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|
// SPDX-License-Identifier: MIT
/*
* Copyright © 2022 Intel Corporation
*/
#include <linux/bitfield.h>
#include <linux/firmware.h>
#include <drm/drm_managed.h>
#include "regs/xe_guc_regs.h"
#include "xe_bo.h"
#include "xe_device_types.h"
#include "xe_force_wake.h"
#include "xe_gsc.h"
#include "xe_gt.h"
#include "xe_gt_printk.h"
#include "xe_map.h"
#include "xe_mmio.h"
#include "xe_module.h"
#include "xe_sriov.h"
#include "xe_uc_fw.h"
/*
* List of required GuC and HuC binaries per-platform. They must be ordered
* based on platform, from newer to older.
*
* Versioning follows the guidelines from
* Documentation/driver-api/firmware/firmware-usage-guidelines.rst. There is a
* distinction for platforms being officially supported by the driver or not.
* Platforms not available publicly or not yet officially supported by the
* driver (under force-probe), use the mmp_ver(): the firmware autoselect logic
* will select the firmware from disk with filename that matches the full
* "mpp version", i.e. major.minor.patch. mmp_ver() should only be used for
* this case.
*
* For platforms officially supported by the driver, the filename always only
* ever contains the major version (GuC) or no version at all (HuC).
*
* After loading the file, the driver parses the versions embedded in the blob.
* The major version needs to match a major version supported by the driver (if
* any). The minor version is also checked and a notice emitted to the log if
* the version found is smaller than the version wanted. This is done only for
* informational purposes so users may have a chance to upgrade, but the driver
* still loads and use the older firmware.
*
* Examples:
*
* 1) Platform officially supported by i915 - using Tigerlake as example.
* Driver loads the following firmware blobs from disk:
*
* - i915/tgl_guc_<major>.bin
* - i915/tgl_huc.bin
*
* <major> number for GuC is checked that it matches the version inside
* the blob. <minor> version is checked and if smaller than the expected
* an info message is emitted about that.
*
* 1) XE_<FUTUREINTELPLATFORM>, still under require_force_probe. Using
* "wipplat" as a short-name. Driver loads the following firmware blobs
* from disk:
*
* - xe/wipplat_guc_<major>.<minor>.<patch>.bin
* - xe/wipplat_huc_<major>.<minor>.<patch>.bin
*
* <major> and <minor> are checked that they match the version inside
* the blob. Both of them need to match exactly what the driver is
* expecting, otherwise it fails.
*
* 3) Platform officially supported by xe and out of force-probe. Using
* "plat" as a short-name. Except for the different directory, the
* behavior is the same as (1). Driver loads the following firmware
* blobs from disk:
*
* - xe/plat_guc_<major>.bin
* - xe/plat_huc.bin
*
* <major> number for GuC is checked that it matches the version inside
* the blob. <minor> version is checked and if smaller than the expected
* an info message is emitted about that.
*
* For the platforms already released with a major version, they should never be
* removed from the table. Instead new entries with newer versions may be added
* before them, so they take precedence.
*
* TODO: Currently there's no fallback on major version. That's because xe
* driver only supports the one major version of each firmware in the table.
* This needs to be fixed when the major version of GuC is updated.
