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338 lines
9 KiB
C
338 lines
9 KiB
C
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// SPDX-License-Identifier: GPL-2.0
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/*
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* Qualcomm MSM Camera Subsystem - CSID (CSI Decoder) Module
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*
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* Copyright (c) 2024 Qualcomm Technologies, Inc.
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*/
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#include <linux/completion.h>
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#include <linux/delay.h>
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#include <linux/interrupt.h>
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#include <linux/io.h>
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#include <linux/kernel.h>
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#include <linux/of.h>
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#include "camss.h"
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#include "camss-csid.h"
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#include "camss-csid-780.h"
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#define CSID_IO_PATH_CFG0(csid) (0x4 * (csid))
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#define OUTPUT_IFE_EN 0x100
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#define INTERNAL_CSID 1
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#define CSID_RST_CFG 0xC
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#define RST_MODE BIT(0)
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#define RST_LOCATION BIT(4)
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#define CSID_RST_CMD 0x10
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#define SELECT_HW_RST BIT(0)
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#define SELECT_IRQ_RST BIT(2)
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#define CSID_IRQ_CMD 0x14
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#define IRQ_CMD_CLEAR BIT(0)
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#define CSID_RUP_AUP_CMD 0x18
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#define CSID_RUP_AUP_RDI(rdi) ((BIT(4) | BIT(20)) << (rdi))
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#define CSID_TOP_IRQ_STATUS 0x7C
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#define TOP_IRQ_STATUS_RESET_DONE BIT(0)
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#define CSID_TOP_IRQ_MASK 0x80
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#define CSID_TOP_IRQ_CLEAR 0x84
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#define CSID_TOP_IRQ_SET 0x88
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#define CSID_CSI2_RX_IRQ_STATUS 0x9C
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#define CSID_CSI2_RX_IRQ_MASK 0xA0
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#define CSID_CSI2_RX_IRQ_CLEAR 0xA4
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#define CSID_CSI2_RX_IRQ_SET 0xA8
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#define CSID_BUF_DONE_IRQ_STATUS 0x8C
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#define BUF_DONE_IRQ_STATUS_RDI_OFFSET (csid_is_lite(csid) ? 1 : 14)
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#define CSID_BUF_DONE_IRQ_MASK 0x90
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#define CSID_BUF_DONE_IRQ_CLEAR 0x94
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#define CSID_BUF_DONE_IRQ_SET 0x98
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#define CSID_CSI2_RDIN_IRQ_STATUS(rdi) (0xEC + 0x10 * (rdi))
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#define RUP_DONE_IRQ_STATUS BIT(23)
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#define CSID_CSI2_RDIN_IRQ_CLEAR(rdi) (0xF4 + 0x10 * (rdi))
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#define CSID_CSI2_RDIN_IRQ_SET(rdi) (0xF8 + 0x10 * (rdi))
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#define CSID_CSI2_RX_CFG0 0x200
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#define CSI2_RX_CFG0_NUM_ACTIVE_LANES 0
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#define CSI2_RX_CFG0_DL0_INPUT_SEL 4
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#define CSI2_RX_CFG0_PHY_NUM_SEL 20
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#define CSID_CSI2_RX_CFG1 0x204
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#define CSI2_RX_CFG1_ECC_CORRECTION_EN BIT(0)
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#define CSI2_RX_CFG1_VC_MODE BIT(2)
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#define CSID_RDI_CFG0(rdi) (0x500 + 0x100 * (rdi))
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#define RDI_CFG0_TIMESTAMP_EN BIT(6)
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#define RDI_CFG0_TIMESTAMP_STB_SEL BIT(8)
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#define RDI_CFG0_DECODE_FORMAT 12
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#define RDI_CFG0_DT 16
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#define RDI_CFG0_VC 22
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#define RDI_CFG0_DT_ID 27
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#define RDI_CFG0_EN BIT(31)
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#define CSID_RDI_CTRL(rdi) (0x504 + 0x100 * (rdi))
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#define RDI_CTRL_START_CMD BIT(0)
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#define CSID_RDI_CFG1(rdi) (0x510 + 0x100 * (rdi))
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#define RDI_CFG1_DROP_H_EN BIT(5)
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#define RDI_CFG1_DROP_V_EN BIT(6)
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#define RDI_CFG1_CROP_H_EN BIT(7)
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#define RDI_CFG1_CROP_V_EN BIT(8)
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#define RDI_CFG1_PIX_STORE BIT(10)
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#define RDI_CFG1_PACKING_FORMAT_MIPI BIT(15)
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#define CSID_RDI_IRQ_SUBSAMPLE_PATTERN(rdi) (0x548 + 0x100 * (rdi))
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#define CSID_RDI_IRQ_SUBSAMPLE_PERIOD(rdi) (0x54C + 0x100 * (rdi))
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#define CSI2_RX_CFG0_PHY_SEL_BASE_IDX 1
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static void __csid_configure_rx(struct csid_device *csid,
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struct csid_phy_config *phy, int vc)
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{
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int val;
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val = (phy->lane_cnt - 1) << CSI2_RX_CFG0_NUM_ACTIVE_LANES;
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val |= phy->lane_assign << CSI2_RX_CFG0_DL0_INPUT_SEL;
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val |= (phy->csiphy_id + CSI2_RX_CFG0_PHY_SEL_BASE_IDX) << CSI2_RX_CFG0_PHY_NUM_SEL;
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writel(val, csid->base + CSID_CSI2_RX_CFG0);
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val = CSI2_RX_CFG1_ECC_CORRECTION_EN;
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if (vc > 3)
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val |= CSI2_RX_CFG1_VC_MODE;
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writel(val, csid->base + CSID_CSI2_RX_CFG1);
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}
