Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
james qian wang (Arm Technology China) | 546 | 83.36% | 15 | 65.22% |
Lowry Li | 72 | 10.99% | 4 | 17.39% |
Mihail Atanassov | 37 | 5.65% | 4 | 17.39% |
Total | 655 | 23 |
/* SPDX-License-Identifier: GPL-2.0 */ /* * (C) COPYRIGHT 2018 ARM Limited. All rights reserved. * Author: James.Qian.Wang <james.qian.wang@arm.com> * */ #ifndef _KOMEDA_DEV_H_ #define _KOMEDA_DEV_H_ #include <linux/device.h> #include <linux/clk.h> #include "komeda_pipeline.h" #include "malidp_product.h" #include "komeda_format_caps.h" #define KOMEDA_EVENT_VSYNC BIT_ULL(0) #define KOMEDA_EVENT_FLIP BIT_ULL(1) #define KOMEDA_EVENT_URUN BIT_ULL(2) #define KOMEDA_EVENT_IBSY BIT_ULL(3) #define KOMEDA_EVENT_OVR BIT_ULL(4) #define KOMEDA_EVENT_EOW BIT_ULL(5) #define KOMEDA_EVENT_MODE BIT_ULL(6) #define KOMEDA_EVENT_FULL BIT_ULL(7) #define KOMEDA_EVENT_EMPTY BIT_ULL(8) #define KOMEDA_ERR_TETO BIT_ULL(14) #define KOMEDA_ERR_TEMR BIT_ULL(15) #define KOMEDA_ERR_TITR BIT_ULL(16) #define KOMEDA_ERR_CPE BIT_ULL(17) #define KOMEDA_ERR_CFGE BIT_ULL(18) #define KOMEDA_ERR_AXIE BIT_ULL(19) #define KOMEDA_ERR_ACE0 BIT_ULL(20) #define KOMEDA_ERR_ACE1 BIT_ULL(21) #define KOMEDA_ERR_ACE2 BIT_ULL(22) #define KOMEDA_ERR_ACE3 BIT_ULL(23) #define KOMEDA_ERR_DRIFTTO BIT_ULL(24) #define KOMEDA_ERR_FRAMETO BIT_ULL(25) #define KOMEDA_ERR_CSCE BIT_ULL(26) #define KOMEDA_ERR_ZME BIT_ULL(27) #define KOMEDA_ERR_MERR BIT_ULL(28) #define KOMEDA_ERR_TCF BIT_ULL(29) #define KOMEDA_ERR_TTNG BIT_ULL(30) #define KOMEDA_ERR_TTF BIT_ULL(31) #define KOMEDA_ERR_EVENTS \ (KOMEDA_EVENT_URUN | KOMEDA_EVENT_IBSY | KOMEDA_EVENT_OVR |\ KOMEDA_ERR_TETO | KOMEDA_ERR_TEMR | KOMEDA_ERR_TITR |\ KOMEDA_ERR_CPE | KOMEDA_ERR_CFGE | KOMEDA_ERR_AXIE |\ KOMEDA_ERR_ACE0 | KOMEDA_ERR_ACE1 | KOMEDA_ERR_ACE2 |\ KOMEDA_ERR_ACE3 | KOMEDA_ERR_DRIFTTO | KOMEDA_ERR_FRAMETO |\ KOMEDA_ERR_ZME | KOMEDA_ERR_MERR | KOMEDA_ERR_TCF |\ KOMEDA_ERR_TTNG | KOMEDA_ERR_TTF) #define KOMEDA_WARN_EVENTS \ (KOMEDA_ERR_CSCE | KOMEDA_EVENT_FULL | KOMEDA_EVENT_EMPTY) #define KOMEDA_INFO_EVENTS (0 \ | KOMEDA_EVENT_VSYNC \ | KOMEDA_EVENT_FLIP \ | KOMEDA_EVENT_EOW \ | KOMEDA_EVENT_MODE \ ) /* pipeline DT ports */ enum { KOMEDA_OF_PORT_OUTPUT = 0, KOMEDA_OF_PORT_COPROC = 1, }; struct komeda_chip_info { u32 arch_id; u32 core_id; u32 core_info; u32 bus_width; }; struct komeda_dev; struct komeda_events { u64 global; u64 pipes[KOMEDA_MAX_PIPELINES]; }; /** * struct komeda_dev_funcs * * Supplied by chip level and returned by the chip entry function xxx_identify, */ struct komeda_dev_funcs { /** * @init_format_table: * * initialize &komeda_dev->format_table, this function should be called * before the &enum_resource */ void (*init_format_table)(struct komeda_dev *mdev); /** * @enum_resources: * * for CHIP to report or add pipeline and component resources to CORE */ int (*enum_resources)(struct komeda_dev *mdev); /** @cleanup: call to chip to cleanup komeda_dev->chip data */ void (*cleanup)(struct komeda_dev *mdev); /** @connect_iommu: Optional, connect to external iommu */ int (*connect_iommu)(struct komeda_dev *mdev); /** @disconnect_iommu: Optional, disconnect to external iommu */ int (*disconnect_iommu)(struct komeda_dev *mdev); /** * @irq_handler: * * for CORE to get the HW event from the CHIP when interrupt happened. */ irqreturn_t (*irq_handler)(struct komeda_dev *mdev, struct komeda_events *events); /** @enable_irq: enable irq */ int (*enable_irq)(struct komeda_dev *mdev); /** @disable_irq: disable irq */ int (*disable_irq)(struct komeda_dev *mdev); /** @on_off_vblank: notify HW to on/off vblank */ void (*on_off_vblank)(struct komeda_dev *mdev, int master_pipe, bool on); /** @dump_register: Optional, dump registers to seq_file */ void (*dump_register)(struct komeda_dev *mdev, struct seq_file *seq); /** * @change_opmode: * * Notify HW to switch to