// This is an open source non-commercial project. Dear PVS-Studio, please check // it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com #include #include #include #include "nvim/assert.h" #include "nvim/event/loop.h" #include "nvim/main.h" #include "nvim/os/input.h" #include "nvim/os/os.h" #include "nvim/os/time.h" static uv_mutex_t delay_mutex; static uv_cond_t delay_cond; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "os/time.c.generated.h" #endif /// Initializes the time module void time_init(void) { uv_mutex_init(&delay_mutex); uv_cond_init(&delay_cond); } /// Gets a high-resolution (nanosecond), monotonically-increasing time relative /// to an arbitrary time in the past. /// /// Not related to the time of day and therefore not subject to clock drift. /// /// @return Relative time value with nanosecond precision. uint64_t os_hrtime(void) FUNC_ATTR_WARN_UNUSED_RESULT { return uv_hrtime(); } /// Gets a millisecond-resolution, monotonically-increasing time relative to an /// arbitrary time in the past. /// /// Not related to the time of day and therefore not subject to clock drift. /// The value is cached by the loop, it will not change until the next /// loop-tick (unless uv_update_time is called). /// /// @return Relative time value with millisecond precision. uint64_t os_now(void) FUNC_ATTR_WARN_UNUSED_RESULT { return uv_now(&main_loop.uv); } /// Sleeps for `ms` milliseconds. /// /// @see uv_sleep() (libuv v1.34.0) /// /// @param ms Number of milliseconds to sleep /// @param ignoreinput If true, only SIGINT (CTRL-C) can interrupt. void os_delay(uint64_t ms, bool ignoreinput) { DLOG("%" PRIu64 " ms", ms); if (ignoreinput) { if (ms > INT_MAX) { ms = INT_MAX; } LOOP_PROCESS_EVENTS_UNTIL(&main_loop, NULL, (int)ms, got_int); } else { os_microdelay(ms * 1000u, ignoreinput); } } /// Sleeps for `us` microseconds. /// /// @see uv_sleep() (libuv v1.34.0) /// /// @param us Number of microseconds to sleep. /// @param ignoreinput If true, ignore all input (including SIGINT/CTRL-C). /// If false, waiting is aborted on any input. void os_microdelay(uint64_t us, bool ignoreinput) { uint64_t elapsed = 0u; uint64_t base = uv_hrtime(); // Convert microseconds to nanoseconds, or UINT64_MAX on overflow. const uint64_t ns = (us < UINT64_MAX / 1000u) ? us * 1000u : UINT64_MAX; uv_mutex_lock(&delay_mutex); while (elapsed < ns) { // If ignoring input, we simply wait the full delay. // Else we check for input in ~100ms intervals. const uint64_t ns_delta = ignoreinput ? ns - elapsed : MIN(ns - elapsed, 100000000u); // 100ms const int rv = uv_cond_timedwait(&delay_cond, &delay_mutex, ns_delta); if (0 != rv && UV_ETIMEDOUT != rv) { abort(); break; } // Else: Timeout proceeded normally. if (!ignoreinput && os_char_avail()) { break; } const uint64_t now = uv_hrtime(); elapsed += now - base; base = now; } uv_mutex_unlock(&delay_mutex); } // Cache of the current timezone name as retrieved from TZ, or an empty string // where unset, up to 64 octets long including trailing null byte. static char tz_cache[64]; /// Portable version of POSIX localtime_r() /// /// @return NULL in case of error struct tm *os_localtime_r(const time_t *restrict clock, struct tm *restrict result) FUNC_ATTR_NONNULL_ALL { #ifdef UNIX // POSIX provides localtime_r() as a thread-safe version of localtime(). // // Check to see if the environment variable TZ has changed since the last run. // Call tzset(3) to update the global timezone variables if it has. // POSIX standard doesn't require localtime_r() implementations to do that // as it does with localtime(), and we don't want to call tzset() every time. const char *tz = os_getenv("TZ"); if (tz == NULL) { tz = ""; } if (strncmp(tz_cache, tz, sizeof(tz_cache) - 1) != 0) { tzset(); xstrlcpy(tz_cache, tz, sizeof(tz_cache)); } return localtime_r(clock, result); // NOLINT(runtime/threadsafe_fn) #else // Windows version of localtime() is thread-safe. // See http://msdn.microsoft.com/en-us/library/bf12f0hc%28VS.80%29.aspx struct tm *local_time = localtime(clock); // NOLINT(runtime/threadsafe_fn) if (!local_time) { return NULL; } *result = *local_time; return result; #endif } /// Gets the current Unix timestamp and adjusts it to local time. /// /// @param result Pointer to a 'struct tm' where the result should be placed /// @return A pointer to a 'struct tm' in the current time zone (the 'result' /// argument) or NULL in case of error struct tm *os_localtime(struct tm *result) FUNC_ATTR_NONNULL_ALL { time_t rawtime = time(NULL); return os_localtime_r(&rawtime, result); } /// Portable version of POSIX ctime_r() /// /// @param clock[in] /// @param result[out] Pointer to a 'char' where the result should be placed /// @param result_len length of result buffer /// @return human-readable string of current local time char *os_ctime_r(const time_t *restrict clock, char *restrict result, size_t result_len) FUNC_ATTR_NONNULL_ALL FUNC_ATTR_NONNULL_RET { struct tm clock_local; struct tm *clock_local_ptr = os_localtime_r(clock, &clock_local); // MSVC returns NULL for an invalid value of seconds. if (clock_local_ptr == NULL) { xstrlcpy(result, _("(Invalid)"), result_len); } else { strftime(result, result_len, _("%a %b %d %H:%M:%S %Y"), clock_local_ptr); } xstrlcat(result, "\n", result_len); return result; } /// Gets the current Unix timestamp and adjusts it to local time. /// /// @param result[out] Pointer to a 'char' where the result should be placed /// @param result_len length of result buffer /// @return human-readable string of current local time char *os_ctime(char *result, size_t result_len) FUNC_ATTR_NONNULL_ALL FUNC_ATTR_NONNULL_RET { time_t rawtime = time(NULL); return os_ctime_r(&rawtime, result, result_len); } /// Portable version of POSIX strptime() /// /// @param str[in] string to convert /// @param format[in] format to parse "str" /// @param tm[out] time representation of "str" /// @return Pointer to first unprocessed character or NULL char *os_strptime(const char *str, const char *format, struct tm *tm) FUNC_ATTR_NONNULL_ALL { #ifdef HAVE_STRPTIME return strptime(str, format, tm); #else return NULL; #endif } /// Obtains the current Unix timestamp. /// /// @return Seconds since epoch. Timestamp os_time(void) FUNC_ATTR_WARN_UNUSED_RESULT { return (Timestamp)time(NULL); }