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|
/*
* Copyright 2016 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 "dm_services.h"
#include "dc.h"
#include "resource.h"
#include "include/irq_service_interface.h"
#include "dcn20/dcn20_resource.h"
#include "dcn10/dcn10_hubp.h"
#include "dcn10/dcn10_ipp.h"
#include "dcn20_hubbub.h"
#include "dcn20_mpc.h"
#include "dcn20_hubp.h"
#include "irq/dcn20/irq_service_dcn20.h"
#include "dcn20_dpp.h"
#include "dcn20_optc.h"
#include "dcn20_hwseq.h"
#include "dce110/dce110_hw_sequencer.h"
#include "dcn10/dcn10_resource.h"
#include "dcn20_opp.h"
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
#include "dcn20_dsc.h"
#endif
#include "dcn20_link_encoder.h"
#include "dcn20_stream_encoder.h"
#include "dce/dce_clock_source.h"
#include "dce/dce_audio.h"
#include "dce/dce_hwseq.h"
#include "virtual/virtual_stream_encoder.h"
#include "dce110/dce110_resource.h"
#include "dml/display_mode_vba.h"
#include "dcn20_dccg.h"
#include "dcn20_vmid.h"
#include "navi10_ip_offset.h"
#include "dcn/dcn_2_0_0_offset.h"
#include "dcn/dcn_2_0_0_sh_mask.h"
#include "nbio/nbio_2_3_offset.h"
#include "dcn20/dcn20_dwb.h"
#include "dcn20/dcn20_mmhubbub.h"
#include "mmhub/mmhub_2_0_0_offset.h"
#include "mmhub/mmhub_2_0_0_sh_mask.h"
#include "reg_helper.h"
#include "dce/dce_abm.h"
#include "dce/dce_dmcu.h"
#include "dce/dce_aux.h"
#include "dce/dce_i2c.h"
#include "vm_helper.h"
#include "amdgpu_socbb.h"
#define SOC_BOUNDING_BOX_VALID false
#define DC_LOGGER_INIT(logger)
struct _vcs_dpi_ip_params_st dcn2_0_ip = {
.odm_capable = 1,
.gpuvm_enable = 0,
.hostvm_enable = 0,
.gpuvm_max_page_table_levels = 4,
.hostvm_max_page_table_levels = 4,
.hostvm_cached_page_table_levels = 0,
.pte_group_size_bytes = 2048,
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
.num_dsc = 6,
#else
.num_dsc = 0,
#endif
.rob_buffer_size_kbytes = 168,
.det_buffer_size_kbytes = 164,
.dpte_buffer_size_in_pte_reqs_luma = 84,
.pde_proc_buffer_size_64k_reqs = 48,
.dpp_output_buffer_pixels = 2560,
.opp_output_buffer_lines = 1,
.pixel_chunk_size_kbytes = 8,
.pte_chunk_size_kbytes = 2,
.meta_chunk_size_kbytes = 2,
.writeback_chunk_size_kbytes = 2,
.line_buffer_size_bits = 789504,
.is_line_buffer_bpp_fixed = 0,
.line_buffer_fixed_bpp = 0,
.dcc_supported = true,
.max_line_buffer_lines = 12,
.writeback_luma_buffer_size_kbytes = 12,
.writeback_chroma_buffer_size_kbytes = 8,
.writeback_chroma_line_buffer_width_pixels = 4,
.writeback_max_hscl_ratio = 1,
.writeback_max_vscl_ratio = 1,
.writeback_min_hscl_ratio = 1,
.writeback_min_vscl_ratio = 1,
.writeback_max_hscl_taps = 12,
.writeback_max_vscl_taps = 12,
.writeback_line_buffer_luma_buffer_size = 0,
.writeback_line_buffer_chroma_buffer_size = 14643,
.cursor_buffer_size = 8,
.cursor_chunk_size = 2,
.max_num_otg = 6,
.max_num_dpp = 6,
.max_num_wb = 1,
.max_dchub_pscl_bw_pix_per_clk = 4,
.max_pscl_lb_bw_pix_per_clk = 2,
.max_lb_vscl_bw_pix_per_clk = 4,
.max_vscl_hscl_bw_pix_per_clk = 4,
.max_hscl_ratio = 8,
.max_vscl_ratio = 8,
.hscl_mults = 4,
.vscl_mults = 4,
.max_hscl_taps = 8,
.max_vscl_taps = 8,
.dispclk_ramp_margin_percent = 1,
.underscan_factor = 1.10,
.min_vblank_lines = 32, //
.dppclk_delay_subtotal = 77, //
.dppclk_delay_scl_lb_only = 16,
.dppclk_delay_scl = 50,
.dppclk_delay_cnvc_formatter = 8,
.dppclk_delay_cnvc_cursor = 6,
.dispclk_delay_subtotal = 87, //
.dcfclk_cstate_latency = 10, // SRExitTime
.max_inter_dcn_tile_repeaters = 8,
.xfc_supported = true,
.xfc_fill_bw_overhead_percent = 10.0,
.xfc_fill_constant_bytes = 0,
};
struct _vcs_dpi_soc_bounding_box_st dcn2_0_soc = { 0 };
#ifndef mmDP0_DP_DPHY_INTERNAL_CTRL
#define mmDP0_DP_DPHY_INTERNAL_CTRL 0x210f
#define mmDP0_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP1_DP_DPHY_INTERNAL_CTRL 0x220f
#define mmDP1_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP2_DP_DPHY_INTERNAL_CTRL 0x230f
#define mmDP2_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP3_DP_DPHY_INTERNAL_CTRL 0x240f
#define mmDP3_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP4_DP_DPHY_INTERNAL_CTRL 0x250f
#define mmDP4_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP5_DP_DPHY_INTERNAL_CTRL 0x260f
#define mmDP5_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#define mmDP6_DP_DPHY_INTERNAL_CTRL 0x270f
#define mmDP6_DP_DPHY_INTERNAL_CTRL_BASE_IDX 2
#endif
enum dcn20_clk_src_array_id {
DCN20_CLK_SRC_PLL0,
DCN20_CLK_SRC_PLL1,
DCN20_CLK_SRC_PLL2,
DCN20_CLK_SRC_PLL3,
DCN20_CLK_SRC_PLL4,
DCN20_CLK_SRC_PLL5,
DCN20_CLK_SRC_TOTAL
};
/* begin *********************
* macros to expend register list macro defined in HW object header file */
/* DCN */
/* TODO awful hack. fixup dcn20_dwb.h */
#undef BASE_INNER
#define BASE_INNER(seg) DCN_BASE__INST0_SEG ## seg
#define BASE(seg) BASE_INNER(seg)
#define SR(reg_name)\
.reg_name = BASE(mm ## reg_name ## _BASE_IDX) + \
mm ## reg_name
#define SRI(reg_name, block, id)\
.reg_name = BASE(mm ## block ## id ## _ ## reg_name ## _BASE_IDX) + \
mm ## block ## id ## _ ## reg_name
#define SRIR(var_name, reg_name, block, id)\
.var_name = BASE(mm ## block ## id ## _ ## reg_name ## _BASE_IDX) + \
mm ## block ## id ## _ ## reg_name
#define SRII(reg_name, block, id)\
.reg_name[id] = BASE(mm ## block ## id ## _ ## reg_name ## _BASE_IDX) + \
mm ## block ## id ## _ ## reg_name
#define DCCG_SRII(reg_name, block, id)\
.block ## _ ## reg_name[id] = BASE(mm ## block ## id ## _ ## reg_name ## _BASE_IDX) + \
mm ## block ## id ## _ ## reg_name
/* NBIO */
#define NBIO_BASE_INNER(seg) \
NBIO_BASE__INST0_SEG ## seg
#define NBIO_BASE(seg) \
NBIO_BASE_INNER(seg)
#define NBIO_SR(reg_name)\
.reg_name = NBIO_BASE(mm ## reg_name ## _BASE_IDX) + \
mm ## reg_name
/* MMHUB */
#define MMHUB_BASE_INNER(seg) \
MMHUB_BASE__INST0_SEG ## seg
#define MMHUB_BASE(seg) \
MMHUB_BASE_INNER(seg)
#define MMHUB_SR(reg_name)\
.reg_name = MMHUB_BASE(mmMM ## reg_name ## _BASE_IDX) + \
mmMM ## reg_name
static const struct bios_registers bios_regs = {
NBIO_SR(BIOS_SCRATCH_3),
NBIO_SR(BIOS_SCRATCH_6)
};
#define clk_src_regs(index, pllid)\
[index] = {\
CS_COMMON_REG_LIST_DCN2_0(index, pllid),\
}
static const struct dce110_clk_src_regs clk_src_regs[] = {
clk_src_regs(0, A),
clk_src_regs(1, B),
clk_src_regs(2, C),
clk_src_regs(3, D),
clk_src_regs(4, E),
clk_src_regs(5, F)
};
static const struct dce110_clk_src_shift cs_shift = {
CS_COMMON_MASK_SH_LIST_DCN2_0(__SHIFT)
};
static const struct dce110_clk_src_mask cs_mask = {
CS_COMMON_MASK_SH_LIST_DCN2_0(_MASK)
};
static const struct dce_dmcu_registers dmcu_regs = {
DMCU_DCN10_REG_LIST()
};
static const struct dce_dmcu_shift dmcu_shift = {
DMCU_MASK_SH_LIST_DCN10(__SHIFT)
};
static const struct dce_dmcu_mask dmcu_mask = {
DMCU_MASK_SH_LIST_DCN10(_MASK)
};
static const struct dce_abm_registers abm_regs = {
ABM_DCN20_REG_LIST()
};
static const struct dce_abm_shift abm_shift = {
ABM_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dce_abm_mask abm_mask = {
ABM_MASK_SH_LIST_DCN20(_MASK)
};
#define audio_regs(id)\
[id] = {\
AUD_COMMON_REG_LIST(id)\
}
static const struct dce_audio_registers audio_regs[] = {
audio_regs(0),
audio_regs(1),
audio_regs(2),
audio_regs(3),
audio_regs(4),
audio_regs(5),
audio_regs(6),
};
#define DCE120_AUD_COMMON_MASK_SH_LIST(mask_sh)\
SF(AZF0ENDPOINT0_AZALIA_F0_CODEC_ENDPOINT_INDEX, AZALIA_ENDPOINT_REG_INDEX, mask_sh),\
SF(AZF0ENDPOINT0_AZALIA_F0_CODEC_ENDPOINT_DATA, AZALIA_ENDPOINT_REG_DATA, mask_sh),\
AUD_COMMON_MASK_SH_LIST_BASE(mask_sh)
static const struct dce_audio_shift audio_shift = {
DCE120_AUD_COMMON_MASK_SH_LIST(__SHIFT)
};
static const struct dce_aduio_mask audio_mask = {
DCE120_AUD_COMMON_MASK_SH_LIST(_MASK)
};
#define stream_enc_regs(id)\
[id] = {\
SE_DCN2_REG_LIST(id)\
}
static const struct dcn10_stream_enc_registers stream_enc_regs[] = {
stream_enc_regs(0),
stream_enc_regs(1),
stream_enc_regs(2),
stream_enc_regs(3),
stream_enc_regs(4),
stream_enc_regs(5),
};
static const struct dcn10_stream_encoder_shift se_shift = {
SE_COMMON_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn10_stream_encoder_mask se_mask = {
SE_COMMON_MASK_SH_LIST_DCN20(_MASK)
};
#define aux_regs(id)\
[id] = {\
DCN2_AUX_REG_LIST(id)\
}
static const struct dcn10_link_enc_aux_registers link_enc_aux_regs[] = {
aux_regs(0),
aux_regs(1),
aux_regs(2),
aux_regs(3),
aux_regs(4),
aux_regs(5)
};
#define hpd_regs(id)\
[id] = {\
HPD_REG_LIST(id)\
}
static const struct dcn10_link_enc_hpd_registers link_enc_hpd_regs[] = {
hpd_regs(0),
hpd_regs(1),
hpd_regs(2),
hpd_regs(3),
hpd_regs(4),
hpd_regs(5)
};
#define link_regs(id, phyid)\
[id] = {\
LE_DCN10_REG_LIST(id), \
UNIPHY_DCN2_REG_LIST(phyid), \
SRI(DP_DPHY_INTERNAL_CTRL, DP, id) \
}
static const struct dcn10_link_enc_registers link_enc_regs[] = {
link_regs(0, A),
link_regs(1, B),
link_regs(2, C),
link_regs(3, D),
link_regs(4, E),
link_regs(5, F)
};
static const struct dcn10_link_enc_shift le_shift = {
LINK_ENCODER_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn10_link_enc_mask le_mask = {
LINK_ENCODER_MASK_SH_LIST_DCN20(_MASK)
};
#define ipp_regs(id)\
[id] = {\
IPP_REG_LIST_DCN20(id),\
}
static const struct dcn10_ipp_registers ipp_regs[] = {
ipp_regs(0),
ipp_regs(1),
ipp_regs(2),
ipp_regs(3),
ipp_regs(4),
ipp_regs(5),
};
static const struct dcn10_ipp_shift ipp_shift = {
IPP_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn10_ipp_mask ipp_mask = {
IPP_MASK_SH_LIST_DCN20(_MASK),
};
#define opp_regs(id)\
[id] = {\
OPP_REG_LIST_DCN20(id),\
}
static const struct dcn20_opp_registers opp_regs[] = {
opp_regs(0),
opp_regs(1),
opp_regs(2),
opp_regs(3),
opp_regs(4),
opp_regs(5),
};
static const struct dcn20_opp_shift opp_shift = {
OPP_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn20_opp_mask opp_mask = {
OPP_MASK_SH_LIST_DCN20(_MASK)
};
#define aux_engine_regs(id)\
[id] = {\
AUX_COMMON_REG_LIST0(id), \
.AUXN_IMPCAL = 0, \
.AUXP_IMPCAL = 0, \
.AUX_RESET_MASK = DP_AUX0_AUX_CONTROL__AUX_RESET_MASK, \
}
static const struct dce110_aux_registers aux_engine_regs[] = {
aux_engine_regs(0),
aux_engine_regs(1),
aux_engine_regs(2),
aux_engine_regs(3),
aux_engine_regs(4),
aux_engine_regs(5)
};
#define tf_regs(id)\
[id] = {\
TF_REG_LIST_DCN20(id),\
}
static const struct dcn2_dpp_registers tf_regs[] = {
tf_regs(0),
tf_regs(1),
tf_regs(2),
tf_regs(3),
tf_regs(4),
tf_regs(5),
};
static const struct dcn2_dpp_shift tf_shift = {
TF_REG_LIST_SH_MASK_DCN20(__SHIFT)
};
static const struct dcn2_dpp_mask tf_mask = {
TF_REG_LIST_SH_MASK_DCN20(_MASK)
};
#define dwbc_regs_dcn2(id)\
[id] = {\
DWBC_COMMON_REG_LIST_DCN2_0(id),\
}
static const struct dcn20_dwbc_registers dwbc20_regs[] = {
dwbc_regs_dcn2(0),
};
static const struct dcn20_dwbc_shift dwbc20_shift = {
DWBC_COMMON_MASK_SH_LIST_DCN2_0(__SHIFT)
};
static const struct dcn20_dwbc_mask dwbc20_mask = {
DWBC_COMMON_MASK_SH_LIST_DCN2_0(_MASK)
};
#define mcif_wb_regs_dcn2(id)\
[id] = {\
MCIF_WB_COMMON_REG_LIST_DCN2_0(id),\
}
static const struct dcn20_mmhubbub_registers mcif_wb20_regs[] = {
mcif_wb_regs_dcn2(0),
};
static const struct dcn20_mmhubbub_shift mcif_wb20_shift = {
MCIF_WB_COMMON_MASK_SH_LIST_DCN2_0(__SHIFT)
};
static const struct dcn20_mmhubbub_mask mcif_wb20_mask = {
MCIF_WB_COMMON_MASK_SH_LIST_DCN2_0(_MASK)
};
static const struct dcn20_mpc_registers mpc_regs = {
MPC_REG_LIST_DCN2_0(0),
MPC_REG_LIST_DCN2_0(1),
MPC_REG_LIST_DCN2_0(2),
MPC_REG_LIST_DCN2_0(3),
MPC_REG_LIST_DCN2_0(4),
MPC_REG_LIST_DCN2_0(5),
MPC_OUT_MUX_REG_LIST_DCN2_0(0),
MPC_OUT_MUX_REG_LIST_DCN2_0(1),
MPC_OUT_MUX_REG_LIST_DCN2_0(2),
MPC_OUT_MUX_REG_LIST_DCN2_0(3),
MPC_OUT_MUX_REG_LIST_DCN2_0(4),
MPC_OUT_MUX_REG_LIST_DCN2_0(5),
};
static const struct dcn20_mpc_shift mpc_shift = {
MPC_COMMON_MASK_SH_LIST_DCN2_0(__SHIFT)
