Commit 00d64d28 authored by Dmytro Laktyushkin's avatar Dmytro Laktyushkin Committed by Alex Deucher

drm/amd/display: remove dead display clock code

Signed-off-by: default avatarDmytro Laktyushkin <Dmytro.Laktyushkin@amd.com>
Reviewed-by: default avatarTony Cheng <Tony.Cheng@amd.com>
Acked-by: default avatarHarry Wentland <Harry.Wentland@amd.com>
Signed-off-by: default avatarAlex Deucher <alexander.deucher@amd.com>
parent 56596821
...@@ -44,7 +44,6 @@ struct display_clock_dce110 { ...@@ -44,7 +44,6 @@ struct display_clock_dce110 {
/* Cache the display clock returned by VBIOS if DFS-bypass is enabled. /* Cache the display clock returned by VBIOS if DFS-bypass is enabled.
* This is basically "Crystal Frequency In KHz" (XTALIN) frequency */ * This is basically "Crystal Frequency In KHz" (XTALIN) frequency */
uint32_t dfs_bypass_disp_clk; uint32_t dfs_bypass_disp_clk;
struct display_clock_state clock_state;
}; };
#define DCLCK110_FROM_BASE(dc_base) \ #define DCLCK110_FROM_BASE(dc_base) \
......
...@@ -45,7 +45,6 @@ struct display_clock_dce112 { ...@@ -45,7 +45,6 @@ struct display_clock_dce112 {
/* Cache the display clock returned by VBIOS if DFS-bypass is enabled. /* Cache the display clock returned by VBIOS if DFS-bypass is enabled.
* This is basically "Crystal Frequency In KHz" (XTALIN) frequency */ * This is basically "Crystal Frequency In KHz" (XTALIN) frequency */
uint32_t dfs_bypass_disp_clk; uint32_t dfs_bypass_disp_clk;
struct display_clock_state clock_state;
struct state_dependent_clocks *max_clks_by_state; struct state_dependent_clocks *max_clks_by_state;
}; };
...@@ -75,17 +74,6 @@ bool dal_display_clock_dce112_construct( ...@@ -75,17 +74,6 @@ bool dal_display_clock_dce112_construct(
void dispclk_dce112_destroy(struct display_clock **base); void dispclk_dce112_destroy(struct display_clock **base);
uint32_t dispclk_dce112_calculate_min_clock(
struct display_clock *base,
uint32_t path_num,
struct min_clock_params *params);
struct display_clock_state dispclk_dce112_get_clock_state(
struct display_clock *dc);
uint32_t dispclk_dce112_get_dfs_bypass_threshold(
struct display_clock *dc);
enum clocks_state dispclk_dce112_get_min_clocks_state( enum clocks_state dispclk_dce112_get_min_clocks_state(
struct display_clock *base); struct display_clock *base);
...@@ -93,16 +81,10 @@ enum clocks_state dispclk_dce112_get_required_clocks_state( ...@@ -93,16 +81,10 @@ enum clocks_state dispclk_dce112_get_required_clocks_state(
struct display_clock *dc, struct display_clock *dc,
struct state_dependent_clocks *req_clocks); struct state_dependent_clocks *req_clocks);
uint32_t dispclk_dce112_get_validation_clock(struct display_clock *dc);
void dispclk_dce112_set_clock( void dispclk_dce112_set_clock(
struct display_clock *base, struct display_clock *base,
uint32_t requested_clk_khz); uint32_t requested_clk_khz);
void dispclk_dce112_set_clock_state(
struct display_clock *dc,
struct display_clock_state clk_state);
bool dispclk_dce112_set_min_clocks_state( bool dispclk_dce112_set_min_clocks_state(
struct display_clock *base, struct display_clock *base,
enum clocks_state clocks_state); enum clocks_state clocks_state);
......
