/* * Copyright 2022-2023 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #ifndef OSSL_INTERNAL_TIME_H # define OSSL_INTERNAL_TIME_H # pragma once # include /* uint64_t */ # include "internal/e_os.h" # include "internal/e_winsock.h" /* for struct timeval */ # include "internal/safe_math.h" /* * Internal type defining a time. * This should be treated as an opaque structure. * * The time datum is Unix's 1970 and at nanosecond precision, this gives * a range of 584 years roughly. */ typedef struct { uint64_t t; /* Ticks since the epoch */ } OSSL_TIME; /* The precision of times allows this many values per second */ # define OSSL_TIME_SECOND ((uint64_t)1000000000) /* One millisecond. */ # define OSSL_TIME_MS (OSSL_TIME_SECOND / 1000) /* One microsecond. */ # define OSSL_TIME_US (OSSL_TIME_MS / 1000) /* One nanosecond. */ # define OSSL_TIME_NS (OSSL_TIME_US / 1000) #define ossl_seconds2time(s) ossl_ticks2time((s) * OSSL_TIME_SECOND) #define ossl_time2seconds(t) (ossl_time2ticks(t) / OSSL_TIME_SECOND) #define ossl_ms2time(ms) ossl_ticks2time((ms) * OSSL_TIME_MS) #define ossl_time2ms(t) (ossl_time2ticks(t) / OSSL_TIME_MS) #define ossl_us2time(us) ossl_ticks2time((us) * OSSL_TIME_US) #define ossl_time2us(t) (ossl_time2ticks(t) / OSSL_TIME_US) /* * Arithmetic operations on times. * These operations are saturating, in that an overflow or underflow returns * the largest or smallest value respectively. */ OSSL_SAFE_MATH_UNSIGNED(time, uint64_t) /* Convert a tick count into a time */ static ossl_unused ossl_inline OSSL_TIME ossl_ticks2time(uint64_t ticks) { OSSL_TIME r; r.t = ticks; return r; } /* Convert a time to a tick count */ static ossl_unused ossl_inline uint64_t ossl_time2ticks(OSSL_TIME t) { return t.t; } /* Get current time */ OSSL_TIME ossl_time_now(void); /* The beginning and end of the time range */ static ossl_unused ossl_inline OSSL_TIME ossl_time_zero(void) { return ossl_ticks2time(0); } static ossl_unused ossl_inline OSSL_TIME ossl_time_infinite(void) { return ossl_ticks2time(~(uint64_t)0); } /* Convert time to timeval */ static ossl_unused ossl_inline struct timeval ossl_time_to_timeval(OSSL_TIME t) { struct timeval tv; int err = 0; /* * Round up any nano secs which struct timeval doesn't support. Ensures that * we never return a zero time if the input time is non zero */ t.t = safe_add_time(t.t, OSSL_TIME_US - 1, &err); if (err) t = ossl_time_infinite(); #ifdef _WIN32 tv.tv_sec = (long int)(t.t / OSSL_TIME_SECOND); #else tv.tv_sec = (time_t)(t.t / OSSL_TIME_SECOND); #endif tv.tv_usec = (t.t % OSSL_TIME_SECOND) / OSSL_TIME_US; return tv; } /* Convert timeval to time */ static ossl_unused ossl_inline OSSL_TIME ossl_time_from_timeval(struct timeval tv) { OSSL_TIME t; #ifndef __DJGPP__ /* tv_sec is unsigned on djgpp. */ if (tv.tv_sec < 0) return ossl_time_zero(); #endif t.t = tv.tv_sec * OSSL_TIME_SECOND + tv.tv_usec * OSSL_TIME_US; return t; } /* Convert OSSL_TIME to time_t */ static ossl_unused ossl_inline time_t ossl_time_to_time_t(OSSL_TIME t) { return (time_t)(t.t / OSSL_TIME_SECOND); } /* Convert time_t to OSSL_TIME */ static ossl_unused ossl_inline OSSL_TIME ossl_time_from_time_t(time_t t) { OSSL_TIME ot; ot.t = t; ot.t *= OSSL_TIME_SECOND; return ot; } /* Compare two time values, return -1 if less, 1 if greater and 0 if equal */ static ossl_unused ossl_inline int ossl_time_compare(OSSL_TIME a, OSSL_TIME b) { if (a.t > b.t) return 1; if (a.t < b.t) return -1; return 0; } /* Returns true if an OSSL_TIME is ossl_time_zero(). */ static ossl_unused ossl_inline int ossl_time_is_zero(OSSL_TIME t) { return ossl_time_compare(t, ossl_time_zero()) == 0; } /* Returns true if an OSSL_TIME is ossl_time_infinite(). */ static ossl_unused ossl_inline int ossl_time_is_infinite(OSSL_TIME t) { return ossl_time_compare(t, ossl_time_infinite()) == 0; } static ossl_unused ossl_inline OSSL_TIME ossl_time_add(OSSL_TIME a, OSSL_TIME b) { OSSL_TIME r; int err = 0; r.t = safe_add_time(a.t, b.t, &err); return err ? ossl_time_infinite() : r; } static ossl_unused ossl_inline OSSL_TIME ossl_time_subtract(OSSL_TIME a, OSSL_TIME b) { OSSL_TIME r; int err = 0; r.t = safe_sub_time(a.t, b.t, &err); return err ? ossl_time_zero() : r; } /* Returns |a - b|. */ static ossl_unused ossl_inline OSSL_TIME ossl_time_abs_difference(OSSL_TIME a, OSSL_TIME b) { return a.t > b.t ? ossl_time_subtract(a, b) : ossl_time_subtract(b, a); } static ossl_unused ossl_inline OSSL_TIME ossl_time_multiply(OSSL_TIME a, uint64_t b) { OSSL_TIME r; int err = 0; r.t = safe_mul_time(a.t, b, &err); return err ? ossl_time_infinite() : r; } static ossl_unused ossl_inline OSSL_TIME ossl_time_divide(OSSL_TIME a, uint64_t b) { OSSL_TIME r; int err = 0; r.t = safe_div_time(a.t, b, &err); return err ? ossl_time_zero() : r; } static ossl_unused ossl_inline OSSL_TIME ossl_time_muldiv(OSSL_TIME a, uint64_t b, uint64_t c) { OSSL_TIME r; int err = 0; r.t = safe_muldiv_time(a.t, b, c, &err); return err ? ossl_time_zero() : r; } /* Return higher of the two given time values. */ static ossl_unused ossl_inline OSSL_TIME ossl_time_max(OSSL_TIME a, OSSL_TIME b) { return a.t > b.t ? a : b; } /* Return the lower of the two given time values. */ static ossl_unused ossl_inline OSSL_TIME ossl_time_min(OSSL_TIME a, OSSL_TIME b) { return a.t < b.t ? a : b; } #endif