*/
struct uc_fw_entry {
enum xe_platform platform;
struct {
const char *path;
u16 major;
u16 minor;
u16 patch;
bool full_ver_required;
};
};
struct fw_blobs_by_type {
const struct uc_fw_entry *entries;
u32 count;
};
#define XE_GUC_FIRMWARE_DEFS(fw_def, mmp_ver, major_ver) \
fw_def(LUNARLAKE, major_ver(xe, guc, lnl, 70, 19, 2)) \
fw_def(METEORLAKE, major_ver(i915, guc, mtl, 70, 19, 2)) \
fw_def(DG2, major_ver(i915, guc, dg2, 70, 19, 2)) \
fw_def(DG1, major_ver(i915, guc, dg1, 70, 19, 2)) \
fw_def(ALDERLAKE_N, major_ver(i915, guc, tgl, 70, 19, 2)) \
fw_def(ALDERLAKE_P, major_ver(i915, guc, adlp, 70, 19, 2)) \
fw_def(ALDERLAKE_S, major_ver(i915, guc, tgl, 70, 19, 2)) \
fw_def(ROCKETLAKE, major_ver(i915, guc, tgl, 70, 19, 2)) \
fw_def(TIGERLAKE, major_ver(i915, guc, tgl, 70, 19, 2))
#define XE_HUC_FIRMWARE_DEFS(fw_def, mmp_ver, no_ver) \
fw_def(METEORLAKE, no_ver(i915, huc_gsc, mtl)) \
fw_def(DG1, no_ver(i915, huc, dg1)) \
fw_def(ALDERLAKE_P, no_ver(i915, huc, tgl)) \
fw_def(ALDERLAKE_S, no_ver(i915, huc, tgl)) \
fw_def(ROCKETLAKE, no_ver(i915, huc, tgl)) \
fw_def(TIGERLAKE, no_ver(i915, huc, tgl))
/* for the GSC FW we match the compatibility version and not the release one */
#define XE_GSC_FIRMWARE_DEFS(fw_def, major_ver) \
fw_def(METEORLAKE, major_ver(i915, gsc, mtl, 1, 0, 0))
#define MAKE_FW_PATH(dir__, uc__, shortname__, version__) \
__stringify(dir__) "/" __stringify(shortname__) "_" __stringify(uc__) version__ ".bin"
#define fw_filename_mmp_ver(dir_, uc_, shortname_, a, b, c) \
MAKE_FW_PATH(dir_, uc_, shortname_, "_" __stringify(a ## . ## b ## . ## c))
#define fw_filename_major_ver(dir_, uc_, shortname_, a, b, c) \
MAKE_FW_PATH(dir_, uc_, shortname_, "_" __stringify(a))
#define fw_filename_no_ver(dir_, uc_, shortname_) \
MAKE_FW_PATH(dir_, uc_, shortname_, "")
#define uc_fw_entry_mmp_ver(dir_, uc_, shortname_, a, b, c) \
{ fw_filename_mmp_ver(dir_, uc_, shortname_, a, b, c), \
a, b, c, true }
#define uc_fw_entry_major_ver(dir_, uc_, shortname_, a, b, c) \
{ fw_filename_major_ver(dir_, uc_, shortname_, a, b, c), \
a, b, c }
#define uc_fw_entry_no_ver(dir_, uc_, shortname_) \
{ fw_filename_no_ver(dir_, uc_, shortname_), \
0, 0 }
/* All blobs need to be declared via MODULE_FIRMWARE() */
#define XE_UC_MODULE_FIRMWARE(platform__, fw_filename) \
MODULE_FIRMWARE(fw_filename);
#define XE_UC_FW_ENTRY(platform__, entry__) \
{ \
.platform = XE_ ## platform__, \
entry__, \
},
XE_GUC_FIRMWARE_DEFS(XE_UC_MODULE_FIRMWARE,
fw_filename_mmp_ver, fw_filename_major_ver)
XE_HUC_FIRMWARE_DEFS(XE_UC_MODULE_FIRMWARE,
fw_filename_mmp_ver, fw_filename_no_ver)
XE_GSC_FIRMWARE_DEFS(XE_UC_MODULE_FIRMWARE, fw_filename_major_ver)
static struct xe_gt *
__uc_fw_to_gt(struct xe_uc_fw *uc_fw, enum xe_uc_fw_type type)
{
