coreutils/init.cfg
Paul Eggert d60b2922ff doc: modernize usage of “disk” and “core”
In documentation and comments, don’t assume that secondary storage
devices are disk devices.  Similarly, don’t assume that main memory
uses magnetic cores, which became obsolete in the 1970s.
* src/du.c (usage):
* src/ls.c (usage):
* src/shred.c (usage): Reword to avoid “disk” in usage messages.
2021-07-28 12:30:12 -07:00

758 lines
20 KiB
INI

# This file is sourced by init.sh, *before* its initialization.
# Copyright (C) 2010-2021 Free Software Foundation, Inc.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
# This goes hand in hand with the "exec 9>&2;" in tests/Makefile.am's
# TESTS_ENVIRONMENT definition.
stderr_fileno_=9
# Having an unsearchable directory in PATH causes execve to fail with EACCES
# when applied to an unresolvable program name, contrary to the desired ENOENT.
# Avoid the problem by rewriting PATH to exclude unsearchable directories.
# Also, if PATH lacks /sbin and/or /usr/sbin, append it/them.
sanitize_path_()
{
# FIXME: remove double quotes around $IFS when all tests use init.sh.
# They constitute a work-around for a bug in FreeBSD 8.1's /bin/sh.
local saved_IFS="$IFS"
IFS=:
set -- $PATH
IFS=$saved_IFS
local d d1
local colon=
local new_path=
for d in "$@"; do
test -z "$d" && d1=. || d1=$d
if ls -d "$d1/." > /dev/null 2>&1; then
new_path="$new_path$colon$d"
colon=':'
fi
done
for d in /sbin /usr/sbin ; do
case ":$new_path:" in
*:$d:*) ;;
*) new_path="$new_path:$d" ;;
esac
done
PATH=$new_path
export PATH
}
getlimits_()
{
eval $(getlimits)
test "$INT_MAX" || fatal_ "running getlimits"
}
require_no_default_acl_()
{
if getfacl --version < /dev/null > /dev/null 2>&1; then
getfacl "$1" | grep '^default:' && skip_ 'Default ACL detected'
else
ls -ld "$1" | grep '.........+' && skip_ 'ACL detected'
fi
}
require_acl_()
{
getfacl --version < /dev/null > /dev/null 2>&1 \
&& setfacl --version < /dev/null > /dev/null 2>&1 \
|| skip_ "This test requires getfacl and setfacl."
id -u bin > /dev/null 2>&1 \
|| skip_ "This test requires a local user named bin."
}
is_local_dir_()
{
test $# = 1 || framework_failure_
df --local "$1" >/dev/null 2>&1
}
require_mount_list_()
{
local mount_list_fail='cannot read table of mounted file systems'
df --local 2>&1 | grep -F "$mount_list_fail" >/dev/null &&
skip_ "$mount_list_fail"
}
dump_mount_list_()
{
cat /proc/self/mountinfo ||
cat /proc/self/mounts ||
cat /proc/mounts ||
cat /etc/mtab
}
require_local_dir_()
{
require_mount_list_
is_local_dir_ . ||
skip_ "This test must be run on a local file system."
}
require_selinux_()
{
# When in a chroot of an SELinux-enabled system, but with a mock-simulated
# SELinux-*disabled* system, recognize that SELinux is disabled system wide:
grep 'selinuxfs$' /proc/filesystems > /dev/null \
|| skip_ "this system lacks SELinux support"
# Independent of whether SELinux is enabled system-wide,
# the current file system may lack SELinux support.
# Also the current build may have SELinux support disabled.
case $(ls -Zd .) in
'? .'|'unlabeled .')
test -z "$CONFIG_HEADER" \
&& framework_failure_ 'CONFIG_HEADER not defined'
grep '^#define HAVE_SELINUX_SELINUX_H 1' "$CONFIG_HEADER" > /dev/null \
&& selinux_missing_="(file) system" || selinux_missing_="build"
skip_ "this $selinux_missing_ lacks SELinux support"
;;
esac
}
# Return the SELinux type component if available
get_selinux_type() { ls -Zd "$1" | sed -n 's/.*:\(.*_t\)[: ].*/\1/p'; }
# Whether SELinux Multi Level Security is enabled
mls_enabled_() {
sestatus 2>&1 |
grep 'Policy MLS status:.*enabled' > /dev/null
}
# Skip this test if we're not in SELinux "enforcing" mode.
require_selinux_enforcing_()
{
require_selinux_
test "$(getenforce)" = Enforcing \
|| skip_ "This test is useful only with SELinux in Enforcing mode."
