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// SPDX-License-Identifier: MIT
/*
* Copyright © 2024 Intel Corporation
*/
#include <linux/bitmap.h>
#include <linux/mutex.h>
#include <drm/drm_managed.h>
#include "xe_assert.h"
#include "xe_gt_printk.h"
#include "xe_guc.h"
#include "xe_guc_id_mgr.h"
#include "xe_guc_types.h"
static struct xe_guc *idm_to_guc(struct xe_guc_id_mgr *idm)
{
return container_of(idm, struct xe_guc, submission_state.idm);
}
static struct xe_gt *idm_to_gt(struct xe_guc_id_mgr *idm)
{
return guc_to_gt(idm_to_guc(idm));
}
static struct xe_device *idm_to_xe(struct xe_guc_id_mgr *idm)
{
return gt_to_xe(idm_to_gt(idm));
}
#define idm_assert(idm, cond) xe_gt_assert(idm_to_gt(idm), cond)
#define idm_mutex(idm) (&idm_to_guc(idm)->submission_state.lock)
static void idm_print_locked(struct xe_guc_id_mgr *idm, struct drm_printer *p, int indent);
static void __fini_idm(struct drm_device *drm, void *arg)
{
struct xe_guc_id_mgr *idm = arg;
mutex_lock(idm_mutex(idm));
if (IS_ENABLED(CONFIG_DRM_XE_DEBUG)) {
unsigned int weight = bitmap_weight(idm->bitmap, idm->total);
if (weight) {
struct drm_printer p = xe_gt_info_printer(idm_to_gt(idm));
xe_gt_err(idm_to_gt(idm), "GUC ID manager unclean (%u/%u)\n",
weight, idm->total);
idm_print_locked(idm, &p, 1);
}
}
bitmap_free(idm->bitmap);
idm->bitmap = NULL;
idm->total = 0;
idm->used = 0;
mutex_unlock(idm_mutex(idm));
}
/**
* xe_guc_id_mgr_init() - Initialize GuC context ID Manager.
* @idm: the &xe_guc_id_mgr to initialize
* @limit: number of IDs to manage
*
* The bare-metal or PF driver can pass ~0 as &limit to indicate that all
* context IDs supported by the GuC firmware are available for use.
*
* Only VF drivers will have to provide explicit number of context IDs
* that they can use.
*
* Return: 0 on success or a negative error code on failure.
*/
int xe_guc_id_mgr_init(struct xe_guc_id_mgr *idm, unsigned int limit)
{
int ret;
idm_assert(idm, !idm->bitmap);
idm_assert(idm, !idm->total);
idm_assert(idm, !idm->used);
if (limit == ~0)
limit = GUC_ID_MAX;
else if (limit > GUC_ID_MAX)
return -ERANGE;
else if (!limit)
return -EINVAL;
idm->bitmap = bitmap_zalloc(limit, GFP_KERNEL);
if (!idm->bitmap)
return -ENOMEM;
idm->total = limit;
ret = drmm_add_action_or_reset(&idm_to_xe(idm)->drm, __fini_idm, idm);
if (ret)
return ret;
xe_gt_dbg(idm_to_gt(idm), "using %u GuC ID%s\n",
idm->total, str_plural(idm->total));
return 0;
}
static unsigned int find_last_zero_area(unsigned long *bitmap,
unsigned int total,
unsigned int count)
{
unsigned int found = total;
unsigned int rs, re, range;
for_each_clear_bitrange(rs, re, bitmap, total) {
range = re - rs;
if (range < count)
continue;
found = rs + (range - count);
}
return found;
}
static int idm_reserve_chunk_locked(struct xe_guc_id_mgr *idm,
unsigned int count, unsigned int retain)
{
int id;
idm_assert(idm, count);
lockdep_assert_held(idm_mutex(idm));
if (!idm->total)
return -ENODATA;
if (retain) {
/*
* For IDs reservations (used on PF for VFs) we want to make
* sure there will be at least 'retain' available for the PF
*/
if (idm->used + count + retain > idm->total)
return -EDQUOT;
/*
* ... and we want to reserve highest IDs close to the end.
*/
id = find_last_zero_area(idm->bitmap, idm->total, count);
} else {
/*
* For regular IDs reservations (used by submission code)
* we start searching from the lower range of IDs.
