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LeafOS / LeafOS-Project / android_frameworks_native / f4a2e2639b5de722543c81408a4a897485b9892f / . / libs / binder / ndk / ibinder.cpp
blob: bf7a0ba5f07d79811369f93fbd3ef909666aa089 [file] [log] [blame]
/*
* 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.
*/
#include <android/binder_ibinder.h>
#include <android/binder_ibinder_platform.h>
#include <android/binder_stability.h>
#include <android/binder_status.h>
#include <binder/IPCThreadState.h>
#include <binder/IResultReceiver.h>
#if __has_include(<private/android_filesystem_config.h>)
#include <private/android_filesystem_config.h>
#endif
#include "ibinder_internal.h"
#include "parcel_internal.h"
#include "status_internal.h"
using DeathRecipient = ::android::IBinder::DeathRecipient;
using ::android::IBinder;
using ::android::IResultReceiver;
using ::android::Parcel;
using ::android::sp;
using ::android::status_t;
using ::android::statusToString;
using ::android::String16;
using ::android::String8;
using ::android::wp;
namespace ABBinderTag {
static const void* kId = "ABBinder";
static void* kValue = static_cast<void*>(new bool{true});
void clean(const void* /*id*/, void* /*obj*/, void* /*cookie*/){/* do nothing */};
static void attach(const sp<IBinder>& binder) {
auto alreadyAttached = binder->attachObject(kId, kValue, nullptr /*cookie*/, clean);
LOG_ALWAYS_FATAL_IF(alreadyAttached != nullptr, "can only attach once");
}
static bool has(const sp<IBinder>& binder) {
return binder != nullptr && binder->findObject(kId) == kValue;
}
} // namespace ABBinderTag
namespace ABpBinderTag {
static const void* kId = "ABpBinder";
struct Value {
wp<ABpBinder> binder;
};
void clean(const void* id, void* obj, void* cookie) {
// be weary of leaks!
// ALOGI("Deleting an ABpBinder");
LOG_ALWAYS_FATAL_IF(id != kId, "%p %p %p", id, obj, cookie);
delete static_cast<Value*>(obj);
};
} // namespace ABpBinderTag
AIBinder::AIBinder(const AIBinder_Class* clazz) : mClazz(clazz) {}
AIBinder::~AIBinder() {}
// b/175635923 libcxx causes "implicit-conversion" with a string with invalid char
static std::string SanitizeString(const String16& str) {
std::string sanitized{String8(str)};
for (auto& c : sanitized) {
if (!isprint(c)) {
c = '?';
}
}
return sanitized;
}
bool AIBinder::associateClass(const AIBinder_Class* clazz) {
if (clazz == nullptr) return false;
// If mClazz is non-null, this must have been called and cached
// already. So, we can safely call this first. Due to the implementation
// of getInterfaceDescriptor (at time of writing), two simultaneous calls
// may lead to extra binder transactions, but this is expected to be
// exceedingly rare. Once we have a binder, when we get it again later,
// we won't make another binder transaction here.
const String16& descriptor = getBinder()->getInterfaceDescriptor();
const String16& newDescriptor = clazz->getInterfaceDescriptor();
std::lock_guard<std::mutex> lock(mClazzMutex);
if (mClazz == clazz) return true;
// If this is an ABpBinder, the first class object becomes the canonical one. The implication
// of this is that no API can require a proxy information to get information on how to behave.
// from the class itself - which should only store the interface descriptor. The functionality
// should be implemented by adding AIBinder_* APIs to set values on binders themselves, by
// setting things on AIBinder_Class which get transferred along with the binder, so that they
// can be read along with the BpBinder, or by modifying APIs directly (e.g. an option in
// onTransact).
