mirror of https://github.com/mkerrisk/man-pages
679 lines
19 KiB
Groff
679 lines
19 KiB
Groff
.\" Copyright (c) 2006, 2008 by Michael Kerrisk <mtk.manpages@gmail.com>
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.\"
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.\" %%%LICENSE_START(VERBATIM)
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.\" Permission is granted to make and distribute verbatim copies of this
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.\" manual provided the copyright notice and this permission notice are
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.\" preserved on all copies.
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.\"
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.\" Permission is granted to copy and distribute modified versions of this
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.\" manual under the conditions for verbatim copying, provided that the
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.\" entire resulting derived work is distributed under the terms of a
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.\" permission notice identical to this one.
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.\"
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.\" Since the Linux kernel and libraries are constantly changing, this
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.\" manual page may be incorrect or out-of-date. The author(s) assume no
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.\" responsibility for errors or omissions, or for damages resulting from
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.\" the use of the information contained herein. The author(s) may not
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.\" have taken the same level of care in the production of this manual,
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.\" which is licensed free of charge, as they might when working
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.\" professionally.
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.\"
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.\" Formatted or processed versions of this manual, if unaccompanied by
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.\" the source, must acknowledge the copyright and authors of this work.
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.\" %%%LICENSE_END
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.\"
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.TH CORE 5 2019-10-10 "Linux" "Linux Programmer's Manual"
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.SH NAME
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core \- core dump file
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.SH DESCRIPTION
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The default action of certain signals is to cause a process to terminate
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and produce a
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.IR "core dump file" ,
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a disk file containing an image of the process's memory at
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the time of termination.
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This image can be used in a debugger (e.g.,
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.BR gdb (1))
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to inspect the state of the program at the time that it terminated.
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A list of the signals which cause a process to dump core can be found in
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.BR signal (7).
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.PP
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A process can set its soft
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.B RLIMIT_CORE
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resource limit to place an upper limit on the size of the core dump file
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that will be produced if it receives a "core dump" signal; see
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.BR getrlimit (2)
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for details.
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.PP
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There are various circumstances in which a core dump file is
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not produced:
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.IP * 3
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The process does not have permission to write the core file.
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(By default, the core file is called
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.IR core
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or
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.IR core.pid ,
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where
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.I pid
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is the ID of the process that dumped core,
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and is created in the current working directory.
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See below for details on naming.)
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Writing the core file fails if the directory in which
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it is to be created is nonwritable,
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or if a file with the same name exists and
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is not writable
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or is not a regular file
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(e.g., it is a directory or a symbolic link).
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.IP *
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A (writable, regular) file with the same name as would be used for the
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core dump already exists, but there is more than one hard link to that
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file.
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.IP *
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The filesystem where the core dump file would be created is full;
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or has run out of inodes; or is mounted read-only;
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or the user has reached their quota for the filesystem.
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.IP *
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The directory in which the core dump file is to be created does
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not exist.
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.IP *
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The
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.B RLIMIT_CORE
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(core file size) or
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.B RLIMIT_FSIZE
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(file size) resource limits for the process are set to zero; see
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.BR getrlimit (2)
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and the documentation of the shell's
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.I ulimit
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command
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.RI ( limit
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in
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.BR csh (1)).
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.IP *
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The binary being executed by the process does not have read
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permission enabled.
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.IP *
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The process is executing a set-user-ID (set-group-ID) program
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that is owned by a user (group) other than the real user (group)
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ID of the process,
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or the process is executing a program that has file capabilities (see
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.BR capabilities (7)).
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(However, see the description of the
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.BR prctl (2)
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.B PR_SET_DUMPABLE
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operation, and the description of the
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.I /proc/sys/fs/suid_dumpable
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.\" FIXME . Perhaps relocate discussion of /proc/sys/fs/suid_dumpable
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.\" and PR_SET_DUMPABLE to this page?
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file in
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.BR proc (5).)
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.IP *
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.I /proc/sys/kernel/core_pattern
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is empty and
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.I /proc/sys/kernel/core_uses_pid
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contains the value 0.
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(These files are described below.)
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Note that if
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.I /proc/sys/kernel/core_pattern
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is empty and
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.I /proc/sys/kernel/core_uses_pid
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contains the value 1,
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core dump files will have names of the form
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.IR .pid ,
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and such files are hidden unless one uses the
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.BR ls (1)
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.I \-a
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option.
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.IP *
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(Since Linux 3.7)
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.\" commit 046d662f481830e652ac34cd112249adde16452a
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The kernel was configured without the
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.BR CONFIG_COREDUMP
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option.
