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linux/drivers/gpu/drm/i915/gt/uc/intel_uc_fw.h
Daniele Ceraolo Spurio 016241168d drm/i915/uc: use different ggtt pin offsets for uc loads 
Our current FW loading process is the same for all FWs:

- Pin FW to GGTT at the start of the ggtt->uc_fw node
- Load the FW
- Unpin

This worked because we didn't have a case where 2 FWs would be loaded on
the same GGTT at the same time. On MTL, however, this can happen if both
GTs are reset at the same time, so we can't pin everything in the same
spot and we need to use separate offset. For simplicity, instead of
calculating the exact required size, we reserve a 2MB slot for each fw.

v2: fail fetch if FW is > 2MBs, improve comments (John)
v3: more comment improvements (John)

Signed-off-by: Daniele Ceraolo Spurio <daniele.ceraolospurio@intel.com>
Cc: John Harrison <john.c.harrison@intel.com>
Cc: Alan Previn <alan.previn.teres.alexis@intel.com>
Reviewed-by: John Harrison <John.C.Harrison@Intel.com>
Link: https://patchwork.freedesktop.org/patch/msgid/20221108020600.3575467-3-daniele.ceraolospurio@intel.com
2022-11-14 09:58:31 -08:00

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/* SPDX-License-Identifier: MIT */
/*
* Copyright © 2014-2019 Intel Corporation
*/
#ifndef _INTEL_UC_FW_H_
#define _INTEL_UC_FW_H_
#include <linux/sizes.h>
#include <linux/types.h>
#include "intel_uc_fw_abi.h"
#include "intel_device_info.h"
#include "i915_gem.h"
#include "i915_vma.h"
struct drm_printer;
struct drm_i915_private;
struct intel_gt;
/* Home of GuC, HuC and DMC firmwares */
#define INTEL_UC_FIRMWARE_URL "https://git.kernel.org/pub/scm/linux/kernel/git/firmware/linux-firmware.git/tree/i915"
/*
* +------------+---------------------------------------------------+
* | PHASE | FIRMWARE STATUS TRANSITIONS |
* +============+===================================================+
* | | UNINITIALIZED |
* +------------+- / | \ -+
* | | DISABLED <--/ | \--> NOT_SUPPORTED |
* | init_early | V |
* | | SELECTED |
* +------------+- / | \ -+
* | | MISSING <--/ | \--> ERROR |
* | fetch | V |
* | | AVAILABLE |
* +------------+- | \ -+
* | | | \--> INIT FAIL |
* | init | V |
* | | /------> LOADABLE <----<-----------\ |
* +------------+- \ / \ \ \ -+
* | | LOAD FAIL <--< \--> TRANSFERRED \ |
* | upload | \ / \ / |
* | | \---------/ \--> RUNNING |
* +------------+---------------------------------------------------+
*/
enum intel_uc_fw_status {
INTEL_UC_FIRMWARE_NOT_SUPPORTED = -1, /* no uc HW */
INTEL_UC_FIRMWARE_UNINITIALIZED = 0, /* used to catch checks done too early */
INTEL_UC_FIRMWARE_DISABLED, /* disabled */
INTEL_UC_FIRMWARE_SELECTED, /* selected the blob we want to load */
INTEL_UC_FIRMWARE_MISSING, /* blob not found on the system */
INTEL_UC_FIRMWARE_ERROR, /* invalid format or version */
INTEL_UC_FIRMWARE_AVAILABLE, /* blob found and copied in mem */
INTEL_UC_FIRMWARE_INIT_FAIL, /* failed to prepare fw objects for load */
INTEL_UC_FIRMWARE_LOADABLE, /* all fw-required objects are ready */
INTEL_UC_FIRMWARE_LOAD_FAIL, /* failed to xfer or init/auth the fw */
INTEL_UC_FIRMWARE_TRANSFERRED, /* dma xfer done */
INTEL_UC_FIRMWARE_RUNNING /* init/auth done */
};
enum intel_uc_fw_type {
INTEL_UC_FW_TYPE_GUC = 0,
INTEL_UC_FW_TYPE_HUC
};
