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/*
* Copyright 2018 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
*
*/
#include <linux/slab.h>
#include "reg_helper.h"
#include "core_types.h"
#include "clk_mgr_internal.h"
#include "rv1_clk_mgr.h"
#include "dce100/dce_clk_mgr.h"
#include "dce112/dce112_clk_mgr.h"
#include "rv1_clk_mgr_vbios_smu.h"
#include "rv1_clk_mgr_clk.h"
static void rv1_init_clocks(struct clk_mgr *clk_mgr)
{
memset(&(clk_mgr->clks), 0, sizeof(struct dc_clocks));
}
static int rv1_determine_dppclk_threshold(struct clk_mgr_internal *clk_mgr, struct dc_clocks *new_clocks)
{
bool request_dpp_div = new_clocks->dispclk_khz > new_clocks->dppclk_khz;
bool dispclk_increase = new_clocks->dispclk_khz > clk_mgr->base.clks.dispclk_khz;
int disp_clk_threshold = new_clocks->max_supported_dppclk_khz;
bool cur_dpp_div = clk_mgr->base.clks.dispclk_khz > clk_mgr->base.clks.dppclk_khz;
/* increase clock, looking for div is 0 for current, request div is 1*/
if (dispclk_increase) {
/* already divided by 2, no need to reach target clk with 2 steps*/
if (cur_dpp_div)
return new_clocks->dispclk_khz;
/* request disp clk is lower than maximum supported dpp clk,
* no need to reach target clk with two steps.
*/
if (new_clocks->dispclk_khz <= disp_clk_threshold)
return new_clocks->dispclk_khz;
/* target dpp clk not request divided by 2, still within threshold */
if (!request_dpp_div)
return new_clocks->dispclk_khz;
} else {
/* decrease clock, looking for current dppclk divided by 2,
* request dppclk not divided by 2.
*/
/* current dpp clk not divided by 2, no need to ramp*/
if (!cur_dpp_div)
return new_clocks->dispclk_khz;
/* current disp clk is lower than current maximum dpp clk,
* no need to ramp
*/
if (clk_mgr->base.clks.dispclk_khz <= disp_clk_threshold)
return new_clocks->dispclk_khz;
/* request dpp clk need to be divided by 2 */
if (request_dpp_div)
return new_clocks->dispclk_khz;
}
return disp_clk_threshold;
}
static void ramp_up_dispclk_with_dpp(
struct clk_mgr_internal *clk_mgr,
struct dc *dc,
struct dc_clocks *new_clocks,
bool safe_to_lower)
{
int i;
int dispclk_to_dpp_threshold = rv1_determine_dppclk_threshold(clk_mgr, new_clocks);
bool request_dpp_div = new_clocks->dispclk_khz > new_clocks->dppclk_khz;
/* this function is to change dispclk, dppclk and dprefclk according to
* bandwidth requirement. Its call stack is rv1_update_clocks -->
* update_clocks --> dcn10_prepare_bandwidth / dcn10_optimize_bandwidth
* --> prepare_bandwidth / optimize_bandwidth. before change dcn hw,
* prepare_bandwidth will be called first to allow enough clock,
* watermark for change, after end of dcn hw change, optimize_bandwidth
* is executed to lower clock to save power for new dcn hw settings.
*
* below is sequence of commit_planes_for_stream:
*
* step 1: prepare_bandwidth - raise clock to have enough bandwidth
* step 2: lock_doublebuffer_enable
* step 3: pipe_control_lock(true) - make dchubp register change will
* not take effect right way
* step 4: apply_ctx_for_surface - program dchubp
* step 5: pipe_control_lock(false) - dchubp register change take effect
* step 6: optimize_bandwidth --> dc_post_update_surfaces_to_stream
* for full_date, optimize clock to save power
*
* at end of step 1, dcn clocks (dprefclk, dispclk, dppclk) may be
* changed for new dchubp configuration. but real dcn hub dchubps are
* still running with old configuration until end of step 5. this need
* clocks settings at step 1 should not less than that before step 1.
* this is checked by two conditions: 1. if (should_set_clock(safe_to_lower
* , new_clocks->dispclk_khz, clk_mgr_base->clks.dispclk_khz) ||
* new_clocks->dispclk_khz == clk_mgr_base->clks.dispclk_khz)
* 2. request_dpp_div = new_clocks->dispclk_khz > new_clocks->dppclk_khz
*
* the second condition is based on new dchubp configuration. dppclk
* for new dchubp may be different from dppclk before step 1.
* for example, before step 1, dchubps are as below:
* pipe 0: recout=(0,40,1920,980) viewport=(0,0,1920,979)
* pipe 1: recout=(0,0,1920,1080) viewport=(0,0,1920,1080)
* for dppclk for pipe0 need dppclk = dispclk
*
* new dchubp pipe split configuration:
* pipe 0: recout=(0,0,960,1080) viewport=(0,0,960,1080)
* pipe 1: recout=(960,0,960,1080) viewport=(960,0,960,1080)
* dppclk only needs dppclk = dispclk /2.