...@@ -48,7 +48,6 @@ struct display_clock_dce80 { ...@@ -48,7 +48,6 @@ struct display_clock_dce80 {
* This is basically "Crystal Frequency In KHz" (XTALIN) frequency */ * This is basically "Crystal Frequency In KHz" (XTALIN) frequency */
uint32_t dfs_bypass_disp_clk; uint32_t dfs_bypass_disp_clk;
bool use_max_disp_clk; bool use_max_disp_clk;
struct display_clock_state clock_state;
}; };
struct display_clock *dal_display_clock_dce80_create( struct display_clock *dal_display_clock_dce80_create(
......
...@@ -26,49 +26,6 @@ ...@@ -26,49 +26,6 @@
#include "dm_services.h" #include "dm_services.h"
#include "display_clock.h" #include "display_clock.h"
void dal_display_clock_base_set_dp_ref_clock_source(
struct display_clock *disp_clk,
enum clock_source_id clk_src)
{/*must be implemented in derived*/
}
void dal_display_clock_base_set_clock_state(struct display_clock *disp_clk,
struct display_clock_state clk_state)
{
/*Implemented only in DCE81*/
}
struct display_clock_state dal_display_clock_base_get_clock_state(
struct display_clock *disp_clk)
{
/*Implemented only in DCE81*/
struct display_clock_state state = {0};
return state;
}
uint32_t dal_display_clock_base_get_dfs_bypass_threshold(
struct display_clock *disp_clk)
{
/*Implemented only in DCE81*/
return 0;
}
bool dal_display_clock_construct_base(
struct display_clock *base,
struct dc_context *ctx)
{
base->ctx = ctx;
base->id = CLOCK_SOURCE_ID_DCPLL;
base->min_display_clk_threshold_khz = 0;
/* Initially set current min clocks state to invalid since we
* cannot make any assumption about PPLIB's initial state. This will be updated
* by HWSS via SetMinClocksState() on first mode set prior to programming
* state dependent clocks.*/
base->cur_min_clks_state = CLOCKS_STATE_INVALID;
return true;
}
void dal_display_clock_destroy(struct display_clock **disp_clk) void dal_display_clock_destroy(struct display_clock **disp_clk)
{ {
if (!disp_clk || !*disp_clk) { if (!disp_clk || !*disp_clk) {
...@@ -81,26 +38,6 @@ void dal_display_clock_destroy(struct display_clock **disp_clk) ...@@ -81,26 +38,6 @@ void dal_display_clock_destroy(struct display_clock **disp_clk)
*disp_clk = NULL; *disp_clk = NULL;
} }
bool dal_display_clock_validate(
struct display_clock *disp_clk,
struct min_clock_params *params)
{
return disp_clk->funcs->validate(disp_clk, params);
}
uint32_t dal_display_clock_calculate_min_clock(
struct display_clock *disp_clk,
uint32_t path_num,
struct min_clock_params *params)
{
return disp_clk->funcs->calculate_min_clock(disp_clk, path_num, params);
}
uint32_t dal_display_clock_get_validation_clock(struct display_clock *disp_clk)
{
return disp_clk->funcs->get_validation_clock(disp_clk);
}
void dal_display_clock_set_clock( void dal_display_clock_set_clock(
struct display_clock *disp_clk, struct display_clock *disp_clk,
uint32_t requested_clock_khz) uint32_t requested_clock_khz)
...@@ -108,11 +45,6 @@ void dal_display_clock_set_clock( ...@@ -108,11 +45,6 @@ void dal_display_clock_set_clock(
disp_clk->funcs->set_clock(disp_clk, requested_clock_khz); disp_clk->funcs->set_clock(disp_clk, requested_clock_khz);
} }
uint32_t dal_display_clock_get_clock(struct display_clock *disp_clk)
{
return disp_clk->funcs->get_clock(disp_clk);
}
bool dal_display_clock_get_min_clocks_state( bool dal_display_clock_get_min_clocks_state(