XE_WARN_ON(type >= XE_UC_FW_NUM_TYPES);
switch (type) {
case XE_UC_FW_TYPE_GUC:
return container_of(uc_fw, struct xe_gt, uc.guc.fw);
case XE_UC_FW_TYPE_HUC:
return container_of(uc_fw, struct xe_gt, uc.huc.fw);
case XE_UC_FW_TYPE_GSC:
return container_of(uc_fw, struct xe_gt, uc.gsc.fw);
default:
return NULL;
}
}
static struct xe_gt *uc_fw_to_gt(struct xe_uc_fw *uc_fw)
{
return __uc_fw_to_gt(uc_fw, uc_fw->type);
}
static struct xe_device *uc_fw_to_xe(struct xe_uc_fw *uc_fw)
{
return gt_to_xe(uc_fw_to_gt(uc_fw));
}
static void
uc_fw_auto_select(struct xe_device *xe, struct xe_uc_fw *uc_fw)
{
static const struct uc_fw_entry entries_guc[] = {
XE_GUC_FIRMWARE_DEFS(XE_UC_FW_ENTRY,
uc_fw_entry_mmp_ver,
uc_fw_entry_major_ver)
};
static const struct uc_fw_entry entries_huc[] = {
XE_HUC_FIRMWARE_DEFS(XE_UC_FW_ENTRY,
uc_fw_entry_mmp_ver,
uc_fw_entry_no_ver)
};
static const struct uc_fw_entry entries_gsc[] = {
XE_GSC_FIRMWARE_DEFS(XE_UC_FW_ENTRY, uc_fw_entry_major_ver)
};
static const struct fw_blobs_by_type blobs_all[XE_UC_FW_NUM_TYPES] = {
[XE_UC_FW_TYPE_GUC] = { entries_guc, ARRAY_SIZE(entries_guc) },
[XE_UC_FW_TYPE_HUC] = { entries_huc, ARRAY_SIZE(entries_huc) },
[XE_UC_FW_TYPE_GSC] = { entries_gsc, ARRAY_SIZE(entries_gsc) },
};
static const struct uc_fw_entry *entries;
enum xe_platform p = xe->info.platform;
u32 count;
int i;
xe_assert(xe, uc_fw->type < ARRAY_SIZE(blobs_all));
entries = blobs_all[uc_fw->type].entries;
count = blobs_all[uc_fw->type].count;
for (i = 0; i < count && p <= entries[i].platform; i++) {
if (p == entries[i].platform) {
uc_fw->path = entries[i].path;
uc_fw->versions.wanted.major = entries[i].major;
uc_fw->versions.wanted.minor = entries[i].minor;
uc_fw->versions.wanted.patch = entries[i].patch;
uc_fw->full_ver_required = entries[i].full_ver_required;
if (uc_fw->type == XE_UC_FW_TYPE_GSC)
uc_fw->versions.wanted_type = XE_UC_FW_VER_COMPATIBILITY;
else
uc_fw->versions.wanted_type = XE_UC_FW_VER_RELEASE;
break;
}
}
}
static void
uc_fw_override(struct xe_uc_fw *uc_fw)
{
char *path_override = NULL;
/* empty string disables, but it's not allowed for GuC */
switch (uc_fw->type) {
case XE_UC_FW_TYPE_GUC:
if (xe_modparam.guc_firmware_path && *xe_modparam.guc_firmware_path)
path_override = xe_modparam.guc_firmware_path;
break;
case XE_UC_FW_TYPE_HUC:
path_override = xe_modparam.huc_firmware_path;
break;
case XE_UC_FW_TYPE_GSC:
path_override = xe_modparam.gsc_firmware_path;
break;
default:
break;
}
if (path_override) {
uc_fw->path = path_override;
uc_fw->user_overridden = true;
}
}
/**
* xe_uc_fw_copy_rsa - copy fw RSA to buffer
*
* @uc_fw: uC firmware
* @dst: dst buffer
* @max_len: max number of bytes to copy
*
* Return: number of copied bytes.
