11844561993

Committed 14 Nov 2024 07:58PM UTC coverage: 91.178% (+0.1%) from 91.072%

Build # 11844561993

Build Type

Pull #4435

github

Committed by

web-flow

Commit Message

Merge 81dcb29da into e430f157a

Pull Request Pull Request #4435: Test duration values are now presented in seconds with six digits of precision. Tests without time measurements have been edited.

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94.34

/src/tests/unit_tls_policy.cpp

/*
* TLS Policy tests
*
* (C) 2016 Juraj Somorovsky
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include "tests.h"

#if defined(BOTAN_HAS_TLS)
   #include <botan/tls_exceptn.h>
   #include <botan/tls_policy.h>
#endif

#if defined(BOTAN_HAS_RSA)
   #include <botan/rsa.h>
#endif

#if defined(BOTAN_HAS_ECDH)
   #include <botan/ecdh.h>
#endif

#if defined(BOTAN_HAS_ECDSA)
   #include <botan/ecdsa.h>
#endif

#if defined(BOTAN_HAS_DIFFIE_HELLMAN)
   #include <botan/dh.h>
   #include <botan/dl_group.h>
#endif

namespace Botan_Tests {

namespace {

#if defined(BOTAN_HAS_TLS)
class TLS_Policy_Unit_Tests final : public Test {
   public:
      std::vector<Test::Result> run() override {
         std::vector<Test::Result> results;

         results.push_back(test_peer_key_acceptable_rsa(this->rng()));
         results.push_back(test_peer_key_acceptable_ecdh(this->rng()));
         results.push_back(test_peer_key_acceptable_ecdsa(this->rng()));
         results.push_back(test_peer_key_acceptable_dh());
         results.push_back(test_key_exchange_groups_to_offer());

         return results;
      }

   private:
      static Test::Result test_peer_key_acceptable_rsa(Botan::RandomNumberGenerator& rng) {
         Test::Result result("TLS Policy RSA key verification");
         result.start_timer();

   #if defined(BOTAN_HAS_RSA)
         auto rsa_key_1024 = std::make_unique<Botan::RSA_PrivateKey>(rng, 1024);
         Botan::TLS::Policy policy;

         try {
            policy.check_peer_key_acceptable(*rsa_key_1024);
            result.test_failure("Incorrectly accepting 1024 bit RSA keys");
         } catch(Botan::TLS::TLS_Exception&) {
            result.test_success("Correctly rejecting 1024 bit RSA keys");
         }

         auto rsa_key_2048 = std::make_unique<Botan::RSA_PrivateKey>(rng, 2048);
         policy.check_peer_key_acceptable(*rsa_key_2048);
         result.test_success("Correctly accepting 2048 bit RSA keys");
   #endif

         result.end_timer();
         return result;
      }

      static Test::Result test_peer_key_acceptable_ecdh(Botan::RandomNumberGenerator& rng) {
         Test::Result result("TLS Policy ECDH key verification");
         result.start_timer();

   #if defined(BOTAN_HAS_ECDH)
         const auto group_192 = Botan::EC_Group::from_name("secp192r1");
         auto ecdh_192 = std::make_unique<Botan::ECDH_PrivateKey>(rng, group_192);

         Botan::TLS::Policy policy;
         try {
            policy.check_peer_key_acceptable(*ecdh_192);
            result.test_failure("Incorrectly accepting 192 bit EC keys");
         } catch(Botan::TLS::TLS_Exception&) {
            result.test_success("Correctly rejecting 192 bit EC keys");
         }

         const auto group_256 = Botan::EC_Group::from_name("secp256r1");
         auto ecdh_256 = std::make_unique<Botan::ECDH_PrivateKey>(rng, group_256);
         policy.check_peer_key_acceptable(*ecdh_256);
         result.test_success("Correctly accepting 256 bit EC keys");
   #endif

         result.end_timer();
         return result;
      }

      static Test::Result test_peer_key_acceptable_ecdsa(Botan::RandomNumberGenerator& rng) {
         Test::Result result("TLS Policy ECDSA key verification");
         result.start_timer();

