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/*
* Copyright 2012-16 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Authors: AMD
*
*/
#ifndef __DAL_CLK_MGR_H__
#define __DAL_CLK_MGR_H__
#include "dc.h"
#include "dm_pp_smu.h"
#define DCN_MINIMUM_DISPCLK_Khz 100000
#define DCN_MINIMUM_DPPCLK_Khz 100000
/* Constants */
#define DDR4_DRAM_WIDTH 64
#define WM_A 0
#define WM_B 1
#define WM_C 2
#define WM_D 3
#define WM_SET_COUNT 4
#define DCN_MINIMUM_DISPCLK_Khz 100000
#define DCN_MINIMUM_DPPCLK_Khz 100000
struct dcn3_clk_internal {
int dummy;
/*TODO:
uint32_t CLK1_CLK0_CURRENT_CNT; //dispclk
uint32_t CLK1_CLK1_CURRENT_CNT; //dppclk
uint32_t CLK1_CLK2_CURRENT_CNT; //dprefclk
uint32_t CLK1_CLK3_CURRENT_CNT; //dcfclk
uint32_t CLK1_CLK3_DS_CNTL; //dcf_deep_sleep_divider
uint32_t CLK1_CLK3_ALLOW_DS; //dcf_deep_sleep_allow
uint32_t CLK1_CLK0_BYPASS_CNTL; //dispclk bypass
uint32_t CLK1_CLK1_BYPASS_CNTL; //dppclk bypass
uint32_t CLK1_CLK2_BYPASS_CNTL; //dprefclk bypass
uint32_t CLK1_CLK3_BYPASS_CNTL; //dcfclk bypass
*/
};
struct dcn301_clk_internal {
int dummy;
uint32_t CLK1_CLK0_CURRENT_CNT; //dispclk
uint32_t CLK1_CLK1_CURRENT_CNT; //dppclk
uint32_t CLK1_CLK2_CURRENT_CNT; //dprefclk
uint32_t CLK1_CLK3_CURRENT_CNT; //dcfclk
uint32_t CLK1_CLK3_DS_CNTL; //dcf_deep_sleep_divider
uint32_t CLK1_CLK3_ALLOW_DS; //dcf_deep_sleep_allow
uint32_t CLK1_CLK0_BYPASS_CNTL; //dispclk bypass
uint32_t CLK1_CLK1_BYPASS_CNTL; //dppclk bypass
uint32_t CLK1_CLK2_BYPASS_CNTL; //dprefclk bypass
uint32_t CLK1_CLK3_BYPASS_CNTL; //dcfclk bypass
};
/* Will these bw structures be ASIC specific? */
#define MAX_NUM_DPM_LVL 8
#define WM_SET_COUNT 4
struct clk_limit_table_entry {
unsigned int voltage; /* milivolts withh 2 fractional bits */
unsigned int dcfclk_mhz;
unsigned int fclk_mhz;
unsigned int memclk_mhz;
unsigned int socclk_mhz;
unsigned int dtbclk_mhz;
unsigned int dispclk_mhz;
unsigned int dppclk_mhz;
unsigned int phyclk_mhz;
unsigned int phyclk_d18_mhz;
unsigned int wck_ratio;
};
struct clk_limit_num_entries {
unsigned int num_dcfclk_levels;
unsigned int num_fclk_levels;
unsigned int num_memclk_levels;
unsigned int num_socclk_levels;
unsigned int num_dtbclk_levels;
unsigned int num_dispclk_levels;
unsigned int num_dppclk_levels;
unsigned int num_phyclk_levels;
unsigned int num_phyclk_d18_levels;
};
/* This table is contiguous */
struct clk_limit_table {
struct clk_limit_table_entry entries[MAX_NUM_DPM_LVL];
struct clk_limit_num_entries num_entries_per_clk;
