1 /*
2 * Copyright (C) 2018 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 #include "SingleManifestTest.h"
18
19 #include <aidl/metadata.h>
20 #include <android-base/properties.h>
21 #include <android-base/strings.h>
22 #include <android/apex/ApexInfo.h>
23 #include <android/apex/IApexService.h>
24 #include <binder/IServiceManager.h>
25 #include <binder/Parcel.h>
26 #include <binder/Status.h>
27 #include <gmock/gmock.h>
28 #include <hidl-util/FqInstance.h>
29 #include <hidl/HidlTransportUtils.h>
30 #include <vintf/constants.h>
31 #include <vintf/parse_string.h>
32
33 #include <algorithm>
34
35 #include "utils.h"
36
37 using ::testing::AnyOf;
38
39 namespace android {
40 namespace vintf {
41 namespace testing {
42
43 using android::FqInstance;
44 using android::vintf::toFQNameString;
45
46 // For devices that launched <= Android O-MR1, systems/hals/implementations
47 // were delivered to companies which either don't start up on device boot.
LegacyAndExempt(const FQName & fq_name)48 bool LegacyAndExempt(const FQName &fq_name) {
49 return GetBoardApiLevel() <= 27 && !IsAndroidPlatformInterface(fq_name);
50 }
51
FailureHalMissing(const FQName & fq_name,const std::string & instance)52 void FailureHalMissing(const FQName &fq_name, const std::string &instance) {
53 if (LegacyAndExempt(fq_name)) {
54 cout << "[ WARNING ] " << fq_name.string() << "/" << instance
55 << " not available but is exempted because it is legacy. It is still "
56 "recommended to fix this."
57 << endl;
58 } else {
59 ADD_FAILURE() << fq_name.string() << "/" << instance << " not available.";
60 }
61 }
62
FailureHashMissing(const FQName & fq_name)63 void FailureHashMissing(const FQName &fq_name) {
64 if (LegacyAndExempt(fq_name)) {
65 cout << "[ WARNING ] " << fq_name.string()
66 << " has an empty hash but is exempted because it is legacy. It is "
67 "still recommended to fix this. This is because it was compiled "
68 "without being frozen in a corresponding current.txt file."
69 << endl;
70 } else if (base::GetProperty("ro.build.version.codename", "") != "REL") {
71 cout << "[ WARNING ] " << fq_name.string()
72 << " has an empty hash but is exempted because it is not a release "
73 "build"
74 << endl;
75 } else {
76 ADD_FAILURE()
77 << fq_name.string()
78 << " has an empty hash. This is because it was compiled "
79 "without being frozen in a corresponding current.txt file.";
80 }
81 }
82
83 template <typename It>
RangeInstancesToString(const std::pair<It,It> & range)84 static string RangeInstancesToString(const std::pair<It, It> &range) {
85 std::stringstream ss;
86 for (auto it = range.first; it != range.second; ++it) {
87 if (it != range.first) ss << ", ";
88 ss << it->second.string();
89 }
90 return ss.str();
91 }
92
93 template <typename Container>
InstancesToString(const Container & container)94 static string InstancesToString(const Container &container) {
95 std::stringstream ss;
96 for (auto it = container.begin(); it != container.end(); ++it) {
97 if (it != container.begin()) ss << ", ";
98 ss << *it;
99 }
100 return ss.str();
101 }
102
ToFqInstance(const string & interface,const string & instance)103 static FqInstance ToFqInstance(const string &interface,
104 const string &instance) {
105 FqInstance fq_interface;
106 FqInstance ret;
107
108 if (!fq_interface.setTo(interface)) {
109 ADD_FAILURE() << interface << " is not a valid FQName";
110 return ret;
111 }
112 if (!ret.setTo(fq_interface.getPackage(), fq_interface.getMajorVersion(),
113 fq_interface.getMinorVersion(), fq_interface.getInterface(),
114 instance)) {
115 ADD_FAILURE() << "Cannot convert to FqInstance: " << interface << "/"
116 << instance;
117 }
118 return ret;
119 }
120
121 // Given android.foo.bar@x.y::IFoo/default, attempt to get
122 // android.foo.bar@x.y::IFoo/default, android.foo.bar@x.(y-1)::IFoo/default,
123 // ... android.foo.bar@x.0::IFoo/default until the passthrough HAL is retrieved.
