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+#!/usr/bin/perl -w -T
+
+# pem2openpgp: take a PEM-encoded RSA private-key on standard input, a
+# User ID as the first argument, and generate an OpenPGP secret key
+# and certificate from it.
+
+# WARNING: the secret key material *will* appear on stdout (albeit in
+# OpenPGP form) -- if you redirect stdout to a file, make sure the
+# permissions on that file are appropriately locked down!
+
+# Usage:
+
+# pem2openpgp 'ssh://'$(hostname -f) < /etc/ssh/ssh_host_rsa_key | gpg --import
+
+# Authors:
+# Jameson Rollins <jrollins@finestructure.net>
+# Daniel Kahn Gillmor <dkg@fifthhorseman.net>
+
+# Started on: 2009-01-07 02:01:19-0500
+
+# License: GPL v3 or later (we may need to adjust this given that this
+# connects to OpenSSL via perl)
+
+use strict;
+use warnings;
+use File::Basename;
+use Crypt::OpenSSL::RSA;
+use Crypt::OpenSSL::Bignum;
+use Crypt::OpenSSL::Bignum::CTX;
+use Digest::SHA1;
+use MIME::Base64;
+use POSIX;
+
+## make sure all length() and substr() calls use bytes only:
+use bytes;
+
+my $old_format_packet_lengths = { one => 0,
+ two => 1,
+ four => 2,
+ indeterminate => 3,
+};
+
+# see RFC 4880 section 9.1 (ignoring deprecated algorithms for now)
+my $asym_algos = { rsa => 1,
+ elgamal => 16,
+ dsa => 17,
+ };
+
+# see RFC 4880 section 9.2
+my $ciphers = { plaintext => 0,
+ idea => 1,
+ tripledes => 2,
+ cast5 => 3,
+ blowfish => 4,
+ aes128 => 7,
+ aes192 => 8,
+ aes256 => 9,
+ twofish => 10,
+ };
+
+# see RFC 4880 section 9.3
+my $zips = { uncompressed => 0,
+ zip => 1,
+ zlib => 2,
+ bzip2 => 3,
+ };
+
+# see RFC 4880 section 9.4
+my $digests = { md5 => 1,
+ sha1 => 2,
+ ripemd160 => 3,
+ sha256 => 8,
+ sha384 => 9,
+ sha512 => 10,
+ sha224 => 11,
+ };
+
+# see RFC 4880 section 5.2.3.21
+my $usage_flags = { certify => 0x01,
+ sign => 0x02,
+ encrypt_comms => 0x04,
+ encrypt_storage => 0x08,
+ encrypt => 0x0c, ## both comms and storage
+ split => 0x10, # the private key is split via secret sharing
+ authenticate => 0x20,
+ shared => 0x80, # more than one person holds the entire private key
+ };
+
+# see RFC 4880 section 4.3
+my $packet_types = { pubkey_enc_session => 1,
+ sig => 2,
+ symkey_enc_session => 3,
+ onepass_sig => 4,
+ seckey => 5,
+ pubkey => 6,
+ sec_subkey => 7,
+ compressed_data => 8,
+ symenc_data => 9,
+ marker => 10,
+ literal => 11,
+ trust => 12,
+ uid => 13,
+ pub_subkey => 14,
+ uat => 17,
+ symenc_w_integrity => 18,
+ mdc => 19,
+ };
+
+# see RFC 4880 section 5.2.1
+my $sig_types = { binary_doc => 0x00,
+ text_doc => 0x01,
+ standalone => 0x02,
+ generic_certification => 0x10,
+ persona_certification => 0x11,
+ casual_certification => 0x12,
+ positive_certification => 0x13,
+ subkey_binding => 0x18,
+ primary_key_binding => 0x19,
+ key_signature => 0x1f,
+ key_revocation => 0x20,
+ subkey_revocation => 0x28,
+ certification_revocation => 0x30,
+ timestamp => 0x40,
+ thirdparty => 0x50,
+ };
+
+
+# see RFC 4880 section 5.2.3.1
+my $subpacket_types = { sig_creation_time => 2,
+ sig_expiration_time => 3,
+ exportable => 4,
+ trust_sig => 5,
+ regex => 6,
+ revocable => 7,
+ key_expiration_time => 9,
+ preferred_cipher => 11,
+ revocation_key => 12,
+ issuer => 16,
+ notation => 20,
+ preferred_digest => 21,
+ preferred_compression => 22,
+ keyserver_prefs => 23,
+ preferred_keyserver => 24,
+ primary_uid => 25,
+ policy_uri => 26,
+ usage_flags => 27,
+ signers_uid => 28,
+ revocation_reason => 29,
+ features => 30,
+ signature_target => 31,
+ embedded_signature => 32,
+ };
+
+# bitstring (see RFC 4880 section 5.2.3.24)
+my $features = { mdc => 0x01
+ };
+
+# bitstring (see RFC 4880 5.2.3.17)
+my $keyserver_prefs = { nomodify => 0x80
+ };
+
+###### end lookup tables ######
+
+# FIXME: if we want to be able to interpret openpgp data as well as
+# produce it, we need to produce key/value-swapped lookup tables as well.
