path: root/unit_test/android_keymaster_test_utils.h (plain)
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1	/*
2	* Copyright 2014 The Android Open Source Project
3	*
4	* Licensed under the Apache License, Version 2.0 (the "License");
5	* you may not use this file except in compliance with the License.
6	* You may obtain a copy of the License at
7	*
8	* http://www.apache.org/licenses/LICENSE-2.0
9	*
10	* Unless required by applicable law or agreed to in writing, software
11	* distributed under the License is distributed on an "AS IS" BASIS,
12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13	* See the License for the specific language governing permissions and
14	* limitations under the License.
15	*/
16
17	#ifndef SYSTEM_KEYMASTER_ANDROID_KEYMASTER_TEST_UTILS_H_
18	#define SYSTEM_KEYMASTER_ANDROID_KEYMASTER_TEST_UTILS_H_
19
20	/*
21	* Utilities used to help with testing. Not used in production code.
22	*/
23
24	#include <stdarg.h>
25
26	#include <algorithm>
27	#include <memory>
28	#include <ostream>
29	#include <string>
30	#include <vector>
31
32	#include <gtest/gtest.h>
33
34	#include <hardware/keymaster0.h>
35	#include <hardware/keymaster1.h>
36	#include <hardware/keymaster2.h>
37	#include <hardware/keymaster_defs.h>
38
39	#include <keymaster/android_keymaster_utils.h>
40	#include <keymaster/authorization_set.h>
41	#include <keymaster/keymaster_context.h>
42	#include <keymaster/logger.h>
43
44	std::ostream& operator<<(std::ostream& os, const keymaster_key_param_t& param);
45	bool operator==(const keymaster_key_param_t& a, const keymaster_key_param_t& b);
46	std::string hex2str(std::string);
47
48	namespace keymaster {
49
50	bool operator==(const AuthorizationSet& a, const AuthorizationSet& b);
51	bool operator!=(const AuthorizationSet& a, const AuthorizationSet& b);
52
53	std::ostream& operator<<(std::ostream& os, const AuthorizationSet& set);
54
55	namespace test {
56
57	template <keymaster_tag_t Tag, typename KeymasterEnum>
58	bool contains(const AuthorizationSet& set, TypedEnumTag<KM_ENUM, Tag, KeymasterEnum> tag,
59	KeymasterEnum val) {
60	int pos = set.find(tag);
61	return pos != -1 && static_cast<KeymasterEnum>(set[pos].enumerated) == val;
62	}
63
64	template <keymaster_tag_t Tag, typename KeymasterEnum>
65	bool contains(const AuthorizationSet& set, TypedEnumTag<KM_ENUM_REP, Tag, KeymasterEnum> tag,
66	KeymasterEnum val) {
67	int pos = -1;
68	while ((pos = set.find(tag, pos)) != -1)
69	if (static_cast<KeymasterEnum>(set[pos].enumerated) == val)
70	return true;
71	return false;
72	}
73
74	template <keymaster_tag_t Tag>
75	bool contains(const AuthorizationSet& set, TypedTag<KM_UINT, Tag> tag, uint32_t val) {
76	int pos = set.find(tag);
77	return pos != -1 && set[pos].integer == val;
78	}
79
80	template <keymaster_tag_t Tag>
81	bool contains(const AuthorizationSet& set, TypedTag<KM_UINT_REP, Tag> tag, uint32_t val) {
82	int pos = -1;
83	while ((pos = set.find(tag, pos)) != -1)
84	if (set[pos].integer == val)
85	return true;
86	return false;
87	}
88
89	template <keymaster_tag_t Tag>
90	bool contains(const AuthorizationSet& set, TypedTag<KM_ULONG, Tag> tag, uint64_t val) {
91	int pos = set.find(tag);
92	return pos != -1 && set[pos].long_integer == val;
93	}
94
95	template <keymaster_tag_t Tag>
96	bool contains(const AuthorizationSet& set, TypedTag<KM_BYTES, Tag> tag, const std::string& val) {
97	int pos = set.find(tag);
98	return pos != -1 &&
99	std::string(reinterpret_cast<const char*>(set[pos].blob.data),
100	set[pos].blob.data_length) == val;
101	}
102
103	template <keymaster_tag_t Tag>