}
require_smack_()
{
grep 'smackfs$' /proc/filesystems > /dev/null \
|| skip_ "this system lacks SMACK support"
test "$(ls -Zd .)" != '? .' \
|| skip_ "this file system lacks SMACK support"
}
require_openat_support_()
{
# Skip this test if your system has neither the openat-style functions
# nor /proc/self/fd support with which to emulate them.
test -z "$CONFIG_HEADER" \
&& framework_failure_ 'CONFIG_HEADER not defined'
_skip=yes
grep '^#define HAVE_OPENAT' "$CONFIG_HEADER" > /dev/null && _skip=no
test -d /proc/self/fd && _skip=no
if test $_skip = yes; then
skip_ 'this system lacks openat support'
fi
}
# Return true if command runs with the
# ulimit specified in the first argument
ulimit_supported_()
{
local v
v="$1"
shift
(
# Try to disable core dumps which may
# occur with memory constraints
trap '' SEGV; ulimit -c 0;
ulimit -v $v && "$@"
) >/dev/null 2>&1
}
# Determine the minimum required VM limit to run the given command.
# Output that value to stdout ... to be used by the caller.
# Return 0 in case of success, and a non-Zero value otherwise.
get_min_ulimit_v_()
{
local v
local page_size
# Increase result by this amount to avoid alignment issues
page_size=$(getconf PAGESIZE || echo 4096)
page_size=$(($page_size / 1024))
for v in $( seq 5000 5000 50000 ); do
if ulimit_supported_ $v "$@"; then
local prev_v
prev_v=$v
for v in $( seq $(($prev_v-1000)) -1000 1000 ); do
ulimit_supported_ $v "$@" ||
{
ret_v=$((prev_v + $page_size))
echo $ret_v
return 0
}
prev_v=$v
done
fi
done
# The above did not find a working limit. Echo a very small number - just
# in case the caller does not handle the non-Zero return value.
echo 1; return 1
}
require_readable_root_()
{
test -r / || skip_ "/ is not readable"
}
# Skip the current test if strace is not available or doesn't work
# with the named syscall. Usage: require_strace_ unlink
require_strace_()
{
test $# = 1 || framework_failure_
strace -V < /dev/null > /dev/null 2>&1 ||
skip_ 'no strace program'
strace -qe "$1" echo > /dev/null 2>&1 ||
skip_ 'strace -qe "'"$1"'" does not work'
# On some linux/sparc64 systems, strace works fine on 32-bit executables,
# but prints only one line of output for every 64-bit executable.
strace -o log-help ls --help >/dev/null || framework_failure_
n_lines_help=$(wc -l < log-help)
rm -f log-help
if test $n_lines_help = 0 || test $n_lines_help = 1; then
skip_ 'strace produces no more than one line of output'
fi
}
# Skip the current test if valgrind doesn't work,
# which could happen if not installed,
# or hasn't support for the built architecture,
# or hasn't appropriate error suppressions installed etc.
require_valgrind_()
{
valgrind --error-exitcode=1 true 2>/dev/null ||
skip_ "requires a working valgrind"
}
# Skip the current test if setfacl doesn't work on the current file system,
# which could happen if not installed, or if ACLs are not supported by the
# kernel or the file system, or are turned off via mount options.
#
# Work around the following two issues:
#
# 1) setfacl maps ACLs into file permission bits if on "noacl" file systems.
#
# On file systems which do not support ACLs (e.g. ext4 mounted with -o noacl),
# setfacl operates on the regular file permission bits, and only fails if the
# given ACL spec does not fit into there. Thus, to test if ACLs really work
# on the current file system, pass an ACL spec which can't be mapped that way.
# "Default" ACLs (-d) seem to fulfill this requirement.
#
# 2) setfacl only invokes the underlying system call if the ACL would change.
#
# If the given ACL spec would not change the ACLs on the file, then setfacl
# does not invoke the underlying system call - setxattr(). Therefore, to test
# if setting ACLs really works on the current file system, call setfacl twice
# with conflictive ACL specs.
require_setfacl_()
{
local d='acltestdir_'
mkdir $d || framework_failure_
local f=0
setfacl -d -m user::r-x $d \
&& setfacl -d -m user::rwx $d \
|| f=1
rm -rf $d || framework_failure_
test $f = 0 \
|| skip_ "setfacl does not work on the current file system"
}
# Require a controlling input 'terminal'.
require_controlling_input_terminal_()
{
have_input_tty=yes
tty -s || have_input_tty=no
test -t 0 || have_input_tty=no
if test "$have_input_tty" = no; then
skip_ 'requires controlling input terminal
This test must have a controlling input "terminal", so it may not be
run via "batch", "at", or "ssh". On some systems, it may not even be
run in the background.'
fi
}
require_built_()
{
skip_=no
for i in "$@"; do
case " $built_programs " in
*" $i "*) ;;
*) echo "$i: not built" 1>&2; skip_=yes ;;
esac
done
test $skip_ = yes && skip_ "required program(s) not built"
}
require_file_system_bytes_free_()
{
local req=$1
local expr=$(stat -f --printf "$req / %S <= %a" .)
