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|
// SPDX-License-Identifier: MIT
/*
* Copyright © 2021 Intel Corporation
*/
#include "xe_pci.h"
#include <kunit/static_stub.h>
#include <linux/device/driver.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/pm_runtime.h>
#include <drm/drm_color_mgmt.h>
#include <drm/drm_drv.h>
#include <drm/xe_pciids.h>
#include "regs/xe_gt_regs.h"
#include "xe_device.h"
#include "xe_display.h"
#include "xe_drv.h"
#include "xe_gt.h"
#include "xe_macros.h"
#include "xe_mmio.h"
#include "xe_module.h"
#include "xe_pci_types.h"
#include "xe_pm.h"
#include "xe_sriov.h"
#include "xe_step.h"
#include "xe_tile.h"
enum toggle_d3cold {
D3COLD_DISABLE,
D3COLD_ENABLE,
};
struct xe_subplatform_desc {
enum xe_subplatform subplatform;
const char *name;
const u16 *pciidlist;
};
struct xe_gt_desc {
enum xe_gt_type type;
u32 mmio_adj_limit;
u32 mmio_adj_offset;
};
struct xe_device_desc {
/* Should only ever be set for platforms without GMD_ID */
const struct xe_graphics_desc *graphics;
/* Should only ever be set for platforms without GMD_ID */
const struct xe_media_desc *media;
const char *platform_name;
const struct xe_subplatform_desc *subplatforms;
enum xe_platform platform;
u8 require_force_probe:1;
u8 is_dgfx:1;
u8 has_display:1;
u8 has_heci_gscfi:1;
u8 has_llc:1;
u8 has_mmio_ext:1;
u8 has_sriov:1;
u8 skip_guc_pc:1;
u8 skip_mtcfg:1;
u8 skip_pcode:1;
};
__diag_push();
__diag_ignore_all("-Woverride-init", "Allow field overrides in table");
#define PLATFORM(x) \
.platform = (x), \
.platform_name = #x
#define NOP(x) x
static const struct xe_graphics_desc graphics_xelp = {
.name = "Xe_LP",
.ver = 12,
.rel = 0,
.hw_engine_mask = BIT(XE_HW_ENGINE_RCS0) | BIT(XE_HW_ENGINE_BCS0),
.dma_mask_size = 39,
.va_bits = 48,
.vm_max_level = 3,
};
static const struct xe_graphics_desc graphics_xelpp = {
.name = "Xe_LP+",
.ver = 12,
.rel = 10,
.hw_engine_mask = BIT(XE_HW_ENGINE_RCS0) | BIT(XE_HW_ENGINE_BCS0),
.dma_mask_size = 39,
.va_bits = 48,
.vm_max_level = 3,
};
#define XE_HP_FEATURES \
.has_range_tlb_invalidation = true, \
.has_flat_ccs = true, \
.dma_mask_size = 46, \
.va_bits = 48, \
.vm_max_level = 3
static const struct xe_graphics_desc graphics_xehpg = {
.name = "Xe_HPG",
.ver = 12,
.rel = 55,
.hw_engine_mask =
BIT(XE_HW_ENGINE_RCS0) | BIT(XE_HW_ENGINE_BCS0) |
BIT(XE_HW_ENGINE_CCS0) | BIT(XE_HW_ENGINE_CCS1) |
BIT(XE_HW_ENGINE_CCS2) | BIT(XE_HW_ENGINE_CCS3),
XE_HP_FEATURES,
.vram_flags = XE_VRAM_FLAGS_NEED64K,
};
static const struct xe_graphics_desc graphics_xehpc = {
.name = "Xe_HPC",
.ver = 12,
.rel = 60,
.hw_engine_mask =
BIT(XE_HW_ENGINE_BCS0) | BIT(XE_HW_ENGINE_BCS1) |
BIT(XE_HW_ENGINE_BCS2) | BIT(XE_HW_ENGINE_BCS3) |
BIT(XE_HW_ENGINE_BCS4) | BIT(XE_HW_ENGINE_BCS5) |
