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linux/drivers/gpu/drm/amd/display/dc/dce100/dce100_resource.c
Dmytro Laktyushkin 9adc8050bf drm/amd/display: make firmware info only load once during dc_bios create 
Currently every time DC wants to access firmware info we make a call
into VBIOS. This makes no sense as there is nothing that can change
runtime inside fw info and can cause issues when calling unstable
bios during bringup.

This change eliminate this behavior by only calling bios once for fw
info and keeping it stored as part of dc_bios.

Signed-off-by: Dmytro Laktyushkin <Dmytro.Laktyushkin@amd.com>
Reviewed-by: Chris Park <Chris.Park@amd.com>
Acked-by: Leo Li <sunpeng.li@amd.com>
Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
2019-08-15 10:53:36 -05:00

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/*
* Copyright 2012-15 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 "link_encoder.h"
#include "stream_encoder.h"
#include "resource.h"
#include "include/irq_service_interface.h"
#include "../virtual/virtual_stream_encoder.h"
#include "dce110/dce110_resource.h"
#include "dce110/dce110_timing_generator.h"
#include "irq/dce110/irq_service_dce110.h"
#include "dce/dce_link_encoder.h"
#include "dce/dce_stream_encoder.h"
#include "dce/dce_mem_input.h"
#include "dce/dce_ipp.h"
#include "dce/dce_transform.h"
#include "dce/dce_opp.h"
#include "dce/dce_clock_source.h"
#include "dce/dce_audio.h"
#include "dce/dce_hwseq.h"
#include "dce100/dce100_hw_sequencer.h"
#include "reg_helper.h"
#include "dce/dce_10_0_d.h"
#include "dce/dce_10_0_sh_mask.h"
#include "dce/dce_dmcu.h"
#include "dce/dce_aux.h"
#include "dce/dce_abm.h"
#include "dce/dce_i2c.h"
#ifndef mmMC_HUB_RDREQ_DMIF_LIMIT
#include "gmc/gmc_8_2_d.h"
#include "gmc/gmc_8_2_sh_mask.h"
#endif
#ifndef mmDP_DPHY_INTERNAL_CTRL
#define mmDP_DPHY_INTERNAL_CTRL 0x4aa7
#define mmDP0_DP_DPHY_INTERNAL_CTRL 0x4aa7
#define mmDP1_DP_DPHY_INTERNAL_CTRL 0x4ba7
#define mmDP2_DP_DPHY_INTERNAL_CTRL 0x4ca7
#define mmDP3_DP_DPHY_INTERNAL_CTRL 0x4da7
#define mmDP4_DP_DPHY_INTERNAL_CTRL 0x4ea7
#define mmDP5_DP_DPHY_INTERNAL_CTRL 0x4fa7
#define mmDP6_DP_DPHY_INTERNAL_CTRL 0x54a7
#define mmDP7_DP_DPHY_INTERNAL_CTRL 0x56a7
#define mmDP8_DP_DPHY_INTERNAL_CTRL 0x57a7
#endif
#ifndef mmBIOS_SCRATCH_2
#define mmBIOS_SCRATCH_2 0x05CB
#define mmBIOS_SCRATCH_3 0x05CC
#define mmBIOS_SCRATCH_6 0x05CF
#endif
#ifndef mmDP_DPHY_BS_SR_SWAP_CNTL
#define mmDP_DPHY_BS_SR_SWAP_CNTL 0x4ADC
#define mmDP0_DP_DPHY_BS_SR_SWAP_CNTL 0x4ADC
#define mmDP1_DP_DPHY_BS_SR_SWAP_CNTL 0x4BDC
#define mmDP2_DP_DPHY_BS_SR_SWAP_CNTL 0x4CDC
#define mmDP3_DP_DPHY_BS_SR_SWAP_CNTL 0x4DDC
#define mmDP4_DP_DPHY_BS_SR_SWAP_CNTL 0x4EDC
#define mmDP5_DP_DPHY_BS_SR_SWAP_CNTL 0x4FDC
#define mmDP6_DP_DPHY_BS_SR_SWAP_CNTL 0x54DC
#endif
#ifndef mmDP_DPHY_FAST_TRAINING
#define mmDP_DPHY_FAST_TRAINING 0x4ABC
#define mmDP0_DP_DPHY_FAST_TRAINING 0x4ABC
#define mmDP1_DP_DPHY_FAST_TRAINING 0x4BBC
#define mmDP2_DP_DPHY_FAST_TRAINING 0x4CBC
#define mmDP3_DP_DPHY_FAST_TRAINING 0x4DBC
#define mmDP4_DP_DPHY_FAST_TRAINING 0x4EBC
#define mmDP5_DP_DPHY_FAST_TRAINING 0x4FBC
#define mmDP6_DP_DPHY_FAST_TRAINING 0x54BC
#endif