*/
size_t xe_uc_fw_copy_rsa(struct xe_uc_fw *uc_fw, void *dst, u32 max_len)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
u32 size = min_t(u32, uc_fw->rsa_size, max_len);
xe_assert(xe, !(size % 4));
xe_assert(xe, xe_uc_fw_is_available(uc_fw));
xe_map_memcpy_from(xe, dst, &uc_fw->bo->vmap,
xe_uc_fw_rsa_offset(uc_fw), size);
return size;
}
static void uc_fw_fini(struct drm_device *drm, void *arg)
{
struct xe_uc_fw *uc_fw = arg;
if (!xe_uc_fw_is_available(uc_fw))
return;
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_SELECTED);
}
static int guc_read_css_info(struct xe_uc_fw *uc_fw, struct uc_css_header *css)
{
struct xe_gt *gt = uc_fw_to_gt(uc_fw);
struct xe_uc_fw_version *release = &uc_fw->versions.found[XE_UC_FW_VER_RELEASE];
struct xe_uc_fw_version *compatibility = &uc_fw->versions.found[XE_UC_FW_VER_COMPATIBILITY];
xe_gt_assert(gt, uc_fw->type == XE_UC_FW_TYPE_GUC);
/* We don't support GuC releases older than 70.19 */
if (release->major < 70 || (release->major == 70 && release->minor < 19)) {
xe_gt_err(gt, "Unsupported GuC v%u.%u! v70.19 or newer is required\n",
release->major, release->minor);
return -EINVAL;
}
compatibility->major = FIELD_GET(CSS_SW_VERSION_UC_MAJOR, css->submission_version);
compatibility->minor = FIELD_GET(CSS_SW_VERSION_UC_MINOR, css->submission_version);
compatibility->patch = FIELD_GET(CSS_SW_VERSION_UC_PATCH, css->submission_version);
uc_fw->private_data_size = css->private_data_size;
return 0;
}
int xe_uc_fw_check_version_requirements(struct xe_uc_fw *uc_fw)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
struct xe_uc_fw_version *wanted = &uc_fw->versions.wanted;
struct xe_uc_fw_version *found = &uc_fw->versions.found[uc_fw->versions.wanted_type];
/* Driver has no requirement on any version, any is good. */
if (!wanted->major)
return 0;
/*
* If full version is required, both major and minor should match.
* Otherwise, at least the major version.
*/
if (wanted->major != found->major ||
(uc_fw->full_ver_required &&
((wanted->minor != found->minor) ||
(wanted->patch != found->patch)))) {
drm_notice(&xe->drm, "%s firmware %s: unexpected version: %u.%u.%u != %u.%u.%u\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path,
found->major, found->minor, found->patch,
wanted->major, wanted->minor, wanted->patch);
goto fail;
}
if (wanted->minor > found->minor ||
(wanted->minor == found->minor && wanted->patch > found->patch)) {
drm_notice(&xe->drm, "%s firmware (%u.%u.%u) is recommended, but only (%u.%u.%u) was found in %s\n",
xe_uc_fw_type_repr(uc_fw->type),
wanted->major, wanted->minor, wanted->patch,
found->major, found->minor, found->patch,
uc_fw->path);
drm_info(&xe->drm, "Consider updating your linux-firmware pkg or downloading from %s\n",
XE_UC_FIRMWARE_URL);
}
return 0;
fail:
if (xe_uc_fw_is_overridden(uc_fw))
return 0;
return -ENOEXEC;
}
/* Refer to the "CSS-based Firmware Layout" documentation entry for details */
static int parse_css_header(struct xe_uc_fw *uc_fw, const void *fw_data, size_t fw_size)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
struct xe_uc_fw_version *release = &uc_fw->versions.found[XE_UC_FW_VER_RELEASE];
struct uc_css_header *css;
size_t size;
/* Check the size of the blob before examining buffer contents */
if (unlikely(fw_size < sizeof(struct uc_css_header))) {
drm_warn(&xe->drm, "%s firmware %s: invalid size: %zu < %zu\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path,
fw_size, sizeof(struct uc_css_header));
return -ENODATA;
}
css = (struct uc_css_header *)fw_data;
/* Check integrity of size values inside CSS header */