104	bool contains(const AuthorizationSet& set, TypedTag<KM_BIGNUM, Tag> tag, const std::string& val) {
105	int pos = set.find(tag);
106	return pos != -1 &&
107	std::string(reinterpret_cast<const char*>(set[pos].blob.data),
108	set[pos].blob.data_length) == val;
109	}
110
111	inline bool contains(const AuthorizationSet& set, keymaster_tag_t tag) {
112	return set.find(tag) != -1;
113	}
114
115	class StdoutLogger : public Logger {
116	public:
117	StdoutLogger() { set_instance(this); }
118
119	int log_msg(LogLevel level, const char* fmt, va_list args) const {
120	int output_len = 0;
121	switch (level) {
122	case DEBUG_LVL:
123	output_len = printf("DEBUG: ");
124	break;
125	case INFO_LVL:
126	output_len = printf("INFO: ");
127	break;
128	case WARNING_LVL:
129	output_len = printf("WARNING: ");
130	break;
131	case ERROR_LVL:
132	output_len = printf("ERROR: ");
133	break;
134	case SEVERE_LVL:
135	output_len = printf("SEVERE: ");
136	break;
137	}
138
139	output_len += vprintf(fmt, args);
140	output_len += printf("\n");
141	return output_len;
142	}
143	};
144
145	inline std::string make_string(const uint8_t* data, size_t length) {
146	return std::string(reinterpret_cast<const char*>(data), length);
147	}
148
149	template <size_t N> std::string make_string(const uint8_t (&a)[N]) {
150	return make_string(a, N);
151	}
152
153	/**
154	* Keymaster2TestInstance is used to parameterize Keymaster2Tests. Its main function is to create a
155	* keymaster2_device_t to which test calls can be directed. It also provides a place to specify
156	* various bits of alternative behavior, in cases where different devices are expected to behave
157	* differently (any such cases are a potential bug, but sometimes they may make sense).
158	*/
159	class Keymaster2TestInstanceCreator {
160	public:
161	virtual ~Keymaster2TestInstanceCreator(){};
162	virtual keymaster2_device_t* CreateDevice() const = 0;
163
164	virtual bool algorithm_in_km0_hardware(keymaster_algorithm_t algorithm) const = 0;
165	virtual int keymaster0_calls() const = 0;
166	virtual int minimal_digest_set() const { return false; }
167	virtual bool is_keymaster1_hw() const = 0;
168	virtual KeymasterContext* keymaster_context() const = 0;
169	};
170
171	// Use a shared_ptr because it's copyable.
172	typedef std::shared_ptr<Keymaster2TestInstanceCreator> InstanceCreatorPtr;
173
174	const uint64_t OP_HANDLE_SENTINEL = 0xFFFFFFFFFFFFFFFF;
175	class Keymaster2Test : public testing::TestWithParam<InstanceCreatorPtr> {
176	protected:
177	Keymaster2Test();
178	~Keymaster2Test();
179
180	keymaster2_device_t* device();
181
182	keymaster_error_t GenerateKey(const AuthorizationSetBuilder& builder);
183
184	keymaster_error_t DeleteKey();
185
186	keymaster_error_t ImportKey(const AuthorizationSetBuilder& builder,
187	keymaster_key_format_t format, const std::string& key_material);
188
189	keymaster_error_t ExportKey(keymaster_key_format_t format, std::string* export_data);
190
191	keymaster_error_t GetCharacteristics();
192
193	keymaster_error_t BeginOperation(keymaster_purpose_t purpose);
194	keymaster_error_t BeginOperation(keymaster_purpose_t purpose, const AuthorizationSet& input_set,
195	AuthorizationSet* output_set = NULL);
196
197	keymaster_error_t UpdateOperation(const std::string& message, std::string* output,
198	size_t* input_consumed);
199	keymaster_error_t UpdateOperation(const AuthorizationSet& additional_params,
200	const std::string& message, AuthorizationSet* output_params,
201	std::string* output, size_t* input_consumed);
202
203	keymaster_error_t FinishOperation(std::string* output);