//
// While this check is required to support linkernamespaces, one downside of it is that
// you may parcel code to communicate between things in the same process. However, comms
// between linkernamespaces like this already happen for cross-language calls like Java<->C++
// or Rust<->Java, and there are good stability guarantees here. This interacts with
// binder Stability checks exactly like any other in-process call. The stability is known
// to the IBinder object, so that it doesn't matter if a class object comes from
// a different stability level.
if (mClazz != nullptr && !asABpBinder()) {
const String16& currentDescriptor = mClazz->getInterfaceDescriptor();
if (newDescriptor == currentDescriptor) {
ALOGE("Class descriptors '%s' match during associateClass, but they are different class"
" objects (%p vs %p). Class descriptor collision?",
String8(currentDescriptor).c_str(), clazz, mClazz);
} else {
ALOGE("%s: Class cannot be associated on object which already has a class. "
"Trying to associate to '%s' but already set to '%s'.",
__func__, String8(newDescriptor).c_str(), String8(currentDescriptor).c_str());
}
// always a failure because we know mClazz != clazz
return false;
}
// This will always be an O(n) comparison, but it's expected to be extremely rare.
// since it's an error condition. Do the comparison after we take the lock and
// check the pointer equality fast path. By always taking the lock, it's also
// more flake-proof. However, the check is not dependent on the lock.
if (descriptor != newDescriptor && !(asABpBinder() && asABpBinder()->isServiceFuzzing())) {
if (getBinder()->isBinderAlive()) {
ALOGE("%s: Expecting binder to have class '%s' but descriptor is actually '%s'.",
__func__, String8(newDescriptor).c_str(), SanitizeString(descriptor).c_str());
} else {
// b/155793159
ALOGE("%s: Cannot associate class '%s' to dead binder with cached descriptor '%s'.",
__func__, String8(newDescriptor).c_str(), SanitizeString(descriptor).c_str());
}
return false;
}
// A local binder being set for the first time OR
// ignoring a proxy binder which is set multiple time, by considering the first
// associated class as the canonical one.
if (mClazz == nullptr) {
mClazz = clazz;
}
return true;
}
ABBinder::ABBinder(const AIBinder_Class* clazz, void* userData)
: AIBinder(clazz), BBinder(), mUserData(userData) {
LOG_ALWAYS_FATAL_IF(clazz == nullptr, "clazz == nullptr");
}
ABBinder::~ABBinder() {
getClass()->onDestroy(mUserData);
}
const String16& ABBinder::getInterfaceDescriptor() const {
return getClass()->getInterfaceDescriptor();
}
status_t ABBinder::dump(int fd, const ::android::Vector<String16>& args) {
AIBinder_onDump onDump = getClass()->onDump;
if (onDump == nullptr) {
return STATUS_OK;
}
// technically UINT32_MAX would be okay here, but INT32_MAX is expected since this may be
// null in Java
if (args.size() > INT32_MAX) {
ALOGE("ABBinder::dump received too many arguments: %zu", args.size());
return STATUS_BAD_VALUE;
}
std::vector<String8> utf8Args; // owns memory of utf8s
utf8Args.reserve(args.size());
std::vector<const char*> utf8Pointers; // what can be passed over NDK API
utf8Pointers.reserve(args.size());
for (size_t i = 0; i < args.size(); i++) {
utf8Args.push_back(String8(args[i]));
utf8Pointers.push_back(utf8Args[i].c_str());
}
return onDump(this, fd, utf8Pointers.data(), utf8Pointers.size());
}
status_t ABBinder::onTransact(transaction_code_t code, const Parcel& data, Parcel* reply,
binder_flags_t flags) {
if (isUserCommand(code)) {
if (getClass()->writeHeader && !data.checkInterface(this)) {
return STATUS_BAD_TYPE;
}
const AParcel in = AParcel::readOnly(this, &data);
AParcel out = AParcel(this, reply, false /*owns*/);
binder_status_t status = getClass()->onTransact(this, code, &in, &out);
return PruneStatusT(status);
} else if (code == SHELL_COMMAND_TRANSACTION && getClass()->handleShellCommand != nullptr) {
int in = data.readFileDescriptor();
int out = data.readFileDescriptor();
int err = data.readFileDescriptor();
int argc = data.readInt32();
std::vector<String8> utf8Args; // owns memory of utf8s
std::vector<const char*> utf8Pointers; // what can be passed over NDK API
for (int i = 0; i < argc && data.dataAvail() > 0; i++) {
utf8Args.push_back(String8(data.readString16()));
utf8Pointers.push_back(utf8Args[i].c_str());
}
data.readStrongBinder(); // skip over the IShellCallback
sp<IResultReceiver> resultReceiver = IResultReceiver::asInterface(data.readStrongBinder());
// Shell commands should only be callable by ADB.
