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Reviewed-by: Jose Fonseca <jfonseca@vmware.com.> Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/9165>
258 lines
11 KiB
ReStructuredText
258 lines
11 KiB
ReStructuredText
GL Dispatch
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===========
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Several factors combine to make efficient dispatch of OpenGL functions
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fairly complicated. This document attempts to explain some of the issues
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and introduce the reader to Mesa's implementation. Readers already
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familiar with the issues around GL dispatch can safely skip ahead to the
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:ref:`overview of Mesa's implementation <overview>`.
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1. Complexity of GL Dispatch
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----------------------------
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Every GL application has at least one object called a GL *context*. This
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object, which is an implicit parameter to every GL function, stores all
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of the GL related state for the application. Every texture, every buffer
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object, every enable, and much, much more is stored in the context.
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Since an application can have more than one context, the context to be
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used is selected by a window-system dependent function such as
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``glXMakeContextCurrent``.
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In environments that implement OpenGL with X-Windows using GLX, every GL
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function, including the pointers returned by ``glXGetProcAddress``, are
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*context independent*. This means that no matter what context is
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currently active, the same ``glVertex3fv`` function is used.
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This creates the first bit of dispatch complexity. An application can
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have two GL contexts. One context is a direct rendering context where
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function calls are routed directly to a driver loaded within the
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application's address space. The other context is an indirect rendering
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context where function calls are converted to GLX protocol and sent to a
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server. The same ``glVertex3fv`` has to do the right thing depending on
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which context is current.
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Highly optimized drivers or GLX protocol implementations may want to
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change the behavior of GL functions depending on current state. For
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example, ``glFogCoordf`` may operate differently depending on whether or
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not fog is enabled.
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In multi-threaded environments, it is possible for each thread to have a
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different GL context current. This means that poor old ``glVertex3fv``
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has to know which GL context is current in the thread where it is being
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called.
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.. _overview:
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2. Overview of Mesa's Implementation
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------------------------------------
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Mesa uses two per-thread pointers. The first pointer stores the address
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of the context current in the thread, and the second pointer stores the
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address of the *dispatch table* associated with that context. The
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dispatch table stores pointers to functions that actually implement
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specific GL functions. Each time a new context is made current in a
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thread, these pointers are updated.
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The implementation of functions such as ``glVertex3fv`` becomes
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conceptually simple:
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- Fetch the current dispatch table pointer.
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- Fetch the pointer to the real ``glVertex3fv`` function from the
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table.
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- Call the real function.
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This can be implemented in just a few lines of C code. The file
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``src/mesa/glapi/glapitemp.h`` contains code very similar to this.
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.. code-block:: c
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:caption: Sample dispatch function
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void glVertex3f(GLfloat x, GLfloat y, GLfloat z)
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{
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const struct _glapi_table * const dispatch = GET_DISPATCH();
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(*dispatch->Vertex3f)(x, y, z);
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}
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The problem with this simple implementation is the large amount of
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overhead that it adds to every GL function call.
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In a multithreaded environment, a naive implementation of
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``GET_DISPATCH`` involves a call to ``pthread_getspecific`` or a similar
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function. Mesa provides a wrapper function called
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``_glapi_get_dispatch`` that is used by default.
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3. Optimizations
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----------------
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A number of optimizations have been made over the years to diminish the
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performance hit imposed by GL dispatch. This section describes these
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optimizations. The benefits of each optimization and the situations
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where each can or cannot be used are listed.
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3.1. Dual dispatch table pointers
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The vast majority of OpenGL applications use the API in a single
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threaded manner. That is, the application has only one thread that makes
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calls into the GL. In these cases, not only do the calls to
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``pthread_getspecific`` hurt performance, but they are completely
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unnecessary! It is possible to detect this common case and avoid these
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calls.
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Each time a new dispatch table is set, Mesa examines and records the ID
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of the executing thread. If the same thread ID is always seen, Mesa
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knows that the application is, from OpenGL's point of view, single
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threaded.
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As long as an application is single threaded, Mesa stores a pointer to
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the dispatch table in a global variable called ``_glapi_Dispatch``. The
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pointer is also stored in a per-thread location via
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``pthread_setspecific``. When Mesa detects that an application has
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become multithreaded, ``NULL`` is stored in ``_glapi_Dispatch``.
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Using this simple mechanism the dispatch functions can detect the
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multithreaded case by comparing ``_glapi_Dispatch`` to ``NULL``. The
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resulting implementation of ``GET_DISPATCH`` is slightly more complex,
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but it avoids the expensive ``pthread_getspecific`` call in the common
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case.
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.. code-block:: c
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:caption: Improved ``GET_DISPATCH`` Implementation
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#define GET_DISPATCH() \
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(_glapi_Dispatch != NULL) \
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? _glapi_Dispatch : pthread_getspecific(&_glapi_Dispatch_key)
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3.2. ELF TLS
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~~~~~~~~~~~~
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Starting with the 2.4.20 Linux kernel, each thread is allocated an area
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of per-thread, global storage. Variables can be put in this area using
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some extensions to GCC. By storing the dispatch table pointer in this
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area, the expensive call to ``pthread_getspecific`` and the test of
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``_glapi_Dispatch`` can be avoided.
