M7350/kernel/drivers/video/msm/mipi_dsi_host.c
2024-09-09 08:52:07 +00:00

1679 lines
35 KiB
C

/* Copyright (c) 2008-2012, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*/
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/time.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/spinlock.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/semaphore.h>
#include <linux/uaccess.h>
#include <linux/clk.h>
#include <linux/platform_device.h>
#include <linux/iopoll.h>
#include <asm/system.h>
#include <asm/mach-types.h>
#include <mach/hardware.h>
#include <mach/gpio.h>
#include <mach/clk.h>
#include <mach/dma.h>
#include "msm_fb.h"
#include "mipi_dsi.h"
#include "mdp.h"
#include "mdp4.h"
static struct completion dsi_dma_comp;
static struct completion dsi_mdp_comp;
static struct dsi_buf dsi_tx_buf;
static struct dsi_buf dsi_rx_buf;
static spinlock_t dsi_irq_lock;
static spinlock_t dsi_mdp_lock;
spinlock_t dsi_clk_lock;
static int dsi_ctrl_lock;
static int dsi_mdp_busy;
static struct mutex cmd_mutex;
static struct mutex clk_mutex;
static struct list_head pre_kickoff_list;
static struct list_head post_kickoff_list;
enum {
STAT_DSI_START,
STAT_DSI_ERROR,
STAT_DSI_CMD,
STAT_DSI_MDP
};
struct dcs_cmd_list cmdlist;
#ifdef CONFIG_FB_MSM_MDP40
void mipi_dsi_mdp_stat_inc(int which)
{
switch (which) {
case STAT_DSI_START:
mdp4_stat.dsi_mdp_start++;
break;
case STAT_DSI_ERROR:
mdp4_stat.intr_dsi_err++;
break;
case STAT_DSI_CMD:
mdp4_stat.intr_dsi_cmd++;
break;
case STAT_DSI_MDP:
mdp4_stat.intr_dsi_mdp++;
break;
default:
break;
}
}
#else
void mipi_dsi_mdp_stat_inc(int which)
{
}
#endif
void mipi_dsi_init(void)
{
init_completion(&dsi_dma_comp);
init_completion(&dsi_mdp_comp);
mipi_dsi_buf_alloc(&dsi_tx_buf, DSI_BUF_SIZE);
mipi_dsi_buf_alloc(&dsi_rx_buf, DSI_BUF_SIZE);
spin_lock_init(&dsi_irq_lock);
spin_lock_init(&dsi_mdp_lock);
spin_lock_init(&dsi_clk_lock);
mutex_init(&cmd_mutex);
mutex_init(&clk_mutex);
INIT_LIST_HEAD(&pre_kickoff_list);
INIT_LIST_HEAD(&post_kickoff_list);
}
static u32 dsi_irq_mask;
void mipi_dsi_enable_irq(u32 term)
{
unsigned long flags;
spin_lock_irqsave(&dsi_irq_lock, flags);
if (dsi_irq_mask & term) {
spin_unlock_irqrestore(&dsi_irq_lock, flags);
return;
}
if (dsi_irq_mask == 0) {
enable_irq(dsi_irq);
pr_debug("%s: IRQ Enable, mask=%x term=%x\n",
__func__, (int)dsi_irq_mask, (int)term);
}
dsi_irq_mask |= term;
spin_unlock_irqrestore(&dsi_irq_lock, flags);
}
void mipi_dsi_disable_irq(u32 term)
{
unsigned long flags;
spin_lock_irqsave(&dsi_irq_lock, flags);
if (!(dsi_irq_mask & term)) {
spin_unlock_irqrestore(&dsi_irq_lock, flags);
return;
}
dsi_irq_mask &= ~term;
if (dsi_irq_mask == 0) {
disable_irq(dsi_irq);
pr_debug("%s: IRQ Disable, mask=%x term=%x\n",
__func__, (int)dsi_irq_mask, (int)term);
}
spin_unlock_irqrestore(&dsi_irq_lock, flags);
}
/*
* mipi_dsi_disale_irq_nosync() should be called
* from interrupt context
*/
void mipi_dsi_disable_irq_nosync(u32 term)
{
spin_lock(&dsi_irq_lock);
if (!(dsi_irq_mask & term)) {
spin_unlock(&dsi_irq_lock);
return;
}
dsi_irq_mask &= ~term;
if (dsi_irq_mask == 0) {
disable_irq_nosync(dsi_irq);
pr_debug("%s: IRQ Disable, mask=%x term=%x\n",
__func__, (int)dsi_irq_mask, (int)term);
}
spin_unlock(&dsi_irq_lock);
}
void mipi_dsi_clk_cfg(int on)
{
static int dsi_clk_cnt;
mutex_lock(&clk_mutex);
if (on) {
if (dsi_clk_cnt == 0) {
mipi_dsi_prepare_clocks();
mipi_dsi_ahb_ctrl(1);
mipi_dsi_clk_enable();
}
dsi_clk_cnt++;
} else {
if (dsi_clk_cnt) {
dsi_clk_cnt--;
if (dsi_clk_cnt == 0) {
mipi_dsi_clk_disable();
mipi_dsi_ahb_ctrl(0);
