README.freebsd

Installing from ports or via pkg
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

You can install Valgrind using either

pkg install devel/valgrind

or alternatively from ports (if installed)

cd /usr/ports/devel/valgrind && make install clean

devel/valgrind is updated with official releases of Valgrind, normally
in April and October each year. There is an alternative port,
devel/valgrind-devel which occasionally gets updated from the latest
Valgrind source. If you want to have the latest port, check on
https://www.freshports.org/ to see which is the most recent. If you
want to have the very latest version, you will need to build a copy
from source. See README for instructions on getting the source with git.


Building Valgrind
~~~~~~~~~~~~~~~~~

Install ports for autotools, gmake and python.

$ sh autogen.sh
$ ./configure --prefix=/where/ever
$ gmake
$ gmake install

If you are using a jail for building, make sure that it is configured so that
"uname -r" returns a string that matches the pattern "XX.Y-*" where XX is the
major version (12, 13, 14 ...) and Y is the minor version (0, 1, 2, 3).

Known Limitations (June 2022)

0. Be aware that if you use a wrapper script and run Valgrind on the wrapper
   script Valgrind may hit restrictions if the wrapper script runs any
   Capsicum enabled applications. Examples of Capsicum enabled applications
   are echo, basename, tee, uniq and wc. It is recommended that you either
   avoid these applications or that you run Valgrind directly on your test
   application.
1. There are some limitations when running Valgrind on code that was compiled
   with clang.  These issues are not present with code compiled with GCC.
   a) There may be missing source information concerning variables due
      to DWARF extensions used by GCC.
   b) Code that uses OpenMP will generate spurious errors.
2. vgdb invoker, which uses ptrace, may cause system calls to be
   interrupted. As an example, if the debuggee seems to have be
   stuck and you press Ctrl-C in gdb the debuggee may execute
   one more statement before stopping and returning control to
   gdb.

Notes for Developers
~~~~~~~~~~~~~~~~~~~~

See README_DEVELOPERS, README_MISSING_SYSCALL_OR_IOCTL and docs/*
for more general information for developers.

0. Adding syscalls.

When adding syscalls, you need to look at the manpage and also syscalls.master
(online at
https://github.com/freebsd/freebsd/blob/master/sys/kern/syscalls.master
and for 32bit
https://github.com/freebsd/freebsd/blob/master/sys/compat/freebsd32/syscalls.master

and if you installed the src package there should also be

/usr/src/sys/kern/syscalls.master
and
/usr/src/sys/compat/freebsd32/syscalls.master)

syscalls.master is particularly useful for seeing quickly whether parameters
are inputs or outputs.

The syscall wrappers can vary from trivial to difficult. Fortunately, many are
either trivial (no arguments) or easy (Valgrind just needs to know what memory
is being read or written). Some syscalls, such as those involving process
creation and termination, signals and memory mapping require deeper interaction
with Valgrind.

When you add syscalls you will need to modify several files
   a) include/vki/vki-scnums-freebsd.h
      This file contains one #define for each syscall. The _NR_ prefix (Linux
      style) is used rather than SYS_ for compatibility with the rest of the
      Valgrind source.
   b) coregrind/m_syswrap/priv_syswrap-freebsd.h
      This uses the DECL_TEMPLATE macro to generate declarations for the syscall
      before and after wrappers.
   c) coregrind/m_syswrap/syswrap-freebsd.c
      This is where the bulk of the code resides. Toward the end of the file
      the BSDX_/BSDXY macros are used to generate entries in the table of
      syscalls. BSDX_ is used for wrappers that only have a 'before', BSDXY
      if both wrappers are required. In general, syscalls that have no arguments
      or only input arguments just need a BSDX_ macro (before only). Syscalls
      with output arguments need a BSDXY macro (before and after).
   d) If the syscall uses 64bit arguments (long long) then instead of putting
      the wrapper definitions in syswrap-freebsd.c there will be two kinds of
      definition. A 32bit version with split 64bit arguments for x86 in
      syswrap-x86-freebsd.c and 64bit versions without any splitting for amd64
      and arm64 in syswrap-amd64-freebsd.c/syswrap-arm64-freebsd.c.
      Each long long needs to be split into two ARGs in the x86 version.