*/
id = bitmap_find_next_zero_area(idm->bitmap, idm->total, 0, count, 0);
}
if (id >= idm->total)
return -ENOSPC;
bitmap_set(idm->bitmap, id, count);
idm->used += count;
return id;
}
static void idm_release_chunk_locked(struct xe_guc_id_mgr *idm,
unsigned int start, unsigned int count)
{
idm_assert(idm, count);
idm_assert(idm, count <= idm->used);
idm_assert(idm, start < idm->total);
idm_assert(idm, start + count - 1 < idm->total);
lockdep_assert_held(idm_mutex(idm));
if (IS_ENABLED(CONFIG_DRM_XE_DEBUG)) {
unsigned int n;
for (n = 0; n < count; n++)
idm_assert(idm, test_bit(start + n, idm->bitmap));
}
bitmap_clear(idm->bitmap, start, count);
idm->used -= count;
}
/**
* xe_guc_id_mgr_reserve_locked() - Reserve one or more GuC context IDs.
* @idm: the &xe_guc_id_mgr
* @count: number of IDs to allocate (can't be 0)
*
* This function is dedicated for the use by the GuC submission code,
* where submission lock is already taken.
*
* Return: ID of allocated GuC context or a negative error code on failure.
*/
int xe_guc_id_mgr_reserve_locked(struct xe_guc_id_mgr *idm, unsigned int count)
{
return idm_reserve_chunk_locked(idm, count, 0);
}
/**
* xe_guc_id_mgr_release_locked() - Release one or more GuC context IDs.
* @idm: the &xe_guc_id_mgr
* @id: the GuC context ID to release
* @count: number of IDs to release (can't be 0)
*
* This function is dedicated for the use by the GuC submission code,
* where submission lock is already taken.
*/
void xe_guc_id_mgr_release_locked(struct xe_guc_id_mgr *idm, unsigned int id,
unsigned int count)
{
return idm_release_chunk_locked(idm, id, count);
}
/**
* xe_guc_id_mgr_reserve() - Reserve a range of GuC context IDs.
* @idm: the &xe_guc_id_mgr
* @count: number of GuC context IDs to reserve (can't be 0)
* @retain: number of GuC context IDs to keep available (can't be 0)
*
* This function is dedicated for the use by the PF driver which expects that
* reserved range of IDs will be contiguous and that there will be at least
* &retain IDs still available for the PF after this reservation.
*
* Return: starting ID of the allocated GuC context ID range or
* a negative error code on failure.
*/
int xe_guc_id_mgr_reserve(struct xe_guc_id_mgr *idm,
unsigned int count, unsigned int retain)
{
int ret;
idm_assert(idm, count);
idm_assert(idm, retain);
mutex_lock(idm_mutex(idm));
ret = idm_reserve_chunk_locked(idm, count, retain);
mutex_unlock(idm_mutex(idm));
return ret;
}
/**
* xe_guc_id_mgr_release() - Release a range of GuC context IDs.
* @idm: the &xe_guc_id_mgr
* @start: the starting ID of GuC context range to release
* @count: number of GuC context IDs to release
*/
void xe_guc_id_mgr_release(struct xe_guc_id_mgr *idm,
unsigned int start, unsigned int count)
{
mutex_lock(idm_mutex(idm));
idm_release_chunk_locked(idm, start, count);
mutex_unlock(idm_mutex(idm));
}
static void idm_print_locked(struct xe_guc_id_mgr *idm, struct drm_printer *p, int indent)
{
unsigned int rs, re;
lockdep_assert_held(idm_mutex(idm));
drm_printf_indent(p, indent, "total %u\n", idm->total);
if (!idm->bitmap)
return;
drm_printf_indent(p, indent, "used %u\n", idm->used);
for_each_set_bitrange(rs, re, idm->bitmap, idm->total)
drm_printf_indent(p, indent, "range %u..%u (%u)\n", rs, re - 1, re - rs);
}
/**
* xe_guc_id_mgr_print() - Print status of GuC ID Manager.
* @idm: the &xe_guc_id_mgr to print
* @p: the &drm_printer to print to
* @indent: tab indentation level
*/
void xe_guc_id_mgr_print(struct xe_guc_id_mgr *idm, struct drm_printer *p, int indent)
{
mutex_lock(idm_mutex(idm));
idm_print_locked(idm, p, indent);
mutex_unlock(idm_mutex(idm));
}
#if IS_BUILTIN(CONFIG_DRM_XE_KUNIT_TEST)
#include "tests/xe_guc_id_mgr_test.c"
#endif
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