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@@ -82,7 +82,6 @@ top \- display Linux processes
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.\" ----------------------------------------------------------------------
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\*(WE \*(CL
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The traditional switches `\-' and whitespace are optional.
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.\" ----------------------------------------------------------------------
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@@ -632,7 +631,16 @@ A task's currently resident share of available \*(MP.
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\*(XX.
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.TP 4
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3.\fB CGROUPS \*(Em Control Groups \fR
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3.\fB CGNAME \*(Em Control Group Name \fR
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The name of the control group to which a process belongs,
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or `\-' if not applicable for that process.
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This will typically be the last entry in the full list of control
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groups as shown under the next heading (CGROUPS).
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And as is true there, this field is also variable width.
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.TP 4
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4.\fB CGROUPS \*(Em Control Groups \fR
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The names of the control group(s) to which a process belongs,
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or `\-' if not applicable for that process.
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@@ -653,14 +661,14 @@ Even so, such variable width fields could still suffer truncation.
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any truncated data.
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.TP 4
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4.\fB CODE \*(Em Code Size (KiB) \fR
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5.\fB CODE \*(Em Code Size (KiB) \fR
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The amount of \*(MP currently devoted to executable code, also known
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as the Text Resident Set size or TRS.
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\*(XX.
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.TP 4
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5.\fB COMMAND \*(Em Command\fB Name\fR or Command\fB Line \fR
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6.\fB COMMAND \*(Em Command\fB Name\fR or Command\fB Line \fR
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Display the command line used to start a task or the name of the associated
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program.
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You toggle between command\fI line\fR and\fI name\fR with `c', which is both
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@@ -684,7 +692,7 @@ displayed (the `c' \*(CI.)
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any truncated data.
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.TP 4
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6.\fB DATA \*(Em Data + Stack Size (KiB) \fR
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7.\fB DATA \*(Em Data + Stack Size (KiB) \fR
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The amount of private memory \fIreserved\fR by a process.
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It is also known as the Data Resident Set or DRS.
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Such memory may not yet be mapped to \*(MP (RES) but will always be
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@@ -693,7 +701,7 @@ included in the \*(MV (VIRT) amount.
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\*(XX.
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.TP 4
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7.\fB ENVIRON \*(Em Environment variables \fR
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8.\fB ENVIRON \*(Em Environment variables \fR
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Display all of the environment variables, if any, as seen by the
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respective processes.
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These variables will be displayed in their raw native order, not the
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@@ -708,26 +716,26 @@ This is especially true for this field.
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any truncated data.
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.TP 4
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8.\fB Flags \*(Em Task Flags \fR
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9.\fB Flags \*(Em Task Flags \fR
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This column represents the task's current scheduling flags which are
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expressed in hexadecimal notation and with zeros suppressed.
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These flags are officially documented in <linux/sched.h>.
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.TP 4
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9.\fB GID \*(Em Group Id \fR
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10.\fB GID \*(Em Group Id \fR
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The\fI effective\fR group ID.
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.TP 4
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10.\fB GROUP \*(Em Group Name \fR
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11.\fB GROUP \*(Em Group Name \fR
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The\fI effective\fR group name.
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.TP 4
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11.\fB LXC \*(Em Lxc Container Name \fR
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12.\fB LXC \*(Em Lxc Container Name \fR
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The name of the lxc container within which a task is running.
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If a process is not running inside a container, a dash (`\-') will be shown.
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.TP 4
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12.\fB NI \*(Em Nice Value \fR
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13.\fB NI \*(Em Nice Value \fR
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The nice value of the task.
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A negative nice value means higher priority, whereas a positive nice value
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means lower priority.
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@@ -735,19 +743,19 @@ Zero in this field simply means priority will not be adjusted in determining
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a task's dispatch-ability.
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.TP 4
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13.\fB OOMa \*(Em Out of Memory Adjustment Factor \fR
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14.\fB OOMa \*(Em Out of Memory Adjustment Factor \fR
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The value, ranging from -1000 to +1000, added to the current out of memory
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score (OOMs) which is then used to determine which task to kill when memory
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is exhausted.
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.TP 4
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14.\fB OOMs \*(Em Out of Memory Score \fR
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15.\fB OOMs \*(Em Out of Memory Score \fR
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The value, ranging from 0 to +1000, used to select task(s) to kill when memory
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is exhausted.
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Zero translates to `never kill' whereas 1000 means `always kill'.
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.TP 4
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15.\fB P \*(Em Last used \*(PU (SMP) \fR
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16.\fB P \*(Em Last used \*(PU (SMP) \fR
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A number representing the last used processor.
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In a true SMP environment this will likely change frequently since the kernel
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intentionally uses weak affinity.
