// // Copyright (C) 2012 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 UPDATE_ENGINE_COMMON_UTILS_H_ #define UPDATE_ENGINE_COMMON_UTILS_H_ #include <errno.h> #include <unistd.h> #include <algorithm> #include <limits> #include <map> #include <memory> #include <set> #include <string> #include <vector> #include <base/files/file_path.h> #include <base/posix/eintr_wrapper.h> #include <base/time/time.h> #include <brillo/key_value_store.h> #include <brillo/secure_blob.h> #include "update_engine/common/action.h" #include "update_engine/common/action_processor.h" #include "update_engine/common/constants.h" #include "update_engine/payload_consumer/file_descriptor.h" #include "update_engine/update_metadata.pb.h" namespace chromeos_update_engine { namespace utils { // Formats |vec_str| as a string of the form ["<elem1>", "<elem2>"]. // Does no escaping, only use this for presentation in error messages. std::string StringVectorToString(const std::vector<std::string>& vec_str); // Calculates the p2p file id from payload hash and size std::string CalculateP2PFileId(const brillo::Blob& payload_hash, size_t payload_size); // Parse the firmware version from one line of output from the // "mosys" command. std::string ParseECVersion(std::string input_line); // Writes the data passed to path. The file at path will be overwritten if it // exists. Returns true on success, false otherwise. bool WriteFile(const char* path, const void* data, size_t data_len); // Calls write() or pwrite() repeatedly until all count bytes at buf are // written to fd or an error occurs. Returns true on success. bool WriteAll(int fd, const void* buf, size_t count); bool PWriteAll(int fd, const void* buf, size_t count, off_t offset); bool WriteAll(const FileDescriptorPtr& fd, const void* buf, size_t count); bool PWriteAll(const FileDescriptorPtr& fd, const void* buf, size_t count, off_t offset); // Calls read() repeatedly until |count| bytes are read or EOF or EWOULDBLOCK // is reached. Returns whether all read() calls succeeded (including EWOULDBLOCK // as a success case), sets |eof| to whether the eof was reached and sets // |out_bytes_read| to the actual number of bytes read regardless of the return // value. bool ReadAll( int fd, void* buf, size_t count, size_t* out_bytes_read, bool* eof); // Calls pread() repeatedly until count bytes are read, or EOF is reached. // Returns number of bytes read in *bytes_read. Returns true on success. bool PReadAll( int fd, void* buf, size_t count, off_t offset, ssize_t* out_bytes_read); bool PReadAll(const FileDescriptorPtr& fd, void* buf, size_t count, off_t offset, ssize_t* out_bytes_read); // Opens |path| for reading and appends its entire content to the container // pointed to by |out_p|. Returns true upon successfully reading all of the // file's content, false otherwise, in which case the state of the output // container is unknown. ReadFileChunk starts reading the file from |offset|; if // |size| is not -1, only up to |size| bytes are read in. bool ReadFile(const std::string& path, brillo::Blob* out_p); bool ReadFile(const std::string& path, std::string* out_p); bool ReadFileChunk(const std::string& path, off_t offset, off_t size, brillo::Blob* out_p); // Invokes |cmd| in a pipe and appends its stdout to the container pointed to by // |out_p|. Returns true upon successfully reading all of the output, false // otherwise, in which case the state of the output container is unknown. bool ReadPipe(const std::string& cmd, std::string* out_p); // Returns the size of the block device at the file descriptor fd. If an error // occurs, -1 is returned. off_t BlockDevSize(int fd); // Returns the size of the file at path, or the file descriptor fd. If the file // is actually a block device, this function will automatically call // BlockDevSize. If the file doesn't exist or some error occurrs, -1 is // returned. off_t FileSize(const std::string& path); off_t FileSize(int fd); std::string ErrnoNumberAsString(int err); // Returns true if the file exists for sure. Returns false if it doesn't exist, // or an error occurs. bool FileExists(const char* path); // Returns true if |path| exists and is a symbolic link. bool IsSymlink(const char* path); // Try attaching UBI |volume_num|. If there is any error executing required // commands to attach the volume, this function returns false. This function // only returns true if "/dev/ubi%d_0" becomes available in |timeout| seconds. bool TryAttachingUbiVolume(int volume_num, int timeout); // If |base_filename_template| is neither absolute (starts with "/") nor // explicitly relative to the current working directory (starts with "./" or // "../"), then it is prepended the system's temporary directory. On success, // stores the name of the new temporary file in |filename|. If |fd| is // non-null, the file descriptor returned by mkstemp is written to it and // kept open; otherwise, it is closed. The template must end with "XXXXXX". // Returns true on success. bool MakeTempFile(const std::string& base_filename_template, std::string* filename, int* fd); // Splits the partition device name into the block device name and partition // number. For example, "/dev/sda3" will be split into {"/dev/sda", 3} and // "/dev/mmcblk0p2" into {"/dev/mmcblk0", 2} // Returns false when malformed device name is