static const struct dce110_timing_generator_offsets dce100_tg_offsets[] = {
{
.crtc = (mmCRTC0_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP0_GRPH_CONTROL - mmGRPH_CONTROL),
},
{
.crtc = (mmCRTC1_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP1_GRPH_CONTROL - mmGRPH_CONTROL),
},
{
.crtc = (mmCRTC2_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP2_GRPH_CONTROL - mmGRPH_CONTROL),
},
{
.crtc = (mmCRTC3_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP3_GRPH_CONTROL - mmGRPH_CONTROL),
},
{
.crtc = (mmCRTC4_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP4_GRPH_CONTROL - mmGRPH_CONTROL),
},
{
.crtc = (mmCRTC5_CRTC_CONTROL - mmCRTC_CONTROL),
.dcp = (mmDCP5_GRPH_CONTROL - mmGRPH_CONTROL),
}
};
/* set register offset */
#define SR(reg_name)\
.reg_name = mm ## reg_name
/* set register offset with instance */
#define SRI(reg_name, block, id)\
.reg_name = mm ## block ## id ## _ ## reg_name
#define ipp_regs(id)\
[id] = {\
IPP_DCE100_REG_LIST_DCE_BASE(id)\
}
static const struct dce_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 dce_ipp_shift ipp_shift = {
IPP_DCE100_MASK_SH_LIST_DCE_COMMON_BASE(__SHIFT)
};
static const struct dce_ipp_mask ipp_mask = {
IPP_DCE100_MASK_SH_LIST_DCE_COMMON_BASE(_MASK)
};
#define transform_regs(id)\
[id] = {\
XFM_COMMON_REG_LIST_DCE100(id)\
}
static const struct dce_transform_registers xfm_regs[] = {
transform_regs(0),
transform_regs(1),
transform_regs(2),
transform_regs(3),
transform_regs(4),
transform_regs(5)
};
static const struct dce_transform_shift xfm_shift = {
XFM_COMMON_MASK_SH_LIST_DCE110(__SHIFT)
};
static const struct dce_transform_mask xfm_mask = {
XFM_COMMON_MASK_SH_LIST_DCE110(_MASK)
};
#define aux_regs(id)\
[id] = {\
AUX_REG_LIST(id)\
}
static const struct dce110_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 dce110_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)\
[id] = {\
LE_DCE100_REG_LIST(id)\
}
static const struct dce110_link_enc_registers link_enc_regs[] = {
link_regs(0),
link_regs(1),
link_regs(2),
link_regs(3),
link_regs(4),
link_regs(5),
link_regs(6),
};
#define stream_enc_regs(id)\
[id] = {\
SE_COMMON_REG_LIST_DCE_BASE(id),\
.AFMT_CNTL = 0,\
}
static const struct dce110_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),
stream_enc_regs(6)
};
static const struct dce_stream_encoder_shift se_shift = {
SE_COMMON_MASK_SH_LIST_DCE80_100(__SHIFT)
};
static const struct dce_stream_encoder_mask se_mask = {
SE_COMMON_MASK_SH_LIST_DCE80_100(_MASK)
};
#define opp_regs(id)\
[id] = {\
OPP_DCE_100_REG_LIST(id),\
}
static const struct dce_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 dce_opp_shift opp_shift = {
OPP_COMMON_MASK_SH_LIST_DCE_100(__SHIFT)
};
static const struct dce_opp_mask opp_mask = {
OPP_COMMON_MASK_SH_LIST_DCE_100(_MASK)
};
#define aux_engine_regs(id)\
[id] = {\
AUX_COMMON_REG_LIST(id), \
.AUX_RESET_MASK = 0 \
}
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 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),
};
static const struct dce_audio_shift audio_shift = {
AUD_COMMON_MASK_SH_LIST(__SHIFT)
};
static const struct dce_audio_mask audio_mask = {
AUD_COMMON_MASK_SH_LIST(_MASK)
};
#define clk_src_regs(id)\
[id] = {\
CS_COMMON_REG_LIST_DCE_100_110(id),\