uid_t uid = AIBinder_getCallingUid();
if (uid != 0 /* root */
#ifdef AID_SHELL
&& uid != AID_SHELL
#endif
) {
if (resultReceiver != nullptr) {
resultReceiver->send(-1);
}
return STATUS_PERMISSION_DENIED;
}
// Check that the file descriptors are valid.
if (in == STATUS_BAD_TYPE || out == STATUS_BAD_TYPE || err == STATUS_BAD_TYPE) {
if (resultReceiver != nullptr) {
resultReceiver->send(-1);
}
return STATUS_BAD_VALUE;
}
binder_status_t status = getClass()->handleShellCommand(
this, in, out, err, utf8Pointers.data(), utf8Pointers.size());
if (resultReceiver != nullptr) {
resultReceiver->send(status);
}
return status;
} else {
return BBinder::onTransact(code, data, reply, flags);
}
}
ABpBinder::ABpBinder(const ::android::sp<::android::IBinder>& binder)
: AIBinder(nullptr /*clazz*/), mRemote(binder) {
LOG_ALWAYS_FATAL_IF(binder == nullptr, "binder == nullptr");
}
ABpBinder::~ABpBinder() {}
sp<AIBinder> ABpBinder::lookupOrCreateFromBinder(const ::android::sp<::android::IBinder>& binder) {
if (binder == nullptr) {
return nullptr;
}
if (ABBinderTag::has(binder)) {
return static_cast<ABBinder*>(binder.get());
}
// The following code ensures that for a given binder object (remote or local), if it is not an
// ABBinder then at most one ABpBinder object exists in a given process representing it.
auto* value = static_cast<ABpBinderTag::Value*>(binder->findObject(ABpBinderTag::kId));
if (value == nullptr) {
value = new ABpBinderTag::Value;
auto oldValue = static_cast<ABpBinderTag::Value*>(
binder->attachObject(ABpBinderTag::kId, static_cast<void*>(value),
nullptr /*cookie*/, ABpBinderTag::clean));
// allocated by another thread
if (oldValue) {
delete value;
value = oldValue;
}
}
sp<ABpBinder> ret;
binder->withLock([&]() {
ret = value->binder.promote();
if (ret == nullptr) {
ret = sp<ABpBinder>::make(binder);
value->binder = ret;
}
});
return ret;
}
struct AIBinder_Weak {
wp<AIBinder> binder;
};
AIBinder_Weak* AIBinder_Weak_new(AIBinder* binder) {
if (binder == nullptr) {
return nullptr;
}
return new AIBinder_Weak{wp<AIBinder>(binder)};
}
void AIBinder_Weak_delete(AIBinder_Weak* weakBinder) {
delete weakBinder;
}
AIBinder* AIBinder_Weak_promote(AIBinder_Weak* weakBinder) {
if (weakBinder == nullptr) {
return nullptr;
}
sp<AIBinder> binder = weakBinder->binder.promote();
AIBinder_incStrong(binder.get());
return binder.get();
}
AIBinder_Weak* AIBinder_Weak_clone(const AIBinder_Weak* weak) {
if (weak == nullptr) {
return nullptr;
}
return new AIBinder_Weak{weak->binder};
}
bool AIBinder_lt(const AIBinder* lhs, const AIBinder* rhs) {
if (lhs == nullptr || rhs == nullptr) return lhs < rhs;
return const_cast<AIBinder*>(lhs)->getBinder() < const_cast<AIBinder*>(rhs)->getBinder();
}
bool AIBinder_Weak_lt(const AIBinder_Weak* lhs, const AIBinder_Weak* rhs) {
if (lhs == nullptr || rhs == nullptr) return lhs < rhs;
return lhs->binder < rhs->binder;
}
// WARNING: When multiple classes exist with the same interface descriptor in different
// linkernamespaces, the first one to be associated with mClazz becomes the canonical one
// and the only requirement on this is that the interface descriptors match. If this
// is an ABpBinder, no other state can be referenced from mClazz.