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@@ -756,7 +764,7 @@ processes to change \*(PUs more often (because of the extra demand for
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\*(Pu time).
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.TP 4
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16.\fB PGRP \*(Em Process Group Id \fR
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17.\fB PGRP \*(Em Process Group Id \fR
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Every process is member of a unique process group which is used for
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distribution of signals and by terminals to arbitrate requests for their
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input and output.
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@@ -766,7 +774,7 @@ By convention, this value equals the process ID (\*(Xa PID) of the first
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member of a process group, called the process group leader.
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.TP 4
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17.\fB PID \*(Em Process Id \fR
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18.\fB PID \*(Em Process Id \fR
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The task's unique process ID, which periodically wraps, though never
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restarting at zero.
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In kernel terms, it is a dispatchable entity defined by a task_struct.
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@@ -777,11 +785,11 @@ a thread group ID for the thread group leader (\*(Xa TGID);
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and a TTY process group ID for the process group leader (\*(Xa TPGID).
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.TP 4
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18.\fB PPID \*(Em Parent Process Id \fR
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19.\fB PPID \*(Em Parent Process Id \fR
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The process ID (pid) of a task's parent.
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.TP 4
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19.\fB PR \*(Em Priority \fR
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20.\fB PR \*(Em Priority \fR
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The scheduling priority of the task.
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If you see `rt' in this field, it means the task is running
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under real time scheduling priority.
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@@ -791,7 +799,7 @@ the operating itself was not preemptible.
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And while the 2.6 kernel can be made mostly preemptible, it is not always so.
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.TP 4
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20.\fB RES \*(Em Resident Memory Size (KiB) \fR
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21.\fB RES \*(Em Resident Memory Size (KiB) \fR
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A subset of the virtual address space (VIRT) representing the non-swapped
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\*(MP a task is currently using.
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It is also the sum of the RSan, RSfd and RSsh fields.
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@@ -806,35 +814,35 @@ modified, act as a dedicated \*(MS and thus will never impact SWAP.
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\*(XX.
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.TP 4
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21.\fB RSan \*(Em Resident Anonymous Memory Size (KiB) \fR
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22.\fB RSan \*(Em Resident Anonymous Memory Size (KiB) \fR
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A subset of resident memory (RES) representing private pages not
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mapped to a file.
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.TP 4
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22.\fB RSfd \*(Em Resident File-Backed Memory Size (KiB) \fR
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23.\fB RSfd \*(Em Resident File-Backed Memory Size (KiB) \fR
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A subset of resident memory (RES) representing the implicitly shared
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pages supporting program images and shared libraries.
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It also includes explicit file mappings, both private and shared.
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.TP 4
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23.\fB RSlk \*(Em Resident Locked Memory Size (KiB) \fR
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24.\fB RSlk \*(Em Resident Locked Memory Size (KiB) \fR
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A subset of resident memory (RES) which cannot be swapped out.
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.TP 4
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24.\fB RSsh \*(Em Resident Shared Memory Size (KiB) \fR
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25.\fB RSsh \*(Em Resident Shared Memory Size (KiB) \fR
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A subset of resident memory (RES) representing the explicitly shared
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anonymous shm*/mmap pages.
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.TP 4
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25.\fB RUID \*(Em Real User Id \fR
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26.\fB RUID \*(Em Real User Id \fR
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The\fI real\fR user ID.
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.TP 4
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26.\fB RUSER \*(Em Real User Name \fR
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27.\fB RUSER \*(Em Real User Name \fR
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The\fI real\fR user name.
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.TP 4
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27.\fB S \*(Em Process Status \fR
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28.\fB S \*(Em Process Status \fR
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The status of the task which can be one of:
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\fBD\fR = uninterruptible sleep
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\fBR\fR = running
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@@ -849,7 +857,7 @@ Even without a true SMP machine, you may see numerous tasks in this state
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depending on \*(We's delay interval and nice value.
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.TP 4
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28.\fB SHR \*(Em Shared Memory Size (KiB) \fR
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29.\fB SHR \*(Em Shared Memory Size (KiB) \fR
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A subset of resident memory (RES) that may be used by other processes.
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It will include shared anonymous pages and shared file-backed pages.
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It also includes private pages mapped to files representing
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@@ -858,7 +866,7 @@ program images and shared libraries.
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\*(XX.
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.TP 4
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29.\fB SID \*(Em Session Id \fR
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30.\fB SID \*(Em Session Id \fR
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A session is a collection of process groups (\*(Xa PGRP),
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usually established by the login shell.
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A newly forked process joins the session of its creator.
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@@ -867,11 +875,11 @@ member of the session, called the session leader, which is usually the
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login shell.