};
static const struct dcn20_mpc_mask mpc_mask = {
MPC_COMMON_MASK_SH_LIST_DCN2_0(_MASK)
};
#define tg_regs(id)\
[id] = {TG_COMMON_REG_LIST_DCN2_0(id)}
static const struct dcn_optc_registers tg_regs[] = {
tg_regs(0),
tg_regs(1),
tg_regs(2),
tg_regs(3),
tg_regs(4),
tg_regs(5)
};
static const struct dcn_optc_shift tg_shift = {
TG_COMMON_MASK_SH_LIST_DCN2_0(__SHIFT)
};
static const struct dcn_optc_mask tg_mask = {
TG_COMMON_MASK_SH_LIST_DCN2_0(_MASK)
};
#define hubp_regs(id)\
[id] = {\
HUBP_REG_LIST_DCN20(id)\
}
static const struct dcn_hubp2_registers hubp_regs[] = {
hubp_regs(0),
hubp_regs(1),
hubp_regs(2),
hubp_regs(3),
hubp_regs(4),
hubp_regs(5)
};
static const struct dcn_hubp2_shift hubp_shift = {
HUBP_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn_hubp2_mask hubp_mask = {
HUBP_MASK_SH_LIST_DCN20(_MASK)
};
static const struct dcn_hubbub_registers hubbub_reg = {
HUBBUB_REG_LIST_DCN20(0)
};
static const struct dcn_hubbub_shift hubbub_shift = {
HUBBUB_MASK_SH_LIST_DCN20(__SHIFT)
};
static const struct dcn_hubbub_mask hubbub_mask = {
HUBBUB_MASK_SH_LIST_DCN20(_MASK)
};
#define vmid_regs(id)\
[id] = {\
DCN20_VMID_REG_LIST(id)\
}
static const struct dcn_vmid_registers vmid_regs[] = {
vmid_regs(0),
vmid_regs(1),
vmid_regs(2),
vmid_regs(3),
vmid_regs(4),
vmid_regs(5),
vmid_regs(6),
vmid_regs(7),
vmid_regs(8),
vmid_regs(9),
vmid_regs(10),
vmid_regs(11),
vmid_regs(12),
vmid_regs(13),
vmid_regs(14),
vmid_regs(15)
};
static const struct dcn20_vmid_shift vmid_shifts = {
DCN20_VMID_MASK_SH_LIST(__SHIFT)
};
static const struct dcn20_vmid_mask vmid_masks = {
DCN20_VMID_MASK_SH_LIST(_MASK)
};
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
#define dsc_regsDCN20(id)\
[id] = {\
DSC_REG_LIST_DCN20(id)\
}
static const struct dcn20_dsc_registers dsc_regs[] = {
dsc_regsDCN20(0),
dsc_regsDCN20(1),
dsc_regsDCN20(2),
dsc_regsDCN20(3),
dsc_regsDCN20(4),
dsc_regsDCN20(5)
};
static const struct dcn20_dsc_shift dsc_shift = {
DSC_REG_LIST_SH_MASK_DCN20(__SHIFT)
};
static const struct dcn20_dsc_mask dsc_mask = {
DSC_REG_LIST_SH_MASK_DCN20(_MASK)
};
#endif
static const struct dccg_registers dccg_regs = {
DCCG_REG_LIST_DCN2()
};
static const struct dccg_shift dccg_shift = {
DCCG_MASK_SH_LIST_DCN2(__SHIFT)
};
static const struct dccg_mask dccg_mask = {
DCCG_MASK_SH_LIST_DCN2(_MASK)
};
static const struct resource_caps res_cap_nv10 = {
.num_timing_generator = 6,
.num_opp = 6,
.num_video_plane = 6,
.num_audio = 7,
.num_stream_encoder = 6,
.num_pll = 6,
.num_dwb = 1,
.num_ddc = 6,
.num_vmid = 16,
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
.num_dsc = 6,
#endif
};
static const struct dc_plane_cap plane_cap = {
.type = DC_PLANE_TYPE_DCN_UNIVERSAL,
.blends_with_above = true,
.blends_with_below = true,
.per_pixel_alpha = true,
.pixel_format_support = {
.argb8888 = true,
.nv12 = true,
.fp16 = true
},
.max_upscale_factor = {
.argb8888 = 16000,
.nv12 = 16000,
.fp16 = 1
},
.max_downscale_factor = {
.argb8888 = 250,
.nv12 = 250,
.fp16 = 1
}
};
static const struct dc_debug_options debug_defaults_drv = {
.disable_dmcu = true,
.force_abm_enable = false,
.timing_trace = false,
.clock_trace = true,
.disable_pplib_clock_request = true,
.pipe_split_policy = MPC_SPLIT_DYNAMIC,
.force_single_disp_pipe_split = true,
.disable_dcc = DCC_ENABLE,
.vsr_support = true,
.performance_trace = false,
.max_downscale_src_width = 5120,/*upto 5K*/
.disable_pplib_wm_range = false,
.scl_reset_length10 = true,
.sanity_checks = false,
.disable_tri_buf = true,
.underflow_assert_delay_us = 0xFFFFFFFF,
};
static const struct dc_debug_options debug_defaults_diags = {
.disable_dmcu = true,
.force_abm_enable = false,
.timing_trace = true,
.clock_trace = true,
.disable_dpp_power_gate = true,
.disable_hubp_power_gate = true,
.disable_clock_gate = true,
.disable_pplib_clock_request = true,
.disable_pplib_wm_range = true,
.disable_stutter = true,
.scl_reset_length10 = true,
.underflow_assert_delay_us = 0xFFFFFFFF,
};
void dcn20_dpp_destroy(struct dpp **dpp)
{
kfree(TO_DCN20_DPP(*dpp));
*dpp = NULL;
}
struct dpp *dcn20_dpp_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dcn20_dpp *dpp =
kzalloc(sizeof(struct dcn20_dpp), GFP_KERNEL);
if (!dpp)
return NULL;
if (dpp2_construct(dpp, ctx, inst,
&tf_regs[inst], &tf_shift, &tf_mask))
return &dpp->base;
BREAK_TO_DEBUGGER();
kfree(dpp);
return NULL;
}
struct input_pixel_processor *dcn20_ipp_create(
struct dc_context *ctx, uint32_t inst)
{
struct dcn10_ipp *ipp =
kzalloc(sizeof(struct dcn10_ipp), GFP_KERNEL);
if (!ipp) {
BREAK_TO_DEBUGGER();
return NULL;
}
dcn20_ipp_construct(ipp, ctx, inst,
&ipp_regs[inst], &ipp_shift, &ipp_mask);
return &ipp->base;
}
struct output_pixel_processor *dcn20_opp_create(
struct dc_context *ctx, uint32_t inst)
{
struct dcn20_opp *opp =
kzalloc(sizeof(struct dcn20_opp), GFP_KERNEL);
if (!opp) {
BREAK_TO_DEBUGGER();
return NULL;
}
dcn20_opp_construct(opp, ctx, inst,
&opp_regs[inst], &opp_shift, &opp_mask);
return &opp->base;
}
struct dce_aux *dcn20_aux_engine_create(
struct dc_context *ctx,
uint32_t inst)
{
struct aux_engine_dce110 *aux_engine =
kzalloc(sizeof(struct aux_engine_dce110), GFP_KERNEL);
if (!aux_engine)
return NULL;
dce110_aux_engine_construct(aux_engine, ctx, inst,
SW_AUX_TIMEOUT_PERIOD_MULTIPLIER * AUX_TIMEOUT_PERIOD,
&aux_engine_regs[inst]);
return &aux_engine->base;
}
#define i2c_inst_regs(id) { I2C_HW_ENGINE_COMMON_REG_LIST(id) }
static const struct dce_i2c_registers i2c_hw_regs[] = {
i2c_inst_regs(1),
i2c_inst_regs(2),
i2c_inst_regs(3),
i2c_inst_regs(4),
i2c_inst_regs(5),
i2c_inst_regs(6),
};
static const struct dce_i2c_shift i2c_shifts = {
I2C_COMMON_MASK_SH_LIST_DCN2(__SHIFT)
};
static const struct dce_i2c_mask i2c_masks = {
I2C_COMMON_MASK_SH_LIST_DCN2(_MASK)
};
struct dce_i2c_hw *dcn20_i2c_hw_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dce_i2c_hw *dce_i2c_hw =
kzalloc(sizeof(struct dce_i2c_hw), GFP_KERNEL);
if (!dce_i2c_hw)
return NULL;
dcn2_i2c_hw_construct(dce_i2c_hw, ctx, inst,
&i2c_hw_regs[inst], &i2c_shifts, &i2c_masks);
return dce_i2c_hw;
}
struct mpc *dcn20_mpc_create(struct dc_context *ctx)
{
struct dcn20_mpc *mpc20 = kzalloc(sizeof(struct dcn20_mpc),
GFP_KERNEL);
if (!mpc20)
return NULL;
dcn20_mpc_construct(mpc20, ctx,
&mpc_regs,
&mpc_shift,
&mpc_mask,
6);
return &mpc20->base;
}
struct hubbub *dcn20_hubbub_create(struct dc_context *ctx)
{
int i;
struct dcn20_hubbub *hubbub = kzalloc(sizeof(struct dcn20_hubbub),
GFP_KERNEL);
if (!hubbub)
return NULL;
hubbub2_construct(hubbub, ctx,
&hubbub_reg,
&hubbub_shift,
&hubbub_mask);
for (i = 0; i < res_cap_nv10.num_vmid; i++) {
struct dcn20_vmid *vmid = &hubbub->vmid[i];
vmid->ctx = ctx;
vmid->regs = &vmid_regs[i];
vmid->shifts = &vmid_shifts;
vmid->masks = &vmid_masks;
}
return &hubbub->base;
}
struct timing_generator *dcn20_timing_generator_create(
struct dc_context *ctx,
uint32_t instance)
{
struct optc *tgn10 =
kzalloc(sizeof(struct optc), GFP_KERNEL);
if (!tgn10)
return NULL;
tgn10->base.inst = instance;
tgn10->base.ctx = ctx;
tgn10->tg_regs = &tg_regs[instance];
tgn10->tg_shift = &tg_shift;
tgn10->tg_mask = &tg_mask;
dcn20_timing_generator_init(tgn10);
return &tgn10->base;
}
static const struct encoder_feature_support link_enc_feature = {
.max_hdmi_deep_color = COLOR_DEPTH_121212,
.max_hdmi_pixel_clock = 600000,
.hdmi_ycbcr420_supported = true,
.dp_ycbcr420_supported = true,
.flags.bits.IS_HBR2_CAPABLE = true,
.flags.bits.IS_HBR3_CAPABLE = true,
.flags.bits.IS_TPS3_CAPABLE = true,
.flags.bits.IS_TPS4_CAPABLE = true
};
struct link_encoder *dcn20_link_encoder_create(
const struct encoder_init_data *enc_init_data)
{
struct dcn20_link_encoder *enc20 =
kzalloc(sizeof(struct dcn20_link_encoder), GFP_KERNEL);
if (!enc20)
return NULL;
dcn20_link_encoder_construct(enc20,
enc_init_data,
&link_enc_feature,
&link_enc_regs[enc_init_data->transmitter],
&link_enc_aux_regs[enc_init_data->channel - 1],
&link_enc_hpd_regs[enc_init_data->hpd_source],
&le_shift,
&le_mask);
return &enc20->enc10.base;
}
struct clock_source *dcn20_clock_source_create(
struct dc_context *ctx,
struct dc_bios *bios,
enum clock_source_id id,
const struct dce110_clk_src_regs *regs,
bool dp_clk_src)
{
struct dce110_clk_src *clk_src =
kzalloc(sizeof(struct dce110_clk_src), GFP_KERNEL);
if (!clk_src)
return NULL;
if (dcn20_clk_src_construct(clk_src, ctx, bios, id,
regs, &cs_shift, &cs_mask)) {
clk_src->base.dp_clk_src = dp_clk_src;
return &clk_src->base;
}
BREAK_TO_DEBUGGER();
return NULL;
}
static void read_dce_straps(
struct dc_context *ctx,
struct resource_straps *straps)
{
generic_reg_get(ctx, mmDC_PINSTRAPS + BASE(mmDC_PINSTRAPS_BASE_IDX),
FN(DC_PINSTRAPS, DC_PINSTRAPS_AUDIO), &straps->dc_pinstraps_audio);
}
static struct audio *dcn20_create_audio(
struct dc_context *ctx, unsigned int inst)
{
return dce_audio_create(ctx, inst,
&audio_regs[inst], &audio_shift, &audio_mask);
}
struct stream_encoder *dcn20_stream_encoder_create(
enum engine_id eng_id,
struct dc_context *ctx)
{
struct dcn10_stream_encoder *enc1 =
kzalloc(sizeof(struct dcn10_stream_encoder), GFP_KERNEL);
if (!enc1)
return NULL;
dcn20_stream_encoder_construct(enc1, ctx, ctx->dc_bios, eng_id,
&stream_enc_regs[eng_id],
&se_shift, &se_mask);
return &enc1->base;
}
static const struct dce_hwseq_registers hwseq_reg = {
HWSEQ_DCN2_REG_LIST()
};
static const struct dce_hwseq_shift hwseq_shift = {
HWSEQ_DCN2_MASK_SH_LIST(__SHIFT)
};
static const struct dce_hwseq_mask hwseq_mask = {
HWSEQ_DCN2_MASK_SH_LIST(_MASK)
};
struct dce_hwseq *dcn20_hwseq_create(
struct dc_context *ctx)
{
struct dce_hwseq *hws = kzalloc(sizeof(struct dce_hwseq), GFP_KERNEL);
if (hws) {
hws->ctx = ctx;
hws->regs = &hwseq_reg;
hws->shifts = &hwseq_shift;
hws->masks = &hwseq_mask;
}
return hws;
}
static const struct resource_create_funcs res_create_funcs = {
.read_dce_straps = read_dce_straps,
.create_audio = dcn20_create_audio,
.create_stream_encoder = dcn20_stream_encoder_create,
.create_hwseq = dcn20_hwseq_create,
};
static const struct resource_create_funcs res_create_maximus_funcs = {
.read_dce_straps = NULL,
.create_audio = NULL,
.create_stream_encoder = NULL,
.create_hwseq = dcn20_hwseq_create,
};
void dcn20_clock_source_destroy(struct clock_source **clk_src)
{
kfree(TO_DCE110_CLK_SRC(*clk_src));
*clk_src = NULL;
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
struct display_stream_compressor *dcn20_dsc_create(
struct dc_context *ctx, uint32_t inst)
{
struct dcn20_dsc *dsc =
kzalloc(sizeof(struct dcn20_dsc), GFP_KERNEL);
if (!dsc) {
BREAK_TO_DEBUGGER();
return NULL;
}
dsc2_construct(dsc, ctx, inst, &dsc_regs[inst], &dsc_shift, &dsc_mask);
return &dsc->base;
}
void dcn20_dsc_destroy(struct display_stream_compressor **dsc)
{
kfree(container_of(*dsc, struct dcn20_dsc, base));
*dsc = NULL;
}
#endif
static void destruct(struct dcn20_resource_pool *pool)
{
unsigned int i;
for (i = 0; i < pool->base.stream_enc_count; i++) {
if (pool->base.stream_enc[i] != NULL) {
kfree(DCN10STRENC_FROM_STRENC(pool->base.stream_enc[i]));
pool->base.stream_enc[i] = NULL;
}
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
for (i = 0; i < pool->base.res_cap->num_dsc; i++) {
if (pool->base.dscs[i] != NULL)
dcn20_dsc_destroy(&pool->base.dscs[i]);
}
#endif
if (pool->base.mpc != NULL) {
kfree(TO_DCN20_MPC(pool->base.mpc));
pool->base.mpc = NULL;
}
if (pool->base.hubbub != NULL) {
kfree(pool->base.hubbub);
pool->base.hubbub = NULL;
}
for (i = 0; i < pool->base.pipe_count; i++) {
if (pool->base.dpps[i] != NULL)
dcn20_dpp_destroy(&pool->base.dpps[i]);
if (pool->base.ipps[i] != NULL)
pool->base.ipps[i]->funcs->ipp_destroy(&pool->base.ipps[i]);
if (pool->base.hubps[i] != NULL) {
kfree(TO_DCN20_HUBP(pool->base.hubps[i]));
