Commit 5664561c authored by Lucas De Marchi's avatar Lucas De Marchi

drm/i915: Update workaround documentation

There were several updates in the driver on how the workarounds are
handled since its documentation was written. Update the documentation to
reflect the current reality.

v2:
  - Remove footnote that was wrongly referenced, adding back the
    reference in the correct paragraph.
  - Remove "Display workarounds" and just mention "display IP" under
    "Other" category since all of them are peppered around the driver.

Cc: Matt Roper <matthew.d.roper@intel.com>
Signed-off-by: default avatarLucas De Marchi <lucas.demarchi@intel.com>
Acked-by: Balasubramani Vivekanandan <balasubramani.vivekanandan@intel.com> # v1
Reviewed-by: default avatarMatt Roper <matthew.d.roper@intel.com>
Link: https://patchwork.freedesktop.org/patch/msgid/20221115192611.179981-1-lucas.demarchi@intel.com
parent 443a8fbc
...@@ -17,42 +17,62 @@ ...@@ -17,42 +17,62 @@
/** /**
* DOC: Hardware workarounds * DOC: Hardware workarounds
* *
* This file is intended as a central place to implement most [1]_ of the * Hardware workarounds are register programming documented to be executed in
* required workarounds for hardware to work as originally intended. They fall * the driver that fall outside of the normal programming sequences for a
* in five basic categories depending on how/when they are applied: * platform. There are some basic categories of workarounds, depending on
* how/when they are applied:
* *
* - Workarounds that touch registers that are saved/restored to/from the HW * - Context workarounds: workarounds that touch registers that are
* context image. The list is emitted (via Load Register Immediate commands) * saved/restored to/from the HW context image. The list is emitted (via Load
* everytime a new context is created. * Register Immediate commands) once when initializing the device and saved in
* - GT workarounds. The list of these WAs is applied whenever these registers * the default context. That default context is then used on every context
* revert to default values (on GPU reset, suspend/resume [2]_, etc..). * creation to have a "primed golden context", i.e. a context image that
* - Display workarounds. The list is applied during display clock-gating * already contains the changes needed to all the registers.
* initialization.
* - Workarounds that whitelist a privileged register, so that UMDs can manage
* them directly. This is just a special case of a MMMIO workaround (as we
* write the list of these to/be-whitelisted registers to some special HW
* registers).
* - Workaround batchbuffers, that get executed automatically by the hardware
* on every HW context restore.
* *
* .. [1] Please notice that there are other WAs that, due to their nature, * - Engine workarounds: the list of these WAs is applied whenever the specific
* cannot be applied from a central place. Those are peppered around the rest * engine is reset. It's also possible that a set of engine classes share a
* of the code, as needed. * common power domain and they are reset together. This happens on some
* platforms with render and compute engines. In this case (at least) one of
* them need to keeep the workaround programming: the approach taken in the
* driver is to tie those workarounds to the first compute/render engine that
* is registered. When executing with GuC submission, engine resets are
* outside of kernel driver control, hence the list of registers involved in
* written once, on engine initialization, and then passed to GuC, that
* saves/restores their values before/after the reset takes place. See
* ``drivers/gpu/drm/i915/gt/uc/intel_guc_ads.c`` for reference.
* *
* .. [2] Technically, some registers are powercontext saved & restored, so they * - GT workarounds: the list of these WAs is applied whenever these registers
* survive a suspend/resume. In practice, writing them again is not too * revert to their default values: on GPU reset, suspend/resume [1]_, etc.
* costly and simplifies things. We can revisit this in the future. *
* - Register whitelist: some workarounds need to be implemented in userspace,
* but need to touch privileged registers. The whitelist in the kernel
* instructs the hardware to allow the access to happen. From the kernel side,
* this is just a special case of a MMIO workaround (as we write the list of
* these to/be-whitelisted registers to some special HW registers).
*
* - Workaround batchbuffers: buffers that get executed automatically by the
* hardware on every HW context restore. These buffers are created and
* programmed in the default context so the hardware always go through those
* programming sequences when switching contexts. The support for workaround
* batchbuffers is enabled these hardware mechanisms:
* *
* Layout * #. INDIRECT_CTX: A batchbuffer and an offset are provided in the default
* ~~~~~~ * context, pointing the hardware to jump to that location when that offset
* is reached in the context restore. Workaround batchbuffer in the driver
* currently uses this mechanism for all platforms.
* *
* Keep things in this file ordered by WA type, as per the above (context, GT, * #. BB_PER_CTX_PTR: A batchbuffer is provided in the default context,
* display, register whitelist, batchbuffer). Then, inside each type, keep the * pointing the hardware to a buffer to continue executing after the
* following order: * engine registers are restored in a context restore sequence. This is
* currently not used in the driver.
* *
* - Infrastructure functions and macros * - Other: There are WAs that, due to their nature, cannot be applied from a
* - WAs per platform in standard gen/chrono order * central place. Those are peppered around the rest of the code, as needed.
* - Public functions to init or apply the given workaround type. * Workarounds related to the display IP are the main example.
*
* .. [1] Technically, some registers are powercontext saved & restored, so they
* survive a suspend/resume. In practice, writing them again is not too
* costly and simplifies things, so it's the approach taken in the driver.
*/ */
static void wa_init_start(struct i915_wa_list *wal, struct intel_gt *gt, static void wa_init_start(struct i915_wa_list *wal, struct intel_gt *gt,
......
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