Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Boris Brezillon | 1178 | 100.00% | 1 | 100.00% |
Total | 1178 | 1 |
/* SPDX-License-Identifier: GPL-2.0 or MIT */ /* Copyright 2023 Collabora ltd. */ #ifndef __PANTHOR_MCU_H__ #define __PANTHOR_MCU_H__ #include <linux/types.h> struct panthor_device; struct panthor_kernel_bo; #define MAX_CSGS 31 #define MAX_CS_PER_CSG 32 struct panthor_fw_ringbuf_input_iface { u64 insert; u64 extract; }; struct panthor_fw_ringbuf_output_iface { u64 extract; u32 active; }; struct panthor_fw_cs_control_iface { #define CS_FEATURES_WORK_REGS(x) (((x) & GENMASK(7, 0)) + 1) #define CS_FEATURES_SCOREBOARDS(x) (((x) & GENMASK(15, 8)) >> 8) #define CS_FEATURES_COMPUTE BIT(16) #define CS_FEATURES_FRAGMENT BIT(17) #define CS_FEATURES_TILER BIT(18) u32 features; u32 input_va; u32 output_va; }; struct panthor_fw_cs_input_iface { #define CS_STATE_MASK GENMASK(2, 0) #define CS_STATE_STOP 0 #define CS_STATE_START 1 #define CS_EXTRACT_EVENT BIT(4) #define CS_IDLE_SYNC_WAIT BIT(8) #define CS_IDLE_PROTM_PENDING BIT(9) #define CS_IDLE_EMPTY BIT(10) #define CS_IDLE_RESOURCE_REQ BIT(11) #define CS_TILER_OOM BIT(26) #define CS_PROTM_PENDING BIT(27) #define CS_FATAL BIT(30) #define CS_FAULT BIT(31) #define CS_REQ_MASK (CS_STATE_MASK | \ CS_EXTRACT_EVENT | \ CS_IDLE_SYNC_WAIT | \ CS_IDLE_PROTM_PENDING | \ CS_IDLE_EMPTY | \ CS_IDLE_RESOURCE_REQ) #define CS_EVT_MASK (CS_TILER_OOM | \ CS_PROTM_PENDING | \ CS_FATAL | \ CS_FAULT) u32 req; #define CS_CONFIG_PRIORITY(x) ((x) & GENMASK(3, 0)) #define CS_CONFIG_DOORBELL(x) (((x) << 8) & GENMASK(15, 8)) u32 config; u32 reserved1; u32 ack_irq_mask; u64 ringbuf_base; u32 ringbuf_size; u32 reserved2; u64 heap_start; u64 heap_end; u64 ringbuf_input; u64 ringbuf_output; u32 instr_config; u32 instrbuf_size; u64 instrbuf_base; u64 instrbuf_offset_ptr; }; struct panthor_fw_cs_output_iface { u32 ack; u32 reserved1[15]; u64 status_cmd_ptr; #define CS_STATUS_WAIT_SB_MASK GENMASK(15, 0) #define CS_STATUS_WAIT_SB_SRC_MASK GENMASK(19, 16) #define CS_STATUS_WAIT_SB_SRC_NONE (0 << 16) #define CS_STATUS_WAIT_SB_SRC_WAIT (8 << 16) #define CS_STATUS_WAIT_SYNC_COND_LE (0 << 24) #define CS_STATUS_WAIT_SYNC_COND_GT (1 << 24) #define CS_STATUS_WAIT_SYNC_COND_MASK GENMASK(27, 24) #define CS_STATUS_WAIT_PROGRESS BIT(28) #define CS_STATUS_WAIT_PROTM BIT(29) #define CS_STATUS_WAIT_SYNC_64B BIT(30) #define CS_STATUS_WAIT_SYNC BIT(31) u32 status_wait; u32 status_req_resource; u64 status_wait_sync_ptr; u32 status_wait_sync_value; u32 status_scoreboards; #define CS_STATUS_BLOCKED_REASON_UNBLOCKED 0 #define CS_STATUS_BLOCKED_REASON_SB_WAIT 1 #define CS_STATUS_BLOCKED_REASON_PROGRESS_WAIT 2 #define CS_STATUS_BLOCKED_REASON_SYNC_WAIT 3 #define CS_STATUS_BLOCKED_REASON_DEFERRED 5 #define CS_STATUS_BLOCKED_REASON_RES 6 #define CS_STATUS_BLOCKED_REASON_FLUSH 7 #define CS_STATUS_BLOCKED_REASON_MASK GENMASK(3, 0) u32 status_blocked_reason; u32 status_wait_sync_value_hi; u32 reserved2[6]; #define CS_EXCEPTION_TYPE(x) ((x) & GENMASK(7, 0)) #define CS_EXCEPTION_DATA(x) (((x) >> 8) & GENMASK(23, 0)) u32 fault; u32 fatal; u64 fault_info; u64 fatal_info; u32 reserved3[10]; u32 heap_vt_start; u32 heap_vt_end; u32 reserved4; u32 heap_frag_end; u64 heap_address; }; struct panthor_fw_csg_control_iface { u32 features; u32 input_va; u32 output_va; u32 suspend_size; u32 protm_suspend_size; u32 stream_num; u32 stream_stride; }; struct panthor_fw_csg_input_iface { #define CSG_STATE_MASK