$AWK "BEGIN{ exit !($expr) }" \
|| skip_ "this test needs at least $req bytes of free space"
}
uid_is_privileged_()
{
# Make sure id -u succeeds.
my_uid=$(id -u) \
|| { echo "$0: cannot run 'id -u'" 1>&2; return 1; }
# Make sure it gives valid output.
case $my_uid in
0) ;;
*[!0-9]*)
echo "$0: invalid output ('$my_uid') from 'id -u'" 1>&2
return 1 ;;
*) return 1 ;;
esac
}
get_process_status_()
{
sed -n '/^State:[ ]*\([[:alpha:]]\).*/s//\1/p' /proc/$1/status
}
# Convert an ls-style permission string, like drwxr----x and -rw-r-x-wx
# to the equivalent chmod --mode (-m) argument, (=,u=rwx,g=r,o=x and
# =,u=rw,g=rx,o=wx). Ignore ACLs.
rwx_to_mode_()
{
case $# in
1) rwx=$1;;
*) echo "$0: wrong number of arguments" 1>&2
echo "Usage: $0 ls-style-mode-string" 1>&2
return;;
esac
case $rwx in
[ld-][rwx-][rwx-][rwxsS-][rwx-][rwx-][rwxsS-][rwx-][rwx-][rwxtT-]) ;;
[ld-][rwx-][rwx-][rwxsS-][rwx-][rwx-][rwxsS-][rwx-][rwx-][rwxtT-][+.]) ;;
*) echo "$0: invalid mode string: $rwx" 1>&2; return;;
esac
# Perform these conversions:
# S s
# s xs
# T t
# t xt
# The 'T' and 't' ones are only valid for 'other'.
s='s/S/@/;s/s/x@/;s/@/s/'
t='s/T/@/;s/t/x@/;s/@/t/'
u=$(echo $rwx|sed 's/^.\(...\).*/,u=\1/;s/-//g;s/^,u=$//;'$s)
g=$(echo $rwx|sed 's/^....\(...\).*/,g=\1/;s/-//g;s/^,g=$//;'$s)
o=$(echo $rwx|sed 's/^.......\(...\).*/,o=\1/;s/-//g;s/^,o=$//;'$s';'$t)
echo "=$u$g$o"
}
# Set the global variable stty_reversible_ to a space-separated list of the
# reversible settings from stty.c. stty_reversible_ also starts and ends
# with a space.
stty_reversible_init_()
{
# Pad start with one space for the first option to match in query function.
stty_reversible_=' '$(perl -lne '/^ *{"(.*?)",.*\bREV\b/ and print $1' \
"$abs_top_srcdir"/src/stty.c | tr '\n' ' ')
# Ensure that there are at least 62, i.e., so we're alerted if
# reformatting the source empties the list.
test 62 -le $(echo "$stty_reversible_"|wc -w) \
|| framework_failure_ "too few reversible settings"
}
# Test whether $1 is one of stty's reversible options.
stty_reversible_query_()
{
case $stty_reversible_ in
'')
framework_failure_ "stty_reversible_init_() not called?";;
*" $1 "*)
return 0;;
*)
return 1;;
esac
}
skip_if_()
{
case $1 in
root) skip_ must be run as root ;;
non-root) skip_ must be run as non-root ;;
*) ;; # FIXME?
esac
}
very_expensive_()
{
if test "$RUN_VERY_EXPENSIVE_TESTS" != yes; then
skip_ 'very expensive: disabled by default
This test is very expensive, so it is disabled by default.
To run it anyway, rerun make check with the RUN_VERY_EXPENSIVE_TESTS
environment variable set to yes. E.g.,
env RUN_VERY_EXPENSIVE_TESTS=yes make check
or use the shortcut target of the toplevel Makefile,
make check-very-expensive
'
fi
}
expensive_()
{
if test "$RUN_EXPENSIVE_TESTS" != yes; then
skip_ 'expensive: disabled by default
This test is relatively expensive, so it is disabled by default.