*
* dispclk, dppclk are not lock by otg master lock. they take effect
* after step 1. during this transition, dispclk are the same, but
* dppclk is changed to half of previous clock for old dchubp
* configuration between step 1 and step 6. This may cause p-state
* warning intermittently.
*
* for new_clocks->dispclk_khz == clk_mgr_base->clks.dispclk_khz, we
* need make sure dppclk are not changed to less between step 1 and 6.
* for new_clocks->dispclk_khz > clk_mgr_base->clks.dispclk_khz,
* new display clock is raised, but we do not know ratio of
* new_clocks->dispclk_khz and clk_mgr_base->clks.dispclk_khz,
* new_clocks->dispclk_khz /2 does not guarantee equal or higher than
* old dppclk. we could ignore power saving different between
* dppclk = displck and dppclk = dispclk / 2 between step 1 and step 6.
* as long as safe_to_lower = false, set dpclk = dispclk to simplify
* condition check.
* todo: review this change for other asic.
**/
if (!safe_to_lower)
request_dpp_div = false;
/* set disp clk to dpp clk threshold */
clk_mgr->funcs->set_dispclk(clk_mgr, dispclk_to_dpp_threshold);
clk_mgr->funcs->set_dprefclk(clk_mgr);
/* update request dpp clk division option */
for (i = 0; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe_ctx = &dc->current_state->res_ctx.pipe_ctx[i];
if (!pipe_ctx->plane_state)
continue;
pipe_ctx->plane_res.dpp->funcs->dpp_dppclk_control(
pipe_ctx->plane_res.dpp,
request_dpp_div,
true);
}
/* If target clk not same as dppclk threshold, set to target clock */
if (dispclk_to_dpp_threshold != new_clocks->dispclk_khz) {
clk_mgr->funcs->set_dispclk(clk_mgr, new_clocks->dispclk_khz);
clk_mgr->funcs->set_dprefclk(clk_mgr);
}
clk_mgr->base.clks.dispclk_khz = new_clocks->dispclk_khz;
clk_mgr->base.clks.dppclk_khz = new_clocks->dppclk_khz;
clk_mgr->base.clks.max_supported_dppclk_khz = new_clocks->max_supported_dppclk_khz;
}
static void rv1_update_clocks(struct clk_mgr *clk_mgr_base,
struct dc_state *context,
bool safe_to_lower)
{
struct clk_mgr_internal *clk_mgr = TO_CLK_MGR_INTERNAL(clk_mgr_base);
struct dc *dc = clk_mgr_base->ctx->dc;
struct dc_debug_options *debug = &dc->debug;
struct dc_clocks *new_clocks = &context->bw_ctx.bw.dcn.clk;
struct pp_smu_funcs_rv *pp_smu = NULL;
bool send_request_to_increase = false;
bool send_request_to_lower = false;
int display_count;
bool enter_display_off = false;
ASSERT(clk_mgr->pp_smu);
if (dc->work_arounds.skip_clock_update)
return;
pp_smu = &clk_mgr->pp_smu->rv_funcs;
display_count = clk_mgr_helper_get_active_display_cnt(dc, context);
if (display_count == 0)
enter_display_off = true;
if (enter_display_off == safe_to_lower) {
/*
* Notify SMU active displays
* if function pointer not set up, this message is
* sent as part of pplib_apply_display_requirements.