   #if defined(BOTAN_HAS_ECDSA)
         const auto group_192 = Botan::EC_Group::from_name("secp192r1");
         auto ecdsa_192 = std::make_unique<Botan::ECDSA_PrivateKey>(rng, group_192);

         Botan::TLS::Policy policy;
         try {
            policy.check_peer_key_acceptable(*ecdsa_192);
            result.test_failure("Incorrectly accepting 192 bit EC keys");
         } catch(Botan::TLS::TLS_Exception&) {
            result.test_success("Correctly rejecting 192 bit EC keys");
         }

         const auto group_256 = Botan::EC_Group::from_name("secp256r1");
         auto ecdsa_256 = std::make_unique<Botan::ECDSA_PrivateKey>(rng, group_256);
         policy.check_peer_key_acceptable(*ecdsa_256);
         result.test_success("Correctly accepting 256 bit EC keys");
   #endif

         result.end_timer();
         return result;
      }

      static Test::Result test_peer_key_acceptable_dh() {
         Test::Result result("TLS Policy DH key verification");
         result.start_timer();

   #if defined(BOTAN_HAS_DIFFIE_HELLMAN)
         const BigInt g("2");
         const BigInt p("58458002095536094658683755258523362961421200751439456159756164191494576279467");
         const Botan::DL_Group grp(p, g);
         const Botan::BigInt x("46205663093589612668746163860870963912226379131190812163519349848291472898748");
         auto dhkey = std::make_unique<Botan::DH_PrivateKey>(grp, x);

         Botan::TLS::Policy policy;
         try {
            policy.check_peer_key_acceptable(*dhkey);
            result.test_failure("Incorrectly accepting short bit DH keys");
         } catch(Botan::TLS::TLS_Exception&) {
            result.test_success("Correctly rejecting short bit DH keys");
         }
   #endif

         result.end_timer();
         return result;
      }

      static Test::Result test_key_exchange_groups_to_offer() {
         Test::Result result("TLS Policy key share offering");
         result.start_timer();

         Botan::TLS::Policy default_policy;
         result.test_eq(
            "default TLS Policy offers exactly one", default_policy.key_exchange_groups_to_offer().size(), 1);
         result.confirm(
            "default TLS Policy offers preferred group",
            default_policy.key_exchange_groups().front() == default_policy.key_exchange_groups_to_offer().front());

         using TP = Botan::TLS::Text_Policy;

         result.test_eq("default behaviour from text policy (size)", TP("").key_exchange_groups_to_offer().size(), 1);
         result.confirm("default behaviour from text policy (preferred)",
                        TP("").key_exchange_groups().front() == TP("").key_exchange_groups_to_offer().front());

         result.confirm("no offerings",
                        TP("key_exchange_groups_to_offer = none").key_exchange_groups_to_offer().empty());

         const std::string two_groups = "key_exchange_groups_to_offer = secp256r1 ffdhe/ietf/4096";
         result.test_eq("list of offerings (size)", TP(two_groups).key_exchange_groups_to_offer().size(), 2);
         result.confirm("list of offerings (0)",
                        TP(two_groups).key_exchange_groups_to_offer()[0] == Botan::TLS::Group_Params::SECP256R1);
         result.confirm("list of offerings (1)",
                        TP(two_groups).key_exchange_groups_to_offer()[1] == Botan::TLS::Group_Params::FFDHE_4096);

         result.end_timer();
         return result;
      }
};

BOTAN_REGISTER_TEST("tls", "tls_policy", TLS_Policy_Unit_Tests);

