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The Lsof Test Suite Contents A. Introduction 1. Test Suite Goals 2. Not a FAQ 3. Where have the tests been tested? B. Test Methodology 1. Test Limitations 2. Test Data Base and Scripts 3. The Makefile 3.1 The CkTestDB Script 4. The Lsof Executable and LT_LSOF_PATH 5. Automated Testing C. Configure Script Participation 1. config.cc 2. config.cflags 2.1 config.cflags Contents 3. config.ldflags 4. config.xobj D. Cleaning -- Quick or Spotless E. Test Libraries 1. LTlib.c F. The Individual Tests 1. LTbasic, a Basic Lsof Test 2. LTbigf, Test Sizes and Offsets for Large (> 32 bit) Files 3. LTdnlc, Test the Kernel's Dynamic Name Lookup Cache 4. LTlock, Lock Tests 5. LTnfs, NFS Test 6. LTnlink, Link Count Test 7. LTsock, Test IPv4 Sockets 8. LTszoff, Test Sizes and Offsets for Small (< 32 bit) Files 9. LTunix, Test UNIX Domain Sockets Appendix A, Test Files Appendix B, Test Validations Appendix C, Test Failures A. Introduction =============== Lsof has an automated test suite whose components are located in the tests/ sub-directory of the lsof top-level directory. Configuring, building and testing lsof can be done with these shell commands: $ Configure -n <dialect-abbreviation> $ make $ cd tests $ make That's all there is to it! But read on for more dirty details. A.1. Test Suite Goals ===================== The lsof test suite attempts to test basic lsof features. It does not promise to test every lsof feature for every supported dialect. (That's a nearly impossible goal.) As a result, the test suite cannot promise that every lsof feature works as documented. At best the test suite gives some assurance that basic, standard and some optional lsof features work. A.2. Not a FAQ ============== One caution: this is not a frequently asked questions (FAQ) file for the lsof test suite. FAQs on the lsof test suite will be found in the one and only lsof FAQ in file 00FAQ of the lsof distribution, or on-line at: ftp://lsof.itap.purdue.edu/pub/tools/unix/lsof/FAQ A.3. Where have the tests been tested? ====================================== OK, I just said this isn't an FAQ and here comes a question and answer that looks like an FAQ. Consider it a very frequently asked question and indulge me -- let me answer it here. The lsof test suite hasn't been tested everywhere it might be possible to build lsof successfully. That "everywhere" includes dialect versions -- e.g., Solaris < 2.6 -- to which I no longer have access. On some dialect versions to which I have access, some tests won't run because the test system lacks support. In "Appendix B, Test Validations" I've tried to list where I compiled and tested the test suite and information on any tests I was unable to run. In "Appendix C, Test Failures" I list where the test suite fails and why it failed. A.4 Where are the tests? ======================== This is another FAQ whose answer is that the tests are in the tests/ sub-directory of the main lsof source directory. B. Test Methodology =================== The test suite is made up of individual C programs. Test setup is performed by the lsof Configure script itself, which writes a set of dialect configuration files in the tests/ subdirectory. (See "C. Configure Script Participation.") Each program or script performs a specialized tests. Those tests are described below in "F. The Individual Tests". Each test measures lsof functionality by putting a specific lsof command execution at the end of an in-bound (to the test) pipe. The caller asks lsof to write its results to the pipe in field output form. (See the -F option in the lsof man page.) Using an in-bound lsof pipe allows the tests to measure a great deal of lsof functionality, including as an interesting side effect, the performance of field output. Consequently, there's no special field output test. B.1. Test Limitations ===================== One limitation of the tests is that they don't measure lsof formatted output -- i.e., the output normally see when lsof is run. There are just too many variants of lsof output produced across the range of dialects where lsof runs, so field output is a more consistent way to process lsof output. But using field output does mean that the test suite doesn't check for lsof formatting problems, except in the field output itself. B.2. Test Data Base and Scripts =============================== The TestDB file contains a simple data base that describes where the tests have been validated. Entries are formed from a combination of the lines in the config.cflags file produced