Commit 1f2367a3 authored by james qian wang (Arm Technology China)'s avatar james qian wang (Arm Technology China) Committed by Liviu Dudau

drm/komeda: Add d71_enum_resources and d71_cleanup

D71 consists of a number of Register Blocks, every Block controls a
specific HW function, every block has a common block_header to represent
its type and pipeline information.

GCU (Global Control Unit) is the first Block which describe the global
information of D71 HW, Like number of block contained and the number of
pipeline supported.

So the d71_enum_resources parsed GCU and create pipeline according
the GCU configuration, and then iterate and detect the blocks that
indicated by the GCU and block_header.

And this change also added two struct d71_dev/d71_pipeline to extend
komeda_dev/komeda_pipeline to add some d71 only members.

v2:
- Return the specific errno not -1.
- Use DRM_DEBUG as default debug msg printer.
Signed-off-by: default avatarJames Qian Wang (Arm Technology China) <james.qian.wang@arm.com>
Signed-off-by: default avatarLiviu Dudau <liviu.dudau@arm.com>
parent 9e98c678
......@@ -7,10 +7,24 @@
#ifndef _MALIDP_UTILS_
#define _MALIDP_UTILS_
#include <linux/delay.h>
#define has_bit(nr, mask) (BIT(nr) & (mask))
#define has_bits(bits, mask) (((bits) & (mask)) == (bits))
#define dp_for_each_set_bit(bit, mask) \
for_each_set_bit((bit), ((unsigned long *)&(mask)), sizeof(mask) * 8)
#define dp_wait_cond(__cond, __tries, __min_range, __max_range) \
({ \
int num_tries = __tries; \
while (!__cond && (num_tries > 0)) { \
usleep_range(__min_range, __max_range); \
if (__cond) \
break; \
num_tries--; \
} \
num_tries; \
})
#endif /* _MALIDP_UTILS_ */
......@@ -16,6 +16,7 @@ komeda-y := \
komeda_private_obj.o
komeda-y += \
d71/d71_dev.o
d71/d71_dev.o \
d71/d71_component.o
obj-$(CONFIG_DRM_KOMEDA) += komeda.o
// SPDX-License-Identifier: GPL-2.0
/*
* (C) COPYRIGHT 2018 ARM Limited. All rights reserved.
* Author: James.Qian.Wang <james.qian.wang@arm.com>
*
*/
#include <drm/drm_print.h>
#include "d71_dev.h"
#include "komeda_kms.h"
#include "malidp_io.h"
static int d71_layer_init(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
DRM_DEBUG("Detect D71_Layer.\n");
return 0;
}
static int d71_wb_layer_init(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
DRM_DEBUG("Detect D71_Wb_Layer.\n");
return 0;
}
static int d71_compiz_init(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
DRM_DEBUG("Detect D71_compiz.\n");
return 0;
}
static int d71_improc_init(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
DRM_DEBUG("Detect D71_improc.\n");
return 0;
}
static int d71_timing_ctrlr_init(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
DRM_DEBUG("Detect D71_timing_ctrlr.\n");
return 0;
}
int d71_probe_block(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg)
{
struct d71_pipeline *pipe;
int blk_id = BLOCK_INFO_BLK_ID(blk->block_info);
int err = 0;
switch (BLOCK_INFO_BLK_TYPE(blk->block_info)) {
case D71_BLK_TYPE_GCU:
break;
case D71_BLK_TYPE_LPU:
pipe = d71->pipes[blk_id];
pipe->lpu_addr = reg;
break;
case D71_BLK_TYPE_LPU_LAYER:
err = d71_layer_init(d71, blk, reg);
break;
case D71_BLK_TYPE_LPU_WB_LAYER:
err = d71_wb_layer_init(d71, blk, reg);
break;
case D71_BLK_TYPE_CU:
pipe = d71->pipes[blk_id];
pipe->cu_addr = reg;
err = d71_compiz_init(d71, blk, reg);
break;
case D71_BLK_TYPE_CU_SPLITTER:
case D71_BLK_TYPE_CU_SCALER:
case D71_BLK_TYPE_CU_MERGER:
break;
case D71_BLK_TYPE_DOU:
pipe = d71->pipes[blk_id];
pipe->dou_addr = reg;
break;
case D71_BLK_TYPE_DOU_IPS:
err = d71_improc_init(d71, blk, reg);
break;
case D71_BLK_TYPE_DOU_FT_COEFF:
pipe = d71->pipes[blk_id];
pipe->dou_ft_coeff_addr = reg;
break;
case D71_BLK_TYPE_DOU_BS:
err = d71_timing_ctrlr_init(d71, blk, reg);
break;
case D71_BLK_TYPE_GLB_LT_COEFF:
break;
case D71_BLK_TYPE_GLB_SCL_COEFF:
d71->glb_scl_coeff_addr[blk_id] = reg;
break;
default:
DRM_ERROR("Unknown block (block_info: 0x%x) is found\n",