+
+
+########### Math/Utility Functions ##############
+
+
+# see the bottom of page 43 of RFC 4880
+sub simple_checksum {
+ my $bytes = shift;
+
+ return unpack("%32W*",$bytes) % 65536;
+}
+
+# calculate the multiplicative inverse of a mod b this is euclid's
+# extended algorithm. For more information see:
+# http://en.wikipedia.org/wiki/Extended_Euclidean_algorithm the
+# arguments here should be Crypt::OpenSSL::Bignum objects. $a should
+# be the larger of the two values, and the two values should be
+# coprime.
+
+sub modular_multi_inverse {
+ my $a = shift;
+ my $b = shift;
+
+
+ my $origdivisor = $b->copy();
+
+ my $ctx = Crypt::OpenSSL::Bignum::CTX->new();
+ my $x = Crypt::OpenSSL::Bignum->zero();
+ my $y = Crypt::OpenSSL::Bignum->one();
+ my $lastx = Crypt::OpenSSL::Bignum->one();
+ my $lasty = Crypt::OpenSSL::Bignum->zero();
+
+ my $finalquotient;
+ my $finalremainder;
+
+ while (! $b->is_zero()) {
+ my ($quotient, $remainder) = $a->div($b, $ctx);
+
+ $a = $b;
+ $b = $remainder;
+
+ my $temp = $x;
+ $x = $lastx->sub($quotient->mul($x, $ctx));
+ $lastx = $temp;
+
+ $temp = $y;
+ $y = $lasty->sub($quotient->mul($y, $ctx));
+ $lasty = $temp;
+ }
+
+ if (!$a->is_one()) {
+ die "did this math wrong.\n";
+ }
+
+ # let's make sure that we return a positive value because RFC 4880,
+ # section 3.2 only allows unsigned values:
+
+ ($finalquotient, $finalremainder) = $lastx->add($origdivisor)->div($origdivisor, $ctx);
+
+ return $finalremainder;
+}
+
+
+############ OpenPGP formatting functions ############
+
+# make an old-style packet out of the given packet type and body.
+# old-style (see RFC 4880 section 4.2)
+sub make_packet {
+ my $type = shift;
+ my $body = shift;
+ my $options = shift;
+
+ my $len = length($body);
+ my $pseudolen = $len;
+
+ # if the caller wants to use at least N octets of packet length,
+ # pretend that we're using that many.
+ if (defined $options && defined $options->{'packet_length'}) {
+ $pseudolen = 2**($options->{'packet_length'} * 8) - 1;
+ }
+ if ($pseudolen < $len) {
+ $pseudolen = $len;
+ }
+
+ my $lenbytes;
+ my $lencode;
+
+ if ($pseudolen < 2**8) {
+ $lenbytes = $old_format_packet_lengths->{one};
+ $lencode = 'C';
+ } elsif ($pseudolen < 2**16) {
+ $lenbytes = $old_format_packet_lengths->{two};
+ $lencode = 'n';
+ } elsif ($pseudolen < 2**31) {
+ ## not testing against full 32 bits because i don't want to deal
+ ## with potential overflow.
+ $lenbytes = $old_format_packet_lengths->{four};
+ $lencode = 'N';
+ } else {
+ ## what the hell do we do here?
+ $lenbytes = $old_format_packet_lengths->{indeterminate};
+ $lencode = '';
+ }
+
+ return pack('C'.$lencode, 0x80 + ($type * 4) + $lenbytes, $len).
