Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Boris Brezillon | 669 | 99.55% | 2 | 50.00% |
Steven Price | 2 | 0.30% | 1 | 25.00% |
Liviu Dudau | 1 | 0.15% | 1 | 25.00% |
Total | 672 | 4 |
/* SPDX-License-Identifier: GPL-2.0 or MIT */ /* Copyright 2018 Marty E. Plummer <hanetzer@startmail.com> */ /* Copyright 2019 Linaro, Ltd, Rob Herring <robh@kernel.org> */ /* Copyright 2023 Collabora ltd. */ #ifndef __PANTHOR_DEVICE_H__ #define __PANTHOR_DEVICE_H__ #include <linux/atomic.h> #include <linux/io-pgtable.h> #include <linux/regulator/consumer.h> #include <linux/sched.h> #include <linux/spinlock.h> #include <drm/drm_device.h> #include <drm/drm_mm.h> #include <drm/gpu_scheduler.h> #include <drm/panthor_drm.h> struct panthor_csf; struct panthor_csf_ctx; struct panthor_device; struct panthor_gpu; struct panthor_group_pool; struct panthor_heap_pool; struct panthor_job; struct panthor_mmu; struct panthor_fw; struct panthor_perfcnt; struct panthor_vm; struct panthor_vm_pool; /** * enum panthor_device_pm_state - PM state */ enum panthor_device_pm_state { /** @PANTHOR_DEVICE_PM_STATE_SUSPENDED: Device is suspended. */ PANTHOR_DEVICE_PM_STATE_SUSPENDED = 0, /** @PANTHOR_DEVICE_PM_STATE_RESUMING: Device is being resumed. */ PANTHOR_DEVICE_PM_STATE_RESUMING, /** @PANTHOR_DEVICE_PM_STATE_ACTIVE: Device is active. */ PANTHOR_DEVICE_PM_STATE_ACTIVE, /** @PANTHOR_DEVICE_PM_STATE_SUSPENDING: Device is being suspended. */ PANTHOR_DEVICE_PM_STATE_SUSPENDING, }; /** * struct panthor_irq - IRQ data * * Used to automate IRQ handling for the 3 different IRQs we have in this driver. */ struct panthor_irq { /** @ptdev: Panthor device */ struct panthor_device *ptdev; /** @irq: IRQ number. */ int irq; /** @mask: Current mask being applied to xxx_INT_MASK. */ u32 mask; /** @suspended: Set to true when the IRQ is suspended. */ atomic_t suspended; }; /** * struct panthor_device - Panthor device */ struct panthor_device { /** @base: Base drm_device. */ struct drm_device base; /** @phys_addr: Physical address of the iomem region. */ phys_addr_t phys_addr; /** @iomem: CPU mapping of the IOMEM region. */ void __iomem *iomem; /** @clks: GPU clocks. */ struct { /** @core: Core clock. */ struct clk *core; /** @stacks: Stacks clock. This clock is optional. */ struct clk *stacks; /** @coregroup: Core group clock. This clock is optional. */ struct clk *coregroup; } clks; /** @coherent: True if the CPU/GPU are memory coherent. */ bool coherent; /** @gpu_info: GPU information. */ struct drm_panthor_gpu_info gpu_info; /** @csif_info: Command stream interface information. */ struct drm_panthor_csif_info csif_info; /** @gpu: GPU management data. */ struct panthor_gpu *gpu; /** @fw: FW management data. */ struct panthor_fw *fw; /** @mmu: MMU management data. */ struct panthor_mmu *mmu; /** @scheduler: Scheduler management data. */ struct panthor_scheduler *scheduler; /** @devfreq: Device frequency scaling management data. */ struct panthor_devfreq *devfreq; /** @unplug: Device unplug related fields. */ struct { /** @lock: Lock used to serialize unplug operations. */ struct mutex lock; /** * @done: Completion object signaled when the unplug * operation is done. */ struct completion done; } unplug; /** @reset: Reset related fields. */ struct { /** @wq: Ordered worqueud used to schedule reset operations. */ struct workqueue_struct *wq; /** @work: Reset work. */ struct work_struct work; /** @pending: Set to true if a reset