204	keymaster_error_t FinishOperation(const std::string& signature, std::string* output);
205	keymaster_error_t FinishOperation(const AuthorizationSet& additional_params,
206	const std::string& signature, std::string* output) {
207	return FinishOperation(additional_params, signature, nullptr /* output_params */, output);
208	}
209	keymaster_error_t FinishOperation(const AuthorizationSet& additional_params,
210	const std::string& signature, AuthorizationSet* output_params,
211	std::string* output);
212
213	keymaster_error_t AbortOperation();
214
215	keymaster_error_t AttestKey(const std::string& attest_challenge, keymaster_cert_chain_t* chain);
216
217	keymaster_error_t UpgradeKey(const AuthorizationSet& upgrade_params);
218
219	keymaster_error_t GetVersion(uint8_t* major, uint8_t* minor, uint8_t* subminor);
220
221	std::string ProcessMessage(keymaster_purpose_t purpose, const std::string& message);
222	std::string ProcessMessage(keymaster_purpose_t purpose, const std::string& message,
223	const AuthorizationSet& begin_params,
224	const AuthorizationSet& update_params,
225	AuthorizationSet* output_params = NULL);
226	std::string ProcessMessage(keymaster_purpose_t purpose, const std::string& message,
227	const std::string& signature, const AuthorizationSet& begin_params,
228	const AuthorizationSet& update_params,
229	AuthorizationSet* output_params = NULL);
230	std::string ProcessMessage(keymaster_purpose_t purpose, const std::string& message,
231	const std::string& signature);
232
233	void SignMessage(const std::string& message, std::string* signature, keymaster_digest_t digest);
234	void SignMessage(const std::string& message, std::string* signature, keymaster_digest_t digest,
235	keymaster_padding_t padding);
236	void MacMessage(const std::string& message, std::string* signature, size_t mac_length);
237
238	void VerifyMessage(const std::string& message, const std::string& signature,
239	keymaster_digest_t digest);
240	void VerifyMessage(const std::string& message, const std::string& signature,
241	keymaster_digest_t digest, keymaster_padding_t padding);
242	void VerifyMac(const std::string& message, const std::string& signature);
243
244	std::string EncryptMessage(const std::string& message, keymaster_padding_t padding,
245	std::string* generated_nonce = NULL);
246	std::string EncryptMessage(const std::string& message, keymaster_digest_t digest,
247	keymaster_padding_t padding, std::string* generated_nonce = NULL);
248	std::string EncryptMessage(const std::string& message, keymaster_block_mode_t block_mode,
249	keymaster_padding_t padding, std::string* generated_nonce = NULL);
250	std::string EncryptMessage(const AuthorizationSet& update_params, const std::string& message,
251	keymaster_digest_t digest, keymaster_padding_t padding,
252	std::string* generated_nonce = NULL);
253	std::string EncryptMessage(const AuthorizationSet& update_params, const std::string& message,
254	keymaster_block_mode_t block_mode, keymaster_padding_t padding,
255	std::string* generated_nonce = NULL);
256	std::string EncryptMessageWithParams(const std::string& message,
257	const AuthorizationSet& begin_params,
258	const AuthorizationSet& update_params,
259	AuthorizationSet* output_params);
260
261	std::string DecryptMessage(const std::string& ciphertext, keymaster_padding_t padding);
262	std::string DecryptMessage(const std::string& ciphertext, keymaster_digest_t digest,
263	keymaster_padding_t padding);
264	std::string DecryptMessage(const std::string& ciphertext, keymaster_block_mode_t block_mode,
265	keymaster_padding_t padding);