size = (css->header_size_dw - css->key_size_dw - css->modulus_size_dw -
css->exponent_size_dw) * sizeof(u32);
if (unlikely(size != sizeof(struct uc_css_header))) {
drm_warn(&xe->drm,
"%s firmware %s: unexpected header size: %zu != %zu\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path,
fw_size, sizeof(struct uc_css_header));
return -EPROTO;
}
/* uCode size must calculated from other sizes */
uc_fw->ucode_size = (css->size_dw - css->header_size_dw) * sizeof(u32);
/* now RSA */
uc_fw->rsa_size = css->key_size_dw * sizeof(u32);
/* At least, it should have header, uCode and RSA. Size of all three. */
size = sizeof(struct uc_css_header) + uc_fw->ucode_size +
uc_fw->rsa_size;
if (unlikely(fw_size < size)) {
drm_warn(&xe->drm, "%s firmware %s: invalid size: %zu < %zu\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path,
fw_size, size);
return -ENOEXEC;
}
/* Get version numbers from the CSS header */
release->major = FIELD_GET(CSS_SW_VERSION_UC_MAJOR, css->sw_version);
release->minor = FIELD_GET(CSS_SW_VERSION_UC_MINOR, css->sw_version);
release->patch = FIELD_GET(CSS_SW_VERSION_UC_PATCH, css->sw_version);
if (uc_fw->type == XE_UC_FW_TYPE_GUC)
return guc_read_css_info(uc_fw, css);
return 0;
}
static bool is_cpd_header(const void *data)
{
const u32 *marker = data;
return *marker == GSC_CPD_HEADER_MARKER;
}
static u32 entry_offset(const struct gsc_cpd_header_v2 *header, const char *name)
{
const struct gsc_cpd_entry *entry;
int i;
entry = (void *)header + header->header_length;
for (i = 0; i < header->num_of_entries; i++, entry++)
if (strcmp(entry->name, name) == 0)
return entry->offset & GSC_CPD_ENTRY_OFFSET_MASK;
return 0;
}
/* Refer to the "GSC-based Firmware Layout" documentation entry for details */
static int parse_cpd_header(struct xe_uc_fw *uc_fw, const void *data, size_t size,
const char *manifest_entry, const char *css_entry)
{
struct xe_gt *gt = uc_fw_to_gt(uc_fw);
struct xe_device *xe = gt_to_xe(gt);
const struct gsc_cpd_header_v2 *header = data;
struct xe_uc_fw_version *release = &uc_fw->versions.found[XE_UC_FW_VER_RELEASE];
const struct gsc_manifest_header *manifest;
size_t min_size = sizeof(*header);
u32 offset;
/* manifest_entry is mandatory, css_entry is optional */
xe_assert(xe, manifest_entry);
if (size < min_size || !is_cpd_header(header))
return -ENOENT;
if (header->header_length < sizeof(struct gsc_cpd_header_v2)) {
xe_gt_err(gt, "invalid CPD header length %u!\n", header->header_length);
return -EINVAL;
}
min_size = header->header_length + sizeof(struct gsc_cpd_entry) * header->num_of_entries;
if (size < min_size) {
xe_gt_err(gt, "FW too small! %zu < %zu\n", size, min_size);
return -ENODATA;
}
/* Look for the manifest first */
offset = entry_offset(header, manifest_entry);
if (!offset) {
xe_gt_err(gt, "Failed to find %s manifest!\n",
xe_uc_fw_type_repr(uc_fw->type));
return -ENODATA;
}
min_size = offset + sizeof(struct gsc_manifest_header);
if (size < min_size) {
xe_gt_err(gt, "FW too small! %zu < %zu\n", size, min_size);
return -ENODATA;
}
manifest = data + offset;
release->major = manifest->fw_version.major;
release->minor = manifest->fw_version.minor;
release->patch = manifest->fw_version.hotfix;
if (uc_fw->type == XE_UC_FW_TYPE_GSC) {
struct xe_gsc *gsc = container_of(uc_fw, struct xe_gsc, fw);
release->build = manifest->fw_version.build;
gsc->security_version = manifest->security_version;
}
/* then optionally look for the css header */
if (css_entry) {
int ret;
/*
* This section does not contain a CSS entry on DG2. We
* don't support DG2 HuC right now, so no need to handle
* it, just add a reminder in case that changes.
