coreutils/init.cfg
Pádraig Brady ece7157933 maint: update all copyright year number ranges
Run "make update-copyright" and then...

* gnulib: Update to latest with copyright year adjusted.
* tests/init.sh: Sync with gnulib to pick up copyright year.
* bootstrap: Likewise.
* tests/sample-test: Adjust to use the single most recent year.
2018-01-01 15:57:22 +00:00

727 lines
20 KiB
INI

# This file is sourced by init.sh, *before* its initialization.
# Copyright (C) 2010-2018 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 $pid
}
# Does trap support signal names?
# Old versions of ash did not.
require_trap_signame_()
{
(trap '' CHLD) || skip_ 'requires trap with signal name support'
}
# Does kill support sending signal to whole group?
# dash 0.5.8 at least does not.
require_kill_group_()
{
kill -0 -- -1 || skip_ 'requires kill with group signalling support'
}
# Return nonzero if the specified path is on a file system for
# which FIEMAP support exists. Note some file systems (like ext3 and btrfs)
# only support FIEMAP for files, not directories.
fiemap_capable_()
{
if ! python < /dev/null; then
warn_ 'fiemap_capable_: python missing: assuming not fiemap capable'
return 1
fi
python "$abs_srcdir"/tests/fiemap-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.$$
dd bs=1 seek=128K of=$t < /dev/null 2> /dev/null
set x $(du -sk $t)
kb_size=$2
rm -f $t
if test $kb_size -ge 128; then
skip_ 'this file system does not support sparse files'
fi
}
# Compile a shared lib using the GCC options for doing so.
# Pass input and output file as parameters respectively.
# Any other optional parmeters are passed to $CC.
gcc_shared_()
{
local in=$1
local out=$2
shift 2 || return 1
$CC -Wall -shared --std=gnu99 -fPIC -O2 $* "$in" -o "$out" -ldl
}
# There are a myriad of ways to build shared libs,
# so we only consider running tests requiring shared libs,
# on platforms that support building them as follows.
require_gcc_shared_()
{
gcc_shared_ '-' 'd.so' -xc < /dev/null 2>&1 \
|| skip_ '$CC -shared ... failed to build a shared lib'
rm -f d.so
}
mkfifo_or_skip_()
{
test $# = 1 || framework_failure_
if ! mkfifo "$1"; then
# Make an exception of this case -- usually we interpret framework-creation
# failure as a test failure. However, in this case, when running on a SunOS
# system using a disk NFS mounted from OpenBSD, the above fails like this:
# mkfifo: cannot make fifo 'fifo-10558': Not owner
skip_ 'unable to create a fifo'
fi
}
# Disable the current test if the working directory seems to have
# the setgid bit set.
skip_if_setgid_()
{
setgid_tmpdir=setgid-$$
(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_