266	std::string DecryptMessage(const std::string& ciphertext, keymaster_digest_t digest,
267	keymaster_padding_t padding, const std::string& nonce);
268	std::string DecryptMessage(const std::string& ciphertext, keymaster_block_mode_t block_mode,
269	keymaster_padding_t padding, const std::string& nonce);
270	std::string DecryptMessage(const AuthorizationSet& update_params, const std::string& ciphertext,
271	keymaster_digest_t digest, keymaster_padding_t padding,
272	const std::string& nonce);
273	std::string DecryptMessage(const AuthorizationSet& update_params, const std::string& ciphertext,
274	keymaster_block_mode_t block_mode, keymaster_padding_t padding,
275	const std::string& nonce);
276
277	void CheckHmacTestVector(const std::string& key, const std::string& message, keymaster_digest_t digest,
278	std::string expected_mac);
279	void CheckAesOcbTestVector(const std::string& key, const std::string& nonce,
280	const std::string& associated_data, const std::string& message,
281	const std::string& expected_ciphertext);
282	void CheckAesCtrTestVector(const std::string& key, const std::string& nonce,
283	const std::string& message, const std::string& expected_ciphertext);
284	AuthorizationSet UserAuthParams();
285	AuthorizationSet ClientParams();
286
287	template <typename T>
288	bool ResponseContains(const std::vector<T>& expected, const T* values, size_t len) {
289	return expected.size() == len &&
290	std::is_permutation(values, values + len, expected.begin());
291	}
292
293	template <typename T> bool ResponseContains(T expected, const T* values, size_t len) {
294	return (len == 1 && *values == expected);
295	}
296
297	AuthorizationSet hw_enforced();
298	AuthorizationSet sw_enforced();
299
300	void FreeCharacteristics();
301	void FreeKeyBlob();
302
303	void corrupt_key_blob();
304
305	void set_key_blob(const uint8_t* key, size_t key_length) {
306	FreeKeyBlob();
307	blob_.key_material = key;
308	blob_.key_material_size = key_length;
309	}
310
311	AuthorizationSet client_params() {
312	return AuthorizationSet(client_params_, sizeof(client_params_) / sizeof(client_params_[0]));
313	}
314
315	private:
316	keymaster2_device_t* device_;
317	keymaster_blob_t client_id_ = {.data = reinterpret_cast<const uint8_t*>("app_id"),
318	.data_length = 6};
319	keymaster_key_param_t client_params_[1] = {
320	Authorization(TAG_APPLICATION_ID, client_id_.data, client_id_.data_length)};
321
322	uint64_t op_handle_;
323
324	keymaster_key_blob_t blob_;
325	keymaster_key_characteristics_t characteristics_;
326	};
327
328	struct Keymaster0CountingWrapper : public keymaster0_device_t {
329	explicit Keymaster0CountingWrapper(keymaster0_device_t* device) : device_(device), counter_(0) {
330	common = device_->common;
331	common.close = counting_close_device;
332	client_version = device_->client_version;
333	flags = device_->flags;
334	context = this;
335
336	generate_keypair = counting_generate_keypair;
337	import_keypair = counting_import_keypair;
338	get_keypair_public = counting_get_keypair_public;
339	delete_keypair = counting_delete_keypair;
340	delete_all = counting_delete_all;
341	sign_data = counting_sign_data;
342	verify_data = counting_verify_data;
343	}
344
345	int count() { return counter_; }
346
347	// The blobs generated by the underlying softkeymaster start with "PK#8". Tweak the prefix so
348	// they don't get identified as softkeymaster blobs.
349	static void munge_blob(uint8_t* blob, size_t blob_length) {
350	if (blob && blob_length > 0 && *blob == 'P')
351	*blob = 'Q'; // Mind your Ps and Qs!
352	}
353
354	// Copy and un-modfy the blob. The caller must clean up the return value.