*/
xe_assert(xe, xe->info.platform != XE_DG2);
offset = entry_offset(header, css_entry);
/* the CSS header parser will check that the CSS header fits */
if (offset > size) {
xe_gt_err(gt, "FW too small! %zu < %u\n", size, offset);
return -ENODATA;
}
ret = parse_css_header(uc_fw, data + offset, size - offset);
if (ret)
return ret;
uc_fw->css_offset = offset;
}
uc_fw->has_gsc_headers = true;
return 0;
}
static int parse_gsc_layout(struct xe_uc_fw *uc_fw, const void *data, size_t size)
{
struct xe_gt *gt = uc_fw_to_gt(uc_fw);
const struct gsc_layout_pointers *layout = data;
const struct gsc_bpdt_header *bpdt_header = NULL;
const struct gsc_bpdt_entry *bpdt_entry = NULL;
size_t min_size = sizeof(*layout);
int i;
if (size < min_size) {
xe_gt_err(gt, "GSC FW too small! %zu < %zu\n", size, min_size);
return -ENODATA;
}
min_size = layout->boot1.offset + layout->boot1.size;
if (size < min_size) {
xe_gt_err(gt, "GSC FW too small for boot section! %zu < %zu\n",
size, min_size);
return -ENODATA;
}
min_size = sizeof(*bpdt_header);
if (layout->boot1.size < min_size) {
xe_gt_err(gt, "GSC FW boot section too small for BPDT header: %u < %zu\n",
layout->boot1.size, min_size);
return -ENODATA;
}
bpdt_header = data + layout->boot1.offset;
if (bpdt_header->signature != GSC_BPDT_HEADER_SIGNATURE) {
xe_gt_err(gt, "invalid signature for BPDT header: 0x%08x!\n",
bpdt_header->signature);
return -EINVAL;
}
min_size += sizeof(*bpdt_entry) * bpdt_header->descriptor_count;
if (layout->boot1.size < min_size) {
xe_gt_err(gt, "GSC FW boot section too small for BPDT entries: %u < %zu\n",
layout->boot1.size, min_size);
return -ENODATA;
}
bpdt_entry = (void *)bpdt_header + sizeof(*bpdt_header);
for (i = 0; i < bpdt_header->descriptor_count; i++, bpdt_entry++) {
if ((bpdt_entry->type & GSC_BPDT_ENTRY_TYPE_MASK) !=
GSC_BPDT_ENTRY_TYPE_GSC_RBE)
continue;
min_size = bpdt_entry->sub_partition_offset;
/* the CPD header parser will check that the CPD header fits */
if (layout->boot1.size < min_size) {
xe_gt_err(gt, "GSC FW boot section too small for CPD offset: %u < %zu\n",
layout->boot1.size, min_size);
return -ENODATA;
}
return parse_cpd_header(uc_fw,
(void *)bpdt_header + min_size,
layout->boot1.size - min_size,
"RBEP.man", NULL);
}
xe_gt_err(gt, "couldn't find CPD header in GSC binary!\n");
return -ENODATA;
}
static int parse_headers(struct xe_uc_fw *uc_fw, const struct firmware *fw)
{
int ret;
/*
* All GuC releases and older HuC ones use CSS headers, while newer HuC
* releases use GSC CPD headers.
*/
switch (uc_fw->type) {
case XE_UC_FW_TYPE_GSC:
return parse_gsc_layout(uc_fw, fw->data, fw->size);
case XE_UC_FW_TYPE_HUC:
ret = parse_cpd_header(uc_fw, fw->data, fw->size, "HUCP.man", "huc_fw");
if (!ret || ret != -ENOENT)
return ret;
fallthrough;
case XE_UC_FW_TYPE_GUC:
return parse_css_header(uc_fw, fw->data, fw->size);
default:
return -EINVAL;
}
return 0;
}
#define print_uc_fw_version(p_, version_, prefix_, ...) \
do { \
struct xe_uc_fw_version *ver_ = (version_); \
if (ver_->build) \
drm_printf(p_, prefix_ " version %u.%u.%u.%u\n", ##__VA_ARGS__, \
ver_->major, ver_->minor, \
ver_->patch, ver_->build); \
else \
drm_printf(p_, prefix_ " version %u.%u.%u\n", ##__VA_ARGS__, \
ver_->major, ver_->minor, ver_->patch); \
} while (0)
static int uc_fw_request(struct xe_uc_fw *uc_fw, const struct firmware **firmware_p)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
struct device *dev = xe->drm.dev;
struct drm_printer p = drm_info_printer(dev);
const struct firmware *fw = NULL;
int err;
/*
* we use FIRMWARE_UNINITIALIZED to detect checks against uc_fw->status
* before we're looked at the HW caps to see if we have uc support
*/
BUILD_BUG_ON(XE_UC_FIRMWARE_UNINITIALIZED);
xe_assert(xe, !uc_fw->status);
xe_assert(xe, !uc_fw->path);
uc_fw_auto_select(xe, uc_fw);
if (IS_SRIOV_VF(xe)) {
/* Only GuC/HuC are supported */
if (uc_fw->type != XE_UC_FW_TYPE_GUC &&
uc_fw->type != XE_UC_FW_TYPE_HUC)
uc_fw->path = NULL;
/* VF will support only firmwares that driver can autoselect */
xe_uc_fw_change_status(uc_fw, uc_fw->path ?