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static void __csid_ctrl_rdi(struct csid_device *csid, int enable, u8 rdi)
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{
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int val = 0;
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if (enable)
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val = RDI_CTRL_START_CMD;
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writel(val, csid->base + CSID_RDI_CTRL(rdi));
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}
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static void __csid_configure_wrapper(struct csid_device *csid)
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{
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u32 val;
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/* csid lite doesn't need to configure top register */
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if (csid->res->is_lite)
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return;
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val = OUTPUT_IFE_EN | INTERNAL_CSID;
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writel(val, csid->camss->csid_wrapper_base + CSID_IO_PATH_CFG0(csid->id));
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}
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static void __csid_configure_rdi_stream(struct csid_device *csid, u8 enable, u8 vc)
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{
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u32 val;
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u8 lane_cnt = csid->phy.lane_cnt;
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/* Source pads matching RDI channels on hardware. Pad 1 -> RDI0, Pad 2 -> RDI1, etc. */
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struct v4l2_mbus_framefmt *input_format = &csid->fmt[MSM_CSID_PAD_FIRST_SRC + vc];
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const struct csid_format_info *format = csid_get_fmt_entry(csid->res->formats->formats,
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csid->res->formats->nformats,
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input_format->code);
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if (!lane_cnt)
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lane_cnt = 4;
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/*
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* DT_ID is a two bit bitfield that is concatenated with
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* the four least significant bits of the five bit VC
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* bitfield to generate an internal CID value.
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*
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* CSID_RDI_CFG0(vc)
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* DT_ID : 28:27
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* VC : 26:22
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* DT : 21:16
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*
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* CID : VC 3:0 << 2 | DT_ID 1:0
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*/
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u8 dt_id = vc & 0x03;
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val = RDI_CFG0_TIMESTAMP_EN;
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val |= RDI_CFG0_TIMESTAMP_STB_SEL;
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/* note: for non-RDI path, this should be format->decode_format */
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val |= DECODE_FORMAT_PAYLOAD_ONLY << RDI_CFG0_DECODE_FORMAT;
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val |= vc << RDI_CFG0_VC;
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val |= format->data_type << RDI_CFG0_DT;
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val |= dt_id << RDI_CFG0_DT_ID;
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writel(val, csid->base + CSID_RDI_CFG0(vc));
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val = RDI_CFG1_PACKING_FORMAT_MIPI;
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val |= RDI_CFG1_PIX_STORE;
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val |= RDI_CFG1_DROP_H_EN;
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val |= RDI_CFG1_DROP_V_EN;
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val |= RDI_CFG1_CROP_H_EN;
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val |= RDI_CFG1_CROP_V_EN;
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writel(val, csid->base + CSID_RDI_CFG1(vc));
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val = 0;
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writel(val, csid->base + CSID_RDI_IRQ_SUBSAMPLE_PERIOD(vc));
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val = 1;
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writel(val, csid->base + CSID_RDI_IRQ_SUBSAMPLE_PATTERN(vc));
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val = 0;
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writel(val, csid->base + CSID_RDI_CTRL(vc));
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val = readl(csid->base + CSID_RDI_CFG0(vc));
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if (enable)
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val |= RDI_CFG0_EN;
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writel(val, csid->base + CSID_RDI_CFG0(vc));
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}
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static void csid_configure_stream(struct csid_device *csid, u8 enable)
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{
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u8 i;
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__csid_configure_wrapper(csid);
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/* Loop through all enabled VCs and configure stream for each */
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for (i = 0; i < MSM_CSID_MAX_SRC_STREAMS; i++)
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if (csid->phy.en_vc & BIT(i)) {
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__csid_configure_rdi_stream(csid, enable, i);
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__csid_configure_rx(csid, &csid->phy, i);
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__csid_ctrl_rdi(csid, enable, i);
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}
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}
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static int csid_configure_testgen_pattern(struct csid_device *csid, s32 val)
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{
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return 0;
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}
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static void csid_subdev_reg_update(struct csid_device *csid, int port_id, bool clear)
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{
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if (clear) {
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csid->reg_update &= ~CSID_RUP_AUP_RDI(port_id);
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} else {
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csid->reg_update |= CSID_RUP_AUP_RDI(port_id);
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writel(csid->reg_update, csid->base + CSID_RUP_AUP_CMD);
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}
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}
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/*