BIT(XE_HW_ENGINE_BCS6) | BIT(XE_HW_ENGINE_BCS7) |
BIT(XE_HW_ENGINE_BCS8) |
BIT(XE_HW_ENGINE_CCS0) | BIT(XE_HW_ENGINE_CCS1) |
BIT(XE_HW_ENGINE_CCS2) | BIT(XE_HW_ENGINE_CCS3),
XE_HP_FEATURES,
.dma_mask_size = 52,
.max_remote_tiles = 1,
.va_bits = 57,
.vm_max_level = 4,
.vram_flags = XE_VRAM_FLAGS_NEED64K,
.has_asid = 1,
.has_flat_ccs = 0,
.has_usm = 1,
};
static const struct xe_graphics_desc graphics_xelpg = {
.name = "Xe_LPG",
.hw_engine_mask =
BIT(XE_HW_ENGINE_RCS0) | BIT(XE_HW_ENGINE_BCS0) |
BIT(XE_HW_ENGINE_CCS0),
XE_HP_FEATURES,
.has_flat_ccs = 0,
};
#define XE2_GFX_FEATURES \
.dma_mask_size = 46, \
.has_asid = 1, \
.has_flat_ccs = 1, \
.has_range_tlb_invalidation = 1, \
.has_usm = 0 /* FIXME: implementation missing */, \
.va_bits = 48, \
.vm_max_level = 4, \
.hw_engine_mask = \
BIT(XE_HW_ENGINE_RCS0) | \
BIT(XE_HW_ENGINE_BCS8) | BIT(XE_HW_ENGINE_BCS0) | \
GENMASK(XE_HW_ENGINE_CCS3, XE_HW_ENGINE_CCS0)
static const struct xe_graphics_desc graphics_xe2 = {
.name = "Xe2_LPG",
XE2_GFX_FEATURES,
};
static const struct xe_media_desc media_xem = {
.name = "Xe_M",
.ver = 12,
.rel = 0,
.hw_engine_mask =
BIT(XE_HW_ENGINE_VCS0) | BIT(XE_HW_ENGINE_VCS2) |
BIT(XE_HW_ENGINE_VECS0),
};
static const struct xe_media_desc media_xehpm = {
.name = "Xe_HPM",
.ver = 12,
.rel = 55,
.hw_engine_mask =
BIT(XE_HW_ENGINE_VCS0) | BIT(XE_HW_ENGINE_VCS2) |
BIT(XE_HW_ENGINE_VECS0) | BIT(XE_HW_ENGINE_VECS1),
};
static const struct xe_media_desc media_xelpmp = {
.name = "Xe_LPM+",
.hw_engine_mask =
BIT(XE_HW_ENGINE_VCS0) | BIT(XE_HW_ENGINE_VCS2) |
BIT(XE_HW_ENGINE_VECS0) | BIT(XE_HW_ENGINE_GSCCS0)
};
static const struct xe_media_desc media_xe2 = {
.name = "Xe2_LPM",
.hw_engine_mask =
BIT(XE_HW_ENGINE_VCS0) | BIT(XE_HW_ENGINE_VECS0), /* TODO: GSC0 */
};
static const struct xe_device_desc tgl_desc = {
.graphics = &graphics_xelp,
.media = &media_xem,
PLATFORM(XE_TIGERLAKE),
.has_display = true,
.has_llc = true,
.require_force_probe = true,
};
static const struct xe_device_desc rkl_desc = {
.graphics = &graphics_xelp,
.media = &media_xem,
PLATFORM(XE_ROCKETLAKE),
.has_display = true,
.has_llc = true,
.require_force_probe = true,
};
static const u16 adls_rpls_ids[] = { XE_RPLS_IDS(NOP), 0 };
static const struct xe_device_desc adl_s_desc = {
.graphics = &graphics_xelp,
.media = &media_xem,
PLATFORM(XE_ALDERLAKE_S),
.has_display = true,
.has_llc = true,
.require_force_probe = true,
.subplatforms = (const struct xe_subplatform_desc[]) {
{ XE_SUBPLATFORM_ALDERLAKE_S_RPLS, "RPLS", adls_rpls_ids },
{},
},
};
static const u16 adlp_rplu_ids[] = { XE_RPLU_IDS(NOP), 0 };
static const struct xe_device_desc adl_p_desc = {
.graphics = &graphics_xelp,
.media = &media_xem,
PLATFORM(XE_ALDERLAKE_P),