a new display operation mode. */ int (*change_opmode)(struct komeda_dev *mdev, int new_mode); /** @flush: Notify the HW to flush or kickoff the update */ void (*flush)(struct komeda_dev *mdev, int master_pipe, u32 active_pipes); }; /* * DISPLAY_MODE describes how many display been enabled, and which will be * passed to CHIP by &komeda_dev_funcs->change_opmode(), then CHIP can do the * pipeline resources assignment according to this usage hint. * - KOMEDA_MODE_DISP0: Only one display enabled, pipeline-0 work as master. * - KOMEDA_MODE_DISP1: Only one display enabled, pipeline-0 work as master. * - KOMEDA_MODE_DUAL_DISP: Dual display mode, both display has been enabled. * And D71 supports assign two pipelines to one single display on mode * KOMEDA_MODE_DISP0/DISP1 */ enum { KOMEDA_MODE_INACTIVE = 0, KOMEDA_MODE_DISP0 = BIT(0), KOMEDA_MODE_DISP1 = BIT(1), KOMEDA_MODE_DUAL_DISP = KOMEDA_MODE_DISP0 | KOMEDA_MODE_DISP1, }; /** * struct komeda_dev * * Pipeline and component are used to describe how to handle the pixel data. * komeda_device is for describing the whole view of the device, and the * control-abilites of device. */ struct komeda_dev { /** @dev: the base device structure */ struct device *dev; /** @reg_base: the base address of komeda io space */ u32 __iomem *reg_base; /** @dma_parms: the dma parameters of komeda */ struct device_dma_parameters dma_parms; /** @chip: the basic chip information */ struct komeda_chip_info chip; /** @fmt_tbl: initialized by &komeda_dev_funcs->init_format_table */ struct komeda_format_caps_table fmt_tbl; /** @aclk: HW main engine clk */ struct clk *aclk; /** @irq: irq number */ int irq; /** @lock: used to protect dpmode */ struct mutex lock; /** @dpmode: current display mode */ u32 dpmode; /** @n_pipelines: the number of pipe in @pipelines */ int n_pipelines; /** @pipelines: the komeda pipelines */ struct komeda_pipeline *pipelines[KOMEDA_MAX_PIPELINES]; /** @funcs: chip funcs to access to HW */ const struct komeda_dev_funcs *funcs; /** * @chip_data: * * chip data will be added by &komeda_dev_funcs.enum_resources() and * destroyed by &komeda_dev_funcs.cleanup() */ void *chip_data; /** @iommu: iommu domain */ struct iommu_domain *iommu; /** @debugfs_root: root directory of komeda debugfs */ struct dentry *debugfs_root; /** * @err_verbosity: bitmask for how much extra info to print on error * * See KOMEDA_DEV_* macros for details. Low byte contains the debug * level categories, the high byte contains extra debug options. */ u16 err_verbosity; /* Print a single line per error per frame with error events. */ #define KOMEDA_DEV_PRINT_ERR_EVENTS BIT(0) /* Print a single line per warning per frame with error events. */ #define KOMEDA_DEV_PRINT_WARN_EVENTS BIT(1) /* Print a single line per info event per frame with error events. */ #define KOMEDA_DEV_PRINT_INFO_EVENTS BIT(2) /* Dump DRM state on an error or warning event. */ #define KOMEDA_DEV_PRINT_DUMP_STATE_ON_EVENT BIT(8) /* Disable rate limiting of event prints (normally one per commit) */ #define KOMEDA_DEV_PRINT_DISABLE_RATELIMIT BIT(12) }; static inline bool komeda_product_match(struct komeda_dev *mdev, u32 target) { return MALIDP_CORE_ID_PRODUCT_ID(mdev->chip.core_id) == target; } typedef const struct komeda_dev_funcs * (*komeda_identify_func)(u32 __iomem *reg, struct komeda_chip_info *chip); const struct komeda_dev_funcs * d71_identify(u32 __iomem *reg, struct komeda_chip_info *chip); struct komeda_dev *komeda_dev_create(struct device *dev); void komeda_dev_destroy(struct komeda_dev *mdev); struct komeda_dev *dev_to_mdev(struct device *dev); void komeda_print_events(struct komeda_events *evts, struct drm_device *dev); int komeda_dev_resume(struct komeda_dev *mdev); int komeda_dev_suspend(struct komeda_dev *mdev); #endif /*_KOMEDA_DEV_H_*/
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