// Copyright 2020 The gVisor Authors. // // 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 GVISOR_TEST_FUSE_FUSE_BASE_H_ #define GVISOR_TEST_FUSE_FUSE_BASE_H_ #include #include #include #include #include #include #include #include "gtest/gtest.h" #include "test/util/posix_error.h" #include "test/util/temp_path.h" namespace gvisor { namespace testing { constexpr char kMountOpts[] = "rootmode=755,user_id=0,group_id=0"; // Internal commands used to communicate between testing thread and the FUSE // server. See test/fuse/README.md for further detail. enum class FuseTestCmd { kSetResponse = 0, kSetInodeLookup, kGetRequest, kGetNumUnconsumedRequests, kGetNumUnsentResponses, kGetTotalReceivedBytes, kSkipRequest, }; // Holds the information of a memory block in a serial buffer. struct FuseMemBlock { uint32_t opcode; size_t offset; size_t len; }; // A wrapper of a simple serial buffer that can be used with read(2) and // write(2). Contains a cursor to indicate accessing. This class is not thread- // safe and can only be used in single-thread version. class FuseMemBuffer { public: FuseMemBuffer() : cursor_(0) { // To read from /dev/fuse, a buffer needs at least FUSE_MIN_READ_BUFFER // bytes to avoid EINVAL. FuseMemBuffer holds memory that can accommodate // a sequence of FUSE request/response, so it is initiated with double // minimal requirement. mem_.resize(FUSE_MIN_READ_BUFFER * 2); } // Returns whether there is no memory block. bool Empty() { return blocks_.empty(); } // Returns if there is no more remaining memory blocks. bool End() { return cursor_ == blocks_.size(); } // Returns how many bytes that have been received. size_t UsedBytes() { return Empty() ? 0 : blocks_.back().offset + blocks_.back().len; } // Returns the available bytes remains in the serial buffer. size_t AvailBytes() { return mem_.size() - UsedBytes(); } // Appends a memory block information that starts at the tail of the serial // buffer. /dev/fuse requires at least FUSE_MIN_READ_BUFFER bytes to read, or // it will issue EINVAL. If it is not enough, just double the buffer length. void AddMemBlock(uint32_t opcode, void* data, size_t len) { if (AvailBytes() < FUSE_MIN_READ_BUFFER) { mem_.resize(mem_.size() << 1); } size_t offset = UsedBytes(); memcpy(mem_.data() + offset, data, len); blocks_.push_back(FuseMemBlock{opcode, offset, len}); } // Returns the memory address at a specific offset. Used with read(2) or // write(2). char* DataAtOffset(size_t offset) { return mem_.data() + offset; } // Returns current memory block pointed by the cursor and increase by 1. FuseMemBlock Next() { if (End()) { std::cerr << "Buffer is already exhausted." << std::endl; return FuseMemBlock{}; } return blocks_[cursor_++]; } // Returns the number of the blocks that has not been requested. size_t RemainingBlocks() { return blocks_.size() - cursor_; } private: size_t cursor_; std::vector blocks_; std::vector mem_; }; // FuseTest base class is useful in FUSE integration test. Inherit this class // to automatically set up a fake FUSE server and use the member functions // to manipulate with it. Refer to test/fuse/README.md for detailed explanation. class FuseTest : public ::testing::Test { public: // nodeid_ is the ID of a fake inode. We starts from 2 since 1 is occupied by // the mount point. FuseTest() : nodeid_(2) {} void SetUp() override; void TearDown() override; // Called by the testing thread to set up a fake response for an expected // opcode via socket. This can be used multiple times to define a sequence of // expected FUSE reactions. void SetServerResponse(uint32_t opcode, std::vector& iovecs); // Called by the testing thread to install a fake path under the mount point. // e.g. a file under /mnt/dir/file and moint point is /mnt, then it will look // up "dir/file" in this case. // // It sets a fixed response to the FUSE_LOOKUP requests issued with this // path, pretending there is an inode and avoid ENOENT when testing. If mode // is not given, it creates a regular file with mode 0600. void SetServerInodeLookup(const std::string& path, mode_t mode = S_IFREG | S_IRUSR | S_IWUSR); // Called by the testing thread to ask the FUSE server for its next received // FUSE request. Be sure to use the corresponding struct of iovec to receive // data from server. void GetServerActualRequest(std::vector& iovecs); // Called by the testing thread to query the number of unconsumed requests in // the requests_ serial buffer of the FUSE server. TearDown() ensures all // FUSE requests received by the FUSE server were consumed by the testing // thread. uint32_t GetServerNumUnconsumedRequests(); // Called by the testing thread to query the number of unsent responses in // the responses_ serial buffer of the FUSE server. TearDown() ensures all // preset FUSE responses were sent out by the FUSE server. uint32_t GetServerNumUnsentResponses(); // Called by the testing thread to ask the FUSE server for its total received // bytes from /dev/fuse. uint32_t GetServerTotalReceivedBytes(); // Called by the testing thread to ask the FUSE server to skip stored // request data. void SkipServerActualRequest(); protected: TempPath mount_point_; // Unmounts the mountpoint of the FUSE server. void UnmountFuse(); private: // Opens /dev/fuse and inherit the file descriptor for the FUSE server. void MountFuse(); // Creates a socketpair for communication and forks FUSE server. void SetUpFuseServer(); // Sends a FuseTestCmd and gets a uint32_t data from the FUSE server. inline uint32_t GetServerData(uint32_t cmd); // Waits for FUSE server to complete its processing. Complains if the FUSE // server responds any failure during tests. void WaitServerComplete(); // The FUSE server stays here and waits next command or FUSE request until it // is terminated. void ServerFuseLoop(); // Used by the FUSE server to tell testing thread if it is OK to proceed next // command. Will be issued after processing each FuseTestCmd. void ServerCompleteWith(bool success); // Consumes the first FUSE request when mounting FUSE. Replies with a // response with empty payload. PosixError ServerConsumeFuseInit(); // A command switch that dispatch different FuseTestCmd to its handler. void ServerHandleCommand(); // The FUSE server side's corresponding code of `SetServerResponse()`. // Handles `kSetResponse` command. Saves the fake response into its output // memory queue. void ServerReceiveResponse(); // The FUSE server side's corresponding code of `SetServerInodeLookup()`. // Handles `kSetInodeLookup` command. Receives an expected file mode and // file path under the mount point. void ServerReceiveInodeLookup(); // The FUSE server side's corresponding code of `GetServerActualRequest()`. // Handles `kGetRequest` command. Sends the next received request pointed by // the cursor. void ServerSendReceivedRequest(); // Sends a uint32_t data via socket. inline void ServerSendData(uint32_t data); // The FUSE server side's corresponding code of `SkipServerActualRequest()`. // Handles `kSkipRequest` command. Skip the request pointed by current cursor. void ServerSkipReceivedRequest(); // Handles FUSE request sent to /dev/fuse by its saved responses. void ServerProcessFuseRequest(); // Responds to FUSE request with a saved data. void ServerRespondFuseSuccess(FuseMemBuffer& mem_buf, const FuseMemBlock& block, uint64_t unique); // Responds an error header to /dev/fuse when bad thing happens. void ServerRespondFuseError(uint64_t unique); int dev_fd_; int sock_[2]; uint64_t nodeid_; std::unordered_map lookup_map_; FuseMemBuffer requests_; FuseMemBuffer responses_; FuseMemBuffer lookups_; }; } // namespace testing } // namespace gvisor #endif // GVISOR_TEST_FUSE_FUSE_BASE_H_