This documents the X.509 CAs, certificates, and CRLS used for testing. Certification authorities ------------------------- There are two main CAs for use as trusted roots: - test-ca.crt aka "C=NL, O=PolarSSL, CN=PolarSSL Test CA" uses a RSA-2048 key test-ca-sha1.crt and test-ca-sha256.crt use the same key, signed with different hashes. - test-ca2*.crt aka "C=NL, O=PolarSSL, CN=Polarssl Test EC CA" uses an EC key with NIST P-384 (aka secp384r1) variants used to test the keyUsage extension The files test-ca_cat12 and test-ca_cat21 contain them concatenated both ways. Two intermediate CAs are signed by them: - test-int-ca.crt "C=NL, O=PolarSSL, CN=PolarSSL Test Intermediate CA" uses RSA-4096, signed by test-ca2 - test-int-ca-exp.crt is a copy that is expired - test-int-ca2.crt "C=NL, O=PolarSSL, CN=PolarSSL Test Intermediate EC CA" uses an EC key with NIST P-384, signed by test-ca A third intermediate CA is signed by test-int-ca2.crt: - test-int-ca3.crt "C=UK, O=mbed TLS, CN=mbed TLS Test intermediate CA 3" uses an EC key with NIST P-256, signed by test-int-ca2 Finally, other CAs for specific purposes: - enco-ca-prstr.pem: has its CN encoded as a printable string, but child cert enco-cert-utf8str.pem has its issuer's CN encoded as a UTF-8 string. - test-ca-v1.crt: v1 "CA", signs server1-v1.crt: v1 "intermediate CA", signs server2-v1*.crt: EE cert (without of with chain in same file) - keyUsage.decipherOnly.crt: has the decipherOnly keyUsage bit set End-entity certificates ----------------------- Short information fields: - name or pattern - issuing CA: 1 -> test-ca.crt 2 -> test-ca2.crt I1 -> test-int-ca.crt I2 -> test-int-ca2.crt I3 -> test-int-ca3.crt O -> other - key type: R -> RSA, E -> EC - C -> there is a CRL revoking this cert (see below) - L -> CN=localhost (useful for local test servers) - P1, P2 if the file includes parent (resp. parent + grandparent) - free-form comments List of certificates: - cert_example_multi*.crt: 1/O R: subjectAltName - cert_example_wildcard.crt: 1 R: wildcard in subject's CN - cert_md*.crt, cert_sha*.crt: 1 R: signature hash - cert_v1_with_ext.crt: 1 R: v1 with extensions (illegal) - cli2.crt: 2 E: basic - cli-rsa.key, cli-rsa-*.crt: RSA key used for test clients, signed by the RSA test CA. - enco-cert-utf8str.pem: see enco-ca-prstr.pem above - server1*.crt: 1* R C* P1*: misc *(server1-v1 see test-ca-v1.crt above) *CRL for: .cert_type.crt, .crt, .key_usage.crt, .v1.crt P1 only for _ca.crt - server2-v1*.crt: O R: see test-ca-v1.crt above - server2*.crt: 1 R L: misc - server3.crt: 1 E L: EC cert signed by RSA CA - server4.crt: 2 R L: RSA cert signed by EC CA - server5*.crt: 2* E L: misc *(except -selfsigned and -ss-*) -sha*: hashes .eku*: extendeKeyUsage (cli/srv = www client/server, cs = codesign, etc) .ku*: keyUsage (ds = signatures, ke/ka = key exchange/agreement) .req*: CSR, not certificate -der*: trailing bytes in der (?) -badsign.crt: S5 with corrupted signature -expired.crt: S5 with "not after" date in the past -future.crt: S5 with "not before" date in the future -non-compliant.crt: S5, RFC non-compliant (with forbidden EC algorithm identifier NULL parameter) generated by (before fix): cert_write subject_key=server5.key subject_name="CN=Test EC RFC non-compliant" issuer_crt=test-ca2.crt issuer_key=test-ca2.key -selfsigned.crt: Self-signed cert with S5 key -ss-expired.crt: Self-signed cert with S5 key, expired -ss-forgeca.crt: Copy of test-int-ca3 self-signed with S5 key - server6-ss-child.crt: O E: "child" of non-CA server5-selfsigned - server6.crt, server6.pem: 2 E L C: revoked - server7.crt: I1 E L P1(usually): EC signed by RSA signed by EC -badsign.crt: S7 with corrupted signature + I1 -expired.crt: S7 with "not after" date in the past + I1 -future.crt: S7 with "not before" date in the future + I1 _int-ca-exp.crt: S7 + expired I1 _int-ca.crt: S7 + I1 _int-ca_ca2.crt: S7 + I1 + 2 _all_space.crt: S7 + I1 both with misplaced spaces (invalid PEM) _pem_space.crt: S7 with misplaced space (invalid PEM) + I1 _trailing_space.crt: S7 + I1 both with trailing space (valid PEM) _spurious_int-ca.crt: S7 + I2(spurious) + I1 - server8*.crt: I2 R L: RSA signed by EC signed by RSA (P1 for _int-ca2) - server9*.crt: 1 R C* L P1*: signed using RSASSA-PSS *CRL for: 9.crt, -badsign, -with-ca (P1) - server10.crt: I3 E L -badsign.crt: S10 with corrupted signature -bs_int3.pem: S10-badsign + I3 _int3-bs.pem: S10 + I3-badsign _int3_int-ca2.crt: S10 + I3 + I2 _int3_int-ca2_ca.crt: S10 + I3 + I2 + 1 _int3_spurious_int-ca2.crt: S10 + I3 + I1(spurious) + I2 Certificate revocation lists ---------------------------- Signing CA in parentheses (same meaning as certificates). - crl-ec-sha*.pem: (2) server6.crt - crl-future.pem: (2) server6.crt + unknown - crl-rsa-pss-*.pem: (1) server9{,badsign,with-ca}.crt + cert_sha384.crt + unknown - crl.pem, crl-futureRevocationDate.pem, crl_expired.pem: (1) server1{,.cert_type,.key_usage,.v1}.crt + unknown - crl_md*.pem: crl_sha*.pem: (1) same as crl.pem - crt_cat_*.pem: (1+2) concatenations in various orders: ec = crl-ec-sha256.pem, ecfut = crl-future.pem rsa = crl.pem, rsabadpem = same with pem error, rsaexp = crl_expired.pem Note: crl_future would revoke server9 and cert_sha384.crt if signed by CA 1 crl-rsa-pss* would revoke server6.crt if signed by CA 2 Generation ---------- Newer test files have been generated through commands in the Makefile. The resulting files are committed to the repository so that the tests can run without having to re-do the generation and so that the output is the same for everyone (the generation process is randomized). The origin of older certificates has not been recorded.