GetPassthroughService(const FqInstance & fq_instance)124 static sp<IBase> GetPassthroughService(const FqInstance &fq_instance) {
125 for (size_t minor_version = fq_instance.getMinorVersion();; --minor_version) {
126 // String out instance name from fq_instance.
127 FqInstance interface;
128 if (!interface.setTo(fq_instance.getPackage(),
129 fq_instance.getMajorVersion(), minor_version,
130 fq_instance.getInterface())) {
131 ADD_FAILURE() << fq_instance.string()
132 << " doesn't contain a valid FQName";
133 return nullptr;
134 }
135
136 auto hal_service = VtsTrebleVintfTestBase::GetHalService(
137 interface.string(), fq_instance.getInstance(), Transport::PASSTHROUGH);
138
139 if (hal_service != nullptr) {
140 bool interface_chain_valid = false;
141 hal_service->interfaceChain([&](const auto &chain) {
142 for (const auto &intf : chain) {
143 if (intf == interface.string()) {
144 interface_chain_valid = true;
145 return;
146 }
147 }
148 });
149 if (!interface_chain_valid) {
150 ADD_FAILURE() << "Retrieved " << interface.string() << "/"
151 << fq_instance.getInstance() << " as "
152 << fq_instance.string()
153 << " but interfaceChain() doesn't contain "
154 << fq_instance.string();
155 return nullptr;
156 }
157 cout << "Retrieved " << interface.string() << "/"
158 << fq_instance.getInstance() << " as " << fq_instance.string()
159 << endl;
160 return hal_service;
161 }
162
163 if (minor_version == 0) {
164 return nullptr;
165 }
166 }
167 ADD_FAILURE() << "Should not reach here";
168 return nullptr;
169 }
170
171 // returns true only if the specified apex is updated
IsApexUpdated(const std::string & apex_name)172 static bool IsApexUpdated(const std::string &apex_name) {
173 using namespace ::android::apex;
174 auto binder =
175 defaultServiceManager()->waitForService(String16("apexservice"));
176 if (binder != nullptr) {
177 auto apex_service = interface_cast<IApexService>(binder);
178 std::vector<ApexInfo> list;
179 auto status = apex_service->getActivePackages(&list);
180 EXPECT_TRUE(status.isOk())
181 << "Failed to getActivePackages():" << status.exceptionMessage();
182 for (const ApexInfo &apex_info : list) {
183 if (apex_info.moduleName == apex_name) {
184 return !apex_info.isFactory;
185 }
186 }
187 }
188 return false;
189 }
190
191 // Tests that no HAL outside of the allowed set is specified as passthrough in
192 // VINTF.
