1e2a1cda3SDaniel Vetter /* SPDX-License-Identifier: GPL-2.0 or MIT */ 2*96913586SJocelyn Falempe 3*96913586SJocelyn Falempe /* 4*96913586SJocelyn Falempe * Copyright (c) 2024 Intel 5*96913586SJocelyn Falempe * Copyright (c) 2024 Red Hat 6*96913586SJocelyn Falempe */ 7*96913586SJocelyn Falempe 8e2a1cda3SDaniel Vetter #ifndef __DRM_PANIC_H__ 9e2a1cda3SDaniel Vetter #define __DRM_PANIC_H__ 10e2a1cda3SDaniel Vetter 11bf9fb17cSJocelyn Falempe #include <linux/module.h> 12bf9fb17cSJocelyn Falempe #include <linux/types.h> 13bf9fb17cSJocelyn Falempe #include <linux/iosys-map.h> 14bf9fb17cSJocelyn Falempe 15e2a1cda3SDaniel Vetter #include <drm/drm_device.h> 16bf9fb17cSJocelyn Falempe #include <drm/drm_fourcc.h> 17e2a1cda3SDaniel Vetter 18e2a1cda3SDaniel Vetter /** 19bf9fb17cSJocelyn Falempe * struct drm_scanout_buffer - DRM scanout buffer 20bf9fb17cSJocelyn Falempe * 21bf9fb17cSJocelyn Falempe * This structure holds the information necessary for drm_panic to draw the 22bf9fb17cSJocelyn Falempe * panic screen, and display it. 23bf9fb17cSJocelyn Falempe */ 24bf9fb17cSJocelyn Falempe struct drm_scanout_buffer { 25bf9fb17cSJocelyn Falempe /** 26bf9fb17cSJocelyn Falempe * @format: 27bf9fb17cSJocelyn Falempe * 28bf9fb17cSJocelyn Falempe * drm format of the scanout buffer. 29bf9fb17cSJocelyn Falempe */ 30bf9fb17cSJocelyn Falempe const struct drm_format_info *format; 31bf9fb17cSJocelyn Falempe 32bf9fb17cSJocelyn Falempe /** 33bf9fb17cSJocelyn Falempe * @map: 34bf9fb17cSJocelyn Falempe * 35bf9fb17cSJocelyn Falempe * Virtual address of the scanout buffer, either in memory or iomem. 36bf9fb17cSJocelyn Falempe * The scanout buffer should be in linear format, and can be directly 37bf9fb17cSJocelyn Falempe * sent to the display hardware. Tearing is not an issue for the panic 38bf9fb17cSJocelyn Falempe * screen. 39bf9fb17cSJocelyn Falempe */ 40bf9fb17cSJocelyn Falempe struct iosys_map map[DRM_FORMAT_MAX_PLANES]; 41bf9fb17cSJocelyn Falempe 42bf9fb17cSJocelyn Falempe /** 43bf9fb17cSJocelyn Falempe * @width: Width of the scanout buffer, in pixels. 44bf9fb17cSJocelyn Falempe */ 45bf9fb17cSJocelyn Falempe unsigned int width; 46bf9fb17cSJocelyn Falempe 47bf9fb17cSJocelyn Falempe /** 48bf9fb17cSJocelyn Falempe * @height: Height of the scanout buffer, in pixels. 49bf9fb17cSJocelyn Falempe */ 50bf9fb17cSJocelyn Falempe unsigned int height; 51bf9fb17cSJocelyn Falempe 52bf9fb17cSJocelyn Falempe /** 53bf9fb17cSJocelyn Falempe * @pitch: Length in bytes between the start of two consecutive lines. 54bf9fb17cSJocelyn Falempe */ 55bf9fb17cSJocelyn Falempe unsigned int pitch[DRM_FORMAT_MAX_PLANES]; 5624d07f11SJocelyn Falempe 5724d07f11SJocelyn Falempe /** 5824d07f11SJocelyn Falempe * @set_pixel: Optional function, to set a pixel color on the 5924d07f11SJocelyn Falempe * framebuffer. It allows to handle special tiling format inside the 6024d07f11SJocelyn Falempe * driver. 