blk->block_info);
err = -EINVAL;
break;
}
return err;
}
......@@ -4,13 +4,141 @@
* Author: James.Qian.Wang <james.qian.wang@arm.com>
*
*/
#include <drm/drm_print.h>
#include "d71_dev.h"
#include "malidp_io.h"
#include "komeda_dev.h"
static int d71_reset(struct d71_dev *d71)
{
u32 __iomem *gcu = d71->gcu_addr;
int ret;
malidp_write32_mask(gcu, BLK_CONTROL,
GCU_CONTROL_SRST, GCU_CONTROL_SRST);
ret = dp_wait_cond(!(malidp_read32(gcu, BLK_CONTROL) & GCU_CONTROL_SRST),
100, 1000, 10000);
return ret > 0 ? 0 : -ETIMEDOUT;
}
void d71_read_block_header(u32 __iomem *reg, struct block_header *blk)
{
int i;
blk->block_info = malidp_read32(reg, BLK_BLOCK_INFO);
if (BLOCK_INFO_BLK_TYPE(blk->block_info) == D71_BLK_TYPE_RESERVED)
return;
blk->pipeline_info = malidp_read32(reg, BLK_PIPELINE_INFO);
/* get valid input and output ids */
for (i = 0; i < PIPELINE_INFO_N_VALID_INPUTS(blk->pipeline_info); i++)
blk->input_ids[i] = malidp_read32(reg + i, BLK_VALID_INPUT_ID0);
for (i = 0; i < PIPELINE_INFO_N_OUTPUTS(blk->pipeline_info); i++)
blk->output_ids[i] = malidp_read32(reg + i, BLK_OUTPUT_ID0);
}
static void d71_cleanup(struct komeda_dev *mdev)
{
struct d71_dev *d71 = mdev->chip_data;
if (!d71)
return;
devm_kfree(mdev->dev, d71);
mdev->chip_data = NULL;
}
static int d71_enum_resources(struct komeda_dev *mdev)
{
/* TODO add enum resources */
return -1;
struct d71_dev *d71;
struct komeda_pipeline *pipe;
struct block_header blk;
u32 __iomem *blk_base;
u32 i, value, offset;
int err;
d71 = devm_kzalloc(mdev->dev, sizeof(*d71), GFP_KERNEL);
if (!d71)
return -ENOMEM;
mdev->chip_data = d71;
d71->mdev = mdev;
d71->gcu_addr = mdev->reg_base;
d71->periph_addr = mdev->reg_base + (D71_BLOCK_OFFSET_PERIPH >> 2);
err = d71_reset(d71);
if (err) {
DRM_ERROR("Fail to reset d71 device.\n");
goto err_cleanup;
}
/* probe GCU */
value = malidp_read32(d71->gcu_addr, GLB_CORE_INFO);
d71->num_blocks = value & 0xFF;
d71->num_pipelines = (value >> 8) & 0x7;
if (d71->num_pipelines > D71_MAX_PIPELINE) {
DRM_ERROR("d71 supports %d pipelines, but got: %d.\n",
D71_MAX_PIPELINE, d71->num_pipelines);
err = -EINVAL;
goto err_cleanup;
}
/* probe PERIPH */
value = malidp_read32(d71->periph_addr, BLK_BLOCK_INFO);
if (BLOCK_INFO_BLK_TYPE(value) != D71_BLK_TYPE_PERIPH) {
DRM_ERROR("access blk periph but got blk: %d.\n",
BLOCK_INFO_BLK_TYPE(value));
err = -EINVAL;
goto err_cleanup;
}
value = malidp_read32(d71->periph_addr, PERIPH_CONFIGURATION_ID);
d71->max_line_size = value & PERIPH_MAX_LINE_SIZE ? 4096 : 2048;
d71->max_vsize = 4096;
d71->num_rich_layers = value & PERIPH_NUM_RICH_LAYERS ? 2 : 1;
d71->supports_dual_link = value & PERIPH_SPLIT_EN ? true : false;
d71->integrates_tbu = value & PERIPH_TBU_EN ? true : false;
for (i = 0; i < d71->num_pipelines; i++) {
pipe = komeda_pipeline_add(mdev, sizeof(struct d71_pipeline),
NULL);
if (IS_ERR(pipe)) {
err = PTR_ERR(pipe);
goto err_cleanup;
}
d71->pipes[i] = to_d71_pipeline(pipe);
}
/* loop the register blks and probe */
i = 2; /* exclude GCU and PERIPH */
offset = D71_BLOCK_SIZE; /* skip GCU */
while (i < d71->num_blocks) {
blk_base = mdev->reg_base + (offset >> 2);
d71_read_block_header(blk_base, &blk);
if (BLOCK_INFO_BLK_TYPE(blk.block_info) != D71_BLK_TYPE_RESERVED) {
err = d71_probe_block(d71, &blk, blk_base);
if (err)
goto err_cleanup;
i++;
}
offset += D71_BLOCK_SIZE;
}
DRM_DEBUG("total %d (out of %d) blocks are found.\n",
i, d71->num_blocks);
return 0;
err_cleanup:
d71_cleanup(mdev);
return err;
}
#define __HW_ID(__group, __format) \
......@@ -93,13 +221,9 @@ static void d71_init_fmt_tbl(struct komeda_dev *mdev)
static struct komeda_dev_funcs d71_chip_funcs = {
.init_format_table = d71_init_fmt_tbl,
.enum_resources = d71_enum_resources,
.cleanup = NULL,
.cleanup = d71_cleanup,
};
#define GLB_ARCH_ID 0x000
#define GLB_CORE_ID 0x004
#define GLB_CORE_INFO 0x008
struct komeda_dev_funcs *
d71_identify(u32 __iomem *reg_base, struct komeda_chip_info *chip)
{
......