355	static uint8_t* unmunge_blob(const uint8_t* blob, size_t blob_length) {
356	uint8_t* dup_blob = dup_buffer(blob, blob_length);
357	if (dup_blob && blob_length > 0 && *dup_blob == 'Q')
358	*dup_blob = 'P';
359	return dup_blob;
360	}
361
362	static keymaster0_device_t* device(const keymaster0_device_t* dev) {
363	Keymaster0CountingWrapper* wrapper =
364	reinterpret_cast<Keymaster0CountingWrapper*>(dev->context);
365	return wrapper->device_;
366	}
367
368	static void increment(const keymaster0_device_t* dev) {
369	Keymaster0CountingWrapper* wrapper =
370	reinterpret_cast<Keymaster0CountingWrapper*>(dev->context);
371	wrapper->counter_++;
372	}
373
374	static int counting_close_device(hw_device_t* dev) {
375	keymaster0_device_t* k0_dev = reinterpret_cast<keymaster0_device_t*>(dev);
376	increment(k0_dev);
377	Keymaster0CountingWrapper* wrapper =
378	reinterpret_cast<Keymaster0CountingWrapper*>(k0_dev->context);
379	int retval =
380	wrapper->device_->common.close(reinterpret_cast<hw_device_t*>(wrapper->device_));
381	delete wrapper;
382	return retval;
383	}
384
385	static int counting_generate_keypair(const struct keymaster0_device* dev,
386	const keymaster_keypair_t key_type, const void* key_params,
387	uint8_t** key_blob, size_t* key_blob_length) {
388	increment(dev);
389	int result = device(dev)->generate_keypair(device(dev), key_type, key_params, key_blob,
390	key_blob_length);
391	if (result == 0)
392	munge_blob(*key_blob, *key_blob_length);
393	return result;
394	}
395
396	static int counting_import_keypair(const struct keymaster0_device* dev, const uint8_t* key,
397	const size_t key_length, uint8_t** key_blob,
398	size_t* key_blob_length) {
399	increment(dev);
400	int result =
401	device(dev)->import_keypair(device(dev), key, key_length, key_blob, key_blob_length);
402	if (result == 0)
403	munge_blob(*key_blob, *key_blob_length);
404	return result;
405	}
406
407	static int counting_get_keypair_public(const struct keymaster0_device* dev,
408	const uint8_t* key_blob, const size_t key_blob_length,
409	uint8_t** x509_data, size_t* x509_data_length) {
410	increment(dev);
411	std::unique_ptr<uint8_t[]> dup_blob(unmunge_blob(key_blob, key_blob_length));
412	return device(dev)->get_keypair_public(device(dev), dup_blob.get(), key_blob_length,
413	x509_data, x509_data_length);
414	}
415
416	static int counting_delete_keypair(const struct keymaster0_device* dev, const uint8_t* key_blob,
417	const size_t key_blob_length) {
418	increment(dev);
419	if (key_blob && key_blob_length > 0)
420	EXPECT_EQ('Q', *key_blob);
421	if (device(dev)->delete_keypair) {
422	std::unique_ptr<uint8_t[]> dup_blob(unmunge_blob(key_blob, key_blob_length));
423	return device(dev)->delete_keypair(device(dev), dup_blob.get(), key_blob_length);
424	}
425	return 0;
426	}
427
428	static int counting_delete_all(const struct keymaster0_device* dev) {
429	increment(dev);
430	if (device(dev)->delete_all)
431	return device(dev)->delete_all(device(dev));
432	return 0;
433	}
434
435	static int counting_sign_data(const struct keymaster0_device* dev, const void* signing_params,
436	const uint8_t* key_blob, const size_t key_blob_length,
437	const uint8_t* data, const size_t data_length,
438	uint8_t** signed_data, size_t* signed_data_length) {
439	increment(dev);
440	std::unique_ptr<uint8_t[]> dup_blob(unmunge_blob(key_blob, key_blob_length));
441	return device(dev)->sign_data(device(dev), signing_params, dup_blob.get(), key_blob_length,
442	data, data_length, signed_data, signed_data_length);
443	}
444
445	static int counting_verify_data(const struct keymaster0_device* dev, const void* signing_params,
446	const uint8_t* key_blob, const size_t key_blob_length,
447	const uint8_t* signed_data, const size_t signed_data_length,
448	const uint8_t* signature, const size_t signature_length) {
449	increment(dev);
450	std::unique_ptr<uint8_t[]> dup_blob(unmunge_blob(key_blob, key_blob_length));
451	return device(dev)->verify_data(device(dev), signing_params, dup_blob.get(),
452	key_blob_length, signed_data, signed_data_length, signature,
453	signature_length);
454	}
455
456	private:
457	keymaster0_device_t* device_;
458	int counter_;
459	};
460
461	/**
462	* This function takes a keymaster1_device_t and wraps it in an adapter that supports only
463	* KM_DIGEST_SHA_2_256.
464	*/
465	keymaster1_device_t* make_device_sha256_only(keymaster1_device_t* device);
466
467	} // namespace test
468	} // namespace keymaster
469
470	#endif // SYSTEM_KEYMASTER_ANDROID_KEYMASTER_TEST_UTILS_H_
471