by the lsof Configure script. The entries can be considered "lsof dialect footprints," hereafter simply called "dialect footprints" or just "footprints." Two shell scripts support TestDB. The first, Add2TestDB, will add a footprint to TestDB. I don't recommend you use this script. Mostly it's for my use when I find that the test suite has been validated on a new dialect. It's also possible to add a footprint to TestDB by simply editing TestDB and pasting into it a copy of the footprint reported by a failed Makefile rule. I don't generally recommend this be done, either. There are Makefile rules that use (and avoid) the CkTestDB script. (See "B.3 The Makefile".) The default (i.e., "all") Makefile rule uses the CkTestDB script to look for the footprint in TestDB. If no footprint is found, the script issues a warning, displays the unfound footprint, and asks if running the test suite should continue. The "auto" Makefile rule also uses CkTestDB, but with a special call that causes CkTestDB to look in TestDB for the footprint, report it when it can't be found, and then fail. That CkTestDB failure causes the "auto" rule to fail, too. The "silent" Makefile rule doesn't use CkTestDB to look in TestDB for the footprint. It runs the standard and basic tests as silently as possible, then returns a failure or success exit code that signals the result of the running of the tests. (Use the "silent" rule carefully, because it will skip proving the tests have previously run on the dialect.) B.3. The Makefile ======================= The Makefile runs the tests in the test suite. It has these rules. all runs the basic test and the standard tests, interacting with the caller should the footprint not be found in TestDB. (This is the default rule.) auto runs the basic test and the standard tests on a previously validated system as silently as possible. The footprint must be found in TestDB for this rule to succeed. (See the "silent" rule for one that avoids checking TestDB.) This rule is designed for lsof build scripts that want a quick noiseless test to make sure what they built works as it previously did. This rule calls CkTestDB in a way that inhibits its normal go-ahead request. (See "B.2.1 The CkTestDB Script".) If CkTestDB finds the footprint and all tests succeed, this rule returns a zero exit code (success). If the footprint isn't found or if any test fails, a non-zero exit code (failure) is returned. ckDB calls the CkTestDB script to look for a footprint. If none is found, the way CkTestDB was called (See "B.3.1 The CkTestDB Script".) causes it to return a non-zero exit code (failure) to this rule, and the rule then returns a non-zero exit code (failure) itself. This rule is used by the "auto" rule. If this rule succeeds (zero exit code), the "auto" rule then uses the "silent" rule. clean removes test and compiler output. (See the "D. Cleaning -- Quick or Spotless" section.) opt runs the optional tests. optional silent runs the lsof basic and standard tests as silently as possible (as the "auto" rule does), but without using CkTestDB to look for a footprint. If all tests succeed, the rule returns a zero exit code (success). If any test fails, the rule returns a non-zero exit code (failure). Use the "silent" rule carefully, because it will skip proving the tests have previously run on the dialect. spotless does what the clean rule does and also removes the config.* files created by ../Configure. (See the "D. Cleaning -- Quick or Spotless" section.) std runs the basic test and the standard tests. standard The Makefile cleaning rules are further described in "D. Cleaning -- Quick or Spotless." B.3.1 The CkTestDB Script ========================= Some Makefile rules (e.g., "all" and "auto") use the CkTestDB script to make sure the tests have been run previously on the dialect. CkTestDB does that by looking for the dialect's footprint in TestDB. If no footprint is found, and if standard input is a TTY, CkTestDB asks for a go-ahead signal. If standard input isn't a TTY, CkTestDB aborts the test run. (See "B.2. Test Data Base and Scripts".) The Makefile "silent" rule does not call CkTestDB. use the "silent" rule carefully, because it will skip proving the tests have previously run on the dialect. B.4. The Lsof Executable and LT_LSOF_PATH ========================================= Normally the programs in the test suite use the lsof executable in their parent directory, ../lsof. Usually that lsof has just been built and testing it is the next logical step. Be careful that ../lsof has sufficient permission to