AIBinder_Class::AIBinder_Class(const char* interfaceDescriptor, AIBinder_Class_onCreate onCreate,
AIBinder_Class_onDestroy onDestroy,
AIBinder_Class_onTransact onTransact)
: onCreate(onCreate),
onDestroy(onDestroy),
onTransact(onTransact),
mInterfaceDescriptor(interfaceDescriptor),
mWideInterfaceDescriptor(interfaceDescriptor) {}
AIBinder_Class* AIBinder_Class_define(const char* interfaceDescriptor,
AIBinder_Class_onCreate onCreate,
AIBinder_Class_onDestroy onDestroy,
AIBinder_Class_onTransact onTransact) {
if (interfaceDescriptor == nullptr || onCreate == nullptr || onDestroy == nullptr ||
onTransact == nullptr) {
return nullptr;
}
return new AIBinder_Class(interfaceDescriptor, onCreate, onDestroy, onTransact);
}
void AIBinder_Class_setOnDump(AIBinder_Class* clazz, AIBinder_onDump onDump) {
LOG_ALWAYS_FATAL_IF(clazz == nullptr, "setOnDump requires non-null clazz");
// this is required to be called before instances are instantiated
clazz->onDump = onDump;
}
void AIBinder_Class_disableInterfaceTokenHeader(AIBinder_Class* clazz) {
LOG_ALWAYS_FATAL_IF(clazz == nullptr, "disableInterfaceTokenHeader requires non-null clazz");
clazz->writeHeader = false;
}
void AIBinder_Class_setHandleShellCommand(AIBinder_Class* clazz,
AIBinder_handleShellCommand handleShellCommand) {
LOG_ALWAYS_FATAL_IF(clazz == nullptr, "setHandleShellCommand requires non-null clazz");
clazz->handleShellCommand = handleShellCommand;
}
const char* AIBinder_Class_getDescriptor(const AIBinder_Class* clazz) {
LOG_ALWAYS_FATAL_IF(clazz == nullptr, "getDescriptor requires non-null clazz");
return clazz->getInterfaceDescriptorUtf8();
}
AIBinder_DeathRecipient::TransferDeathRecipient::~TransferDeathRecipient() {
if (mOnUnlinked != nullptr) {
mOnUnlinked(mCookie);
}
}
void AIBinder_DeathRecipient::TransferDeathRecipient::binderDied(const wp<IBinder>& who) {
LOG_ALWAYS_FATAL_IF(who != mWho, "%p (%p) vs %p (%p)", who.unsafe_get(), who.get_refs(),
mWho.unsafe_get(), mWho.get_refs());
mOnDied(mCookie);
sp<AIBinder_DeathRecipient> recipient = mParentRecipient.promote();
sp<IBinder> strongWho = who.promote();
// otherwise this will be cleaned up later with pruneDeadTransferEntriesLocked
if (recipient != nullptr && strongWho != nullptr) {
status_t result = recipient->unlinkToDeath(strongWho, mCookie);
if (result != ::android::DEAD_OBJECT) {
ALOGW("Unlinking to dead binder resulted in: %d", result);
}
}
mWho = nullptr;
}
AIBinder_DeathRecipient::AIBinder_DeathRecipient(AIBinder_DeathRecipient_onBinderDied onDied)
: mOnDied(onDied), mOnUnlinked(nullptr) {
LOG_ALWAYS_FATAL_IF(onDied == nullptr, "onDied == nullptr");
}
void AIBinder_DeathRecipient::pruneDeadTransferEntriesLocked() {
mDeathRecipients.erase(std::remove_if(mDeathRecipients.begin(), mDeathRecipients.end(),
[](const sp<TransferDeathRecipient>& tdr) {
return tdr->getWho() == nullptr;
}),
mDeathRecipients.end());
}
binder_status_t AIBinder_DeathRecipient::linkToDeath(const sp<IBinder>& binder, void* cookie) {
LOG_ALWAYS_FATAL_IF(binder == nullptr, "binder == nullptr");
std::lock_guard<std::mutex> l(mDeathRecipientsMutex);
sp<TransferDeathRecipient> recipient =
new TransferDeathRecipient(binder, cookie, this, mOnDied, mOnUnlinked);
status_t status = binder->linkToDeath(recipient, cookie, 0 /*flags*/);
if (status != STATUS_OK) {
// When we failed to link, the destructor of TransferDeathRecipient runs here, which
// ensures that mOnUnlinked is called before we return with an error from this method.