6124d07f11SJocelyn Falempe */ 6224d07f11SJocelyn Falempe void (*set_pixel)(struct drm_scanout_buffer *sb, unsigned int x, 6324d07f11SJocelyn Falempe unsigned int y, u32 color); 6424d07f11SJocelyn Falempe 65bf9fb17cSJocelyn Falempe }; 66bf9fb17cSJocelyn Falempe 67bf9fb17cSJocelyn Falempe /** 68e2a1cda3SDaniel Vetter * drm_panic_trylock - try to enter the panic printing critical section 69e2a1cda3SDaniel Vetter * @dev: struct drm_device 70e2a1cda3SDaniel Vetter * @flags: unsigned long irq flags you need to pass to the unlock() counterpart 71e2a1cda3SDaniel Vetter * 72e2a1cda3SDaniel Vetter * This function must be called by any panic printing code. The panic printing 73e2a1cda3SDaniel Vetter * attempt must be aborted if the trylock fails. 74e2a1cda3SDaniel Vetter * 75e2a1cda3SDaniel Vetter * Panic printing code can make the following assumptions while holding the 76e2a1cda3SDaniel Vetter * panic lock: 77e2a1cda3SDaniel Vetter * 78e2a1cda3SDaniel Vetter * - Anything protected by drm_panic_lock() and drm_panic_unlock() pairs is safe 79e2a1cda3SDaniel Vetter * to access. 80e2a1cda3SDaniel Vetter * 81e2a1cda3SDaniel Vetter * - Furthermore the panic printing code only registers in drm_dev_unregister() 82e2a1cda3SDaniel Vetter * and gets removed in drm_dev_unregister(). This allows the panic code to 83e2a1cda3SDaniel Vetter * safely access any state which is invariant in between these two function 84e2a1cda3SDaniel Vetter * calls, like the list of planes &drm_mode_config.plane_list or most of the 85e2a1cda3SDaniel Vetter * struct drm_plane structure. 86e2a1cda3SDaniel Vetter * 87e2a1cda3SDaniel Vetter * Specifically thanks to the protection around plane updates in 88e2a1cda3SDaniel Vetter * drm_atomic_helper_swap_state() the following additional guarantees hold: 89e2a1cda3SDaniel Vetter * 90e2a1cda3SDaniel Vetter * - It is safe to deference the drm_plane.state pointer. 91e2a1cda3SDaniel Vetter * 92e2a1cda3SDaniel Vetter * - Anything in struct drm_plane_state or the driver's subclass thereof which 93e2a1cda3SDaniel Vetter * stays invariant after the atomic check code has finished is safe to access. 94e2a1cda3SDaniel Vetter * Specifically this includes the reference counted pointers to framebuffer 95e2a1cda3SDaniel Vetter * and buffer objects. 96e2a1cda3SDaniel Vetter * 97e2a1cda3SDaniel Vetter * - Anything set up by &drm_plane_helper_funcs.fb_prepare and cleaned up 98e2a1cda3SDaniel Vetter * &drm_plane_helper_funcs.fb_cleanup is safe to access, as long as it stays 99e2a1cda3SDaniel Vetter * invariant between these two calls. This also means that for drivers using 100e2a1cda3SDaniel Vetter * dynamic buffer management the framebuffer is pinned, and therefer all 101e2a1cda3SDaniel Vetter * relevant datastructures can be accessed without taking any further locks 102e2a1cda3SDaniel Vetter * (which would be impossible in panic context anyway). 103e2a1cda3SDaniel Vetter * 104e2a1cda3SDaniel Vetter * - Importantly, software and hardware state set up by 105e2a1cda3SDaniel Vetter * &drm_plane_helper_funcs.begin_fb_access and 106e2a1cda3SDaniel Vetter * &drm_plane_helper_funcs.end_fb_access is not safe to access. 