access the necessary kernel resources -- e.g., /dev/kmem, /dev/mem, /proc, etc. If it doesn't the tests will fail. (The tests do check to see if they can open /dev/mem and /dev/kmem for read access if LT_KMEM is defined in config.cflags and if the path to the lsof executable is ../lsof.) Here are two possible ways you can make sure the lsof being tested has sufficient permission: 1) use chmod and chgrp to enable its running and put its path in LT_LSOF_PATH, thus disabling the check in the tests for kernel memory access; or 2) run the tests (and hence the lsof being tested) under a login that has sufficient permission -- e.g., is in a group that can read /dev/kmem. You can direct the tests to use a different lsof executable by specifying its path in the LT_LSOF_PATH environment variable. To test an lsof executable already installed in /usr/local/etc -- provided that lsof is at revision 4.63 or higher -- do this: $ LT_LSOF_PATH=/usr/local/etc/lsof $ export LT_LSOF_PATH $ cd .../lsof_<version>/tests $ make When you specify an alternate executable path via LT_LSOF_PATH, that also prevents the tests from checking to see if they have kernel memory access. B.5 Automated Testing ===================== Normally the lsof test suite is wordy and may require interaction. When you want to avoid those interferences, use the Makefile "auto" or "silent" rules. (See the description of the "auto" and "silent" rules in "B.3 The Makefile".) The footprint must be present in TestDB in order to use the "auto" rule. If it is not, the "auto" rule will fail and report the missing footprint. Footprints in TestDB proclaim that the tests have previously succeeded on the dialect. The footprint need not be present in TestDB in order to use the "silent" rule. Use the "silent" rule carefully, because it will skip proving the tests have previously run on the dialect. C. Configure Script Participation ================================= An important step in setting up the test suite is performed by the Configure script in the lsof home directory (the parent to tests/.) Configure writes four files in tests/ that describe how the tests are to be compiled, configured and loaded. The files also describe options that Configure selected that are important to the test suite. C.1. config.cc ============== This file, config.cc, contains the name of or the path to the C compiler used to compile lsof. The Makefile uses this file in place of the standard make(1) CC string with a shell in-place execution statement -- i.e., `cat config.cc`. If the LSOF_CC environment variable is supplied to the lsof Configure script, its value will appear in the config.cc file. C.2. config.cflags ================== This file, config.cflags, contains C compiler flags that Makefile uses to compile the C programs in the test suite. As with the compiler file, config.cc, the make rules incorporate the contents of this file into C compiler options with `cat config.cflags`. This file is also used by the Add2TestDB and CkTestDB shell scripts to build and match footprints. (See "B.2. Test Data Base and Scripts.") C.2.1 config.cflags Contents ============================ The config.cflags file may contain the following C compiler flags. -DLT_AIXA is present if lsof was built for AIX. It contains the AIX architecture flag. (See the lsof Configure script or dialects/aix/dlsof.h for more information on the AIX architecture flag.) -DLT_BIGF is present if lsof was built for a dialect that has large file (sizes and offsets > 32 bits). -DLT_CC is present if the lsof compiler is cc. -DLT_DIAL_<abbr> always ends in (the <abbr> part) the "canonical" -- i.e., usually the most common abbreviation by which the dialect is known. Example: -DLT_DIAL_solaris -DLT_GCC is present if the lsof compiler is gcc. -DLT_K64 is present if lsof has been built for a 64 bit kernel -DLT_KMEM is present if lsof has been built to use /dev/kmem to obtain kernel values. -DLT_VERS=<vn> contains the version number for the dialect, as used in lsof pre-processor tests. Example for Solaris 10: -DLT_VERS=100000 -DLT_VPATH is present if the dialect has the v_path member in the vnode structure (e.g., some versions of Solaris 10). The config.cflags file may also contain dialect-specific compiler flags needed to activate a specific feature on the dialect. For example, for HP-UX config.cflags might contain: -D_LARGEFILE64_SOURCE This compiler flag enables the use of large-file system library functions --e.g., open64(). The lsof Configure script stanzas for the dialects select these options. C.3. config.ldflags =================== This file, config.ldflags, contains the dialect loader flags -- i.e., the equivalent to make(1) LFLAGS -- for loading the test programs. Example for Solaris: -lsocket this adds the socket library to the loading of the lsof test programs. Example for UnixWare: -lsocket -lnsl this adds the socket and name server libraries to the loading of the lsof test programs. C.4. config.xobj ================ This file, config.xobj, contains the paths to any extra object files (.o's) that must be loaded when the test suite C programs are loaded. Like config.cc and config.cflags, it's incorporated into the loader statements of the Makefile's rules with `cat config.xobj`. Examples for DEC OSF/1 and NEXTSTEP: ../lib/snpf.o this loads the private lsof object file that contains an snprintf() function. (The DEC OSF/1 4.0 and NEXTSTEP 3.1 C libraries don't have snprintf().) D. Cleaning -- Quick or Spotless ================================ There are two Makefile rules that clean the tests/ subdirectory -- "clean" and "spotless". They cause different degrees of cleaning. clean a "quick" clean that removes compiled object files, executables and test files. It does NOT remove the configuration files that ../Configure and the config.perl rule wrote. spotless cleans out everything clean does -- plus the configuration files that ../Configure and the config.perl rule wrote. This is the rule used when `./Configure -clean` is specified. If this rule is used, `../Configure -n <abbr>` and `../make`) must be run again before the test suite can be used. E. Test Library =============== The lsof test suite provides a C library. E.1. LTlib.c ============ This is a C library of common functions used by tests. Configured at compile time by the contents of config.cflags, it uses the single header file LsofTest.h. LsofTest.h tailors its definitions to the dialect at compile time, using the LT_DIAL_* definitions in config.cflags. Two particularly useful functions in the library are: ExecLsof(), which will execute an lsof child process; and RdFromLsof(), which will read from the in-bound lsof pipe, and decode the fields into structures that are easy for C programs to process. This library is a good model for processing field output in a C program from an in-bound lsof pipe. The source for the library, LTlib.c, contains more documentation. F. The Individual Tests ======================= The individual tests are listed in this section. The listings explain what the tests do, a few errors they might report, and how to use options and environment variables to customize the tests. The test descriptions are listed in this section in alphabetical order, not in the order they are run by Makefile. The Makefile runs the tests in three groups, basic tests, standard tests, and optional tests. The default make "all" rule runs the basic and standard tests. (The "standard", "std", and "test" Makefile rules are synonyms to "all".) If the standard tests succeed, Makefile suggests running the optional tests with the "opt" (or "optional") rule. The Makefile "auto" and "silent" rules run only the basic and standard tests. They do not run or suggest you run the optional tests. The basic test: LTbasic Standard tests: LTnlink LTsock LTszoff LTunix Optional tests: LTbigf LTdnlc LTlock LTnfs The basic and standard tests should all succeed on all dialects, although LTnlink may warn that it can't perform its unlink test on an NFS file system. The optional tests may run, they may be disabled for specific dialects, or they may fail because of special resource needs -- e.g., LTbigf will run only on UNIX dialects where it knows how to handle files whose lengths exceed 32 bits, and LTnfs needs access to an NFS file system mounted from a remote NFS server. Tests that need special resources usually provide a hint about the resources when they fail. Information about special resource needs may also be found in the following sections about the individual tests. G.1. LTbasic, a Basic Lsof Test =============================== This is the basic lsof test. If it doesn't run, it's not likely any other tests will run, either. Hence, if it fails, no Makefile rule runs any other tests. This test uses lsof to locate files in the lsof process, including current working directory, the lsof executable, and the /dev/kmem open file. Finding the lsof executable may not be possible on AIX if lsof was compiled without support for its -X option. Finding /dev/kmem use by lsof is only possible on dialects where lsof uses /dev/kmem. The -DLT_KMEM define indicates