Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Sarah Walker | 984 | 96.47% | 10 | 76.92% |
Donald Robson | 19 | 1.86% | 2 | 15.38% |
Randy Dunlap | 17 | 1.67% | 1 | 7.69% |
Total | 1020 | 13 |
/* SPDX-License-Identifier: GPL-2.0-only OR MIT */ /* Copyright (c) 2023 Imagination Technologies Ltd. */ #ifndef PVR_DEVICE_H #define PVR_DEVICE_H #include "pvr_ccb.h" #include "pvr_device_info.h" #include "pvr_fw.h" #include "pvr_params.h" #include "pvr_rogue_fwif_stream.h" #include "pvr_stream.h" #include <drm/drm_device.h> #include <drm/drm_file.h> #include <drm/drm_mm.h> #include <linux/bits.h> #include <linux/compiler_attributes.h> #include <linux/compiler_types.h> #include <linux/io.h> #include <linux/iopoll.h> #include <linux/kernel.h> #include <linux/math.h> #include <linux/mutex.h> #include <linux/timer.h> #include <linux/types.h> #include <linux/wait.h> #include <linux/workqueue.h> #include <linux/xarray.h> /* Forward declaration from <linux/clk.h>. */ struct clk; /* Forward declaration from <linux/firmware.h>. */ struct firmware; /** * struct pvr_gpu_id - Hardware GPU ID information for a PowerVR device * @b: Branch ID. * @v: Version ID. * @n: Number of scalable units. * @c: Config ID. */ struct pvr_gpu_id { u16 b, v, n, c; }; /** * struct pvr_fw_version - Firmware version information * @major: Major version number. * @minor: Minor version number. */ struct pvr_fw_version { u16 major, minor; }; /** * struct pvr_device - powervr-specific wrapper for &struct drm_device */ struct pvr_device { /** * @base: The underlying &struct drm_device. * * Do not access this member directly, instead call * from_pvr_device(). */ struct drm_device base; /** @gpu_id: GPU ID detected at runtime. */ struct pvr_gpu_id gpu_id; /** * @features: Hardware feature information. * * Do not access this member directly, instead use PVR_HAS_FEATURE() * or PVR_FEATURE_VALUE() macros. */ struct pvr_device_features features; /** * @quirks: Hardware quirk information. * * Do not access this member directly, instead use PVR_HAS_QUIRK(). */ struct pvr_device_quirks quirks; /** * @enhancements: Hardware enhancement information. * * Do not access this member directly, instead use * PVR_HAS_ENHANCEMENT(). */ struct pvr_device_enhancements enhancements; /** @fw_version: Firmware version detected at runtime. */ struct pvr_fw_version fw_version; /** @regs_resource: Resource representing device control registers. */ struct resource *regs_resource; /** * @regs: Device control registers. * * These are mapped into memory when the device is initialized; that * location is where this pointer points. */ void __iomem *regs; /** * @core_clk: General core clock. * * This is the primary clock used by the entire GPU core. */ struct clk *core_clk; /** * @sys_clk: Optional system bus clock. * * This may be used on some platforms to provide an independent clock to the SoC Interface * (SOCIF). If present, this needs to be enabled/disabled together with @core_clk. */ struct clk *sys_clk; /** * @mem_clk: Optional memory clock. * * This may be used on some platforms to provide an independent clock to the Memory * Interface (MEMIF). If present, this needs to be enabled/disabled together with @core_clk. */ struct clk *mem_clk; /** @irq: IRQ number. */ int irq; /** @fwccb: Firmware CCB. */ struct pvr_ccb fwccb; /** * @kernel_vm_ctx: Virtual memory context used for kernel mappings. * * This is used for mappings in the firmware address region when a META firmware processor * is in use. * * When a MIPS firmware processor is in use, this will be %NULL. */ struct pvr_vm_context *kernel_vm_ctx; /** @fw_dev: Firmware related data. */ struct pvr_fw_device fw_dev; /** * @params: Device-specific parameters. * * The values of these parameters are initialized from the * defaults specified as module parameters. They may be * modified at runtime via debugfs (if enabled). */ struct pvr_device_params params; /** @stream_musthave_quirks: Bit array of "must-have" quirks for stream commands. */ u32 stream_musthave_quirks[PVR_STREAM_TYPE_MAX][PVR_STREAM_EXTHDR_TYPE_MAX]; /** * @mmu_flush_cache_flags: Records which MMU caches require flushing * before submitting the next job. */ atomic_t mmu_flush_cache_flags; /** * @ctx_ids: Array of contexts belonging to this device. Array members * are of type "struct pvr_context *". * * This array is used to allocate IDs used by the firmware. */ struct xarray ctx_ids; /** * @free_list_ids: Array of free lists belonging to this device. Array members * are of type "struct pvr_free_list *". * * This array is used to allocate IDs used by the firmware. */ struct xarray free_list_ids; /** * @job_ids: Array of jobs belonging to this device. Array members * are of type "struct pvr_job *". */ struct xarray job_ids; /** * @queues: Queue-related fields. */ struct { /** @queues.active: Active queue list. */ struct list_head active; /** @queues.idle: Idle queue list. */ struct list_head idle; /** @queues.lock: Lock protecting access to the active/idle * lists. */ struct mutex lock; } queues; /** * @watchdog: Watchdog for communications with firmware. */ struct { /** @watchdog.work: Work item for watchdog callback. */ struct delayed_work work; /** * @watchdog.old_kccb_cmds_executed: KCCB command execution * count at last watchdog poll. */ u32 old_kccb_cmds_executed; /** * @watchdog.kccb_stall_count: Number of watchdog polls * KCCB has been stalled for. */ u32 kccb_stall_count; } watchdog; /** * @kccb: Circular buffer for communications with firmware. */ struct { /** @kccb.ccb: Kernel CCB. */ struct pvr_ccb ccb; /** @kccb.rtn_q: Waitqueue for KCCB command return waiters. */ wait_queue_head_t rtn_q; /** @kccb.rtn_obj: Object representing KCCB return slots. */ struct pvr_fw_object *rtn_obj; /** * @kccb.rtn: Pointer to CPU mapping of KCCB return slots. * Must be accessed by READ_ONCE()/WRITE_ONCE(). */ u32 *rtn; /** @kccb.slot_count: Total number of KCCB slots available. */ u32 slot_count; /** @kccb.reserved_count: Number of KCCB slots reserved for * future use. */ u32 reserved_count; /** * @kccb.waiters: List of KCCB slot waiters. */ struct list_head waiters; /** @kccb.fence_ctx: KCCB fence context. */ struct { /** @kccb.fence_ctx.id: KCCB fence context ID * allocated with dma_fence_context_alloc(). */ u64 id; /** @kccb.fence_ctx.seqno: Sequence number incremented * each time a fence is created. */ atomic_t seqno; /** * @kccb.fence_ctx.lock: Lock used to synchronize * access to fences allocated by this context. */ spinlock_t lock; } fence_ctx; } kccb; /** * @lost: %true if the device has been lost. * * This variable is set if the device has become irretrievably unavailable, e.g. if the * firmware processor has stopped responding and can not be revived via a hard reset. */ bool lost; /** * @reset_sem: Reset semaphore. * * GPU reset code will lock this for writing. Any code that submits commands to the firmware * that isn't in an IRQ handler or on the scheduler workqueue must lock this for reading. * Once this has been successfully locked, &pvr_dev->lost _must_ be checked, and -%EIO must * be returned if it is set. */ struct rw_semaphore reset_sem; /** @sched_wq: Workqueue for schedulers. */ struct workqueue_struct *sched_wq; }; /** * struct pvr_file - powervr-specific data to be assigned to &struct * drm_file.driver_priv */ struct pvr_file { /** * @file: A reference to the parent &struct drm_file. * * Do not access this member directly, instead call from_pvr_file(). */ struct drm_file *file; /** * @pvr_dev: A reference to the powervr-specific wrapper for the * associated device. Saves on repeated calls to to_pvr_device(). */ struct pvr_device *pvr_dev; /** * @ctx_handles: Array of contexts belonging to this file. Array members * are of type "struct pvr_context *". * * This array is used to allocate handles returned to userspace. */ struct xarray ctx_handles; /** * @free_list_handles: Array of free lists belonging to this file. Array * members are of type "struct pvr_free_list *". * * This array is used to allocate handles returned to userspace. */ struct xarray free_list_handles; /** * @hwrt_handles: Array of HWRT datasets belonging to this file. Array * members are of type "struct pvr_hwrt_dataset *". * * This array is used to allocate handles returned to userspace. */ struct xarray hwrt_handles; /** * @vm_ctx_handles: Array of VM contexts belonging to this file. Array * members are of type "struct pvr_vm_context *". * * This array is used to allocate handles returned to userspace. */ struct xarray vm_ctx_handles; }; /** * PVR_HAS_FEATURE() - Tests whether a PowerVR device has a given feature * @pvr_dev: [IN] Target PowerVR device. * @feature: [IN] Hardware feature name. * * Feature names are derived from those found in &struct pvr_device_features by * dropping the 'has_' prefix, which is applied by this macro. * * Return: * * true if the named feature is present in the hardware * * false if the named feature is not present in the hardware */ #define PVR_HAS_FEATURE(pvr_dev, feature) ((pvr_dev)->features.has_##feature) /** * PVR_FEATURE_VALUE() - Gets a PowerVR device feature value * @pvr_dev: [IN] Target PowerVR device. * @feature: [IN] Feature name. * @value_out: [OUT] Feature value. * * This macro will get a feature value for those features that have values. * If the feature is not present, nothing will be stored to @value_out. * * Feature names are derived from those found in &struct pvr_device_features by * dropping the 'has_' prefix. * * Return: * * 0 on success, or * * -%EINVAL if the named feature is not present in the hardware */ #define PVR_FEATURE_VALUE(pvr_dev, feature, value_out) \ ({ \ struct pvr_device *_pvr_dev = pvr_dev; \ int _ret = -EINVAL; \ if (_pvr_dev->features.has_##feature) { \ *(value_out) = _pvr_dev->features.feature; \ _ret = 0; \ } \ _ret; \ }) /** * PVR_HAS_QUIRK() - Tests whether a physical device has a given quirk * @pvr_dev: [IN] Target PowerVR device. * @quirk: [IN] Hardware quirk name. * * Quirk numbers are derived from those found in #pvr_device_quirks by * dropping the 'has_brn' prefix, which is applied by this macro. * * Returns * * true if the quirk is present in the hardware, or * * false if the quirk is not present in the hardware. */ #define PVR_HAS_QUIRK(pvr_dev, quirk) ((pvr_dev)->quirks.has_brn##quirk) /** * PVR_HAS_ENHANCEMENT() - Tests whether a physical device has a given * enhancement * @pvr_dev: [IN] Target PowerVR device. * @enhancement: [IN] Hardware enhancement name. * * Enhancement numbers are derived from those found in #pvr_device_enhancements * by dropping the 'has_ern' prefix, which is applied by this macro. * * Returns * * true if the enhancement is present in the hardware, or * * false if the enhancement is not present in the hardware. */ #define PVR_HAS_ENHANCEMENT(pvr_dev, enhancement) ((pvr_dev)->enhancements.has_ern##enhancement) #define from_pvr_device(pvr_dev) (&(pvr_dev)->base) #define to_pvr_device(drm_dev) container_of_const(drm_dev, struct pvr_device, base) #define from_pvr_file(pvr_file) ((pvr_file)->file) #define to_pvr_file(file) ((file)->driver_priv) /** * PVR_PACKED_BVNC() - Packs B, V, N and C values into a 64-bit unsigned integer * @b: Branch ID. * @v: Version ID. * @n: Number of scalable units. * @c: Config ID. * * The packed layout is as follows: * * +--------+--------+--------+-------+ * | 63..48 | 47..32 | 31..16 | 15..0 | * +========+========+========+=======+ * | B | V | N | C | * +--------+--------+--------+-------+ * * pvr_gpu_id_to_packed_bvnc() should be used instead of this macro when a * &struct pvr_gpu_id is available in order to ensure proper type checking. * * Return: Packed BVNC. */ /* clang-format off */ #define PVR_PACKED_BVNC(b, v, n, c) \ ((((u64)(b) & GENMASK_ULL(15, 0)) << 48) | \ (((u64)(v) & GENMASK_ULL(15, 0)) << 32) | \ (((u64)(n) & GENMASK_ULL(15, 0)) << 16) | \ (((u64)(c) & GENMASK_ULL(15, 0)) << 0)) /* clang-format on */ /** * pvr_gpu_id_to_packed_bvnc() - Packs B, V, N and C values into a 64-bit * unsigned integer * @gpu_id: GPU ID. * * The packed layout is as follows: * * +--------+--------+--------+-------+ * | 63..48 | 47..32 | 31..16 | 15..0 | * +========+========+========+=======+ * | B | V | N | C | * +--------+--------+--------+-------+ * * This should be used in preference to PVR_PACKED_BVNC() when a &struct * pvr_gpu_id is available in order to ensure proper type checking. * * Return: Packed BVNC. */ static __always_inline u64 pvr_gpu_id_to_packed_bvnc(struct pvr_gpu_id *gpu_id) { return PVR_PACKED_BVNC(gpu_id->b, gpu_id->v, gpu_id->n, gpu_id->c); } static __always_inline void packed_bvnc_to_pvr_gpu_id(u64 bvnc, struct pvr_gpu_id *gpu_id) { gpu_id->b = (bvnc & GENMASK_ULL(63, 48)) >> 48; gpu_id->v = (bvnc & GENMASK_ULL(47, 32)) >> 32; gpu_id->n = (bvnc & GENMASK_ULL(31, 16)) >> 16; gpu_id->c = bvnc & GENMASK_ULL(15, 0); } int pvr_device_init(struct pvr_device *pvr_dev); void pvr_device_fini(struct pvr_device *pvr_dev); void pvr_device_reset(struct pvr_device *pvr_dev); bool pvr_device_has_uapi_quirk(struct pvr_device *pvr_dev, u32 quirk); bool pvr_device_has_uapi_enhancement(struct pvr_device *pvr_dev, u32 enhancement); bool pvr_device_has_feature(struct pvr_device *pvr_dev, u32 feature); /** * PVR_CR_FIELD_GET() - Extract a single field from a PowerVR control register * @val: Value of the target register. * @field: Field specifier, as defined in "pvr_rogue_cr_defs.h". * * Return: The extracted field. */ #define PVR_CR_FIELD_GET(val, field) FIELD_GET(~ROGUE_CR_##field##_CLRMSK, val) /** * pvr_cr_read32() - Read a 32-bit register from a PowerVR device * @pvr_dev: Target PowerVR device. * @reg: Target register. * * Return: The value of the requested register. */ static __always_inline u32 pvr_cr_read32(struct pvr_device *pvr_dev, u32 reg) { return ioread32(pvr_dev->regs + reg); } /** * pvr_cr_read64() - Read a 64-bit register from a PowerVR device * @pvr_dev: Target PowerVR device. * @reg: Target register. * * Return: The value of the requested register. */ static __always_inline u64 pvr_cr_read64(struct pvr_device *pvr_dev, u32 reg) { return ioread64(pvr_dev->regs + reg); } /** * pvr_cr_write32() - Write to a 32-bit register in a PowerVR device * @pvr_dev: Target PowerVR device. * @reg: Target register. * @val: Value to write. */ static __always_inline void pvr_cr_write32(struct pvr_device *pvr_dev, u32 reg, u32 val) { iowrite32(val, pvr_dev->regs + reg); } /** * pvr_cr_write64() - Write to a 64-bit register in a PowerVR device * @pvr_dev: Target PowerVR device. * @reg: Target register. * @val: Value to write. */ static __always_inline void pvr_cr_write64(struct pvr_device *pvr_dev, u32 reg, u64 val) { iowrite64(val, pvr_dev->regs + reg); } /** * pvr_cr_poll_reg32() - Wait for a 32-bit register to match a given value by * polling * @pvr_dev: Target PowerVR device. * @reg_addr: Address of register. * @reg_value: Expected register value (after masking). * @reg_mask: Mask of bits valid for comparison with @reg_value. * @timeout_usec: Timeout length, in us. * * Returns: * * 0 on success, or * * -%ETIMEDOUT on timeout. */ static __always_inline int pvr_cr_poll_reg32(struct pvr_device *pvr_dev, u32 reg_addr, u32 reg_value, u32 reg_mask, u64 timeout_usec) { u32 value; return readl_poll_timeout(pvr_dev->regs + reg_addr, value, (value & reg_mask) == reg_value, 0, timeout_usec); } /** * pvr_cr_poll_reg64() - Wait for a 64-bit register to match a given value by * polling * @pvr_dev: Target PowerVR device. * @reg_addr: Address of register. * @reg_value: Expected register value (after masking). * @reg_mask: Mask of bits valid for comparison with @reg_value. * @timeout_usec: Timeout length, in us. * * Returns: * * 0 on success, or * * -%ETIMEDOUT on timeout. */ static __always_inline int pvr_cr_poll_reg64(struct pvr_device *pvr_dev, u32 reg_addr, u64 reg_value, u64 reg_mask, u64 timeout_usec) { u64 value; return readq_poll_timeout(pvr_dev->regs + reg_addr, value, (value & reg_mask) == reg_value, 0, timeout_usec); } /** * pvr_round_up_to_cacheline_size() - Round up a provided size to be cacheline * aligned * @pvr_dev: Target PowerVR device. * @size: Initial size, in bytes. * * Returns: * * Size aligned to cacheline size. */ static __always_inline size_t pvr_round_up_to_cacheline_size(struct pvr_device *pvr_dev, size_t size) { u16 slc_cacheline_size_bits = 0; u16 slc_cacheline_size_bytes; WARN_ON(!PVR_HAS_FEATURE(pvr_dev, slc_cache_line_size_bits)); PVR_FEATURE_VALUE(pvr_dev, slc_cache_line_size_bits, &slc_cacheline_size_bits); slc_cacheline_size_bytes = slc_cacheline_size_bits / 8; return round_up(size, slc_cacheline_size_bytes); } /** * DOC: IOCTL validation helpers * * To validate the constraints imposed on IOCTL argument structs, a collection * of macros and helper functions exist in ``pvr_device.h``. * * Of the current helpers, it should only be necessary to call * PVR_IOCTL_UNION_PADDING_CHECK() directly. This macro should be used once in * every code path which extracts a union member from a struct passed from * userspace. */ /** * pvr_ioctl_union_padding_check() - Validate that the implicit padding between * the end of a union member and the end of the union itself is zeroed. * @instance: Pointer to the instance of the struct to validate. * @union_offset: Offset into the type of @instance of the target union. Must * be 64-bit aligned. * @union_size: Size of the target union in the type of @instance. Must be * 64-bit aligned. * @member_size: Size of the target member in the target union specified by * @union_offset and @union_size. It is assumed that the offset of the target * member is zero relative to @union_offset. Must be 64-bit aligned. * * You probably want to use PVR_IOCTL_UNION_PADDING_CHECK() instead of calling * this function directly, since that macro abstracts away much of the setup, * and also provides some static validation. See its docs for details. * * Return: * * %true if every byte between the end of the used member of the union and * the end of that union is zeroed, or * * %false otherwise. */ static __always_inline bool pvr_ioctl_union_padding_check(void *instance, size_t union_offset, size_t union_size, size_t member_size) { /* * void pointer arithmetic is technically illegal - cast to a byte * pointer so this addition works safely. */ void *padding_start = ((u8 *)instance) + union_offset + member_size; size_t padding_size = union_size - member_size; return !memchr_inv(padding_start, 0, padding_size); } /** * PVR_STATIC_ASSERT_64BIT_ALIGNED() - Inline assertion for 64-bit alignment. * @static_expr_: Target expression to evaluate. * * If @static_expr_ does not evaluate to a constant integer which would be a * 64-bit aligned address (i.e. a multiple of 8), compilation will fail. * * Return: * The value of @static_expr_. */ #define PVR_STATIC_ASSERT_64BIT_ALIGNED(static_expr_) \ ({ \ static_assert(((static_expr_) & (sizeof(u64) - 1)) == 0); \ (static_expr_); \ }) /** * PVR_IOCTL_UNION_PADDING_CHECK() - Validate that the implicit padding between * the end of a union member and the end of the union itself is zeroed. * @struct_instance_: An expression which evaluates to a pointer to a UAPI data * struct. * @union_: The name of the union member of @struct_instance_ to check. If the * union member is nested within the type of @struct_instance_, this may * contain the member access operator ("."). * @member_: The name of the member of @union_ to assess. * * This is a wrapper around pvr_ioctl_union_padding_check() which performs * alignment checks and simplifies things for the caller. * * Return: * * %true if every byte in @struct_instance_ between the end of @member_ and * the end of @union_ is zeroed, or * * %false otherwise. */ #define PVR_IOCTL_UNION_PADDING_CHECK(struct_instance_, union_, member_) \ ({ \ typeof(struct_instance_) __instance = (struct_instance_); \ size_t __union_offset = PVR_STATIC_ASSERT_64BIT_ALIGNED( \ offsetof(typeof(*__instance), union_)); \ size_t __union_size = PVR_STATIC_ASSERT_64BIT_ALIGNED( \ sizeof(__instance->union_)); \ size_t __member_size = PVR_STATIC_ASSERT_64BIT_ALIGNED( \ sizeof(__instance->union_.member_)); \ pvr_ioctl_union_padding_check(__instance, __union_offset, \ __union_size, __member_size); \ }) #define PVR_FW_PROCESSOR_TYPE_META 0 #define PVR_FW_PROCESSOR_TYPE_MIPS 1 #define PVR_FW_PROCESSOR_TYPE_RISCV 2 #endif /* PVR_DEVICE_H */
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