/* SPDX-License-Identifier: GPL-2.0 */
/*
* (C) COPYRIGHT 2018 ARM Limited. All rights reserved.
* Author: James.Qian.Wang <james.qian.wang@arm.com>
*
*/
#ifndef _D71_DEV_H_
#define _D71_DEV_H_
#include "komeda_dev.h"
#include "komeda_pipeline.h"
#include "d71_regs.h"
struct d71_pipeline {
struct komeda_pipeline base;
/* d71 private pipeline blocks */
u32 __iomem *lpu_addr;
u32 __iomem *cu_addr;
u32 __iomem *dou_addr;
u32 __iomem *dou_ft_coeff_addr; /* forward transform coeffs table */
};
struct d71_dev {
struct komeda_dev *mdev;
int num_blocks;
int num_pipelines;
int num_rich_layers;
u32 max_line_size;
u32 max_vsize;
u32 supports_dual_link : 1;
u32 integrates_tbu : 1;
/* global register blocks */
u32 __iomem *gcu_addr;
/* scaling coeffs table */
u32 __iomem *glb_scl_coeff_addr[D71_MAX_GLB_SCL_COEFF];
u32 __iomem *periph_addr;
struct d71_pipeline *pipes[D71_MAX_PIPELINE];
};
#define to_d71_pipeline(x) container_of(x, struct d71_pipeline, base)
int d71_probe_block(struct d71_dev *d71,
struct block_header *blk, u32 __iomem *reg);
void d71_read_block_header(u32 __iomem *reg, struct block_header *blk);
#endif /* !_D71_DEV_H_ */
/* SPDX-License-Identifier: GPL-2.0 */
/*
* (C) COPYRIGHT 2018 ARM Limited. All rights reserved.
* Author: James.Qian.Wang <james.qian.wang@arm.com>
*
*/
#ifndef _D71_REG_H_
#define _D71_REG_H_
/* Common block registers offset */
#define BLK_BLOCK_INFO 0x000
#define BLK_PIPELINE_INFO 0x004
#define BLK_VALID_INPUT_ID0 0x020
#define BLK_OUTPUT_ID0 0x060
#define BLK_INPUT_ID0 0x080
#define BLK_IRQ_RAW_STATUS 0x0A0
#define BLK_IRQ_CLEAR 0x0A4
#define BLK_IRQ_MASK 0x0A8
#define BLK_IRQ_STATUS 0x0AC
#define BLK_STATUS 0x0B0
#define BLK_INFO 0x0C0
#define BLK_CONTROL 0x0D0
#define BLK_SIZE 0x0D4
#define BLK_IN_SIZE 0x0E0
#define BLK_P0_PTR_LOW 0x100
#define BLK_P0_PTR_HIGH 0x104
#define BLK_P0_STRIDE 0x108
#define BLK_P1_PTR_LOW 0x110
#define BLK_P1_PTR_HIGH 0x114
#define BLK_P1_STRIDE 0x118
#define BLK_P2_PTR_LOW 0x120
#define BLK_P2_PTR_HIGH 0x124
#define BLOCK_INFO_N_SUBBLKS(x) ((x) & 0x000F)
#define BLOCK_INFO_BLK_ID(x) (((x) & 0x00F0) >> 4)
#define BLOCK_INFO_BLK_TYPE(x) (((x) & 0xFF00) >> 8)
#define BLOCK_INFO_INPUT_ID(x) ((x) & 0xFFF0)
#define BLOCK_INFO_TYPE_ID(x) (((x) & 0x0FF0) >> 4)
#define PIPELINE_INFO_N_OUTPUTS(x) ((x) & 0x000F)
#define PIPELINE_INFO_N_VALID_INPUTS(x) (((x) & 0x0F00) >> 8)
/* Common block control register bits */
#define BLK_CTRL_EN BIT(0)
/* Common size macro */
#define HV_SIZE(h, v) (((h) & 0x1FFF) + (((v) & 0x1FFF) << 16))
#define HV_OFFSET(h, v) (((h) & 0xFFF) + (((v) & 0xFFF) << 16))
#define HV_CROP(h, v) (((h) & 0xFFF) + (((v) & 0xFFF) << 16))
/* AD_CONTROL register */
#define AD_CONTROL 0x160