}
static const struct dce110_clk_src_regs clk_src_regs[] = {
clk_src_regs(0),
clk_src_regs(1),
clk_src_regs(2)
};
static const struct dce110_clk_src_shift cs_shift = {
CS_COMMON_MASK_SH_LIST_DCE_COMMON_BASE(__SHIFT)
};
static const struct dce110_clk_src_mask cs_mask = {
CS_COMMON_MASK_SH_LIST_DCE_COMMON_BASE(_MASK)
};
static const struct dce_dmcu_registers dmcu_regs = {
DMCU_DCE110_COMMON_REG_LIST()
};
static const struct dce_dmcu_shift dmcu_shift = {
DMCU_MASK_SH_LIST_DCE110(__SHIFT)
};
static const struct dce_dmcu_mask dmcu_mask = {
DMCU_MASK_SH_LIST_DCE110(_MASK)
};
static const struct dce_abm_registers abm_regs = {
ABM_DCE110_COMMON_REG_LIST()
};
static const struct dce_abm_shift abm_shift = {
ABM_MASK_SH_LIST_DCE110(__SHIFT)
};
static const struct dce_abm_mask abm_mask = {
ABM_MASK_SH_LIST_DCE110(_MASK)
};
#define DCFE_MEM_PWR_CTRL_REG_BASE 0x1b03
static const struct bios_registers bios_regs = {
.BIOS_SCRATCH_3 = mmBIOS_SCRATCH_3,
.BIOS_SCRATCH_6 = mmBIOS_SCRATCH_6
};
static const struct resource_caps res_cap = {
.num_timing_generator = 6,
.num_audio = 6,
.num_stream_encoder = 6,
.num_pll = 3,
.num_ddc = 6,
};
static const struct dc_plane_cap plane_cap = {
.type = DC_PLANE_TYPE_DCE_RGB,
.pixel_format_support = {
.argb8888 = true,
.nv12 = false,
.fp16 = false
},
.max_upscale_factor = {
.argb8888 = 16000,
.nv12 = 1,
.fp16 = 1
},
.max_downscale_factor = {
.argb8888 = 250,
.nv12 = 1,
.fp16 = 1
}
};
#define CTX ctx
#define REG(reg) mm ## reg
#ifndef mmCC_DC_HDMI_STRAPS
#define mmCC_DC_HDMI_STRAPS 0x1918
#define CC_DC_HDMI_STRAPS__HDMI_DISABLE_MASK 0x40
#define CC_DC_HDMI_STRAPS__HDMI_DISABLE__SHIFT 0x6
#define CC_DC_HDMI_STRAPS__AUDIO_STREAM_NUMBER_MASK 0x700
#define CC_DC_HDMI_STRAPS__AUDIO_STREAM_NUMBER__SHIFT 0x8
#endif
static void read_dce_straps(
struct dc_context *ctx,
struct resource_straps *straps)
{
REG_GET_2(CC_DC_HDMI_STRAPS,
HDMI_DISABLE, &straps->hdmi_disable,
AUDIO_STREAM_NUMBER, &straps->audio_stream_number);
REG_GET(DC_PINSTRAPS, DC_PINSTRAPS_AUDIO, &straps->dc_pinstraps_audio);
}
static struct audio *create_audio(
struct dc_context *ctx, unsigned int inst)
{
return dce_audio_create(ctx, inst,
&audio_regs[inst], &audio_shift, &audio_mask);
}
static struct timing_generator *dce100_timing_generator_create(
struct dc_context *ctx,
uint32_t instance,
const struct dce110_timing_generator_offsets *offsets)
{
struct dce110_timing_generator *tg110 =
kzalloc(sizeof(struct dce110_timing_generator), GFP_KERNEL);
if (!tg110)
return NULL;
dce110_timing_generator_construct(tg110, ctx, instance, offsets);
return &tg110->base;
}
static struct stream_encoder *dce100_stream_encoder_create(
enum engine_id eng_id,
struct dc_context *ctx)
{
struct dce110_stream_encoder *enc110 =
kzalloc(sizeof(struct dce110_stream_encoder), GFP_KERNEL);
if (!enc110)
return NULL;
dce110_stream_encoder_construct(enc110, ctx, ctx->dc_bios, eng_id,
&stream_enc_regs[eng_id], &se_shift, &se_mask);
return &enc110->base;
}
#define SRII(reg_name, block, id)\
.reg_name[id] = mm ## block ## id ## _ ## reg_name
static const struct dce_hwseq_registers hwseq_reg = {
HWSEQ_DCE10_REG_LIST()
};
static const struct dce_hwseq_shift hwseq_shift = {
HWSEQ_DCE10_MASK_SH_LIST(__SHIFT)
