#! /usr/bin/env perl # Copyright 2015-2021 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::Functions qw/canonpath/; use OpenSSL::Test qw/:DEFAULT srctop_file ok_nofips with/; use OpenSSL::Test::Utils; setup("test_verify"); sub verify { my ($cert, $purpose, $trusted, $untrusted, @opts) = @_; my @path = qw(test certs); my @args = qw(openssl verify -auth_level 1); push(@args, "-purpose", $purpose) if $purpose ne ""; push(@args, @opts); for (@$trusted) { push(@args, "-trusted", srctop_file(@path, "$_.pem")) } for (@$untrusted) { push(@args, "-untrusted", srctop_file(@path, "$_.pem")) } push(@args, srctop_file(@path, "$cert.pem")); run(app([@args])); } plan tests => 157; # Canonical success ok(verify("ee-cert", "sslserver", ["root-cert"], ["ca-cert"]), "accept compat trust"); # Root CA variants ok(!verify("ee-cert", "sslserver", [qw(root-nonca)], [qw(ca-cert)]), "fail trusted non-ca root"); ok(!verify("ee-cert", "sslserver", [qw(nroot+serverAuth)], [qw(ca-cert)]), "fail server trust non-ca root"); ok(!verify("ee-cert", "sslserver", [qw(nroot+anyEKU)], [qw(ca-cert)]), "fail wildcard trust non-ca root"); ok(!verify("ee-cert", "sslserver", [qw(root-cert2)], [qw(ca-cert)]), "fail wrong root key"); ok(!verify("ee-cert", "sslserver", [qw(root-name2)], [qw(ca-cert)]), "fail wrong root DN"); # Critical extensions ok(verify("ee-cert-noncrit-unknown-ext", "", ["root-cert"], ["ca-cert"]), "accept non-critical unknown extension"); ok(!verify("ee-cert-crit-unknown-ext", "", ["root-cert"], ["ca-cert"]), "reject critical unknown extension"); ok(verify("ee-cert-ocsp-nocheck", "", ["root-cert"], ["ca-cert"]), "accept critical OCSP No Check"); # Explicit trust/purpose combinations # ok(verify("ee-cert", "sslserver", [qw(sroot-cert)], [qw(ca-cert)]), "accept server purpose"); ok(!verify("ee-cert", "sslserver", [qw(croot-cert)], [qw(ca-cert)]), "fail client purpose"); ok(verify("ee-cert", "sslserver", [qw(root+serverAuth)], [qw(ca-cert)]), "accept server trust"); ok(verify("ee-cert", "sslserver", [qw(sroot+serverAuth)], [qw(ca-cert)]), "accept server trust with server purpose"); ok(verify("ee-cert", "sslserver", [qw(croot+serverAuth)], [qw(ca-cert)]), "accept server trust with client purpose"); # Wildcard trust ok(verify("ee-cert", "sslserver", [qw(root+anyEKU)], [qw(ca-cert)]), "accept wildcard trust"); ok(verify("ee-cert", "sslserver", [qw(sroot+anyEKU)], [qw(ca-cert)]), "accept wildcard trust with server purpose"); ok(verify("ee-cert", "sslserver", [qw(croot+anyEKU)], [qw(ca-cert)]), "accept wildcard trust with client purpose"); # Inapplicable mistrust ok(verify("ee-cert", "sslserver", [qw(root-clientAuth)], [qw(ca-cert)]), "accept client mistrust"); ok(verify("ee-cert", "sslserver", [qw(sroot-clientAuth)], [qw(ca-cert)]), "accept client mistrust with server purpose"); ok(!verify("ee-cert", "sslserver", [qw(croot-clientAuth)], [qw(ca-cert)]), "fail client mistrust with client purpose"); # Inapplicable trust ok(!verify("ee-cert", "sslserver", [qw(root+clientAuth)], [qw(ca-cert)]), "fail client trust"); ok(!verify("ee-cert", "sslserver", [qw(sroot+clientAuth)], [qw(ca-cert)]), "fail client trust with server purpose"); ok(!verify("ee-cert", "sslserver", [qw(croot+clientAuth)], [qw(ca-cert)]), "fail client trust with client purpose"); # Server mistrust ok(!verify("ee-cert", "sslserver", [qw(root-serverAuth)], [qw(ca-cert)]), "fail rejected