/* AD_CONTROL register bits */
#define AD_AEN BIT(0)
#define AD_YT BIT(1)
#define AD_BS BIT(2)
#define AD_WB BIT(3)
#define AD_TH BIT(4)
/* Global Control Unit */
#define GLB_ARCH_ID 0x000
#define GLB_CORE_ID 0x004
#define GLB_CORE_INFO 0x008
#define GLB_IRQ_STATUS 0x010
#define GCU_CONFIG_VALID0 0x0D4
#define GCU_CONFIG_VALID1 0x0D8
/* GCU_CONTROL_BITS */
#define GCU_CONTROL_MODE(x) ((x) & 0x7)
#define GCU_CONTROL_SRST BIT(16)
/* GCU opmode */
#define INACTIVE_MODE 0
#define TBU_CONNECT_MODE 1
#define TBU_DISCONNECT_MODE 2
#define DO0_ACTIVE_MODE 3
#define DO1_ACTIVE_MODE 4
#define DO01_ACTIVE_MODE 5
/* GLB_IRQ_STATUS bits */
#define GLB_IRQ_STATUS_GCU BIT(0)
#define GLB_IRQ_STATUS_LPU0 BIT(8)
#define GLB_IRQ_STATUS_LPU1 BIT(9)
#define GLB_IRQ_STATUS_ATU0 BIT(10)
#define GLB_IRQ_STATUS_ATU1 BIT(11)
#define GLB_IRQ_STATUS_ATU2 BIT(12)
#define GLB_IRQ_STATUS_ATU3 BIT(13)
#define GLB_IRQ_STATUS_CU0 BIT(16)
#define GLB_IRQ_STATUS_CU1 BIT(17)
#define GLB_IRQ_STATUS_DOU0 BIT(24)
#define GLB_IRQ_STATUS_DOU1 BIT(25)
#define GLB_IRQ_STATUS_PIPE0 (GLB_IRQ_STATUS_LPU0 |\
GLB_IRQ_STATUS_ATU0 |\
GLB_IRQ_STATUS_ATU1 |\
GLB_IRQ_STATUS_CU0 |\
GLB_IRQ_STATUS_DOU0)
#define GLB_IRQ_STATUS_PIPE1 (GLB_IRQ_STATUS_LPU1 |\
GLB_IRQ_STATUS_ATU2 |\
GLB_IRQ_STATUS_ATU3 |\
GLB_IRQ_STATUS_CU1 |\
GLB_IRQ_STATUS_DOU1)
#define GLB_IRQ_STATUS_ATU (GLB_IRQ_STATUS_ATU0 |\
GLB_IRQ_STATUS_ATU1 |\
GLB_IRQ_STATUS_ATU2 |\
GLB_IRQ_STATUS_ATU3)
/* GCU_IRQ_BITS */
#define GCU_IRQ_CVAL0 BIT(0)
#define GCU_IRQ_CVAL1 BIT(1)
#define GCU_IRQ_MODE BIT(4)
#define GCU_IRQ_ERR BIT(11)
/* GCU_STATUS_BITS */
#define GCU_STATUS_MODE(x) ((x) & 0x7)
#define GCU_STATUS_MERR BIT(4)
#define GCU_STATUS_TCS0 BIT(8)
#define GCU_STATUS_TCS1 BIT(9)
#define GCU_STATUS_ACTIVE BIT(31)
/* GCU_CONFIG_VALIDx BITS */
#define GCU_CONFIG_CVAL BIT(0)
/* PERIPHERAL registers */
#define PERIPH_MAX_LINE_SIZE BIT(0)
#define PERIPH_NUM_RICH_LAYERS BIT(4)
#define PERIPH_SPLIT_EN BIT(8)
#define PERIPH_TBU_EN BIT(12)
#define PERIPH_AFBC_DMA_EN BIT(16)
#define PERIPH_CONFIGURATION_ID 0x1D4
/* LPU register */
#define LPU_TBU_STATUS 0x0B4
#define LPU_RAXI_CONTROL 0x0D0
#define LPU_WAXI_CONTROL 0x0D4
#define LPU_TBU_CONTROL 0x0D8
/* LPU_xAXI_CONTROL_BITS */
#define TO_RAXI_AOUTSTDCAPB(x) (x)
#define TO_RAXI_BOUTSTDCAPB(x) ((x) << 8)
#define TO_RAXI_BEN(x) ((x) << 15)
#define TO_xAXI_BURSTLEN(x) ((x) << 16)
#define TO_xAXI_AxQOS(x) ((x) << 24)
#define TO_xAXI_ORD(x) ((x) << 31)
#define TO_WAXI_OUTSTDCAPB(x) (x)
#define RAXI_AOUTSTDCAPB_MASK 0x7F
#define RAXI_BOUTSTDCAPB_MASK 0x7F00
#define RAXI_BEN_MASK BIT(15)
#define xAXI_BURSTLEN_MASK 0x3F0000
#define xAXI_AxQOS_MASK 0xF000000
#define xAXI_ORD_MASK BIT(31)
#define WAXI_OUTSTDCAPB_MASK 0x3F
