Returns a time returned by POSIX clock_gettime
() function.
p Process.clock_gettime(Process::CLOCK_MONOTONIC) #=> 896053.968060096
clock_id
specifies a kind of clock. It is specified as a constant which begins with Process::CLOCK_
such as Process::CLOCK_REALTIME
and Process::CLOCK_MONOTONIC
.
The supported constants depends on OS and version. Ruby provides following types of clock_id
if available.
CLOCK_REALTIME
SUSv2 to 4, Linux 2.5.63, FreeBSD 3.0, NetBSD 2.0, OpenBSD 2.1, macOS 10.12
CLOCK_MONOTONIC
SUSv3 to 4, Linux 2.5.63, FreeBSD 3.0, NetBSD 2.0, OpenBSD 3.4, macOS 10.12
CLOCK_PROCESS_CPUTIME_ID
SUSv3 to 4, Linux 2.5.63, OpenBSD 5.4, macOS 10.12
CLOCK_THREAD_CPUTIME_ID
SUSv3 to 4, Linux 2.5.63, FreeBSD 7.1, OpenBSD 5.4, macOS 10.12
CLOCK_VIRTUAL
FreeBSD 3.0, OpenBSD 2.1
CLOCK_PROF
FreeBSD 3.0, OpenBSD 2.1
CLOCK_REALTIME_FAST
FreeBSD 8.1
CLOCK_REALTIME_PRECISE
FreeBSD 8.1
CLOCK_REALTIME_COARSE
Linux 2.6.32
CLOCK_REALTIME_ALARM
Linux 3.0
CLOCK_MONOTONIC_FAST
FreeBSD 8.1
CLOCK_MONOTONIC_PRECISE
FreeBSD 8.1
CLOCK_MONOTONIC_COARSE
Linux 2.6.32
CLOCK_MONOTONIC_RAW
Linux 2.6.28, macOS 10.12
CLOCK_MONOTONIC_RAW_APPROX
macOS 10.12
CLOCK_BOOTTIME
Linux 2.6.39
CLOCK_BOOTTIME_ALARM
Linux 3.0
CLOCK_UPTIME
FreeBSD 7.0, OpenBSD 5.5
CLOCK_UPTIME_FAST
FreeBSD 8.1
CLOCK_UPTIME_RAW
macOS 10.12
CLOCK_UPTIME_RAW_APPROX
macOS 10.12
CLOCK_UPTIME_PRECISE
FreeBSD 8.1
CLOCK_SECOND
FreeBSD 8.1
Note that SUS stands for Single Unix Specification. SUS contains POSIX and clock_gettime
is defined in the POSIX part. SUS defines CLOCK_REALTIME
mandatory but CLOCK_MONOTONIC
, CLOCK_PROCESS_CPUTIME_ID
and CLOCK_THREAD_CPUTIME_ID
are optional.
Also, several symbols are accepted as clock_id
. There are emulations for clock_gettime
().
For example, Process::CLOCK_REALTIME
is defined as :GETTIMEOFDAY_BASED_CLOCK_REALTIME
when clock_gettime
() is not available.
Emulations for CLOCK_REALTIME
:
Use gettimeofday() defined by SUS. (SUSv4 obsoleted it, though.) The resolution is 1 microsecond.
Use time() defined by ISO C. The resolution is 1 second.
Emulations for CLOCK_MONOTONIC
:
Use mach_absolute_time(), available on Darwin. The resolution is CPU dependent.
Use the result value of times() defined by POSIX. POSIX defines it as “times() shall return the elapsed real time, in clock ticks, since an arbitrary point in the past (for example, system start-up time)”. For example, GNU/Linux returns a value based on jiffies and it is monotonic. However, 4.4BSD uses gettimeofday() and it is not monotonic. (FreeBSD uses clock_gettime
(CLOCK_MONOTONIC
) instead, though.) The resolution is the clock tick. “getconf CLK_TCK” command shows the clock ticks per second. (The clock ticks per second is defined by HZ macro in older systems.) If it is 100 and clock_t is 32 bits integer type, the resolution is 10 millisecond and cannot represent over 497 days.
Emulations for CLOCK_PROCESS_CPUTIME_ID
:
Use getrusage() defined by SUS. getrusage() is used with RUSAGE_SELF to obtain the time only for the calling process (excluding the time for child processes). The result is addition of user time (ru_utime) and system time (ru_stime). The resolution is 1 microsecond.
Use times() defined by POSIX. The result is addition of user time (tms_utime) and system time (tms_stime). tms_cutime and tms_cstime are ignored to exclude the time for child processes. The resolution is the clock tick. “getconf CLK_TCK” command shows the clock ticks per second. (The clock ticks per second is defined by HZ macro in older systems.) If it is 100, the resolution is 10 millisecond.
Use clock() defined by ISO C. The resolution is 1/CLOCKS_PER_SEC. CLOCKS_PER_SEC is the C-level macro defined by time.h. SUS defines CLOCKS_PER_SEC is 1000000. Non-Unix systems may define it a different value, though. If CLOCKS_PER_SEC is 1000000 as SUS, the resolution is 1 microsecond. If CLOCKS_PER_SEC is 1000000 and clock_t is 32 bits integer type, it cannot represent over 72 minutes.
If the given clock_id
is not supported, Errno::EINVAL is raised.
unit
specifies a type of the return value.
number of seconds as a float (default)
number of milliseconds as a float
number of microseconds as a float
number of seconds as an integer
number of milliseconds as an integer
number of microseconds as an integer
number of nanoseconds as an integer
The underlying function, clock_gettime
(), returns a number of nanoseconds. Float
object (IEEE 754 double) is not enough to represent the return value for CLOCK_REALTIME
. If the exact nanoseconds value is required, use :nanoseconds
as the unit
.
The origin (zero) of the returned value varies. For example, system start up time, process start up time, the Epoch, etc.
The origin in CLOCK_REALTIME
is defined as the Epoch (1970-01-01 00:00:00 UTC). But some systems count leap seconds and others doesn’t. So the result can be interpreted differently across systems. Time.now
is recommended over CLOCK_REALTIME
.
Sets the minimum and maximum supported protocol versions. See min_version=
and max_version=
.
Redirects to a path ending in /
Returns an array of two elements: the filename where the calling method is located, and the line number where it is defined.
Takes an optional argument i
, which specifies how many callers up the stack to look.
Examples:
require 'rss/utils' def foo p RSS::Utils.get_file_and_line_from_caller p RSS::Utils.get_file_and_line_from_caller(1) end def bar foo end def baz bar end baz # => ["test.rb", 5] # => ["test.rb", 9]
If i
is not given, or is the default value of 0, it attempts to figure out the correct value. This is useful when in combination with instance_eval. For example:
require 'rss/utils' def foo p RSS::Utils.get_file_and_line_from_caller(1) end def bar foo end instance_eval <<-RUBY, *RSS::Utils.get_file_and_line_from_caller def baz bar end RUBY baz # => ["test.rb", 8]
Sets the time used in the verification. If not set, the current time is used.
Returns all certificate IDs in this request.
Returns an Array of SingleResponse
for this BasicResponse
.
Returns the CertificateId
for which this SingleResponse
is.
Returns the time at which the session was established.
Sets start time of the session. Time
resolution is in seconds.
Returns the timeout value set for the session, in seconds from the established time.
Sets how long until the session expires in seconds.
Sets the time to be used in verifications.