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The dispatch table pointer is stored in a new variable called
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``_glapi_tls_Dispatch``. A new variable name is used so that a single
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libGL can implement both interfaces. This allows the libGL to operate
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with direct rendering drivers that use either interface. Once the
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pointer is properly declared, ``GET_DISPACH`` becomes a simple variable
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reference.
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.. code-block:: c
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:caption: TLS ``GET_DISPATCH`` Implementation
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extern __thread struct _glapi_table *_glapi_tls_Dispatch
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__attribute__((tls_model("initial-exec")));
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#define GET_DISPATCH() _glapi_tls_Dispatch
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Use of this path is controlled by the preprocessor define
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``USE_ELF_TLS``. Any platform capable of using ELF TLS should use this
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as the default dispatch method.
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Windows has a similar concept, and beginning with Windows Vista, shared
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libraries can take advantage of compiler-assisted TLS. This TLS data
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has no fixed size and does not compete with API-based TLS (``TlsAlloc``)
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for the limited number of slots available there, and so ``USE_ELF_TLS`` can
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be used on Windows too, even though it's not truly ELF.
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3.3. Assembly Language Dispatch Stubs
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Many platforms have difficulty properly optimizing the tail-call in the
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dispatch stubs. Platforms like x86 that pass parameters on the stack
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seem to have even more difficulty optimizing these routines. All of the
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dispatch routines are very short, and it is trivial to create optimal
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assembly language versions. The amount of optimization provided by using
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assembly stubs varies from platform to platform and application to
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application. However, by using the assembly stubs, many platforms can
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use an additional space optimization (see :ref:`below <fixedsize>`).
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The biggest hurdle to creating assembly stubs is handling the various
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ways that the dispatch table pointer can be accessed. There are four
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different methods that can be used:
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#. Using ``_glapi_Dispatch`` directly in builds for non-multithreaded
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environments.
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#. Using ``_glapi_Dispatch`` and ``_glapi_get_dispatch`` in
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multithreaded environments.
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#. Using ``_glapi_Dispatch`` and ``pthread_getspecific`` in
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multithreaded environments.
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#. Using ``_glapi_tls_Dispatch`` directly in TLS enabled multithreaded
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environments.
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People wishing to implement assembly stubs for new platforms should
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focus on #4 if the new platform supports TLS. Otherwise, implement #2
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followed by #3. Environments that do not support multithreading are
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uncommon and not terribly relevant.
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Selection of the dispatch table pointer access method is controlled by a
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few preprocessor defines.
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- If ``USE_ELF_TLS`` is defined, method #3 is used.
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- If ``HAVE_PTHREAD`` is defined, method #2 is used.
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- If none of the preceding are defined, method #1 is used.
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Two different techniques are used to handle the various different cases.
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On x86 and SPARC, a macro called ``GL_STUB`` is used. In the preamble of
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the assembly source file different implementations of the macro are
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selected based on the defined preprocessor variables. The assembly code
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then consists of a series of invocations of the macros such as:
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.. code-block:: c
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:caption: SPARC Assembly Implementation of ``glColor3fv``
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GL_STUB(Color3fv, _gloffset_Color3fv)
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The benefit of this technique is that changes to the calling pattern
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(i.e., addition of a new dispatch table pointer access method) require
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fewer changed lines in the assembly code.
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However, this technique can only be used on platforms where the function
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implementation does not change based on the parameters passed to the
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function. For example, since x86 passes all parameters on the stack, no
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additional code is needed to save and restore function parameters around
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a call to ``pthread_getspecific``. Since x86-64 passes parameters in
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registers, varying amounts of code needs to be inserted around the call
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to ``pthread_getspecific`` to save and restore the GL function's
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parameters.
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The other technique, used by platforms like x86-64 that cannot use the
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first technique, is to insert ``#ifdef`` within the assembly
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implementation of each function. This makes the assembly file
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considerably larger (e.g., 29,332 lines for ``glapi_x86-64.S`` versus
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1,155 lines for ``glapi_x86.S``) and causes simple changes to the
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function implementation to generate many lines of diffs. Since the
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assembly files are typically generated by scripts, this isn't a
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significant problem.
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Once a new assembly file is created, it must be inserted in the build
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system. There are two steps to this. The file must first be added to
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``src/mesa/sources``. That gets the file built and linked. The second
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step is to add the correct ``#ifdef`` magic to
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``src/mesa/glapi/glapi_dispatch.c`` to prevent the C version of the
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dispatch functions from being built.
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.. _fixedsize:
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3.4. Fixed-Length Dispatch Stubs
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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To implement ``glXGetProcAddress``, Mesa stores a table that associates
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function names with pointers to those functions. This table is stored in
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``src/mesa/glapi/glprocs.h``. For different reasons on different
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platforms, storing all of those pointers is inefficient. On most
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platforms, including all known platforms that support TLS, we can avoid
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this added overhead.
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If the assembly stubs are all the same size, the pointer need not be
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stored for every function. The location of the function can instead be
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calculated by multiplying the size of the dispatch stub by the offset of
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the function in the table. This value is then added to the address of
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the first dispatch stub.
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This path is activated by adding the correct ``#ifdef`` magic to
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``src/mesa/glapi/glapi.c`` just before ``glprocs.h`` is included.
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