$sym}));

$data = $name->{$sym};
$output = emit_asn1_OID($UNIV, $OBJ_ID, $type); # attributeType
$output .= emit_asn1_prim($UNIV, $UTF8String, $data); # attributeValue
return emit_asn1_cons($UNIV, $SET,
emit_asn1_cons($UNIV, $SEQUENCE, $output));
}

sub emit_x509_RelativeDistinguishedName($)
{
my ($name) = @_;
my $output;

# SET OF AttributeValueAssertion
$output .= emit_x509_AttributeValueAssertion("countryName", $name, "C");
$output .= emit_x509_AttributeValueAssertion("organizationName", $name, "O");
$output .= emit_x509_AttributeValueAssertion("organizationUnitName", $name, "OU");
$output .= emit_x509_AttributeValueAssertion("commonName", $name, "CN");
$output .= emit_x509_AttributeValueAssertion("emailAddress", $name, "Email");
return $output;
}

sub emit_x509_Name($)
{
my ($name) = @_;
my $output;

# SEQUENCE OF RDN
$output = emit_x509_RelativeDistinguishedName($name);
return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

###############################################################################
#
# Generate some X.509 extensions
#
###############################################################################
sub emit_x509_SubjectKeyIdentifier()
{
return emit_asn1_prim($UNIV, $OCTET_STRING, $keyid);
}

sub emit_x509_AuthorityKeyIdentifier()
{
my $content = emit_asn1_prim($CONT, 0, $keyid);
return emit_asn1_cons($UNIV, $SEQUENCE, $content);
}

sub emit_x509_BasicConstraints()
{
return pack("CC", 0x30, 0x00);
}

sub emit_x509_KeyUsage()
{
return emit_asn1_prim($UNIV, $BIT_STRING, pack("CC", 0x07, 0x80));
}

sub emit_x509_Extension($@)
{
my ($ext, $crit) = @_;
my $output;
my $value = "";

if ($ext eq "authorityKeyIdentifier") {
$output = emit_asn1_OID($UNIV, $OBJ_ID, $ext);
$value = emit_x509_AuthorityKeyIdentifier();
} elsif ($ext eq "subjectKeyIdentifier") {
$output = emit_asn1_OID($UNIV, $OBJ_ID, $ext);
$value = emit_x509_SubjectKeyIdentifier();
} elsif ($ext eq "basicConstraints") {
$output = emit_asn1_OID($UNIV, $OBJ_ID, $ext);
$value = emit_x509_BasicConstraints();
} elsif ($ext eq "keyUsage") {
$output = emit_asn1_OID($UNIV, $OBJ_ID, $ext);
$value = emit_x509_KeyUsage();
} else {
die;
}

$output .= emit_asn1_prim($UNIV, $BOOLEAN, pack("C", 0x01)) # critical
if ($crit);
$output .= emit_asn1_hdr($UNIV | $OCTET_STRING, length($value)) . $value;

return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

sub emit_x509_Extensions()
{
my $output = "";

# Probably do want a sequence of extensions here
$output .= emit_x509_Extension("basicConstraints", 1);
$output .= emit_x509_Extension("keyUsage");
$output .= emit_x509_Extension("authorityKeyIdentifier");
$output .= emit_x509_Extension("subjectKeyIdentifier");

return emit_asn1_cons($CONT, 3, emit_asn1_cons($UNIV, $SEQUENCE, $output));
}

###############################################################################
#
# Sign a digest with an RSA key
#
###############################################################################
sub rsa_sign($)
{
my ($digest) = @_;

my ($TO_RD, $TO_WR, $FROM_RD, $FROM_WR);
pipe $TO_RD, $TO_WR;
pipe $FROM_RD, $FROM_WR;

my $output;
my $child = fork();
if ($child == 0) {
close $TO_WR;
close $FROM_RD;
open(STDIN, ">&", $TO_RD) or die "Can't direct $TO_RD to STDIN: $!";
open(STDOUT, ">&", $FROM_WR) or die "Can't direct $FROM_WR to STDOUT: $!";
close $TO_RD;
close $FROM_WR;
exec("openssl rsautl -sign -inkey $privfilename");
} elsif (!$child) {
die;
} else {
close $TO_RD;
close $FROM_WR;
binmode $TO_WR;
syswrite $TO_WR, $digest || die;
close $TO_WR || die;

my $tmp;
while (read($FROM_RD, $tmp, 512)) {
$output .= $tmp;
}
close $FROM_RD;
die "openssl rsautl failed\n"
if (waitpid($child, 0) != $child);
}

return $output;
}

###############################################################################
#
# Generate an X.509 certificate
#
###############################################################################
sub emit_x509_Validity()
{
my $output;
$output = emit_asn1_prim($UNIV, $GeneralizedTime, $valid_from); # notBefore
$output .= emit_asn1_prim($UNIV, $GeneralizedTime, $valid_to); # notAfter
return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

sub emit_x509_AlgorithmIdentifier($)
{
my ($oid) = @_;
my $output;

$output = emit_asn1_OID($UNIV, $OBJ_ID, $oid); # algorithm
$output .= emit_asn1_prim($UNIV, $NULL); # parameters
return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

sub emit_x509_Version()
{
# Version 3
my $output = emit_asn1_prim($UNIV, $INTEGER, pack("C", 3 - 1));
return emit_asn1_cons($CONT, 0, $output);
}

sub emit_x509_SubjectPublicKeyInfo()
{
my $output;
$output = emit_x509_AlgorithmIdentifier("rsaEncryption"); # algorithm
$output .= emit_asn1_prim($UNIV, $BIT_STRING); # subjectPublicKey
return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

sub emit_x509_TBSCertificate()
{
my $output;

$output = emit_x509_Version; # version
$output .= emit_asn1_prim($UNIV, $INTEGER, $serial); # serialNumber
$output .= emit_x509_AlgorithmIdentifier("sha1WithRSAEncryption"); # signature
$output .= emit_x509_Name(\%subject_name); # issuer
$output .= emit_x509_Validity(); # validity
$output .= emit_x509_Name(\%subject_name); # subject
#$output .= emit_x509_SubjectPublicKeyInfo(); # subjectPublicKeyInfo
$output .= $pubkey;
$output .= emit_x509_Extensions(); # extensions

return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

sub emit_x509_Certificate()
{
my $output;

$output = emit_x509_TBSCertificate(); # tbsCertificate

# We digest the TBS and sign it.
my $tbs_digest =
pack("C*", 0x30, 0x21, 0x30, 0x09, 0x06, 0x05,
0x2B, 0x0E, 0x03, 0x02, 0x1A,
0x05, 0x00, 0x04, 0x14) .
sha1sum($output);

my $sig = rsa_sign($tbs_digest);

$output .= emit_x509_AlgorithmIdentifier("sha1WithRSAEncryption"); # signatureAlgorithm
$output .= emit_asn1_bts($UNIV, $BIT_STRING, $sig); # signature

return emit_asn1_cons($UNIV, $SEQUENCE, $output);
}

print emit_x509_Certificate();


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