/* LPU_TBU_CONTROL BITS */
#define TO_TBU_DOUTSTDCAPB(x) (x)
#define TBU_DOUTSTDCAPB_MASK 0x3F
/* LPU_IRQ_BITS */
#define LPU_IRQ_IBSY BIT(10)
#define LPU_IRQ_ERR BIT(11)
#define LPU_IRQ_EOW BIT(12)
#define LPU_IRQ_PL0 BIT(13)
/* LPU_STATUS_BITS */
#define LPU_STATUS_AXIED(x) ((x) & 0xF)
#define LPU_STATUS_AXIE BIT(4)
#define LPU_STATUS_AXIRP BIT(5)
#define LPU_STATUS_AXIWP BIT(6)
#define LPU_STATUS_ACE0 BIT(16)
#define LPU_STATUS_ACE1 BIT(17)
#define LPU_STATUS_ACE2 BIT(18)
#define LPU_STATUS_ACE3 BIT(19)
#define LPU_STATUS_ACTIVE BIT(31)
#define AXIEID_MASK 0xF
#define AXIE_MASK LPU_STATUS_AXIE
#define AXIRP_MASK LPU_STATUS_AXIRP
#define AXIWP_MASK LPU_STATUS_AXIWP
#define FROM_AXIEID(reg) ((reg) & AXIEID_MASK)
#define TO_AXIE(x) ((x) << 4)
#define FROM_AXIRP(reg) (((reg) & AXIRP_MASK) >> 5)
#define FROM_AXIWP(reg) (((reg) & AXIWP_MASK) >> 6)
/* LPU_TBU_STATUS_BITS */
#define LPU_TBU_STATUS_TCF BIT(1)
#define LPU_TBU_STATUS_TTNG BIT(2)
#define LPU_TBU_STATUS_TITR BIT(8)
#define LPU_TBU_STATUS_TEMR BIT(16)
#define LPU_TBU_STATUS_TTF BIT(31)
/* LPU_TBU_CONTROL BITS */
#define LPU_TBU_CTRL_TLBPEN BIT(16)
/* CROSSBAR CONTROL BITS */
#define CBU_INPUT_CTRL_EN BIT(0)
#define CBU_NUM_INPUT_IDS 5
#define CBU_NUM_OUTPUT_IDS 5
/* CU register */
#define CU_BG_COLOR 0x0DC
#define CU_INPUT0_SIZE 0x0E0
#define CU_INPUT0_OFFSET 0x0E4
#define CU_INPUT0_CONTROL 0x0E8
#define CU_INPUT1_SIZE 0x0F0
#define CU_INPUT1_OFFSET 0x0F4
#define CU_INPUT1_CONTROL 0x0F8
#define CU_INPUT2_SIZE 0x100
#define CU_INPUT2_OFFSET 0x104
#define CU_INPUT2_CONTROL 0x108
#define CU_INPUT3_SIZE 0x110
#define CU_INPUT3_OFFSET 0x114
#define CU_INPUT3_CONTROL 0x118
#define CU_INPUT4_SIZE 0x120
#define CU_INPUT4_OFFSET 0x124
#define CU_INPUT4_CONTROL 0x128
#define CU_PER_INPUT_REGS 4
#define CU_NUM_INPUT_IDS 5
#define CU_NUM_OUTPUT_IDS 1
/* CU control register bits */
#define CU_CTRL_COPROC BIT(0)
/* CU_IRQ_BITS */
#define CU_IRQ_OVR BIT(9)
#define CU_IRQ_ERR BIT(11)
/* CU_STATUS_BITS */
#define CU_STATUS_CPE BIT(0)
#define CU_STATUS_ZME BIT(1)
#define CU_STATUS_CFGE BIT(2)
#define CU_STATUS_ACTIVE BIT(31)
/* CU input control register bits */
#define CU_INPUT_CTRL_EN BIT(0)
#define CU_INPUT_CTRL_PAD BIT(1)
#define CU_INPUT_CTRL_PMUL BIT(2)
#define CU_INPUT_CTRL_ALPHA(x) (((x) & 0xFF) << 8)
/* DOU register */
/* DOU_IRQ_BITS */
#define DOU_IRQ_UND BIT(8)
#define DOU_IRQ_ERR BIT(11)
#define DOU_IRQ_PL0 BIT(13)
#define DOU_IRQ_PL1 BIT(14)
/* DOU_STATUS_BITS */
#define DOU_STATUS_DRIFTTO BIT(0)
#define DOU_STATUS_FRAMETO BIT(1)
#define DOU_STATUS_TETO BIT(2)
#define DOU_STATUS_CSCE BIT(8)
#define DOU_STATUS_ACTIVE BIT(31)
/* Layer registers */
#define LAYER_INFO 0x0C0
#define LAYER_R_CONTROL 0x0D4