is pending. */ atomic_t pending; } reset; /** @pm: Power management related data. */ struct { /** @state: Power state. */ atomic_t state; /** * @mmio_lock: Lock protecting MMIO userspace CPU mappings. * * This is needed to ensure we map the dummy IO pages when * the device is being suspended, and the real IO pages when * the device is being resumed. We can't just do with the * state atomicity to deal with this race. */ struct mutex mmio_lock; /** * @dummy_latest_flush: Dummy LATEST_FLUSH page. * * Used to replace the real LATEST_FLUSH page when the GPU * is suspended. */ struct page *dummy_latest_flush; } pm; }; /** * struct panthor_file - Panthor file */ struct panthor_file { /** @ptdev: Device attached to this file. */ struct panthor_device *ptdev; /** @vms: VM pool attached to this file. */ struct panthor_vm_pool *vms; /** @groups: Scheduling group pool attached to this file. */ struct panthor_group_pool *groups; }; int panthor_device_init(struct panthor_device *ptdev); void panthor_device_unplug(struct panthor_device *ptdev); /** * panthor_device_schedule_reset() - Schedules a reset operation */ static inline void panthor_device_schedule_reset(struct panthor_device *ptdev) { if (!atomic_cmpxchg(&ptdev->reset.pending, 0, 1) && atomic_read(&ptdev->pm.state) == PANTHOR_DEVICE_PM_STATE_ACTIVE) queue_work(ptdev->reset.wq, &ptdev->reset.work); } /** * panthor_device_reset_is_pending() - Checks if a reset is pending. * * Return: true if a reset is pending, false otherwise. */ static inline bool panthor_device_reset_is_pending(struct panthor_device *ptdev) { return atomic_read(&ptdev->reset.pending) != 0; } int panthor_device_mmap_io(struct panthor_device *ptdev, struct vm_area_struct *vma); int panthor_device_resume(struct device *dev); int panthor_device_suspend(struct device *dev); enum drm_panthor_exception_type { DRM_PANTHOR_EXCEPTION_OK = 0x00, DRM_PANTHOR_EXCEPTION_TERMINATED = 0x04, DRM_PANTHOR_EXCEPTION_KABOOM = 0x05, DRM_PANTHOR_EXCEPTION_EUREKA = 0x06, DRM_PANTHOR_EXCEPTION_ACTIVE = 0x08, DRM_PANTHOR_EXCEPTION_CS_RES_TERM = 0x0f, DRM_PANTHOR_EXCEPTION_MAX_NON_FAULT = 0x3f, DRM_PANTHOR_EXCEPTION_CS_CONFIG_FAULT = 0x40, DRM_PANTHOR_EXCEPTION_CS_UNRECOVERABLE = 0x41, DRM_PANTHOR_EXCEPTION_CS_ENDPOINT_FAULT = 0x44, DRM_PANTHOR_EXCEPTION_CS_BUS_FAULT = 0x48, DRM_PANTHOR_EXCEPTION_CS_INSTR_INVALID = 0x49, DRM_PANTHOR_EXCEPTION_CS_CALL_STACK_OVERFLOW = 0x4a, DRM_PANTHOR_EXCEPTION_CS_INHERIT_FAULT = 0x4b, DRM_PANTHOR_EXCEPTION_INSTR_INVALID_PC = 0x50, DRM_PANTHOR_EXCEPTION_INSTR_INVALID_ENC = 0x51, DRM_PANTHOR_EXCEPTION_INSTR_BARRIER_FAULT = 0x55, DRM_PANTHOR_EXCEPTION_DATA_INVALID_FAULT = 0x58, DRM_PANTHOR_EXCEPTION_TILE_RANGE_FAULT = 0x59, DRM_PANTHOR_EXCEPTION_ADDR_RANGE_FAULT = 0x5a, DRM_PANTHOR_EXCEPTION_IMPRECISE_FAULT = 0x5b, DRM_PANTHOR_EXCEPTION_OOM = 0x60, DRM_PANTHOR_EXCEPTION_CSF_FW_INTERNAL_ERROR = 0x68, DRM_PANTHOR_EXCEPTION_CSF_RES_EVICTION_TIMEOUT = 0x69, DRM_PANTHOR_EXCEPTION_GPU_BUS_FAULT = 0x80, DRM_PANTHOR_EXCEPTION_GPU_SHAREABILITY_FAULT = 0x88, DRM_PANTHOR_EXCEPTION_SYS_SHAREABILITY_FAULT = 0x89, DRM_PANTHOR_EXCEPTION_GPU_CACHEABILITY_FAULT = 0x8a, DRM_PANTHOR_EXCEPTION_TRANSLATION_FAULT_0 = 0xc0, DRM_PANTHOR_EXCEPTION_TRANSLATION_FAULT_1 = 0xc1, DRM_PANTHOR_EXCEPTION_TRANSLATION_FAULT_2 = 0xc2, DRM_PANTHOR_EXCEPTION_TRANSLATION_FAULT_3 = 0xc3, DRM_PANTHOR_EXCEPTION_TRANSLATION_FAULT_4 = 0xc4, DRM_PANTHOR_EXCEPTION_PERM_FAULT_0 = 0xc8, DRM_PANTHOR_EXCEPTION_PERM_FAULT_1 = 0xc9, DRM_PANTHOR_EXCEPTION_PERM_FAULT_2 = 0xca, DRM_PANTHOR_EXCEPTION_PERM_FAULT_3 = 0xcb, DRM_PANTHOR_EXCEPTION_ACCESS_FLAG_1 = 0xd9, DRM_PANTHOR_EXCEPTION_ACCESS_FLAG_2 = 0xda, DRM_PANTHOR_EXCEPTION_ACCESS_FLAG_3 = 0xdb, DRM_PANTHOR_EXCEPTION_ADDR_SIZE_FAULT_IN = 0xe0, DRM_PANTHOR_EXCEPTION_ADDR_SIZE_FAULT_OUT0 = 0xe4, DRM_PANTHOR_EXCEPTION_ADDR_SIZE_FAULT_OUT1 = 0xe5, DRM_PANTHOR_EXCEPTION_ADDR_SIZE_FAULT_OUT2 = 0xe6, DRM_PANTHOR_EXCEPTION_ADDR_SIZE_FAULT_OUT3 = 0xe7, DRM_PANTHOR_EXCEPTION_MEM_ATTR_FAULT_0 = 0xe8, DRM_PANTHOR_EXCEPTION_MEM_ATTR_FAULT_1 = 0xe9, DRM_PANTHOR_EXCEPTION_MEM_ATTR_FAULT_2 = 0xea, DRM_PANTHOR_EXCEPTION_MEM_ATTR_FAULT_3 = 0xeb, }; /** * panthor_exception_is_fault() - Checks if an exception is a fault. * * Return: true if the exception is a fault, false otherwise. */ static inline bool panthor_exception_is_fault(u32 exception_code) { return exception_code > DRM_PANTHOR_EXCEPTION_MAX_NON_FAULT; } const char *panthor_exception_name(struct panthor_device *ptdev, u32 exception_code); /** * PANTHOR_IRQ_HANDLER() - Define interrupt handlers and the interrupt * registration function. * * The boiler-plate to gracefully deal with shared interrupts is * auto-generated. All you have to do is call PANTHOR_IRQ_HANDLER() * just after the actual handler. The handler prototype is: * * void (*handler)(struct panthor_device *, u32 status); */ #define PANTHOR_IRQ_HANDLER(__name, __reg_prefix, __handler) \ static irqreturn_t panthor_ ## __name ## _irq_raw_handler(int irq, void *data) \ { \ struct panthor_irq *pirq = data; \ struct panthor_device *ptdev = pirq->ptdev; \ \ if (atomic_read(&pirq->suspended)) \ return IRQ_NONE; \ if (!gpu_read(ptdev, __reg_prefix ## _INT_STAT)) \ return IRQ_NONE; \ \ gpu_write(ptdev, __reg_prefix ## _INT_MASK, 0); \ return IRQ_WAKE_THREAD; \ } \ \ static irqreturn_t panthor_ ## __name ## _irq_threaded_handler(int irq, void *data) \ { \ struct panthor_irq *pirq = data; \ struct panthor_device *ptdev = pirq->ptdev; \ irqreturn_t ret = IRQ_NONE; \ \ while (true) { \ u32 status = gpu_read(ptdev, __reg_prefix ## _INT_RAWSTAT) & pirq->mask; \ \ if (!status) \ break; \ \ gpu_write(ptdev, __reg_prefix ## _INT_CLEAR, status); \ \ __handler(ptdev, status); \ ret = IRQ_HANDLED; \ } \ \ if (!atomic_read(&pirq->suspended)) \ gpu_write(ptdev, __reg_prefix ## _INT_MASK, pirq->mask); \ \ return ret; \ } \ \ static inline void panthor_ ## __name ## _irq_suspend(struct panthor_irq *pirq) \ { \ pirq->mask = 0; \ gpu_write(pirq->ptdev, __reg_prefix ## _INT_MASK, 0); \ synchronize_irq(pirq->irq); \ atomic_set(&pirq->suspended, true); \ } \ \ static inline void panthor_ ## __name ## _irq_resume(struct panthor_irq *pirq, u32 mask) \ { \ atomic_set(&pirq->suspended, false); \ pirq->mask = mask; \ gpu_write(pirq->ptdev, __reg_prefix ## _INT_CLEAR, mask); \ gpu_write(pirq->ptdev, __reg_prefix ## _INT_MASK, mask); \ } \ \ static int panthor_request_ ## __name ## _irq(struct panthor_device *ptdev, \ struct panthor_irq *pirq, \ int irq, u32 mask) \ { \ pirq->ptdev = ptdev; \ pirq->irq = irq; \ panthor_ ## __name ## _irq_resume(pirq, mask); \ \ return devm_request_threaded_irq(ptdev->base.dev, irq, \ panthor_ ## __name ## _irq_raw_handler, \ panthor_ ## __name ## _irq_threaded_handler, \ IRQF_SHARED, KBUILD_MODNAME "-" # __name, \ pirq); \ } extern struct workqueue_struct *panthor_cleanup_wq; #endif
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