unsigned int num_entries; /* highest populated dpm level for back compatibility */
};
struct wm_range_table_entry {
unsigned int wm_inst;
unsigned int wm_type;
double pstate_latency_us;
double sr_exit_time_us;
double sr_enter_plus_exit_time_us;
bool valid;
};
struct nv_wm_range_entry {
bool valid;
struct {
uint8_t wm_type;
uint16_t min_dcfclk;
uint16_t max_dcfclk;
uint16_t min_uclk;
uint16_t max_uclk;
} pmfw_breakdown;
struct {
double pstate_latency_us;
double sr_exit_time_us;
double sr_enter_plus_exit_time_us;
double fclk_change_latency_us;
} dml_input;
};
struct clk_log_info {
bool enabled;
char *pBuf;
unsigned int bufSize;
unsigned int *sum_chars_printed;
};
struct clk_state_registers_and_bypass {
uint32_t dcfclk;
uint32_t dcf_deep_sleep_divider;
uint32_t dcf_deep_sleep_allow;
uint32_t dprefclk;
uint32_t dispclk;
uint32_t dppclk;
uint32_t dtbclk;
uint32_t dppclk_bypass;
uint32_t dcfclk_bypass;
uint32_t dprefclk_bypass;
uint32_t dispclk_bypass;
};
struct rv1_clk_internal {
uint32_t CLK0_CLK8_CURRENT_CNT; //dcfclk
uint32_t CLK0_CLK8_DS_CNTL; //dcf_deep_sleep_divider
uint32_t CLK0_CLK8_ALLOW_DS; //dcf_deep_sleep_allow
uint32_t CLK0_CLK10_CURRENT_CNT; //dprefclk
uint32_t CLK0_CLK11_CURRENT_CNT; //dispclk
uint32_t CLK0_CLK8_BYPASS_CNTL; //dcfclk bypass
uint32_t CLK0_CLK10_BYPASS_CNTL; //dprefclk bypass
uint32_t CLK0_CLK11_BYPASS_CNTL; //dispclk bypass
};
struct rn_clk_internal {
uint32_t CLK1_CLK0_CURRENT_CNT; //dispclk
uint32_t CLK1_CLK1_CURRENT_CNT; //dppclk
uint32_t CLK1_CLK2_CURRENT_CNT; //dprefclk
uint32_t CLK1_CLK3_CURRENT_CNT; //dcfclk
uint32_t CLK1_CLK3_DS_CNTL; //dcf_deep_sleep_divider
uint32_t CLK1_CLK3_ALLOW_DS; //dcf_deep_sleep_allow
uint32_t CLK1_CLK0_BYPASS_CNTL; //dispclk bypass
uint32_t CLK1_CLK1_BYPASS_CNTL; //dppclk bypass
uint32_t CLK1_CLK2_BYPASS_CNTL; //dprefclk bypass
uint32_t CLK1_CLK3_BYPASS_CNTL; //dcfclk bypass
};
/* For dtn logging and debugging */
struct clk_state_registers {
uint32_t CLK0_CLK8_CURRENT_CNT; //dcfclk
uint32_t CLK0_CLK8_DS_CNTL; //dcf_deep_sleep_divider
uint32_t CLK0_CLK8_ALLOW_DS; //dcf_deep_sleep_allow
uint32_t CLK0_CLK10_CURRENT_CNT; //dprefclk
uint32_t CLK0_CLK11_CURRENT_CNT; //dispclk
};
/* TODO: combine this with the above */
struct clk_bypass {
uint32_t dcfclk_bypass;
uint32_t dispclk_pypass;
uint32_t dprefclk_bypass;
};
/*
* This table is not contiguous, can have holes, each
* entry correspond to one set of WM. For example if
* we have 2 DPM and LPDDR, we will WM set A, B and
* D occupied, C will be emptry.