+ $body;
+}
+
+
+# takes a Crypt::OpenSSL::Bignum, returns it formatted as OpenPGP MPI
+# (RFC 4880 section 3.2)
+sub mpi_pack {
+ my $num = shift;
+
+ my $val = $num->to_bin();
+ my $mpilen = length($val)*8;
+
+# this is a kludgy way to get the number of significant bits in the
+# first byte:
+ my $bitsinfirstbyte = length(sprintf("%b", ord($val)));
+
+ $mpilen -= (8 - $bitsinfirstbyte);
+
+ return pack('n', $mpilen).$val;
+}
+
+# takes a Crypt::OpenSSL::Bignum, returns an MPI packed in preparation
+# for an OpenSSH-style public key format. see:
+# http://marc.info/?l=openssh-unix-dev&m=121866301718839&w=2
+sub openssh_mpi_pack {
+ my $num = shift;
+
+ my $val = $num->to_bin();
+ my $mpilen = length($val);
+
+ my $ret = pack('N', $mpilen);
+
+ # if the first bit of the leading byte is high, we should include a
+ # 0 byte:
+ if (ord($val) & 0x80) {
+ $ret = pack('NC', $mpilen+1, 0);
+ }
+
+ return $ret.$val;
+}
+
+sub openssh_pubkey_pack {
+ my $key = shift;
+
+ my ($modulus, $exponent) = $key->get_key_parameters();
+
+ return openssh_mpi_pack(Crypt::OpenSSL::Bignum->new_from_bin("ssh-rsa")).
+ openssh_mpi_pack($exponent).
+ openssh_mpi_pack($modulus);
+}
+
+# pull an OpenPGP-specified MPI off of a given stream, returning it as
+# a Crypt::OpenSSL::Bignum.
+sub read_mpi {
+ my $instr = shift;
+ my $readtally = shift;
+
+ my $bitlen;
+ read($instr, $bitlen, 2) or die "could not read MPI length.\n";
+ $bitlen = unpack('n', $bitlen);
+ $$readtally += 2;
+
+ my $bytestoread = POSIX::floor(($bitlen + 7)/8);
+ my $ret;
+ read($instr, $ret, $bytestoread) or die "could not read MPI body.\n";
+ $$readtally += $bytestoread;
+ return Crypt::OpenSSL::Bignum->new_from_bin($ret);
+}
+
+
+# FIXME: genericize these to accept either RSA or DSA keys:
+sub make_rsa_pub_key_body {
+ my $key = shift;
+ my $timestamp = shift;
+
+ my ($n, $e) = $key->get_key_parameters();
+
+ return
+ pack('CN', 4, $timestamp).
+ pack('C', $asym_algos->{rsa}).
+ mpi_pack($n).
+ mpi_pack($e);
+}
+
+sub make_rsa_sec_key_body {
+ my $key = shift;
+ my $timestamp = shift;
+
+ # we're not using $a and $b, but we need them to get to $c.
+ my ($n, $e, $d, $p, $q) = $key->get_key_parameters();
+
+ my $c3 = modular_multi_inverse($p, $q);
+
+ my $secret_material = mpi_pack($d).
+ mpi_pack($p).
+ mpi_pack($q).
+ mpi_pack($c3);
+
+ # according to Crypt::OpenSSL::RSA, the closest value we can get out
+ # of get_key_parameters is 1/q mod p; but according to sec 5.5.3 of
+ # RFC 4880, we're actually looking for u, the multiplicative inverse
+ # of p, mod q. This is why we're calculating the value directly
+ # with modular_multi_inverse.
+
+ return
+ pack('CN', 4, $timestamp).
+ pack('C', $asym_algos->{rsa}).
+ mpi_pack($n).
+ mpi_pack($e).
+ pack('C', 0). # seckey material is not encrypted -- see RFC 4880 sec 5.5.3
+ $secret_material.
+ pack('n', simple_checksum($secret_material));
+}
+
+# expects an RSA key (public or private) and a timestamp
+sub fingerprint {
+ my $key = shift;
+ my $timestamp = shift;
+
+ my $rsabody = make_rsa_pub_key_body($key, $timestamp);
+
+ return Digest::SHA1::sha1(pack('Cn', 0x99, length($rsabody)).$rsabody);
+}
+
+
+# FIXME: handle DSA keys as well!