.has_display = true,
.has_llc = true,
.require_force_probe = true,
.subplatforms = (const struct xe_subplatform_desc[]) {
{ XE_SUBPLATFORM_ALDERLAKE_P_RPLU, "RPLU", adlp_rplu_ids },
{},
},
};
static const struct xe_device_desc adl_n_desc = {
.graphics = &graphics_xelp,
.media = &media_xem,
PLATFORM(XE_ALDERLAKE_N),
.has_display = true,
.has_llc = true,
.require_force_probe = true,
};
#define DGFX_FEATURES \
.is_dgfx = 1
static const struct xe_device_desc dg1_desc = {
.graphics = &graphics_xelpp,
.media = &media_xem,
DGFX_FEATURES,
PLATFORM(XE_DG1),
.has_display = true,
.has_heci_gscfi = 1,
.require_force_probe = true,
};
static const u16 dg2_g10_ids[] = { XE_DG2_G10_IDS(NOP), XE_ATS_M150_IDS(NOP), 0 };
static const u16 dg2_g11_ids[] = { XE_DG2_G11_IDS(NOP), XE_ATS_M75_IDS(NOP), 0 };
static const u16 dg2_g12_ids[] = { XE_DG2_G12_IDS(NOP), 0 };
#define DG2_FEATURES \
DGFX_FEATURES, \
PLATFORM(XE_DG2), \
.has_heci_gscfi = 1, \
.subplatforms = (const struct xe_subplatform_desc[]) { \
{ XE_SUBPLATFORM_DG2_G10, "G10", dg2_g10_ids }, \
{ XE_SUBPLATFORM_DG2_G11, "G11", dg2_g11_ids }, \
{ XE_SUBPLATFORM_DG2_G12, "G12", dg2_g12_ids }, \
{ } \
}
static const struct xe_device_desc ats_m_desc = {
.graphics = &graphics_xehpg,
.media = &media_xehpm,
.require_force_probe = true,
DG2_FEATURES,
.has_display = false,
};
static const struct xe_device_desc dg2_desc = {
.graphics = &graphics_xehpg,
.media = &media_xehpm,
.require_force_probe = true,
DG2_FEATURES,
.has_display = true,
};
static const __maybe_unused struct xe_device_desc pvc_desc = {
.graphics = &graphics_xehpc,
DGFX_FEATURES,
PLATFORM(XE_PVC),
.has_display = false,
.has_heci_gscfi = 1,
.require_force_probe = true,
};
static const struct xe_device_desc mtl_desc = {
/* .graphics and .media determined via GMD_ID */
.require_force_probe = true,
PLATFORM(XE_METEORLAKE),
.has_display = true,
};
static const struct xe_device_desc lnl_desc = {
PLATFORM(XE_LUNARLAKE),
.require_force_probe = true,
};
#undef PLATFORM
__diag_pop();
/* Map of GMD_ID values to graphics IP */
static struct gmdid_map graphics_ip_map[] = {
{ 1270, &graphics_xelpg },
{ 1271, &graphics_xelpg },
{ 2004, &graphics_xe2 },
};
/* Map of GMD_ID values to media IP */
static struct gmdid_map media_ip_map[] = {
{ 1300, &media_xelpmp },
{ 2000, &media_xe2 },
};
#define INTEL_VGA_DEVICE(id, info) { \
PCI_DEVICE(PCI_VENDOR_ID_INTEL, id), \
PCI_BASE_CLASS_DISPLAY << 16, 0xff << 16, \
(unsigned long) info }
/*
* Make sure any device matches here are from most specific to most
* general. For example, since the Quanta match is based on the subsystem
* and subvendor IDs, we need it to come before the more general IVB
* PCI ID matches, otherwise we'll use the wrong info struct above.