*/
if (pp_smu->set_display_count)
pp_smu->set_display_count(&pp_smu->pp_smu, display_count);
}
if (new_clocks->dispclk_khz > clk_mgr_base->clks.dispclk_khz
|| new_clocks->phyclk_khz > clk_mgr_base->clks.phyclk_khz
|| new_clocks->fclk_khz > clk_mgr_base->clks.fclk_khz
|| new_clocks->dcfclk_khz > clk_mgr_base->clks.dcfclk_khz)
send_request_to_increase = true;
if (should_set_clock(safe_to_lower, new_clocks->phyclk_khz, clk_mgr_base->clks.phyclk_khz)) {
clk_mgr_base->clks.phyclk_khz = new_clocks->phyclk_khz;
send_request_to_lower = true;
}
// F Clock
if (debug->force_fclk_khz != 0)
new_clocks->fclk_khz = debug->force_fclk_khz;
if (should_set_clock(safe_to_lower, new_clocks->fclk_khz, clk_mgr_base->clks.fclk_khz)) {
clk_mgr_base->clks.fclk_khz = new_clocks->fclk_khz;
send_request_to_lower = true;
}
//DCF Clock
if (should_set_clock(safe_to_lower, new_clocks->dcfclk_khz, clk_mgr_base->clks.dcfclk_khz)) {
clk_mgr_base->clks.dcfclk_khz = new_clocks->dcfclk_khz;
send_request_to_lower = true;
}
if (should_set_clock(safe_to_lower,
new_clocks->dcfclk_deep_sleep_khz, clk_mgr_base->clks.dcfclk_deep_sleep_khz)) {
clk_mgr_base->clks.dcfclk_deep_sleep_khz = new_clocks->dcfclk_deep_sleep_khz;
send_request_to_lower = true;
}
/* make sure dcf clk is before dpp clk to
* make sure we have enough voltage to run dpp clk
*/
if (send_request_to_increase) {
/*use dcfclk to request voltage*/
if (pp_smu->set_hard_min_fclk_by_freq &&
pp_smu->set_hard_min_dcfclk_by_freq &&
pp_smu->set_min_deep_sleep_dcfclk) {
pp_smu->set_hard_min_fclk_by_freq(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->fclk_khz));
pp_smu->set_hard_min_dcfclk_by_freq(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->dcfclk_khz));
pp_smu->set_min_deep_sleep_dcfclk(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->dcfclk_deep_sleep_khz));
}
}
/* dcn1 dppclk is tied to dispclk */
/* program dispclk on = as a w/a for sleep resume clock ramping issues */
if (should_set_clock(safe_to_lower, new_clocks->dispclk_khz, clk_mgr_base->clks.dispclk_khz)
|| new_clocks->dispclk_khz == clk_mgr_base->clks.dispclk_khz) {
ramp_up_dispclk_with_dpp(clk_mgr, dc, new_clocks, safe_to_lower);
clk_mgr_base->clks.dispclk_khz = new_clocks->dispclk_khz;
send_request_to_lower = true;
}
if (!send_request_to_increase && send_request_to_lower) {
/*use dcfclk to request voltage*/
if (pp_smu->set_hard_min_fclk_by_freq &&
pp_smu->set_hard_min_dcfclk_by_freq &&
pp_smu->set_min_deep_sleep_dcfclk) {
pp_smu->set_hard_min_fclk_by_freq(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->fclk_khz));
pp_smu->set_hard_min_dcfclk_by_freq(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->dcfclk_khz));
pp_smu->set_min_deep_sleep_dcfclk(&pp_smu->pp_smu, khz_to_mhz_ceil(new_clocks->dcfclk_deep_sleep_khz));
}
}
}
static void rv1_enable_pme_wa(struct clk_mgr *clk_mgr_base)
{
struct clk_mgr_internal *clk_mgr = TO_CLK_MGR_INTERNAL(clk_mgr_base);
struct pp_smu_funcs_rv *pp_smu = NULL;
if (clk_mgr->pp_smu) {
pp_smu = &clk_mgr->pp_smu->rv_funcs;
if (pp_smu->set_pme_wa_enable)
pp_smu->set_pme_wa_enable(&pp_smu->pp_smu);
}
}
static struct clk_mgr_funcs rv1_clk_funcs = {
.init_clocks = rv1_init_clocks,
.get_dp_ref_clk_frequency = dce12_get_dp_ref_freq_khz,
.update_clocks = rv1_update_clocks,
.enable_pme_wa = rv1_enable_pme_wa,
};
static struct clk_mgr_internal_funcs rv1_clk_internal_funcs = {
.set_dispclk = rv1_vbios_smu_set_dispclk,
.set_dprefclk = dce112_set_dprefclk
};
void rv1_clk_mgr_construct(struct dc_context *ctx, struct clk_mgr_internal *clk_mgr, struct pp_smu_funcs *pp_smu)
{
struct dc_debug_options *debug = &ctx->dc->debug;
struct dc_bios *bp = ctx->dc_bios;
clk_mgr->base.ctx = ctx;
clk_mgr->pp_smu = pp_smu;
clk_mgr->base.funcs = &rv1_clk_funcs;
clk_mgr->funcs = &rv1_clk_internal_funcs;
clk_mgr->dfs_bypass_disp_clk = 0;
clk_mgr->dprefclk_ss_percentage = 0;
clk_mgr->dprefclk_ss_divider = 1000;
clk_mgr->ss_on_dprefclk = false;
clk_mgr->base.dprefclk_khz = 600000;
if (bp->integrated_info)
clk_mgr->base.dentist_vco_freq_khz = bp->integrated_info->dentist_vco_freq;
if (bp->fw_info_valid && clk_mgr->base.dentist_vco_freq_khz == 0) {
clk_mgr->base.dentist_vco_freq_khz = bp->fw_info.smu_gpu_pll_output_freq;
if (clk_mgr->base.dentist_vco_freq_khz == 0)
clk_mgr->base.dentist_vco_freq_khz = 3600000;
}
if (!debug->disable_dfs_bypass && bp->integrated_info)
if (bp->integrated_info->gpu_cap_info & DFS_BYPASS_ENABLE)
clk_mgr->dfs_bypass_enabled = true;
dce_clock_read_ss_info(clk_mgr);
}
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