#include "AP_HAL.h" #include "Util.h" #include "utility/print_vprintf.h" #include #if defined(__APPLE__) && defined(__MACH__) #include #endif /* Helper class implements AP_HAL::Print so we can use utility/vprintf */ class BufferPrinter : public AP_HAL::Print { public: BufferPrinter(char* str, size_t size) : _offs(0), _str(str), _size(size) {} size_t write(uint8_t c) { if (_offs < _size) { _str[_offs] = c; _offs++; return 1; } else { return 0; } } size_t write(const uint8_t *buffer, size_t size) { size_t n = 0; while (size--) { n += write(*buffer++); } return n; } size_t _offs; char* const _str; const size_t _size; }; int AP_HAL::Util::snprintf(char* str, size_t size, const char *format, ...) { va_list ap; va_start(ap, format); int res = vsnprintf(str, size, format, ap); va_end(ap); return res; } int AP_HAL::Util::vsnprintf(char* str, size_t size, const char *format, va_list ap) { BufferPrinter buf(str, size); print_vprintf(&buf, format, ap); // null terminate if possible int ret = buf._offs; buf.write(0); return ret; } uint64_t AP_HAL::Util::get_system_clock_ms() const { #if defined(__APPLE__) && defined(__MACH__) struct timeval ts; gettimeofday(&ts, NULL); return ((long long)((ts.tv_sec * 1000) + (ts.tv_usec / 1000))); #else struct timespec ts; clock_gettime(CLOCK_REALTIME, &ts); const uint64_t seconds = ts.tv_sec; const uint64_t nanoseconds = ts.tv_nsec; return (seconds * 1000UL + nanoseconds/1000000UL); #endif } void AP_HAL::Util::get_system_clock_utc(int32_t &hour, int32_t &min, int32_t &sec, int32_t &ms) const { // get time of day in ms uint64_t time_ms = get_system_clock_ms(); // separate time into ms, sec, min, hour and days but all expressed in milliseconds ms = time_ms % 1000; uint32_t sec_ms = (time_ms % (60 * 1000)) - ms; uint32_t min_ms = (time_ms % (60 * 60 * 1000)) - sec_ms - ms; uint32_t hour_ms = (time_ms % (24 * 60 * 60 * 1000)) - min_ms - sec_ms - ms; // convert times as milliseconds into appropriate units sec = sec_ms / 1000; min = min_ms / (60 * 1000); hour = hour_ms / (60 * 60 * 1000); } // get milliseconds from now to a target time of day expressed as hour, min, sec, ms // match starts from first value that is not -1. I.e. specifying hour=-1, minutes=10 will ignore the hour and return time until 10 minutes past 12am (utc) uint32_t AP_HAL::Util::get_time_utc(int32_t hour, int32_t min, int32_t sec, int32_t ms) const { // determine highest value specified (0=none, 1=ms, 2=sec, 3=min, 4=hour) int8_t largest_element = 0; if (hour != -1) { largest_element = 4; } else if (min != -1) { largest_element = 3; } else if (sec != -1) { largest_element = 2; } else if (ms != -1) { largest_element = 1; } else { // exit immediately if no time specified return 0; } // get start_time_ms as h, m, s, ms int32_t curr_hour, curr_min, curr_sec, curr_ms; get_system_clock_utc(curr_hour, curr_min, curr_sec, curr_ms); int32_t total_delay_ms = 0; // calculate ms to target if (largest_element >= 1) { total_delay_ms += ms - curr_ms; } if (largest_element == 1 && total_delay_ms < 0) { return static_cast(total_delay_ms += 1000); } // calculate sec to target if (largest_element >= 2) { total_delay_ms += (sec - curr_sec)*1000; } if (largest_element == 2 && total_delay_ms < 0) { return static_cast(total_delay_ms += (60*1000)); } // calculate min to target if (largest_element >= 3) { total_delay_ms += (min - curr_min)*60*1000; } if (largest_element == 3 && total_delay_ms < 0) { return static_cast(total_delay_ms += (60*60*1000)); } // calculate hours to target if (largest_element >= 4) { total_delay_ms += (hour - curr_hour)*60*60*1000; } if (largest_element == 4 && total_delay_ms < 0) { return static_cast(total_delay_ms += (24*60*60*1000)); } // total delay in milliseconds return static_cast(total_delay_ms); }