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.PP
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In addition,
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a core dump may exclude part of the address space of the process if the
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.BR madvise (2)
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.B MADV_DONTDUMP
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flag was employed.
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.PP
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On systems that employ
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.BR systemd (1)
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as the
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.I init
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framework, core dumps may instead be placed in a location determined by
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.BR systemd (1).
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See below for further details.
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.\"
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.SS Naming of core dump files
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By default, a core dump file is named
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.IR core ,
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but the
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.I /proc/sys/kernel/core_pattern
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file (since Linux 2.6 and 2.4.21)
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can be set to define a template that is used to name core dump files.
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The template can contain % specifiers which are substituted
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by the following values when a core file is created:
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.PP
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.RS 4
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.PD 0
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.TP 4
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%%
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a single % character
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.TP
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%c
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core file size soft resource limit of crashing process (since Linux 2.6.24)
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.TP
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%d
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.\" Added in git commit 12a2b4b2241e318b4f6df31228e4272d2c2968a1
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dump mode\(emsame as value returned by
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.BR prctl (2)
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.B PR_GET_DUMPABLE
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(since Linux 3.7)
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.TP
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%e
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executable filename (without path prefix)
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.TP
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%E
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pathname of executable,
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with slashes (\(aq/\(aq) replaced by exclamation marks (\(aq!\(aq)
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(since Linux 3.0).
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.TP
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%g
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(numeric) real GID of dumped process
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.TP
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%h
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hostname (same as \fInodename\fP returned by \fBuname\fP(2))
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.TP
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%i
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TID of thread that triggered core dump,
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as seen in the PID namespace in which the thread resides
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.\" commit b03023ecbdb76c1dec86b41ed80b123c22783220
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(since Linux 3.18)
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.TP
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%I
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TID of thread that triggered core dump, as seen in the initial PID namespace
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.\" commit b03023ecbdb76c1dec86b41ed80b123c22783220
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(since Linux 3.18)
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.TP
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%p
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PID of dumped process,
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as seen in the PID namespace in which the process resides
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.TP
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%P
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.\" Added in git commit 65aafb1e7484b7434a0c1d4c593191ebe5776a2f
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PID of dumped process, as seen in the initial PID namespace
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(since Linux 3.12)
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.TP
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%s
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number of signal causing dump
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.TP
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%t
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time of dump, expressed as seconds since the
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Epoch, 1970-01-01 00:00:00 +0000 (UTC)
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.TP
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%u
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(numeric) real UID of dumped process
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.PD
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.RE
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.PP
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A single % at the end of the template is dropped from the
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core filename, as is the combination of a % followed by any
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character other than those listed above.
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All other characters in the template become a literal
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part of the core filename.
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The template may include \(aq/\(aq characters, which are interpreted
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as delimiters for directory names.
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The maximum size of the resulting core filename is 128 bytes (64 bytes
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in kernels before 2.6.19).
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The default value in this file is "core".
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For backward compatibility, if
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.I /proc/sys/kernel/core_pattern
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does not include
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.I %p
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and
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.I /proc/sys/kernel/core_uses_pid
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(see below)
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is nonzero, then .PID will be appended to the core filename.
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.PP
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Paths are interpreted according to the settings that are active for the
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crashing process.
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That means the crashing process's mount namespace (see
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.BR mount_namespaces (7)),
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its current working directory (found via
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.BR getcwd (2)),
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and its root directory (see
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.BR chroot (2)).
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.PP
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Since version 2.4, Linux has also provided
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a more primitive method of controlling
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the name of the core dump file.
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If the
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.I /proc/sys/kernel/core_uses_pid
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file contains the value 0, then a core dump file is simply named
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.IR core .
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If this file contains a nonzero value, then the core dump file includes
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the process ID in a name of the form
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.IR core.PID .
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.PP
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Since Linux 3.6,
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.\" 9520628e8ceb69fa9a4aee6b57f22675d9e1b709
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if
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.I /proc/sys/fs/suid_dumpable
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is set to 2 ("suidsafe"), the pattern must be either an absolute pathname
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(starting with a leading \(aq/\(aq character) or a pipe, as defined below.
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.SS Piping core dumps to a program
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Since kernel 2.6.19, Linux supports an alternate syntax for the
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.I /proc/sys/kernel/core_pattern
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file.
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If the first character of this file is a pipe symbol (\fB|\fP),
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then the remainder of the line is interpreted as the command-line for
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a user-space program (or script) that is to be executed.