pool->base.hubps[i] = NULL;
}
if (pool->base.irqs != NULL) {
dal_irq_service_destroy(&pool->base.irqs);
}
}
for (i = 0; i < pool->base.res_cap->num_ddc; i++) {
if (pool->base.engines[i] != NULL)
dce110_engine_destroy(&pool->base.engines[i]);
if (pool->base.hw_i2cs[i] != NULL) {
kfree(pool->base.hw_i2cs[i]);
pool->base.hw_i2cs[i] = NULL;
}
if (pool->base.sw_i2cs[i] != NULL) {
kfree(pool->base.sw_i2cs[i]);
pool->base.sw_i2cs[i] = NULL;
}
}
for (i = 0; i < pool->base.res_cap->num_opp; i++) {
if (pool->base.opps[i] != NULL)
pool->base.opps[i]->funcs->opp_destroy(&pool->base.opps[i]);
}
for (i = 0; i < pool->base.res_cap->num_timing_generator; i++) {
if (pool->base.timing_generators[i] != NULL) {
kfree(DCN10TG_FROM_TG(pool->base.timing_generators[i]));
pool->base.timing_generators[i] = NULL;
}
}
for (i = 0; i < pool->base.res_cap->num_dwb; i++) {
if (pool->base.dwbc[i] != NULL) {
kfree(TO_DCN20_DWBC(pool->base.dwbc[i]));
pool->base.dwbc[i] = NULL;
}
if (pool->base.mcif_wb[i] != NULL) {
kfree(TO_DCN20_MMHUBBUB(pool->base.mcif_wb[i]));
pool->base.mcif_wb[i] = NULL;
}
}
for (i = 0; i < pool->base.audio_count; i++) {
if (pool->base.audios[i])
dce_aud_destroy(&pool->base.audios[i]);
}
for (i = 0; i < pool->base.clk_src_count; i++) {
if (pool->base.clock_sources[i] != NULL) {
dcn20_clock_source_destroy(&pool->base.clock_sources[i]);
pool->base.clock_sources[i] = NULL;
}
}
if (pool->base.dp_clock_source != NULL) {
dcn20_clock_source_destroy(&pool->base.dp_clock_source);
pool->base.dp_clock_source = NULL;
}
if (pool->base.abm != NULL)
dce_abm_destroy(&pool->base.abm);
if (pool->base.dmcu != NULL)
dce_dmcu_destroy(&pool->base.dmcu);
if (pool->base.dccg != NULL)
dcn_dccg_destroy(&pool->base.dccg);
if (pool->base.pp_smu != NULL)
dcn20_pp_smu_destroy(&pool->base.pp_smu);
}
struct hubp *dcn20_hubp_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dcn20_hubp *hubp2 =
kzalloc(sizeof(struct dcn20_hubp), GFP_KERNEL);
if (!hubp2)
return NULL;
if (hubp2_construct(hubp2, ctx, inst,
&hubp_regs[inst], &hubp_shift, &hubp_mask))
return &hubp2->base;
BREAK_TO_DEBUGGER();
kfree(hubp2);
return NULL;
}
static void get_pixel_clock_parameters(
struct pipe_ctx *pipe_ctx,
struct pixel_clk_params *pixel_clk_params)
{
const struct dc_stream_state *stream = pipe_ctx->stream;
bool odm_combine = dc_res_get_odm_bottom_pipe(pipe_ctx) != NULL;
pixel_clk_params->requested_pix_clk_100hz = stream->timing.pix_clk_100hz;
pixel_clk_params->encoder_object_id = stream->link->link_enc->id;
pixel_clk_params->signal_type = pipe_ctx->stream->signal;
pixel_clk_params->controller_id = pipe_ctx->stream_res.tg->inst + 1;
/* TODO: un-hardcode*/
pixel_clk_params->requested_sym_clk = LINK_RATE_LOW *
LINK_RATE_REF_FREQ_IN_KHZ;
pixel_clk_params->flags.ENABLE_SS = 0;
pixel_clk_params->color_depth =
stream->timing.display_color_depth;
pixel_clk_params->flags.DISPLAY_BLANKED = 1;
pixel_clk_params->pixel_encoding = stream->timing.pixel_encoding;
if (stream->timing.pixel_encoding == PIXEL_ENCODING_YCBCR422)
pixel_clk_params->color_depth = COLOR_DEPTH_888;
if (optc1_is_two_pixels_per_containter(&stream->timing) || odm_combine)
pixel_clk_params->requested_pix_clk_100hz /= 2;
if (stream->timing.timing_3d_format == TIMING_3D_FORMAT_HW_FRAME_PACKING)
pixel_clk_params->requested_pix_clk_100hz *= 2;
}
static void build_clamping_params(struct dc_stream_state *stream)
{
stream->clamping.clamping_level = CLAMPING_FULL_RANGE;
stream->clamping.c_depth = stream->timing.display_color_depth;
stream->clamping.pixel_encoding = stream->timing.pixel_encoding;
}
static enum dc_status build_pipe_hw_param(struct pipe_ctx *pipe_ctx)
{
get_pixel_clock_parameters(pipe_ctx, &pipe_ctx->stream_res.pix_clk_params);
pipe_ctx->clock_source->funcs->get_pix_clk_dividers(
pipe_ctx->clock_source,
&pipe_ctx->stream_res.pix_clk_params,
&pipe_ctx->pll_settings);
pipe_ctx->stream->clamping.pixel_encoding = pipe_ctx->stream->timing.pixel_encoding;
resource_build_bit_depth_reduction_params(pipe_ctx->stream,
&pipe_ctx->stream->bit_depth_params);
build_clamping_params(pipe_ctx->stream);
return DC_OK;
}
enum dc_status dcn20_build_mapped_resource(const struct dc *dc, struct dc_state *context, struct dc_stream_state *stream)
{
enum dc_status status = DC_OK;
struct pipe_ctx *pipe_ctx = resource_get_head_pipe_for_stream(&context->res_ctx, stream);
/*TODO Seems unneeded anymore */
/* if (old_context && resource_is_stream_unchanged(old_context, stream)) {
if (stream != NULL && old_context->streams[i] != NULL) {
todo: shouldn't have to copy missing parameter here
resource_build_bit_depth_reduction_params(stream,
&stream->bit_depth_params);
stream->clamping.pixel_encoding =
stream->timing.pixel_encoding;
resource_build_bit_depth_reduction_params(stream,
&stream->bit_depth_params);
build_clamping_params(stream);
continue;
}
}
*/
if (!pipe_ctx)
return DC_ERROR_UNEXPECTED;
status = build_pipe_hw_param(pipe_ctx);
return status;
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
static void acquire_dsc(struct resource_context *res_ctx,
const struct resource_pool *pool,
struct display_stream_compressor **dsc)
{
int i;
ASSERT(*dsc == NULL);
*dsc = NULL;
/* Find first free DSC */
for (i = 0; i < pool->res_cap->num_dsc; i++)
if (!res_ctx->is_dsc_acquired[i]) {
*dsc = pool->dscs[i];
res_ctx->is_dsc_acquired[i] = true;
break;
}
}
static void release_dsc(struct resource_context *res_ctx,
const struct resource_pool *pool,
struct display_stream_compressor **dsc)
{
int i;
for (i = 0; i < pool->res_cap->num_dsc; i++)
if (pool->dscs[i] == *dsc) {
res_ctx->is_dsc_acquired[i] = false;
*dsc = NULL;
break;
}
}
#endif
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
static enum dc_status add_dsc_to_stream_resource(struct dc *dc,
struct dc_state *dc_ctx,
struct dc_stream_state *dc_stream)
{
enum dc_status result = DC_OK;
int i;
const struct resource_pool *pool = dc->res_pool;
/* Get a DSC if required and available */
for (i = 0; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe_ctx = &dc_ctx->res_ctx.pipe_ctx[i];
if (pipe_ctx->stream != dc_stream)
continue;
acquire_dsc(&dc_ctx->res_ctx, pool, &pipe_ctx->stream_res.dsc);
/* The number of DSCs can be less than the number of pipes */
if (!pipe_ctx->stream_res.dsc) {
dm_output_to_console("No DSCs available\n");
result = DC_NO_DSC_RESOURCE;
}
break;
}
return result;
}
static enum dc_status remove_dsc_from_stream_resource(struct dc *dc,
struct dc_state *new_ctx,
struct dc_stream_state *dc_stream)
{
struct pipe_ctx *pipe_ctx = NULL;
int i;
for (i = 0; i < MAX_PIPES; i++) {
if (new_ctx->res_ctx.pipe_ctx[i].stream == dc_stream && !new_ctx->res_ctx.pipe_ctx[i].top_pipe) {
pipe_ctx = &new_ctx->res_ctx.pipe_ctx[i];
break;
}
}
if (!pipe_ctx)
return DC_ERROR_UNEXPECTED;
if (pipe_ctx->stream_res.dsc) {
struct pipe_ctx *odm_pipe = dc_res_get_odm_bottom_pipe(pipe_ctx);
release_dsc(&new_ctx->res_ctx, dc->res_pool, &pipe_ctx->stream_res.dsc);
if (odm_pipe)
release_dsc(&new_ctx->res_ctx, dc->res_pool, &odm_pipe->stream_res.dsc);
}
return DC_OK;
}
#endif
enum dc_status dcn20_add_stream_to_ctx(struct dc *dc, struct dc_state *new_ctx, struct dc_stream_state *dc_stream)
{
enum dc_status result = DC_ERROR_UNEXPECTED;
result = resource_map_pool_resources(dc, new_ctx, dc_stream);
if (result == DC_OK)
result = resource_map_phy_clock_resources(dc, new_ctx, dc_stream);
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
/* Get a DSC if required and available */
if (result == DC_OK && dc_stream->timing.flags.DSC)
result = add_dsc_to_stream_resource(dc, new_ctx, dc_stream);
#endif
if (result == DC_OK)
result = dcn20_build_mapped_resource(dc, new_ctx, dc_stream);
return result;
}
enum dc_status dcn20_remove_stream_from_ctx(struct dc *dc, struct dc_state *new_ctx, struct dc_stream_state *dc_stream)
{
enum dc_status result = DC_OK;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
result = remove_dsc_from_stream_resource(dc, new_ctx, dc_stream);
#endif
return result;
}
static void swizzle_to_dml_params(
enum swizzle_mode_values swizzle,
unsigned int *sw_mode)
{
switch (swizzle) {
case DC_SW_LINEAR:
*sw_mode = dm_sw_linear;
break;
case DC_SW_4KB_S:
*sw_mode = dm_sw_4kb_s;
break;
case DC_SW_4KB_S_X:
*sw_mode = dm_sw_4kb_s_x;
break;
case DC_SW_4KB_D:
*sw_mode = dm_sw_4kb_d;
break;
case DC_SW_4KB_D_X:
*sw_mode = dm_sw_4kb_d_x;
break;
case DC_SW_64KB_S:
*sw_mode = dm_sw_64kb_s;
break;
case DC_SW_64KB_S_X:
*sw_mode = dm_sw_64kb_s_x;
break;
case DC_SW_64KB_S_T:
*sw_mode = dm_sw_64kb_s_t;
break;
case DC_SW_64KB_D:
*sw_mode = dm_sw_64kb_d;
break;
case DC_SW_64KB_D_X:
*sw_mode = dm_sw_64kb_d_x;
break;
case DC_SW_64KB_D_T:
*sw_mode = dm_sw_64kb_d_t;
break;
case DC_SW_64KB_R_X:
*sw_mode = dm_sw_64kb_r_x;
break;
case DC_SW_VAR_S:
*sw_mode = dm_sw_var_s;
break;
case DC_SW_VAR_S_X:
*sw_mode = dm_sw_var_s_x;
break;
case DC_SW_VAR_D:
*sw_mode = dm_sw_var_d;
break;
case DC_SW_VAR_D_X:
*sw_mode = dm_sw_var_d_x;
break;
default:
ASSERT(0); /* Not supported */
break;
}
}
static bool dcn20_split_stream_for_combine(
struct resource_context *res_ctx,
const struct resource_pool *pool,
struct pipe_ctx *primary_pipe,
struct pipe_ctx *secondary_pipe,
bool is_odm_combine)
{
int pipe_idx = secondary_pipe->pipe_idx;
struct scaler_data *sd = &primary_pipe->plane_res.scl_data;
struct pipe_ctx *sec_bot_pipe = secondary_pipe->bottom_pipe;
int new_width;
*secondary_pipe = *primary_pipe;
secondary_pipe->bottom_pipe = sec_bot_pipe;
secondary_pipe->pipe_idx = pipe_idx;
secondary_pipe->plane_res.mi = pool->mis[secondary_pipe->pipe_idx];
secondary_pipe->plane_res.hubp = pool->hubps[secondary_pipe->pipe_idx];
secondary_pipe->plane_res.ipp = pool->ipps[secondary_pipe->pipe_idx];
secondary_pipe->plane_res.xfm = pool->transforms[secondary_pipe->pipe_idx];
secondary_pipe->plane_res.dpp = pool->dpps[secondary_pipe->pipe_idx];
secondary_pipe->plane_res.mpcc_inst = pool->dpps[secondary_pipe->pipe_idx]->inst;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
secondary_pipe->stream_res.dsc = NULL;
#endif
if (primary_pipe->bottom_pipe && primary_pipe->bottom_pipe != secondary_pipe) {
ASSERT(!secondary_pipe->bottom_pipe);
secondary_pipe->bottom_pipe = primary_pipe->bottom_pipe;
secondary_pipe->bottom_pipe->top_pipe = secondary_pipe;
}
primary_pipe->bottom_pipe = secondary_pipe;
secondary_pipe->top_pipe = primary_pipe;
if (is_odm_combine) {
if (primary_pipe->plane_state) {
/* HACTIVE halved for odm combine */
sd->h_active /= 2;
/* Copy scl_data to secondary pipe */
secondary_pipe->plane_res.scl_data = *sd;
/* Calculate new vp and recout for left pipe */
/* Need at least 16 pixels width per side */
if (sd->recout.x + 16 >= sd->h_active)
return false;
new_width = sd->h_active - sd->recout.x;
sd->viewport.width -= dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz, sd->recout.width - new_width));
sd->viewport_c.width -= dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz_c, sd->recout.width - new_width));
sd->recout.width = new_width;
/* Calculate new vp and recout for right pipe */
sd = &secondary_pipe->plane_res.scl_data;
new_width = sd->recout.width + sd->recout.x - sd->h_active;
/* Need at least 16 pixels width per side */
if (new_width <= 16)
return false;
sd->viewport.width -= dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz, sd->recout.width - new_width));
sd->viewport_c.width -= dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz_c, sd->recout.width - new_width));
sd->recout.width = new_width;
sd->viewport.x += dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz, sd->h_active - sd->recout.x));
sd->viewport_c.x += dc_fixpt_floor(dc_fixpt_mul_int(
sd->ratios.horz_c, sd->h_active - sd->recout.x));
sd->recout.x = 0;