TEST_P(SingleManifestTest,HalsAreBinderized)193 TEST_P(SingleManifestTest, HalsAreBinderized) {
194 multimap<Transport, FqInstance> instances;
195 ForEachHidlHalInstance(GetParam(), [&instances](const FQName &fq_name,
196 const string &instance_name,
197 Transport transport) {
198 FqInstance fqInstance;
199 ASSERT_TRUE(fqInstance.setTo(
200 fq_name.package(), fq_name.getPackageMajorVersion(),
201 fq_name.getPackageMinorVersion(), fq_name.name(), instance_name));
202 instances.emplace(transport, std::move(fqInstance));
203 });
204
205 for (auto it = instances.begin(); it != instances.end();
206 it = instances.upper_bound(it->first)) {
207 EXPECT_THAT(it->first, AnyOf(Transport::HWBINDER, Transport::PASSTHROUGH))
208 << "The following HALs has unknown transport specified in VINTF ("
209 << it->first << ", ordinal "
210 << static_cast<std::underlying_type_t<Transport>>(it->first) << ")"
211 << RangeInstancesToString(instances.equal_range(it->first));
212 }
213
214 auto passthrough_declared_range =
215 instances.equal_range(Transport::PASSTHROUGH);
216 set<FqInstance> passthrough_declared;
217 std::transform(
218 passthrough_declared_range.first, passthrough_declared_range.second,
219 std::inserter(passthrough_declared, passthrough_declared.begin()),
220 [](const auto &pair) { return pair.second; });
221
222 set<FqInstance> passthrough_allowed;
223 for (const auto &declared_instance : passthrough_declared) {
224 auto hal_service = GetPassthroughService(declared_instance);
225
226 // For vendor extensions, hal_service may be null because we don't know
227 // its interfaceChain()[1] to call getService(). However, the base interface
228 // should be declared in the manifest, so other iterations of this for-loop
229 // verify that vendor extension.
230 if (hal_service == nullptr) {
231 cout << "Skip calling interfaceChain on " << declared_instance.string()
232 << " because it can't be retrieved directly." << endl;
233 continue;
234 }
235
236 // For example, given the following interfaceChain when
237 // hal_service is "android.hardware.mapper@2.0::IMapper/default":
238 // ["vendor.foo.mapper@1.0::IMapper",
239 // "android.hardware.mapper@2.1::IMapper",
240 // "android.hardware.mapper@2.0::IMapper",
241 // "android.hidl.base@1.0::IBase"],
242 // Allow the following:
243 // ["vendor.foo.mapper@1.0::IMapper/default",
244 // "android.hardware.mapper@2.1::IMapper/default",
245 // "android.hardware.mapper@2.0::IMapper/default"]
246 hal_service->interfaceChain([&](const auto &chain) {
247 vector<FqInstance> fq_instances;
248 std::transform(
249 chain.begin(), chain.end(), std::back_inserter(fq_instances),
250 [&](const auto &interface) {
251 return ToFqInstance(interface, declared_instance.getInstance());
252 });
253
254 bool allowing = false;
255 for (auto it = fq_instances.rbegin(); it != fq_instances.rend(); ++it) {
256 if (kPassthroughHals.find(it->getPackage()) != kPassthroughHals.end()) {
257 allowing = true;
258 }
259 if (allowing) {
260 cout << it->string() << " is allowed to be passthrough" << endl;
261 passthrough_allowed.insert(*it);
262 }
263 }
264 });
265 }
266
267 set<FqInstance> passthrough_not_allowed;
268 std::set_difference(
269 passthrough_declared.begin(), passthrough_declared.end(),
270 passthrough_allowed.begin(), passthrough_allowed.end(),
271 std::inserter(passthrough_not_allowed, passthrough_not_allowed.begin()));
272
273 EXPECT_TRUE(passthrough_not_allowed.empty())
274 << "The following HALs can't be passthrough under Treble rules: ["
275 << InstancesToString(passthrough_not_allowed) << "].";
276 }
277
278 // Tests that all HALs specified in the VINTF are available through service
279 // manager.
280 // This tests (HAL in manifest) => (HAL is served)
TEST_P(SingleManifestTest,HalsAreServed)281 TEST_P(SingleManifestTest, HalsAreServed) {
282 // Returns a function that verifies that HAL is available through service
283 // manager and is served from a specific set of partitions.
284 auto is_available_from =
285 [this](Partition expected_partition) -> HidlVerifyFn {
286 return [this, expected_partition](const FQName &fq_name,
287 const string &instance_name,
288 Transport transport) {
289 sp<IBase> hal_service;
290
291 if (transport == Transport::PASSTHROUGH) {
292 using android::hardware::details::canCastInterface;
293
294 // Passthrough services all start with minor version 0.