return PruneStatusT(status);
}
mDeathRecipients.push_back(recipient);
pruneDeadTransferEntriesLocked();
return STATUS_OK;
}
binder_status_t AIBinder_DeathRecipient::unlinkToDeath(const sp<IBinder>& binder, void* cookie) {
LOG_ALWAYS_FATAL_IF(binder == nullptr, "binder == nullptr");
std::lock_guard<std::mutex> l(mDeathRecipientsMutex);
for (auto it = mDeathRecipients.rbegin(); it != mDeathRecipients.rend(); ++it) {
sp<TransferDeathRecipient> recipient = *it;
if (recipient->getCookie() == cookie && recipient->getWho() == binder) {
mDeathRecipients.erase(it.base() - 1);
status_t status = binder->unlinkToDeath(recipient, cookie, 0 /*flags*/);
if (status != ::android::OK) {
ALOGE("%s: removed reference to death recipient but unlink failed: %s", __func__,
statusToString(status).c_str());
}
return PruneStatusT(status);
}
}
return STATUS_NAME_NOT_FOUND;
}
void AIBinder_DeathRecipient::setOnUnlinked(AIBinder_DeathRecipient_onBinderUnlinked onUnlinked) {
mOnUnlinked = onUnlinked;
}
// start of C-API methods
AIBinder* AIBinder_new(const AIBinder_Class* clazz, void* args) {
if (clazz == nullptr) {
ALOGE("%s: Must provide class to construct local binder.", __func__);
return nullptr;
}
void* userData = clazz->onCreate(args);
sp<AIBinder> ret = new ABBinder(clazz, userData);
ABBinderTag::attach(ret->getBinder());
AIBinder_incStrong(ret.get());
return ret.get();
}
bool AIBinder_isRemote(const AIBinder* binder) {
if (binder == nullptr) {
return false;
}
return binder->isRemote();
}
bool AIBinder_isAlive(const AIBinder* binder) {
if (binder == nullptr) {
return false;
}
return const_cast<AIBinder*>(binder)->getBinder()->isBinderAlive();
}
binder_status_t AIBinder_ping(AIBinder* binder) {
if (binder == nullptr) {
return STATUS_UNEXPECTED_NULL;
}
return PruneStatusT(binder->getBinder()->pingBinder());
}
binder_status_t AIBinder_dump(AIBinder* binder, int fd, const char** args, uint32_t numArgs) {
if (binder == nullptr) {
return STATUS_UNEXPECTED_NULL;
}
ABBinder* bBinder = binder->asABBinder();
if (bBinder != nullptr) {
AIBinder_onDump onDump = binder->getClass()->onDump;
if (onDump == nullptr) {
return STATUS_OK;
}
return PruneStatusT(onDump(bBinder, fd, args, numArgs));
}
::android::Vector<String16> utf16Args;
utf16Args.setCapacity(numArgs);
for (uint32_t i = 0; i < numArgs; i++) {
utf16Args.push(String16(String8(args[i])));
}
status_t status = binder->getBinder()->dump(fd, utf16Args);
return PruneStatusT(status);
}
binder_status_t AIBinder_linkToDeath(AIBinder* binder, AIBinder_DeathRecipient* recipient,
void* cookie) {
if (binder == nullptr || recipient == nullptr) {
ALOGE("%s: Must provide binder (%p) and recipient (%p)", __func__, binder, recipient);
return STATUS_UNEXPECTED_NULL;
}
// returns binder_status_t
return recipient->linkToDeath(binder->getBinder(), cookie);
}
binder_status_t AIBinder_unlinkToDeath(AIBinder* binder, AIBinder_DeathRecipient* recipient,
void* cookie) {
if (binder == nullptr || recipient == nullptr) {