#define LAYER_FMT 0x0D8
#define LAYER_LT_COEFFTAB 0x0DC
#define LAYER_PALPHA 0x0E4
#define LAYER_YUV_RGB_COEFF0 0x130
#define LAYER_AD_H_CROP 0x164
#define LAYER_AD_V_CROP 0x168
#define LAYER_RGB_RGB_COEFF0 0x170
/* L_CONTROL_BITS */
#define L_EN BIT(0)
#define L_IT BIT(4)
#define L_R2R BIT(5)
#define L_FT BIT(6)
#define L_ROT(x) (((x) & 3) << 8)
#define L_HFLIP BIT(10)
#define L_VFLIP BIT(11)
#define L_TBU_EN BIT(16)
#define L_A_RCACHE(x) (((x) & 0xF) << 28)
#define L_ROT_R0 0
#define L_ROT_R90 1
#define L_ROT_R180 2
#define L_ROT_R270 3
/* LAYER_R_CONTROL BITS */
#define LR_CHI422_BILINEAR 0
#define LR_CHI422_REPLICATION 1
#define LR_CHI420_JPEG (0 << 2)
#define LR_CHI420_MPEG (1 << 2)
#define L_ITSEL(x) ((x) & 0xFFF)
#define L_FTSEL(x) (((x) & 0xFFF) << 16)
#define LAYER_PER_PLANE_REGS 4
/* Layer_WR registers */
#define LAYER_WR_PROG_LINE 0x0D4
#define LAYER_WR_FORMAT 0x0D8
/* Layer_WR control bits */
#define LW_OFM BIT(4)
#define LW_LALPHA(x) (((x) & 0xFF) << 8)
#define LW_A_WCACHE(x) (((x) & 0xF) << 28)
#define LW_TBU_EN BIT(16)
#define AxCACHE_MASK 0xF0000000
/* Layer AXI R/W cache setting */
#define AxCACHE_B BIT(0) /* Bufferable */
#define AxCACHE_M BIT(1) /* Modifiable */
#define AxCACHE_RA BIT(2) /* Read-Allocate */
#define AxCACHE_WA BIT(3) /* Write-Allocate */
/* Layer info bits */
#define L_INFO_RF BIT(0)
#define L_INFO_CM BIT(1)
#define L_INFO_ABUF_SIZE(x) (((x) >> 4) & 0x7)
/* Scaler registers */
#define SC_COEFFTAB 0x0DC
#define SC_OUT_SIZE 0x0E4
#define SC_H_CROP 0x0E8
#define SC_V_CROP 0x0EC
#define SC_H_INIT_PH 0x0F0
#define SC_H_DELTA_PH 0x0F4
#define SC_V_INIT_PH 0x0F8
#define SC_V_DELTA_PH 0x0FC
#define SC_ENH_LIMITS 0x130
#define SC_ENH_COEFF0 0x134
#define SC_MAX_ENH_COEFF 9
/* SC_CTRL_BITS */
#define SC_CTRL_SCL BIT(0)
#define SC_CTRL_LS BIT(1)
#define SC_CTRL_AP BIT(4)
#define SC_CTRL_IENH BIT(8)
#define SC_CTRL_RGBSM BIT(16)
#define SC_CTRL_ASM BIT(17)
#define SC_VTSEL(vtal) ((vtal) << 16)
#define SC_NUM_INPUTS_IDS 1
#define SC_NUM_OUTPUTS_IDS 1
#define MG_NUM_INPUTS_IDS 2
#define MG_NUM_OUTPUTS_IDS 1
/* Merger registers */
#define MG_INPUT_ID0 BLK_INPUT_ID0
#define MG_INPUT_ID1 (MG_INPUT_ID0 + 4)
#define MG_SIZE BLK_SIZE
/* Splitter registers */
#define SP_OVERLAP_SIZE 0xD8
/* Backend registers */
#define BS_INFO 0x0C0
#define BS_PROG_LINE 0x0D4
#define BS_PREFETCH_LINE 0x0D8
#define BS_BG_COLOR 0x0DC
#define BS_ACTIVESIZE 0x0E0
#define BS_HINTERVALS 0x0E4
#define BS_VINTERVALS 0x0E8
#define BS_SYNC 0x0EC
#define BS_DRIFT_TO 0x100
#define BS_FRAME_TO 0x104
#define BS_TE_TO 0x108
#define BS_T0_INTERVAL 0x110
#define BS_T1_INTERVAL 0x114
#define BS_T2_INTERVAL 0x118
#define BS_CRC0_LOW 0x120
#define BS_CRC0_HIGH 0x124