EKU"); ok(!verify("ee-cert", "sslserver", [qw(sroot-serverAuth)], [qw(ca-cert)]), "fail server mistrust with server purpose"); ok(!verify("ee-cert", "sslserver", [qw(croot-serverAuth)], [qw(ca-cert)]), "fail server mistrust with client purpose"); # Wildcard mistrust ok(!verify("ee-cert", "sslserver", [qw(root-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust"); ok(!verify("ee-cert", "sslserver", [qw(sroot-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust with server purpose"); ok(!verify("ee-cert", "sslserver", [qw(croot-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust with client purpose"); # Check that trusted-first is on by setting up paths to different roots # depending on whether the intermediate is the trusted or untrusted one. # ok(verify("ee-cert", "sslserver", [qw(root-serverAuth root-cert2 ca-root2)], [qw(ca-cert)]), "accept trusted-first path"); ok(verify("ee-cert", "sslserver", [qw(root-cert root2+serverAuth ca-root2)], [qw(ca-cert)]), "accept trusted-first path with server trust"); ok(!verify("ee-cert", "sslserver", [qw(root-cert root2-serverAuth ca-root2)], [qw(ca-cert)]), "fail trusted-first path with server mistrust"); ok(!verify("ee-cert", "sslserver", [qw(root-cert root2+clientAuth ca-root2)], [qw(ca-cert)]), "fail trusted-first path with client trust"); # CA variants ok(!verify("ee-cert", "sslserver", [qw(root-cert)], [qw(ca-nonca)]), "fail non-CA untrusted intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert)], [qw(ca-nonbc)]), "fail non-CA untrusted intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert ca-nonca)], []), "fail non-CA trust-store intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert ca-nonbc)], []), "fail non-CA trust-store intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert nca+serverAuth)], []), "fail non-CA server trust intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert nca+anyEKU)], []), "fail non-CA wildcard trust intermediate"); ok(!verify("ee-cert", "sslserver", [qw(root-cert)], [qw(ca-cert2)]), "fail wrong intermediate CA key"); ok(!verify("ee-cert", "sslserver", [qw(root-cert)], [qw(ca-name2)]), "fail wrong intermediate CA DN"); ok(!verify("ee-cert", "sslserver", [qw(root-cert)], [qw(ca-root2)]), "fail wrong intermediate CA issuer"); ok(!verify("ee-cert", "sslserver", [], [qw(ca-cert)], "-partial_chain"), "fail untrusted partial chain"); ok(verify("ee-cert", "sslserver", [qw(ca-cert)], [], "-partial_chain"), "accept trusted partial chain"); ok(!verify("ee-cert", "sslserver", [qw(ca-expired)], [], "-partial_chain"), "reject expired trusted partial chain"); # this check is beyond RFC 5280 ok(!verify("ee-cert", "sslserver", [qw(root-expired)], [qw(ca-cert)]), "reject expired trusted root"); # this check is beyond RFC 5280 ok(verify("ee-cert", "sslserver", [qw(sca-cert)], [], "-partial_chain"), "accept partial chain with server purpose"); ok(!verify("ee-cert", "sslserver", [qw(cca-cert)], [], "-partial_chain"), "fail partial chain with client purpose"); ok(verify("ee-cert", "sslserver", [qw(ca+serverAuth)], [], "-partial_chain"), "accept server trust partial chain"); ok(verify("ee-cert", "sslserver", [qw(cca+serverAuth)], [], "-partial_chain"), "accept server trust client purpose partial chain"); ok(verify("ee-cert", "sslserver", [qw(ca-clientAuth)], [], "-partial_chain"), "accept client mistrust partial chain"); ok(verify("ee-cert", "sslserver", [qw(ca+anyEKU)], [], "-partial_chain"), "accept