/* DataFlash logging - file oriented variant This uses posix file IO to create log files called logNN.dat in the given directory */ #pragma once #if HAL_OS_POSIX_IO || HAL_OS_FATFS_IO #include #include "DataFlash_Backend.h" class DataFlash_File : public DataFlash_Backend { public: // constructor DataFlash_File(DataFlash_Class &front, DFMessageWriter_DFLogStart *, const char *log_directory); // initialisation void Init() override; bool CardInserted(void) const override; // erase handling void EraseAll() override; // possibly time-consuming preparation handling: bool NeedPrep() override; void Prep() override; /* Write a block of data at current offset */ bool _WritePrioritisedBlock(const void *pBuffer, uint16_t size, bool is_critical) override; uint32_t bufferspace_available() override; // high level interface uint16_t find_last_log() override; void get_log_boundaries(uint16_t log_num, uint16_t & start_page, uint16_t & end_page) override; void get_log_info(uint16_t log_num, uint32_t &size, uint32_t &time_utc) override; int16_t get_log_data(uint16_t log_num, uint16_t page, uint32_t offset, uint16_t len, uint8_t *data) override; uint16_t get_num_logs() override; uint16_t start_new_log(void) override; #if CONFIG_HAL_BOARD == HAL_BOARD_SITL || CONFIG_HAL_BOARD == HAL_BOARD_LINUX void flush(void) override; #endif void periodic_1Hz(const uint32_t now) override; void periodic_fullrate(const uint32_t now) override; // this method is used when reporting system status over mavlink bool logging_enabled() const override; bool logging_failed() const override; bool logging_started(void) const override { return _write_fd != -1; } void vehicle_was_disarmed() override; virtual void PrepForArming() override; protected: bool WritesOK() const override; bool StartNewLogOK() const override; private: int _write_fd; char *_write_filename; uint32_t _last_write_ms; int _read_fd; uint16_t _read_fd_log_num; uint32_t _read_offset; uint32_t _write_offset; volatile bool _open_error; const char *_log_directory; uint32_t _io_timer_heartbeat; bool io_thread_alive() const; uint8_t io_thread_warning_decimation_counter; uint16_t _cached_oldest_log; uint16_t _log_num_from_list_entry(const uint16_t list_entry); // possibly time-consuming preparations handling void Prep_MinSpace(); uint16_t find_oldest_log(); int64_t disk_space_avail(); int64_t disk_space(); float avail_space_percent(); bool file_exists(const char *filename) const; bool log_exists(const uint16_t lognum) const; #if CONFIG_HAL_BOARD == HAL_BOARD_SITL || CONFIG_HAL_BOARD == HAL_BOARD_LINUX // I always seem to have less than 10% free space on my laptop: const float min_avail_space_percent = 0.1f; #else const float min_avail_space_percent = 10.0f; #endif // write buffer ByteBuffer _writebuf; const uint16_t _writebuf_chunk; uint32_t _last_write_time; /* construct a file name given a log number. Caller must free. */ char *_log_file_name(const uint16_t log_num) const; char *_log_file_name_long(const uint16_t log_num) const; char *_log_file_name_short(const uint16_t log_num) const; char *_lastlog_file_name() const; uint32_t _get_log_size(const uint16_t log_num) const; uint32_t _get_log_time(const uint16_t log_num) const; void stop_logging(void) override; void _io_timer(void); uint32_t critical_message_reserved_space() const { // possibly make this a proportional to buffer size? uint32_t ret = 1024; if (ret > _writebuf.get_size()) { // in this case you will only get critical messages ret = _writebuf.get_size(); } return ret; }; uint32_t non_messagewriter_message_reserved_space() const { // possibly make this a proportional to buffer size? uint32_t ret = 1024; if (ret >= _writebuf.get_size()) { // need to allow messages out from the messagewriters. In // this case while you have a messagewriter you won't get // any other messages. This should be a corner case! ret = 0; } return ret; }; // free-space checks; filling up SD cards under NuttX leads to // corrupt filesystems which cause loss of data, failure to gather // data and failures-to-boot. uint32_t _free_space_last_check_time; // milliseconds const uint32_t _free_space_check_interval = 1000UL; // milliseconds const uint32_t _free_space_min_avail = 8388608; // bytes // semaphore mediates access to the ringbuffer AP_HAL::Semaphore *semaphore; // write_fd_semaphore mediates access to write_fd so the frontend // can open/close files without causing the backend to write to a // bad fd AP_HAL::Semaphore *write_fd_semaphore; // performance counters AP_HAL::Util::perf_counter_t _perf_write; AP_HAL::Util::perf_counter_t _perf_fsync; AP_HAL::Util::perf_counter_t _perf_errors; AP_HAL::Util::perf_counter_t _perf_overruns; const char *last_io_operation = ""; struct df_stats { uint16_t blocks; uint32_t bytes; uint32_t buf_space_min; uint32_t buf_space_max; uint32_t buf_space_sigma; }; struct df_stats stats; void Log_Write_DataFlash_Stats_File(const struct df_stats &_stats); void df_stats_gather(uint16_t bytes_written); void df_stats_log(); void df_stats_clear(); }; #endif // HAL_OS_POSIX_IO