libs/binder/libbinder_rpc_unstable.cpp - LeafOS-Project/android_frameworks_native - Gitiles

 /*
  * Copyright (C) 2021 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 <binder_rpc_unstable.hpp>

 #include <android/binder_libbinder.h>
 #include <binder/RpcServer.h>
 #include <binder/RpcSession.h>
 #include <binder/unique_fd.h>

 #ifndef __TRUSTY__
 #include <cutils/sockets.h>
 #endif

 #ifdef __linux__
 #include <linux/vm_sockets.h>
 #endif // __linux__

 using android::OK;
 using android::RpcServer;
 using android::RpcSession;
 using android::sp;
 using android::status_t;
 using android::statusToString;
 using android::binder::unique_fd;

 // Opaque handle for RpcServer.
 struct ARpcServer {};

 // Opaque handle for RpcSession.
 struct ARpcSession {};

 template <typename A, typename T>
 static A* createObjectHandle(sp<T>& server) {
     auto ref = server.get();
     ref->incStrong(ref);
     return reinterpret_cast<A*>(ref);
 }

 template <typename T, typename A>
 static void freeObjectHandle(A* handle) {
     LOG_ALWAYS_FATAL_IF(handle == nullptr, "Handle cannot be null");
     auto ref = reinterpret_cast<T*>(handle);
     ref->decStrong(ref);
 }

 template <typename T, typename A>
 static sp<T> handleToStrongPointer(A* handle) {
     LOG_ALWAYS_FATAL_IF(handle == nullptr, "Handle cannot be null");
     auto ref = reinterpret_cast<T*>(handle);
     return sp<T>::fromExisting(ref);
 }

 RpcSession::FileDescriptorTransportMode toTransportMode(
         ARpcSession_FileDescriptorTransportMode mode) {
     switch (mode) {
         case ARpcSession_FileDescriptorTransportMode::None:
             return RpcSession::FileDescriptorTransportMode::NONE;
         case ARpcSession_FileDescriptorTransportMode::Unix:
             return RpcSession::FileDescriptorTransportMode::UNIX;
         case ARpcSession_FileDescriptorTransportMode::Trusty:
             return RpcSession::FileDescriptorTransportMode::TRUSTY;
         default:
             return RpcSession::FileDescriptorTransportMode::NONE;
     }
 }

 extern "C" {

 #ifndef __TRUSTY__
 ARpcServer* ARpcServer_newVsock(AIBinder* service, unsigned int cid, unsigned int port) {
     auto server = RpcServer::make();

     unsigned int bindCid = VMADDR_CID_ANY; // bind to the remote interface
     if (cid == VMADDR_CID_LOCAL) {
         bindCid = VMADDR_CID_LOCAL; // bind to the local interface
         cid = VMADDR_CID_ANY;       // no need for a connection filter
     }

     if (status_t status = server->setupVsockServer(bindCid, port); status != OK) {
         ALOGE("Failed to set up vsock server with port %u error: %s", port,
               statusToString(status).c_str());
         return nullptr;
     }
     if (cid != VMADDR_CID_ANY) {
         server->setConnectionFilter([=](const void* addr, size_t addrlen) {
             LOG_ALWAYS_FATAL_IF(addrlen < sizeof(sockaddr_vm), "sockaddr is truncated");
             const sockaddr_vm* vaddr = reinterpret_cast<const sockaddr_vm*>(addr);
             LOG_ALWAYS_FATAL_IF(vaddr->svm_family != AF_VSOCK, "address is not a vsock");
             if (cid != vaddr->svm_cid) {
                 ALOGE("Rejected vsock connection from CID %u", vaddr->svm_cid);
                 return false;
             }
             return true;
         });
     }
     server->setRootObject(AIBinder_toPlatformBinder(service));
     return createObjectHandle<ARpcServer>(server);
 }

 ARpcServer* ARpcServer_newBoundSocket(AIBinder* service, int socketFd) {
     auto server = RpcServer::make();
     auto fd = unique_fd(socketFd);
     if (!fd.ok()) {
         ALOGE("Invalid socket fd %d", socketFd);
         return nullptr;
     }
     if (status_t status = server->setupRawSocketServer(std::move(fd)); status != OK) {
         ALOGE("Failed to set up RPC server with fd %d error: %s", socketFd,
               statusToString(status).c_str());
         return nullptr;
     }
     server->setRootObject(AIBinder_toPlatformBinder(service));
     return createObjectHandle<ARpcServer>(server);
 }