+sub pem2openpgp {
+ my $rsa = shift;
+ my $uid = shift;
+ my $args = shift;
+
+ $rsa->use_sha1_hash();
+
+ # see page 22 of RFC 4880 for why i think this is the right padding
+ # choice to use:
+ $rsa->use_pkcs1_padding();
+
+ if (! $rsa->check_key()) {
+ die "key does not check";
+ }
+
+ my $version = pack('C', 4);
+ # strong assertion of identity:
+ my $sigtype = pack('C', $sig_types->{positive_certification});
+ # RSA
+ my $pubkey_algo = pack('C', $asym_algos->{rsa});
+ # SHA1
+ my $hash_algo = pack('C', $digests->{sha1});
+
+ # FIXME: i'm worried about generating a bazillion new OpenPGP
+ # certificates from the same key, which could easily happen if you run
+ # this script more than once against the same key (because the
+ # timestamps will differ). How can we prevent this?
+
+ # this environment variable (if set) overrides the current time, to
+ # be able to create a standard key? If we read the key from a file
+ # instead of stdin, should we use the creation time on the file?
+ my $timestamp = 0;
+ if (defined $args->{timestamp}) {
+ $timestamp = ($args->{timestamp} + 0);
+ } else {
+ $timestamp = time();
+ }
+
+ my $creation_time_packet = pack('CCN', 5, $subpacket_types->{sig_creation_time}, $timestamp);
+
+
+ my $flags = 0;
+ if (! defined $args->{usage_flags}) {
+ $flags = $usage_flags->{certify};
+ } else {
+ my @ff = split(",", $args->{usage_flags});
+ foreach my $f (@ff) {
+ if (! defined $usage_flags->{$f}) {
+ die "No such flag $f";
+ }
+ $flags |= $usage_flags->{$f};
+ }
+ }
+
+ my $usage_packet = pack('CCC', 2, $subpacket_types->{usage_flags}, $flags);
+
+
+ # how should we determine how far off to set the expiration date?
+ # default is no expiration. Specify the timestamp in seconds from the
+ # key creation.
+ my $expiration_packet = '';
+ if (defined $args->{expiration}) {
+ my $expires_in = $args->{expiration} + 0;
+ $expiration_packet = pack('CCN', 5, $subpacket_types->{key_expiration_time}, $expires_in);
+ }
+
+
+ # prefer AES-256, AES-192, AES-128, CAST5, 3DES:
+ my $pref_sym_algos = pack('CCCCCCC', 6, $subpacket_types->{preferred_cipher},
+ $ciphers->{aes256},
+ $ciphers->{aes192},
+ $ciphers->{aes128},
+ $ciphers->{cast5},
+ $ciphers->{tripledes}
+ );
+
+ # prefer SHA-1, SHA-256, RIPE-MD/160
+ my $pref_hash_algos = pack('CCCCC', 4, $subpacket_types->{preferred_digest},
+ $digests->{sha1},
+ $digests->{sha256},
+ $digests->{ripemd160}
+ );
+
+ # prefer ZLIB, BZip2, ZIP
+ my $pref_zip_algos = pack('CCCCC', 4, $subpacket_types->{preferred_compression},
+ $zips->{zlib},
+ $zips->{bzip2},
+ $zips->{zip}
+ );
+
+ # we support the MDC feature:
+ my $feature_subpacket = pack('CCC', 2, $subpacket_types->{features},
+ $features->{mdc});
+
+ # keyserver preference: only owner modify (???):
+ my $keyserver_pref = pack('CCC', 2, $subpacket_types->{keyserver_prefs},
+ $keyserver_prefs->{nomodify});
+
+ my $subpackets_to_be_hashed =
+ $creation_time_packet.
+ $usage_packet.
+ $expiration_packet.
+ $pref_sym_algos.
+ $pref_hash_algos.
+ $pref_zip_algos.
+ $feature_subpacket.
+ $keyserver_pref;
+
+ my $subpacket_octets = pack('n', length($subpackets_to_be_hashed));
+
+ my $sig_data_to_be_hashed =
+ $version.
+ $sigtype.
+ $pubkey_algo.
+ $hash_algo.
+ $subpacket_octets.
+ $subpackets_to_be_hashed;
+
+ my $pubkey = make_rsa_pub_key_body($rsa, $timestamp);
+ my $seckey = make_rsa_sec_key_body($rsa, $timestamp);
+
+ # this is for signing. it needs to be an old-style header with a
+ # 2-packet octet count.
+
+ my $key_data = make_packet($packet_types->{pubkey}, $pubkey, {'packet_length'=>2});
+
+ # take the last 8 bytes of the fingerprint as the keyid:
+ my $keyid = substr(fingerprint($rsa, $timestamp), 20 - 8, 8);
+
+ # the v4 signature trailer is:
+
+ # version number, literal 0xff, and then a 4-byte count of the
+ # signature data itself.