that. Run this test: $ ./LTbasic Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.2. LTbigf, Test Sizes and Offsets for Large (> 32 bit) Files ============================================================== This is a test in the optional test group. This test is effective only when ../Configure has put -DLT_BIGF in config.cflags. Without that definition this test simply reports that the dialect doesn't support large files. That report is accompanied by a successful test exit code, so that the runner of the test (e.g., the Makefile) won't believe the test failed. When a dialect does support large files, the test attempts to create a file that looks very large -- e.g., has a length as reported by ls(1) of 0x140000000 bytes. However, the file really has only a small amount of data in it, the rest of the file consists of a large standard UNIX file system "hole." By default the test file is named config.LTbigf<PID>, where PID is the Process ID of the LTbigf process. When that file is not on a file system enabled for large files, or when the process that runs LTbigf can't create a big file, LTbigf will report an error. The error will be accompanied by hints that the -p option may need to be used to define a path where the test can write a large file, or the process ulimit file block size may need to be raised -- e.g., to "unlimited." LTbigf can't test file offset reporting on Linux kernels below 2.6.22, because the /proc file systems of those kernels don't make file offsets available to lsof. Run this test: $ ./LTbigf [-p <path>] Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.3. LTdnlc, Test the Kernel's Dynamic Name Lookup Cache ======================================================== This is a test in the optional test group. This test asks lsof to locate the current working directory of its own process and report the path it has assembled from the components it found in the kernel's Dynamic Name Lookup Cache (DNLC) or via other dialect-specific methods. (E.g., Linux, HP-UX 11.11, and some Tru64 UNIX versions have private name lookup methods.) The test checks what lsof reports as the current working directory path for any missing components and counts the number of full paths returned. (Symbolic link complications prevent testing for exact path matches.) The test is repeated. If full paths are returned at least half the time, the test considers itself successful. This test can't be run on AIX, because lsof can't access the DNLC there. It can't be run on Apple Darwin versions below 8.0, either, because insufficiently reliable DNLC information is available there. This test may fail on other dialects when the file system -- e.g., NFS. /tmp, loopback -- doesn't fully participate in the dialect's DNLC. Run this test: $ ./LTdnlc Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.4. LTlock, Lock Tests ======================= This is a test in the optional test group. This test uses flock() and fcntl() to set and clear file locks, and measures lsof's ability to report them. The choice of system lock call is based on the dialect. (There are LT_DIAL_* pre-processor tests in LTlock.c.) This test can't be run on an NFS client file system, because NFS lock information is kept on the server. Lsof on the client can't see that server kernel data. By default the test attempts to create a file named config.LTlock<PID>, where PID is the Process ID of the locking test process. It uses lsof to determine if the file is on a client NFS file system. If it is, the test aborts, hinting that the -p option can be used to specify a non-client-NFS test file path. This test can't be run on Darwin, because insufficient file system lock information is available to lsof there. Run this test: $ ./LTlock [-p <path>] Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.6. LTnfs, NFS Test ==================== This is a test in the optional test group. This test verifies that lsof can locate files mounted on a client NFS system from an NFS server. By default it creates a test file, config.LTnfs<PID>, where PID is the Process ID of the test process. The test then uses lsof to find the file on an NFS file system. If lsof can't find the file the test warns that the test file might not be on an NFS file system and hints that the -p option may be used to specify the path of an NFS file, provided the test can have read access to it there. The test warning also states that the file at the path specified with -p must be a regular file, not a directory. This test can't be run on Darwin versions below 8.0, because insufficient