295 // there are only three of them listed above. They are looked
296 // up based on their binary location. For instance,
297 // V1_0::IFoo::getService() might correspond to looking up
298 // android.hardware.foo@1.0-impl for the symbol
299 // HIDL_FETCH_IFoo. For @1.1::IFoo to continue to work with
300 // 1.0 clients, it must also be present in a library that is
301 // called the 1.0 name. Clients can say:
302 // mFoo1_0 = V1_0::IFoo::getService();
303 // mFoo1_1 = V1_1::IFoo::castFrom(mFoo1_0);
304 // This is the standard pattern for making a service work
305 // for both versions (mFoo1_1 != nullptr => you have 1.1)
306 // and a 1.0 client still works with the 1.1 interface.
307
308 if (!IsAndroidPlatformInterface(fq_name)) {
309 // This isn't the case for extensions of core Google interfaces.
310 return;
311 }
312
313 const FQName lowest_name =
314 fq_name.withVersion(fq_name.getPackageMajorVersion(), 0);
315 hal_service = GetHalService(lowest_name, instance_name, transport);
316 EXPECT_TRUE(
317 canCastInterface(hal_service.get(), fq_name.string().c_str()))
318 << fq_name.string() << " is not on the device.";
319 } else {
320 hal_service = GetHalService(fq_name, instance_name, transport);
321 }
322
323 if (hal_service == nullptr) {
324 FailureHalMissing(fq_name, instance_name);
325 return;
326 }
327
328 EXPECT_EQ(transport == Transport::HWBINDER, hal_service->isRemote())
329 << "transport is " << transport << "but HAL service is "
330 << (hal_service->isRemote() ? "" : "not") << " remote.";
331 EXPECT_EQ(transport == Transport::PASSTHROUGH, !hal_service->isRemote())
332 << "transport is " << transport << "but HAL service is "
333 << (hal_service->isRemote() ? "" : "not") << " remote.";
334
335 if (!hal_service->isRemote()) return;
336
337 Partition partition = GetPartition(hal_service);
338 if (partition == Partition::UNKNOWN) return;
339 EXPECT_EQ(expected_partition, partition)
340 << fq_name.string() << "/" << instance_name << " is in partition "
341 << partition << " but is expected to be in " << expected_partition;
342 };
343 };
344
345 auto manifest = GetParam();
346 ForEachHidlHalInstance(manifest,
347 is_available_from(PartitionOfType(manifest->type())));
348 }
349
350 // Tests that all HALs which are served are specified in the VINTF
351 // This tests (HAL is served) => (HAL in manifest)
TEST_P(SingleManifestTest,ServedHwbinderHalsAreInManifest)352 TEST_P(SingleManifestTest, ServedHwbinderHalsAreInManifest) {
353 auto manifest = GetParam();
354 auto expected_partition = PartitionOfType(manifest->type());
355 std::set<std::string> manifest_hwbinder_hals_ = GetHwbinderHals(manifest);
356
357 Return<void> ret = default_manager_->list([&](const auto &list) {
358 for (const auto &name : list) {
359 if (std::string(name).find(IBase::descriptor) == 0) continue;
360
361 FqInstance fqInstanceName;
362 EXPECT_TRUE(fqInstanceName.setTo(name));
363
364 auto service =
365 GetHalService(toFQNameString(fqInstanceName.getPackage(),
366 fqInstanceName.getVersion(),
367 fqInstanceName.getInterface()),
368 fqInstanceName.getInstance(), Transport::HWBINDER);
369 ASSERT_NE(service, nullptr);
370
371 Partition partition = GetPartition(service);
372 if (partition == Partition::UNKNOWN) {
373 // Caught by SystemVendorTest.ServedHwbinderHalsAreInManifest
374 // if that test is run.
