GSoC changes as of Sunday May 30

[ikiwiki.git] / docs / developer / GEMdrmKMS / index.mdwn

# Port of GEM and KMS

A [Google Summer of Code 2010](http://socghop.appspot.com/gsoc/program/list_projects/google/gsoc2010) project.

Student: David Shao

Mentor: Matthew Dillon

## Introduction

We port to the BSDs modern graphics card drivers that have already or are in the process of being written for Linux.  Fortunately for the BSDs the source code that is the basis of these drivers, userland hosted in git repositories accessible from [freedesktop.org](http://cgit.freedesktop.org/), and even the part that is now residing in the Linux kernel, is mostly licensed under terms compatible with the [MIT X License](http://www.opensource.org/licenses/mit-license.php), and therefore can be directly ported to the BSDs
without licensing issues.

When we refer to DRM, we are referring to the [Direct Render Manager](http://dri.freedesktop.org/wiki/DRM) that is a kernel module arbitrating requests for various graphics related services.  Because of this acronym, the source code for DragonFly's DRM module can be found in directory **sys/dev/drm**, while the source code for Linux'd DRM module has been split into **include/drm** hosting common header files and **drivers/gpu/drm**.  Furthermore the Linux files have had vendor specific code split off into their own separate directories, a change the BSDs should consider since having all files in one directory is becoming rather unwieldy.

We feel the fastest path to porting is through the DragonFly BSD project, but we intend for our code to be the basis for
ports to all the BSDs.

## Acknowledgment to the FreeBSD Project

We must acknowledge the hard work that previous porters of DRM such as Robert Noland of the FreeBSD project have already
accomplished in translating much of earlier DRM to BSD kernel semantics.  Simply take a diff of the FreeBSD and DragonFlyBSD
versions of DRM and one can readily see that the hard work of translating the semantics of the locking for the Linux drivers
has mostly been done, and better still can be done almost automatically.  Furthermore the FreeBSD port has translated calls
to manipulating hardware devices such as for AGP.

## Goal

We intend to write a portability layer that will allow the BSDs to use as much of the Linux drm code as possible.
The developers of X.org / freedesktop.org related graphics drivers have their current efforts focused on Linux
because they have to get something working anywhere as fast as possible.  It is the BSDs responsibility to keep
up with these efforts and to contribute back to these developers to justify the developers continuing
to generously license their drm code under terms compatible with those of the BSD licenses.

It is especially vital for Linux drm GEM, TTM, KMS code to be ported immediately to the BSDs because developers
are in the process of removing userland modesetting code from current graphics drivers.  To paraphrase what
we have been told by freedesktop.org developers, if we do not port this code, very shortly the BSDs will be
left only using the simplest VESA driver at 1024 x 768 resolution with no hardware acceleration.

We believe that limiting divergence from Linux's drm code is the clearest path for the BSDs to be able
to follow the latest drm developments.

## Disclaimer

Code that is uploaded to the experimental git branches has been verified to work for at most
two graphics cards only, both Radeon-compatible cards.  It is highly likely that systems exist
where replacing kernel code using the experimental git branches will leave one's system unable
to use software based on X.org.  In particular nothing is known about systems with graphics
hardware from other vendors such as Intel or Nvidia.

We have experienced from ill-fated experiments forced rebooting with corruption of a ufs2 root filesystem;
therefore, the same could well happen to you.  Only use this code on a system with no valuable or
irreplaceable data.  We disclaim any warranty or fitness of code.

## Test Machines

Our test machines both use Radeon-compatible graphics hardware: an
older Radeon 9200-compatible card (r200) on an Asus P4B266 32-bit i386
machine and a Radeon HD 4550 (r600) on a Shuttle SG45H7 64-bit x86_64 machine.

We develop on the x86_64 machine then push our changes to the git experimental branch
**gsocdrmalpha** at

git://leaf.dragonflybsd.org/~davshao/dragonfly.git

We then pull the changes to the i386 machine to test build and compatibility.


### Sample **dmesg* output

The software used for graphics whether the kernel or userland Mesa is surprisingly resilient.  As long as it compiles it will try and find a way with dealing with other mismatched components by falling back on default behavior.  Working on a fast x86_64 machine, it is easy to be lulled into a false sense that things are working properly unless one checks the logs.

Here the proper kernel module appears to be loaded for the x86_64 machine.  We have on previous occasions not realized an error that led to the kernel module not being loaded at all that appeared from the messages to be a device non-existence problem.

    drm0: <ATI Radeon HD 4550> on vgapci0
    vgapci0: child drm0 requested pci_enable_busmaster
    info: [drm] Initialized radeon 1.31.0 20080613
    info: [drm] Setting GART location based on new memory map
    info: [drm] Loading RV710 Microcode
    info: [drm] Resetting GPU
    info: [drm] writeback test succeeded in 1 usecs

Similarly for the Radeon 9200-compatible i386 machine:

    drm0: <ATI Radeon If RV250 9000> on vgapci0
    vgapci0: child drm0 requested pci_enable_busmaster
    info::[drm] AGP at 0xf8000000 64MB
    info::[drm] Initialized radeon 1.31.0 20080613
    info::[drm] Setting GART location based on new memory map
    info::[drm] Loading R200 Microcode
    info::[drm] writeback test succeeded in 1 usecs

### **var/log/Xorg.0.log** output

Somewhere on one's system are the logs of the latest startup of the X server and the modules it finds.  There can be an alternate place if one installs a second X.org, say at */opt/xtest*, in which case instead of **/var/log/Xorg.0.log** one will look in **/opt/xtest/var/log/Xorg.0.log**.