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.TP 4
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30.\fB SUID \*(Em Saved User Id \fR
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31.\fB SUID \*(Em Saved User Id \fR
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The\fI saved\fR user ID.
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.TP 4
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31.\fB SUPGIDS \*(Em Supplementary Group IDs \fR
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32.\fB SUPGIDS \*(Em Supplementary Group IDs \fR
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The IDs of any supplementary group(s) established at login or
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inherited from a task's parent.
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They are displayed in a comma delimited list.
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@@ -884,7 +892,7 @@ Even so, such variable width fields could still suffer truncation.
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any truncated data.
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.TP 4
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32.\fB SUPGRPS \*(Em Supplementary Group Names \fR
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33.\fB SUPGRPS \*(Em Supplementary Group Names \fR
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The names of any supplementary group(s) established at login or
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inherited from a task's parent.
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They are displayed in a comma delimited list.
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@@ -897,24 +905,24 @@ Even so, such variable width fields could still suffer truncation.
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any truncated data.
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.TP 4
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33.\fB SUSER \*(Em Saved User Name \fR
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34.\fB SUSER \*(Em Saved User Name \fR
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The\fI saved\fR user name.
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.TP 4
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34.\fB SWAP \*(Em Swapped Size (KiB) \fR
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35.\fB SWAP \*(Em Swapped Size (KiB) \fR
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The formerly resident portion of a task's address space written
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to the \*(MS when \*(MP becomes over committed.
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\*(XX.
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.TP 4
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35.\fB TGID \*(Em Thread Group Id \fR
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36.\fB TGID \*(Em Thread Group Id \fR
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The ID of the thread group to which a task belongs.
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It is the PID of the thread group leader.
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In kernel terms, it represents those tasks that share an mm_struct.
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.TP 4
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36.\fB TIME \*(Em \*(PU Time \fR
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37.\fB TIME \*(Em \*(PU Time \fR
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Total \*(PU time the task has used since it started.
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When Cumulative mode is \*O, each process is listed with the \*(Pu
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time that it and its dead children have used.
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@@ -922,19 +930,19 @@ You toggle Cumulative mode with `S', which is both a \*(CO and an \*(CI.
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\*(XC `S' \*(CI for additional information regarding this mode.
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.TP 4
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37.\fB TIME+ \*(Em \*(PU Time, hundredths \fR
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38.\fB TIME+ \*(Em \*(PU Time, hundredths \fR
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The same as TIME, but reflecting more granularity through hundredths
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of a second.
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.TP 4
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38.\fB TPGID \*(Em Tty Process Group Id \fR
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39.\fB TPGID \*(Em Tty Process Group Id \fR
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The process group ID of the foreground process for the connected tty,
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or \-1 if a process is not connected to a terminal.
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By convention, this value equals the process ID (\*(Xa PID) of the
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process group leader (\*(Xa PGRP).
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.TP 4
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39.\fB TTY \*(Em Controlling Tty \fR
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40.\fB TTY \*(Em Controlling Tty \fR
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The name of the controlling terminal.
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This is usually the device (serial port, pty, etc.) from which the
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process was started, and which it uses for input or output.
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@@ -942,22 +950,22 @@ However, a task need not be associated with a terminal, in which case
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you'll see `?' displayed.
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.TP 4
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40.\fB UID \*(Em User Id \fR
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41.\fB UID \*(Em User Id \fR
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The\fI effective\fR user ID of the task's owner.
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.TP 4
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41.\fB USED \*(Em Memory in Use (KiB) \fR
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42.\fB USED \*(Em Memory in Use (KiB) \fR
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This field represents the non-swapped \*(MP a task is using (RES) plus
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the swapped out portion of its address space (SWAP).
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\*(XX.
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.TP 4
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42.\fB USER \*(Em User Name \fR
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43.\fB USER \*(Em User Name \fR
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The\fI effective\fR user name of the task's owner.
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.TP 4
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43.\fB VIRT \*(Em Virtual Memory Size (KiB) \fR
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44.\fB VIRT \*(Em Virtual Memory Size (KiB) \fR
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The total amount of \*(MV used by the task.
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It includes all code, data and shared libraries plus pages that have been
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swapped out and pages that have been mapped but not used.
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@@ -965,20 +973,20 @@ swapped out and pages that have been mapped but not used.
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\*(XX.
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.TP 4
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44.\fB WCHAN \*(Em Sleeping in Function \fR
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45.\fB WCHAN \*(Em Sleeping in Function \fR
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This field will show the name of the kernel function in which the task
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is currently sleeping.
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Running tasks will display a dash (`\-') in this column.