}
secondary_pipe->stream_res.opp = pool->opps[secondary_pipe->pipe_idx];
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
if (secondary_pipe->stream->timing.flags.DSC == 1) {
acquire_dsc(res_ctx, pool, &secondary_pipe->stream_res.dsc);
ASSERT(secondary_pipe->stream_res.dsc);
if (secondary_pipe->stream_res.dsc == NULL)
return false;
}
#endif
} else {
ASSERT(primary_pipe->plane_state);
resource_build_scaling_params(primary_pipe);
resource_build_scaling_params(secondary_pipe);
}
return true;
}
void dcn20_populate_dml_writeback_from_context(
struct dc *dc, struct resource_context *res_ctx, display_e2e_pipe_params_st *pipes)
{
int pipe_cnt, i;
for (i = 0, pipe_cnt = 0; i < dc->res_pool->pipe_count; i++) {
struct dc_writeback_info *wb_info = &res_ctx->pipe_ctx[i].stream->writeback_info[0];
if (!res_ctx->pipe_ctx[i].stream)
continue;
/* Set writeback information */
pipes[pipe_cnt].dout.wb_enable = (wb_info->wb_enabled == true) ? 1 : 0;
pipes[pipe_cnt].dout.num_active_wb++;
pipes[pipe_cnt].dout.wb.wb_src_height = wb_info->dwb_params.cnv_params.crop_height;
pipes[pipe_cnt].dout.wb.wb_src_width = wb_info->dwb_params.cnv_params.crop_width;
pipes[pipe_cnt].dout.wb.wb_dst_width = wb_info->dwb_params.dest_width;
pipes[pipe_cnt].dout.wb.wb_dst_height = wb_info->dwb_params.dest_height;
pipes[pipe_cnt].dout.wb.wb_htaps_luma = 1;
pipes[pipe_cnt].dout.wb.wb_vtaps_luma = 1;
pipes[pipe_cnt].dout.wb.wb_htaps_chroma = wb_info->dwb_params.scaler_taps.h_taps_c;
pipes[pipe_cnt].dout.wb.wb_vtaps_chroma = wb_info->dwb_params.scaler_taps.v_taps_c;
pipes[pipe_cnt].dout.wb.wb_hratio = 1.0;
pipes[pipe_cnt].dout.wb.wb_vratio = 1.0;
if (wb_info->dwb_params.out_format == dwb_scaler_mode_yuv420) {
if (wb_info->dwb_params.output_depth == DWB_OUTPUT_PIXEL_DEPTH_8BPC)
pipes[pipe_cnt].dout.wb.wb_pixel_format = dm_420_8;
else
pipes[pipe_cnt].dout.wb.wb_pixel_format = dm_420_10;
} else
pipes[pipe_cnt].dout.wb.wb_pixel_format = dm_444_32;
pipe_cnt++;
}
}
int dcn20_populate_dml_pipes_from_context(
struct dc *dc, struct resource_context *res_ctx, display_e2e_pipe_params_st *pipes)
{
int pipe_cnt, i;
bool synchronized_vblank = true;
for (i = 0, pipe_cnt = -1; i < dc->res_pool->pipe_count; i++) {
if (!res_ctx->pipe_ctx[i].stream)
continue;
if (pipe_cnt < 0) {
pipe_cnt = i;
continue;
}
if (!resource_are_streams_timing_synchronizable(
res_ctx->pipe_ctx[pipe_cnt].stream,
res_ctx->pipe_ctx[i].stream)) {
synchronized_vblank = false;
break;
}
}
for (i = 0, pipe_cnt = 0; i < dc->res_pool->pipe_count; i++) {
struct dc_crtc_timing *timing = &res_ctx->pipe_ctx[i].stream->timing;
int output_bpc;
if (!res_ctx->pipe_ctx[i].stream)
continue;
/* todo:
pipes[pipe_cnt].pipe.src.dynamic_metadata_enable = 0;
pipes[pipe_cnt].pipe.src.dcc = 0;
pipes[pipe_cnt].pipe.src.vm = 0;*/
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
pipes[pipe_cnt].dout.dsc_enable = res_ctx->pipe_ctx[i].stream->timing.flags.DSC;
/* todo: rotation?*/
pipes[pipe_cnt].dout.dsc_slices = res_ctx->pipe_ctx[i].stream->timing.dsc_cfg.num_slices_h;
#endif
if (res_ctx->pipe_ctx[i].stream->use_dynamic_meta) {
pipes[pipe_cnt].pipe.src.dynamic_metadata_enable = true;
/* 1/2 vblank */
pipes[pipe_cnt].pipe.src.dynamic_metadata_lines_before_active =
(timing->v_total - timing->v_addressable
- timing->v_border_top - timing->v_border_bottom) / 2;
/* 36 bytes dp, 32 hdmi */
pipes[pipe_cnt].pipe.src.dynamic_metadata_xmit_bytes =
dc_is_dp_signal(res_ctx->pipe_ctx[i].stream->signal) ? 36 : 32;
}
pipes[pipe_cnt].pipe.src.dcc = false;
pipes[pipe_cnt].pipe.src.dcc_rate = 1;
pipes[pipe_cnt].pipe.dest.synchronized_vblank_all_planes = synchronized_vblank;
pipes[pipe_cnt].pipe.dest.hblank_start = timing->h_total - timing->h_front_porch;
pipes[pipe_cnt].pipe.dest.hblank_end = pipes[pipe_cnt].pipe.dest.hblank_start
- timing->h_addressable
- timing->h_border_left
- timing->h_border_right;
pipes[pipe_cnt].pipe.dest.vblank_start = timing->v_total - timing->v_front_porch;
pipes[pipe_cnt].pipe.dest.vblank_end = pipes[pipe_cnt].pipe.dest.vblank_start
- timing->v_addressable
- timing->v_border_top
- timing->v_border_bottom;
pipes[pipe_cnt].pipe.dest.htotal = timing->h_total;
pipes[pipe_cnt].pipe.dest.vtotal = timing->v_total;
pipes[pipe_cnt].pipe.dest.hactive = timing->h_addressable;
pipes[pipe_cnt].pipe.dest.vactive = timing->v_addressable;
pipes[pipe_cnt].pipe.dest.interlaced = timing->flags.INTERLACE;
pipes[pipe_cnt].pipe.dest.pixel_rate_mhz = timing->pix_clk_100hz/10000.0;
if (timing->timing_3d_format == TIMING_3D_FORMAT_HW_FRAME_PACKING)
pipes[pipe_cnt].pipe.dest.pixel_rate_mhz *= 2;
pipes[pipe_cnt].pipe.dest.otg_inst = res_ctx->pipe_ctx[i].stream_res.tg->inst;
pipes[pipe_cnt].dout.dp_lanes = 4;
pipes[pipe_cnt].pipe.dest.vtotal_min = res_ctx->pipe_ctx[i].stream->adjust.v_total_min;
pipes[pipe_cnt].pipe.dest.vtotal_max = res_ctx->pipe_ctx[i].stream->adjust.v_total_max;
switch (res_ctx->pipe_ctx[i].stream->signal) {
case SIGNAL_TYPE_DISPLAY_PORT_MST:
case SIGNAL_TYPE_DISPLAY_PORT:
pipes[pipe_cnt].dout.output_type = dm_dp;
break;
case SIGNAL_TYPE_EDP:
pipes[pipe_cnt].dout.output_type = dm_edp;
break;
case SIGNAL_TYPE_HDMI_TYPE_A:
case SIGNAL_TYPE_DVI_SINGLE_LINK:
case SIGNAL_TYPE_DVI_DUAL_LINK:
pipes[pipe_cnt].dout.output_type = dm_hdmi;
break;
default:
/* In case there is no signal, set dp with 4 lanes to allow max config */
pipes[pipe_cnt].dout.output_type = dm_dp;
pipes[pipe_cnt].dout.dp_lanes = 4;
}
switch (res_ctx->pipe_ctx[i].stream->timing.display_color_depth) {
case COLOR_DEPTH_666:
output_bpc = 6;
break;
case COLOR_DEPTH_888:
output_bpc = 8;
break;
case COLOR_DEPTH_101010:
output_bpc = 10;
break;
case COLOR_DEPTH_121212:
output_bpc = 12;
break;
case COLOR_DEPTH_141414:
output_bpc = 14;
break;
case COLOR_DEPTH_161616:
output_bpc = 16;
break;
#ifdef CONFIG_DRM_AMD_DC_DCN2_0
case COLOR_DEPTH_999:
output_bpc = 9;
break;
case COLOR_DEPTH_111111:
output_bpc = 11;
break;
#endif
default:
output_bpc = 8;
break;
}
switch (res_ctx->pipe_ctx[i].stream->timing.pixel_encoding) {
case PIXEL_ENCODING_RGB:
case PIXEL_ENCODING_YCBCR444:
pipes[pipe_cnt].dout.output_format = dm_444;
pipes[pipe_cnt].dout.output_bpp = output_bpc * 3;
break;
case PIXEL_ENCODING_YCBCR420:
pipes[pipe_cnt].dout.output_format = dm_420;
pipes[pipe_cnt].dout.output_bpp = (output_bpc * 3) / 2;
break;
case PIXEL_ENCODING_YCBCR422:
if (true) /* todo */
pipes[pipe_cnt].dout.output_format = dm_s422;
else
pipes[pipe_cnt].dout.output_format = dm_n422;
pipes[pipe_cnt].dout.output_bpp = output_bpc * 2;
break;
default:
pipes[pipe_cnt].dout.output_format = dm_444;
pipes[pipe_cnt].dout.output_bpp = output_bpc * 3;
}
pipes[pipe_cnt].pipe.src.hsplit_grp = res_ctx->pipe_ctx[i].pipe_idx;
if (res_ctx->pipe_ctx[i].top_pipe && res_ctx->pipe_ctx[i].top_pipe->plane_state
== res_ctx->pipe_ctx[i].plane_state)
pipes[pipe_cnt].pipe.src.hsplit_grp = res_ctx->pipe_ctx[i].top_pipe->pipe_idx;
/* todo: default max for now, until there is logic reflecting this in dc*/
pipes[pipe_cnt].dout.output_bpc = 12;
/*
* Use max cursor settings for calculations to minimize
* bw calculations due to cursor on/off
*/
pipes[pipe_cnt].pipe.src.num_cursors = 2;
pipes[pipe_cnt].pipe.src.cur0_src_width = 256;
pipes[pipe_cnt].pipe.src.cur0_bpp = dm_cur_32bit;
pipes[pipe_cnt].pipe.src.cur1_src_width = 256;
pipes[pipe_cnt].pipe.src.cur1_bpp = dm_cur_32bit;
if (!res_ctx->pipe_ctx[i].plane_state) {
pipes[pipe_cnt].pipe.src.source_scan = dm_horz;
pipes[pipe_cnt].pipe.src.sw_mode = dm_sw_linear;
pipes[pipe_cnt].pipe.src.macro_tile_size = dm_64k_tile;
pipes[pipe_cnt].pipe.src.viewport_width = timing->h_addressable;
if (pipes[pipe_cnt].pipe.src.viewport_width > 1920)
pipes[pipe_cnt].pipe.src.viewport_width = 1920;
pipes[pipe_cnt].pipe.src.viewport_height = timing->v_addressable;
if (pipes[pipe_cnt].pipe.src.viewport_height > 1080)
pipes[pipe_cnt].pipe.src.viewport_height = 1080;
pipes[pipe_cnt].pipe.src.data_pitch = ((pipes[pipe_cnt].pipe.src.viewport_width + 63) / 64) * 64; /* linear sw only */
pipes[pipe_cnt].pipe.src.source_format = dm_444_32;
pipes[pipe_cnt].pipe.dest.recout_width = pipes[pipe_cnt].pipe.src.viewport_width; /*vp_width/hratio*/
pipes[pipe_cnt].pipe.dest.recout_height = pipes[pipe_cnt].pipe.src.viewport_height; /*vp_height/vratio*/
pipes[pipe_cnt].pipe.dest.full_recout_width = pipes[pipe_cnt].pipe.dest.recout_width; /*when is_hsplit != 1*/
pipes[pipe_cnt].pipe.dest.full_recout_height = pipes[pipe_cnt].pipe.dest.recout_height; /*when is_hsplit != 1*/
pipes[pipe_cnt].pipe.scale_ratio_depth.lb_depth = dm_lb_16;
pipes[pipe_cnt].pipe.scale_ratio_depth.hscl_ratio = 1.0;
pipes[pipe_cnt].pipe.scale_ratio_depth.vscl_ratio = 1.0;
pipes[pipe_cnt].pipe.scale_ratio_depth.scl_enable = 0; /*Lb only or Full scl*/
pipes[pipe_cnt].pipe.scale_taps.htaps = 1;
pipes[pipe_cnt].pipe.scale_taps.vtaps = 1;
pipes[pipe_cnt].pipe.src.is_hsplit = 0;
pipes[pipe_cnt].pipe.dest.odm_combine = 0;
pipes[pipe_cnt].pipe.dest.vtotal_min = timing->v_total;
pipes[pipe_cnt].pipe.dest.vtotal_max = timing->v_total;
} else {
struct dc_plane_state *pln = res_ctx->pipe_ctx[i].plane_state;
struct scaler_data *scl = &res_ctx->pipe_ctx[i].plane_res.scl_data;
pipes[pipe_cnt].pipe.src.immediate_flip = pln->flip_immediate;
pipes[pipe_cnt].pipe.src.is_hsplit = (res_ctx->pipe_ctx[i].bottom_pipe
&& res_ctx->pipe_ctx[i].bottom_pipe->plane_state == pln)
|| (res_ctx->pipe_ctx[i].top_pipe
&& res_ctx->pipe_ctx[i].top_pipe->plane_state == pln);
pipes[pipe_cnt].pipe.dest.odm_combine = (res_ctx->pipe_ctx[i].bottom_pipe
&& res_ctx->pipe_ctx[i].bottom_pipe->plane_state == pln
&& res_ctx->pipe_ctx[i].bottom_pipe->stream_res.opp
!= res_ctx->pipe_ctx[i].stream_res.opp)
|| (res_ctx->pipe_ctx[i].top_pipe
&& res_ctx->pipe_ctx[i].top_pipe->plane_state == pln
&& res_ctx->pipe_ctx[i].top_pipe->stream_res.opp
!= res_ctx->pipe_ctx[i].stream_res.opp);
pipes[pipe_cnt].pipe.src.source_scan = pln->rotation == ROTATION_ANGLE_90
|| pln->rotation == ROTATION_ANGLE_270 ? dm_vert : dm_horz;
pipes[pipe_cnt].pipe.src.viewport_y_y = scl->viewport.y;
pipes[pipe_cnt].pipe.src.viewport_y_c = scl->viewport_c.y;
pipes[pipe_cnt].pipe.src.viewport_width = scl->viewport.width;
pipes[pipe_cnt].pipe.src.viewport_width_c = scl->viewport_c.width;
pipes[pipe_cnt].pipe.src.viewport_height = scl->viewport.height;
pipes[pipe_cnt].pipe.src.viewport_height_c = scl->viewport_c.height;
if (pln->format >= SURFACE_PIXEL_FORMAT_VIDEO_BEGIN) {
pipes[pipe_cnt].pipe.src.data_pitch = pln->plane_size.video.luma_pitch;
pipes[pipe_cnt].pipe.src.data_pitch_c = pln->plane_size.video.chroma_pitch;
pipes[pipe_cnt].pipe.src.meta_pitch = pln->dcc.video.meta_pitch_l;
pipes[pipe_cnt].pipe.src.meta_pitch_c = pln->dcc.video.meta_pitch_c;
} else {
pipes[pipe_cnt].pipe.src.data_pitch = pln->plane_size.grph.surface_pitch;
pipes[pipe_cnt].pipe.src.meta_pitch = pln->dcc.grph.meta_pitch;
}
pipes[pipe_cnt].pipe.src.dcc = pln->dcc.enable;
pipes[pipe_cnt].pipe.dest.recout_width = scl->recout.width;
pipes[pipe_cnt].pipe.dest.recout_height = scl->recout.height;
pipes[pipe_cnt].pipe.dest.full_recout_width = scl->recout.width;
pipes[pipe_cnt].pipe.dest.full_recout_height = scl->recout.height;
if (res_ctx->pipe_ctx[i].bottom_pipe && res_ctx->pipe_ctx[i].bottom_pipe->plane_state == pln) {
pipes[pipe_cnt].pipe.dest.full_recout_width +=
res_ctx->pipe_ctx[i].bottom_pipe->plane_res.scl_data.recout.width;
pipes[pipe_cnt].pipe.dest.full_recout_height +=
res_ctx->pipe_ctx[i].bottom_pipe->plane_res.scl_data.recout.height;
} else if (res_ctx->pipe_ctx[i].top_pipe && res_ctx->pipe_ctx[i].top_pipe->plane_state == pln) {
pipes[pipe_cnt].pipe.dest.full_recout_width +=
res_ctx->pipe_ctx[i].top_pipe->plane_res.scl_data.recout.width;
