From 0db324e2e5d9d3347ea0e93138372fb65aac09e6 Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Mon, 15 Apr 2024 21:41:09 +0200
Subject: Merging upstream version 6.7.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
 man7/time_namespaces.7 | 56 +++++++++++++++++++++++++-------------------------
 1 file changed, 28 insertions(+), 28 deletions(-)

(limited to 'man7/time_namespaces.7')

diff --git a/man7/time_namespaces.7 b/man7/time_namespaces.7
index 6e29996..4c85001 100644
--- a/man7/time_namespaces.7
+++ b/man7/time_namespaces.7
@@ -3,7 +3,7 @@
 .\" SPDX-License-Identifier: Linux-man-pages-copyleft
 .\"
 .\"
-.TH time_namespaces 7 2023-03-12 "Linux man-pages 6.05.01"
+.TH time_namespaces 7 2023-10-31 "Linux man-pages 6.7"
 .SH NAME
 time_namespaces \- overview of Linux time namespaces
 .SH DESCRIPTION
@@ -23,7 +23,7 @@ described  by  POSIX\[em]"some  unspecified  point in the past".
 a nonsettable clock that is identical to
 .BR CLOCK_MONOTONIC ,
 except that it also includes any time that the system is suspended.
-.PP
+.P
 Thus, the processes in a time namespace share per-namespace values
 for these clocks.
 This affects various APIs that measure against these clocks, including:
@@ -34,7 +34,7 @@ This affects various APIs that measure against these clocks, including:
 .BR timerfd_settime (2),
 and
 .IR /proc/uptime .
-.PP
+.P
 Currently, the only way to create a time namespace is by calling
 .BR unshare (2)
 with the
@@ -66,13 +66,13 @@ These offsets are exposed via the file
 Within this file,
 the offsets are expressed as lines consisting of
 three space-delimited fields:
-.PP
+.P
 .in +4n
 .EX
 <clock-id> <offset-secs> <offset-nanosecs>
 .EE
 .in
-.PP
+.P
 The
 .I clock-id
 is a string that identifies the clock whose offsets are being shown.
@@ -93,11 +93,11 @@ The
 value can be negative, subject to restrictions noted below;
 .I offset-nanosecs
 is an unsigned value.
-.PP
+.P
 In the initial time namespace, the contents of the
 .I timens_offsets
 file are as follows:
-.PP
+.P
 .in +4n
 .EX
 $ \fBcat /proc/self/timens_offsets\fP
@@ -105,7 +105,7 @@ monotonic           0         0
 boottime            0         0
 .EE
 .in
-.PP
+.P
 In a new time namespace that has had no member processes,
 the clock offsets can be modified by writing newline-terminated
 records of the same form to the
@@ -121,7 +121,7 @@ In order to write to the
 file, a process must have the
 .B CAP_SYS_TIME
 capability in the user namespace that owns the time namespace.
-.PP
+.P
 Writes to the
 .I timens_offsets
 file can fail with the following errors:
@@ -158,7 +158,7 @@ inside the namespace would exceed half of the value of the kernel constant
 .B KTIME_SEC_MAX
 (this limits the clock value to a maximum of approximately 146 years).
 .RE
-.PP
+.P
 In a new time namespace created by
 .BR unshare (2),
 the contents of the
@@ -168,13 +168,13 @@ file are inherited from the time namespace of the creating process.
 Use of time namespaces requires a kernel that is configured with the
 .B CONFIG_TIME_NS
 option.
-.PP
+.P
 Note that time namespaces do not virtualize the
 .B CLOCK_REALTIME
 clock.
 Virtualization of this clock was avoided for reasons of complexity
 and overhead within the kernel.
-.PP
+.P
 For compatibility with the initial implementation, when writing a
 .I clock-id
 to the
@@ -185,7 +185,7 @@ instead of the symbolic names show above; i.e., 1 instead of
 and 7 instead of
 .IR boottime .
 For readability, the use of the symbolic names over the numbers is preferred.