Here's a case of a failure on the fast x86_64 machine where things appeared to be fine: we were composing this wiki from within Firefox 3.6.3 on a system where the proper module failed to load and yet where because of the machine's speed there was no discernible problem for this application.

    drmOpenDevice: node name is /dev/dri/card0
    drmOpenDevice: open result is 10, (OK)
    drmOpenByBusid: Searching for BusID pci:0000:01:00.0
    drmOpenDevice: node name is /dev/dri/card0
    drmOpenDevice: open result is 10, (OK)
    drmOpenByBusid: drmOpenMinor returns 10
    drmOpenByBusid: drmGetBusid reports pci:0000:01:00.0
    (EE) AIGLX error: dlopen of /usr/pkg/lib/dri/r600_dri.so failed (Cannot open "/usr/pkg/lib/dri/r600_dri.so")
    (EE) AIGLX: reverting to software rendering
    (II) AIGLX: Loaded and initialized /usr/pkg/lib/dri/swrast_dri.so

The Mesa 7.4.x series simply does not *have* a r600_drv.so driver so of course it can't be found.  Mesa happily falls back to using software rendering and nothing seems greatly wrong.

Now here is an example using latest Mesa and everything else from git on the x86_64 machine where the driver is found on the x86_64 machine:

    [    95.404] drmOpenDevice: node name is /dev/dri/card0
    [    95.405] drmOpenDevice: open result is 11, (OK)
    [    95.405] drmOpenByBusid: Searching for BusID pci:0000:01:00.0
    [    95.405] drmOpenDevice: node name is /dev/dri/card0
    [    95.405] drmOpenDevice: open result is 11, (OK)
    [    95.405] drmOpenByBusid: drmOpenMinor returns 11
    [    95.405] drmOpenByBusid: drmGetBusid reports pci:0000:01:00.0
    [    95.507] (II) AIGLX: enabled GLX_MESA_copy_sub_buffer
    [    95.507] (II) AIGLX: enabled GLX_SGI_make_current_read
    [    95.507] (II) AIGLX: enabled GLX_texture_from_pixmap with driver support
    [    95.507] (II) AIGLX: Loaded and initialized /opt/xtest/lib/dri/r600_dri.so
    [    95.507] (II) GLX: Initialized DRI GL provider for screen 0
    [    95.508] (II) RADEON(0): Setting screen physical size to 508 x 285

Pkgsrc on the i386 r200 machine does have a supporting driver; therefore, we obtain from its log:

    drmOpenDevice: node name is /dev/dri/card0
    drmOpenDevice: open result is 10, (OK)
    drmOpenByBusid: Searching for BusID pci:0000:01:00.0
    drmOpenDevice: node name is /dev/dri/card0
    drmOpenDevice: open result is 10, (OK)
    drmOpenByBusid: drmOpenMinor returns 10
    drmOpenByBusid: drmGetBusid reports pci:0000:01:00.0
    (II) AIGLX: enabled GLX_MESA_copy_sub_buffer
    (II) AIGLX: enabled GLX_SGI_make_current_read
    (II) AIGLX: enabled GLX_SGI_swap_control and GLX_MESA_swap_control
    (II) AIGLX: enabled GLX_texture_from_pixmap with driver support
    (II) AIGLX: Loaded and initialized /usr/pkg/lib/dri/r200_dri.so
    (II) GLX: Initialized DRI GL provider for screen 0
    (II) RADEON(0): Setting screen physical size to 510 x 290

Ironically we knew we were on the right track porting the latest git versions of the X.org stack when we succeeded in locking up hard our machine.  That meant a real hardware acceleration module was being loaded that the previous kernel could not handle, which was why the latest drm from FreeBSD had to be imported.


## Status

The latest drm code from FreeBSD 9.x current has been successfully ported to DragonFly BSD, [patch](http://leaf.dragonflybsd.org/~davshao/r600fbsd.diff) and git branch **r600fbsd** git://leaf.dragonflybsd.org/~davshao/dragonfly.git, and tested with a Radeon HD 4550 on an x86_64 machine (Shuttle SG45H7).  However it must be remembered that testing has only been done with this one graphics card and it is completely unknown whether say an Intel machine will lock up solid.  Also nothing was done to port the extensive Via drivers FreeBSD has already ported.

## Current Progress for Google Summer of Code 2010

Current work on porting the Linux drm to DragonFly BSD can be found in
git branch **gsocdrmalpha** git://leaf.dragonflybsd.org/~davshao/dragonfly.git

As of Wednesday, May 26, 2010, the first goal is to port the API from *drm.h* and *drmP.h*.

As of Sunday, May 30, 2010, we have ported the easy 95% that does not require changing any working code.

We have:

1. Created a porting layer whose files begin with *drm_port*.
2. Used the already existing implementation of *list_head to replace the custom list and locking for agp memory.