*/
static const struct pci_device_id pciidlist[] = {
XE_TGL_IDS(INTEL_VGA_DEVICE, &tgl_desc),
XE_RKL_IDS(INTEL_VGA_DEVICE, &rkl_desc),
XE_ADLS_IDS(INTEL_VGA_DEVICE, &adl_s_desc),
XE_ADLP_IDS(INTEL_VGA_DEVICE, &adl_p_desc),
XE_ADLN_IDS(INTEL_VGA_DEVICE, &adl_n_desc),
XE_RPLP_IDS(INTEL_VGA_DEVICE, &adl_p_desc),
XE_RPLS_IDS(INTEL_VGA_DEVICE, &adl_s_desc),
XE_DG1_IDS(INTEL_VGA_DEVICE, &dg1_desc),
XE_ATS_M_IDS(INTEL_VGA_DEVICE, &ats_m_desc),
XE_DG2_IDS(INTEL_VGA_DEVICE, &dg2_desc),
XE_MTL_IDS(INTEL_VGA_DEVICE, &mtl_desc),
XE_LNL_IDS(INTEL_VGA_DEVICE, &lnl_desc),
{ }
};
MODULE_DEVICE_TABLE(pci, pciidlist);
#undef INTEL_VGA_DEVICE
/* is device_id present in comma separated list of ids */
static bool device_id_in_list(u16 device_id, const char *devices, bool negative)
{
char *s, *p, *tok;
bool ret;
if (!devices || !*devices)
return false;
/* match everything */
if (negative && strcmp(devices, "!*") == 0)
return true;
if (!negative && strcmp(devices, "*") == 0)
return true;
s = kstrdup(devices, GFP_KERNEL);
if (!s)
return false;
for (p = s, ret = false; (tok = strsep(&p, ",")) != NULL; ) {
u16 val;
if (negative && tok[0] == '!')
tok++;
else if ((negative && tok[0] != '!') ||
(!negative && tok[0] == '!'))
continue;
if (kstrtou16(tok, 16, &val) == 0 && val == device_id) {
ret = true;
break;
}
}
kfree(s);
return ret;
}
static bool id_forced(u16 device_id)
{
return device_id_in_list(device_id, xe_modparam.force_probe, false);
}
static bool id_blocked(u16 device_id)
{
return device_id_in_list(device_id, xe_modparam.force_probe, true);
}
static const struct xe_subplatform_desc *
find_subplatform(const struct xe_device *xe, const struct xe_device_desc *desc)
{
const struct xe_subplatform_desc *sp;
const u16 *id;
for (sp = desc->subplatforms; sp && sp->subplatform; sp++)
for (id = sp->pciidlist; *id; id++)
if (*id == xe->info.devid)
return sp;
return NULL;
}
enum xe_gmdid_type {
GMDID_GRAPHICS,
GMDID_MEDIA
};
static void read_gmdid(struct xe_device *xe, enum xe_gmdid_type type, u32 *ver, u32 *revid)
{
struct xe_gt *gt = xe_root_mmio_gt(xe);
struct xe_reg gmdid_reg = GMD_ID;
u32 val;
KUNIT_STATIC_STUB_REDIRECT(read_gmdid, xe, type, ver, revid);
if (type == GMDID_MEDIA)
gmdid_reg.addr += MEDIA_GT_GSI_OFFSET;
val = xe_mmio_read32(gt, gmdid_reg);
*ver = REG_FIELD_GET(GMD_ID_ARCH_MASK, val) * 100 + REG_FIELD_GET(GMD_ID_RELEASE_MASK, val);
*revid = REG_FIELD_GET(GMD_ID_REVID, val);
}
/*
* Pre-GMD_ID platform: device descriptor already points to the appropriate
* graphics descriptor. Simply forward the description and calculate the version
* appropriately. "graphics" should be present in all such platforms, while
* media is optional.