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.TP 4
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45.\fB nDRT \*(Em Dirty Pages Count \fR
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46.\fB nDRT \*(Em Dirty Pages Count \fR
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The number of pages that have been modified since they were last
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written to \*(AS.
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Dirty pages must be written to \*(AS before the corresponding physical
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memory location can be used for some other virtual page.
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.TP 4
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46.\fB nMaj \*(Em Major Page Fault Count \fR
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47.\fB nMaj \*(Em Major Page Fault Count \fR
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The number of\fB major\fR page faults that have occurred for a task.
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A page fault occurs when a process attempts to read from or write to a
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virtual page that is not currently present in its address space.
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@@ -986,7 +994,7 @@ A major page fault is when \*(AS access is involved in making that
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page available.
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.TP 4
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47.\fB nMin \*(Em Minor Page Fault count \fR
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48.\fB nMin \*(Em Minor Page Fault count \fR
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The number of\fB minor\fR page faults that have occurred for a task.
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|
|
A page fault occurs when a process attempts to read from or write to a
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|
virtual page that is not currently present in its address space.
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|
@@ -998,50 +1006,49 @@ page available.
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The number of threads associated with a process.
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.TP 4
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49.\fB nsIPC \*(Em IPC namespace \fR
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50.\fB nsIPC \*(Em IPC namespace \fR
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|
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The Inode of the namespace used to isolate interprocess communication (IPC)
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|
|
resources such as System V IPC objects and POSIX message queues.
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.TP 4
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50.\fB nsMNT \*(Em MNT namespace \fR
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51.\fB nsMNT \*(Em MNT namespace \fR
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The Inode of the namespace used to isolate filesystem mount points thus
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|
|
offering different views of the filesystem hierarchy.
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.TP 4
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51.\fB nsNET \*(Em NET namespace \fR
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52.\fB nsNET \*(Em NET namespace \fR
|
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|
The Inode of the namespace used to isolate resources such as network devices,
|
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|
|
IP addresses, IP routing, port numbers, etc.
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.TP 4
|
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52.\fB nsPID \*(Em PID namespace \fR
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|
53.\fB nsPID \*(Em PID namespace \fR
|
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|
|
The Inode of the namespace used to isolate process ID numbers
|
|
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|
|
meaning they need not remain unique.
|
|
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|
|
Thus, each such namespace could have its own `init/systemd' (PID #1) to
|
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|
|
manage various initialization tasks and reap orphaned child processes.
|
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|
.TP 4
|
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|
53.\fB nsUSER \*(Em USER namespace \fR
|
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|
54.\fB nsUSER \*(Em USER namespace \fR
|
|
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|
|
The Inode of the namespace used to isolate the user and group ID numbers.
|
|
|
|
|
Thus, a process could have a normal unprivileged user ID outside a user
|
|
|
|
|
namespace while having a user ID of 0, with full root privileges, inside
|
|
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|
|
that namespace.
|
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|
.TP 4
|
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|
|
54.\fB nsUTS \*(Em UTS namespace \fR
|
|
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|
|
55.\fB nsUTS \*(Em UTS namespace \fR
|
|
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|
|
The Inode of the namespace used to isolate hostname and NIS domain name.
|
|
|
|
|
UTS simply means "UNIX Time-sharing System".
|
|
|
|
|
|
|
|
|
|
.TP 4
|
|
|
|
|
55.\fB vMj \*(Em Major Page Fault Count Delta\fR
|
|
|
|
|
56.\fB vMj \*(Em Major Page Fault Count Delta\fR
|
|
|
|
|
The number of\fB major\fR page faults that have occurred since the
|
|
|
|
|
last update (see nMaj).
|
|
|
|
|
|
|
|
|
|
.TP 4
|
|
|
|
|
56.\fB vMn \*(Em Minor Page Fault Count Delta\fR
|
|
|
|
|
57.\fB vMn \*(Em Minor Page Fault Count Delta\fR
|
|
|
|
|
The number of\fB minor\fR page faults that have occurred since the
|
|
|
|
|
last update (see nMin).
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
.\" ......................................................................
|
|
|
|
|
.SS 3b. MANAGING Fields
|
|
|
|
|
.\" ----------------------------------------------------------------------
|
|
|
|
@@ -2321,7 +2328,6 @@ The entries in the \*(We rcfile would have a number for the `.name' element and
|
|
|
|
|
the `help' entry would identify a shell script you've written explaining what
|
|
|
|
|
those numbered selections actually mean.
|
|
|
|
|
In that way, many more choices can be made visible.
|
|
|
|
|
|
|
|
|
|
.PP
|
|
|
|
|
|
|
|
|
|
.\" ----------------------------------------------------------------------
|
|
|
|
|
Jim Warner
Craig Small