XE_UC_FIRMWARE_PRELOADED :
XE_UC_FIRMWARE_NOT_SUPPORTED);
return 0;
}
uc_fw_override(uc_fw);
xe_uc_fw_change_status(uc_fw, uc_fw->path ?
XE_UC_FIRMWARE_SELECTED :
XE_UC_FIRMWARE_NOT_SUPPORTED);
if (!xe_uc_fw_is_supported(uc_fw)) {
if (uc_fw->type == XE_UC_FW_TYPE_GUC) {
drm_err(&xe->drm, "No GuC firmware defined for platform\n");
return -ENOENT;
}
return 0;
}
/* an empty path means the firmware is disabled */
if (!xe_device_uc_enabled(xe) || !(*uc_fw->path)) {
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_DISABLED);
drm_dbg(&xe->drm, "%s disabled", xe_uc_fw_type_repr(uc_fw->type));
return 0;
}
err = request_firmware(&fw, uc_fw->path, dev);
if (err)
goto fail;
err = parse_headers(uc_fw, fw);
if (err)
goto fail;
print_uc_fw_version(&p,
&uc_fw->versions.found[XE_UC_FW_VER_RELEASE],
"Using %s firmware from %s",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path);
/* for GSC FW we want the compatibility version, which we query after load */
if (uc_fw->type != XE_UC_FW_TYPE_GSC) {
err = xe_uc_fw_check_version_requirements(uc_fw);
if (err)
goto fail;
}
*firmware_p = fw;
return 0;
fail:
xe_uc_fw_change_status(uc_fw, err == -ENOENT ?
XE_UC_FIRMWARE_MISSING :
XE_UC_FIRMWARE_ERROR);
drm_notice(&xe->drm, "%s firmware %s: fetch failed with error %d\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path, err);
drm_info(&xe->drm, "%s firmware(s) can be downloaded from %s\n",
xe_uc_fw_type_repr(uc_fw->type), XE_UC_FIRMWARE_URL);
release_firmware(fw); /* OK even if fw is NULL */
return err;
}
static void uc_fw_release(const struct firmware *fw)
{
release_firmware(fw);
}
static int uc_fw_copy(struct xe_uc_fw *uc_fw, const void *data, size_t size, u32 flags)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
struct xe_gt *gt = uc_fw_to_gt(uc_fw);
struct xe_tile *tile = gt_to_tile(gt);
struct xe_bo *obj;
int err;
obj = xe_managed_bo_create_from_data(xe, tile, data, size, flags);
if (IS_ERR(obj)) {
drm_notice(&xe->drm, "%s firmware %s: failed to create / populate bo",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path);
err = PTR_ERR(obj);
goto fail;
}
uc_fw->bo = obj;
uc_fw->size = size;
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_AVAILABLE);
err = drmm_add_action_or_reset(&xe->drm, uc_fw_fini, uc_fw);
if (err)
goto fail;
return 0;
fail:
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_ERROR);
drm_notice(&xe->drm, "%s firmware %s: copy failed with error %d\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path, err);
return err;
}
int xe_uc_fw_init(struct xe_uc_fw *uc_fw)
{
const struct firmware *fw = NULL;
int err;
err = uc_fw_request(uc_fw, &fw);
if (err)
return err;
/* no error and no firmware means nothing to copy */
if (!fw)
return 0;
err = uc_fw_copy(uc_fw, fw->data, fw->size,
XE_BO_FLAG_SYSTEM | XE_BO_FLAG_GGTT |
XE_BO_FLAG_GGTT_INVALIDATE);
uc_fw_release(fw);
return err;
}
static u32 uc_fw_ggtt_offset(struct xe_uc_fw *uc_fw)
{