pipes[pipe_cnt].pipe.dest.full_recout_height +=
res_ctx->pipe_ctx[i].top_pipe->plane_res.scl_data.recout.height;
}
pipes[pipe_cnt].pipe.scale_ratio_depth.lb_depth = dm_lb_16;
pipes[pipe_cnt].pipe.scale_ratio_depth.hscl_ratio = (double) scl->ratios.horz.value / (1ULL<<32);
pipes[pipe_cnt].pipe.scale_ratio_depth.hscl_ratio_c = (double) scl->ratios.horz_c.value / (1ULL<<32);
pipes[pipe_cnt].pipe.scale_ratio_depth.vscl_ratio = (double) scl->ratios.vert.value / (1ULL<<32);
pipes[pipe_cnt].pipe.scale_ratio_depth.vscl_ratio_c = (double) scl->ratios.vert_c.value / (1ULL<<32);
pipes[pipe_cnt].pipe.scale_ratio_depth.scl_enable =
scl->ratios.vert.value != dc_fixpt_one.value
|| scl->ratios.horz.value != dc_fixpt_one.value
|| scl->ratios.vert_c.value != dc_fixpt_one.value
|| scl->ratios.horz_c.value != dc_fixpt_one.value /*Lb only or Full scl*/
|| dc->debug.always_scale; /*support always scale*/
pipes[pipe_cnt].pipe.scale_taps.htaps = scl->taps.h_taps;
pipes[pipe_cnt].pipe.scale_taps.htaps_c = scl->taps.h_taps_c;
pipes[pipe_cnt].pipe.scale_taps.vtaps = scl->taps.v_taps;
pipes[pipe_cnt].pipe.scale_taps.vtaps_c = scl->taps.v_taps_c;
pipes[pipe_cnt].pipe.src.macro_tile_size =
swizzle_mode_to_macro_tile_size(pln->tiling_info.gfx9.swizzle);
swizzle_to_dml_params(pln->tiling_info.gfx9.swizzle,
&pipes[pipe_cnt].pipe.src.sw_mode);
switch (pln->format) {
case SURFACE_PIXEL_FORMAT_VIDEO_420_YCbCr:
case SURFACE_PIXEL_FORMAT_VIDEO_420_YCrCb:
pipes[pipe_cnt].pipe.src.source_format = dm_420_8;
break;
case SURFACE_PIXEL_FORMAT_VIDEO_420_10bpc_YCbCr:
case SURFACE_PIXEL_FORMAT_VIDEO_420_10bpc_YCrCb:
pipes[pipe_cnt].pipe.src.source_format = dm_420_10;
break;
case SURFACE_PIXEL_FORMAT_GRPH_ARGB16161616:
case SURFACE_PIXEL_FORMAT_GRPH_ARGB16161616F:
case SURFACE_PIXEL_FORMAT_GRPH_ABGR16161616F:
pipes[pipe_cnt].pipe.src.source_format = dm_444_64;
break;
case SURFACE_PIXEL_FORMAT_GRPH_ARGB1555:
case SURFACE_PIXEL_FORMAT_GRPH_RGB565:
pipes[pipe_cnt].pipe.src.source_format = dm_444_16;
break;
case SURFACE_PIXEL_FORMAT_GRPH_PALETA_256_COLORS:
pipes[pipe_cnt].pipe.src.source_format = dm_444_8;
break;
default:
pipes[pipe_cnt].pipe.src.source_format = dm_444_32;
break;
}
}
pipe_cnt++;
}
/* populate writeback information */
dc->res_pool->funcs->populate_dml_writeback_from_context(dc, res_ctx, pipes);
return pipe_cnt;
}
unsigned int dcn20_calc_max_scaled_time(
unsigned int time_per_pixel,
enum mmhubbub_wbif_mode mode,
unsigned int urgent_watermark)
{
unsigned int time_per_byte = 0;
unsigned int total_y_free_entry = 0x200; /* two memory piece for luma */
unsigned int total_c_free_entry = 0x140; /* two memory piece for chroma */
unsigned int small_free_entry, max_free_entry;
unsigned int buf_lh_capability;
unsigned int max_scaled_time;
if (mode == PACKED_444) /* packed mode */
time_per_byte = time_per_pixel/4;
else if (mode == PLANAR_420_8BPC)
time_per_byte = time_per_pixel;
else if (mode == PLANAR_420_10BPC) /* p010 */
time_per_byte = time_per_pixel * 819/1024;
if (time_per_byte == 0)
time_per_byte = 1;
small_free_entry = (total_y_free_entry > total_c_free_entry) ? total_c_free_entry : total_y_free_entry;
max_free_entry = (mode == PACKED_444) ? total_y_free_entry + total_c_free_entry : small_free_entry;
buf_lh_capability = max_free_entry*time_per_byte*32/16; /* there is 4bit fraction */
max_scaled_time = buf_lh_capability - urgent_watermark;
return max_scaled_time;
}
void dcn20_set_mcif_arb_params(
struct dc *dc,
struct dc_state *context,
display_e2e_pipe_params_st *pipes,
int pipe_cnt)
{
enum mmhubbub_wbif_mode wbif_mode;
struct mcif_arb_params *wb_arb_params;
int i, j, k, dwb_pipe;
/* Writeback MCIF_WB arbitration parameters */
dwb_pipe = 0;
for (i = 0; i < dc->res_pool->pipe_count; i++) {
if (!context->res_ctx.pipe_ctx[i].stream)
continue;
for (j = 0; j < MAX_DWB_PIPES; j++) {
if (context->res_ctx.pipe_ctx[i].stream->writeback_info[j].wb_enabled == false)
continue;
//wb_arb_params = &context->res_ctx.pipe_ctx[i].stream->writeback_info[j].mcif_arb_params;
wb_arb_params = &context->bw_ctx.bw.dcn.bw_writeback.mcif_wb_arb[dwb_pipe];
if (context->res_ctx.pipe_ctx[i].stream->writeback_info[j].dwb_params.out_format == dwb_scaler_mode_yuv420) {
if (context->res_ctx.pipe_ctx[i].stream->writeback_info[j].dwb_params.output_depth == DWB_OUTPUT_PIXEL_DEPTH_8BPC)
wbif_mode = PLANAR_420_8BPC;
else
wbif_mode = PLANAR_420_10BPC;
} else
wbif_mode = PACKED_444;
for (k = 0; k < sizeof(wb_arb_params->cli_watermark)/sizeof(wb_arb_params->cli_watermark[0]); k++) {
wb_arb_params->cli_watermark[k] = get_wm_writeback_urgent(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
wb_arb_params->pstate_watermark[k] = get_wm_writeback_dram_clock_change(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
}
wb_arb_params->time_per_pixel = 16.0 / context->res_ctx.pipe_ctx[i].stream->phy_pix_clk; /* 4 bit fraction, ms */
wb_arb_params->slice_lines = 32;
wb_arb_params->arbitration_slice = 2;
wb_arb_params->max_scaled_time = dcn20_calc_max_scaled_time(wb_arb_params->time_per_pixel,
wbif_mode,
wb_arb_params->cli_watermark[0]); /* assume 4 watermark sets have the same value */
dwb_pipe++;
if (dwb_pipe >= MAX_DWB_PIPES)
return;
}
if (dwb_pipe >= MAX_DWB_PIPES)
return;
}
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
static bool dcn20_validate_dsc(struct dc *dc, struct dc_state *new_ctx)
{
int i;
/* Validate DSC config, dsc count validation is already done */
for (i = 0; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe_ctx = &new_ctx->res_ctx.pipe_ctx[i];
struct dc_stream_state *stream = pipe_ctx->stream;
struct dsc_config dsc_cfg;
/* Only need to validate top pipe */
if (pipe_ctx->top_pipe || !stream || !stream->timing.flags.DSC)
continue;
dsc_cfg.pic_width = stream->timing.h_addressable + stream->timing.h_border_left
+ stream->timing.h_border_right;
dsc_cfg.pic_height = stream->timing.v_addressable + stream->timing.v_border_top
+ stream->timing.v_border_bottom;
if (dc_res_get_odm_bottom_pipe(pipe_ctx))
dsc_cfg.pic_width /= 2;
dsc_cfg.pixel_encoding = stream->timing.pixel_encoding;
dsc_cfg.color_depth = stream->timing.display_color_depth;
dsc_cfg.dc_dsc_cfg = stream->timing.dsc_cfg;
if (!pipe_ctx->stream_res.dsc->funcs->dsc_validate_stream(pipe_ctx->stream_res.dsc, &dsc_cfg))
return false;
}
return true;
}
#endif
bool dcn20_validate_bandwidth(struct dc *dc, struct dc_state *context,
bool fast_validate)
{
bool out = false;
BW_VAL_TRACE_SETUP();
int pipe_cnt, i, pipe_idx, vlevel, vlevel_unsplit;
int pipe_split_from[MAX_PIPES];
bool odm_capable = context->bw_ctx.dml.ip.odm_capable;
bool force_split = false;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
bool failed_non_odm_dsc = false;
#endif
int split_threshold = dc->res_pool->pipe_count / 2;
bool avoid_split = dc->debug.pipe_split_policy != MPC_SPLIT_DYNAMIC;
display_e2e_pipe_params_st *pipes = kzalloc(dc->res_pool->pipe_count * sizeof(display_e2e_pipe_params_st), GFP_KERNEL);
DC_LOGGER_INIT(dc->ctx->logger);
BW_VAL_TRACE_COUNT();
ASSERT(pipes);
if (!pipes)
return false;
for (i = 0; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe = &context->res_ctx.pipe_ctx[i];
struct pipe_ctx *hsplit_pipe = pipe->bottom_pipe;
if (!hsplit_pipe || hsplit_pipe->plane_state != pipe->plane_state)
continue;
/* merge previously split pipe since mode support needs to make the decision */
pipe->bottom_pipe = hsplit_pipe->bottom_pipe;
if (hsplit_pipe->bottom_pipe)
hsplit_pipe->bottom_pipe->top_pipe = pipe;
hsplit_pipe->plane_state = NULL;
hsplit_pipe->stream = NULL;
hsplit_pipe->top_pipe = NULL;
hsplit_pipe->bottom_pipe = NULL;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
if (hsplit_pipe->stream_res.dsc && hsplit_pipe->stream_res.dsc != pipe->stream_res.dsc)
release_dsc(&context->res_ctx, dc->res_pool, &hsplit_pipe->stream_res.dsc);
#endif
/* Clear plane_res and stream_res */
memset(&hsplit_pipe->plane_res, 0, sizeof(hsplit_pipe->plane_res));
memset(&hsplit_pipe->stream_res, 0, sizeof(hsplit_pipe->stream_res));
if (pipe->plane_state)
resource_build_scaling_params(pipe);
}
if (dc->res_pool->funcs->populate_dml_pipes)
pipe_cnt = dc->res_pool->funcs->populate_dml_pipes(dc,
&context->res_ctx, pipes);
else
pipe_cnt = dcn20_populate_dml_pipes_from_context(dc,
&context->res_ctx, pipes);
if (!pipe_cnt) {
BW_VAL_TRACE_SKIP(pass);
out = true;
goto validate_out;
}
context->bw_ctx.dml.ip.odm_capable = 0;
vlevel = dml_get_voltage_level(&context->bw_ctx.dml, pipes, pipe_cnt);
context->bw_ctx.dml.ip.odm_capable = odm_capable;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
/* 1 dsc per stream dsc validation */
if (vlevel <= context->bw_ctx.dml.soc.num_states)
if (!dcn20_validate_dsc(dc, context)) {
failed_non_odm_dsc = true;
vlevel = context->bw_ctx.dml.soc.num_states + 1;
}
#endif
if (vlevel > context->bw_ctx.dml.soc.num_states && odm_capable)
vlevel = dml_get_voltage_level(&context->bw_ctx.dml, pipes, pipe_cnt);
if (vlevel > context->bw_ctx.dml.soc.num_states)
goto validate_fail;
if ((context->stream_count > split_threshold && dc->current_state->stream_count <= split_threshold)
|| (context->stream_count <= split_threshold && dc->current_state->stream_count > split_threshold))
context->commit_hints.full_update_needed = true;
/*initialize pipe_just_split_from to invalid idx*/
for (i = 0; i < MAX_PIPES; i++)
pipe_split_from[i] = -1;
/* Single display only conditionals get set here */
for (i = 0; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe = &context->res_ctx.pipe_ctx[i];
bool exit_loop = false;
if (!pipe->stream || pipe->top_pipe)
continue;
if (dc->debug.force_single_disp_pipe_split) {
if (!force_split)
force_split = true;
else {
force_split = false;
exit_loop = true;
}
}
if (dc->debug.pipe_split_policy == MPC_SPLIT_AVOID_MULT_DISP) {
if (avoid_split)
avoid_split = false;
else {
avoid_split = true;
exit_loop = true;
}
}
if (exit_loop)
break;
}
if (context->stream_count > split_threshold)
avoid_split = true;
vlevel_unsplit = vlevel;
for (i = 0, pipe_idx = 0; i < dc->res_pool->pipe_count; i++) {
if (!context->res_ctx.pipe_ctx[i].stream)
continue;
for (; vlevel_unsplit <= context->bw_ctx.dml.soc.num_states; vlevel_unsplit++)
if (context->bw_ctx.dml.vba.NoOfDPP[vlevel_unsplit][0][pipe_idx] == 1)
break;
pipe_idx++;
}
for (i = 0, pipe_idx = -1; i < dc->res_pool->pipe_count; i++) {
struct pipe_ctx *pipe = &context->res_ctx.pipe_ctx[i];
struct pipe_ctx *hsplit_pipe = pipe->bottom_pipe;
bool need_split = true;
bool need_split3d;
if (!pipe->stream || pipe_split_from[i] >= 0)
continue;
pipe_idx++;
if (dc->debug.force_odm_combine & (1 << pipe->stream_res.tg->inst)) {
force_split = true;
context->bw_ctx.dml.vba.ODMCombineEnabled[pipe_idx] = true;
context->bw_ctx.dml.vba.ODMCombineEnablePerState[vlevel][pipe_idx] = true;
}
if (force_split && context->bw_ctx.dml.vba.NoOfDPP[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_idx] == 1)
context->bw_ctx.dml.vba.RequiredDPPCLK[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_idx] /= 2;
if (dc->config.forced_clocks == true) {
context->bw_ctx.dml.vba.RequiredDPPCLK[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_idx] =
context->bw_ctx.dml.soc.clock_limits[0].dppclk_mhz;
}
if (!pipe->top_pipe && !pipe->plane_state && context->bw_ctx.dml.vba.ODMCombineEnabled[pipe_idx]) {
hsplit_pipe = find_idle_secondary_pipe(&context->res_ctx, dc->res_pool, pipe);
ASSERT(hsplit_pipe);
if (!dcn20_split_stream_for_combine(
&context->res_ctx, dc->res_pool,
pipe, hsplit_pipe,
true))
goto validate_fail;
pipe_split_from[hsplit_pipe->pipe_idx] = pipe_idx;
dcn20_build_mapped_resource(dc, context, pipe->stream);
}
if (!pipe->plane_state)
continue;
/* Skip 2nd half of already split pipe */