*/
static void handle_pre_gmdid(struct xe_device *xe,
const struct xe_graphics_desc *graphics,
const struct xe_media_desc *media)
{
xe->info.graphics_verx100 = graphics->ver * 100 + graphics->rel;
if (media)
xe->info.media_verx100 = media->ver * 100 + media->rel;
}
/*
* GMD_ID platform: read IP version from hardware and select graphics descriptor
* based on the result.
*/
static void handle_gmdid(struct xe_device *xe,
const struct xe_graphics_desc **graphics,
const struct xe_media_desc **media,
u32 *graphics_revid,
u32 *media_revid)
{
u32 ver;
read_gmdid(xe, GMDID_GRAPHICS, &ver, graphics_revid);
for (int i = 0; i < ARRAY_SIZE(graphics_ip_map); i++) {
if (ver == graphics_ip_map[i].ver) {
xe->info.graphics_verx100 = ver;
*graphics = graphics_ip_map[i].ip;
break;
}
}
if (!xe->info.graphics_verx100) {
drm_err(&xe->drm, "Hardware reports unknown graphics version %u.%02u\n",
ver / 100, ver % 100);
}
read_gmdid(xe, GMDID_MEDIA, &ver, media_revid);
/* Media may legitimately be fused off / not present */
if (ver == 0)
return;
for (int i = 0; i < ARRAY_SIZE(media_ip_map); i++) {
if (ver == media_ip_map[i].ver) {
xe->info.media_verx100 = ver;
*media = media_ip_map[i].ip;
break;
}
}
if (!xe->info.media_verx100) {
drm_err(&xe->drm, "Hardware reports unknown media version %u.%02u\n",
ver / 100, ver % 100);
}
}
/*
* Initialize device info content that only depends on static driver_data
* passed to the driver at probe time from PCI ID table.
*/
static int xe_info_init_early(struct xe_device *xe,
const struct xe_device_desc *desc,
const struct xe_subplatform_desc *subplatform_desc)
{
int err;
xe->info.platform = desc->platform;
xe->info.subplatform = subplatform_desc ?
subplatform_desc->subplatform : XE_SUBPLATFORM_NONE;
xe->info.is_dgfx = desc->is_dgfx;
xe->info.has_heci_gscfi = desc->has_heci_gscfi;
xe->info.has_llc = desc->has_llc;
xe->info.has_mmio_ext = desc->has_mmio_ext;
xe->info.has_sriov = desc->has_sriov;
xe->info.skip_guc_pc = desc->skip_guc_pc;
xe->info.skip_mtcfg = desc->skip_mtcfg;
xe->info.skip_pcode = desc->skip_pcode;
xe->info.enable_display = IS_ENABLED(CONFIG_DRM_XE_DISPLAY) &&
xe_modparam.enable_display &&
desc->has_display;
err = xe_tile_init_early(xe_device_get_root_tile(xe), xe, 0);
if (err)
return err;
return 0;
}
/*
* Initialize device info content that does require knowledge about
* graphics / media IP version.
* Make sure that GT / tile structures allocated by the driver match the data
* present in device info.