return xe_bo_ggtt_addr(uc_fw->bo);
}
static int uc_fw_xfer(struct xe_uc_fw *uc_fw, u32 offset, u32 dma_flags)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
struct xe_gt *gt = uc_fw_to_gt(uc_fw);
u64 src_offset;
u32 dma_ctrl;
int ret;
xe_force_wake_assert_held(gt_to_fw(gt), XE_FW_GT);
/* Set the source address for the uCode */
src_offset = uc_fw_ggtt_offset(uc_fw) + uc_fw->css_offset;
xe_mmio_write32(gt, DMA_ADDR_0_LOW, lower_32_bits(src_offset));
xe_mmio_write32(gt, DMA_ADDR_0_HIGH,
upper_32_bits(src_offset) | DMA_ADDRESS_SPACE_GGTT);
/* Set the DMA destination */
xe_mmio_write32(gt, DMA_ADDR_1_LOW, offset);
xe_mmio_write32(gt, DMA_ADDR_1_HIGH, DMA_ADDRESS_SPACE_WOPCM);
/*
* Set the transfer size. The header plus uCode will be copied to WOPCM
* via DMA, excluding any other components
*/
xe_mmio_write32(gt, DMA_COPY_SIZE,
sizeof(struct uc_css_header) + uc_fw->ucode_size);
/* Start the DMA */
xe_mmio_write32(gt, DMA_CTRL,
_MASKED_BIT_ENABLE(dma_flags | START_DMA));
/* Wait for DMA to finish */
ret = xe_mmio_wait32(gt, DMA_CTRL, START_DMA, 0, 100000, &dma_ctrl,
false);
if (ret)
drm_err(&xe->drm, "DMA for %s fw failed, DMA_CTRL=%u\n",
xe_uc_fw_type_repr(uc_fw->type), dma_ctrl);
/* Disable the bits once DMA is over */
xe_mmio_write32(gt, DMA_CTRL, _MASKED_BIT_DISABLE(dma_flags));
return ret;
}
int xe_uc_fw_upload(struct xe_uc_fw *uc_fw, u32 offset, u32 dma_flags)
{
struct xe_device *xe = uc_fw_to_xe(uc_fw);
int err;
/* make sure the status was cleared the last time we reset the uc */
xe_assert(xe, !xe_uc_fw_is_loaded(uc_fw));
if (!xe_uc_fw_is_loadable(uc_fw))
return -ENOEXEC;
/* Call custom loader */
err = uc_fw_xfer(uc_fw, offset, dma_flags);
if (err)
goto fail;
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_TRANSFERRED);
return 0;
fail:
drm_err(&xe->drm, "Failed to load %s firmware %s (%d)\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path,
err);
xe_uc_fw_change_status(uc_fw, XE_UC_FIRMWARE_LOAD_FAIL);
return err;
}
static const char *version_type_repr(enum xe_uc_fw_version_types type)
{
switch (type) {
case XE_UC_FW_VER_RELEASE:
return "release";
case XE_UC_FW_VER_COMPATIBILITY:
return "compatibility";
default:
return "Unknown version type";
}
}
void xe_uc_fw_print(struct xe_uc_fw *uc_fw, struct drm_printer *p)
{
int i;
drm_printf(p, "%s firmware: %s\n",
xe_uc_fw_type_repr(uc_fw->type), uc_fw->path);
drm_printf(p, "\tstatus: %s\n",
xe_uc_fw_status_repr(uc_fw->status));
print_uc_fw_version(p, &uc_fw->versions.wanted, "\twanted %s",
version_type_repr(uc_fw->versions.wanted_type));
for (i = 0; i < XE_UC_FW_VER_TYPE_COUNT; i++) {
struct xe_uc_fw_version *ver = &uc_fw->versions.found[i];
if (ver->major)
print_uc_fw_version(p, ver, "\tfound %s",
version_type_repr(i));
}
if (uc_fw->ucode_size)
drm_printf(p, "\tuCode: %u bytes\n", uc_fw->ucode_size);
if (uc_fw->rsa_size)
drm_printf(p, "\tRSA: %u bytes\n", uc_fw->rsa_size);
}
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