if (pipe->top_pipe && pipe->plane_state == pipe->top_pipe->plane_state)
continue;
need_split3d = ((pipe->stream->view_format ==
VIEW_3D_FORMAT_SIDE_BY_SIDE ||
pipe->stream->view_format ==
VIEW_3D_FORMAT_TOP_AND_BOTTOM) &&
(pipe->stream->timing.timing_3d_format ==
TIMING_3D_FORMAT_TOP_AND_BOTTOM ||
pipe->stream->timing.timing_3d_format ==
TIMING_3D_FORMAT_SIDE_BY_SIDE));
if (avoid_split && vlevel_unsplit <= context->bw_ctx.dml.soc.num_states && !force_split && !need_split3d) {
need_split = false;
vlevel = vlevel_unsplit;
context->bw_ctx.dml.vba.maxMpcComb = 0;
} else
need_split = context->bw_ctx.dml.vba.NoOfDPP[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_idx] == 2;
/* We do not support mpo + odm at the moment */
if (hsplit_pipe && hsplit_pipe->plane_state != pipe->plane_state
&& context->bw_ctx.dml.vba.ODMCombineEnabled[pipe_idx])
goto validate_fail;
if (need_split3d || need_split || force_split) {
if (!hsplit_pipe || hsplit_pipe->plane_state != pipe->plane_state) {
/* pipe not split previously needs split */
hsplit_pipe = find_idle_secondary_pipe(&context->res_ctx, dc->res_pool, pipe);
ASSERT(hsplit_pipe || force_split);
if (!hsplit_pipe)
continue;
if (!dcn20_split_stream_for_combine(
&context->res_ctx, dc->res_pool,
pipe, hsplit_pipe,
context->bw_ctx.dml.vba.ODMCombineEnabled[pipe_idx]))
goto validate_fail;
pipe_split_from[hsplit_pipe->pipe_idx] = pipe_idx;
}
} else if (hsplit_pipe && hsplit_pipe->plane_state == pipe->plane_state) {
/* merge should already have been done */
ASSERT(0);
}
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
/* Actual dsc count per stream dsc validation*/
if (failed_non_odm_dsc && !dcn20_validate_dsc(dc, context)) {
context->bw_ctx.dml.vba.ValidationStatus[context->bw_ctx.dml.vba.soc.num_states] =
DML_FAIL_DSC_VALIDATION_FAILURE;
goto validate_fail;
}
#endif
BW_VAL_TRACE_END_VOLTAGE_LEVEL();
if (fast_validate) {
BW_VAL_TRACE_SKIP(fast);
out = true;
goto validate_out;
}
for (i = 0, pipe_idx = 0, pipe_cnt = 0; i < dc->res_pool->pipe_count; i++) {
if (!context->res_ctx.pipe_ctx[i].stream)
continue;
pipes[pipe_cnt].clks_cfg.refclk_mhz = dc->res_pool->ref_clocks.dchub_ref_clock_inKhz / 1000.0;
pipes[pipe_cnt].clks_cfg.dispclk_mhz = context->bw_ctx.dml.vba.RequiredDISPCLK[vlevel][context->bw_ctx.dml.vba.maxMpcComb];
if (pipe_split_from[i] < 0) {
pipes[pipe_cnt].clks_cfg.dppclk_mhz =
context->bw_ctx.dml.vba.RequiredDPPCLK[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_idx];
if (context->bw_ctx.dml.vba.BlendingAndTiming[pipe_idx] == pipe_idx)
pipes[pipe_cnt].pipe.dest.odm_combine =
context->bw_ctx.dml.vba.ODMCombineEnablePerState[vlevel][pipe_idx];
else
pipes[pipe_cnt].pipe.dest.odm_combine = 0;
pipe_idx++;
} else {
pipes[pipe_cnt].clks_cfg.dppclk_mhz =
context->bw_ctx.dml.vba.RequiredDPPCLK[vlevel][context->bw_ctx.dml.vba.maxMpcComb][pipe_split_from[i]];
if (context->bw_ctx.dml.vba.BlendingAndTiming[pipe_split_from[i]] == pipe_split_from[i])
pipes[pipe_cnt].pipe.dest.odm_combine =
context->bw_ctx.dml.vba.ODMCombineEnablePerState[vlevel][pipe_split_from[i]];
else
pipes[pipe_cnt].pipe.dest.odm_combine = 0;
}
if (dc->config.forced_clocks) {
pipes[pipe_cnt].clks_cfg.dispclk_mhz = context->bw_ctx.dml.soc.clock_limits[0].dispclk_mhz;
pipes[pipe_cnt].clks_cfg.dppclk_mhz = context->bw_ctx.dml.soc.clock_limits[0].dppclk_mhz;
}
pipe_cnt++;
}
if (pipe_cnt != pipe_idx) {
if (dc->res_pool->funcs->populate_dml_pipes)
pipe_cnt = dc->res_pool->funcs->populate_dml_pipes(dc,
&context->res_ctx, pipes);
else
pipe_cnt = dcn20_populate_dml_pipes_from_context(dc,
&context->res_ctx, pipes);
}
pipes[0].clks_cfg.voltage = vlevel;
pipes[0].clks_cfg.dcfclk_mhz = context->bw_ctx.dml.soc.clock_limits[vlevel].dcfclk_mhz;
pipes[0].clks_cfg.socclk_mhz = context->bw_ctx.dml.soc.clock_limits[vlevel].socclk_mhz;
/* only pipe 0 is read for voltage and dcf/soc clocks */
if (vlevel < 1) {
pipes[0].clks_cfg.voltage = 1;
pipes[0].clks_cfg.dcfclk_mhz = context->bw_ctx.dml.soc.clock_limits[1].dcfclk_mhz;
pipes[0].clks_cfg.socclk_mhz = context->bw_ctx.dml.soc.clock_limits[1].socclk_mhz;
}
context->bw_ctx.bw.dcn.watermarks.b.urgent_ns = get_wm_urgent(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.b.cstate_pstate.cstate_enter_plus_exit_ns = get_wm_stutter_enter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.b.cstate_pstate.cstate_exit_ns = get_wm_stutter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.b.cstate_pstate.pstate_change_ns = get_wm_dram_clock_change(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.b.pte_meta_urgent_ns = get_wm_memory_trip(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
if (vlevel < 2) {
pipes[0].clks_cfg.voltage = 2;
pipes[0].clks_cfg.dcfclk_mhz = context->bw_ctx.dml.soc.clock_limits[2].dcfclk_mhz;
pipes[0].clks_cfg.socclk_mhz = context->bw_ctx.dml.soc.clock_limits[2].socclk_mhz;
}
context->bw_ctx.bw.dcn.watermarks.c.urgent_ns = get_wm_urgent(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.c.cstate_pstate.cstate_enter_plus_exit_ns = get_wm_stutter_enter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.c.cstate_pstate.cstate_exit_ns = get_wm_stutter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.c.cstate_pstate.pstate_change_ns = get_wm_dram_clock_change(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.c.pte_meta_urgent_ns = get_wm_memory_trip(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
if (vlevel < 3) {
pipes[0].clks_cfg.voltage = 3;
pipes[0].clks_cfg.dcfclk_mhz = context->bw_ctx.dml.soc.clock_limits[2].dcfclk_mhz;
pipes[0].clks_cfg.socclk_mhz = context->bw_ctx.dml.soc.clock_limits[2].socclk_mhz;
}
context->bw_ctx.bw.dcn.watermarks.d.urgent_ns = get_wm_urgent(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.d.cstate_pstate.cstate_enter_plus_exit_ns = get_wm_stutter_enter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.d.cstate_pstate.cstate_exit_ns = get_wm_stutter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.d.cstate_pstate.pstate_change_ns = get_wm_dram_clock_change(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.d.pte_meta_urgent_ns = get_wm_memory_trip(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
pipes[0].clks_cfg.voltage = vlevel;
pipes[0].clks_cfg.dcfclk_mhz = context->bw_ctx.dml.soc.clock_limits[vlevel].dcfclk_mhz;
pipes[0].clks_cfg.socclk_mhz = context->bw_ctx.dml.soc.clock_limits[vlevel].socclk_mhz;
context->bw_ctx.bw.dcn.watermarks.a.urgent_ns = get_wm_urgent(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.a.cstate_pstate.cstate_enter_plus_exit_ns = get_wm_stutter_enter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.a.cstate_pstate.cstate_exit_ns = get_wm_stutter_exit(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.a.cstate_pstate.pstate_change_ns = get_wm_dram_clock_change(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
context->bw_ctx.bw.dcn.watermarks.a.pte_meta_urgent_ns = get_wm_memory_trip(&context->bw_ctx.dml, pipes, pipe_cnt) * 1000;
/* Writeback MCIF_WB arbitration parameters */
dc->res_pool->funcs->set_mcif_arb_params(dc, context, pipes, pipe_cnt);
context->bw_ctx.bw.dcn.clk.dispclk_khz = context->bw_ctx.dml.vba.DISPCLK * 1000;
context->bw_ctx.bw.dcn.clk.dcfclk_khz = context->bw_ctx.dml.vba.DCFCLK * 1000;
context->bw_ctx.bw.dcn.clk.socclk_khz = context->bw_ctx.dml.vba.SOCCLK * 1000;
context->bw_ctx.bw.dcn.clk.dramclk_khz = context->bw_ctx.dml.vba.DRAMSpeed * 1000 / 16;
context->bw_ctx.bw.dcn.clk.dcfclk_deep_sleep_khz = context->bw_ctx.dml.vba.DCFCLKDeepSleep * 1000;
context->bw_ctx.bw.dcn.clk.fclk_khz = context->bw_ctx.dml.vba.FabricClock * 1000;
context->bw_ctx.bw.dcn.clk.p_state_change_support =
context->bw_ctx.dml.vba.DRAMClockChangeSupport[vlevel][context->bw_ctx.dml.vba.maxMpcComb]
!= dm_dram_clock_change_unsupported;
context->bw_ctx.bw.dcn.clk.dppclk_khz = 0;
BW_VAL_TRACE_END_WATERMARKS();
for (i = 0, pipe_idx = 0; i < dc->res_pool->pipe_count; i++) {
if (!context->res_ctx.pipe_ctx[i].stream)
continue;
pipes[pipe_idx].pipe.dest.vstartup_start = context->bw_ctx.dml.vba.VStartup[pipe_idx];
pipes[pipe_idx].pipe.dest.vupdate_offset = context->bw_ctx.dml.vba.VUpdateOffsetPix[pipe_idx];
pipes[pipe_idx].pipe.dest.vupdate_width = context->bw_ctx.dml.vba.VUpdateWidthPix[pipe_idx];
pipes[pipe_idx].pipe.dest.vready_offset = context->bw_ctx.dml.vba.VReadyOffsetPix[pipe_idx];
if (context->bw_ctx.bw.dcn.clk.dppclk_khz < pipes[pipe_idx].clks_cfg.dppclk_mhz * 1000)
context->bw_ctx.bw.dcn.clk.dppclk_khz = pipes[pipe_idx].clks_cfg.dppclk_mhz * 1000;
context->res_ctx.pipe_ctx[i].plane_res.bw.dppclk_khz =
pipes[pipe_idx].clks_cfg.dppclk_mhz * 1000;
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
context->res_ctx.pipe_ctx[i].stream_res.dscclk_khz =
context->bw_ctx.dml.vba.DSCCLK_calculated[pipe_idx] * 1000;
#endif
context->res_ctx.pipe_ctx[i].pipe_dlg_param = pipes[pipe_idx].pipe.dest;
pipe_idx++;
}
for (i = 0, pipe_idx = 0; i < dc->res_pool->pipe_count; i++) {
bool cstate_en = context->bw_ctx.dml.vba.PrefetchMode[vlevel][context->bw_ctx.dml.vba.maxMpcComb] != 2;
if (!context->res_ctx.pipe_ctx[i].stream)
continue;
context->bw_ctx.dml.funcs.rq_dlg_get_dlg_reg(&context->bw_ctx.dml,
&context->res_ctx.pipe_ctx[i].dlg_regs,
&context->res_ctx.pipe_ctx[i].ttu_regs,
pipes,
pipe_cnt,
pipe_idx,
cstate_en,
context->bw_ctx.bw.dcn.clk.p_state_change_support,
false, false, false);
context->bw_ctx.dml.funcs.rq_dlg_get_rq_reg(&context->bw_ctx.dml,
&context->res_ctx.pipe_ctx[i].rq_regs,
pipes[pipe_idx].pipe);
pipe_idx++;
}
out = true;
goto validate_out;
validate_fail:
DC_LOG_WARNING("Mode Validation Warning: %s failed validation.\n",
dml_get_status_message(context->bw_ctx.dml.vba.ValidationStatus[context->bw_ctx.dml.vba.soc.num_states]));
BW_VAL_TRACE_SKIP(fail);
out = false;
validate_out:
kfree(pipes);
BW_VAL_TRACE_FINISH();
return out;
}
struct pipe_ctx *dcn20_acquire_idle_pipe_for_layer(
struct dc_state *state,
const struct resource_pool *pool,
struct dc_stream_state *stream)
{
struct resource_context *res_ctx = &state->res_ctx;
struct pipe_ctx *head_pipe = resource_get_head_pipe_for_stream(res_ctx, stream);
struct pipe_ctx *idle_pipe = find_idle_secondary_pipe(res_ctx, pool, head_pipe);
if (!head_pipe)
ASSERT(0);
if (!idle_pipe)
return NULL;
idle_pipe->stream = head_pipe->stream;
idle_pipe->stream_res.tg = head_pipe->stream_res.tg;
idle_pipe->stream_res.opp = head_pipe->stream_res.opp;
idle_pipe->plane_res.hubp = pool->hubps[idle_pipe->pipe_idx];
idle_pipe->plane_res.ipp = pool->ipps[idle_pipe->pipe_idx];
idle_pipe->plane_res.dpp = pool->dpps[idle_pipe->pipe_idx];
idle_pipe->plane_res.mpcc_inst = pool->dpps[idle_pipe->pipe_idx]->inst;
return idle_pipe;
}
bool dcn20_get_dcc_compression_cap(const struct dc *dc,
const struct dc_dcc_surface_param *input,
struct dc_surface_dcc_cap *output)
{
return dc->res_pool->hubbub->funcs->get_dcc_compression_cap(
dc->res_pool->hubbub,
input,
output);
}
static void dcn20_destroy_resource_pool(struct resource_pool **pool)
{
struct dcn20_resource_pool *dcn20_pool = TO_DCN20_RES_POOL(*pool);
destruct(dcn20_pool);
kfree(dcn20_pool);
*pool = NULL;
}
static struct dc_cap_funcs cap_funcs = {
.get_dcc_compression_cap = dcn20_get_dcc_compression_cap
};
enum dc_status dcn20_get_default_swizzle_mode(struct dc_plane_state *plane_state)
{
enum dc_status result = DC_OK;
enum surface_pixel_format surf_pix_format = plane_state->format;
unsigned int bpp = resource_pixel_format_to_bpp(surf_pix_format);
enum swizzle_mode_values swizzle = DC_SW_LINEAR;
if (bpp == 64)
swizzle = DC_SW_64KB_D;
else
swizzle = DC_SW_64KB_S;
plane_state->tiling_info.gfx9.swizzle = swizzle;
return result;
}