*/
static int xe_info_init(struct xe_device *xe,
const struct xe_graphics_desc *graphics_desc,
const struct xe_media_desc *media_desc)
{
u32 graphics_gmdid_revid = 0, media_gmdid_revid = 0;
struct xe_tile *tile;
struct xe_gt *gt;
u8 id;
/*
* If this platform supports GMD_ID, we'll detect the proper IP
* descriptor to use from hardware registers. desc->graphics will only
* ever be set at this point for platforms before GMD_ID. In that case
* the IP descriptions and versions are simply derived from that.
*/
if (graphics_desc) {
handle_pre_gmdid(xe, graphics_desc, media_desc);
xe->info.step = xe_step_pre_gmdid_get(xe);
} else {
xe_assert(xe, !media_desc);
handle_gmdid(xe, &graphics_desc, &media_desc,
&graphics_gmdid_revid, &media_gmdid_revid);
xe->info.step = xe_step_gmdid_get(xe,
graphics_gmdid_revid,
media_gmdid_revid);
}
/*
* If we couldn't detect the graphics IP, that's considered a fatal
* error and we should abort driver load. Failing to detect media
* IP is non-fatal; we'll just proceed without enabling media support.
*/
if (!graphics_desc)
return -ENODEV;
xe->info.graphics_name = graphics_desc->name;
xe->info.media_name = media_desc ? media_desc->name : "none";
xe->info.tile_mmio_ext_size = graphics_desc->tile_mmio_ext_size;
xe->info.dma_mask_size = graphics_desc->dma_mask_size;
xe->info.vram_flags = graphics_desc->vram_flags;
xe->info.va_bits = graphics_desc->va_bits;
xe->info.vm_max_level = graphics_desc->vm_max_level;
xe->info.has_asid = graphics_desc->has_asid;
xe->info.has_flat_ccs = graphics_desc->has_flat_ccs;
xe->info.has_range_tlb_invalidation = graphics_desc->has_range_tlb_invalidation;
xe->info.has_usm = graphics_desc->has_usm;
/*
* All platforms have at least one primary GT. Any platform with media
* version 13 or higher has an additional dedicated media GT. And
* depending on the graphics IP there may be additional "remote tiles."
* All of these together determine the overall GT count.
*
* FIXME: 'tile_count' here is misnamed since the rest of the driver
* treats it as the number of GTs rather than just the number of tiles.
*/
xe->info.tile_count = 1 + graphics_desc->max_remote_tiles;
for_each_remote_tile(tile, xe, id) {
int err;
err = xe_tile_init_early(tile, xe, id);
if (err)
return err;
}
for_each_tile(tile, xe, id) {
gt = tile->primary_gt;
gt->info.id = xe->info.gt_count++;
gt->info.type = XE_GT_TYPE_MAIN;
gt->info.__engine_mask = graphics_desc->hw_engine_mask;
if (MEDIA_VER(xe) < 13 && media_desc)
gt->info.__engine_mask |= media_desc->hw_engine_mask;
if (MEDIA_VER(xe) < 13 || !media_desc)
continue;
/*
* Allocate and setup media GT for platforms with standalone
* media.
*/
tile->media_gt = xe_gt_alloc(tile);
if (IS_ERR(tile->media_gt))
return PTR_ERR(tile->media_gt);
gt = tile->media_gt;
gt->info.type = XE_GT_TYPE_MEDIA;
gt->info.__engine_mask = media_desc->hw_engine_mask;
gt->mmio.adj_offset = MEDIA_GT_GSI_OFFSET;
gt->mmio.adj_limit = MEDIA_GT_GSI_LENGTH;
/*
* FIXME: At the moment multi-tile and standalone media are
* mutually exclusive on current platforms. We'll need to
* come up with a better way to number GTs if we ever wind
* up with platforms that support both together.