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.PP
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Since kernel 5.3.0,
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.\" commit 315c69261dd3fa12dbc830d4fa00d1fad98d3b03
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the pipe template is split on spaces into an argument list
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.I before
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the template parameters are expanded.
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In earlier kernels, the template parameters are expanded first and
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the resulting string is split on spaces into an argument list.
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This means that in earlier kernels executable names added by the
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.I %e
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and
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.I %E
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template parameters could get split into multiple arguments.
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So the core dump handler needs to put the executable names as the last
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argument and ensure it joins all parts of the executable name using spaces.
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Executable names with multiple spaces in them are not correctly represented
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in earlier kernels,
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meaning that the core dump handler needs to use mechanisms to find
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the executable name.
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.PP
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Instead of being written to a disk file, the core dump is given as
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standard input to the program.
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Note the following points:
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.IP * 3
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The program must be specified using an absolute pathname (or a
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pathname relative to the root directory, \fI/\fP),
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and must immediately follow the '|' character.
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.IP *
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The command-line arguments can include any of
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the % specifiers listed above.
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For example, to pass the PID of the process that is being dumped, specify
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.I %p
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in an argument.
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.IP *
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The process created to run the program runs as user and group
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.IR root .
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.IP *
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Running as
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.I root
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does not confer any exceptional security bypasses.
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Namely, LSMs (e.g., SELinux) are still active and may prevent the handler
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from accessing details about the crashed process via
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.IR /proc/[pid] .
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.IP *
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The program pathname is interpreted with respect to the initial mount namespace
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as it is always executed there.
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It is not affected by the settings
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(e.g., root directory, mount namespace, current working directory)
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of the crashing process.
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.IP *
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The process runs in the initial namespaces
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(PID, mount, user, and so on)
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and not in the namespaces of the crashing process.
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One can utilize specifiers such as
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.I %P
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to find the right
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.I /proc/[pid]
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directory and probe/enter the crashing process's namespaces if needed.
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.IP *
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The process starts with its current working directory
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as the root directory.
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If desired, it is possible change to the working directory of
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the dumping process by employing the value provided by the
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.I %P
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specifier to change to the location of the dumping process via
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.IR /proc/[pid]/cwd .
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.IP *
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Command-line arguments can be supplied to the
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program (since Linux 2.6.24),
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delimited by white space (up to a total line length of 128 bytes).
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.IP *
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The
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.B RLIMIT_CORE
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limit is not enforced for core dumps that are piped to a program
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via this mechanism.
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.\"
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.SS /proc/sys/kernel/core_pipe_limit
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When collecting core dumps via a pipe to a user-space program,
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it can be useful for the collecting program to gather data about
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the crashing process from that process's
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.IR /proc/[pid]
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directory.
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In order to do this safely,
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the kernel must wait for the program collecting the core dump to exit,
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so as not to remove the crashing process's
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.IR /proc/[pid]
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files prematurely.
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This in turn creates the
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possibility that a misbehaving collecting program can block
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the reaping of a crashed process by simply never exiting.
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.PP
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Since Linux 2.6.32,
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.\" commit a293980c2e261bd5b0d2a77340dd04f684caff58
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the
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.I /proc/sys/kernel/core_pipe_limit
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can be used to defend against this possibility.
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The value in this file defines how many concurrent crashing
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processes may be piped to user-space programs in parallel.
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If this value is exceeded, then those crashing processes above this value
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are noted in the kernel log and their core dumps are skipped.
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.PP
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A value of 0 in this file is special.
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It indicates that unlimited processes may be captured in parallel,
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but that no waiting will take place (i.e., the collecting
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program is not guaranteed access to
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.IR /proc/<crashing-PID> ).
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The default value for this file is 0.
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.\"
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.SS Controlling which mappings are written to the core dump
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Since kernel 2.6.23, the Linux-specific
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.IR /proc/[pid]/coredump_filter
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file can be used to control which memory segments are written to the
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core dump file in the event that a core dump is performed for the
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process with the corresponding process ID.
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.PP
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The value in the file is a bit mask of memory mapping types (see
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.BR mmap (2)).
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If a bit is set in the mask, then memory mappings of the
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corresponding type are dumped; otherwise they are not dumped.
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The bits in this file have the following meanings:
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.PP
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.PD 0
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.RS 4
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.TP
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bit 0
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Dump anonymous private mappings.
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.TP
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bit 1
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Dump anonymous shared mappings.
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.TP
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bit 2
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Dump file-backed private mappings.
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.TP
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bit 3
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Dump file-backed shared mappings.
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.\" file-backed shared mappings of course also update the underlying
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.\" mapped file.
