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linux/drivers/gpu/drm/xe/xe_rtp.c
Lucas De Marchi dbcbfc72d3 drm/xe: Migrate OOB WAs to OR rules 
Now that rtp has OR rules, it's not needed to extend it to process OOB
WAs. Previously if an entry had no name, it was considered as "a set of
rules OR'ed with the last named entry".

Instead of generating new entries, add OR rules. The syntax for
xe_wa_oob.rules remains the same, with xe_gen_wa_oob generating the
slightly different table. Object sizes delta are negligible, but having
just one logic makes it easier to maintain:

	add/remove: 0/0 grow/shrink: 1/2 up/down: 160/-269 (-109)
	Function                                     old     new   delta
	__compound_literal                          6104    6264    +160
	xe_wa_dump                                  1839    1810     -29
	oob_was                                      816     576    -240
	Total: Before=17257, After=17148, chg -0.63%

Reviewed-by: Gustavo Sousa <gustavo.sousa@intel.com>
Link: https://patchwork.freedesktop.org/patch/msgid/20240727015907.899192-9-lucas.demarchi@intel.com
Signed-off-by: Lucas De Marchi <lucas.demarchi@intel.com>
2024-07-29 11:19:40 -07:00

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// SPDX-License-Identifier: MIT
/*
* Copyright © 2022 Intel Corporation
*/
#include "xe_rtp.h"
#include <kunit/visibility.h>
#include <drm/xe_drm.h>
#include "xe_gt.h"
#include "xe_gt_topology.h"
#include "xe_macros.h"
#include "xe_reg_sr.h"
#include "xe_sriov.h"
/**
* DOC: Register Table Processing
*
* Internal infrastructure to define how registers should be updated based on
* rules and actions. This can be used to define tables with multiple entries
* (one per register) that will be walked over at some point in time to apply
* the values to the registers that have matching rules.
*/
static bool has_samedia(const struct xe_device *xe)
{
return xe->info.media_verx100 >= 1300;
}
static bool rule_matches(const struct xe_device *xe,
struct xe_gt *gt,
struct xe_hw_engine *hwe,
const struct xe_rtp_rule *rules,
unsigned int n_rules)
{
const struct xe_rtp_rule *r;
unsigned int i, rcount = 0;
bool match;
for (r = rules, i = 0; i < n_rules; r = &rules[++i]) {
switch (r->match_type) {
case XE_RTP_MATCH_OR:
/*
* This is only reached if a complete set of
* rules passed or none were evaluated. For both cases,
* shortcut the other rules and return the proper value.
*/
goto done;
case XE_RTP_MATCH_PLATFORM:
match = xe->info.platform == r->platform;
break;
case XE_RTP_MATCH_SUBPLATFORM:
match = xe->info.platform == r->platform &&
xe->info.subplatform == r->subplatform;
break;
case XE_RTP_MATCH_GRAPHICS_VERSION:
match = xe->info.graphics_verx100 == r->ver_start &&
(!has_samedia(xe) || !xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_GRAPHICS_VERSION_RANGE:
match = xe->info.graphics_verx100 >= r->ver_start &&
xe->info.graphics_verx100 <= r->ver_end &&
(!has_samedia(xe) || !xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_GRAPHICS_VERSION_ANY_GT:
match = xe->info.graphics_verx100 == r->ver_start;
break;
case XE_RTP_MATCH_GRAPHICS_STEP:
match = xe->info.step.graphics >= r->step_start &&
xe->info.step.graphics < r->step_end &&
(!has_samedia(xe) || !xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_MEDIA_VERSION:
match = xe->info.media_verx100 == r->ver_start &&
(!has_samedia(xe) || xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_MEDIA_VERSION_RANGE:
match = xe->info.media_verx100 >= r->ver_start &&
xe->info.media_verx100 <= r->ver_end &&
