.. sources:
``_
.. index::
single: thread
.. _topic-thread:
Threads
=======
.. index::
single: thread safety
Thread safety
-------------
The MPS is designed to run in an environment with multiple threads all
calling into the MPS. Some code is known to operate with exclusive
access to the data it manipulates (for example, allocation via
:term:`allocation points`, in the common case where the buffer does
not need to be refilled, and :term:`location dependencies`), so this
code is safe. For the rest of the code, shared data structures are
locked by the use of a single lock per :term:`arena`. This lock is
claimed on entry to the MPS and released on exit from it. So there is
at most a single thread (per arena) running "inside" the MPS at a
time.
.. index::
single: thread; registration
.. _topic-thread-register:
Thread registration
-------------------
In order to scan a thread's registers for references (which happens at
each :term:`flip`), the MPS needs to be able to suspend that thread,
and in order to gain exclusive atomic access to memory in order to
scan it, the MPS needs to be able to suspend all threads that might
access that memory. This means that threads must be registered with
the MPS by calling :c:func:`mps_thread_reg` (and thread roots created;
see :ref:`topic-root-thread`).
For simplicity, we recommend that a thread must be registered with an
:term:`arena` if:
* its registers and control stack form a root (this is enforced by
:c:func:`mps_root_create_reg`); or
* it reads or writes from a location in an :term:`automatically managed
` :term:`pool` in the arena.
However, some automatically managed pool classes may be more liberal
than this. See the documentation for the pool class.
.. warning::
On Unix platforms, the MPS suspends and resumes threads by sending
them signals. There's a shortage of available signals that aren't
already dedicated to other purposes (for example, LinuxThreads
uses ``SIGUSR1`` and ``SIGUSR2``), so the MPS uses ``SIGXCPU`` and
``SIGXFSZ``. This means that a program that handles these signals
needs to co-operate with the MPS.
The mechanism for co-operation is currently undocumented: please
:ref:`contact us `.
.. index::
single: signal; handling
single: thread; signal handling
Signal handling issues
----------------------
The MPS uses :term:`barriers (1)` to :term:`protect `
memory from the :term:`client program` and handles the signals that
result from barrier hits.
.. warning::
The use of barriers has the consequence that a program that
handles ``SIGBUS`` (on OS X), ``SIGSEGV`` (on FreeBSD or Linux),
or first-chance exceptions (on Windows) needs to co-operate with
the MPS.
The mechanism for co-operation is currently undocumented: please
:ref:`contact us `.
.. index::
single: thread; interface
Thread interface
----------------
.. c:type:: mps_thr_t
The type of registered :term:`thread` descriptions.
In a multi-threaded environment where :term:`incremental garbage
collection` is used, threads must be registered with the MPS by
calling :c:func:`mps_thread_reg` so that the MPS can suspend them
as necessary in order to have exclusive access to their state.
Even in a single-threaded environment it may be necessary to
register a thread with the MPS so that its stack can be registered
as a :term:`root` by calling :c:func:`mps_root_create_reg`.
.. c:function:: mps_res_t mps_thread_reg(mps_thr_t *thr_o, mps_arena_t arena)
Register the current :term:`thread` with an :term:`arena`.
``thr_o`` points to a location that will hold the address of the
registered thread description, if successful.
``arena`` is the arena.
Returns :c:macro:`MPS_RES_OK` if successful, or another
:term:`result code` if not.
A thread must be registered with an arena if it ever uses a
pointer to a location in an :term:`automatically managed
` :term:`pool` belonging to that
arena.
.. note::
It is recommended that all threads be registered with all
arenas.
.. c:function:: void mps_thread_dereg(mps_thr_t thr)
Deregister a :term:`thread`.
``thr`` is the description of the thread.
After calling this function, the thread whose registration with an
:term:`arena` was recorded in ``thr`` must not read or write from
a location in an :term:`automatically managed ` :term:`pool` belonging to that arena.
.. note::
Some pool classes may be more liberal about what a thread may
do after it has been deregistered. See the documentation for
the pool class.
.. note::
It is recommended that threads be deregistered only when they
are just about to exit.
.. c:function:: void mps_tramp(void **r_o, mps_tramp_t f, void *p, size_t s)
.. deprecated:: starting with version 1.111.
Call a function via the MPS trampoline.
``r_o`` points to a location that will store the result of calling
``f``.
``f`` is the function to call.
``p`` and ``s`` are arguments that will be passed to ``f`` each
time it is called. This is intended to make it easy to pass, for
example, an array and its size as parameters.
The MPS relies on :term:`barriers (1)` to protect memory
that is in an inconsistent state. On some operating systems,
barrier hits generate exceptions that have to be caught by a
handler that is on the stack. On these operating systems, any code
that uses memory managed by the MPS must be called from inside
such an exception handler, that is, inside a call to
:c:func:`mps_tramp`.
If you have multiple threads that run code that uses memory
managed by the MPS, each thread must execute such code inside a
call to :c:func:`mps_tramp`.
Since version 1.111, this is not required on any of operating
systems supported by the MPS.
.. index::
single: trampoline
.. c:type:: void *(*mps_tramp_t)(void *p, size_t s)
.. deprecated:: starting with version 1.111.
The type of a function called by :c:func:`mps_tramp`.
``p`` and ``s`` are the corresponding arguments that were passed
to :c:func:`mps_tramp`.