+ my $trailer = pack('CCN', 4, 0xff, length($sig_data_to_be_hashed));
+
+ my $uid_data =
+ pack('CN', 0xb4, length($uid)).
+ $uid;
+
+ my $datatosign =
+ $key_data.
+ $uid_data.
+ $sig_data_to_be_hashed.
+ $trailer;
+
+ my $data_hash = Digest::SHA1::sha1_hex($datatosign);
+
+ my $issuer_packet = pack('CCa8', 9, $subpacket_types->{issuer}, $keyid);
+
+ my $sig = Crypt::OpenSSL::Bignum->new_from_bin($rsa->sign($datatosign));
+
+ my $sig_body =
+ $sig_data_to_be_hashed.
+ pack('n', length($issuer_packet)).
+ $issuer_packet.
+ pack('n', hex(substr($data_hash, 0, 4))).
+ mpi_pack($sig);
+
+ return
+ make_packet($packet_types->{seckey}, $seckey).
+ make_packet($packet_types->{uid}, $uid).
+ make_packet($packet_types->{sig}, $sig_body);
+}
+
+
+sub openpgp2ssh {
+ my $instr = shift;
+ my $fpr = shift;
+
+ if (defined $fpr) {
+ if (length($fpr) < 8) {
+ die "We need at least 8 hex digits of fingerprint.\n";
+ }
+ $fpr = uc($fpr);
+ }
+
+ my $packettag;
+ my $dummy;
+ my $tag;
+
+ my $key;
+
+ while (! eof($instr)) {
+ read($instr, $packettag, 1);
+ $packettag = ord($packettag);
+
+ my $packetlen;
+ if ( ! (0x80 & $packettag)) {
+ die "This is not an OpenPGP packet\n";
+ }
+ if (0x40 & $packettag) {
+ $tag = (0x3f & $packettag);
+ my $nextlen = 0;
+ read($instr, $nextlen, 1);
+ $nextlen = ord($nextlen);
+ if ($nextlen < 192) {
+ $packetlen = $nextlen;
+ } elsif ($nextlen < 224) {
+ my $newoct;
+ read($instr, $newoct, 1);
+ $newoct = ord($newoct);
+ $packetlen = (($nextlen - 192) << 8) + ($newoct) + 192;
+ } elsif ($nextlen == 255) {
+ read($instr, $nextlen, 4);
+ $packetlen = unpack('N', $nextlen);
+ } else {
+ # packet length is undefined.
+ }
+ } else {
+ my $lentype;
+ $lentype = 0x03 & $packettag;
+ $tag = ( 0x3c & $packettag ) >> 2;
+ if ($lentype == 0) {
+ read($instr, $packetlen, 1) or die "could not read packet length\n";
+ $packetlen = unpack('C', $packetlen);
+ } elsif ($lentype == 1) {
+ read($instr, $packetlen, 2) or die "could not read packet length\n";
+ $packetlen = unpack('n', $packetlen);
+ } elsif ($lentype == 2) {
+ read($instr, $packetlen, 4) or die "could not read packet length\n";
+ $packetlen = unpack('N', $packetlen);
+ } else {
+ # packet length is undefined.
+ }
+ }
+
+ if (! defined($packetlen)) {
+ die "Undefined packet lengths are not supported.\n";
+ }
+
+ if ($tag == $packet_types->{pubkey} ||
+ $tag == $packet_types->{pub_subkey} ||
+ $tag == $packet_types->{seckey} ||
+ $tag == $packet_types->{sec_subkey}) {
+ my $ver;
+ my $readbytes = 0;
+ read($instr, $ver, 1) or die "could not read key version\n";
+ $readbytes += 1;
+ $ver = ord($ver);
+
+ if ($ver != 4) {
+ printf(STDERR "We only work with version 4 keys. This key appears to be version %s.\n", $ver);
+ read($instr, $dummy, $packetlen - $readbytes) or die "Could not skip past this packet.\n";
+ } else {
+
+ my $timestamp;
+ read($instr, $timestamp, 4) or die "could not read key timestamp.\n";
+ $readbytes += 4;
+ $timestamp = unpack('N', $timestamp);
+
+ my $algo;
+ read($instr, $algo, 1) or die "could not read key algorithm.\n";
+ $readbytes += 1;
+ $algo = ord($algo);
+ if ($algo != $asym_algos->{rsa}) {
+ printf(STDERR "We only support RSA keys (this key used algorithm %d).\n", $algo);
+ read($instr, $dummy, $packetlen - $readbytes) or die "Could not skip past this packet.\n";
+ } else {
+ ## we have an RSA key.