*/
struct wm_table {
union {
struct nv_wm_range_entry nv_entries[WM_SET_COUNT];
struct wm_range_table_entry entries[WM_SET_COUNT];
};
};
struct dummy_pstate_entry {
unsigned int dram_speed_mts;
double dummy_pstate_latency_us;
};
struct clk_bw_params {
unsigned int vram_type;
unsigned int num_channels;
unsigned int dram_channel_width_bytes;
unsigned int dispclk_vco_khz;
unsigned int dc_mode_softmax_memclk;
struct clk_limit_table clk_table;
struct wm_table wm_table;
struct dummy_pstate_entry dummy_pstate_table[4];
struct clk_limit_table_entry dc_mode_limit;
};
/* Public interfaces */
struct clk_states {
uint32_t dprefclk_khz;
};
struct clk_mgr_funcs {
/*
* This function should set new clocks based on the input "safe_to_lower".
* If safe_to_lower == false, then only clocks which are to be increased
* should changed.
* If safe_to_lower == true, then only clocks which are to be decreased
* should be changed.
*/
void (*update_clocks)(struct clk_mgr *clk_mgr,
struct dc_state *context,
bool safe_to_lower);
int (*get_dp_ref_clk_frequency)(struct clk_mgr *clk_mgr);
int (*get_dtb_ref_clk_frequency)(struct clk_mgr *clk_mgr);
void (*set_low_power_state)(struct clk_mgr *clk_mgr);
void (*init_clocks)(struct clk_mgr *clk_mgr);
void (*dump_clk_registers)(struct clk_state_registers_and_bypass *regs_and_bypass,
struct clk_mgr *clk_mgr_base, struct clk_log_info *log_info);
void (*enable_pme_wa) (struct clk_mgr *clk_mgr);
void (*get_clock)(struct clk_mgr *clk_mgr,
struct dc_state *context,
enum dc_clock_type clock_type,
struct dc_clock_config *clock_cfg);
bool (*are_clock_states_equal) (struct dc_clocks *a,
struct dc_clocks *b);
void (*notify_wm_ranges)(struct clk_mgr *clk_mgr);
/* Notify clk_mgr of a change in link rate, update phyclk frequency if necessary */
void (*notify_link_rate_change)(struct clk_mgr *clk_mgr, struct dc_link *link);
/*
* Send message to PMFW to set hard min memclk frequency
* When current_mode = false, set DPM0
* When current_mode = true, set required clock for current mode
*/
void (*set_hard_min_memclk)(struct clk_mgr *clk_mgr, bool current_mode);
/* Send message to PMFW to set hard max memclk frequency to highest DPM */
void (*set_hard_max_memclk)(struct clk_mgr *clk_mgr);
/* Custom set a memclk freq range*/
void (*set_max_memclk)(struct clk_mgr *clk_mgr, unsigned int memclk_mhz);
void (*set_min_memclk)(struct clk_mgr *clk_mgr, unsigned int memclk_mhz);
/* Get current memclk states from PMFW, update relevant structures */
void (*get_memclk_states_from_smu)(struct clk_mgr *clk_mgr);
/* Get SMU present */
bool (*is_smu_present)(struct clk_mgr *clk_mgr);
int (*get_dispclk_from_dentist)(struct clk_mgr *clk_mgr_base);
};
struct clk_mgr {
struct dc_context *ctx;
struct clk_mgr_funcs *funcs;
struct dc_clocks clks;
bool psr_allow_active_cache;
bool force_smu_not_present;
bool dc_mode_softmax_enabled;
int dprefclk_khz; // Used by program pixel clock in clock source funcs, need to figureout where this goes
int dentist_vco_freq_khz;
struct clk_state_registers_and_bypass boot_snapshot;
struct clk_bw_params *bw_params;
struct pp_smu_wm_range_sets ranges;
};
/* forward declarations */
struct dccg;
struct clk_mgr *dc_clk_mgr_create(struct dc_context *ctx, struct pp_smu_funcs *pp_smu, struct dccg *dccg);
void dc_destroy_clk_mgr(struct clk_mgr *clk_mgr);
void clk_mgr_exit_optimized_pwr_state(const struct dc *dc, struct clk_mgr *clk_mgr);
void clk_mgr_optimize_pwr_state(const struct dc *dc, struct clk_mgr *clk_mgr);
#endif /* __DAL_CLK_MGR_H__ */
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