struct display_clock *disp_clk, struct display_clock *disp_clk,
enum clocks_state *clocks_state) enum clocks_state *clocks_state)
...@@ -154,35 +86,6 @@ uint32_t dal_display_clock_get_dp_ref_clk_frequency( ...@@ -154,35 +86,6 @@ uint32_t dal_display_clock_get_dp_ref_clk_frequency(
return disp_clk->funcs->get_dp_ref_clk_frequency(disp_clk); return disp_clk->funcs->get_dp_ref_clk_frequency(disp_clk);
} }
/*the second parameter of "switchreferenceclock" is
* a dummy argument for all pre dce 6.0 versions*/
void dal_display_clock_switch_reference_clock(
struct display_clock *disp_clk,
bool use_external_ref_clk,
uint32_t requested_clk_khz)
{
/* TODO: requires Asic Control*/
/*
struct ac_pixel_clk_params params;
struct asic_control *ac =
dal_adapter_service_get_asic_control(disp_clk->as);
dc_service_memset(&params, 0, sizeof(struct ac_pixel_clk_params));
params.tgt_pixel_clk_khz = requested_clk_khz;
params.flags.SET_EXTERNAL_REF_DIV_SRC = use_external_ref_clk;
params.pll_id = disp_clk->id;
dal_asic_control_program_display_engine_pll(ac, &params);
*/
}
void dal_display_clock_set_dp_ref_clock_source(
struct display_clock *disp_clk,
enum clock_source_id clk_src)
{
disp_clk->funcs->set_dp_ref_clock_source(disp_clk, clk_src);
}
void dal_display_clock_store_max_clocks_state( void dal_display_clock_store_max_clocks_state(
struct display_clock *disp_clk, struct display_clock *disp_clk,
enum clocks_state max_clocks_state) enum clocks_state max_clocks_state)
...@@ -190,28 +93,3 @@ void dal_display_clock_store_max_clocks_state( ...@@ -190,28 +93,3 @@ void dal_display_clock_store_max_clocks_state(
disp_clk->funcs->store_max_clocks_state(disp_clk, max_clocks_state); disp_clk->funcs->store_max_clocks_state(disp_clk, max_clocks_state);
} }
void dal_display_clock_set_clock_state(
struct display_clock *disp_clk,
struct display_clock_state clk_state)
{
disp_clk->funcs->set_clock_state(disp_clk, clk_state);
}
struct display_clock_state dal_display_clock_get_clock_state(
struct display_clock *disp_clk)
{
return disp_clk->funcs->get_clock_state(disp_clk);
}
uint32_t dal_display_clock_get_dfs_bypass_threshold(
struct display_clock *disp_clk)
{
return disp_clk->funcs->get_dfs_bypass_threshold(disp_clk);
}
void dal_display_clock_invalid_clock_state(
struct display_clock *disp_clk)
{
disp_clk->cur_min_clks_state = CLOCKS_STATE_INVALID;
}
...@@ -30,14 +30,8 @@ ...@@ -30,14 +30,8 @@
struct display_clock_funcs { struct display_clock_funcs {
void (*destroy)(struct display_clock **to_destroy); void (*destroy)(struct display_clock **to_destroy);
bool (*validate)(struct display_clock *disp_clk,
struct min_clock_params *params);
uint32_t (*calculate_min_clock)(struct display_clock *disp_clk,
uint32_t path_num, struct min_clock_params *params);
uint32_t (*get_validation_clock)(struct display_clock *disp_clk);
void (*set_clock)(struct display_clock *disp_clk, void (*set_clock)(struct display_clock *disp_clk,
uint32_t requested_clock_khz); uint32_t requested_clock_khz);
uint32_t (*get_clock)(struct display_clock *disp_clk);
enum clocks_state (*get_min_clocks_state)( enum clocks_state (*get_min_clocks_state)(
struct display_clock *disp_clk); struct display_clock *disp_clk);
enum clocks_state (*get_required_clocks_state)( enum clocks_state (*get_required_clocks_state)(