wildcard trust partial chain"); ok(!verify("ee-cert", "sslserver", [], [qw(ca+serverAuth)], "-partial_chain"), "fail untrusted partial issuer with ignored server trust"); ok(!verify("ee-cert", "sslserver", [qw(ca-serverAuth)], [], "-partial_chain"), "fail server mistrust partial chain"); ok(!verify("ee-cert", "sslserver", [qw(ca+clientAuth)], [], "-partial_chain"), "fail client trust partial chain"); ok(!verify("ee-cert", "sslserver", [qw(ca-anyEKU)], [], "-partial_chain"), "fail wildcard mistrust partial chain"); # We now test auxiliary trust even for intermediate trusted certs without # -partial_chain. Note that "-trusted_first" is now always on and cannot # be disabled. ok(verify("ee-cert", "sslserver", [qw(root-cert ca+serverAuth)], [qw(ca-cert)]), "accept server trust"); ok(verify("ee-cert", "sslserver", [qw(root-cert ca+anyEKU)], [qw(ca-cert)]), "accept wildcard trust"); ok(verify("ee-cert", "sslserver", [qw(root-cert sca-cert)], [qw(ca-cert)]), "accept server purpose"); ok(verify("ee-cert", "sslserver", [qw(root-cert sca+serverAuth)], [qw(ca-cert)]), "accept server trust and purpose"); ok(verify("ee-cert", "sslserver", [qw(root-cert sca+anyEKU)], [qw(ca-cert)]), "accept wildcard trust and server purpose"); ok(verify("ee-cert", "sslserver", [qw(root-cert sca-clientAuth)], [qw(ca-cert)]), "accept client mistrust and server purpose"); ok(verify("ee-cert", "sslserver", [qw(root-cert cca+serverAuth)], [qw(ca-cert)]), "accept server trust and client purpose"); ok(verify("ee-cert", "sslserver", [qw(root-cert cca+anyEKU)], [qw(ca-cert)]), "accept wildcard trust and client purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert cca-cert)], [qw(ca-cert)]), "fail client purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert ca-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust"); ok(!verify("ee-cert", "sslserver", [qw(root-cert ca-serverAuth)], [qw(ca-cert)]), "fail server mistrust"); ok(!verify("ee-cert", "sslserver", [qw(root-cert ca+clientAuth)], [qw(ca-cert)]), "fail client trust"); ok(!verify("ee-cert", "sslserver", [qw(root-cert sca+clientAuth)], [qw(ca-cert)]), "fail client trust and server purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert cca+clientAuth)], [qw(ca-cert)]), "fail client trust and client purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert cca-serverAuth)], [qw(ca-cert)]), "fail server mistrust and client purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert cca-clientAuth)], [qw(ca-cert)]), "fail client mistrust and client purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert sca-serverAuth)], [qw(ca-cert)]), "fail server mistrust and server purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert sca-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust and server purpose"); ok(!verify("ee-cert", "sslserver", [qw(root-cert cca-anyEKU)], [qw(ca-cert)]), "fail wildcard mistrust and client purpose"); # EE variants ok(verify("ee-client", "sslclient", [qw(root-cert)], [qw(ca-cert)]), "accept client chain"); ok(!verify("ee-client", "sslserver", [qw(root-cert)], [qw(ca-cert)]), "fail server leaf purpose"); ok(!verify("ee-cert", "sslclient", [qw(root-cert)], [qw(ca-cert)]), "fail client leaf purpose"); ok(!verify("ee-cert2", "sslserver", [qw(root-cert)], [qw(ca-cert)]), "fail wrong intermediate CA key"); ok(!verify("ee-name2", "sslserver", [qw(root-cert)], [qw(ca-cert)]), "fail