NFS file information is available to lsof there. Run this test: $ ./LTnfs [-p <path>] Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.7. LTnlink, Link Count Test ============================= This is a test in the standard test group. The test checks lsof's reporting of link count (nlink in UNIX argot.) It creates a test file in the current working directory named config.LTnlink<PID>, where PID is the Process ID of the test process. It then uses stat(2) and lsof to measure the link count of the file. If LTnlink creates the test file in the current working directory and it is on an NFS file system, LTnlink won't be able to perform one section of its test. In that section the test file is unlinked so its link count will be zero and lsof is asked to find it among the set of files whose link counts are zero. When an NFS file is unlinked its link count isn't reduced until the last open instance is closed on either the NFS clients or the NFS. That's a consequence of NFS statelessness and leads to the occasional presence of files with names of the form .nfsxxxx. Should LTnlink find its test file on an NFS file system, it disables the unlink section of its tests and issues a warning. It also issues a hint that the test file path can be named via the -p option to give a test file location that isn't on an NFS file system. This test can't be run on Darwin, because insufficient file system link count information is available to lsof there. Because some UNIX dialects delay the reporting of a link count update after a file has been unlinked, LTnlink may not get its expected response from lsof for a while after the test file has been unlinked. In that cause LTnlink may delay for up to a minute, calling lsof once every two seconds and displaying a "waiting for link count update: ..." message. Some file systems -- e.g., ZFS on Solaris 11 -- don't allow LTnlink to unlink its test file, because LTnlink has the file open. LTnlink explains that failure and suggests that it be run with path of the "-p path" option set to a file on /tmp. See 00FAQ for more information. Run this test: $ ./LTnlink [-p <path>] Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.7. LTsock, Test IPv4 Sockets ============================== This is a test in the standard test group. This test uses lsof to locate open IPv4 socket files that the test has created itself. The test opens a server socket, then forks a child process to connect to that socket. After both are running, the test uses lsof to find the open socket files at their known host and port addresses. Run this test: $ ./LTsock Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.8. LTszoff, Test Sizes and Offsets for Small (< 32 bit) Files =============================================================== This is a test in the standard test group. This test checks lsof's reporting of file size and offset for small (< 32 bits) files. It creates a test file in the current working directory named config.LTszoff<PID>. PID is the Process ID of the test process. LTszoff can't test file offset reporting on Linux kernels below 2.6.22, because the /proc file systems of those kernels don't make file offsets available to lsof. Run this test: $ ./LTszoff [-p <path>] Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) G.9. LTunix, Test UNIX Domain Sockets ====================================== This is a test in the standard test group. This test checks lsof's reporting of UNIX domain sockets. The test creates a pair of UNIX domain sockets and uses bind(2) to associate the file system names config.LT0U<PID> (client) and config.LT1U<PID> (server) with them. (PID is the test process ID.) The test then uses lsof to find the two open UNIX domain socket files. Run this test: $ ./LTunix Environment variables: LT_LSOF_PATH defines the path to the lsof executable. (The default is ../lsof.) Appendix A, Test Files ====================== These files may be created by suite tests. Created ./tests Name by Test Use ============ ======= === config.LTbifg** LTbigf to test lsof's large file size and offset reporting config.LTlock* LTlock for locking tests config.LTnfs* LTnfs for NFS tests config.LTnlink* LTnlink for link count tests config.LTszoff* LTszoff for small file size and and offset reporting config.LT[01]U* LTunix two UNIX domain sockets, used to determine if lsof can report their open instances properly Appendix B, Test Validations ============================ This appendix lists the UNIX dialects and their versions where I have validated the test suite. The list indicates the particular