static struct resource_funcs dcn20_res_pool_funcs = {
.destroy = dcn20_destroy_resource_pool,
.link_enc_create = dcn20_link_encoder_create,
.validate_bandwidth = dcn20_validate_bandwidth,
.acquire_idle_pipe_for_layer = dcn20_acquire_idle_pipe_for_layer,
.add_stream_to_ctx = dcn20_add_stream_to_ctx,
.remove_stream_from_ctx = dcn20_remove_stream_from_ctx,
.populate_dml_writeback_from_context = dcn20_populate_dml_writeback_from_context,
.get_default_swizzle_mode = dcn20_get_default_swizzle_mode,
.set_mcif_arb_params = dcn20_set_mcif_arb_params,
.find_first_free_match_stream_enc_for_link = dcn10_find_first_free_match_stream_enc_for_link
};
bool dcn20_dwbc_create(struct dc_context *ctx, struct resource_pool *pool)
{
int i;
uint32_t pipe_count = pool->res_cap->num_dwb;
ASSERT(pipe_count > 0);
for (i = 0; i < pipe_count; i++) {
struct dcn20_dwbc *dwbc20 = kzalloc(sizeof(struct dcn20_dwbc),
GFP_KERNEL);
if (!dwbc20) {
dm_error("DC: failed to create dwbc20!\n");
return false;
}
dcn20_dwbc_construct(dwbc20, ctx,
&dwbc20_regs[i],
&dwbc20_shift,
&dwbc20_mask,
i);
pool->dwbc[i] = &dwbc20->base;
}
return true;
}
bool dcn20_mmhubbub_create(struct dc_context *ctx, struct resource_pool *pool)
{
int i;
uint32_t pipe_count = pool->res_cap->num_dwb;
ASSERT(pipe_count > 0);
for (i = 0; i < pipe_count; i++) {
struct dcn20_mmhubbub *mcif_wb20 = kzalloc(sizeof(struct dcn20_mmhubbub),
GFP_KERNEL);
if (!mcif_wb20) {
dm_error("DC: failed to create mcif_wb20!\n");
return false;
}
dcn20_mmhubbub_construct(mcif_wb20, ctx,
&mcif_wb20_regs[i],
&mcif_wb20_shift,
&mcif_wb20_mask,
i);
pool->mcif_wb[i] = &mcif_wb20->base;
}
return true;
}
struct pp_smu_funcs *dcn20_pp_smu_create(struct dc_context *ctx)
{
struct pp_smu_funcs *pp_smu = kzalloc(sizeof(*pp_smu), GFP_KERNEL);
if (!pp_smu)
return pp_smu;
dm_pp_get_funcs(ctx, pp_smu);
if (pp_smu->ctx.ver != PP_SMU_VER_NV)
pp_smu = memset(pp_smu, 0, sizeof(struct pp_smu_funcs));
return pp_smu;
}
void dcn20_pp_smu_destroy(struct pp_smu_funcs **pp_smu)
{
if (pp_smu && *pp_smu) {
kfree(*pp_smu);
*pp_smu = NULL;
}
}
static void cap_soc_clocks(
struct _vcs_dpi_soc_bounding_box_st *bb,
struct pp_smu_nv_clock_table max_clocks)
{
int i;
// First pass - cap all clocks higher than the reported max
for (i = 0; i < bb->num_states; i++) {
if ((bb->clock_limits[i].dcfclk_mhz > (max_clocks.dcfClockInKhz / 1000))
&& max_clocks.dcfClockInKhz != 0)
bb->clock_limits[i].dcfclk_mhz = (max_clocks.dcfClockInKhz / 1000);
if ((bb->clock_limits[i].dram_speed_mts > (max_clocks.uClockInKhz / 1000) * 16)
&& max_clocks.uClockInKhz != 0)
bb->clock_limits[i].dram_speed_mts = (max_clocks.uClockInKhz / 1000) * 16;
// HACK: Force every uclk to max for now to "disable" uclk switching.
bb->clock_limits[i].dram_speed_mts = (max_clocks.uClockInKhz / 1000) * 16;
if ((bb->clock_limits[i].fabricclk_mhz > (max_clocks.fabricClockInKhz / 1000))
&& max_clocks.fabricClockInKhz != 0)
bb->clock_limits[i].fabricclk_mhz = (max_clocks.fabricClockInKhz / 1000);
if ((bb->clock_limits[i].dispclk_mhz > (max_clocks.displayClockInKhz / 1000))
&& max_clocks.displayClockInKhz != 0)
bb->clock_limits[i].dispclk_mhz = (max_clocks.displayClockInKhz / 1000);
if ((bb->clock_limits[i].dppclk_mhz > (max_clocks.dppClockInKhz / 1000))
&& max_clocks.dppClockInKhz != 0)
bb->clock_limits[i].dppclk_mhz = (max_clocks.dppClockInKhz / 1000);
if ((bb->clock_limits[i].phyclk_mhz > (max_clocks.phyClockInKhz / 1000))
&& max_clocks.phyClockInKhz != 0)
bb->clock_limits[i].phyclk_mhz = (max_clocks.phyClockInKhz / 1000);
if ((bb->clock_limits[i].socclk_mhz > (max_clocks.socClockInKhz / 1000))
&& max_clocks.socClockInKhz != 0)
bb->clock_limits[i].socclk_mhz = (max_clocks.socClockInKhz / 1000);
if ((bb->clock_limits[i].dscclk_mhz > (max_clocks.dscClockInKhz / 1000))
&& max_clocks.dscClockInKhz != 0)
bb->clock_limits[i].dscclk_mhz = (max_clocks.dscClockInKhz / 1000);
}
// Second pass - remove all duplicate clock states
for (i = bb->num_states - 1; i > 1; i--) {
bool duplicate = true;
if (bb->clock_limits[i-1].dcfclk_mhz != bb->clock_limits[i].dcfclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].dispclk_mhz != bb->clock_limits[i].dispclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].dppclk_mhz != bb->clock_limits[i].dppclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].dram_speed_mts != bb->clock_limits[i].dram_speed_mts)
duplicate = false;
if (bb->clock_limits[i-1].dscclk_mhz != bb->clock_limits[i].dscclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].fabricclk_mhz != bb->clock_limits[i].fabricclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].phyclk_mhz != bb->clock_limits[i].phyclk_mhz)
duplicate = false;
if (bb->clock_limits[i-1].socclk_mhz != bb->clock_limits[i].socclk_mhz)
duplicate = false;
if (duplicate)
bb->num_states--;
}
}
static void update_bounding_box(struct dc *dc, struct _vcs_dpi_soc_bounding_box_st *bb,
struct pp_smu_nv_clock_table *max_clocks, unsigned int *uclk_states, unsigned int num_states)
{
struct _vcs_dpi_voltage_scaling_st calculated_states[MAX_CLOCK_LIMIT_STATES] = {0};
int i;
int num_calculated_states = 0;
int min_dcfclk = 0;
if (num_states == 0)
return;
if (dc->bb_overrides.min_dcfclk_mhz > 0)
min_dcfclk = dc->bb_overrides.min_dcfclk_mhz;
else
// Accounting for SOC/DCF relationship, we can go as high as
// 506Mhz in Vmin. We need to code 507 since SMU will round down to 506.
min_dcfclk = 507;
for (i = 0; i < num_states; i++) {
int min_fclk_required_by_uclk;
calculated_states[i].state = i;
calculated_states[i].dram_speed_mts = uclk_states[i] * 16 / 1000;
// FCLK:UCLK ratio is 1.08
min_fclk_required_by_uclk = mul_u64_u32_shr(BIT_ULL(32) * 1080 / 1000000, uclk_states[i], 32);
calculated_states[i].fabricclk_mhz = (min_fclk_required_by_uclk < min_dcfclk) ?
min_dcfclk : min_fclk_required_by_uclk;
calculated_states[i].socclk_mhz = (calculated_states[i].fabricclk_mhz > max_clocks->socClockInKhz / 1000) ?
max_clocks->socClockInKhz / 1000 : calculated_states[i].fabricclk_mhz;
calculated_states[i].dcfclk_mhz = (calculated_states[i].fabricclk_mhz > max_clocks->dcfClockInKhz / 1000) ?
max_clocks->dcfClockInKhz / 1000 : calculated_states[i].fabricclk_mhz;
calculated_states[i].dispclk_mhz = max_clocks->displayClockInKhz / 1000;
calculated_states[i].dppclk_mhz = max_clocks->displayClockInKhz / 1000;
calculated_states[i].dscclk_mhz = max_clocks->displayClockInKhz / (1000 * 3);
calculated_states[i].phyclk_mhz = max_clocks->phyClockInKhz / 1000;
num_calculated_states++;
}
memcpy(bb->clock_limits, calculated_states, sizeof(bb->clock_limits));
bb->num_states = num_calculated_states;
// Duplicate the last state, DML always an extra state identical to max state to work
memcpy(&bb->clock_limits[num_calculated_states], &bb->clock_limits[num_calculated_states - 1], sizeof(struct _vcs_dpi_voltage_scaling_st));
bb->clock_limits[num_calculated_states].state = bb->num_states;
}
static void patch_bounding_box(struct dc *dc, struct _vcs_dpi_soc_bounding_box_st *bb)
{
kernel_fpu_begin();
if ((int)(bb->sr_exit_time_us * 1000) != dc->bb_overrides.sr_exit_time_ns
&& dc->bb_overrides.sr_exit_time_ns) {
bb->sr_exit_time_us = dc->bb_overrides.sr_exit_time_ns / 1000.0;
}
if ((int)(bb->sr_enter_plus_exit_time_us * 1000)
!= dc->bb_overrides.sr_enter_plus_exit_time_ns
&& dc->bb_overrides.sr_enter_plus_exit_time_ns) {
bb->sr_enter_plus_exit_time_us =
dc->bb_overrides.sr_enter_plus_exit_time_ns / 1000.0;
}
if ((int)(bb->urgent_latency_us * 1000) != dc->bb_overrides.urgent_latency_ns
&& dc->bb_overrides.urgent_latency_ns) {
bb->urgent_latency_us = dc->bb_overrides.urgent_latency_ns / 1000.0;
}
if ((int)(bb->dram_clock_change_latency_us * 1000)
!= dc->bb_overrides.dram_clock_change_latency_ns
&& dc->bb_overrides.dram_clock_change_latency_ns) {
bb->dram_clock_change_latency_us =
dc->bb_overrides.dram_clock_change_latency_ns / 1000.0;
}
kernel_fpu_end();
}
#define fixed16_to_double(x) (((double) x) / ((double) (1 << 16)))
#define fixed16_to_double_to_cpu(x) fixed16_to_double(le32_to_cpu(x))
static bool init_soc_bounding_box(struct dc *dc,
struct dcn20_resource_pool *pool)
{
const struct gpu_info_soc_bounding_box_v1_0 *bb = dc->soc_bounding_box;
DC_LOGGER_INIT(dc->ctx->logger);
if (!bb && !SOC_BOUNDING_BOX_VALID) {
DC_LOG_ERROR("%s: not valid soc bounding box/n", __func__);
return false;
}
if (bb && !SOC_BOUNDING_BOX_VALID) {
int i;
dcn2_0_soc.sr_exit_time_us =
fixed16_to_double_to_cpu(bb->sr_exit_time_us);
dcn2_0_soc.sr_enter_plus_exit_time_us =
fixed16_to_double_to_cpu(bb->sr_enter_plus_exit_time_us);
dcn2_0_soc.urgent_latency_us =
fixed16_to_double_to_cpu(bb->urgent_latency_us);
dcn2_0_soc.urgent_latency_pixel_data_only_us =
fixed16_to_double_to_cpu(bb->urgent_latency_pixel_data_only_us);
dcn2_0_soc.urgent_latency_pixel_mixed_with_vm_data_us =
fixed16_to_double_to_cpu(bb->urgent_latency_pixel_mixed_with_vm_data_us);
dcn2_0_soc.urgent_latency_vm_data_only_us =
fixed16_to_double_to_cpu(bb->urgent_latency_vm_data_only_us);
dcn2_0_soc.urgent_out_of_order_return_per_channel_pixel_only_bytes =
le32_to_cpu(bb->urgent_out_of_order_return_per_channel_pixel_only_bytes);
dcn2_0_soc.urgent_out_of_order_return_per_channel_pixel_and_vm_bytes =
le32_to_cpu(bb->urgent_out_of_order_return_per_channel_pixel_and_vm_bytes);
dcn2_0_soc.urgent_out_of_order_return_per_channel_vm_only_bytes =
le32_to_cpu(bb->urgent_out_of_order_return_per_channel_vm_only_bytes);
dcn2_0_soc.pct_ideal_dram_sdp_bw_after_urgent_pixel_only =
fixed16_to_double_to_cpu(bb->pct_ideal_dram_sdp_bw_after_urgent_pixel_only);
dcn2_0_soc.pct_ideal_dram_sdp_bw_after_urgent_pixel_and_vm =
fixed16_to_double_to_cpu(bb->pct_ideal_dram_sdp_bw_after_urgent_pixel_and_vm);
dcn2_0_soc.pct_ideal_dram_sdp_bw_after_urgent_vm_only =
fixed16_to_double_to_cpu(bb->pct_ideal_dram_sdp_bw_after_urgent_vm_only);
dcn2_0_soc.max_avg_sdp_bw_use_normal_percent =
fixed16_to_double_to_cpu(bb->max_avg_sdp_bw_use_normal_percent);
dcn2_0_soc.max_avg_dram_bw_use_normal_percent =
fixed16_to_double_to_cpu(bb->max_avg_dram_bw_use_normal_percent);
dcn2_0_soc.writeback_latency_us =
fixed16_to_double_to_cpu(bb->writeback_latency_us);
dcn2_0_soc.ideal_dram_bw_after_urgent_percent =
fixed16_to_double_to_cpu(bb->ideal_dram_bw_after_urgent_percent);
dcn2_0_soc.max_request_size_bytes =
le32_to_cpu(bb->max_request_size_bytes);
dcn2_0_soc.dram_channel_width_bytes =
le32_to_cpu(bb->dram_channel_width_bytes);
dcn2_0_soc.fabric_datapath_to_dcn_data_return_bytes =
le32_to_cpu(bb->fabric_datapath_to_dcn_data_return_bytes);
dcn2_0_soc.dcn_downspread_percent =
fixed16_to_double_to_cpu(bb->dcn_downspread_percent);
dcn2_0_soc.downspread_percent =
fixed16_to_double_to_cpu(bb->downspread_percent);
dcn2_0_soc.dram_page_open_time_ns =
fixed16_to_double_to_cpu(bb->dram_page_open_time_ns);
dcn2_0_soc.dram_rw_turnaround_time_ns =
fixed16_to_double_to_cpu(bb->dram_rw_turnaround_time_ns);
dcn2_0_soc.dram_return_buffer_per_channel_bytes =
le32_to_cpu(bb->dram_return_buffer_per_channel_bytes);
dcn2_0_soc.round_trip_ping_latency_dcfclk_cycles =
le32_to_cpu(bb->round_trip_ping_latency_dcfclk_cycles);
dcn2_0_soc.urgent_out_of_order_return_per_channel_bytes =
le32_to_cpu(bb->urgent_out_of_order_return_per_channel_bytes);
dcn2_0_soc.channel_interleave_bytes =
le32_to_cpu(bb->channel_interleave_bytes);
dcn2_0_soc.num_banks =
le32_to_cpu(bb->num_banks);
dcn2_0_soc.num_chans =
le32_to_cpu(bb->num_chans);
dcn2_0_soc.vmm_page_size_bytes =
le32_to_cpu(bb->vmm_page_size_bytes);
dcn2_0_soc.dram_clock_change_latency_us =
fixed16_to_double_to_cpu(bb->dram_clock_change_latency_us);
// HACK!! Lower uclock latency switch time so we don't switch
dcn2_0_soc.dram_clock_change_latency_us = 10;