wrong intermediate CA DN"); ok(!verify("ee-expired", "sslserver", [qw(root-cert)], [qw(ca-cert)]), "fail expired leaf"); ok(verify("ee-cert", "sslserver", [qw(ee-cert)], [], "-partial_chain"), "accept last-resort direct leaf match"); ok(verify("ee-client", "sslclient", [qw(ee-client)], [], "-partial_chain"), "accept last-resort direct leaf match"); ok(!verify("ee-cert", "sslserver", [qw(ee-client)], [], "-partial_chain"), "fail last-resort direct leaf non-match"); ok(verify("ee-cert", "sslserver", [qw(ee+serverAuth)], [], "-partial_chain"), "accept direct match with server trust"); ok(!verify("ee-cert", "sslserver", [qw(ee-serverAuth)], [], "-partial_chain"), "fail direct match with server mistrust"); ok(verify("ee-client", "sslclient", [qw(ee+clientAuth)], [], "-partial_chain"), "accept direct match with client trust"); ok(!verify("ee-client", "sslclient", [qw(ee-clientAuth)], [], "-partial_chain"), "reject direct match with client mistrust"); ok(verify("ee-pathlen", "sslserver", [qw(root-cert)], [qw(ca-cert)]), "accept non-ca with pathlen:0 by default"); ok(!verify("ee-pathlen", "sslserver", [qw(root-cert)], [qw(ca-cert)], "-x509_strict"), "reject non-ca with pathlen:0 with strict flag"); # Proxy certificates ok(!verify("pc1-cert", "sslclient", [qw(root-cert)], [qw(ee-client ca-cert)]), "fail to accept proxy cert without -allow_proxy_certs"); ok(verify("pc1-cert", "sslclient", [qw(root-cert)], [qw(ee-client ca-cert)], "-allow_proxy_certs"), "accept proxy cert 1"); ok(verify("pc2-cert", "sslclient", [qw(root-cert)], [qw(pc1-cert ee-client ca-cert)], "-allow_proxy_certs"), "accept proxy cert 2"); ok(!verify("bad-pc3-cert", "sslclient", [qw(root-cert)], [qw(pc1-cert ee-client ca-cert)], "-allow_proxy_certs"), "fail proxy cert with incorrect subject"); ok(!verify("bad-pc4-cert", "sslclient", [qw(root-cert)], [qw(pc1-cert ee-client ca-cert)], "-allow_proxy_certs"), "fail proxy cert with incorrect pathlen"); ok(verify("pc5-cert", "sslclient", [qw(root-cert)], [qw(pc1-cert ee-client ca-cert)], "-allow_proxy_certs"), "accept proxy cert missing proxy policy"); ok(!verify("pc6-cert", "sslclient", [qw(root-cert)], [qw(pc1-cert ee-client ca-cert)], "-allow_proxy_certs"), "failed proxy cert where last CN was added as a multivalue RDN component"); # Security level tests ok(verify("ee-cert", "", ["root-cert"], ["ca-cert"], "-auth_level", "2"), "accept RSA 2048 chain at auth level 2"); ok(!verify("ee-cert", "", ["root-cert"], ["ca-cert"], "-auth_level", "3"), "reject RSA 2048 root at auth level 3"); ok(verify("ee-cert", "", ["root-cert-768"], ["ca-cert-768i"], "-auth_level", "0"), "accept RSA 768 root at auth level 0"); ok(!verify("ee-cert", "", ["root-cert-768"], ["ca-cert-768i"]), "reject RSA 768 root at auth level 1"); ok(verify("ee-cert-768i", "", ["root-cert"], ["ca-cert-768"], "-auth_level", "0"), "accept RSA 768 intermediate at auth level 0"); ok(!verify("ee-cert-768i", "", ["root-cert"], ["ca-cert-768"]), "reject RSA 768 intermediate at auth level 1"); ok(verify("ee-cert-768", "", ["root-cert"], ["ca-cert"], "-auth_level", "0"), "accept RSA 768 leaf at auth level 0"); ok(!verify("ee-cert-768", "", ["root-cert"], ["ca-cert"]), "reject RSA 768 leaf at auth level 1"); # ok(verify("ee-cert", "", ["root-cert-md5"], ["ca-cert"], "-auth_level", "2"), "accept md5 self-signed TA at auth level 