The PRE (before) wrapper
------------------------

Each PRE wrapper always contains the following two macro calls

PRINT. This outputs the syscall name and argument values when Valgrind is
executed with
--trace-syscalls=yes

PRE_READ_REGX. This macro lets Valgrind know about the number and types of the
syscall arguments which allows Valgrind to check that they are initialized.
X is the number of arguments. It is best that the argument names match
the man page, but they must match the types and number of arguments in
syscalls.master. Occasionally there are differences between the two.

If the syscall takes pointers to memory there will be one of the following for
each pointer argument.

PRE_MEM_RASCIIZ for NULL terminated ascii strings.

PRE_MEM_READ for pointers to structures or arrays that are read.

PRE_MEM_WRITE for pointers to structures or arrays that are written.

As a rule, the definitions of structures are copied into vki-freebsd.h
with the vki- prefix. [vki - Valgrind kernel interface; this was done
historically to protect against discrepancies between user include
structure definitions and kernel definitions on Linux].

The POST (after) wrapper
------------------------

These are much easier.

They just contain a POST_MEM_WRITE macro for each output argument.

1. Frequent causes of problems

- New _umtx_op codes. Valgrind will print "WARNING: _umtx_op unsupported value".
  See syswrap-freebsd.c and add new cases for the new codes.
- Additions to auxv. Depending on the entry it may need to be simply copied
  from the host to the guest, it may need to be modified for the guest or
  it may need to be ignored. See initimg-freebsd.c.
- Versioned ioctls. ioctls such as CAMIOCOMMAND are versioned (with
  CAM_VERSION). When the version number is increased the result is a new
  ioctl ID. That means that the ioctl checking code no longer gets called.
  New versions require updates to the version number and the structs that
  are used. (Backwards compatibility is maintained by adding fixed macros
  like CAM_VERSION_0x19, but these are not currently supported in Valgrind).
- ELF PT_LOAD mappings. Either Valgrind will assert or there will be no source
  information in error reports. See VG_(di_notify_mmap) in debuginfo.c
- Because they contain many deliberate errors the regression tests are prone
  to change with changes of compiler. Liberal use of 'volatile' and
  '-Wno-warning-flag' can help - see configure.ac

2. Running regression tests

In order to run all of the regression tests you will need to install
the following packages
gdb
gsed

In addition to running "gmake" you will need to run
"gmake check" to build the regression test exectutables
and "gmake regtest".  Again, more details can be seen in
README_DEVELOPERS.

If you want to run the 'nightly' script (see nightly/README.txt)
you will need to install coreutils (for GNU cp) and modify the
nightly/conf/freebsd.* files. The default configuration
sends an e-mail to the valgrind-testresults mailing list.

Feedback
~~~~~~~~

If you find any problems please create a bugzilla report at
https://bugs.kde.org using the Valgrind product.

Alternatively you can use the FreeBSD bugzilla
https://bugs.freebsd.org

Credits
~~~~~~~

Valgrind was originally ported to FreeBSD by Doug Rabson
in 2004.

Paul Floyd (that's me), started looking at this project in late 2018,
took a long pause and then continued in earnest in January 2020.

A big thanks to Nick Briggs for helping with the x86 version.

Kyle Evans and Ed Maste for contributing patches and helping with the
integration with FreeBSD ports.

Prior to 2018 many others have also contributed.

Dimitry Andric
Simon Barner
Roman Bogorodskiy
Rebecca Cran
Bryan Drewery
Brian Fundakowski Feldman
Denis Generalov
Mikolaj Golub
Eugene Kilachkoff
Xin LI
Phil Longstaff
Pav Lucistnik
Conrad Meyer
Julien Nadeau
Frerich Raabe
Doug Rabson
Craig Rodrigues
Tom Russo
Stephen Sanders
Stanislav Sedov
Andrei V. Shetuhin
Niklas Sorensson
Ryan Stone
Jerry Toung
Yuri