GENMASK(2, 0) #define CSG_STATE_TERMINATE 0 #define CSG_STATE_START 1 #define CSG_STATE_SUSPEND 2 #define CSG_STATE_RESUME 3 #define CSG_ENDPOINT_CONFIG BIT(4) #define CSG_STATUS_UPDATE BIT(5) #define CSG_SYNC_UPDATE BIT(28) #define CSG_IDLE BIT(29) #define CSG_DOORBELL BIT(30) #define CSG_PROGRESS_TIMER_EVENT BIT(31) #define CSG_REQ_MASK (CSG_STATE_MASK | \ CSG_ENDPOINT_CONFIG | \ CSG_STATUS_UPDATE) #define CSG_EVT_MASK (CSG_SYNC_UPDATE | \ CSG_IDLE | \ CSG_PROGRESS_TIMER_EVENT) u32 req; u32 ack_irq_mask; u32 doorbell_req; u32 cs_irq_ack; u32 reserved1[4]; u64 allow_compute; u64 allow_fragment; u32 allow_other; #define CSG_EP_REQ_COMPUTE(x) ((x) & GENMASK(7, 0)) #define CSG_EP_REQ_FRAGMENT(x) (((x) << 8) & GENMASK(15, 8)) #define CSG_EP_REQ_TILER(x) (((x) << 16) & GENMASK(19, 16)) #define CSG_EP_REQ_EXCL_COMPUTE BIT(20) #define CSG_EP_REQ_EXCL_FRAGMENT BIT(21) #define CSG_EP_REQ_PRIORITY(x) (((x) << 28) & GENMASK(31, 28)) #define CSG_EP_REQ_PRIORITY_MASK GENMASK(31, 28) u32 endpoint_req; u32 reserved2[2]; u64 suspend_buf; u64 protm_suspend_buf; u32 config; u32 iter_trace_config; }; struct panthor_fw_csg_output_iface { u32 ack; u32 reserved1; u32 doorbell_ack; u32 cs_irq_req; u32 status_endpoint_current; u32 status_endpoint_req; #define CSG_STATUS_STATE_IS_IDLE BIT(0) u32 status_state; u32 resource_dep; }; struct panthor_fw_global_control_iface { u32 version; u32 features; u32 input_va; u32 output_va; u32 group_num; u32 group_stride; u32 perfcnt_size; u32 instr_features; }; struct panthor_fw_global_input_iface { #define GLB_HALT BIT(0) #define GLB_CFG_PROGRESS_TIMER BIT(1) #define GLB_CFG_ALLOC_EN BIT(2) #define GLB_CFG_POWEROFF_TIMER BIT(3) #define GLB_PROTM_ENTER BIT(4) #define GLB_PERFCNT_EN BIT(5) #define GLB_PERFCNT_SAMPLE BIT(6) #define GLB_COUNTER_EN BIT(7) #define GLB_PING BIT(8) #define GLB_FWCFG_UPDATE BIT(9) #define GLB_IDLE_EN BIT(10) #define GLB_SLEEP BIT(12) #define GLB_INACTIVE_COMPUTE BIT(20) #define GLB_INACTIVE_FRAGMENT BIT(21) #define GLB_INACTIVE_TILER BIT(22) #define GLB_PROTM_EXIT BIT(23) #define GLB_PERFCNT_THRESHOLD BIT(24) #define GLB_PERFCNT_OVERFLOW BIT(25) #define GLB_IDLE BIT(26) #define GLB_DBG_CSF BIT(30) #define GLB_DBG_HOST BIT(31) #define GLB_REQ_MASK GENMASK(10, 0) #define GLB_EVT_MASK GENMASK(26, 20) u32 req; u32 ack_irq_mask; u32 doorbell_req; u32 reserved1; u32 progress_timer; #define GLB_TIMER_VAL(x) ((x) & GENMASK(30, 0)) #define GLB_TIMER_SOURCE_GPU_COUNTER BIT(31) u32 poweroff_timer; u64 core_en_mask; u32 reserved2; u32 perfcnt_as; u64 perfcnt_base; u32 perfcnt_extract; u32 reserved3[3]; u32 perfcnt_config; u32 perfcnt_csg_select; u32 perfcnt_fw_enable; u32 perfcnt_csg_enable; u32 perfcnt_csf_enable; u32 perfcnt_shader_enable; u32 perfcnt_tiler_enable; u32 perfcnt_mmu_l2_enable; u32 reserved4[8]; u32 idle_timer; }; enum panthor_fw_halt_status { PANTHOR_FW_HALT_OK = 0, PANTHOR_FW_HALT_ON_PANIC = 0x4e, PANTHOR_FW_HALT_ON_WATCHDOG_EXPIRATION = 0x4f, }; struct panthor_fw_global_output_iface { u32 ack; u32 reserved1; u32 doorbell_ack; u32 reserved2; u32 halt_status; u32 perfcnt_status; u32 perfcnt_insert; }; /** * struct panthor_fw_cs_iface - Firmware command stream slot interface */ struct panthor_fw_cs_iface { /** * @lock: Lock protecting access to the panthor_fw_cs_input_iface::req * field. * * Needed so we can update the req field concurrently from the interrupt * handler and the scheduler logic. * * TODO: Ideally we'd want to use a cmpxchg() to