+ my $modulus = read_mpi($instr, \$readbytes);
+ my $exponent = read_mpi($instr, \$readbytes);
+
+ my $pubkey = Crypt::OpenSSL::RSA->new_key_from_parameters($modulus, $exponent);
+ my $foundfpr = fingerprint($pubkey, $timestamp);
+
+ my $foundfprstr = Crypt::OpenSSL::Bignum->new_from_bin($foundfpr)->to_hex();
+
+ # is this a match?
+ if ((!defined($fpr)) ||
+ (substr($foundfprstr, -1 * length($fpr)) eq $fpr)) {
+ if (defined($key)) {
+ die "Found two matching keys.\n";
+ }
+ $key = $pubkey;
+ }
+
+ if ($tag == $packet_types->{seckey} ||
+ $tag == $packet_types->{sec_subkey}) {
+ if (!defined($key)) { # we don't think the public part of
+ # this key matches
+ read($instr, $dummy, $packetlen - $readbytes) or die "Could not skip past this packet.\n";
+ } else {
+ my $s2k;
+ read($instr, $s2k, 1) or die "Could not read S2K octet.\n";
+ $readbytes += 1;
+ $s2k = ord($s2k);
+ if ($s2k == 0) {
+ # secret material is unencrypted
+ # see http://tools.ietf.org/html/rfc4880#section-5.5.3
+ my $d = read_mpi($instr, \$readbytes);
+ my $p = read_mpi($instr, \$readbytes);
+ my $q = read_mpi($instr, \$readbytes);
+ my $u = read_mpi($instr, \$readbytes);
+
+ my $checksum;
+ read($instr, $checksum, 2) or die "Could not read checksum of secret key material.\n";
+ $readbytes += 2;
+ $checksum = unpack('n', $checksum);
+
+ # FIXME: compare with the checksum! how? the data is
+ # gone into the Crypt::OpenSSL::Bignum
+
+ $key = Crypt::OpenSSL::RSA->new_key_from_parameters($modulus,
+ $exponent,
+ $d,
+ $p,
+ $q);
+
+ $key->check_key() or die "Secret key is not a valid RSA key.\n";
+ } else {
+ print(STDERR "We cannot handle encrypted secret keys. Skipping!\n") ;
+ read($instr, $dummy, $packetlen - $readbytes) or die "Could not skip past this packet.\n";
+ }
+ }
+ }
+
+ }
+ }
+ } else {
+ read($instr, $dummy, $packetlen) or die "Could not skip past this packet!\n";
+ }
+ }
+
+ return $key;
+}
+
+
+for (basename($0)) {
+ if (/^pem2openpgp$/) {
+ my $rsa;
+ my $stdin;
+
+ my $uid = shift;
+ defined($uid) or die "You must specify a user ID string.\n";
+
+ # FIXME: fail if there is no given user ID; or should we default to
+ # hostname_long() from Sys::Hostname::Long ?
+
+
+ if (defined $ENV{PEM2OPENPGP_NEWKEY}) {
+ $rsa = Crypt::OpenSSL::RSA->generate_key($ENV{PEM2OPENPGP_NEWKEY});
+ } else {
+ $stdin = do {
+ local $/; # slurp!
+ <STDIN>;
+ };
+
+ $rsa = Crypt::OpenSSL::RSA->new_private_key($stdin);
+ }
+
+ print pem2openpgp($rsa,
+ $uid,
+ { timestamp => $ENV{PEM2OPENPGP_TIMESTAMP},
+ expiration => $ENV{PEM2OPENPGP_EXPIRATION},
+ usage_flags => $ENV{PEM2OPENPGP_USAGE_FLAGS},
+ }
+ );
+ }
+ elsif (/^openpgp2ssh$/) {
+ my $fpr = shift;
+ my $instream;
+ open($instream,'-');
+ binmode($instream, ":bytes");
+ my $key = openpgp2ssh($instream, $fpr);
+ if (defined($key)) {
+ if ($key->is_private()) {
+ print $key->get_private_key_string();
+ } else {
+ print "ssh-rsa ".encode_base64(openssh_pubkey_pack($key), '')."\n";
+ }
+ } else {
+ die "No matching key found.\n";
+ }
+ }
+ else {
+ die "Unrecognized keytrans call.\n";
+ }
+}
+