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/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_LIBARTBASE_BASE_HIDDENAPI_FLAGS_H_
#define ART_LIBARTBASE_BASE_HIDDENAPI_FLAGS_H_
#include "sdk_version.h"
#include <vector>
#include "android-base/logging.h"
#include "base/bit_utils.h"
#include "base/dumpable.h"
#include "base/macros.h"
#include "base/hiddenapi_stubs.h"
namespace art {
namespace hiddenapi {
// Helper methods used inside ApiList. These were moved outside of the ApiList
// class so that they can be used in static_asserts. If they were inside, they
// would be part of an unfinished type.
namespace helper {
// Casts enum value to uint32_t.
template<typename T>
constexpr uint32_t ToUint(T val) { return static_cast<uint32_t>(val); }
// Returns uint32_t with one bit set at an index given by an enum value.
template<typename T>
constexpr uint32_t ToBit(T val) { return 1u << ToUint(val); }
// Returns a bit mask with `size` least significant bits set.
constexpr uint32_t BitMask(uint32_t size) { return (1u << size) - 1; }
// Returns a bit mask formed from an enum defining kMin and kMax. The values
// are assumed to be indices of min/max bits and the resulting bitmask has
// bits [kMin, kMax] set.
template<typename T>
constexpr uint32_t BitMask() {
return BitMask(ToUint(T::kMax) + 1) & (~BitMask(ToUint(T::kMin)));
}
// Returns true if `val` is a bitwise subset of `mask`.
constexpr bool MatchesBitMask(uint32_t val, uint32_t mask) { return (val & mask) == val; }
// Returns true if the uint32_t value of `val` is a bitwise subset of `mask`.
template<typename T>
constexpr bool MatchesBitMask(T val, uint32_t mask) { return MatchesBitMask(ToUint(val), mask); }
// Returns the number of values defined in an enum, assuming the enum defines
// kMin and kMax and no integer values are skipped between them.
template<typename T>
constexpr uint32_t NumValues() { return ToUint(T::kMax) - ToUint(T::kMin) + 1; }
// Returns enum value at position i from enum list.
template <typename T>
constexpr T GetEnumAt(uint32_t i) {
return static_cast<T>(ToUint(T::kMin) + i);
}
} // namespace helper
/*
* This class represents the information whether a field/method is in
* public API (SDK) or if it isn't, apps targeting which SDK
* versions are allowed to access it.
*/
class ApiList {
private:
// Number of bits reserved for Value in dex flags, and the corresponding bit mask.
static constexpr uint32_t kValueBitSize = 4;
static constexpr uint32_t kValueBitMask = helper::BitMask(kValueBitSize);
enum class Value : uint32_t {
// Values independent of target SDK version of app
kSdk = 0,
kUnsupported = 1,
kBlocked = 2,
// Values dependent on target SDK version of app. Put these last as
// their list will be extended in future releases.
// The max release code implicitly includes all maintenance releases,
// e.g. MaxTargetO is accessible to targetSdkVersion <= 27 (O_MR1).
kMaxTargetO = 3,
kMaxTargetP = 4,
kMaxTargetQ = 5,
kMaxTargetR = 6,
kMaxTargetS = 7,
// Special values
kInvalid = (static_cast<uint32_t>(-1) & kValueBitMask),
kMin = kSdk,
kMax = kMaxTargetS,
};
// Additional bit flags after the first kValueBitSize bits in dex flags.
// These are used for domain-specific API.
enum class DomainApi : uint32_t {
kCorePlatformApi = kValueBitSize,
kTestApi = kValueBitSize + 1,
// Special values
kMin = kCorePlatformApi,
kMax = kTestApi,
};
// Bit mask of all domain API flags.
static constexpr uint32_t kDomainApiBitMask = helper::BitMask<DomainApi>();
// Check that Values fit in the designated number of bits.
static_assert(kValueBitSize >= MinimumBitsToStore(helper::ToUint(Value::kMax)),
"Not enough bits to store all ApiList values");
// Checks that all Values are covered by kValueBitMask.
static_assert(helper::MatchesBitMask(Value::kMin, kValueBitMask));
static_assert(helper::MatchesBitMask(Value::kMax, kValueBitMask));
// Assert that Value::kInvalid is larger than the maximum Value.
static_assert(helper::ToUint(Value::kMax) < helper::ToUint(Value::kInvalid));
// Names corresponding to Values.
static constexpr const char* kValueNames[] = {
"sdk",
"unsupported",
"blocked",
"max-target-o",
"max-target-p",
"max-target-q",
"max-target-r",
"max-target-s",
};
// A magic marker used by tests to mimic a hiddenapi list which doesn't exist
// yet.
