/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright (c) 2013-2019, The Linux Foundation. All rights reserved. */ #ifndef __MSM_VIDC_RESOURCES_H__ #define __MSM_VIDC_RESOURCES_H__ #include #include "msm_vidc.h" #include #define MAX_BUFFER_TYPES 32 struct dcvs_table { u32 load; u32 load_low; u32 load_high; u32 supported_codecs; }; struct dcvs_limit { u32 min_mbpf; u32 fps; }; struct reg_value_pair { u32 reg; u32 value; }; struct reg_set { struct reg_value_pair *reg_tbl; int count; }; struct addr_range { u32 start; u32 size; }; struct addr_set { struct addr_range *addr_tbl; int count; }; struct context_bank_info { struct list_head list; const char *name; u32 buffer_type; bool is_secure; struct addr_range addr_range; struct device *dev; struct iommu_domain *domain; }; struct buffer_usage_table { u32 buffer_type; u32 tz_usage; }; struct buffer_usage_set { struct buffer_usage_table *buffer_usage_tbl; u32 count; }; struct regulator_info { struct regulator *regulator; bool has_hw_power_collapse; char *name; }; struct regulator_set { struct regulator_info *regulator_tbl; u32 count; }; struct clock_info { const char *name; struct clk *clk; u32 count; bool has_scaling; bool has_mem_retention; }; struct clock_set { struct clock_info *clock_tbl; u32 count; }; struct bus_info { char *name; int master; int slave; unsigned int range[2]; struct device *dev; struct msm_bus_client_handle *client; bool is_prfm_mode; const char *mode; }; struct bus_set { struct bus_info *bus_tbl; u32 count; }; struct reset_info { struct reset_control *rst; const char *name; }; struct reset_set { struct reset_info *reset_tbl; u32 count; }; struct allowed_clock_rates_table { u32 clock_rate; }; struct clock_profile_entry { u32 codec_mask; u32 vpp_cycles; u32 vsp_cycles; u32 low_power_cycles; }; struct clock_freq_table { struct clock_profile_entry *clk_prof_entries; u32 count; }; struct subcache_info { const char *name; bool isactive; bool isset; struct llcc_slice_desc *subcache; }; struct subcache_set { struct subcache_info *subcache_tbl; u32 count; }; struct msm_vidc_mem_cdsp { struct device *dev; }; struct msm_vidc_platform_resources { phys_addr_t firmware_base; phys_addr_t register_base; uint32_t register_size; uint32_t irq; uint32_t sku_version; struct allowed_clock_rates_table *allowed_clks_tbl; u32 allowed_clks_tbl_size; struct clock_freq_table clock_freq_tbl; struct dcvs_table *dcvs_tbl; uint32_t dcvs_tbl_size; struct dcvs_limit *dcvs_limit; bool sys_cache_present; bool sys_cache_res_set; struct subcache_set subcache_set; struct reg_set reg_set; struct addr_set qdss_addr_set; struct buffer_usage_set buffer_usage_set; uint32_t max_load; uint32_t max_hq_mbs_per_frame; uint32_t max_hq_mbs_per_sec; uint32_t max_bframe_mbs_per_frame; uint32_t max_bframe_mbs_per_sec; struct platform_device *pdev; struct regulator_set regulator_set; struct clock_set clock_set; struct bus_set bus_set; struct reset_set reset_set; bool sw_power_collapsible; bool slave_side_cp; struct list_head context_banks; bool thermal_mitigable; const char *fw_name; const char *hfi_version; bool never_unload_fw; bool debug_timeout; uint32_t pm_qos_latency_us; uint32_t max_inst_count; uint32_t max_secure_inst_count; int msm_vidc_hw_rsp_timeout; int msm_vidc_firmware_unload_delay; uint32_t msm_vidc_pwr_collapse_delay; bool cvp_internal; bool cvp_external; bool non_fatal_pagefaults; bool cache_pagetables; bool decode_batching; bool dcvs; struct msm_vidc_codec_data *codec_data; int codec_data_count; struct msm_vidc_codec *codecs; uint32_t codecs_count; struct msm_vidc_codec_capability *codec_caps; uint32_t codec_caps_count; struct msm_vidc_csc_coeff *csc_coeff_data; struct msm_vidc_mem_cdsp mem_cdsp; uint32_t vpu_ver; uint32_t fw_cycles; uint32_t fw_vpp_cycles; struct msm_vidc_ubwc_config_data *ubwc_config; }; static inline bool is_iommu_present(struct msm_vidc_platform_resources *res) { return !list_empty(&res->context_banks); } #endif