#define INTEL_UC_FW_NUM_TYPES 2
/*
* The firmware build process will generate a version header file with major and
* minor version defined. The versions are built into CSS header of firmware.
* i915 kernel driver set the minimal firmware version required per platform.
*/
struct intel_uc_fw_file {
const char *path;
u16 major_ver;
u16 minor_ver;
u16 patch_ver;
};
/*
* This structure encapsulates all the data needed during the process
* of fetching, caching, and loading the firmware image into the uC.
*/
struct intel_uc_fw {
enum intel_uc_fw_type type;
union {
const enum intel_uc_fw_status status;
enum intel_uc_fw_status __status; /* no accidental overwrites */
};
struct intel_uc_fw_file file_wanted;
struct intel_uc_fw_file file_selected;
bool user_overridden;
size_t size;
struct drm_i915_gem_object *obj;
/**
* @dummy: A vma used in binding the uc fw to ggtt. We can't define this
* vma on the stack as it can lead to a stack overflow, so we define it
* here. Safe to have 1 copy per uc fw because the binding is single
* threaded as it done during driver load (inherently single threaded)
* or during a GT reset (mutex guarantees single threaded).
*/
struct i915_vma_resource dummy;
struct i915_vma *rsa_data;
u32 rsa_size;
u32 ucode_size;
u32 private_data_size;
bool loaded_via_gsc;
};
#define MAKE_UC_VER(maj, min, pat) ((pat) | ((min) << 8) | ((maj) << 16))
#define GET_UC_VER(uc) (MAKE_UC_VER((uc)->fw.file_selected.major_ver, \
(uc)->fw.file_selected.minor_ver, \
(uc)->fw.file_selected.patch_ver))
/*
* When we load the uC binaries, we pin them in a reserved section at the top of
* the GGTT, which is ~18 MBs. On multi-GT systems where the GTs share the GGTT,
* we also need to make sure that each binary is pinned to a unique location
* during load, because the different GT can go through the FW load at the same
* time (see uc_fw_ggtt_offset() for details).
* Given that the available space is much greater than what is required by the
* binaries, to keep things simple instead of dynamically partitioning the
* reserved section to make space for all the blobs we can just reserve a static
* chunk for each binary.
*/
#define INTEL_UC_RSVD_GGTT_PER_FW SZ_2M
#ifdef CONFIG_DRM_I915_DEBUG_GUC
void intel_uc_fw_change_status(struct intel_uc_fw *uc_fw,
enum intel_uc_fw_status status);
#else
static inline void intel_uc_fw_change_status(struct intel_uc_fw *uc_fw,
enum intel_uc_fw_status status)
{
uc_fw->__status = status;
}
#endif
static inline
const char *intel_uc_fw_status_repr(enum intel_uc_fw_status status)
{
switch (status) {
case INTEL_UC_FIRMWARE_NOT_SUPPORTED:
return "N/A";
case INTEL_UC_FIRMWARE_UNINITIALIZED:
return "UNINITIALIZED";
case INTEL_UC_FIRMWARE_DISABLED:
return "DISABLED";
case INTEL_UC_FIRMWARE_SELECTED:
return "SELECTED";
case INTEL_UC_FIRMWARE_MISSING:
return "MISSING";
case INTEL_UC_FIRMWARE_ERROR:
return "ERROR";
case INTEL_UC_FIRMWARE_AVAILABLE:
return "AVAILABLE";
case INTEL_UC_FIRMWARE_INIT_FAIL:
return "INIT FAIL";
case INTEL_UC_FIRMWARE_LOADABLE:
return "LOADABLE";
case INTEL_UC_FIRMWARE_LOAD_FAIL:
return "LOAD FAIL";
case INTEL_UC_FIRMWARE_TRANSFERRED:
return "TRANSFERRED";
case INTEL_UC_FIRMWARE_RUNNING:
return "RUNNING";
}
return "<invalid>";
}
static inline int intel_uc_fw_status_to_error(enum intel_uc_fw_status status)