static constexpr const char* kFutureValueName = "max-target-future";
// Names corresponding to DomainApis.
static constexpr const char* kDomainApiNames[] {
"core-platform-api",
"test-api",
};
// Maximum SDK versions allowed to access ApiList of given Value.
static constexpr SdkVersion kMaxSdkVersions[] {
/* sdk */ SdkVersion::kMax,
/* unsupported */ SdkVersion::kMax,
/* blocklist */ SdkVersion::kMin,
/* max-target-o */ SdkVersion::kO_MR1,
/* max-target-p */ SdkVersion::kP,
/* max-target-q */ SdkVersion::kQ,
/* max-target-r */ SdkVersion::kR,
/* max-target-s */ SdkVersion::kS,
};
explicit ApiList(Value val, uint32_t domain_apis = 0u)
: dex_flags_(helper::ToUint(val) | domain_apis) {
DCHECK(GetValue() == val);
DCHECK_EQ(GetDomainApis(), domain_apis);
}
explicit ApiList(DomainApi val) : ApiList(Value::kInvalid, helper::ToBit(val)) {}
Value GetValue() const {
uint32_t value = (dex_flags_ & kValueBitMask);
// Treat all ones as invalid value
if (value == helper::ToUint(Value::kInvalid)) {
return Value::kInvalid;
} else if (value > helper::ToUint(Value::kMax)) {
// For future unknown flag values, return unsupported.
return Value::kUnsupported;
} else {
DCHECK_GE(value, helper::ToUint(Value::kMin));
return static_cast<Value>(value);
}
}
uint32_t GetDomainApis() const { return (dex_flags_ & kDomainApiBitMask); }
uint32_t dex_flags_;
public:
ApiList() : ApiList(Value::kInvalid) {}
explicit ApiList(uint32_t dex_flags) : dex_flags_(dex_flags) {
DCHECK_EQ(dex_flags_, (dex_flags_ & kValueBitMask) | (dex_flags_ & kDomainApiBitMask));
}
// Helpers for conveniently constructing ApiList instances.
static ApiList Sdk() { return ApiList(Value::kSdk); }
static ApiList Unsupported() { return ApiList(Value::kUnsupported); }
static ApiList Blocked() { return ApiList(Value::kBlocked); }
static ApiList MaxTargetO() { return ApiList(Value::kMaxTargetO); }
static ApiList MaxTargetP() { return ApiList(Value::kMaxTargetP); }
static ApiList MaxTargetQ() { return ApiList(Value::kMaxTargetQ); }
static ApiList MaxTargetR() { return ApiList(Value::kMaxTargetR); }
static ApiList MaxTargetS() { return ApiList(Value::kMaxTargetS); }
static ApiList CorePlatformApi() { return ApiList(DomainApi::kCorePlatformApi); }
static ApiList TestApi() { return ApiList(DomainApi::kTestApi); }
uint32_t GetDexFlags() const { return dex_flags_; }
uint32_t GetIntValue() const { return helper::ToUint(GetValue()) - helper::ToUint(Value::kMin); }
// Returns the ApiList with a flag of a given name, or an empty ApiList if not matched.
static ApiList FromName(const std::string& str) {
for (uint32_t i = 0; i < kValueCount; ++i) {
if (str == kValueNames[i]) {
return ApiList(helper::GetEnumAt<Value>(i));
}
}
for (uint32_t i = 0; i < kDomainApiCount; ++i) {
if (str == kDomainApiNames[i]) {
return ApiList(helper::GetEnumAt<DomainApi>(i));
}
}
if (str == kFutureValueName) {
static_assert(helper::ToUint(Value::kMax) + 1 < helper::ToUint(Value::kInvalid));
return ApiList(helper::ToUint(Value::kMax) + 1);
}
return ApiList();
}
// Parses a vector of flag names into a single ApiList value. If successful,
// returns true and assigns the new ApiList to `out_api_list`.
static bool FromNames(std::vector<std::string>::iterator begin,
std::vector<std::string>::iterator end,
/* out */ ApiList* out_api_list) {
ApiList api_list;
for (std::vector<std::string>::iterator it = begin; it != end; it++) {
ApiList current = FromName(*it);
if (current.IsEmpty() || !api_list.CanCombineWith(current)) {
if (ApiStubs::IsStubsFlag(*it)) {
// Ignore flags which correspond to the stubs from where the api
// originates (i.e. system-api, test-api, public-api), as they are not
// relevant at runtime
continue;
}
return false;
}
api_list |= current;
}
if (out_api_list != nullptr) {
*out_api_list = api_list;
}
return true;
}
bool operator==(const ApiList& other) const { return dex_flags_ == other.dex_flags_; }
bool operator!=(const ApiList& other) const { return !(*this == other); }
bool operator<(const ApiList& other) const { return dex_flags_ < other.dex_flags_; }
bool operator>(const ApiList& other) const { return dex_flags_ > other.dex_flags_; }
// Returns true if combining this ApiList (using | operator) with `other` will succeed.