mipi_dsi_unprepare_clocks();
}
}
}
pr_debug("%s: on=%d clk_cnt=%d pid=%d\n", __func__,
on, dsi_clk_cnt, current->pid);
mutex_unlock(&clk_mutex);
}
void mipi_dsi_turn_on_clks(void)
{
mipi_dsi_ahb_ctrl(1);
mipi_dsi_clk_enable();
}
void mipi_dsi_turn_off_clks(void)
{
mipi_dsi_clk_disable();
mipi_dsi_ahb_ctrl(0);
}
static void mipi_dsi_action(struct list_head *act_list)
{
struct list_head *lp;
struct dsi_kickoff_action *act;
list_for_each(lp, act_list) {
act = list_entry(lp, struct dsi_kickoff_action, act_entry);
if (act && act->action)
act->action(act->data);
}
}
void mipi_dsi_pre_kickoff_action(void)
{
mipi_dsi_action(&pre_kickoff_list);
}
void mipi_dsi_post_kickoff_action(void)
{
mipi_dsi_action(&post_kickoff_list);
}
/*
* mipi_dsi_pre_kickoff_add:
* ov_mutex need to be acquired before call this function.
*/
void mipi_dsi_pre_kickoff_add(struct dsi_kickoff_action *act)
{
if (act)
list_add_tail(&act->act_entry, &pre_kickoff_list);
}
/*
* mipi_dsi_pre_kickoff_add:
* ov_mutex need to be acquired before call this function.
*/
void mipi_dsi_post_kickoff_add(struct dsi_kickoff_action *act)
{
if (act)
list_add_tail(&act->act_entry, &post_kickoff_list);
}
/*
* mipi_dsi_pre_kickoff_add:
* ov_mutex need to be acquired before call this function.
*/
void mipi_dsi_pre_kickoff_del(struct dsi_kickoff_action *act)
{
if (!list_empty(&pre_kickoff_list) && act)
list_del(&act->act_entry);
}
/*
* mipi_dsi_pre_kickoff_add:
* ov_mutex need to be acquired before call this function.
*/
void mipi_dsi_post_kickoff_del(struct dsi_kickoff_action *act)
{
if (!list_empty(&post_kickoff_list) && act)
list_del(&act->act_entry);
}
/*
* mipi dsi buf mechanism
*/
char *mipi_dsi_buf_reserve(struct dsi_buf *dp, int len)
{
dp->data += len;
return dp->data;
}
char *mipi_dsi_buf_unreserve(struct dsi_buf *dp, int len)
{
dp->data -= len;
return dp->data;
}
char *mipi_dsi_buf_push(struct dsi_buf *dp, int len)
{
dp->data -= len;
dp->len += len;
return dp->data;
}
char *mipi_dsi_buf_reserve_hdr(struct dsi_buf *dp, int hlen)
{
dp->hdr = (uint32 *)dp->data;
return mipi_dsi_buf_reserve(dp, hlen);
}
char *mipi_dsi_buf_init(struct dsi_buf *dp)
{
int off;
dp->data = dp->start;
off = (int)dp->data;
/* 8 byte align */
off &= 0x07;
if (off)
off = 8 - off;
dp->data += off;
dp->len = 0;
return dp->data;
}
int mipi_dsi_buf_alloc(struct dsi_buf *dp, int size)
{
dp->start = kmalloc(size, GFP_KERNEL);
if (dp->start == NULL) {
pr_err("%s:%u\n", __func__, __LINE__);
return -ENOMEM;
}
dp->end = dp->start + size;
dp->size = size;
if ((int)dp->start & 0x07)
pr_err("%s: buf NOT 8 bytes aligned\n", __func__);
dp->data = dp->start;
dp->len = 0;
return size;
}
/*
* mipi dsi gerneric long write
*/
static int mipi_dsi_generic_lwrite(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
char *bp;
uint32 *hp;
int i, len;
bp = mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
/* fill up payload */
if (cm->payload) {
len = cm->dlen;
len += 3;
len &= ~0x03; /* multipled by 4 */
for (i = 0; i < cm->dlen; i++)
*bp++ = cm->payload[i];
/* append 0xff to the end */
for (; i < len; i++)
*bp++ = 0xff;
dp->len += len;
}
/* fill up header */
hp = dp->hdr;
*hp = 0;
*hp = DSI_HDR_WC(cm->dlen);
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_LONG_PKT;
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_LWRITE);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len;
}
/*
* mipi dsi gerneric short write with 0, 1 2 parameters
*/
static int mipi_dsi_generic_swrite(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
int len;