 ARpcServer* ARpcServer_newUnixDomainBootstrap(AIBinder* service, int bootstrapFd) {
     auto server = RpcServer::make();
     auto fd = unique_fd(bootstrapFd);
     if (!fd.ok()) {
         ALOGE("Invalid bootstrap fd %d", bootstrapFd);
         return nullptr;
     }
     if (status_t status = server->setupUnixDomainSocketBootstrapServer(std::move(fd));
         status != OK) {
         ALOGE("Failed to set up Unix Domain RPC server with bootstrap fd %d error: %s", bootstrapFd,
               statusToString(status).c_str());
         return nullptr;
     }
     server->setRootObject(AIBinder_toPlatformBinder(service));
     return createObjectHandle<ARpcServer>(server);
 }

 ARpcServer* ARpcServer_newInet(AIBinder* service, const char* address, unsigned int port) {
     auto server = RpcServer::make();
     if (status_t status = server->setupInetServer(address, port, nullptr); status != OK) {
         ALOGE("Failed to set up inet RPC server with address %s and port %u error: %s", address,
               port, statusToString(status).c_str());
         return nullptr;
     }
     server->setRootObject(AIBinder_toPlatformBinder(service));
     return createObjectHandle<ARpcServer>(server);
 }
 #endif // __TRUSTY__

 void ARpcServer_setSupportedFileDescriptorTransportModes(
         ARpcServer* handle, const ARpcSession_FileDescriptorTransportMode modes[],
         size_t modes_len) {
     auto server = handleToStrongPointer<RpcServer>(handle);
     std::vector<RpcSession::FileDescriptorTransportMode> modevec;
     for (size_t i = 0; i < modes_len; i++) {
         modevec.push_back(toTransportMode(modes[i]));
     }
     server->setSupportedFileDescriptorTransportModes(modevec);
 }

 void ARpcServer_start(ARpcServer* handle) {
     handleToStrongPointer<RpcServer>(handle)->start();
 }

 void ARpcServer_join(ARpcServer* handle) {
     handleToStrongPointer<RpcServer>(handle)->join();
 }

 bool ARpcServer_shutdown(ARpcServer* handle) {
     return handleToStrongPointer<RpcServer>(handle)->shutdown();
 }

 void ARpcServer_free(ARpcServer* handle) {
     // Ignore the result of ARpcServer_shutdown - either it had been called
     // earlier, or the RpcServer destructor will panic.
     (void)ARpcServer_shutdown(handle);
     freeObjectHandle<RpcServer>(handle);
 }

 ARpcSession* ARpcSession_new() {
     auto session = RpcSession::make();
     return createObjectHandle<ARpcSession>(session);
 }

 void ARpcSession_free(ARpcSession* handle) {
     freeObjectHandle<RpcSession>(handle);
 }

 #ifndef __TRUSTY__
 AIBinder* ARpcSession_setupVsockClient(ARpcSession* handle, unsigned int cid, unsigned int port) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     if (status_t status = session->setupVsockClient(cid, port); status != OK) {
         ALOGE("Failed to set up vsock client with CID %u and port %u error: %s", cid, port,
               statusToString(status).c_str());
         return nullptr;
     }
     return AIBinder_fromPlatformBinder(session->getRootObject());
 }

 AIBinder* ARpcSession_setupUnixDomainClient(ARpcSession* handle, const char* name) {
     std::string pathname(name);
     pathname = ANDROID_SOCKET_DIR "/" + pathname;
     auto session = handleToStrongPointer<RpcSession>(handle);
     if (status_t status = session->setupUnixDomainClient(pathname.c_str()); status != OK) {
         ALOGE("Failed to set up Unix Domain RPC client with path: %s error: %s", pathname.c_str(),
               statusToString(status).c_str());
         return nullptr;
     }
     return AIBinder_fromPlatformBinder(session->getRootObject());
 }