*/
drm_WARN_ON(&xe->drm, id != 0);
gt->info.id = xe->info.gt_count++;
}
return 0;
}
static void xe_pci_remove(struct pci_dev *pdev)
{
struct xe_device *xe;
xe = pci_get_drvdata(pdev);
if (!xe) /* driver load aborted, nothing to cleanup */
return;
xe_device_remove(xe);
xe_pm_runtime_fini(xe);
pci_set_drvdata(pdev, NULL);
}
static int xe_pci_probe(struct pci_dev *pdev, const struct pci_device_id *ent)
{
const struct xe_device_desc *desc = (const void *)ent->driver_data;
const struct xe_subplatform_desc *subplatform_desc;
struct xe_device *xe;
int err;
if (desc->require_force_probe && !id_forced(pdev->device)) {
dev_info(&pdev->dev,
"Your graphics device %04x is not officially supported\n"
"by xe driver in this kernel version. To force Xe probe,\n"
"use xe.force_probe='%04x' and i915.force_probe='!%04x'\n"
"module parameters or CONFIG_DRM_XE_FORCE_PROBE='%04x' and\n"
"CONFIG_DRM_I915_FORCE_PROBE='!%04x' configuration options.\n",
pdev->device, pdev->device, pdev->device,
pdev->device, pdev->device);
return -ENODEV;
}
if (id_blocked(pdev->device)) {
dev_info(&pdev->dev, "Probe blocked for device [%04x:%04x].\n",
pdev->vendor, pdev->device);
return -ENODEV;
}
if (xe_display_driver_probe_defer(pdev))
return -EPROBE_DEFER;
err = pcim_enable_device(pdev);
if (err)
return err;
xe = xe_device_create(pdev, ent);
if (IS_ERR(xe))
return PTR_ERR(xe);
pci_set_drvdata(pdev, xe);
xe_pm_assert_unbounded_bridge(xe);
subplatform_desc = find_subplatform(xe, desc);
pci_set_master(pdev);
err = xe_info_init_early(xe, desc, subplatform_desc);
if (err)
return err;
xe_sriov_probe_early(xe, desc->has_sriov);
err = xe_device_probe_early(xe);
if (err)
return err;
err = xe_info_init(xe, desc->graphics, desc->media);
if (err)
return err;
xe_display_probe(xe);
drm_dbg(&xe->drm, "%s %s %04x:%04x dgfx:%d gfx:%s (%d.%02d) media:%s (%d.%02d) display:%s dma_m_s:%d tc:%d gscfi:%d",
desc->platform_name,
subplatform_desc ? subplatform_desc->name : "",
xe->info.devid, xe->info.revid,
xe->info.is_dgfx,
xe->info.graphics_name,
xe->info.graphics_verx100 / 100,
xe->info.graphics_verx100 % 100,
xe->info.media_name,
xe->info.media_verx100 / 100,
xe->info.media_verx100 % 100,
str_yes_no(xe->info.enable_display),
xe->info.dma_mask_size, xe->info.tile_count,
xe->info.has_heci_gscfi);
drm_dbg(&xe->drm, "Stepping = (G:%s, M:%s, D:%s, B:%s)\n",
xe_step_name(xe->info.step.graphics),
xe_step_name(xe->info.step.media),
xe_step_name(xe->info.step.display),
xe_step_name(xe->info.step.basedie));
drm_dbg(&xe->drm, "SR-IOV support: %s (mode: %s)\n",
str_yes_no(xe_device_has_sriov(xe)),
xe_sriov_mode_to_string(xe_device_sriov_mode(xe)));
err = xe_device_probe(xe);
if (err)
return err;
xe_pm_init(xe);
drm_dbg(&xe->drm, "d3cold: capable=%s\n",
str_yes_no(xe->d3cold.capable));
return 0;
}
static void xe_pci_shutdown(struct pci_dev *pdev)
{
xe_device_shutdown(pdev_to_xe_device(pdev));
}
#ifdef CONFIG_PM_SLEEP
static void d3cold_toggle(struct pci_dev *pdev, enum toggle_d3cold toggle)
{
struct xe_device *xe = pdev_to_xe_device(pdev);
struct pci_dev *root_pdev;
if (!xe->d3cold.capable)
return;
root_pdev = pcie_find_root_port(pdev);
if (!root_pdev)
return;
switch (toggle) {
case D3COLD_DISABLE:
pci_d3cold_disable(root_pdev);
break;
case D3COLD_ENABLE:
pci_d3cold_enable(root_pdev);
break;
}
}
static int xe_pci_suspend(struct device *dev)
{
struct pci_dev *pdev = to_pci_dev(dev);
int err;
err = xe_pm_suspend(pdev_to_xe_device(pdev));
if (err)
return err;
/*
* Enabling D3Cold is needed for S2Idle/S0ix.