375 return;
376 }
377 if (partition == expected_partition) {
378 EXPECT_NE(manifest_hwbinder_hals_.find(name),
379 manifest_hwbinder_hals_.end())
380 << name << " is being served, but it is not in a manifest.";
381 }
382 }
383 });
384 EXPECT_TRUE(ret.isOk());
385 }
386
TEST_P(SingleManifestTest,ServedPassthroughHalsAreInManifest)387 TEST_P(SingleManifestTest, ServedPassthroughHalsAreInManifest) {
388 auto manifest = GetParam();
389 std::set<std::string> manifest_passthrough_hals_ =
390 GetPassthroughHals(manifest);
391
392 auto passthrough_interfaces_declared = [&manifest_passthrough_hals_](
393 const FQName &fq_name,
394 const string &instance_name,
395 Transport transport) {
396 if (transport != Transport::PASSTHROUGH) return;
397
398 // See HalsAreServed. These are always retrieved through the base interface
399 // and if it is not a google defined interface, it must be an extension of
400 // one.
401 if (!IsAndroidPlatformInterface(fq_name)) return;
402
403 const FQName lowest_name =
404 fq_name.withVersion(fq_name.getPackageMajorVersion(), 0);
405 sp<IBase> hal_service =
406 GetHalService(lowest_name, instance_name, transport);
407 if (hal_service == nullptr) {
408 ADD_FAILURE() << "Could not get service " << fq_name.string() << "/"
409 << instance_name;
410 return;
411 }
412
413 Return<void> ret = hal_service->interfaceChain(
414 [&manifest_passthrough_hals_, &instance_name](const auto &interfaces) {
415 for (const auto &interface : interfaces) {
416 if (std::string(interface) == IBase::descriptor) continue;
417
418 const std::string instance =
419 std::string(interface) + "/" + instance_name;
420 EXPECT_NE(manifest_passthrough_hals_.find(instance),
421 manifest_passthrough_hals_.end())
422 << "Instance missing from manifest: " << instance;
423 }
424 });
425 EXPECT_TRUE(ret.isOk());
426 };
427 ForEachHidlHalInstance(manifest, passthrough_interfaces_declared);
428 }
429
430 // Tests that HAL interfaces are officially released.
TEST_P(SingleManifestTest,InterfacesAreReleased)431 TEST_P(SingleManifestTest, InterfacesAreReleased) {
432 // Verifies that HAL are released by fetching the hash of the interface and
433 // comparing it to the set of known hashes of released interfaces.
434 HidlVerifyFn is_released = [](const FQName &fq_name,
435 const string &instance_name,
436 Transport transport) {
437 // See HalsAreServed. These are always retrieved through the base interface
438 // and if it is not a google defined interface, it must be an extension of
439 // one.
440 if (transport == Transport::PASSTHROUGH &&
441 (!IsAndroidPlatformInterface(fq_name) ||
442 fq_name.getPackageMinorVersion() != 0)) {
443 return;
444 }
445
446 sp<IBase> hal_service = GetHalService(fq_name, instance_name, transport);
447
448 if (hal_service == nullptr) {
449 FailureHalMissing(fq_name, instance_name);
450 return;
451 }
452
453 vector<string> iface_chain = GetInterfaceChain(hal_service);
454
455 vector<string> hash_chain{};
456 hal_service->getHashChain(
457 [&hash_chain](const hidl_vec<HashCharArray> &chain) {
458 for (const HashCharArray &hash_array : chain) {
459 vector<uint8_t> hash{hash_array.data(),
460 hash_array.data() + hash_array.size()};
461 hash_chain.push_back(Hash::hexString(hash));
462 }
463 });
464
465 ASSERT_EQ(iface_chain.size(), hash_chain.size());
466 for (size_t i = 0; i < iface_chain.size(); ++i) {
467 FQName fq_iface_name;
468 if (!FQName::parse(iface_chain[i], &fq_iface_name)) {
469 ADD_FAILURE() << "Could not parse iface name " << iface_chain[i]
470 << " from interface chain of " << fq_name.string();