#endif

}  // namespace

}  // namespace Botan_Tests

1	/*
2	* TLS Policy tests
3	*
4	* (C) 2016 Juraj Somorovsky
5	*
6	* Botan is released under the Simplified BSD License (see license.txt)
7	*/
8
9	#include "tests.h"
10
11	#if defined(BOTAN_HAS_TLS)
12	#include <botan/tls_exceptn.h>
13	#include <botan/tls_policy.h>
14	#endif
15
16	#if defined(BOTAN_HAS_RSA)
17	#include <botan/rsa.h>
18	#endif
19
20	#if defined(BOTAN_HAS_ECDH)
21	#include <botan/ecdh.h>
22	#endif
23
24	#if defined(BOTAN_HAS_ECDSA)
25	#include <botan/ecdsa.h>
26	#endif
27
28	#if defined(BOTAN_HAS_DIFFIE_HELLMAN)
29	#include <botan/dh.h>
30	#include <botan/dl_group.h>
31	#endif
32
33	namespace Botan_Tests {
34
35	namespace {
36
37	#if defined(BOTAN_HAS_TLS)
38	class TLS_Policy_Unit_Tests final : public Test {	×
39	public:
40	std::vector<Test::Result> run() override {	1✔
41	std::vector<Test::Result> results;	1✔
42
43	results.push_back(test_peer_key_acceptable_rsa(this->rng()));	2✔
44	results.push_back(test_peer_key_acceptable_ecdh(this->rng()));	2✔
45	results.push_back(test_peer_key_acceptable_ecdsa(this->rng()));	2✔
46	results.push_back(test_peer_key_acceptable_dh());	2✔
47	results.push_back(test_key_exchange_groups_to_offer());	2✔
48
49	return results;	1✔
50	}	×
51
52	private:
53	static Test::Result test_peer_key_acceptable_rsa(Botan::RandomNumberGenerator& rng) {	1✔
54	Test::Result result("TLS Policy RSA key verification");	1✔
55	result.start_timer();	1✔
56
57	#if defined(BOTAN_HAS_RSA)
58	auto rsa_key_1024 = std::make_unique<Botan::RSA_PrivateKey>(rng, 1024);	1✔
59	Botan::TLS::Policy policy;	1✔
60
61	try {	1✔
62	policy.check_peer_key_acceptable(*rsa_key_1024);	1✔
63	result.test_failure("Incorrectly accepting 1024 bit RSA keys");	×
64	} catch(Botan::TLS::TLS_Exception&) {	1✔
65	result.test_success("Correctly rejecting 1024 bit RSA keys");	1✔
66	}	1✔
67
68	auto rsa_key_2048 = std::make_unique<Botan::RSA_PrivateKey>(rng, 2048);	1✔
69	policy.check_peer_key_acceptable(*rsa_key_2048);	1✔
70	result.test_success("Correctly accepting 2048 bit RSA keys");	1✔
71	#endif
72
73	result.end_timer();	1✔
74	return result;	1✔
75	}	1✔
76
77	static Test::Result test_peer_key_acceptable_ecdh(Botan::RandomNumberGenerator& rng) {	1✔
78	Test::Result result("TLS Policy ECDH key verification");	1✔
79	result.start_timer();	1✔
80
81	#if defined(BOTAN_HAS_ECDH)
82	const auto group_192 = Botan::EC_Group::from_name("secp192r1");	1✔
83	auto ecdh_192 = std::make_unique<Botan::ECDH_PrivateKey>(rng, group_192);	1✔
84
85	Botan::TLS::Policy policy;	1✔
86	try {	1✔
87	policy.check_peer_key_acceptable(*ecdh_192);	1✔
88	result.test_failure("Incorrectly accepting 192 bit EC keys");	×
89	} catch(Botan::TLS::TLS_Exception&) {	1✔
90	result.test_success("Correctly rejecting 192 bit EC keys");	1✔
91	}	1✔
92
93	const auto group_256 = Botan::EC_Group::from_name("secp256r1");	1✔
94	auto ecdh_256 = std::make_unique<Botan::ECDH_PrivateKey>(rng, group_256);	1✔
95	policy.check_peer_key_acceptable(*ecdh_256);	1✔
96	result.test_success("Correctly accepting 256 bit EC keys");	1✔
97	#endif
98
99	result.end_timer();	1✔
100	return result;	1✔
101	}	1✔
102
103	static Test::Result test_peer_key_acceptable_ecdsa(Botan::RandomNumberGenerator& rng) {	1✔
104	Test::Result result("TLS Policy ECDSA key verification");	1✔
105	result.start_timer();	1✔
106
107	#if defined(BOTAN_HAS_ECDSA)
108	const auto group_192 = Botan::EC_Group::from_name("secp192r1");	1✔