2"); ok(verify("ee-cert", "", ["ca-cert-md5-any"], [], "-auth_level", "2"), "accept md5 intermediate TA at auth level 2"); ok(verify("ee-cert", "", ["root-cert"], ["ca-cert-md5"], "-auth_level", "0"), "accept md5 intermediate at auth level 0"); ok(!verify("ee-cert", "", ["root-cert"], ["ca-cert-md5"]), "reject md5 intermediate at auth level 1"); ok(verify("ee-cert-md5", "", ["root-cert"], ["ca-cert"], "-auth_level", "0"), "accept md5 leaf at auth level 0"); ok(!verify("ee-cert-md5", "", ["root-cert"], ["ca-cert"]), "reject md5 leaf at auth level 1"); # Explicit vs named curve tests SKIP: { skip "EC is not supported by this OpenSSL build", 3 if disabled("ec"); ok(!verify("ee-cert-ec-explicit", "", ["root-cert"], ["ca-cert-ec-named"]), "reject explicit curve leaf with named curve intermediate"); ok(!verify("ee-cert-ec-named-explicit", "", ["root-cert"], ["ca-cert-ec-explicit"]), "reject named curve leaf with explicit curve intermediate"); ok(verify("ee-cert-ec-named-named", "", ["root-cert"], ["ca-cert-ec-named"]), "accept named curve leaf with named curve intermediate"); } # Depth tests, note the depth limit bounds the number of CA certificates # between the trust-anchor and the leaf, so, for example, with a root->ca->leaf # chain, depth = 1 is sufficient, but depth == 0 is not. # ok(verify("ee-cert", "", ["root-cert"], ["ca-cert"], "-verify_depth", "2"), "accept chain with verify_depth 2"); ok(verify("ee-cert", "", ["root-cert"], ["ca-cert"], "-verify_depth", "1"), "accept chain with verify_depth 1"); ok(!verify("ee-cert", "", ["root-cert"], ["ca-cert"], "-verify_depth", "0"), "reject chain with verify_depth 0"); ok(verify("ee-cert", "", ["ca-cert-md5-any"], [], "-verify_depth", "0"), "accept md5 intermediate TA with verify_depth 0"); # Name Constraints tests. ok(verify("alt1-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints everything permitted"); ok(verify("alt2-cert", "", ["root-cert"], ["ncca2-cert"], ), "Name Constraints nothing excluded"); ok(verify("alt3-cert", "", ["root-cert"], ["ncca1-cert", "ncca3-cert"], ), "Name Constraints nested test all permitted"); ok(verify("goodcn1-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints CNs permitted"); ok(!verify("badcn1-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints CNs not permitted"); ok(!verify("badalt1-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints hostname not permitted"); ok(!verify("badalt2-cert", "", ["root-cert"], ["ncca2-cert"], ), "Name Constraints hostname excluded"); ok(!verify("badalt3-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints email address not permitted"); ok(!verify("badalt4-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints subject email address not permitted"); ok(!verify("badalt5-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints IP address not permitted"); ok(!verify("badalt6-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints CN hostname not permitted"); ok(!verify("badalt7-cert", "", ["root-cert"], ["ncca1-cert"], ), "Name Constraints CN BMPSTRING hostname not permitted"); ok(!verify("badalt8-cert", "", ["root-cert"], ["ncca1-cert", "ncca3-cert"], ), "Name constraints nested DNS name not permitted 1"); ok(!verify("badalt9-cert", "", ["root-cert"], ["ncca1-cert", "ncca3-cert"], ), "Name constraints nested DNS name not permitted 2"); ok(!verify("badalt10-cert", "", ["root-cert"], ["ncca1-cert", "ncca3-cert"], ), "Name