To run it anyway, rerun make check with the RUN_EXPENSIVE_TESTS
environment variable set to yes. E.g.,
env RUN_EXPENSIVE_TESTS=yes make check
or use the shortcut target of the toplevel Makefile,
make check-expensive
'
fi
}
# Test whether we can run our just-built root owned rm,
# i.e., that $NON_ROOT_USERNAME has access to the build directory.
nonroot_has_perm_()
{
require_built_ chroot
local rm_version=$(
chroot --skip-chdir --user=$NON_ROOT_USERNAME / env PATH="$PATH" \
rm --version |
sed -n '1s/.* //p'
)
case ":$rm_version:" in
:$PACKAGE_VERSION:) ;;
*) return 1;;
esac
}
require_root_()
{
uid_is_privileged_ || skip_ "must be run as root"
NON_ROOT_USERNAME=${NON_ROOT_USERNAME=nobody}
NON_ROOT_GID=${NON_ROOT_GID=$(id -g $NON_ROOT_USERNAME)}
# When the current test invokes chroot, call nonroot_has_perm_
# to check for a common problem.
grep '^[ ]*chroot' "../$0" \
&& { nonroot_has_perm_ \
|| skip_ "user $NON_ROOT_USERNAME lacks execute permissions"; }
}
skip_if_root_() { uid_is_privileged_ && skip_ "must be run as non-root"; }
# Set 'groups' to a space-separated list of at least two groups
# of which the user is a member.
require_membership_in_two_groups_()
{
test $# = 0 || framework_failure_
groups=${COREUTILS_GROUPS-$( (id -G || /usr/xpg4/bin/id -G) 2>/dev/null)}
case "$groups" in
*' '*) ;;
*) skip_ 'requires membership in two groups
this test requires that you be a member of more than one group,
but running '\''id -G'\'' either failed or found just one. If you really
are a member of at least two groups, then rerun this test with
COREUTILS_GROUPS set in your environment to the space-separated list
of group names or numbers. E.g.,
env COREUTILS_GROUPS='\''users cdrom'\'' make check
'
;;
esac
}
# Is /proc/$PID/status supported?
require_proc_pid_status_()
{
sleep 2 &
local pid=$!
sleep .5
grep '^State:[ ]*[S]' /proc/$pid/status > /dev/null 2>&1 ||
skip_ "/proc/$pid/status: missing or 'different'"
kill $pid
}
# Does trap support signal names?
# Old versions of ash did not.
require_trap_signame_()
{
(trap '' CHLD) || skip_ 'requires trap with signal name support'
}
# Does kill support sending signal to whole group?
# dash 0.5.8 at least does not.
require_kill_group_()
{
kill -0 -- -1 || skip_ 'requires kill with group signalling support'
}
# Return nonzero if the specified path is on a file system for
# which SEEK_DATA support exists.
seek_data_capable_()
{
{ python3 < /dev/null && PYTHON_=python3; } ||
{ python < /dev/null && PYTHON_=python; }
if test x"$PYTHON_" = x; then
warn_ 'seek_data_capable_: python missing: assuming not SEEK_DATA capable'
return 1
fi
$PYTHON_ "$abs_srcdir"/tests/seek-data-capable "$@"
}
# Skip the current test if "." lacks d_type support.
require_dirent_d_type_()
{
python < /dev/null \
|| skip_ python missing: assuming no d_type support
python "$abs_srcdir"/tests/d_type-check \
|| skip_ requires d_type support
}
# Skip the current test if we lack Perl.
require_perl_()
{
: ${PERL=perl}
$PERL -e 'use warnings' > /dev/null 2>&1 \
|| skip_ 'configure did not find a usable version of Perl'
}
# Does the current (working-dir) file system support sparse files?
require_sparse_support_()
{
test $# = 0 || framework_failure_
# Test whether we can create a sparse file.
# For example, on Darwin6.5 with a file system of type hfs, it's not possible.
# NTFS requires 128K before a hole appears in a sparse file.
t=sparse.$$
dd bs=1 seek=128K of=$t < /dev/null 2> /dev/null
set x $(du -sk $t)
kb_size=$2
rm -f $t
if test $kb_size -ge 128; then
skip_ 'this file system does not support sparse files'