};
static const struct dce_hwseq_mask hwseq_mask = {
HWSEQ_DCE10_MASK_SH_LIST(_MASK)
};
static struct dce_hwseq *dce100_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 = create_audio,
.create_stream_encoder = dce100_stream_encoder_create,
.create_hwseq = dce100_hwseq_create,
};
#define mi_inst_regs(id) { \
MI_DCE8_REG_LIST(id), \
.MC_HUB_RDREQ_DMIF_LIMIT = mmMC_HUB_RDREQ_DMIF_LIMIT \
}
static const struct dce_mem_input_registers mi_regs[] = {
mi_inst_regs(0),
mi_inst_regs(1),
mi_inst_regs(2),
mi_inst_regs(3),
mi_inst_regs(4),
mi_inst_regs(5),
};
static const struct dce_mem_input_shift mi_shifts = {
MI_DCE8_MASK_SH_LIST(__SHIFT),
.ENABLE = MC_HUB_RDREQ_DMIF_LIMIT__ENABLE__SHIFT
};
static const struct dce_mem_input_mask mi_masks = {
MI_DCE8_MASK_SH_LIST(_MASK),
.ENABLE = MC_HUB_RDREQ_DMIF_LIMIT__ENABLE_MASK
};
static struct mem_input *dce100_mem_input_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dce_mem_input *dce_mi = kzalloc(sizeof(struct dce_mem_input),
GFP_KERNEL);
if (!dce_mi) {
BREAK_TO_DEBUGGER();
return NULL;
}
dce_mem_input_construct(dce_mi, ctx, inst, &mi_regs[inst], &mi_shifts, &mi_masks);
dce_mi->wa.single_head_rdreq_dmif_limit = 2;
return &dce_mi->base;
}
static void dce100_transform_destroy(struct transform **xfm)
{
kfree(TO_DCE_TRANSFORM(*xfm));
*xfm = NULL;
}
static struct transform *dce100_transform_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dce_transform *transform =
kzalloc(sizeof(struct dce_transform), GFP_KERNEL);
if (!transform)
return NULL;
dce_transform_construct(transform, ctx, inst,
&xfm_regs[inst], &xfm_shift, &xfm_mask);
return &transform->base;
}
static struct input_pixel_processor *dce100_ipp_create(
struct dc_context *ctx, uint32_t inst)
{
struct dce_ipp *ipp = kzalloc(sizeof(struct dce_ipp), GFP_KERNEL);
if (!ipp) {
BREAK_TO_DEBUGGER();
return NULL;
}
dce_ipp_construct(ipp, ctx, inst,
&ipp_regs[inst], &ipp_shift, &ipp_mask);
return &ipp->base;
}
static const struct encoder_feature_support link_enc_feature = {
.max_hdmi_deep_color = COLOR_DEPTH_121212,
.max_hdmi_pixel_clock = 300000,
.flags.bits.IS_HBR2_CAPABLE = true,
.flags.bits.IS_TPS3_CAPABLE = true
};
struct link_encoder *dce100_link_encoder_create(
const struct encoder_init_data *enc_init_data)
{
struct dce110_link_encoder *enc110 =
kzalloc(sizeof(struct dce110_link_encoder), GFP_KERNEL);
if (!enc110)
return NULL;
dce110_link_encoder_construct(enc110,
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]);
return &enc110->base;
}
struct output_pixel_processor *dce100_opp_create(
struct dc_context *ctx,
uint32_t inst)
{
struct dce110_opp *opp =
kzalloc(sizeof(struct dce110_opp), GFP_KERNEL);
if (!opp)
return NULL;
dce110_opp_construct(opp,
ctx, inst, &opp_regs[inst], &opp_shift, &opp_mask);
return &opp->base;
}
struct dce_aux *dce100_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_DCE_COMMON_BASE(__SHIFT)
};
static const struct dce_i2c_mask i2c_masks = {
I2C_COMMON_MASK_SH_LIST_DCE_COMMON_BASE(_MASK)
};
struct dce_i2c_hw *dce100_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;
dce100_i2c_hw_construct(dce_i2c_hw, ctx, inst,
&i2c_hw_regs[inst], &i2c_shifts, &i2c_masks);
return dce_i2c_hw;
}