107e2a1cda3SDaniel Vetter * 108e2a1cda3SDaniel Vetter * Drivers must not make any assumptions about the actual state of the hardware, 109e2a1cda3SDaniel Vetter * unless they explicitly protected these hardware access with drm_panic_lock() 110e2a1cda3SDaniel Vetter * and drm_panic_unlock(). 111e2a1cda3SDaniel Vetter * 112e2a1cda3SDaniel Vetter * Return: 113e2a1cda3SDaniel Vetter * %0 when failing to acquire the raw spinlock, nonzero on success. 114e2a1cda3SDaniel Vetter */ 115e2a1cda3SDaniel Vetter #define drm_panic_trylock(dev, flags) \ 116e2a1cda3SDaniel Vetter raw_spin_trylock_irqsave(&(dev)->mode_config.panic_lock, flags) 117e2a1cda3SDaniel Vetter 118e2a1cda3SDaniel Vetter /** 119e2a1cda3SDaniel Vetter * drm_panic_lock - protect panic printing relevant state 120e2a1cda3SDaniel Vetter * @dev: struct drm_device 121e2a1cda3SDaniel Vetter * @flags: unsigned long irq flags you need to pass to the unlock() counterpart 122e2a1cda3SDaniel Vetter * 123e2a1cda3SDaniel Vetter * This function must be called to protect software and hardware state that the 124e2a1cda3SDaniel Vetter * panic printing code must be able to rely on. The protected sections must be 125e2a1cda3SDaniel Vetter * as small as possible. It uses the irqsave/irqrestore variant, and can be 126e2a1cda3SDaniel Vetter * called from irq handler. Examples include: 127e2a1cda3SDaniel Vetter * 128e2a1cda3SDaniel Vetter * - Access to peek/poke or other similar registers, if that is the way the 129e2a1cda3SDaniel Vetter * driver prints the pixels into the scanout buffer at panic time. 130e2a1cda3SDaniel Vetter * 131e2a1cda3SDaniel Vetter * - Updates to pointers like &drm_plane.state, allowing the panic handler to 132e2a1cda3SDaniel Vetter * safely deference these. This is done in drm_atomic_helper_swap_state(). 133e2a1cda3SDaniel Vetter * 134e2a1cda3SDaniel Vetter * - An state that isn't invariant and that the driver must be able to access 135e2a1cda3SDaniel Vetter * during panic printing. 136e2a1cda3SDaniel Vetter */ 137e2a1cda3SDaniel Vetter 138e2a1cda3SDaniel Vetter #define drm_panic_lock(dev, flags) \ 139e2a1cda3SDaniel Vetter raw_spin_lock_irqsave(&(dev)->mode_config.panic_lock, flags) 140e2a1cda3SDaniel Vetter 141e2a1cda3SDaniel Vetter /** 142e2a1cda3SDaniel Vetter * drm_panic_unlock - end of the panic printing critical section 143e2a1cda3SDaniel Vetter * @dev: struct drm_device 144e2a1cda3SDaniel Vetter * @flags: irq flags that were returned when acquiring the lock 145e2a1cda3SDaniel Vetter * 146e2a1cda3SDaniel Vetter * Unlocks the raw spinlock acquired by either drm_panic_lock() or 147e2a1cda3SDaniel Vetter * drm_panic_trylock(). 148e2a1cda3SDaniel Vetter */ 149e2a1cda3SDaniel Vetter #define drm_panic_unlock(dev, flags) \ 150e2a1cda3SDaniel Vetter raw_spin_unlock_irqrestore(&(dev)->mode_config.panic_lock, flags) 151e2a1cda3SDaniel Vetter 152e2a1cda3SDaniel Vetter #endif /* __DRM_PANIC_H__ */ 153