471 return;
472 }
473 string hash = hash_chain[i];
474 if (hash == Hash::hexString(Hash::kEmptyHash)) {
475 FailureHashMissing(fq_iface_name);
476 } else if (IsAndroidPlatformInterface(fq_iface_name)) {
477 set<string> released_hashes = ReleasedHashes(fq_iface_name);
478 EXPECT_NE(released_hashes.find(hash), released_hashes.end())
479 << "Hash not found. This interface was not released." << endl
480 << "Interface name: " << fq_iface_name.string() << endl
481 << "Hash: " << hash << endl;
482 }
483 }
484 };
485
486 ForEachHidlHalInstance(GetParam(), is_released);
487 }
488
hashesForInterface(const std::string & name)489 static std::vector<std::string> hashesForInterface(const std::string &name) {
490 for (const auto &module : AidlInterfaceMetadata::all()) {
491 if (std::find(module.types.begin(), module.types.end(), name) !=
492 module.types.end()) {
493 return module.hashes;
494 }
495 }
496 return {};
497 }
498
499 // TODO(b/150155678): using standard code to do this
getInterfaceHash(const sp<IBinder> & binder)500 static std::string getInterfaceHash(const sp<IBinder> &binder) {
501 Parcel data;
502 Parcel reply;
503 data.writeInterfaceToken(binder->getInterfaceDescriptor());
504 status_t err =
505 binder->transact(IBinder::LAST_CALL_TRANSACTION - 1, data, &reply, 0);
506 if (err == UNKNOWN_TRANSACTION) {
507 return "";
508 }
509 EXPECT_EQ(OK, err);
510 binder::Status status;
511 EXPECT_EQ(OK, status.readFromParcel(reply));
512 EXPECT_TRUE(status.isOk()) << status.toString8().c_str();
513 std::string str;
514 EXPECT_EQ(OK, reply.readUtf8FromUtf16(&str));
515 return str;
516 }
517
518 // TODO(b/150155678): using standard code to do this
getInterfaceVersion(const sp<IBinder> & binder)519 static int32_t getInterfaceVersion(const sp<IBinder> &binder) {
520 Parcel data;
521 Parcel reply;
522 const auto &descriptor = binder->getInterfaceDescriptor();
523 data.writeInterfaceToken(descriptor);
524 status_t err = binder->transact(IBinder::LAST_CALL_TRANSACTION, data, &reply);
525 // On upgrading devices, the HAL may not implement this transaction. libvintf
526 // treats missing <version> as version 1, so we do the same here.
527 if (err == UNKNOWN_TRANSACTION) {
528 std::cout << "INFO: " << descriptor
529 << " does not have an interface version, using default value "
530 << android::vintf::kDefaultAidlMinorVersion << std::endl;
531 return android::vintf::kDefaultAidlMinorVersion;
532 }
533 EXPECT_EQ(OK, err);
534 binder::Status status;
535 EXPECT_EQ(OK, status.readFromParcel(reply));
536 EXPECT_TRUE(status.isOk()) << status.toString8().c_str();
537 auto version = reply.readInt32();
538 return version;
539 }
540
CheckAidlVersionMatchesDeclared(sp<IBinder> binder,const std::string & name,uint64_t declared_version,bool allow_upgrade)541 static void CheckAidlVersionMatchesDeclared(sp<IBinder> binder,
542 const std::string &name,
543 uint64_t declared_version,
544 bool allow_upgrade) {
545 const int32_t actual_version = getInterfaceVersion(binder);
546 if (actual_version < 1) {
547 ADD_FAILURE() << "For " << name << ", version should be >= 1 but it is "
548 << actual_version << ".";
549 return;
550 }
551
552 if (declared_version == actual_version) {
553 std::cout << "For " << name << ", version " << actual_version
554 << " matches declared value." << std::endl;
555 return;
556 }
557 if (allow_upgrade && actual_version > declared_version) {
558 std::cout << "For " << name << ", upgraded version " << actual_version
559 << " is okay. (declared value = " << declared_version << ".)"