#define BS_CRC1_LOW 0x128
#define BS_CRC1_HIGH 0x12C
#define BS_USER 0x130
/* BS control register bits */
#define BS_CTRL_EN BIT(0)
#define BS_CTRL_VM BIT(1)
#define BS_CTRL_BM BIT(2)
#define BS_CTRL_HMASK BIT(4)
#define BS_CTRL_VD BIT(5)
#define BS_CTRL_TE BIT(8)
#define BS_CTRL_TS BIT(9)
#define BS_CTRL_TM BIT(12)
#define BS_CTRL_DL BIT(16)
#define BS_CTRL_SBS BIT(17)
#define BS_CTRL_CRC BIT(18)
#define BS_CTRL_PM BIT(20)
/* BS active size/intervals */
#define BS_H_INTVALS(hfp, hbp) (((hfp) & 0xFFF) + (((hbp) & 0x3FF) << 16))
#define BS_V_INTVALS(vfp, vbp) (((vfp) & 0x3FFF) + (((vbp) & 0xFF) << 16))
/* BS_SYNC bits */
#define BS_SYNC_HSW(x) ((x) & 0x3FF)
#define BS_SYNC_HSP BIT(12)
#define BS_SYNC_VSW(x) (((x) & 0xFF) << 16)
#define BS_SYNC_VSP BIT(28)
#define BS_NUM_INPUT_IDS 0
#define BS_NUM_OUTPUT_IDS 0
/* Image process registers */
#define IPS_DEPTH 0x0D8
#define IPS_RGB_RGB_COEFF0 0x130
#define IPS_RGB_YUV_COEFF0 0x170
#define IPS_DEPTH_MARK 0xF
/* IPS control register bits */
#define IPS_CTRL_RGB BIT(0)
#define IPS_CTRL_FT BIT(4)
#define IPS_CTRL_YUV BIT(8)
#define IPS_CTRL_CHD422 BIT(9)
#define IPS_CTRL_CHD420 BIT(10)
#define IPS_CTRL_LPF BIT(11)
#define IPS_CTRL_DITH BIT(12)
#define IPS_CTRL_CLAMP BIT(16)
#define IPS_CTRL_SBS BIT(17)
/* IPS info register bits */
#define IPS_INFO_CHD420 BIT(10)
#define IPS_NUM_INPUT_IDS 2
#define IPS_NUM_OUTPUT_IDS 1
/* FT_COEFF block registers */
#define FT_COEFF0 0x80
#define GLB_IT_COEFF 0x80
/* GLB_SC_COEFF registers */
#define GLB_SC_COEFF_ADDR 0x0080
#define GLB_SC_COEFF_DATA 0x0084
#define GLB_LT_COEFF_DATA 0x0080
#define GLB_SC_COEFF_MAX_NUM 1024
#define GLB_LT_COEFF_NUM 65
/* GLB_SC_ADDR */
#define SC_COEFF_R_ADDR BIT(18)
#define SC_COEFF_G_ADDR BIT(17)
#define SC_COEFF_B_ADDR BIT(16)
#define SC_COEFF_DATA(x, y) (((y) & 0xFFFF) | (((x) & 0xFFFF) << 16))
enum d71_blk_type {
D71_BLK_TYPE_GCU = 0x00,
D71_BLK_TYPE_LPU = 0x01,
D71_BLK_TYPE_CU = 0x02,
D71_BLK_TYPE_DOU = 0x03,
D71_BLK_TYPE_AEU = 0x04,
D71_BLK_TYPE_GLB_LT_COEFF = 0x05,
D71_BLK_TYPE_GLB_SCL_COEFF = 0x06, /* SH/SV scaler coeff */
D71_BLK_TYPE_GLB_SC_COEFF = 0x07,
D71_BLK_TYPE_PERIPH = 0x08,
D71_BLK_TYPE_LPU_TRUSTED = 0x09,
D71_BLK_TYPE_AEU_TRUSTED = 0x0A,
D71_BLK_TYPE_LPU_LAYER = 0x10,
D71_BLK_TYPE_LPU_WB_LAYER = 0x11,
D71_BLK_TYPE_CU_SPLITTER = 0x20,
D71_BLK_TYPE_CU_SCALER = 0x21,
D71_BLK_TYPE_CU_MERGER = 0x22,
D71_BLK_TYPE_DOU_IPS = 0x30,
D71_BLK_TYPE_DOU_BS = 0x31,
D71_BLK_TYPE_DOU_FT_COEFF = 0x32,
D71_BLK_TYPE_AEU_DS = 0x40,
D71_BLK_TYPE_AEU_AES = 0x41,
D71_BLK_TYPE_RESERVED = 0xFF
};
/* Constant of components */
#define D71_MAX_PIPELINE 2
#define D71_PIPELINE_MAX_SCALERS 2
#define D71_PIPELINE_MAX_LAYERS 4
#define D71_MAX_GLB_IT_COEFF 3