109	auto ecdsa_192 = std::make_unique<Botan::ECDSA_PrivateKey>(rng, group_192);	1✔
110
111	Botan::TLS::Policy policy;	1✔
112	try {	1✔
113	policy.check_peer_key_acceptable(*ecdsa_192);	1✔
114	result.test_failure("Incorrectly accepting 192 bit EC keys");	×
115	} catch(Botan::TLS::TLS_Exception&) {	1✔
116	result.test_success("Correctly rejecting 192 bit EC keys");	1✔
117	}	1✔
118
119	const auto group_256 = Botan::EC_Group::from_name("secp256r1");	1✔
120	auto ecdsa_256 = std::make_unique<Botan::ECDSA_PrivateKey>(rng, group_256);	1✔
121	policy.check_peer_key_acceptable(*ecdsa_256);	1✔
122	result.test_success("Correctly accepting 256 bit EC keys");	1✔
123	#endif
124
125	result.end_timer();	1✔
126	return result;	1✔
127	}	1✔
128
129	static Test::Result test_peer_key_acceptable_dh() {	1✔
130	Test::Result result("TLS Policy DH key verification");	1✔
131	result.start_timer();	1✔
132
133	#if defined(BOTAN_HAS_DIFFIE_HELLMAN)
134	const BigInt g("2");	1✔
135	const BigInt p("58458002095536094658683755258523362961421200751439456159756164191494576279467");	1✔
136	const Botan::DL_Group grp(p, g);	1✔
137	const Botan::BigInt x("46205663093589612668746163860870963912226379131190812163519349848291472898748");	1✔
138	auto dhkey = std::make_unique<Botan::DH_PrivateKey>(grp, x);	1✔
139
140	Botan::TLS::Policy policy;	1✔
141	try {	1✔
142	policy.check_peer_key_acceptable(*dhkey);	1✔
143	result.test_failure("Incorrectly accepting short bit DH keys");	×
144	} catch(Botan::TLS::TLS_Exception&) {	1✔
145	result.test_success("Correctly rejecting short bit DH keys");	1✔
146	}	1✔
147	#endif
148
149	result.end_timer();	1✔
150	return result;	1✔
151	}	5✔
152
153	static Test::Result test_key_exchange_groups_to_offer() {	1✔
154	Test::Result result("TLS Policy key share offering");	1✔
155	result.start_timer();	1✔
156
157	Botan::TLS::Policy default_policy;	1✔
158	result.test_eq(	2✔
159	"default TLS Policy offers exactly one", default_policy.key_exchange_groups_to_offer().size(), 1);	1✔
160	result.confirm(	2✔
161	"default TLS Policy offers preferred group",
162	default_policy.key_exchange_groups().front() == default_policy.key_exchange_groups_to_offer().front());	2✔
163
164	using TP = Botan::TLS::Text_Policy;	1✔
165
166	result.test_eq("default behaviour from text policy (size)", TP("").key_exchange_groups_to_offer().size(), 1);	3✔
167	result.confirm("default behaviour from text policy (preferred)",	3✔
168	TP("").key_exchange_groups().front() == TP("").key_exchange_groups_to_offer().front());	3✔
169
170	result.confirm("no offerings",	2✔
171	TP("key_exchange_groups_to_offer = none").key_exchange_groups_to_offer().empty());	2✔
172
173	const std::string two_groups = "key_exchange_groups_to_offer = secp256r1 ffdhe/ietf/4096";	1✔
174	result.test_eq("list of offerings (size)", TP(two_groups).key_exchange_groups_to_offer().size(), 2);	3✔
175	result.confirm("list of offerings (0)",	3✔
176	TP(two_groups).key_exchange_groups_to_offer()[0] == Botan::TLS::Group_Params::SECP256R1);	2✔
177	result.confirm("list of offerings (1)",	3✔
178	TP(two_groups).key_exchange_groups_to_offer()[1] == Botan::TLS::Group_Params::FFDHE_4096);	2✔
179
180	result.end_timer();	1✔
181	return result;	1✔
182	}	1✔
183	};
184
185	BOTAN_REGISTER_TEST("tls", "tls_policy", TLS_Policy_Unit_Tests);
186
187	#endif
188
189	} // namespace
190
191	} // namespace Botan_Tests

randombit / botan / 11844561993

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