560 << std::endl;
561 return;
562 }
563
564 // b/178458001: Identity V2 is introduced in R but we don't have AIDL version
565 // support in VINTF in R. So devices launching <= R may not declare version
566 // for identity AIDL HAL correctly.
567 Level shipping_fcm_version = VintfObject::GetDeviceHalManifest()->level();
568 if (shipping_fcm_version != Level::UNSPECIFIED &&
569 shipping_fcm_version <= Level::R &&
570 name == "android.hardware.identity.IIdentityCredentialStore/default" &&
571 declared_version == 1 && actual_version == 2) {
572 std::cout << "For " << name << ", manifest declares version "
573 << declared_version << ", but the actual version is "
574 << actual_version << ". Exempted for shipping FCM version "
575 << shipping_fcm_version << ". (b/178458001)";
576 return;
577 }
578
579 ADD_FAILURE() << "For " << name << ", manifest (" << shipping_fcm_version
580 << ") declares version " << declared_version
581 << ", but the actual version is " << actual_version;
582 }
583
584 // An AIDL HAL with VINTF stability can only be registered if it is in the
585 // manifest. However, we still must manually check that every declared HAL is
586 // actually present on the device.
TEST_P(SingleManifestTest,ManifestAidlHalsServed)587 TEST_P(SingleManifestTest, ManifestAidlHalsServed) {
588 AidlVerifyFn expect_available = [&](const string &package, uint64_t version,
589 const string &interface,
590 const string &instance,
591 const optional<string>
592 &updatable_via_apex) {
593 const std::string type = package + "." + interface;
594 const std::string name = type + "/" + instance;
595 sp<IBinder> binder =
596 defaultServiceManager()->waitForService(String16(name.c_str()));
597 ASSERT_NE(binder, nullptr) << "Failed to get " << name;
598
599 // allow upgrade if updatable HAL's declared APEX is actually updated.
600 const bool allow_upgrade = updatable_via_apex.has_value() &&
601 IsApexUpdated(updatable_via_apex.value());
602 CheckAidlVersionMatchesDeclared(binder, name, version, allow_upgrade);
603
604 const std::string hash = getInterfaceHash(binder);
605 const std::vector<std::string> hashes = hashesForInterface(type);
606
607 const bool is_aosp = base::StartsWith(package, "android.");
608 const bool is_release =
609 base::GetProperty("ro.build.version.codename", "") == "REL";
610 const bool found_hash =
611 std::find(hashes.begin(), hashes.end(), hash) != hashes.end();
612
613 if (is_aosp) {
614 if (!found_hash) {
615 if (is_release) {
616 ADD_FAILURE() << "Interface " << name
617 << " has an unrecognized hash: '" << hash
618 << "'. The following hashes are known:\n"
619 << base::Join(hashes, '\n')
620 << "\nHAL interfaces must be released and unchanged.";
621 } else {
622 std::cout << "INFO: using unfrozen hash '" << hash << "' for " << type
623 << ". This will become an error upon release." << std::endl;
624 }
625 }
626 } else {
627 // is extension
628 //
629 // we only require that these are frozen, but we cannot check them for
630 // accuracy
631 if (hash.empty()) {
632 if (is_release) {
633 ADD_FAILURE() << "Interface " << name
634 << " is used but not frozen (cannot find hash for it).";
635 } else {
636 std::cout << "INFO: missing hash for " << type
637 << ". This will become an error upon release." << std::endl;
638 }
639 }
640 }
641 };
642
643 ForEachAidlHalInstance(GetParam(), expect_available);
644 }
645
646 } // namespace testing
647 } // namespace vintf
648 } // namespace android
649