...@@ -46,15 +40,8 @@ struct display_clock_funcs { ...@@ -46,15 +40,8 @@ struct display_clock_funcs {
bool (*set_min_clocks_state)(struct display_clock *disp_clk, bool (*set_min_clocks_state)(struct display_clock *disp_clk,
enum clocks_state clocks_state); enum clocks_state clocks_state);
uint32_t (*get_dp_ref_clk_frequency)(struct display_clock *disp_clk); uint32_t (*get_dp_ref_clk_frequency)(struct display_clock *disp_clk);
void (*set_dp_ref_clock_source)(struct display_clock *disp_clk,
enum clock_source_id clk_src);
void (*store_max_clocks_state)(struct display_clock *disp_clk, void (*store_max_clocks_state)(struct display_clock *disp_clk,
enum clocks_state max_clocks_state); enum clocks_state max_clocks_state);
void (*set_clock_state)(struct display_clock *disp_clk,
struct display_clock_state clk_state);
struct display_clock_state (*get_clock_state)(
struct display_clock *disp_clk);
uint32_t (*get_dfs_bypass_threshold)(struct display_clock *disp_clk);
}; };
...@@ -66,21 +53,6 @@ struct display_clock { ...@@ -66,21 +53,6 @@ struct display_clock {
enum clocks_state cur_min_clks_state; enum clocks_state cur_min_clks_state;
}; };
void dal_display_clock_base_set_dp_ref_clock_source(
struct display_clock *disp_clk,
enum clock_source_id clk_src);
struct display_clock_state dal_display_clock_base_get_clock_state(
struct display_clock *disp_clk);
uint32_t dal_display_clock_base_get_dfs_bypass_threshold(
struct display_clock *disp_clk);
void dal_display_clock_base_set_clock_state(struct display_clock *disp_clk,
struct display_clock_state clk_state);
bool dal_display_clock_construct_base(
struct display_clock *base,
struct dc_context *ctx);
uint32_t dal_display_clock_get_validation_clock(struct display_clock *disp_clk);
void dal_display_clock_store_max_clocks_state( void dal_display_clock_store_max_clocks_state(
struct display_clock *disp_clk, struct display_clock *disp_clk,
enum clocks_state max_clocks_state); enum clocks_state max_clocks_state);
......
...@@ -30,60 +30,6 @@ ...@@ -30,60 +30,6 @@
#include "grph_object_defs.h" #include "grph_object_defs.h"
#include "signal_types.h" #include "signal_types.h"
/* Timing related information*/
struct dc_timing_params {
uint32_t INTERLACED:1;
uint32_t HCOUNT_BY_TWO:1;
uint32_t PIXEL_REPETITION:4; /*< values 1 to 10 supported*/
uint32_t PREFETCH:1;
uint32_t h_total;
uint32_t h_addressable;
uint32_t h_sync_width;
};
/* Scaling related information*/
struct dc_scaling_params {
uint32_t h_overscan_right;
uint32_t h_overscan_left;
uint32_t h_taps;
uint32_t v_taps;
};
/* VScalerEfficiency */
enum v_scaler_efficiency {
V_SCALER_EFFICIENCY_LB36BPP = 0,
V_SCALER_EFFICIENCY_LB30BPP = 1,
V_SCALER_EFFICIENCY_LB24BPP = 2,
V_SCALER_EFFICIENCY_LB18BPP = 3
};
/* Parameters required for minimum Engine
* and minimum Display clock calculations*/
struct min_clock_params {
uint32_t id;
uint32_t requested_pixel_clock; /* in KHz */
uint32_t actual_pixel_clock; /* in KHz */
struct view source_view;
struct view dest_view;
struct dc_timing_params timing_info;
struct dc_scaling_params scaling_info;
enum signal_type signal_type;
enum dc_color_depth deep_color_depth;
enum v_scaler_efficiency scaler_efficiency;
bool line_buffer_prefetch_enabled;
};
/* Result of Minimum System and Display clock calculations.