struct clock_source *dce100_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 (dce110_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;
}
void dce100_clock_source_destroy(struct clock_source **clk_src)
{
kfree(TO_DCE110_CLK_SRC(*clk_src));
*clk_src = NULL;
}
static void destruct(struct dce110_resource_pool *pool)
{
unsigned int i;
for (i = 0; i < pool->base.pipe_count; i++) {
if (pool->base.opps[i] != NULL)
dce110_opp_destroy(&pool->base.opps[i]);
if (pool->base.transforms[i] != NULL)
dce100_transform_destroy(&pool->base.transforms[i]);
if (pool->base.ipps[i] != NULL)
dce_ipp_destroy(&pool->base.ipps[i]);
if (pool->base.mis[i] != NULL) {
kfree(TO_DCE_MEM_INPUT(pool->base.mis[i]));
pool->base.mis[i] = NULL;
}
if (pool->base.timing_generators[i] != NULL) {
kfree(DCE110TG_FROM_TG(pool->base.timing_generators[i]));
pool->base.timing_generators[i] = NULL;
}
}
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.stream_enc_count; i++) {
if (pool->base.stream_enc[i] != NULL)
kfree(DCE110STRENC_FROM_STRENC(pool->base.stream_enc[i]));
}
for (i = 0; i < pool->base.clk_src_count; i++) {
if (pool->base.clock_sources[i] != NULL)
dce100_clock_source_destroy(&pool->base.clock_sources[i]);
}
if (pool->base.dp_clock_source != NULL)
dce100_clock_source_destroy(&pool->base.dp_clock_source);
for (i = 0; i < pool->base.audio_count; i++) {
if (pool->base.audios[i] != NULL)
dce_aud_destroy(&pool->base.audios[i]);
}
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.irqs != NULL)
dal_irq_service_destroy(&pool->base.irqs);
}
static enum dc_status build_mapped_resource(
const struct dc *dc,
struct dc_state *context,
struct dc_stream_state *stream)
{
struct pipe_ctx *pipe_ctx = resource_get_head_pipe_for_stream(&context->res_ctx, stream);
if (!pipe_ctx)
return DC_ERROR_UNEXPECTED;
dce110_resource_build_pipe_hw_param(pipe_ctx);
resource_build_info_frame(pipe_ctx);
return DC_OK;
}
bool dce100_validate_bandwidth(
struct dc *dc,
struct dc_state *context,
bool fast_validate)
{
int i;
bool at_least_one_pipe = false;
for (i = 0; i < dc->res_pool->pipe_count; i++) {
if (context->res_ctx.pipe_ctx[i].stream)
at_least_one_pipe = true;
}
if (at_least_one_pipe) {
/* TODO implement when needed but for now hardcode max value*/
context->bw_ctx.bw.dce.dispclk_khz = 681000;
context->bw_ctx.bw.dce.yclk_khz = 250000 * MEMORY_TYPE_MULTIPLIER_CZ;
} else {
context->bw_ctx.bw.dce.dispclk_khz = 0;
context->bw_ctx.bw.dce.yclk_khz = 0;
}
return true;
}
static bool dce100_validate_surface_sets(
struct dc_state *context)
{
int i;
for (i = 0; i < context->stream_count; i++) {
if (context->stream_status[i].plane_count == 0)
continue;
if (context->stream_status[i].plane_count > 1)
return false;
if (context->stream_status[i].plane_states[0]->format
>= SURFACE_PIXEL_FORMAT_VIDEO_BEGIN)
return false;
}
return true;
}
enum dc_status dce100_validate_global(
struct dc *dc,
struct dc_state *context)
{
if (!dce100_validate_surface_sets(context))
return DC_FAIL_SURFACE_VALIDATE;
return DC_OK;
}
enum dc_status dce100_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_clock_resources(dc, new_ctx, dc_stream);
if (result == DC_OK)
result = build_mapped_resource(dc, new_ctx, dc_stream);
return result;
}