if (cm->dlen && cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return 0;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
if (cm->last)
*hp |= DSI_HDR_LAST;
len = (cm->dlen > 2) ? 2 : cm->dlen;
if (len == 1) {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_WRITE1);
*hp |= DSI_HDR_DATA1(cm->payload[0]);
*hp |= DSI_HDR_DATA2(0);
} else if (len == 2) {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_WRITE2);
*hp |= DSI_HDR_DATA1(cm->payload[0]);
*hp |= DSI_HDR_DATA2(cm->payload[1]);
} else {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_WRITE);
*hp |= DSI_HDR_DATA1(0);
*hp |= DSI_HDR_DATA2(0);
}
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
/*
* mipi dsi gerneric read with 0, 1 2 parameters
*/
static int mipi_dsi_generic_read(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
int len;
if (cm->dlen && cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return 0;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_BTA;
if (cm->last)
*hp |= DSI_HDR_LAST;
len = (cm->dlen > 2) ? 2 : cm->dlen;
if (len == 1) {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_READ1);
*hp |= DSI_HDR_DATA1(cm->payload[0]);
*hp |= DSI_HDR_DATA2(0);
} else if (len == 2) {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_READ2);
*hp |= DSI_HDR_DATA1(cm->payload[0]);
*hp |= DSI_HDR_DATA2(cm->payload[1]);
} else {
*hp |= DSI_HDR_DTYPE(DTYPE_GEN_READ);
*hp |= DSI_HDR_DATA1(0);
*hp |= DSI_HDR_DATA2(0);
}
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
/*
* mipi dsi dcs long write
*/
static int mipi_dsi_dcs_lwrite(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
char *bp;
uint32 *hp;
int i, len;
bp = mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
/*
* fill up payload
* dcs command byte (first byte) followed by payload
*/
if (cm->payload) {
len = cm->dlen;
len += 3;
len &= ~0x03; /* multipled by 4 */
for (i = 0; i < cm->dlen; i++)
*bp++ = cm->payload[i];
/* append 0xff to the end */
for (; i < len; i++)
*bp++ = 0xff;
dp->len += len;
}
/* fill up header */
hp = dp->hdr;
*hp = 0;
*hp = DSI_HDR_WC(cm->dlen);
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_LONG_PKT;
*hp |= DSI_HDR_DTYPE(DTYPE_DCS_LWRITE);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len;
}
/*
* mipi dsi dcs short write with 0 parameters
*/
static int mipi_dsi_dcs_swrite(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
int len;
if (cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return -EINVAL;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
if (cm->ack) /* ask ACK trigger msg from peripeheral */
*hp |= DSI_HDR_BTA;
if (cm->last)
*hp |= DSI_HDR_LAST;
len = (cm->dlen > 1) ? 1 : cm->dlen;
*hp |= DSI_HDR_DTYPE(DTYPE_DCS_WRITE);
*hp |= DSI_HDR_DATA1(cm->payload[0]); /* dcs command byte */
*hp |= DSI_HDR_DATA2(0);
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len;
}
/*
* mipi dsi dcs short write with 1 parameters
*/
static int mipi_dsi_dcs_swrite1(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
if (cm->dlen < 2 || cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return -EINVAL;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
if (cm->ack) /* ask ACK trigger msg from peripeheral */
*hp |= DSI_HDR_BTA;
if (cm->last)
*hp |= DSI_HDR_LAST;
*hp |= DSI_HDR_DTYPE(DTYPE_DCS_WRITE1);
*hp |= DSI_HDR_DATA1(cm->payload[0]); /* dcs comamnd byte */
*hp |= DSI_HDR_DATA2(cm->payload[1]); /* parameter */
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len;
}
/*
* mipi dsi dcs read with 0 parameters
*/
static int mipi_dsi_dcs_read(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