* Minimum System clock and Display clock, source and path to be used
* for Display clock*/
struct minimum_clocks_calculation_result {
uint32_t min_sclk_khz;
uint32_t min_dclk_khz;
uint32_t min_mclk_khz;
uint32_t min_deep_sleep_sclk;
};
/* Enumeration of all clocks states */ /* Enumeration of all clocks states */
enum clocks_state { enum clocks_state {
CLOCKS_STATE_INVALID = 0, CLOCKS_STATE_INVALID = 0,
...@@ -110,10 +56,6 @@ struct state_dependent_clocks { ...@@ -110,10 +56,6 @@ struct state_dependent_clocks {
uint32_t pixel_clk_khz; uint32_t pixel_clk_khz;
}; };
struct display_clock_state {
uint32_t DFS_BYPASS_ACTIVE:1;
};
struct display_clock; struct display_clock;
struct display_clock *dal_display_clock_dce112_create( struct display_clock *dal_display_clock_dce112_create(
...@@ -126,18 +68,9 @@ struct display_clock *dal_display_clock_dce80_create( ...@@ -126,18 +68,9 @@ struct display_clock *dal_display_clock_dce80_create(
struct dc_context *ctx); struct dc_context *ctx);
void dal_display_clock_destroy(struct display_clock **to_destroy); void dal_display_clock_destroy(struct display_clock **to_destroy);
bool dal_display_clock_validate(
struct display_clock *disp_clk,
struct min_clock_params *params);
uint32_t dal_display_clock_calculate_min_clock(
struct display_clock *disp_clk,
uint32_t path_num,
struct min_clock_params *params);
uint32_t dal_display_clock_get_validation_clock(struct display_clock *disp_clk);
void dal_display_clock_set_clock( void dal_display_clock_set_clock(
struct display_clock *disp_clk, struct display_clock *disp_clk,
uint32_t requested_clock_khz); uint32_t requested_clock_khz);
uint32_t dal_display_clock_get_clock(struct display_clock *disp_clk);
bool dal_display_clock_get_min_clocks_state( bool dal_display_clock_get_min_clocks_state(
struct display_clock *disp_clk, struct display_clock *disp_clk,
enum clocks_state *clocks_state); enum clocks_state *clocks_state);
...@@ -150,26 +83,8 @@ bool dal_display_clock_set_min_clocks_state( ...@@ -150,26 +83,8 @@ bool dal_display_clock_set_min_clocks_state(
enum clocks_state clocks_state); enum clocks_state clocks_state);
uint32_t dal_display_clock_get_dp_ref_clk_frequency( uint32_t dal_display_clock_get_dp_ref_clk_frequency(
struct display_clock *disp_clk); struct display_clock *disp_clk);
/*the second parameter of "switchreferenceclock" is
* a dummy argument for all pre dce 6.0 versions*/
void dal_display_clock_switch_reference_clock(
struct display_clock *disp_clk,
bool use_external_ref_clk,
uint32_t requested_clock_khz);
void dal_display_clock_set_dp_ref_clock_source(
struct display_clock *disp_clk,
enum clock_source_id clk_src);
void dal_display_clock_store_max_clocks_state( void dal_display_clock_store_max_clocks_state(
struct display_clock *disp_clk, struct display_clock *disp_clk,
enum clocks_state max_clocks_state); enum clocks_state max_clocks_state);
void dal_display_clock_set_clock_state(
struct display_clock *disp_clk,
struct display_clock_state clk_state);
struct display_clock_state dal_display_clock_get_clock_state(
struct display_clock *disp_clk);
uint32_t dal_display_clock_get_dfs_bypass_threshold(
struct display_clock *disp_clk);
void dal_display_clock_invalid_clock_state(
struct display_clock *disp_clk);
#endif /* __DISPLAY_CLOCK_INTERFACE_H__ */ #endif /* __DISPLAY_CLOCK_INTERFACE_H__ */
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