static void dce100_destroy_resource_pool(struct resource_pool **pool)
{
struct dce110_resource_pool *dce110_pool = TO_DCE110_RES_POOL(*pool);
destruct(dce110_pool);
kfree(dce110_pool);
*pool = NULL;
}
enum dc_status dce100_validate_plane(const struct dc_plane_state *plane_state, struct dc_caps *caps)
{
if (plane_state->format < SURFACE_PIXEL_FORMAT_VIDEO_BEGIN)
return DC_OK;
return DC_FAIL_SURFACE_VALIDATE;
}
struct stream_encoder *dce100_find_first_free_match_stream_enc_for_link(
struct resource_context *res_ctx,
const struct resource_pool *pool,
struct dc_stream_state *stream)
{
int i;
int j = -1;
struct dc_link *link = stream->link;
for (i = 0; i < pool->stream_enc_count; i++) {
if (!res_ctx->is_stream_enc_acquired[i] &&
pool->stream_enc[i]) {
/* Store first available for MST second display
* in daisy chain use case
*/
j = i;
if (pool->stream_enc[i]->id ==
link->link_enc->preferred_engine)
return pool->stream_enc[i];
}
}
/*
* below can happen in cases when stream encoder is acquired:
* 1) for second MST display in chain, so preferred engine already
* acquired;
* 2) for another link, which preferred engine already acquired by any
* MST configuration.
*
* If signal is of DP type and preferred engine not found, return last available
*
* TODO - This is just a patch up and a generic solution is
* required for non DP connectors.
*/
if (j >= 0 && link->connector_signal == SIGNAL_TYPE_DISPLAY_PORT)
return pool->stream_enc[j];
return NULL;
}
static const struct resource_funcs dce100_res_pool_funcs = {
.destroy = dce100_destroy_resource_pool,
.link_enc_create = dce100_link_encoder_create,
.validate_bandwidth = dce100_validate_bandwidth,
.validate_plane = dce100_validate_plane,
.add_stream_to_ctx = dce100_add_stream_to_ctx,
.validate_global = dce100_validate_global,
.find_first_free_match_stream_enc_for_link = dce100_find_first_free_match_stream_enc_for_link
};
static bool construct(
uint8_t num_virtual_links,
struct dc *dc,
struct dce110_resource_pool *pool)
{
unsigned int i;
struct dc_context *ctx = dc->ctx;
struct dc_bios *bp;
ctx->dc_bios->regs = &bios_regs;
pool->base.res_cap = &res_cap;
pool->base.funcs = &dce100_res_pool_funcs;
pool->base.underlay_pipe_index = NO_UNDERLAY_PIPE;
bp = ctx->dc_bios;
if (bp->fw_info_valid && bp->fw_info.external_clock_source_frequency_for_dp != 0) {
pool->base.dp_clock_source =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_EXTERNAL, NULL, true);
pool->base.clock_sources[0] =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL0, &clk_src_regs[0], false);
pool->base.clock_sources[1] =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL1, &clk_src_regs[1], false);
pool->base.clock_sources[2] =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL2, &clk_src_regs[2], false);
pool->base.clk_src_count = 3;
} else {
pool->base.dp_clock_source =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL0, &clk_src_regs[0], true);
pool->base.clock_sources[0] =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL1, &clk_src_regs[1], false);
pool->base.clock_sources[1] =
dce100_clock_source_create(ctx, bp, CLOCK_SOURCE_ID_PLL2, &clk_src_regs[2], false);
pool->base.clk_src_count = 2;
}
if (pool->base.dp_clock_source == NULL) {