* It is save to allow here since xe_pm_suspend has evicted
* the local memory and the direct complete optimization is disabled.
*/
d3cold_toggle(pdev, D3COLD_ENABLE);
pci_save_state(pdev);
pci_disable_device(pdev);
return 0;
}
static int xe_pci_resume(struct device *dev)
{
struct pci_dev *pdev = to_pci_dev(dev);
int err;
/* Give back the D3Cold decision to the runtime P M*/
d3cold_toggle(pdev, D3COLD_DISABLE);
err = pci_set_power_state(pdev, PCI_D0);
if (err)
return err;
err = pci_enable_device(pdev);
if (err)
return err;
pci_set_master(pdev);
err = xe_pm_resume(pdev_to_xe_device(pdev));
if (err)
return err;
return 0;
}
static int xe_pci_runtime_suspend(struct device *dev)
{
struct pci_dev *pdev = to_pci_dev(dev);
struct xe_device *xe = pdev_to_xe_device(pdev);
int err;
err = xe_pm_runtime_suspend(xe);
if (err)
return err;
pci_save_state(pdev);
if (xe->d3cold.allowed) {
d3cold_toggle(pdev, D3COLD_ENABLE);
pci_disable_device(pdev);
pci_ignore_hotplug(pdev);
pci_set_power_state(pdev, PCI_D3cold);
} else {
d3cold_toggle(pdev, D3COLD_DISABLE);
pci_set_power_state(pdev, PCI_D3hot);
}
return 0;
}
static int xe_pci_runtime_resume(struct device *dev)
{
struct pci_dev *pdev = to_pci_dev(dev);
struct xe_device *xe = pdev_to_xe_device(pdev);
int err;
err = pci_set_power_state(pdev, PCI_D0);
if (err)
return err;
pci_restore_state(pdev);
if (xe->d3cold.allowed) {
err = pci_enable_device(pdev);
if (err)
return err;
pci_set_master(pdev);
}
return xe_pm_runtime_resume(xe);
}
static int xe_pci_runtime_idle(struct device *dev)
{
struct pci_dev *pdev = to_pci_dev(dev);
struct xe_device *xe = pdev_to_xe_device(pdev);
xe_pm_d3cold_allowed_toggle(xe);
return 0;
}
static const struct dev_pm_ops xe_pm_ops = {
SET_SYSTEM_SLEEP_PM_OPS(xe_pci_suspend, xe_pci_resume)
SET_RUNTIME_PM_OPS(xe_pci_runtime_suspend, xe_pci_runtime_resume, xe_pci_runtime_idle)
};
#endif
static struct pci_driver xe_pci_driver = {
.name = DRIVER_NAME,
.id_table = pciidlist,
.probe = xe_pci_probe,
.remove = xe_pci_remove,
.shutdown = xe_pci_shutdown,
#ifdef CONFIG_PM_SLEEP
.driver.pm = &xe_pm_ops,
#endif
};
int xe_register_pci_driver(void)
{
return pci_register_driver(&xe_pci_driver);
}
void xe_unregister_pci_driver(void)
{
pci_unregister_driver(&xe_pci_driver);
}
#if IS_ENABLED(CONFIG_DRM_XE_KUNIT_TEST)
#include "tests/xe_pci.c"
#endif
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