passed in. // If both output parameters are omitted (null), can be used // just to test the validity of the device name. Note that the function // simply checks if the device name looks like a valid device, no other // checks are performed (i.e. it doesn't check if the device actually exists). bool SplitPartitionName(const std::string& partition_name, std::string* out_disk_name, int* out_partition_num); // Builds a partition device name from the block device name and partition // number. For example: // {"/dev/sda", 1} => "/dev/sda1" // {"/dev/mmcblk2", 12} => "/dev/mmcblk2p12" // Returns empty string when invalid parameters are passed in std::string MakePartitionName(const std::string& disk_name, int partition_num); // Similar to "MakePartitionName" but returns a name that is suitable for // mounting. On NAND system we can write to "/dev/ubiX_0", which is what // MakePartitionName returns, but we cannot mount that device. To mount, we // have to use "/dev/ubiblockX_0" for rootfs. Stateful and OEM partitions are // mountable with "/dev/ubiX_0". The input is a partition device such as // /dev/sda3. Return empty string on error. std::string MakePartitionNameForMount(const std::string& part_name); // Set the read-only attribute on the block device |device| to the value passed // in |read_only|. Return whether the operation succeeded. bool SetBlockDeviceReadOnly(const std::string& device, bool read_only); // Synchronously mount or unmount a filesystem. Return true on success. // When mounting, it will attempt to mount the device as the passed filesystem // type |type|, with the passed |flags| options. If |type| is empty, "ext2", // "ext3", "ext4" and "squashfs" will be tried. bool MountFilesystem(const std::string& device, const std::string& mountpoint, unsigned long flags, // NOLINT(runtime/int) const std::string& type, const std::string& fs_mount_options); bool UnmountFilesystem(const std::string& mountpoint); // Return whether the passed |mountpoint| path is a directory where a filesystem // is mounted. Due to detection mechanism limitations, when used on directories // where another part of the tree was bind mounted returns true only if bind // mounted on top of a different filesystem (not inside the same filesystem). bool IsMountpoint(const std::string& mountpoint); // Returns a human-readable string with the file format based on magic constants // on the header of the file. std::string GetFileFormat(const std::string& path); // Returns the string representation of the given UTC time. // such as "11/14/2011 14:05:30 GMT". std::string ToString(const base::Time utc_time); // Returns true or false depending on the value of b. std::string ToString(bool b); // Returns a string representation of the given enum. std::string ToString(DownloadSource source); // Returns a string representation of the given enum. std::string ToString(PayloadType payload_type); // Fuzzes an integer |value| randomly in the range: // [value - range / 2, value + range - range / 2] int FuzzInt(int value, unsigned int range); // Log a string in hex to LOG(INFO). Useful for debugging. void HexDumpArray(const uint8_t* const arr, const size_t length); inline void HexDumpString(const std::string& str) { HexDumpArray(reinterpret_cast<const uint8_t*>(str.data()), str.size()); } inline void HexDumpVector(const brillo::Blob& vect) { HexDumpArray(vect.data(), vect.size()); } template <typename T> bool VectorIndexOf(const std::vector<T>& vect, const T& value, typename std::vector<T>::size_type* out_index) { typename std::vector<T>::const_iterator it = std::find(vect.begin(), vect.end(), value); if (it == vect.end()) { return false; } else { *out_index = it - vect.begin(); return true; } } // Return the total number of blocks in the passed |extents| collection. template <class T> uint64_t BlocksInExtents(const T& extents) { uint64_t sum = 0; for (const auto& ext : extents) { sum += ext.num_blocks(); } return sum; } // Converts seconds into human readable notation including days, hours, minutes // and seconds. For example, 185 will yield 3m5s, 4300 will yield 1h11m40s, and // 360000 will yield 4d4h0m0s. Zero padding not applied. Seconds are always // shown in the result. std::string FormatSecs(unsigned secs); // Converts a TimeDelta into human readable notation including days, hours, // minutes, seconds and fractions of a second down to microsecond granularity, // as necessary; for example, an output of 5d2h0m15.053s means that the input // time was precise to the milliseconds only. Zero padding not applied, except // for fractions. Seconds are always shown, but fractions thereof are only shown // when applicable. If |delta| is negative, the output will have a leading '-' // followed by the absolute duration. std::string FormatTimeDelta(base::TimeDelta delta); // This method transforms the given error code to be suitable for UMA and // for error classification purposes by removing the higher order bits and // aggregating error codes beyond the enum range, etc. This method is // idempotent, i.e. if called with a value previously returned by this method, // it'll return the same value again. ErrorCode GetBaseErrorCode(ErrorCode code); // Converts |time| to an Omaha InstallDate which is defined as "the // number of PST8PDT calendar weeks since Jan 1st 2007 0:00 