fi
}
# Libraries needed when we compile a shared library.
gcc_shared_libs_=
# Compile a shared lib using the GCC options for doing so.
# Pass input and output file as parameters respectively.
# Any other optional parmeters are passed to $CC.
gcc_shared_()
{
local in=$1
local out=$2
shift 2 || return 1
$CC -Wall -shared --std=gnu99 -fPIC -O2 $* "$in" -o "$out" $gcc_shared_libs_
}
# There are a myriad of ways to build shared libs,
# so we only consider running tests requiring shared libs,
# on platforms that support building them as follows.
require_gcc_shared_()
{
# Try two different values for gcc_shared_libs_.
gcc_shared_libs_='-ldl'
if gcc_shared_ '-' 'd.so' -xc < /dev/null 2>&1; then
:
else
gcc_shared_libs_=
if gcc_shared_ '-' 'd.so' -xc < /dev/null 2>&1; then
:
else
skip_ '$CC -shared ... failed to build a shared lib'
fi
fi
rm -f d.so
}
mkfifo_or_skip_()
{
test $# = 1 || framework_failure_
if ! mkfifo "$1"; then
# Make an exception of this case -- usually we interpret framework-creation
# failure as a test failure. However, in this case, when running on a SunOS
# system using a file system NFS mounted from OpenBSD, the above fails like
# this:
# mkfifo: cannot make fifo 'fifo-10558': Not owner
skip_ 'unable to create a fifo'
fi
}
trap_sigpipe_or_skip_()
{
(trap '' PIPE && yes | :) 2>&1 | grep -qF 'Broken pipe' ||
skip_ 'trapping SIGPIPE is not supported'
}
require_bash_as_SHELL_()
{
if bash --version >/dev/null 2>&1; then
SHELL='bash'
else
skip_ 'bash is required'
fi
}
# Disable the current test if the working directory seems to have
# the setgid bit set.
skip_if_setgid_()
{
setgid_tmpdir=setgid-$$
(umask 77; mkdir $setgid_tmpdir)
perms=$(stat --printf %A $setgid_tmpdir)
rmdir $setgid_tmpdir
case $perms in
drwx------);;
drwxr-xr-x);; # Windows98 + DJGPP 2.03
*) skip_ 'this directory has the setgid bit set';;
esac
}
# Skip if files are created with a different group to the current user
# This can happen due to a setgid dir, or by some other mechanism on OS X:
# https://unix.stackexchange.com/q/63865
# https://bugs.gnu.org/14024#41
skip_if_nondefault_group_()
{
touch grp.$$
gen_ug=$(stat -c '%u:%g' grp.$$)
rm grp.$$
test "$gen_ug" = "$(id -ru):$(id -rg)" ||
skip_ 'Files are created with a different gid'
}
skip_if_mcstransd_is_running_()
{
test $# = 0 || framework_failure_
# When mcstransd is running, you'll see only the 3-component
# version of file-system context strings. Detect that,
# and if it's running, skip this test.
__ctx=$(stat --printf='%C\n' .) || framework_failure_
case $__ctx in
*:*:*:*) __ctx_ok=1 ;; # four components is ok
*:*:*) # three components is ok too if there is no MLS
mls_enabled_ || __ctx_ok=1 ;;
esac
test "$__ctx_ok" ||
skip_ "unexpected context '$__ctx'; turn off mcstransd"
}
# Skip the current test if umask doesn't work as usual.
# This test should be run in the temporary directory that ends
# up being removed via the trap commands.
working_umask_or_skip_()
{
umask 022
touch file1 file2
chmod 644 file2
perms=$(ls -l file1 file2 | sed 's/ .*//' | uniq)
rm -f file1 file2
case $perms in
*'
'*) skip_ 'your build directory has unusual umask semantics'
esac
}
# Retry a function requiring a sufficient delay to _pass_
# using a truncated exponential backoff method.
# Example: retry_delay_ dd_reblock_1 .1 6
# This example will call the dd_reblock_1 function with
# an initial delay of .1 second and call it at most 6 times
# with a max delay of 3.2s (doubled each time), or a total of 6.3s
# Note ensure you do _not_ quote the parameter to GNU sleep in
# your function, as it may contain separate values that sleep
# needs to accumulate.
# Further function arguments will be forwarded to the test function.
retry_delay_()
{
local test_func=$1
local init_delay=$2
local max_n_tries=$3
shift 3 || return 1
local attempt=1
local num_sleeps=$attempt
local time_fail
while test $attempt -le $max_n_tries; do
local delay=$($AWK -v n=$num_sleeps -v s="$init_delay" \
'BEGIN { print s * n }')
"$test_func" "$delay" "$@" && { time_fail=0; break; } || time_fail=1
attempt=$(expr $attempt + 1)
num_sleeps=$(expr $num_sleeps '*' 2)
done
test "$time_fail" = 0
}
# Call this with a list of programs under test immediately after
# sourcing init.sh.
print_ver_()
{
require_built_ "$@"
if test "$VERBOSE" = yes; then
local i
for i in $*; do
env $i --version
done
fi
}
# Are we running on GNU/Hurd?
require_gnu_()
{
test "$(uname)" = GNU \
|| skip_ 'not running on GNU/Hurd'
}
sanitize_path_