#define D71_MAX_GLB_SCL_COEFF 4
#define D71_MAX_LAYERS_PER_LPU 4
#define D71_BLOCK_MAX_INPUT 9
#define D71_BLOCK_MAX_OUTPUT 5
#define D71_MAX_SC_PER_CU 2
#define D71_BLOCK_OFFSET_PERIPH 0xFE00
#define D71_BLOCK_SIZE 0x0200
#define D71_DEFAULT_PREPRETCH_LINE 5
#define D71_BUS_WIDTH_16_BYTES 16
#define D71_MIN_LINE_SIZE 64
#define D71_MIN_VERTICAL_SIZE 64
#define D71_SC_MIN_LIN_SIZE 4
#define D71_SC_MIN_VERTICAL_SIZE 4
#define D71_SC_MAX_LIN_SIZE 2048
#define D71_SC_MAX_VERTICAL_SIZE 4096
#define D71_SC_MAX_UPSCALING 64
#define D71_SC_MAX_DOWNSCALING 6
#define D71_SC_SPLIT_OVERLAP 8
#define D71_SC_ENH_SPLIT_OVERLAP 1
#define D71_MG_MIN_MERGED_SIZE 4
#define D71_MG_MAX_MERGED_HSIZE 4032
#define D71_MG_MAX_MERGED_VSIZE 4096
#define D71_PALPHA_DEF_MAP 0xFFAA5500
#define D71_LAYER_CONTROL_DEFAULT 0x30000000
#define D71_WB_LAYER_CONTROL_DEFAULT 0x3000FF00
#define D71_BS_CONTROL_DEFAULT 0x00000002
struct block_header {
u32 block_info;
u32 pipeline_info;
u32 input_ids[D71_BLOCK_MAX_INPUT];
u32 output_ids[D71_BLOCK_MAX_OUTPUT];
};
static inline u32 get_block_type(struct block_header *blk)
{
return BLOCK_INFO_BLK_TYPE(blk->block_info);
}
#endif /* !_D71_REG_H_ */
......@@ -19,17 +19,17 @@ komeda_pipeline_add(struct komeda_dev *mdev, size_t size,
if (mdev->n_pipelines + 1 > KOMEDA_MAX_PIPELINES) {
DRM_ERROR("Exceed max support %d pipelines.\n",
KOMEDA_MAX_PIPELINES);
return NULL;
return ERR_PTR(-ENOSPC);
}
if (size < sizeof(*pipe)) {
DRM_ERROR("Request pipeline size too small.\n");
return NULL;
return ERR_PTR(-EINVAL);
}
pipe = devm_kzalloc(mdev->dev, size, GFP_KERNEL);
if (!pipe)
return NULL;
return ERR_PTR(-ENOMEM);
pipe->mdev = mdev;
pipe->id = mdev->n_pipelines;
......@@ -142,32 +142,32 @@ komeda_component_add(struct komeda_pipeline *pipe,
if (max_active_inputs > KOMEDA_COMPONENT_N_INPUTS) {
WARN(1, "please large KOMEDA_COMPONENT_N_INPUTS to %d.\n",
max_active_inputs);
return NULL;
return ERR_PTR(-ENOSPC);
}
pos = komeda_pipeline_get_component_pos(pipe, id);
if (!pos || (*pos))
return NULL;
return ERR_PTR(-EINVAL);
if (has_bit(id, KOMEDA_PIPELINE_LAYERS)) {
idx = id - KOMEDA_COMPONENT_LAYER0;
num = &pipe->n_layers;
if (idx != pipe->n_layers) {
DRM_ERROR("please add Layer by id sequence.\n");
return NULL;
return ERR_PTR(-EINVAL);
}
} else if (has_bit(id, KOMEDA_PIPELINE_SCALERS)) {
idx = id - KOMEDA_COMPONENT_SCALER0;
num = &pipe->n_scalers;
if (idx != pipe->n_scalers) {
DRM_ERROR("please add Scaler by id sequence.\n");
return NULL;
return ERR_PTR(-EINVAL);
}
}
c = devm_kzalloc(pipe->mdev->dev, comp_sz, GFP_KERNEL);
if (!c)
return NULL;
return ERR_PTR(-ENOMEM);
c->id = id;
c->hw_id = hw_id;
......
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