constraints nested DNS name excluded"); #Check that we get the expected failure return code with({ exit_checker => sub { return shift == 2; } }, sub { ok(verify("bad-othername-namec", "", ["bad-othername-namec-inter"], [], "-partial_chain", "-attime", "1623060000"), "Name constraints bad othername name constraint"); }); ok(verify("ee-pss-sha1-cert", "", ["root-cert"], ["ca-cert"], "-auth_level", "0"), "Accept PSS signature using SHA1 at auth level 0"); ok(verify("ee-pss-sha256-cert", "", ["root-cert"], ["ca-cert"], ), "CA with PSS signature using SHA256"); ok(!verify("ee-pss-sha1-cert", "", ["root-cert"], ["ca-cert"], "-auth_level", "1"), "Reject PSS signature using SHA1 and auth level 1"); ok(verify("ee-pss-sha256-cert", "", ["root-cert"], ["ca-cert"], "-auth_level", "2"), "PSS signature using SHA256 and auth level 2"); ok(verify("ee-pss-cert", "", ["root-cert"], ["ca-pss-cert"], ), "CA PSS signature"); ok(!verify("ee-pss-wrong1.5-cert", "", ["root-cert"], ["ca-pss-cert"], ), "CA producing regular PKCS#1 v1.5 signature with PSA-PSS key"); ok(!verify("many-names1", "", ["many-constraints"], ["many-constraints"], ), "Too many names and constraints to check (1)"); ok(!verify("many-names2", "", ["many-constraints"], ["many-constraints"], ), "Too many names and constraints to check (2)"); ok(!verify("many-names3", "", ["many-constraints"], ["many-constraints"], ), "Too many names and constraints to check (3)"); ok(verify("some-names1", "", ["many-constraints"], ["many-constraints"], ), "Not too many names and constraints to check (1)"); ok(verify("some-names2", "", ["many-constraints"], ["many-constraints"], ), "Not too many names and constraints to check (2)"); ok(verify("some-names2", "", ["many-constraints"], ["many-constraints"], ), "Not too many names and constraints to check (3)"); ok(verify("root-cert-rsa2", "", ["root-cert-rsa2"], [], "-check_ss_sig"), "Public Key Algorithm rsa instead of rsaEncryption"); ok(verify("ee-self-signed", "", ["ee-self-signed"], [], "-attime", "1593565200"), "accept trusted self-signed EE cert excluding key usage keyCertSign"); ok(verify("ee-ss-with-keyCertSign", "", ["ee-ss-with-keyCertSign"], []), "accept trusted self-signed EE cert with key usage keyCertSign also when strict"); SKIP: { skip "Ed25519 is not supported by this OpenSSL build", 6 if disabled("ec"); # ED25519 certificate from draft-ietf-curdle-pkix-04 ok(verify("ee-ed25519", "", ["root-ed25519"], []), "accept X25519 EE cert issued by trusted Ed25519 self-signed CA cert"); ok(!verify("ee-ed25519", "", ["root-ed25519"], [], "-x509_strict"), "reject X25519 EE cert in strict mode since AKID is missing"); ok(!verify("root-ed25519", "", ["ee-ed25519"], []), "fail Ed25519 CA and EE certs swapped"); ok(verify("root-ed25519", "", ["root-ed25519"], []), "accept trusted Ed25519 self-signed CA cert"); ok(!verify("ee-ed25519", "", ["ee-ed25519"], []), "fail trusted Ed25519-signed self-issued X25519 cert"); ok(verify("ee-ed25519", "", ["ee-ed25519"], [], "-partial_chain"), "accept last-resort direct leaf match Ed25519-signed self-issued cert"); } SKIP: { skip "SM2 is not supported by this OpenSSL build", 2 if disabled("sm2"); ok_nofips(verify("sm2", "", ["sm2-ca-cert"], [], "-vfyopt", "distid:1234567812345678"), "SM2 ID test"); ok_nofips(verify("sm2", "", ["sm2-ca-cert"], [], "-vfyopt", "hexdistid:31323334353637383132333435363738"), "SM2 hex ID test"); }