update the req, but FW * interface sections are mapped uncached/write-combined right now, and * using cmpxchg() on such mappings leads to SError faults. Revisit when * we have 'SHARED' GPU mappings hooked up. */ spinlock_t lock; /** * @control: Command stream slot control interface. * * Used to expose command stream slot properties. * * This interface is read-only. */ struct panthor_fw_cs_control_iface *control; /** * @input: Command stream slot input interface. * * Used for host updates/events. */ struct panthor_fw_cs_input_iface *input; /** * @output: Command stream slot output interface. * * Used for FW updates/events. * * This interface is read-only. */ const struct panthor_fw_cs_output_iface *output; }; /** * struct panthor_fw_csg_iface - Firmware command stream group slot interface */ struct panthor_fw_csg_iface { /** * @lock: Lock protecting access to the panthor_fw_csg_input_iface::req * field. * * Needed so we can update the req field concurrently from the interrupt * handler and the scheduler logic. * * TODO: Ideally we'd want to use a cmpxchg() to update the req, but FW * interface sections are mapped uncached/write-combined right now, and * using cmpxchg() on such mappings leads to SError faults. Revisit when * we have 'SHARED' GPU mappings hooked up. */ spinlock_t lock; /** * @control: Command stream group slot control interface. * * Used to expose command stream group slot properties. * * This interface is read-only. */ const struct panthor_fw_csg_control_iface *control; /** * @input: Command stream slot input interface. * * Used for host updates/events. */ struct panthor_fw_csg_input_iface *input; /** * @output: Command stream group slot output interface. * * Used for FW updates/events. * * This interface is read-only. */ const struct panthor_fw_csg_output_iface *output; }; /** * struct panthor_fw_global_iface - Firmware global interface */ struct panthor_fw_global_iface { /** * @lock: Lock protecting access to the panthor_fw_global_input_iface::req * field. * * Needed so we can update the req field concurrently from the interrupt * handler and the scheduler/FW management logic. * * TODO: Ideally we'd want to use a cmpxchg() to update the req, but FW * interface sections are mapped uncached/write-combined right now, and * using cmpxchg() on such mappings leads to SError faults. Revisit when * we have 'SHARED' GPU mappings hooked up. */ spinlock_t lock; /** * @control: Command stream group slot control interface. * * Used to expose global FW properties. * * This interface is read-only. */ const struct panthor_fw_global_control_iface *control; /** * @input: Global input interface. * * Used for host updates/events. */ struct panthor_fw_global_input_iface *input; /** * @output: Global output interface. * * Used for FW updates/events. * * This interface is read-only. */ const struct panthor_fw_global_output_iface *output; }; /** * panthor_fw_toggle_reqs() - Toggle acknowledge bits to send an event to the FW * @__iface: The interface to operate on. * @__in_reg: Name of the register to update in the input section of the interface. * @__out_reg: Name of the register to take as a reference in the output section of the * interface. * @__mask: Mask to apply to the update. * * The Host -> FW event/message passing was designed to be lockless, with each side of * the channel having its writeable section. Events are signaled as a difference between * the host and FW side in the req/ack