(!has_samedia(xe) || xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_MEDIA_STEP:
match = xe->info.step.media >= r->step_start &&
xe->info.step.media < r->step_end &&
(!has_samedia(xe) || xe_gt_is_media_type(gt));
break;
case XE_RTP_MATCH_MEDIA_VERSION_ANY_GT:
match = xe->info.media_verx100 == r->ver_start;
break;
case XE_RTP_MATCH_INTEGRATED:
match = !xe->info.is_dgfx;
break;
case XE_RTP_MATCH_DISCRETE:
match = xe->info.is_dgfx;
break;
case XE_RTP_MATCH_ENGINE_CLASS:
if (drm_WARN_ON(&xe->drm, !hwe))
return false;
match = hwe->class == r->engine_class;
break;
case XE_RTP_MATCH_NOT_ENGINE_CLASS:
if (drm_WARN_ON(&xe->drm, !hwe))
return false;
match = hwe->class != r->engine_class;
break;
case XE_RTP_MATCH_FUNC:
match = r->match_func(gt, hwe);
break;
default:
drm_warn(&xe->drm, "Invalid RTP match %u\n",
r->match_type);
match = false;
}
if (!match) {
/*
* Advance rules until we find XE_RTP_MATCH_OR to check
* if there's another set of conditions to check
*/
while (++i < n_rules && rules[i].match_type != XE_RTP_MATCH_OR)
;
if (i >= n_rules)
return false;
rcount = 0;
} else {
rcount++;
}
}
done:
if (drm_WARN_ON(&xe->drm, !rcount))
return false;
return true;
}
static void rtp_add_sr_entry(const struct xe_rtp_action *action,
struct xe_gt *gt,
u32 mmio_base,
struct xe_reg_sr *sr)
{
struct xe_reg_sr_entry sr_entry = {
.reg = action->reg,
.clr_bits = action->clr_bits,
.set_bits = action->set_bits,
.read_mask = action->read_mask,
};
sr_entry.reg.addr += mmio_base;
xe_reg_sr_add(sr, &sr_entry, gt);
}
static bool rtp_process_one_sr(const struct xe_rtp_entry_sr *entry,
struct xe_device *xe, struct xe_gt *gt,
struct xe_hw_engine *hwe, struct xe_reg_sr *sr)
{
const struct xe_rtp_action *action;
u32 mmio_base;
unsigned int i;
if (!rule_matches(xe, gt, hwe, entry->rules, entry->n_rules))
return false;
for (i = 0, action = &entry->actions[0]; i < entry->n_actions; action++, i++) {
if ((entry->flags & XE_RTP_ENTRY_FLAG_FOREACH_ENGINE) ||
(action->flags & XE_RTP_ACTION_FLAG_ENGINE_BASE))
mmio_base = hwe->mmio_base;
else
mmio_base = 0;
rtp_add_sr_entry(action, gt, mmio_base, sr);
}
return true;
}
static void rtp_get_context(struct xe_rtp_process_ctx *ctx,
struct xe_hw_engine **hwe,
struct xe_gt **gt,
struct xe_device **xe)
{
switch (ctx->type) {
case XE_RTP_PROCESS_TYPE_GT:
*hwe = NULL;
*gt = ctx->gt;
*xe = gt_to_xe(*gt);
break;
case XE_RTP_PROCESS_TYPE_ENGINE:
*hwe = ctx->hwe;
*gt = (*hwe)->gt;
*xe = gt_to_xe(*gt);
break;
};
}
/**
* xe_rtp_process_ctx_enable_active_tracking - Enable tracking of active entries
*
* Set additional metadata to track what entries are considered "active", i.e.
* their rules match the condition. Bits are never cleared: entries with
* matching rules set the corresponding bit in the bitmap.
*
* @ctx: The context for processing the table
* @active_entries: bitmap to store the active entries
* @n_entries: number of entries to be processed
*/
void xe_rtp_process_ctx_enable_active_tracking(struct xe_rtp_process_ctx *ctx,
unsigned long *active_entries,
size_t n_entries)
{
ctx->active_entries = active_entries;
ctx->n_entries = n_entries;
}
EXPORT_SYMBOL_IF_KUNIT(xe_rtp_process_ctx_enable_active_tracking);
static void rtp_mark_active(struct xe_device *xe,
struct xe_rtp_process_ctx *ctx,
unsigned int idx)
{
if (!ctx->active_entries)
return;
if (drm_WARN_ON(&xe->drm, idx >= ctx->n_entries))
return;
bitmap_set(ctx->active_entries, idx, 1);
}
/**
* xe_rtp_process_to_sr - Process all rtp @entries, adding the matching ones to
* the save-restore argument.