ALOGE("%s: Must provide binder (%p) and recipient (%p)", __func__, binder, recipient);
return STATUS_UNEXPECTED_NULL;
}
// returns binder_status_t
return recipient->unlinkToDeath(binder->getBinder(), cookie);
}
uid_t AIBinder_getCallingUid() {
return ::android::IPCThreadState::self()->getCallingUid();
}
pid_t AIBinder_getCallingPid() {
return ::android::IPCThreadState::self()->getCallingPid();
}
bool AIBinder_isHandlingTransaction() {
return ::android::IPCThreadState::self()->getServingStackPointer() != nullptr;
}
void AIBinder_incStrong(AIBinder* binder) {
if (binder == nullptr) {
return;
}
binder->incStrong(nullptr);
}
void AIBinder_decStrong(AIBinder* binder) {
if (binder == nullptr) {
ALOGE("%s: on null binder", __func__);
return;
}
binder->decStrong(nullptr);
}
int32_t AIBinder_debugGetRefCount(AIBinder* binder) {
if (binder == nullptr) {
ALOGE("%s: on null binder", __func__);
return -1;
}
return binder->getStrongCount();
}
bool AIBinder_associateClass(AIBinder* binder, const AIBinder_Class* clazz) {
if (binder == nullptr) {
return false;
}
return binder->associateClass(clazz);
}
const AIBinder_Class* AIBinder_getClass(AIBinder* binder) {
if (binder == nullptr) {
return nullptr;
}
return binder->getClass();
}
void* AIBinder_getUserData(AIBinder* binder) {
if (binder == nullptr) {
return nullptr;
}
ABBinder* bBinder = binder->asABBinder();
if (bBinder == nullptr) {
return nullptr;
}
return bBinder->getUserData();
}
binder_status_t AIBinder_prepareTransaction(AIBinder* binder, AParcel** in) {
if (binder == nullptr || in == nullptr) {
ALOGE("%s: requires non-null parameters binder (%p) and in (%p).", __func__, binder, in);
return STATUS_UNEXPECTED_NULL;
}
const AIBinder_Class* clazz = binder->getClass();
if (clazz == nullptr) {
ALOGE("%s: Class must be defined for a remote binder transaction. See "
"AIBinder_associateClass.",
__func__);
return STATUS_INVALID_OPERATION;
}
*in = new AParcel(binder);
(*in)->get()->markForBinder(binder->getBinder());
status_t status = android::OK;
// note - this is the only read of a value in clazz, and it comes with a warning
// on the API itself. Do not copy this design. Instead, attach data in a new
// version of the prepareTransaction function.
if (clazz->writeHeader) {
status = (*in)->get()->writeInterfaceToken(clazz->getInterfaceDescriptor());
}
binder_status_t ret = PruneStatusT(status);
if (ret != STATUS_OK) {
delete *in;
*in = nullptr;
}
return ret;
}
static void DestroyParcel(AParcel** parcel) {
delete *parcel;
*parcel = nullptr;
}
binder_status_t AIBinder_transact(AIBinder* binder, transaction_code_t code, AParcel** in,
AParcel** out, binder_flags_t flags) {
if (in == nullptr) {
ALOGE("%s: requires non-null in parameter", __func__);
return STATUS_UNEXPECTED_NULL;
}
using AutoParcelDestroyer = std::unique_ptr<AParcel*, void (*)(AParcel**)>;
// This object is the input to the transaction. This function takes ownership of it and deletes
// it.