registers (when a bit differs, there's an event * pending, when they are the same, nothing needs attention). * * This helper allows one to update the req register based on the current value of the * ack register managed by the FW. Toggling a specific bit will flag an event. In order * for events to be re-evaluated, the interface doorbell needs to be rung. * * Concurrent accesses to the same req register is covered. * * Anything requiring atomic updates to multiple registers requires a dedicated lock. */ #define panthor_fw_toggle_reqs(__iface, __in_reg, __out_reg, __mask) \ do { \ u32 __cur_val, __new_val, __out_val; \ spin_lock(&(__iface)->lock); \ __cur_val = READ_ONCE((__iface)->input->__in_reg); \ __out_val = READ_ONCE((__iface)->output->__out_reg); \ __new_val = ((__out_val ^ (__mask)) & (__mask)) | (__cur_val & ~(__mask)); \ WRITE_ONCE((__iface)->input->__in_reg, __new_val); \ spin_unlock(&(__iface)->lock); \ } while (0) /** * panthor_fw_update_reqs() - Update bits to reflect a configuration change * @__iface: The interface to operate on. * @__in_reg: Name of the register to update in the input section of the interface. * @__val: Value to set. * @__mask: Mask to apply to the update. * * Some configuration get passed through req registers that are also used to * send events to the FW. Those req registers being updated from the interrupt * handler, they require special helpers to update the configuration part as well. * * Concurrent accesses to the same req register is covered. * * Anything requiring atomic updates to multiple registers requires a dedicated lock. */ #define panthor_fw_update_reqs(__iface, __in_reg, __val, __mask) \ do { \ u32 __cur_val, __new_val; \ spin_lock(&(__iface)->lock); \ __cur_val = READ_ONCE((__iface)->input->__in_reg); \ __new_val = (__cur_val & ~(__mask)) | ((__val) & (__mask)); \ WRITE_ONCE((__iface)->input->__in_reg, __new_val); \ spin_unlock(&(__iface)->lock); \ } while (0) struct panthor_fw_global_iface * panthor_fw_get_glb_iface(struct panthor_device *ptdev); struct panthor_fw_csg_iface * panthor_fw_get_csg_iface(struct panthor_device *ptdev, u32 csg_slot); struct panthor_fw_cs_iface * panthor_fw_get_cs_iface(struct panthor_device *ptdev, u32 csg_slot, u32 cs_slot); int panthor_fw_csg_wait_acks(struct panthor_device *ptdev, u32 csg_id, u32 req_mask, u32 *acked, u32 timeout_ms); int panthor_fw_glb_wait_acks(struct panthor_device *ptdev, u32 req_mask, u32 *acked, u32 timeout_ms); void panthor_fw_ring_csg_doorbells(struct panthor_device *ptdev, u32 csg_slot); struct panthor_kernel_bo * panthor_fw_alloc_queue_iface_mem(struct panthor_device *ptdev, struct panthor_fw_ringbuf_input_iface **input, const struct panthor_fw_ringbuf_output_iface **output, u32 *input_fw_va, u32 *output_fw_va); struct panthor_kernel_bo * panthor_fw_alloc_suspend_buf_mem(struct panthor_device *ptdev, size_t size); struct panthor_vm *panthor_fw_vm(struct panthor_device *ptdev); void panthor_fw_pre_reset(struct panthor_device *ptdev, bool on_hang); int panthor_fw_post_reset(struct panthor_device *ptdev); static inline void panthor_fw_suspend(struct panthor_device *ptdev) { panthor_fw_pre_reset(ptdev, false); } static inline int panthor_fw_resume(struct panthor_device *ptdev) { return panthor_fw_post_reset(ptdev); } int panthor_fw_init(struct panthor_device *ptdev); void panthor_fw_unplug(struct panthor_device *ptdev); #endif
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