{
switch (status) {
case INTEL_UC_FIRMWARE_NOT_SUPPORTED:
return -ENODEV;
case INTEL_UC_FIRMWARE_UNINITIALIZED:
return -EACCES;
case INTEL_UC_FIRMWARE_DISABLED:
return -EPERM;
case INTEL_UC_FIRMWARE_MISSING:
return -ENOENT;
case INTEL_UC_FIRMWARE_ERROR:
return -ENOEXEC;
case INTEL_UC_FIRMWARE_INIT_FAIL:
case INTEL_UC_FIRMWARE_LOAD_FAIL:
return -EIO;
case INTEL_UC_FIRMWARE_SELECTED:
return -ESTALE;
case INTEL_UC_FIRMWARE_AVAILABLE:
case INTEL_UC_FIRMWARE_LOADABLE:
case INTEL_UC_FIRMWARE_TRANSFERRED:
case INTEL_UC_FIRMWARE_RUNNING:
return 0;
}
return -EINVAL;
}
static inline const char *intel_uc_fw_type_repr(enum intel_uc_fw_type type)
{
switch (type) {
case INTEL_UC_FW_TYPE_GUC:
return "GuC";
case INTEL_UC_FW_TYPE_HUC:
return "HuC";
}
return "uC";
}
static inline enum intel_uc_fw_status
__intel_uc_fw_status(struct intel_uc_fw *uc_fw)
{
/* shouldn't call this before checking hw/blob availability */
GEM_BUG_ON(uc_fw->status == INTEL_UC_FIRMWARE_UNINITIALIZED);
return uc_fw->status;
}
static inline bool intel_uc_fw_is_supported(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) != INTEL_UC_FIRMWARE_NOT_SUPPORTED;
}
static inline bool intel_uc_fw_is_enabled(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) > INTEL_UC_FIRMWARE_DISABLED;
}
static inline bool intel_uc_fw_is_available(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) >= INTEL_UC_FIRMWARE_AVAILABLE;
}
static inline bool intel_uc_fw_is_loadable(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) >= INTEL_UC_FIRMWARE_LOADABLE;
}
static inline bool intel_uc_fw_is_loaded(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) >= INTEL_UC_FIRMWARE_TRANSFERRED;
}
static inline bool intel_uc_fw_is_running(struct intel_uc_fw *uc_fw)
{
return __intel_uc_fw_status(uc_fw) == INTEL_UC_FIRMWARE_RUNNING;
}
static inline bool intel_uc_fw_is_overridden(const struct intel_uc_fw *uc_fw)
{
return uc_fw->user_overridden;
}
static inline void intel_uc_fw_sanitize(struct intel_uc_fw *uc_fw)
{
if (intel_uc_fw_is_loaded(uc_fw))
intel_uc_fw_change_status(uc_fw, INTEL_UC_FIRMWARE_LOADABLE);
}
static inline u32 __intel_uc_fw_get_upload_size(struct intel_uc_fw *uc_fw)
{
return sizeof(struct uc_css_header) + uc_fw->ucode_size;
}
/**
* intel_uc_fw_get_upload_size() - Get size of firmware needed to be uploaded.
* @uc_fw: uC firmware.
*
* Get the size of the firmware and header that will be uploaded to WOPCM.
*
* Return: Upload firmware size, or zero on firmware fetch failure.
*/
static inline u32 intel_uc_fw_get_upload_size(struct intel_uc_fw *uc_fw)
{
if (!intel_uc_fw_is_available(uc_fw))
return 0;
return __intel_uc_fw_get_upload_size(uc_fw);
}
void intel_uc_fw_init_early(struct intel_uc_fw *uc_fw,
enum intel_uc_fw_type type);
int intel_uc_fw_fetch(struct intel_uc_fw *uc_fw);
void intel_uc_fw_cleanup_fetch(struct intel_uc_fw *uc_fw);
int intel_uc_fw_upload(struct intel_uc_fw *uc_fw, u32 offset, u32 dma_flags);
int intel_uc_fw_init(struct intel_uc_fw *uc_fw);
void intel_uc_fw_fini(struct intel_uc_fw *uc_fw);
size_t intel_uc_fw_copy_rsa(struct intel_uc_fw *uc_fw, void *dst, u32 max_len);
void intel_uc_fw_dump(const struct intel_uc_fw *uc_fw, struct drm_printer *p);
#endif
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