import os from netlib import certutils, certffi import OpenSSL import tutils class TestDNTree: def test_simple(self): d = certutils.DNTree() d.add("foo.com", "foo") d.add("bar.com", "bar") assert d.get("foo.com") == "foo" assert d.get("bar.com") == "bar" assert not d.get("oink.com") assert not d.get("oink") assert not d.get("") assert not d.get("oink.oink") d.add("*.match.org", "match") assert not d.get("match.org") assert d.get("foo.match.org") == "match" assert d.get("foo.foo.match.org") == "match" def test_wildcard(self): d = certutils.DNTree() d.add("foo.com", "foo") assert not d.get("*.foo.com") d.add("*.foo.com", "wild") d = certutils.DNTree() d.add("*", "foo") assert d.get("foo.com") == "foo" assert d.get("*.foo.com") == "foo" assert d.get("com") == "foo" class TestCertStore: def test_create_explicit(self): with tutils.tmpdir() as d: ca = certutils.CertStore.from_store(d, "test") assert ca.get_cert("foo", []) ca2 = certutils.CertStore.from_store(d, "test") assert ca2.get_cert("foo", []) assert ca.cacert.get_serial_number() == ca2.cacert.get_serial_number() def test_create_tmp(self): with tutils.tmpdir() as d: ca = certutils.CertStore.from_store(d, "test") assert ca.get_cert("foo.com", []) assert ca.get_cert("foo.com", []) assert ca.get_cert("*.foo.com", []) r = ca.get_cert("*.foo.com", []) assert r[1] == ca.privkey def test_add_cert(self): with tutils.tmpdir() as d: ca = certutils.CertStore.from_store(d, "test") def test_sans(self): with tutils.tmpdir() as d: ca = certutils.CertStore.from_store(d, "test") c1 = ca.get_cert("foo.com", ["*.bar.com"]) c2 = ca.get_cert("foo.bar.com", []) assert c1 == c2 c3 = ca.get_cert("bar.com", []) assert not c1 == c3 def test_overrides(self): with tutils.tmpdir() as d: ca1 = certutils.CertStore.from_store(os.path.join(d, "ca1"), "test") ca2 = certutils.CertStore.from_store(os.path.join(d, "ca2"), "test") assert not ca1.cacert.get_serial_number() == ca2.cacert.get_serial_number() dc = ca2.get_cert("foo.com", []) dcp = os.path.join(d, "dc") f = open(dcp, "wb") f.write(dc[0].to_pem()) f.close() ca1.add_cert_file("foo.com", dcp) ret = ca1.get_cert("foo.com", []) assert ret[0].serial == dc[0].serial def test_gen_pkey(self): try: with tutils.tmpdir() as d: ca1 = certutils.CertStore.from_store(os.path.join(d, "ca1"), "test") ca2 = certutils.CertStore.from_store(os.path.join(d, "ca2"), "test") cert = ca1.get_cert("foo.com", []) assert certffi.get_flags(ca2.gen_pkey(cert[0])) == 1 finally: certffi.set_flags(ca2.privkey, 0) class TestDummyCert: def test_with_ca(self): with tutils.tmpdir() as d: ca = certutils.CertStore.from_store(d, "test") r = certutils.dummy_cert( ca.privkey, ca.cacert, "foo.com", ["one.com", "two.com", "*.three.com"] ) assert r.cn == "foo.com" class TestSSLCert: def test_simple(self): c = certutils.SSLCert.from_pem(file(tutils.test_data.path("data/text_cert"), "rb").read()) assert c.cn == "google.com" assert len(c.altnames) == 436 c = certutils.SSLCert.from_pem(file(tutils.test_data.path("data/text_cert_2"), "rb").read()) assert c.cn == "www.inode.co.nz" assert len(c.altnames) == 2 assert c.digest("sha1") assert c.notbefore assert c.notafter assert c.subject assert c.keyinfo == ("RSA", 2048) assert c.serial assert c.issuer assert c.to_pem() c.has_expired def test_err_broken_sans(self): c = certutils.SSLCert.from_pem(file(tutils.test_data.path("data/text_cert_weird1"), "rb").read()) # This breaks unless we ignore a decoding error. c.altnames def test_der(self): d = file(tutils.test_data.path("data/dercert"),"rb").read() s = certutils.SSLCert.from_der(d) assert s.cn