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openssl/test/recipes/15-test_genec.t
Shane Lontis c0f39ded68 Add Explicit EC parameter support to providers. 
This was added for backward compatability.
Added EC_GROUP_new_from_params() that supports explicit curve parameters.

This fixes the 15-test_genec.t TODO.

Reviewed-by: Richard Levitte <levitte@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/12604)
2020-08-22 14:55:41 +10:00

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Perl
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#! /usr/bin/env perl
# Copyright 2017-2020 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
use strict;
use warnings;
use File::Spec;
use OpenSSL::Test qw/:DEFAULT srctop_file/;
use OpenSSL::Test::Utils;
# 'supported' and 'unsupported' reflect the current state of things. In
# Test::More terms, 'supported' works exactly like ok(run(whatever)), while
# 'unsupported' wraps that in a TODO: { } block.
#
# The first argument is the test name (this becomes the last argument to
# 'ok')
# The remaining argument are passed unchecked to 'run'.
# 1: the result of app() or similar, i.e. something you can pass to
sub supported_pass {
my $str = shift;
ok(run(@_), $str);
}
sub supported_fail {
my $str = shift;
ok(!run(@_), $str);
}
setup("test_genec");
plan skip_all => "This test is unsupported in a no-ec build"
if disabled("ec");
my @prime_curves = qw(
secp112r1
secp112r2
secp128r1
secp128r2
secp160k1
secp160r1
secp160r2
secp192k1
secp224k1
secp224r1
secp256k1
secp384r1
secp521r1
prime192v1
prime192v2
prime192v3
prime239v1
prime239v2
prime239v3
prime256v1
wap-wsg-idm-ecid-wtls6
wap-wsg-idm-ecid-wtls7
wap-wsg-idm-ecid-wtls8
wap-wsg-idm-ecid-wtls9
wap-wsg-idm-ecid-wtls12
brainpoolP160r1
brainpoolP160t1
brainpoolP192r1
brainpoolP192t1
brainpoolP224r1
brainpoolP224t1
brainpoolP256r1
brainpoolP256t1
brainpoolP320r1
brainpoolP320t1
brainpoolP384r1
brainpoolP384t1
brainpoolP512r1
brainpoolP512t1
);
my @binary_curves = qw(
sect113r1
sect113r2
sect131r1
sect131r2
sect163k1
sect163r1
sect163r2
sect193r1
sect193r2
sect233k1
sect233r1
sect239k1
sect283k1
sect283r1
sect409k1
sect409r1
sect571k1
sect571r1
c2pnb163v1
c2pnb163v2
c2pnb163v3
c2pnb176v1
c2tnb191v1
c2tnb191v2
c2tnb191v3
c2pnb208w1
c2tnb239v1
c2tnb239v2
c2tnb239v3
c2pnb272w1
c2pnb304w1
c2tnb359v1
c2pnb368w1
c2tnb431r1
wap-wsg-idm-ecid-wtls1
wap-wsg-idm-ecid-wtls3
wap-wsg-idm-ecid-wtls4
wap-wsg-idm-ecid-wtls5
wap-wsg-idm-ecid-wtls10
wap-wsg-idm-ecid-wtls11
);
my @explicit_only_curves = ();
push(@explicit_only_curves, qw(
Oakley-EC2N-3
Oakley-EC2N-4
)) if !disabled("ec2m");
my @other_curves = ();
push(@other_curves, 'SM2')
if !disabled("sm2");
my @curve_aliases = qw(
P-192
P-224
P-256
P-384
P-521
);
push(@curve_aliases, qw(
B-163
B-233
B-283
B-409
B-571
K-163
K-233
K-283
K-409
K-571
)) if !disabled("ec2m");
my @curve_list = ();
push(@curve_list, @prime_curves);
push(@curve_list, @binary_curves)
if !disabled("ec2m");
push(@curve_list, @other_curves);
push(@curve_list, @curve_aliases);
my %params_encodings =
(
'named_curve' => \&supported_pass,
'explicit' => \&supported_pass
);
my @output_formats = ('PEM', 'DER');
plan tests => scalar(@curve_list) * scalar(keys %params_encodings)
* (1 + scalar(@output_formats)) # Try listed @output_formats and text output
* 2 # Test generating parameters and keys
+ 1 # Checking that with no curve it fails
+ 1 # Checking that with unknown curve it fails
+ 1 # Subtest for explicit only curves
+ 1 # base serializer test
;
ok(!run(app([ 'openssl', 'genpkey',