dm_error("DC: failed to create dp clock source!\n");
BREAK_TO_DEBUGGER();
goto res_create_fail;
}
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 res_create_fail;
}
}
pool->base.dmcu = dce_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 res_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 res_create_fail;
}
{
struct irq_service_init_data init_data;
init_data.ctx = dc->ctx;
pool->base.irqs = dal_irq_service_dce110_create(&init_data);
if (!pool->base.irqs)
goto res_create_fail;
}
/*************************************************
* Resource + asic cap harcoding *
*************************************************/
pool->base.underlay_pipe_index = NO_UNDERLAY_PIPE;
pool->base.pipe_count = res_cap.num_timing_generator;
pool->base.timing_generator_count = pool->base.res_cap->num_timing_generator;
dc->caps.max_downscale_ratio = 200;
dc->caps.i2c_speed_in_khz = 40;
dc->caps.max_cursor_size = 128;
dc->caps.dual_link_dvi = true;
dc->caps.disable_dp_clk_share = true;
for (i = 0; i < pool->base.pipe_count; i++) {
pool->base.timing_generators[i] =
dce100_timing_generator_create(
ctx,
i,
&dce100_tg_offsets[i]);
if (pool->base.timing_generators[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error("DC: failed to create tg!\n");
goto res_create_fail;
}
pool->base.mis[i] = dce100_mem_input_create(ctx, i);
if (pool->base.mis[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create memory input!\n");
goto res_create_fail;
}
pool->base.ipps[i] = dce100_ipp_create(ctx, i);
if (pool->base.ipps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create input pixel processor!\n");
goto res_create_fail;
}
pool->base.transforms[i] = dce100_transform_create(ctx, i);
if (pool->base.transforms[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create transform!\n");
goto res_create_fail;
}
pool->base.opps[i] = dce100_opp_create(ctx, i);
if (pool->base.opps[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC: failed to create output pixel processor!\n");
goto res_create_fail;
}
}
for (i = 0; i < pool->base.res_cap->num_ddc; i++) {
pool->base.engines[i] = dce100_aux_engine_create(ctx, i);
if (pool->base.engines[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC:failed to create aux engine!!\n");
goto res_create_fail;
}
pool->base.hw_i2cs[i] = dce100_i2c_hw_create(ctx, i);
if (pool->base.hw_i2cs[i] == NULL) {
BREAK_TO_DEBUGGER();
dm_error(
"DC:failed to create i2c engine!!\n");
goto res_create_fail;
}
pool->base.sw_i2cs[i] = NULL;
}
dc->caps.max_planes = pool->base.pipe_count;
for (i = 0; i < dc->caps.max_planes; ++i)
dc->caps.planes[i] = plane_cap;
if (!resource_construct(num_virtual_links, dc, &pool->base,
&res_create_funcs))
goto res_create_fail;
/* Create hardware sequencer */
dce100_hw_sequencer_construct(dc);
return true;
res_create_fail:
destruct(pool);
return false;
}
struct resource_pool *dce100_create_resource_pool(
uint8_t num_virtual_links,
struct dc *dc)
{
struct dce110_resource_pool *pool =
kzalloc(sizeof(struct dce110_resource_pool), GFP_KERNEL);
if (!pool)
return NULL;
if (construct(num_virtual_links, dc, pool))
return &pool->base;
BREAK_TO_DEBUGGER();
return NULL;
}
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