 AIBinder* ARpcSession_setupUnixDomainBootstrapClient(ARpcSession* handle, int bootstrapFd) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     auto fd = unique_fd(dup(bootstrapFd));
     if (!fd.ok()) {
         ALOGE("Invalid bootstrap fd %d", bootstrapFd);
         return nullptr;
     }
     if (status_t status = session->setupUnixDomainSocketBootstrapClient(std::move(fd));
         status != OK) {
         ALOGE("Failed to set up Unix Domain RPC client with bootstrap fd: %d error: %s",
               bootstrapFd, statusToString(status).c_str());
         return nullptr;
     }
     return AIBinder_fromPlatformBinder(session->getRootObject());
 }

 AIBinder* ARpcSession_setupInet(ARpcSession* handle, const char* address, unsigned int port) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     if (status_t status = session->setupInetClient(address, port); status != OK) {
         ALOGE("Failed to set up inet RPC client with address %s and port %u error: %s", address,
               port, statusToString(status).c_str());
         return nullptr;
     }
     return AIBinder_fromPlatformBinder(session->getRootObject());
 }
 #endif // __TRUSTY__

 AIBinder* ARpcSession_setupPreconnectedClient(ARpcSession* handle, int (*requestFd)(void* param),
                                               void* param) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     auto request = [=] { return unique_fd{requestFd(param)}; };
     if (status_t status = session->setupPreconnectedClient(unique_fd{}, request); status != OK) {
         ALOGE("Failed to set up preconnected client. error: %s", statusToString(status).c_str());
         return nullptr;
     }
     return AIBinder_fromPlatformBinder(session->getRootObject());
 }

 void ARpcSession_setFileDescriptorTransportMode(ARpcSession* handle,
                                                 ARpcSession_FileDescriptorTransportMode mode) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     session->setFileDescriptorTransportMode(toTransportMode(mode));
 }

 void ARpcSession_setMaxIncomingThreads(ARpcSession* handle, size_t threads) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     session->setMaxIncomingThreads(threads);
 }

 void ARpcSession_setMaxOutgoingConnections(ARpcSession* handle, size_t connections) {
     auto session = handleToStrongPointer<RpcSession>(handle);
     session->setMaxOutgoingConnections(connections);
 }
 }
	/*
	* Copyright (C) 2021 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 <binder_rpc_unstable.hpp>

	#include <android/binder_libbinder.h>
	#include <binder/RpcServer.h>
	#include <binder/RpcSession.h>
	#include <binder/unique_fd.h>

	#ifndef __TRUSTY__
	#include <cutils/sockets.h>
	#endif

	#ifdef __linux__
	#include <linux/vm_sockets.h>
	#endif // __linux__

	using android::OK;
	using android::RpcServer;
	using android::RpcSession;
	using android::sp;
	using android::status_t;
	using android::statusToString;
	using android::binder::unique_fd;

	// Opaque handle for RpcServer.
	struct ARpcServer {};

	// Opaque handle for RpcSession.
	struct ARpcSession {};

	template <typename A, typename T>
	static A* createObjectHandle(sp<T>& server) {
	auto ref = server.get();
	ref->incStrong(ref);
	return reinterpret_cast<A*>(ref);
	}

	template <typename T, typename A>
	static void freeObjectHandle(A* handle) {
	LOG_ALWAYS_FATAL_IF(handle == nullptr, "Handle cannot be null");
	auto ref = reinterpret_cast<T*>(handle);
	ref->decStrong(ref);
	}

	template <typename T, typename A>
	static sp<T> handleToStrongPointer(A* handle) {
	LOG_ALWAYS_FATAL_IF(handle == nullptr, "Handle cannot be null");
	auto ref = reinterpret_cast<T*>(handle);
	return sp<T>::fromExisting(ref);
	}