dcn2_0_soc.writeback_dram_clock_change_latency_us =
fixed16_to_double_to_cpu(bb->writeback_dram_clock_change_latency_us);
dcn2_0_soc.return_bus_width_bytes =
le32_to_cpu(bb->return_bus_width_bytes);
dcn2_0_soc.dispclk_dppclk_vco_speed_mhz =
le32_to_cpu(bb->dispclk_dppclk_vco_speed_mhz);
dcn2_0_soc.xfc_bus_transport_time_us =
le32_to_cpu(bb->xfc_bus_transport_time_us);
dcn2_0_soc.xfc_xbuf_latency_tolerance_us =
le32_to_cpu(bb->xfc_xbuf_latency_tolerance_us);
dcn2_0_soc.use_urgent_burst_bw =
le32_to_cpu(bb->use_urgent_burst_bw);
dcn2_0_soc.num_states =
le32_to_cpu(bb->num_states);
for (i = 0; i < dcn2_0_soc.num_states; i++) {
dcn2_0_soc.clock_limits[i].state =
le32_to_cpu(bb->clock_limits[i].state);
dcn2_0_soc.clock_limits[i].dcfclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].dcfclk_mhz);
dcn2_0_soc.clock_limits[i].fabricclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].fabricclk_mhz);
dcn2_0_soc.clock_limits[i].dispclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].dispclk_mhz);
dcn2_0_soc.clock_limits[i].dppclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].dppclk_mhz);
dcn2_0_soc.clock_limits[i].phyclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].phyclk_mhz);
dcn2_0_soc.clock_limits[i].socclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].socclk_mhz);
dcn2_0_soc.clock_limits[i].dscclk_mhz =
fixed16_to_double_to_cpu(bb->clock_limits[i].dscclk_mhz);
dcn2_0_soc.clock_limits[i].dram_speed_mts =
fixed16_to_double_to_cpu(bb->clock_limits[i].dram_speed_mts);
}
}
if (pool->base.pp_smu) {
struct pp_smu_nv_clock_table max_clocks = {0};
unsigned int uclk_states[8] = {0};
unsigned int num_states = 0;
int i;
enum pp_smu_status status;
bool clock_limits_available = false;
bool uclk_states_available = false;
if (pool->base.pp_smu->nv_funcs.get_uclk_dpm_states) {
status = (pool->base.pp_smu->nv_funcs.get_uclk_dpm_states)
(&pool->base.pp_smu->nv_funcs.pp_smu, uclk_states, &num_states);
uclk_states_available = (status == PP_SMU_RESULT_OK);
}
if (pool->base.pp_smu->nv_funcs.get_maximum_sustainable_clocks) {
status = (*pool->base.pp_smu->nv_funcs.get_maximum_sustainable_clocks)
(&pool->base.pp_smu->nv_funcs.pp_smu, &max_clocks);
/* SMU cannot set DCF clock to anything equal to or higher than SOC clock
*/
if (max_clocks.dcfClockInKhz >= max_clocks.socClockInKhz)
max_clocks.dcfClockInKhz = max_clocks.socClockInKhz - 1000;
clock_limits_available = (status == PP_SMU_RESULT_OK);
}
// HACK: Use the max uclk_states value for all elements.
for (i = 0; i < num_states; i++)
uclk_states[i] = uclk_states[num_states - 1];
if (clock_limits_available && uclk_states_available && num_states)
update_bounding_box(dc, &dcn2_0_soc, &max_clocks, uclk_states, num_states);
else if (clock_limits_available)
cap_soc_clocks(&dcn2_0_soc, max_clocks);
}
dcn2_0_ip.max_num_otg = pool->base.res_cap->num_timing_generator;
dcn2_0_ip.max_num_dpp = pool->base.pipe_count;
patch_bounding_box(dc, &dcn2_0_soc);
return true;
}
static bool construct(
uint8_t num_virtual_links,
struct dc *dc,
struct dcn20_resource_pool *pool)
{
int i;
struct dc_context *ctx = dc->ctx;
struct irq_service_init_data init_data;
ctx->dc_bios->regs = &bios_regs;
pool->base.res_cap = &res_cap_nv10;
pool->base.funcs = &dcn20_res_pool_funcs;
/*************************************************
* Resource + asic cap harcoding *
*************************************************/
pool->base.underlay_pipe_index = NO_UNDERLAY_PIPE;
pool->base.pipe_count = 6;
pool->base.mpcc_count = 6;
dc->caps.max_downscale_ratio = 200;
dc->caps.i2c_speed_in_khz = 100;
dc->caps.max_cursor_size = 256;
dc->caps.dmdata_alloc_size = 2048;
dc->caps.max_slave_planes = 1;
dc->caps.post_blend_color_processing = true;
dc->caps.force_dp_tps4_for_cp2520 = true;
dc->caps.hw_3d_lut = true;
if (dc->ctx->dce_environment == DCE_ENV_PRODUCTION_DRV) {
dc->debug = debug_defaults_drv;
} else if (dc->ctx->dce_environment == DCE_ENV_FPGA_MAXIMUS) {
pool->base.pipe_count = 4;
pool->base.mpcc_count = pool->base.pipe_count;
dc->debug = debug_defaults_diags;
} else {
dc->debug = debug_defaults_diags;
}
//dcn2.0x
dc->work_arounds.dedcn20_305_wa = true;
// Init the vm_helper
if (dc->vm_helper)
vm_helper_init(dc->vm_helper, 16);
/*************************************************
* Create resources *
*************************************************/
pool->base.clock_sources[DCN20_CLK_SRC_PLL0] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL0,
&clk_src_regs[0], false);
pool->base.clock_sources[DCN20_CLK_SRC_PLL1] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL1,
&clk_src_regs[1], false);
pool->base.clock_sources[DCN20_CLK_SRC_PLL2] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL2,
&clk_src_regs[2], false);
pool->base.clock_sources[DCN20_CLK_SRC_PLL3] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL3,
&clk_src_regs[3], false);
pool->base.clock_sources[DCN20_CLK_SRC_PLL4] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL4,
&clk_src_regs[4], false);
pool->base.clock_sources[DCN20_CLK_SRC_PLL5] =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_COMBO_PHY_PLL5,
&clk_src_regs[5], false);
pool->base.clk_src_count = DCN20_CLK_SRC_TOTAL;
/* todo: not reuse phy_pll registers */
pool->base.dp_clock_source =
dcn20_clock_source_create(ctx, ctx->dc_bios,
CLOCK_SOURCE_ID_DP_DTO,
&clk_src_regs[0], true);
for (i = 0; i < pool->base.clk_src_count; i++) {
if (pool->base.clock_sources[i] == NULL) {
dm_error("DC: failed to create clock sources!\n");
BREAK_TO_DEBUGGER();
goto create_fail;
}
}
pool->base.dccg = dccg2_create(ctx, &dccg_regs, &dccg_shift, &dccg_mask);
if (pool->base.dccg == NULL) {
dm_error("DC: failed to create dccg!\n");
BREAK_TO_DEBUGGER();
goto create_fail;
}
pool->base.dmcu = dcn20_dmcu_create(ctx,
&dmcu_regs,
&dmcu_shift,
&dmcu_mask);
if (pool->base.dmcu == NULL) {
dm_error("DC: failed to create dmcu!\n");
BREAK_TO_DEBUGGER();
goto create_fail;
}
pool->base.abm = dce_abm_create(ctx,
&abm_regs,
&abm_shift,
&abm_mask);
if (pool->base.abm == NULL) {
dm_error("DC: failed to create abm!\n");
BREAK_TO_DEBUGGER();
goto create_fail;
}
pool->base.pp_smu = dcn20_pp_smu_create(ctx);
if (!init_soc_bounding_box(dc, pool)) {
dm_error("DC: failed to initialize soc bounding box!\n");
BREAK_TO_DEBUGGER();
goto create_fail;
}
dml_init_instance(&dc->dml, &dcn2_0_soc, &dcn2_0_ip, DML_PROJECT_NAVI10);
if (!dc->debug.disable_pplib_wm_range) {
struct pp_smu_wm_range_sets ranges = {0};
int i = 0;
ranges.num_reader_wm_sets = 0;
if (dcn2_0_soc.num_states == 1) {
ranges.reader_wm_sets[0].wm_inst = i;
ranges.reader_wm_sets[0].min_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.reader_wm_sets[0].max_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
ranges.reader_wm_sets[0].min_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.reader_wm_sets[0].max_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
ranges.num_reader_wm_sets = 1;
} else if (dcn2_0_soc.num_states > 1) {
for (i = 0; i < 4 && i < dcn2_0_soc.num_states; i++) {
ranges.reader_wm_sets[i].wm_inst = i;
ranges.reader_wm_sets[i].min_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.reader_wm_sets[i].max_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
ranges.reader_wm_sets[i].min_fill_clk_mhz = (i > 0) ? (dcn2_0_soc.clock_limits[i - 1].dram_speed_mts / 16) + 1 : 0;
ranges.reader_wm_sets[i].max_fill_clk_mhz = dcn2_0_soc.clock_limits[i].dram_speed_mts / 16;
ranges.num_reader_wm_sets = i + 1;
}
ranges.reader_wm_sets[0].min_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.reader_wm_sets[ranges.num_reader_wm_sets - 1].max_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
}
ranges.num_writer_wm_sets = 1;
ranges.writer_wm_sets[0].wm_inst = 0;
ranges.writer_wm_sets[0].min_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.writer_wm_sets[0].max_fill_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
ranges.writer_wm_sets[0].min_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MIN;
ranges.writer_wm_sets[0].max_drain_clk_mhz = PP_SMU_WM_SET_RANGE_CLK_UNCONSTRAINED_MAX;
/* Notify PP Lib/SMU which Watermarks to use for which clock ranges */
if (pool->base.pp_smu->nv_funcs.set_wm_ranges)
pool->base.pp_smu->nv_funcs.set_wm_ranges(&pool->base.pp_smu->nv_funcs.pp_smu, &ranges);
}
init_data.ctx = dc->ctx;
pool->base.irqs = dal_irq_service_dcn20_create(&init_data);
if (!pool->base.irqs)
goto create_fail;
/* mem input -> ipp -> dpp -> opp -> TG */
for (i = 0; i < pool->base.pipe_count; i++) {
pool->base.hubps[i] = dcn20_hubp_create(ctx, i);
if (pool->base.hubps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create memory input!\n");
goto create_fail;
}
pool->base.ipps[i] = dcn20_ipp_create(ctx, i);
if (pool->base.ipps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create input pixel processor!\n");
goto create_fail;
}
pool->base.dpps[i] = dcn20_dpp_create(ctx, i);
if (pool->base.dpps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create dpps!\n");
goto create_fail;
}
}
for (i = 0; i < pool->base.res_cap->num_ddc; i++) {
pool->base.engines[i] = dcn20_aux_engine_create(ctx, i);
if (pool->base.engines[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC:failed to create aux engine!!\n");
goto create_fail;
}
pool->base.hw_i2cs[i] = dcn20_i2c_hw_create(ctx, i);
if (pool->base.hw_i2cs[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC:failed to create hw i2c!!\n");
goto create_fail;
}
pool->base.sw_i2cs[i] = NULL;
}
for (i = 0; i < pool->base.res_cap->num_opp; i++) {
pool->base.opps[i] = dcn20_opp_create(ctx, i);
if (pool->base.opps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create output pixel processor!\n");
goto create_fail;
}
}
for (i = 0; i < pool->base.res_cap->num_timing_generator; i++) {
pool->base.timing_generators[i] = dcn20_timing_generator_create(
ctx, i);
if (pool->base.timing_generators[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create tg!\n");
goto create_fail;
}
}
pool->base.timing_generator_count = i;
pool->base.mpc = dcn20_mpc_create(ctx);
if (pool->base.mpc == NULL) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create mpc!\n");
goto create_fail;
}
pool->base.hubbub = dcn20_hubbub_create(ctx);
if (pool->base.hubbub == NULL) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create hubbub!\n");
goto create_fail;
}
#ifdef CONFIG_DRM_AMD_DC_DSC_SUPPORT
for (i = 0; i < pool->base.res_cap->num_dsc; i++) {
pool->base.dscs[i] = dcn20_dsc_create(ctx, i);
if (pool->base.dscs[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create display stream compressor %d!\n", i);
goto create_fail;
}
}
#endif
if (!dcn20_dwbc_create(ctx, &pool->base)) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create dwbc!\n");
goto create_fail;
}
if (!dcn20_mmhubbub_create(ctx, &pool->base)) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create mcif_wb!\n");
goto create_fail;
}
if (!resource_construct(num_virtual_links, dc, &pool->base,
(!IS_FPGA_MAXIMUS_DC(dc->ctx->dce_environment) ?
&res_create_funcs : &res_create_maximus_funcs)))
goto create_fail;
dcn20_hw_sequencer_construct(dc);
dc->caps.max_planes = pool->base.pipe_count;
for (i = 0; i < dc->caps.max_planes; ++i)
dc->caps.planes[i] = plane_cap;
dc->cap_funcs = cap_funcs;
return true;
create_fail:
destruct(pool);
return false;
}
struct resource_pool *dcn20_create_resource_pool(
const struct dc_init_data *init_data,
struct dc *dc)
{
struct dcn20_resource_pool *pool =
kzalloc(sizeof(struct dcn20_resource_pool), GFP_KERNEL);
if (!pool)
return NULL;
if (construct(init_data->num_virtual_links, dc, pool))
return &pool->base;
BREAK_TO_DEBUGGER();
kfree(pool);
return NULL;
}
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