e4e21ee1b2
The new MIB service implements the sysctl(2) system call which, as we adopt more NetBSD code, is an increasingly important part of the operating system API. The system call is implemented in the new service rather than as part of an existing service, because it will eventually call into many other services in order to gather data, similar to ProcFS. Since the sysctl(2) functionality is used even by init(8), the MIB service is added to the boot image. MIB stands for Management Information Base, and the MIB service should be seen as a knowledge base of management information. The MIB service implementation of the sysctl(2) interface is fairly complete; it incorporates support for both static and dynamic nodes and imitates many NetBSD-specific quirks expected by userland. The patch also adds trace(1) support for the new system call, and adds a new test, test87, which tests the fundamental operation of the MIB service rather thoroughly. Change-Id: I4766b410b25e94e9cd4affb72244112c2910ff67
183 lines
4.3 KiB
Bash
Executable File
183 lines
4.3 KiB
Bash
Executable File
#!/bin/sh
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# Are we running as root?
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unset ROOT
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if [ "`id -u`" = 0 ]
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then ROOT=yes
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fi
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# Initialization
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PATH=:/bin:/usr/bin:/sbin
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export PATH
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rm -rf DIR* # remove any old junk lying around
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passed=`expr 0` # count number of tests run correctly
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failed=`expr 0` # count number of tests that failed
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skipped=`expr 0` # count number of tests that were skipped
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total=`expr 0` # total number of tests tried
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badones= # list of tests that failed
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export USENETWORK # set to "yes" for test48+82 to use the network
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# In the lists below, shell scripts should be listed without ".sh" suffix
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# Programs that require setuid
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setuids="test11 test33 test43 test44 test46 test56 test60 test61 test65 \
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test69 test73 test74 test78 test83 test85 test87"
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# Scripts that require to be run as root
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rootscripts="testisofs testvnd testrelpol"
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alltests="1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 \
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21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 \
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41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 \
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61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 \
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81 82 83 84 85 86 87 sh1 sh2 interp mfs isofs vnd"
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tests_no=`expr 0`
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# If root, make sure the setuid tests have the correct permissions
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# and make the dir bin-owned.
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if [ "$ROOT" ]
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then /usr/sbin/chown bin .
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/usr/sbin/chown root ${setuids}
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chmod 4755 ${setuids}
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fi
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tests=$alltests
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# Are we given any args? If so, we might have to give
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# or change our testlist
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while getopts 'lt:T' opt
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do
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case $opt in
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l) echo "$alltests"
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exit 0
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;;
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t) tests="$OPTARG"
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;;
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T) tapmode=yes
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diagprefix="# "
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;;
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?) echo "Usage: run [-l] [-t testlist] [-T]" >&2
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echo " -l: list tests, exit" >&2
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echo " -t: execute given set of tests, default: all" >&2
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echo " -T: produce TAP-format output" >&2
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exit 1
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esac
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done
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# Count tests
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for i in `echo $tests`; do
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if [ -x ./test$i -o -x ./test${i}.sh ]; then
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tests_no=`expr $tests_no + 1`
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fi
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done
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if [ $tests_no -eq 0 ]
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then
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echo "No test binaries found. did you compile?"
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exit 1
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fi
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# Print tests list whenever user asks for TAP mode. It is up
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# to the caller to make sure it makes sense, i.e. he knows what it
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# represents.
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if [ "$tapmode" ]
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then echo "1..$tests_no"
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fi
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if [ "$tests" = "$alltests" ]
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then # Print test welcome message
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if [ ! "$tapmode" ]; then clear; fi
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echo -n "${diagprefix}Running POSIX compliance test suite. "
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echo "There are $tests_no tests in total."
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echo "${diagprefix}"
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fi
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# Provide an argument for test63
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ARGS_63=`pwd`/mod
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runtest() {
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i=$1
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ARG=$2
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# setuid doesn't work with scripts, so we can only run those as root
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if echo "$rootscripts" | tr ' ' '\n' | grep "^test${i}\$" >/dev/null
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then needroot=1
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else needroot=0
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fi
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# depending on where we are, scripts might have a .sh suffix or not
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if [ -x test${i}.sh ]
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then NAME=./test${i}.sh
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else NAME=./test$i
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fi
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if [ "$ROOT" ]
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then
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if [ $needroot -eq 1 ]
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then $NAME $ARG || return 1
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else su bin -c "$NAME $ARG" || return 1
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fi
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else
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if [ $needroot -eq 1 ]
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then echo "skipping test$i, not root." >&2 && return 0
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else $NAME $ARG || return 1
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fi
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fi
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return 0
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}
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# Run all the tests, keeping track of who failed.
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for i in `echo $tests`
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do
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if [ -x ./test$i -o -x ./test${i}.sh ]
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then
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total=`expr $total + 1`
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FAIL=0
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ARG=`eval echo "\\${ARGS_$i}"`
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if [ "$tapmode" ]
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then out=out.$$
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rm -f $out
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runtest $i $ARG >$out 2>&1
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else runtest $i $ARG
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fi
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FAIL=$?
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if [ $FAIL -eq 0 ]
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then if [ "$tapmode" ]
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then echo "ok test $i"
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fi
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passed=`expr $passed + 1`
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else if [ "$tapmode" ]
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then echo "not ok test $i"
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fi
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failed=`expr $failed + 1`
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badones=`echo $badones " " $i`
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fi
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if [ "$tapmode" ]
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then cat $out | sed "s/^/$diagprefix/"
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rm -f $out
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fi
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else
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echo "${diagprefix}warning: skipping test$i"
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skipped=`expr $skipped + 1`
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fi
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done
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# Print results of the tests.
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if [ "$tests" = "$alltests" ]
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then echo "${diagprefix}"
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if test $total = $passed
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then echo "${diagprefix}All $passed tests completed without error ($skipped skipped)."
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else echo "${diagprefix}Testing completed. Score: $passed passed, $failed failed, skipped $skipped"
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echo "${diagprefix}The following tests failed: $badones"
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fi
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fi
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# if any test failed return an error
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if [ $failed -gt 0 ]
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then
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exit 1
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fi
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# echo " "
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