	RpcSession::FileDescriptorTransportMode toTransportMode(
	ARpcSession_FileDescriptorTransportMode mode) {
	switch (mode) {
	case ARpcSession_FileDescriptorTransportMode::None:
	return RpcSession::FileDescriptorTransportMode::NONE;
	case ARpcSession_FileDescriptorTransportMode::Unix:
	return RpcSession::FileDescriptorTransportMode::UNIX;
	case ARpcSession_FileDescriptorTransportMode::Trusty:
	return RpcSession::FileDescriptorTransportMode::TRUSTY;
	default:
	return RpcSession::FileDescriptorTransportMode::NONE;
	}
	}

	extern "C" {

	#ifndef __TRUSTY__
	ARpcServer* ARpcServer_newVsock(AIBinder* service, unsigned int cid, unsigned int port) {
	auto server = RpcServer::make();

	unsigned int bindCid = VMADDR_CID_ANY; // bind to the remote interface
	if (cid == VMADDR_CID_LOCAL) {
	bindCid = VMADDR_CID_LOCAL; // bind to the local interface
	cid = VMADDR_CID_ANY; // no need for a connection filter
	}

	if (status_t status = server->setupVsockServer(bindCid, port); status != OK) {
	ALOGE("Failed to set up vsock server with port %u error: %s", port,
	statusToString(status).c_str());
	return nullptr;
	}
	if (cid != VMADDR_CID_ANY) {
	server->setConnectionFilter([=](const void* addr, size_t addrlen) {
	LOG_ALWAYS_FATAL_IF(addrlen < sizeof(sockaddr_vm), "sockaddr is truncated");
	const sockaddr_vm* vaddr = reinterpret_cast<const sockaddr_vm*>(addr);
	LOG_ALWAYS_FATAL_IF(vaddr->svm_family != AF_VSOCK, "address is not a vsock");
	if (cid != vaddr->svm_cid) {
	ALOGE("Rejected vsock connection from CID %u", vaddr->svm_cid);
	return false;
	}
	return true;
	});
	}
	server->setRootObject(AIBinder_toPlatformBinder(service));
	return createObjectHandle<ARpcServer>(server);
	}

	ARpcServer* ARpcServer_newBoundSocket(AIBinder* service, int socketFd) {
	auto server = RpcServer::make();
	auto fd = unique_fd(socketFd);
	if (!fd.ok()) {
	ALOGE("Invalid socket fd %d", socketFd);
	return nullptr;
	}
	if (status_t status = server->setupRawSocketServer(std::move(fd)); status != OK) {
	ALOGE("Failed to set up RPC server with fd %d error: %s", socketFd,
	statusToString(status).c_str());
	return nullptr;
	}
	server->setRootObject(AIBinder_toPlatformBinder(service));
	return createObjectHandle<ARpcServer>(server);
	}

	ARpcServer* ARpcServer_newUnixDomainBootstrap(AIBinder* service, int bootstrapFd) {
	auto server = RpcServer::make();
	auto fd = unique_fd(bootstrapFd);
	if (!fd.ok()) {
	ALOGE("Invalid bootstrap fd %d", bootstrapFd);
	return nullptr;
	}
	if (status_t status = server->setupUnixDomainSocketBootstrapServer(std::move(fd));
	status != OK) {
	ALOGE("Failed to set up Unix Domain RPC server with bootstrap fd %d error: %s", bootstrapFd,
	statusToString(status).c_str());
	return nullptr;
	}
	server->setRootObject(AIBinder_toPlatformBinder(service));
	return createObjectHandle<ARpcServer>(server);
	}

	ARpcServer* ARpcServer_newInet(AIBinder* service, const char* address, unsigned int port) {
	auto server = RpcServer::make();
	if (status_t status = server->setupInetServer(address, port, nullptr); status != OK) {
	ALOGE("Failed to set up inet RPC server with address %s and port %u error: %s", address,
	port, statusToString(status).c_str());
	return nullptr;
	}
	server->setRootObject(AIBinder_toPlatformBinder(service));
	return createObjectHandle<ARpcServer>(server);
	}
	#endif // __TRUSTY__

	void ARpcServer_setSupportedFileDescriptorTransportModes(
	ARpcServer* handle, const ARpcSession_FileDescriptorTransportMode modes[],
	size_t modes_len) {
	auto server = handleToStrongPointer<RpcServer>(handle);
	std::vector<RpcSession::FileDescriptorTransportMode> modevec;
	for (size_t i = 0; i < modes_len; i++) {
	modevec.push_back(toTransportMode(modes[i]));
	}
	server->setSupportedFileDescriptorTransportModes(modevec);
	}