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* csid_isr - CSID module interrupt service routine
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* @irq: Interrupt line
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* @dev: CSID device
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*
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* Return IRQ_HANDLED on success
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*/
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static irqreturn_t csid_isr(int irq, void *dev)
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{
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struct csid_device *csid = dev;
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u32 val, buf_done_val;
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u8 reset_done;
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int i;
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val = readl(csid->base + CSID_TOP_IRQ_STATUS);
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writel(val, csid->base + CSID_TOP_IRQ_CLEAR);
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reset_done = val & TOP_IRQ_STATUS_RESET_DONE;
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val = readl(csid->base + CSID_CSI2_RX_IRQ_STATUS);
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writel(val, csid->base + CSID_CSI2_RX_IRQ_CLEAR);
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buf_done_val = readl(csid->base + CSID_BUF_DONE_IRQ_STATUS);
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writel(buf_done_val, csid->base + CSID_BUF_DONE_IRQ_CLEAR);
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/* Read and clear IRQ status for each enabled RDI channel */
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for (i = 0; i < MSM_CSID_MAX_SRC_STREAMS; i++)
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if (csid->phy.en_vc & BIT(i)) {
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val = readl(csid->base + CSID_CSI2_RDIN_IRQ_STATUS(i));
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writel(val, csid->base + CSID_CSI2_RDIN_IRQ_CLEAR(i));
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if (val & RUP_DONE_IRQ_STATUS)
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/* clear the reg update bit */
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csid_subdev_reg_update(csid, i, true);
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if (buf_done_val & BIT(BUF_DONE_IRQ_STATUS_RDI_OFFSET + i)) {
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/*
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* For Titan 780, bus done and RUP IRQ have been moved to
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* CSID from VFE. Once CSID received bus done, need notify
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* VFE of this event. Trigger VFE to handle bus done process.
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*/
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camss_buf_done(csid->camss, csid->id, i);
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}
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}
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val = IRQ_CMD_CLEAR;
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writel(val, csid->base + CSID_IRQ_CMD);
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if (reset_done)
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complete(&csid->reset_complete);
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return IRQ_HANDLED;
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}
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/*
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* csid_reset - Trigger reset on CSID module and wait to complete
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* @csid: CSID device
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*
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* Return 0 on success or a negative error code otherwise
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*/
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static int csid_reset(struct csid_device *csid)
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{
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unsigned long time;
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u32 val;
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int i;
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reinit_completion(&csid->reset_complete);
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writel(1, csid->base + CSID_TOP_IRQ_CLEAR);
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writel(1, csid->base + CSID_IRQ_CMD);
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writel(1, csid->base + CSID_TOP_IRQ_MASK);
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for (i = 0; i < MSM_CSID_MAX_SRC_STREAMS; i++)
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if (csid->phy.en_vc & BIT(i)) {
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writel(BIT(BUF_DONE_IRQ_STATUS_RDI_OFFSET + i),
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csid->base + CSID_BUF_DONE_IRQ_CLEAR);
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writel(IRQ_CMD_CLEAR, csid->base + CSID_IRQ_CMD);
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writel(BIT(BUF_DONE_IRQ_STATUS_RDI_OFFSET + i),
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csid->base + CSID_BUF_DONE_IRQ_MASK);
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}
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/* preserve registers */
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val = RST_LOCATION | RST_MODE;
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writel(val, csid->base + CSID_RST_CFG);
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val = SELECT_HW_RST | SELECT_IRQ_RST;
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writel(val, csid->base + CSID_RST_CMD);
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time = wait_for_completion_timeout(&csid->reset_complete,
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msecs_to_jiffies(CSID_RESET_TIMEOUT_MS));
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if (!time) {
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dev_err(csid->camss->dev, "CSID reset timeout\n");
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return -EIO;
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}
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return 0;
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}
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static void csid_subdev_init(struct csid_device *csid)
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{
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csid->testgen.nmodes = CSID_PAYLOAD_MODE_DISABLED;
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}
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const struct csid_hw_ops csid_ops_780 = {
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.configure_stream = csid_configure_stream,
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.configure_testgen_pattern = csid_configure_testgen_pattern,
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.hw_version = csid_hw_version,
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.isr = csid_isr,
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.reset = csid_reset,
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||
|
|
.src_pad_code = csid_src_pad_code,
|
||
|
|
.subdev_init = csid_subdev_init,
|
||
|
|
.reg_update = csid_subdev_reg_update,
|
||
|
|
};
|