PST, times // seven" with PST8PDT defined as "Pacific Time" (e.g. UTC-07:00 if // daylight savings is observed and UTC-08:00 otherwise.) // // If the passed in |time| variable is before Monday January 1st 2007 // 0:00 PST, False is returned and the value returned in // |out_num_days| is undefined. Otherwise the number of PST8PDT // calendar weeks since that date times seven is returned in // |out_num_days| and the function returns True. // // (NOTE: This function does not currently take daylight savings time // into account so the result may up to one hour off. This is because // the glibc date and timezone routines depend on the TZ environment // variable and changing environment variables is not thread-safe. bool ConvertToOmahaInstallDate(base::Time time, int* out_num_days); // Look for the minor version value in the passed |store| and set // |minor_version| to that value. Return whether the value was found and valid. bool GetMinorVersion(const brillo::KeyValueStore& store, uint32_t* minor_version); // This function reads the specified data in |extents| into |out_data|. The // extents are read from the file at |path|. |out_data_size| is the size of // |out_data|. Returns false if the number of bytes to read given in // |extents| does not equal |out_data_size|. bool ReadExtents(const std::string& path, const std::vector<Extent>& extents, brillo::Blob* out_data, ssize_t out_data_size, size_t block_size); // Read the current boot identifier and store it in |boot_id|. This identifier // is constants during the same boot of the kernel and is regenerated after // reboot. Returns whether it succeeded getting the boot_id. bool GetBootId(std::string* boot_id); // Divide |x| by |y| and round up to the nearest integer. constexpr uint64_t DivRoundUp(uint64_t x, uint64_t y) { return (x + y - 1) / y; } // Round |x| up to be a multiple of |y|. constexpr uint64_t RoundUp(uint64_t x, uint64_t y) { return DivRoundUp(x, y) * y; } // Returns the integer value of the first section of |version|. E.g. for // "10575.39." returns 10575. Returns 0 if |version| is empty, returns -1 if // first section of |version| is invalid (e.g. not a number). int VersionPrefix(const std::string& version); // Parses a string in the form high.low, where high and low are 16 bit unsigned // integers. If there is more than 1 dot, or if either of the two parts are // not valid 16 bit unsigned numbers, then 0xffff is returned for both. void ParseRollbackKeyVersion(const std::string& raw_version, uint16_t* high_version, uint16_t* low_version); } // namespace utils // Utility class to close a file descriptor class ScopedFdCloser { public: explicit ScopedFdCloser(int* fd) : fd_(fd) {} ~ScopedFdCloser() { if (should_close_ && fd_ && (*fd_ >= 0) && !IGNORE_EINTR(close(*fd_))) *fd_ = -1; } void set_should_close(bool should_close) { should_close_ = should_close; } private: int* fd_; bool should_close_ = true; DISALLOW_COPY_AND_ASSIGN(ScopedFdCloser); }; // Utility class to delete a file when it goes out of scope. class ScopedPathUnlinker { public: explicit ScopedPathUnlinker(const std::string& path) : path_(path), should_remove_(true) {} ~ScopedPathUnlinker() { if (should_remove_ && unlink(path_.c_str()) < 0) { PLOG(ERROR) << "Unable to unlink path " << path_; } } void set_should_remove(bool should_remove) { should_remove_ = should_remove; } private: const std::string path_; bool should_remove_; DISALLOW_COPY_AND_ASSIGN(ScopedPathUnlinker); }; // A little object to call ActionComplete on the ActionProcessor when // it's destructed. class ScopedActionCompleter { public: explicit ScopedActionCompleter(ActionProcessor* processor, AbstractAction* action) : processor_(processor), action_(action), code_(ErrorCode::kError), should_complete_(true) { CHECK(processor_); } ~ScopedActionCompleter() { if (should_complete_) processor_->ActionComplete(action_, code_); } void set_code(ErrorCode code) { code_ = code; } void set_should_complete(bool should_complete) { should_complete_ = should_complete; } ErrorCode get_code() const { return code_; } private: ActionProcessor* processor_; AbstractAction* action_; ErrorCode code_; bool should_complete_; DISALLOW_COPY_AND_ASSIGN(ScopedActionCompleter); }; } // namespace chromeos_update_engine #define TEST_AND_RETURN_FALSE_ERRNO(_x) \ do { \ bool _success = static_cast<bool>(_x); \ if (!_success) { \ std::string _msg = \ chromeos_update_engine::utils::ErrnoNumberAsString(errno); \ LOG(ERROR) << #_x " failed: " << _msg; \ return false; \ } \ } while (0) #define TEST_AND_RETURN_FALSE(_x) \ do { \ bool _success = static_cast<bool>(_x); \ if (!_success) { \ LOG(ERROR) << #_x " failed."; \ return false; \ } \ } while (0) #define TEST_AND_RETURN_ERRNO(_x) \ do { \ bool _success = static_cast<bool>(_x); \ if (!_success) { \ std::string _msg = \ chromeos_update_engine::utils::ErrnoNumberAsString(errno); \ LOG(ERROR) << #_x " failed: " << _msg; \ return; \ } \ } while (0) #define TEST_AND_RETURN(_x) \ do { \ bool _success = static_cast<bool>(_x); \ if (!_success) { \ LOG(ERROR) << #_x " failed."; \ return; \ } \ } while (0) #define TEST_AND_RETURN_FALSE_ERRCODE(_x) \ do { \ errcode_t _error = (_x); \ if (_error) { \ errno = _error; \ LOG(ERROR) << #_x " failed: " << _error; \ return false; \ } \ } while (0) #endif // UPDATE_ENGINE_COMMON_UTILS_H_