	void ARpcServer_start(ARpcServer* handle) {
	handleToStrongPointer<RpcServer>(handle)->start();
	}

	void ARpcServer_join(ARpcServer* handle) {
	handleToStrongPointer<RpcServer>(handle)->join();
	}

	bool ARpcServer_shutdown(ARpcServer* handle) {
	return handleToStrongPointer<RpcServer>(handle)->shutdown();
	}

	void ARpcServer_free(ARpcServer* handle) {
	// Ignore the result of ARpcServer_shutdown - either it had been called
	// earlier, or the RpcServer destructor will panic.
	(void)ARpcServer_shutdown(handle);
	freeObjectHandle<RpcServer>(handle);
	}

	ARpcSession* ARpcSession_new() {
	auto session = RpcSession::make();
	return createObjectHandle<ARpcSession>(session);
	}

	void ARpcSession_free(ARpcSession* handle) {
	freeObjectHandle<RpcSession>(handle);
	}

	#ifndef __TRUSTY__
	AIBinder* ARpcSession_setupVsockClient(ARpcSession* handle, unsigned int cid, unsigned int port) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	if (status_t status = session->setupVsockClient(cid, port); status != OK) {
	ALOGE("Failed to set up vsock client with CID %u and port %u error: %s", cid, port,
	statusToString(status).c_str());
	return nullptr;
	}
	return AIBinder_fromPlatformBinder(session->getRootObject());
	}

	AIBinder* ARpcSession_setupUnixDomainClient(ARpcSession* handle, const char* name) {
	std::string pathname(name);
	pathname = ANDROID_SOCKET_DIR "/" + pathname;
	auto session = handleToStrongPointer<RpcSession>(handle);
	if (status_t status = session->setupUnixDomainClient(pathname.c_str()); status != OK) {
	ALOGE("Failed to set up Unix Domain RPC client with path: %s error: %s", pathname.c_str(),
	statusToString(status).c_str());
	return nullptr;
	}
	return AIBinder_fromPlatformBinder(session->getRootObject());
	}

	AIBinder* ARpcSession_setupUnixDomainBootstrapClient(ARpcSession* handle, int bootstrapFd) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	auto fd = unique_fd(dup(bootstrapFd));
	if (!fd.ok()) {
	ALOGE("Invalid bootstrap fd %d", bootstrapFd);
	return nullptr;
	}
	if (status_t status = session->setupUnixDomainSocketBootstrapClient(std::move(fd));
	status != OK) {
	ALOGE("Failed to set up Unix Domain RPC client with bootstrap fd: %d error: %s",
	bootstrapFd, statusToString(status).c_str());
	return nullptr;
	}
	return AIBinder_fromPlatformBinder(session->getRootObject());
	}

	AIBinder* ARpcSession_setupInet(ARpcSession* handle, const char* address, unsigned int port) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	if (status_t status = session->setupInetClient(address, port); status != OK) {
	ALOGE("Failed to set up inet RPC client with address %s and port %u error: %s", address,
	port, statusToString(status).c_str());
	return nullptr;
	}
	return AIBinder_fromPlatformBinder(session->getRootObject());
	}
	#endif // __TRUSTY__

	AIBinder* ARpcSession_setupPreconnectedClient(ARpcSession* handle, int (requestFd)(void param),
	void* param) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	auto request = [=] { return unique_fd{requestFd(param)}; };
	if (status_t status = session->setupPreconnectedClient(unique_fd{}, request); status != OK) {
	ALOGE("Failed to set up preconnected client. error: %s", statusToString(status).c_str());
	return nullptr;
	}
	return AIBinder_fromPlatformBinder(session->getRootObject());
	}

	void ARpcSession_setFileDescriptorTransportMode(ARpcSession* handle,
	ARpcSession_FileDescriptorTransportMode mode) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	session->setFileDescriptorTransportMode(toTransportMode(mode));
	}

	void ARpcSession_setMaxIncomingThreads(ARpcSession* handle, size_t threads) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	session->setMaxIncomingThreads(threads);
	}

	void ARpcSession_setMaxOutgoingConnections(ARpcSession* handle, size_t connections) {
	auto session = handleToStrongPointer<RpcSession>(handle);
	session->setMaxOutgoingConnections(connections);
	}
	}