-.PP
+.P
 The motivation for adding time namespaces was to allow
 the monotonic and boot-time clocks to maintain consistent values
 during container migration and checkpoint/restore.
@@ -193,14 +193,14 @@ during container migration and checkpoint/restore.
 The following shell session demonstrates the operation of time namespaces.
 We begin by displaying the inode number of the time namespace
 of a shell in the initial time namespace:
-.PP
+.P
 .in +4n
 .EX
 $ \fBreadlink /proc/$$/ns/time\fP
 time:[4026531834]
 .EE
 .in
-.PP
+.P
 Continuing in the initial time namespace, we display the system uptime using
 .BR uptime (1)
 and use the
@@ -208,7 +208,7 @@ and use the
 example program shown in
 .BR clock_getres (2)
 to display the values of various clocks:
-.PP
+.P
 .in +4n
 .EX
 $ \fBuptime \-\-pretty\fP
@@ -220,7 +220,7 @@ CLOCK_MONOTONIC:      56338.247 (15h 38m 58s)
 CLOCK_BOOTTIME :      76633.544 (21h 17m 13s)
 .EE
 .in
-.PP
+.P
 We then use
 .BR unshare (1)
 to create a time namespace and execute a
@@ -236,7 +236,7 @@ clock forward 2 days
 and the offset for the
 .B CLOCK_BOOTTIME
 clock forward 7 days:
-.PP
+.P
 .in +4n
 .EX
 $ \fBPS1="ns2# " sudo unshare \-T \-\- bash \-\-norc\fP
@@ -244,7 +244,7 @@ ns2# \fBecho "monotonic $((2*24*60*60)) 0" > /proc/$$/timens_offsets\fP
 ns2# \fBecho "boottime  $((7*24*60*60)) 0" > /proc/$$/timens_offsets\fP
 .EE
 .in
-.PP
+.P
 Above, we started the
 .BR bash (1)
 shell with the
@@ -254,7 +254,7 @@ This ensures that no child processes are created from the
 shell before we have a chance to update the
 .I timens_offsets
 file.
-.PP
+.P
 We then use
 .BR cat (1)
 to display the contents of the
@@ -266,7 +266,7 @@ creates the first process in the new time namespace,
 after which further attempts to update the
 .I timens_offsets
 file produce an error.
-.PP
+.P
 .in +4n
 .EX
 ns2# \fBcat /proc/$$/timens_offsets\fP
@@ -276,13 +276,13 @@ ns2# \fBecho "boottime $((9*24*60*60)) 0" > /proc/$$/timens_offsets\fP
 bash: echo: write error: Permission denied
 .EE
 .in
-.PP
+.P
 Continuing in the new namespace, we execute
 .BR uptime (1)
 and the
 .I clock_times
 example program:
-.PP
+.P
 .in +4n
 .EX
 ns2# \fBuptime \-\-pretty\fP
@@ -294,17 +294,17 @@ CLOCK_MONOTONIC:     229193.332 (2 days + 15h 39m 53s)
 CLOCK_BOOTTIME :     681488.629 (7 days + 21h 18m  8s)
 .EE
 .in
-.PP
+.P
 From the above output, we can see that the monotonic
 and boot-time clocks have different values in the new time namespace.
-.PP
+.P
 Examining the
 .IR /proc/ pid /ns/time
 and
 .IR /proc/ pid /ns/time_for_children
 symbolic links, we see that the shell is a member of the initial time
 namespace, but its children are created in the new namespace.
-.PP
+.P
 .in +4n
 .EX
 ns2# \fBreadlink /proc/$$/ns/time\fP
@@ -315,13 +315,13 @@ ns2# \fBreadlink /proc/self/ns/time\fP   # Creates a child process
 time:[4026532900]
 .EE
 .in
-.PP
+.P
 Returning to the shell in the initial time namespace,
 we see that the monotonic and boot-time clocks
 are unaffected by the
 .I timens_offsets
 changes that were made in the other time namespace:
-.PP
+.P
 .in +4n
 .EX
 $ \fBuptime \-\-pretty\fP
-- 
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