'-algorithm', 'EC'])),
"genpkey EC with no params should fail");
ok(!run(app([ 'openssl', 'genpkey',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:bogus_foobar_curve'])),
"genpkey EC with unknown curve name should fail");
ok(run(app([ 'openssl', 'genpkey',
'-provider-path', 'providers',
'-provider', 'base',
'-config', srctop_file("test", "default.cnf"),
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:prime256v1',
'-text'])),
"generate a private key and serialize it using the base provider");
foreach my $curvename (@curve_list) {
foreach my $paramenc (sort keys %params_encodings) {
my $fn = $params_encodings{$paramenc};
# --- Test generating parameters ---
$fn->("genpkey EC params ${curvename} with ec_param_enc:'${paramenc}' (text)",
app([ 'openssl', 'genpkey', '-genparam',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-text']));
foreach my $outform (@output_formats) {
my $outfile = "ecgen.${curvename}.${paramenc}." . lc $outform;
$fn->("genpkey EC params ${curvename} with ec_param_enc:'${paramenc}' (${outform})",
app([ 'openssl', 'genpkey', '-genparam',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-outform', $outform,
'-out', $outfile]));
}
# --- Test generating actual keys ---
$fn->("genpkey EC key on ${curvename} with ec_param_enc:'${paramenc}' (text)",
app([ 'openssl', 'genpkey',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-text']));
foreach my $outform (@output_formats) {
my $outfile = "ecgen.${curvename}.${paramenc}." . lc $outform;
$fn->("genpkey EC key on ${curvename} with ec_param_enc:'${paramenc}' (${outform})",
app([ 'openssl', 'genpkey',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-outform', $outform,
'-out', $outfile]));
}
}
}
subtest "test curves that only support explicit parameters encoding" => sub {
plan skip_all => "This test is unsupported under current configuration"
if scalar(@explicit_only_curves) <= 0;
plan tests => scalar(@explicit_only_curves) * scalar(keys %params_encodings)
* (1 + scalar(@output_formats)) # Try listed @output_formats and text output
* 2 # Test generating parameters and keys
;
my %params_encodings =
(
'named_curve' => \&supported_fail,
'explicit' => \&supported_pass
);
foreach my $curvename (@explicit_only_curves) {
foreach my $paramenc (sort keys %params_encodings) {
my $fn = $params_encodings{$paramenc};
# --- Test generating parameters ---
$fn->("genpkey EC params ${curvename} with ec_param_enc:'${paramenc}' (text)",
app([ 'openssl', 'genpkey', '-genparam',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-text']));
foreach my $outform (@output_formats) {
my $outfile = "ecgen.${curvename}.${paramenc}." . lc $outform;
$fn->("genpkey EC params ${curvename} with ec_param_enc:'${paramenc}' (${outform})",
app([ 'openssl', 'genpkey', '-genparam',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-outform', $outform,
'-out', $outfile]));
}
# --- Test generating actual keys ---
$fn->("genpkey EC key on ${curvename} with ec_param_enc:'${paramenc}' (text)",
app([ 'openssl', 'genpkey',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-text']));
foreach my $outform (@output_formats) {
my $outfile = "ecgen.${curvename}.${paramenc}." . lc $outform;
$fn->("genpkey EC key on ${curvename} with ec_param_enc:'${paramenc}' (${outform})",
app([ 'openssl', 'genpkey',
'-algorithm', 'EC',
'-pkeyopt', 'ec_paramgen_curve:'.$curvename,
'-pkeyopt', 'ec_param_enc:'.$paramenc,
'-outform', $outform,
'-out', $outfile]));
}
}
}
};
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