//
// b/253335210 - This returns true as the | operator will combine any two ApiLists.
bool CanCombineWith(const ApiList& other) const {
UNUSED(other);
return true;
}
// Combine two ApiList instances.
ApiList operator|(const ApiList& other) {
// DomainApis are not mutually exclusive. Simply OR them.
const uint32_t domain_apis = GetDomainApis() | other.GetDomainApis();
// Values are mutually exclusive but the most accessible value is chosen.
// Check if `this` and `other` have the same Value, or if at most one is set and
// if so use the set value. Otherwise, use the value that is most accessible.
const Value val1 = GetValue();
const Value val2 = other.GetValue();
if (val1 == val2) {
return ApiList(val1, domain_apis);
} else if (val1 == Value::kInvalid) {
return ApiList(val2, domain_apis);
} else if (val2 == Value::kInvalid) {
return ApiList(val1, domain_apis);
} else if (val1 < val2) {
return ApiList(val1, domain_apis);
} else if (val1 > val2) {
return ApiList(val2, domain_apis);
} else {
LOG(FATAL) << "Invalid combination of values " << Dumpable(ApiList(val1))
<< " and " << Dumpable(ApiList(val2));
UNREACHABLE();
}
}
const ApiList& operator|=(const ApiList& other) {
(*this) = (*this) | other;
return *this;
}
// Returns true if all flags set in `other` are also set in `this`.
bool Contains(const ApiList& other) const {
return ((other.GetValue() == Value::kInvalid) || (GetValue() == other.GetValue())) &&
helper::MatchesBitMask(other.GetDomainApis(), GetDomainApis());
}
// Returns true whether the configuration is valid for runtime use.
bool IsValid() const { return GetValue() != Value::kInvalid; }
// Returns true when no ApiList is specified and no domain_api flags either.
bool IsEmpty() const { return (GetValue() == Value::kInvalid) && (GetDomainApis() == 0); }
// Returns true if the ApiList is on blocklist.
bool IsBlocked() const {
return GetValue() == Value::kBlocked;
}
bool IsSdkApi() const {
return GetValue() == Value::kSdk;
}
// Returns true if the ApiList is a test API.
bool IsTestApi() const {
return helper::MatchesBitMask(helper::ToBit(DomainApi::kTestApi), dex_flags_);
}
// Returns the maximum target SDK version allowed to access this ApiList.
SdkVersion GetMaxAllowedSdkVersion() const { return kMaxSdkVersions[GetIntValue()]; }
void Dump(std::ostream& os) const {
bool is_first = true;
if (IsEmpty()) {
os << "invalid";
return;
}
if (GetValue() != Value::kInvalid) {
os << kValueNames[GetIntValue()];
is_first = false;
}
const uint32_t domain_apis = GetDomainApis();
for (uint32_t i = 0; i < kDomainApiCount; i++) {
if (helper::MatchesBitMask(helper::ToBit(helper::GetEnumAt<DomainApi>(i)), domain_apis)) {
if (is_first) {
is_first = false;
} else {
os << ",";
}
os << kDomainApiNames[i];
}
}
DCHECK_EQ(IsEmpty(), is_first);
}
// Number of valid enum values in Value.
static constexpr uint32_t kValueCount = helper::NumValues<Value>();
// Number of valid enum values in DomainApi.
static constexpr uint32_t kDomainApiCount = helper::NumValues<DomainApi>();
// Total number of possible enum values, including invalid, in Value.
static constexpr uint32_t kValueSize = (1u << kValueBitSize) + 1;
// Check min and max values are calculated correctly.
static_assert(Value::kMin == helper::GetEnumAt<Value>(0));
static_assert(Value::kMax == helper::GetEnumAt<Value>(kValueCount - 1));
static_assert(DomainApi::kMin == helper::GetEnumAt<DomainApi>(0));
static_assert(DomainApi::kMax == helper::GetEnumAt<DomainApi>(kDomainApiCount - 1));
};
inline std::ostream& operator<<(std::ostream& os, ApiList value) {
value.Dump(os);
return os;
}
} // namespace hiddenapi
} // namespace art
#endif // ART_LIBARTBASE_BASE_HIDDENAPI_FLAGS_H_