tests I was unable to run, mostly LTnfs because the test systems I used had no NFS file systems mounted. The information in the following table is encoded in a test data base file, TestDB, as footprints, using the tests compiler options written to config.cflags by the lsof Configure script. See "B.2. Test Data Base and Scripts" for more information on the test data base, footprints, and the scripts that support them. UNIX Dialect Dialect Description Untested Tests ======= =================== ============== AIX 4.3.3, Power, cc 5.1, Power-32, cc 5.1, Power-32, gcc 5.1, Power-64, cc 5.2, Power-32, cc 5.2, Power-32, gcc 5.2, Power-64, cc 5.2, Power-64, gcc 5.3, Power-64, cc Darwin 1.4, 5.5, 6.x, 7.x gcc Darwin lsof doesn't have adequate support to allow the LTbigf, Ltdnlc, LTlock, LTnfs, and LTnlink tests to run. 8.0, gcc Darwin lsof doesn't have adequate support to allow the LTbigf, LTlock and LTnlink tests to run. 9.0, gcc Darwin lsof doesn't have adequate support to allow the LTlock test to run. 10.0, gcc Darwin lsof doesn't have adequate support to allow the LTlock test to run. 11.0, gcc Darwin lsof doesn't have adequate support to allow the LTlock test to run. FreeBSD 4.5, i386, gcc 4.6, i386, gcc 4.7, i386, gcc 4.8, i386, gcc 4.9, i386, gcc 4.10, i386 gcc 5.0, Alpha, gcc 5.0, Sparc, gcc 5.0, i386, gcc 5.1, Alpha, gcc 5.1, Amd64, gcc 5.1, Sparc, gcc 5.1, i386, gcc 5.2, i386, gcc 5.2, Alpha, gcc 5.2, Amd64, gcc 5.2, Sparc, gcc 5.3, Alpha, gcc 5.4, Alpha, gcc 5.5, Alpha, gcc 6.0, Alpha, gcc 6.0, Amd64, gcc 6.0, Sparc, gcc 6.1, i386, gcc 6.4, i386, gcc 7.0 Alpha, gcc 7.0 Amd64, gcc 7.1 Amd64, gcc 7.2 Amd64, gcc 7.3 Amd64, gcc 7.4 Amd64, gcc 8.0 Amd64, gcc 8.2 Amd64, gcc 8.3 Amd64, gcc 9.0 Amd64, gcc 10.0 Amd64, gcc DEC OSF/1 4.0, cc HP-UX 10.20, cc LTbigf 10.20, gcc (1) LTbigf 11.00-32, ANSI-C LTbigf, LTnfs 11.00-64, ANSI-C 11.11, ANSI-C 11.23, ANSI-C Linux 2.4.12-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.18-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.21-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.23-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.24-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.25-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.26-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.27-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.28-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.29-686 LTbigf, no offset tests LTszoff, no offset tests 2.4.30-686 LTbigf, no offset tests LTszoff, no offset tests 2.6.1-rc2 LTbigf, no offset tests LTszoff, no offset tests 2.6.18-686 LTbigf, no offset tests LTszoff, no offset tests 2.6.22-686 (Note: this Linux kernel supplies file offsets to lsof.) 2.6.32-686 (Note: this Linux kernel supplies file offsets to lsof.) 2.6.38-686 NEXTSTEP 3.1, gcc LTnfs NetBSD 1.4.1, Alpha, gcc LTnfs 1.5x, x86, gcc LTnfs 1.6x, Alpha, gcc LTnfs 1.6x, x86, gcc LTnfs 2.0x, alpha, gcc LTnfs 2.0x, sparc64, gcc LTnfs 2.0x, x86, gcc LTnfs 2.99.9, x86, gcc LTnfs 2.99.10, x86, gcc LTnfs 2.99.11, x86, gcc LTnfs 2.99.12, x86, gcc LTnfs 3.99., x86, gcc LTnfs OpenBSD 3.0, gcc 3.1, gcc 3.2, gcc 3.3, gcc 3.4, gcc 3.5, gcc 3.6, gcc 3.7, gcc 3.9, gcc OPENSTEP 4.2, gcc LTnfs OSR 5.04, cc LTnfs 5.06, cc LTnfs Solaris 2.6, cc LTnfs 2.6, gcc LTnfs 7-32, cc 7-32, gcc LTnfs 8-32, cc 8-32, gcc 8-64, cc 8-64, gcc 9-64, Beta-Refresh, cc 9-64, Beta-Refresh, gcc 9-64, FCS, cc 9-64, FCS, gcc 10-32, i86pc, gcc 10-32, i86pc, cc 10-64, Sparc, cc 10-64, Sparc, gcc 11-64, Amd64, cc Tru64 UNIX 5.0, cc Tru64 UNIX 5.0, cc 5.1, cc UnixWare 7.1.1, NSC, cc LTnfs 7.1.3, cc 7.1.4, cc If you are able to run the test suite on dialect versions other than the ones listed above, please send e-mail to <abe@purdue.edu>, indicating the dialect version where you were able to run the test suite. Please send me the footprint formed by CkTestDB, or run the Add2TestDB script and send me the footprint it reports. If you encounter problems compiling the tests or running them on a dialect version listed above, please send e-mail to <abe@purdue.edu>, naming the dialect version and providing the output from the lsof Configure script and make operation. 1) John Dzubera did the HP-UX 10.20 gcc testing and provided its footprint. Appendix C, Test Failures ========================= I was unable to make the test suite run on the following dialects. UNIX Dialect and Description Failure =============== ======= HP-UX 11-64, gcc 64 bit gcc 3.0 didn't compile the LTsock test correctly on my 64 bit HP-UX 11 test system. Vic Abell <abe@purdue.edu> April 10, 2012