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.TP
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bit 4 (since Linux 2.6.24)
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Dump ELF headers.
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.TP
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bit 5 (since Linux 2.6.28)
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Dump private huge pages.
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.TP
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bit 6 (since Linux 2.6.28)
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Dump shared huge pages.
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.TP
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bit 7 (since Linux 4.4)
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.\" commit ab27a8d04b32b6ee8c30c14c4afd1058e8addc82
|
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Dump private DAX pages.
|
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.TP
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bit 8 (since Linux 4.4)
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.\" commit ab27a8d04b32b6ee8c30c14c4afd1058e8addc82
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Dump shared DAX pages.
|
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.RE
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.PD
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.PP
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By default, the following bits are set: 0, 1, 4 (if the
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.B CONFIG_CORE_DUMP_DEFAULT_ELF_HEADERS
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kernel configuration option is enabled), and 5.
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This default can be modified at boot time using the
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.I coredump_filter
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boot option.
|
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.PP
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The value of this file is displayed in hexadecimal.
|
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(The default value is thus displayed as 33.)
|
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.PP
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Memory-mapped I/O pages such as frame buffer are never dumped, and
|
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virtual DSO
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|
.RB ( vdso (7))
|
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pages are always dumped, regardless of the
|
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.I coredump_filter
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value.
|
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.PP
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A child process created via
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.BR fork (2)
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inherits its parent's
|
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.I coredump_filter
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value;
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the
|
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.I coredump_filter
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value is preserved across an
|
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.BR execve (2).
|
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.PP
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|
It can be useful to set
|
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.I coredump_filter
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in the parent shell before running a program, for example:
|
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.PP
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|
.in +4n
|
|
.EX
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|
.RB "$" " echo 0x7 > /proc/self/coredump_filter"
|
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.RB "$" " ./some_program"
|
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.EE
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.in
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.PP
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|
This file is provided only if the kernel was built with the
|
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.B CONFIG_ELF_CORE
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configuration option.
|
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.\"
|
|
.SS Core dumps and systemd
|
|
On systems using the
|
|
.BR systemd (1)
|
|
.I init
|
|
framework, core dumps may be placed in a location determined by
|
|
.BR systemd (1).
|
|
To do this,
|
|
.BR systemd (1)
|
|
employs the
|
|
.I core_pattern
|
|
feature that allows piping core dumps to a program.
|
|
One can verify this by checking whether core dumps are being piped to the
|
|
.BR systemd\-coredump (8)
|
|
program:
|
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.PP
|
|
.in +4n
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|
.EX
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|
$ \fBcat /proc/sys/kernel/core_pattern\fP
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|/usr/lib/systemd/systemd\-coredump %P %u %g %s %t %c %e
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.EE
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.in
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.PP
|
|
In this case, core dumps will be placed in the location configured for
|
|
.BR systemd\-coredump (8),
|
|
typically as
|
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.BR lz4 (1)
|
|
compressed files in the directory
|
|
.IR /var/lib/systemd/coredump/ .
|
|
One can list the core dumps that have been recorded by
|
|
.BR systemd\-coredump (8)
|
|
using
|
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.BR coredumpctl (1):
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.PP
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.in +2n
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.EX
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$ \fBcoredumpctl list | tail -5\fP
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Wed 2017-10-11 22:25:30 CEST 2748 1000 1000 3 present /usr/bin/sleep
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Thu 2017-10-12 06:29:10 CEST 2716 1000 1000 3 present /usr/bin/sleep
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Thu 2017-10-12 06:30:50 CEST 2767 1000 1000 3 present /usr/bin/sleep
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Thu 2017-10-12 06:37:40 CEST 2918 1000 1000 3 present /usr/bin/cat
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Thu 2017-10-12 08:13:07 CEST 2955 1000 1000 3 present /usr/bin/cat
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.EE
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.in
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.PP
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The information shown for each core dump includes the date and time
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of the dump, the PID, UID, and GID of the dumping process,
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the signal number that caused the core dump,
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and the pathname of the executable that was being run by the dumped process.
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Various options to
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.BR coredumpctl (1)
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allow a specified coredump file to be pulled from the
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.BR systemd (1)
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location into a specified file.
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For example, to extract the core dump for PID 2955 shown above to a file named
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.IR core
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in the current directory, one could use:
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.PP
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.in +4n
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.EX
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$ \fBcoredumpctl dump 2955 \-o core\fP
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.EE
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.in
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.PP
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For more extensive details, see the
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.BR coredumpctl (1)
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manual page.