AutoParcelDestroyer forIn(in, DestroyParcel);
if (!isUserCommand(code)) {
ALOGE("%s: Only user-defined transactions can be made from the NDK, but requested: %d",
__func__, code);
return STATUS_UNKNOWN_TRANSACTION;
}
constexpr binder_flags_t kAllFlags = FLAG_PRIVATE_VENDOR | FLAG_ONEWAY | FLAG_CLEAR_BUF;
if ((flags & ~kAllFlags) != 0) {
ALOGE("%s: Unrecognized flags sent: %d", __func__, flags);
return STATUS_BAD_VALUE;
}
if (binder == nullptr || *in == nullptr || out == nullptr) {
ALOGE("%s: requires non-null parameters binder (%p), in (%p), and out (%p).", __func__,
binder, in, out);
return STATUS_UNEXPECTED_NULL;
}
if ((*in)->getBinder() != binder) {
ALOGE("%s: parcel is associated with binder object %p but called with %p", __func__, binder,
(*in)->getBinder());
return STATUS_BAD_VALUE;
}
*out = new AParcel(binder);
status_t status = binder->getBinder()->transact(code, *(*in)->get(), (*out)->get(), flags);
binder_status_t ret = PruneStatusT(status);
if (ret != STATUS_OK) {
delete *out;
*out = nullptr;
}
return ret;
}
AIBinder_DeathRecipient* AIBinder_DeathRecipient_new(
AIBinder_DeathRecipient_onBinderDied onBinderDied) {
if (onBinderDied == nullptr) {
ALOGE("%s: requires non-null onBinderDied parameter.", __func__);
return nullptr;
}
auto ret = new AIBinder_DeathRecipient(onBinderDied);
ret->incStrong(nullptr);
return ret;
}
void AIBinder_DeathRecipient_setOnUnlinked(AIBinder_DeathRecipient* recipient,
AIBinder_DeathRecipient_onBinderUnlinked onUnlinked) {
if (recipient == nullptr) {
return;
}
recipient->setOnUnlinked(onUnlinked);
}
void AIBinder_DeathRecipient_delete(AIBinder_DeathRecipient* recipient) {
if (recipient == nullptr) {
return;
}
recipient->decStrong(nullptr);
}
binder_status_t AIBinder_getExtension(AIBinder* binder, AIBinder** outExt) {
if (binder == nullptr || outExt == nullptr) {
if (outExt != nullptr) {
*outExt = nullptr;
}
return STATUS_UNEXPECTED_NULL;
}
sp<IBinder> ext;
status_t res = binder->getBinder()->getExtension(&ext);
if (res != android::OK) {
*outExt = nullptr;
return PruneStatusT(res);
}
sp<AIBinder> ret = ABpBinder::lookupOrCreateFromBinder(ext);
if (ret != nullptr) ret->incStrong(binder);
*outExt = ret.get();
return STATUS_OK;
}
binder_status_t AIBinder_setExtension(AIBinder* binder, AIBinder* ext) {
if (binder == nullptr || ext == nullptr) {
return STATUS_UNEXPECTED_NULL;
}
ABBinder* rawBinder = binder->asABBinder();
if (rawBinder == nullptr) {
return STATUS_INVALID_OPERATION;
}
rawBinder->setExtension(ext->getBinder());
return STATUS_OK;
}
// platform methods follow
void AIBinder_setRequestingSid(AIBinder* binder, bool requestingSid) {
ABBinder* localBinder = binder->asABBinder();
LOG_ALWAYS_FATAL_IF(localBinder == nullptr,
"AIBinder_setRequestingSid must be called on a local binder");
localBinder->setRequestingSid(requestingSid);
}
const char* AIBinder_getCallingSid() {
return ::android::IPCThreadState::self()->getCallingSid();
}
void AIBinder_setMinSchedulerPolicy(AIBinder* binder, int policy, int priority) {
binder->asABBinder()->setMinSchedulerPolicy(policy, priority);
}
void AIBinder_setInheritRt(AIBinder* binder, bool inheritRt) {
ABBinder* localBinder = binder->asABBinder();
LOG_ALWAYS_FATAL_IF(localBinder == nullptr,
"AIBinder_setInheritRt must be called on a local binder");
localBinder->setInheritRt(inheritRt);
}