* @ctx: The context for processing the table, with one of device, gt or hwe
* @entries: Table with RTP definitions
* @sr: Save-restore struct where matching rules execute the action. This can be
* viewed as the "coalesced view" of multiple the tables. The bits for each
* register set are expected not to collide with previously added entries
*
* Walk the table pointed by @entries (with an empty sentinel) and add all
* entries with matching rules to @sr. If @hwe is not NULL, its mmio_base is
* used to calculate the right register offset
*/
void xe_rtp_process_to_sr(struct xe_rtp_process_ctx *ctx,
const struct xe_rtp_entry_sr *entries,
struct xe_reg_sr *sr)
{
const struct xe_rtp_entry_sr *entry;
struct xe_hw_engine *hwe = NULL;
struct xe_gt *gt = NULL;
struct xe_device *xe = NULL;
rtp_get_context(ctx, &hwe, &gt, &xe);
if (IS_SRIOV_VF(xe))
return;
for (entry = entries; entry && entry->name; entry++) {
bool match = false;
if (entry->flags & XE_RTP_ENTRY_FLAG_FOREACH_ENGINE) {
struct xe_hw_engine *each_hwe;
enum xe_hw_engine_id id;
for_each_hw_engine(each_hwe, gt, id)
match |= rtp_process_one_sr(entry, xe, gt,
each_hwe, sr);
} else {
match = rtp_process_one_sr(entry, xe, gt, hwe, sr);
}
if (match)
rtp_mark_active(xe, ctx, entry - entries);
}
}
EXPORT_SYMBOL_IF_KUNIT(xe_rtp_process_to_sr);
/**
* xe_rtp_process - Process all rtp @entries, without running any action
* @ctx: The context for processing the table, with one of device, gt or hwe
* @entries: Table with RTP definitions
*
* Walk the table pointed by @entries (with an empty sentinel), executing the
* rules. One difference from xe_rtp_process_to_sr(): there is no action
* associated with each entry since this uses struct xe_rtp_entry. Its main use
* is for marking active workarounds via
* xe_rtp_process_ctx_enable_active_tracking().
*/
void xe_rtp_process(struct xe_rtp_process_ctx *ctx,
const struct xe_rtp_entry *entries)
{
const struct xe_rtp_entry *entry;
struct xe_hw_engine *hwe;
struct xe_gt *gt;
struct xe_device *xe;
rtp_get_context(ctx, &hwe, &gt, &xe);
for (entry = entries; entry && entry->rules; entry++) {
if (!rule_matches(xe, gt, hwe, entry->rules, entry->n_rules))
continue;
rtp_mark_active(xe, ctx, entry - entries);
}
}
EXPORT_SYMBOL_IF_KUNIT(xe_rtp_process);
bool xe_rtp_match_even_instance(const struct xe_gt *gt,
const struct xe_hw_engine *hwe)
{
return hwe->instance % 2 == 0;
}
bool xe_rtp_match_first_render_or_compute(const struct xe_gt *gt,
const struct xe_hw_engine *hwe)
{
u64 render_compute_mask = gt->info.engine_mask &
(XE_HW_ENGINE_CCS_MASK | XE_HW_ENGINE_RCS_MASK);
return render_compute_mask &&
hwe->engine_id == __ffs(render_compute_mask);
}
bool xe_rtp_match_first_gslice_fused_off(const struct xe_gt *gt,
const struct xe_hw_engine *hwe)
{
unsigned int dss_per_gslice = 4;
unsigned int dss;
if (drm_WARN(&gt_to_xe(gt)->drm, xe_dss_mask_empty(gt->fuse_topo.g_dss_mask),
"Checking gslice for platform without geometry pipeline\n"))
return false;
dss = xe_dss_mask_group_ffs(gt->fuse_topo.g_dss_mask, 0, 0);
return dss >= dss_per_gslice;
}
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