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.PP
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To disable the
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.BR systemd (1)
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mechanism that archives core dumps, restoring to something more like
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traditional Linux behavior, one can set an override for the
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.BR systemd (1)
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mechanism, using something like:
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.PP
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.in +2n
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.EX
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# echo "kernel.core_pattern=core.%p" > /etc/sysctl.d/50\-coredump.conf
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# /lib/systemd/systemd\-sysctl
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.EE
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.in
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.PP
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.\"
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.SH NOTES
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The
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.BR gdb (1)
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.I gcore
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command can be used to obtain a core dump of a running process.
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.PP
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In Linux versions up to and including 2.6.27,
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.\" Changed with commit 6409324b385f3f63a03645b4422e3be67348d922
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if a multithreaded process (or, more precisely, a process that
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shares its memory with another process by being created with the
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.B CLONE_VM
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flag of
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.BR clone (2))
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dumps core, then the process ID is always appended to the core filename,
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unless the process ID was already included elsewhere in the
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filename via a
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.I %p
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specification in
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.IR /proc/sys/kernel/core_pattern .
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(This is primarily useful when employing the obsolete
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LinuxThreads implementation,
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where each thread of a process has a different PID.)
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.\" Always including the PID in the name of the core file made
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.\" sense for LinuxThreads, where each thread had a unique PID,
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.\" but doesn't seem to serve any purpose with NPTL, where all the
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.\" threads in a process share the same PID (as POSIX.1 requires).
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.\" Probably the behavior is maintained so that applications using
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.\" LinuxThreads continue appending the PID (the kernel has no easy
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.\" way of telling which threading implementation the user-space
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.\" application is using). -- mtk, April 2006
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.SH EXAMPLE
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The program below can be used to demonstrate the use of the
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pipe syntax in the
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.I /proc/sys/kernel/core_pattern
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file.
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The following shell session demonstrates the use of this program
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(compiled to create an executable named
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.IR core_pattern_pipe_test ):
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.PP
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.in +4n
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.EX
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.RB "$" " cc \-o core_pattern_pipe_test core_pattern_pipe_test.c"
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.RB "$" " su"
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Password:
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.RB "#" " echo \(dq|$PWD/core_pattern_pipe_test %p \
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UID=%u GID=%g sig=%s\(dq > \e"
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.B " /proc/sys/kernel/core_pattern"
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.RB "#" " exit"
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.RB "$" " sleep 100"
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.BR "^\e" " # type control-backslash"
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Quit (core dumped)
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.RB "$" " cat core.info"
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argc=5
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argc[0]=</home/mtk/core_pattern_pipe_test>
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argc[1]=<20575>
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argc[2]=<UID=1000>
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argc[3]=<GID=100>
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argc[4]=<sig=3>
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Total bytes in core dump: 282624
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.EE
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.in
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.SS Program source
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\&
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.EX
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/* core_pattern_pipe_test.c */
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#define _GNU_SOURCE
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#include <sys/stat.h>
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#include <fcntl.h>
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#include <limits.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#define BUF_SIZE 1024
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int
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main(int argc, char *argv[])
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{
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int tot, j;
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ssize_t nread;
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char buf[BUF_SIZE];
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FILE *fp;
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char cwd[PATH_MAX];
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/* Change our current working directory to that of the
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crashing process */
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snprintf(cwd, PATH_MAX, "/proc/%s/cwd", argv[1]);
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chdir(cwd);
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/* Write output to file "core.info" in that directory */
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fp = fopen("core.info", "w+");
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if (fp == NULL)
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exit(EXIT_FAILURE);
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/* Display command\-line arguments given to core_pattern
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pipe program */
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fprintf(fp, "argc=%d\en", argc);
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for (j = 0; j < argc; j++)
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fprintf(fp, "argc[%d]=<%s>\en", j, argv[j]);
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/* Count bytes in standard input (the core dump) */
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tot = 0;
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while ((nread = read(STDIN_FILENO, buf, BUF_SIZE)) > 0)
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tot += nread;
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fprintf(fp, "Total bytes in core dump: %d\en", tot);
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fclose(fp);
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exit(EXIT_SUCCESS);
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}
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.EE
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.SH SEE ALSO
|
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.BR bash (1),
|
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.BR coredumpctl (1),
|
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.BR gdb (1),
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|
.BR getrlimit (2),
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.BR mmap (2),
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.BR prctl (2),
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.BR sigaction (2),
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.BR elf (5),
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.BR proc (5),
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.BR pthreads (7),
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.BR signal (7),
|
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.BR systemd\-coredump (8)
|