if (cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return -EINVAL;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_BTA;
*hp |= DSI_HDR_DTYPE(DTYPE_DCS_READ);
if (cm->last)
*hp |= DSI_HDR_LAST;
*hp |= DSI_HDR_DATA1(cm->payload[0]); /* dcs command byte */
*hp |= DSI_HDR_DATA2(0);
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_cm_on(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_CM_ON);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_cm_off(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_CM_OFF);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_peripheral_on(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_PERIPHERAL_ON);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_peripheral_off(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_PERIPHERAL_OFF);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_set_max_pktsize(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
if (cm->payload == 0) {
pr_err("%s: NO payload error\n", __func__);
return 0;
}
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_MAX_PKTSIZE);
if (cm->last)
*hp |= DSI_HDR_LAST;
*hp |= DSI_HDR_DATA1(cm->payload[0]);
*hp |= DSI_HDR_DATA2(cm->payload[1]);
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_null_pkt(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp = DSI_HDR_WC(cm->dlen);
*hp |= DSI_HDR_LONG_PKT;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_NULL_PKT);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
static int mipi_dsi_blank_pkt(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
uint32 *hp;
mipi_dsi_buf_reserve_hdr(dp, DSI_HOST_HDR_SIZE);
hp = dp->hdr;
*hp = 0;
*hp = DSI_HDR_WC(cm->dlen);
*hp |= DSI_HDR_LONG_PKT;
*hp |= DSI_HDR_VC(cm->vc);
*hp |= DSI_HDR_DTYPE(DTYPE_BLANK_PKT);
if (cm->last)
*hp |= DSI_HDR_LAST;
mipi_dsi_buf_push(dp, DSI_HOST_HDR_SIZE);
return dp->len; /* 4 bytes */
}
/*
* prepare cmd buffer to be txed
*/
int mipi_dsi_cmd_dma_add(struct dsi_buf *dp, struct dsi_cmd_desc *cm)
{
int len = 0;
switch (cm->dtype) {
case DTYPE_GEN_WRITE:
case DTYPE_GEN_WRITE1:
case DTYPE_GEN_WRITE2:
len = mipi_dsi_generic_swrite(dp, cm);
break;
case DTYPE_GEN_LWRITE:
len = mipi_dsi_generic_lwrite(dp, cm);
break;
case DTYPE_GEN_READ:
case DTYPE_GEN_READ1:
case DTYPE_GEN_READ2:
len = mipi_dsi_generic_read(dp, cm);
break;
case DTYPE_DCS_LWRITE:
len = mipi_dsi_dcs_lwrite(dp, cm);
break;
case DTYPE_DCS_WRITE:
len = mipi_dsi_dcs_swrite(dp, cm);
break;
case DTYPE_DCS_WRITE1:
len = mipi_dsi_dcs_swrite1(dp, cm);
break;
case DTYPE_DCS_READ:
len = mipi_dsi_dcs_read(dp, cm);
break;
case DTYPE_MAX_PKTSIZE:
len = mipi_dsi_set_max_pktsize(dp, cm);
break;
case DTYPE_NULL_PKT:
len = mipi_dsi_null_pkt(dp, cm);
break;
case DTYPE_BLANK_PKT:
len = mipi_dsi_blank_pkt(dp, cm);
break;
case DTYPE_CM_ON:
len = mipi_dsi_cm_on(dp, cm);
break;
case DTYPE_CM_OFF:
len = mipi_dsi_cm_off(dp, cm);
break;
case DTYPE_PERIPHERAL_ON:
len = mipi_dsi_peripheral_on(dp, cm);
break;
case DTYPE_PERIPHERAL_OFF:
len = mipi_dsi_peripheral_off(dp, cm);
break;
default:
pr_debug("%s: dtype=%x NOT supported\n",
__func__, cm->dtype);
break;
}
return len;
}
/*
* mipi_dsi_short_read1_resp: 1 parameter
*/
static int mipi_dsi_short_read1_resp(struct dsi_buf *rp)
{
/* strip out dcs type */
rp->data++;
rp->len = 1;
return rp->len;
}
/*
* mipi_dsi_short_read2_resp: 2 parameter
*/
static int mipi_dsi_short_read2_resp(struct dsi_buf *rp)
{
/* strip out dcs type */
rp->data++;
rp->len = 2;
return rp->len;
}
static int mipi_dsi_long_read_resp(struct dsi_buf *rp)
{
short len;
len = rp->data[2];
len <<= 8;
len |= rp->data[1];
/* strip out dcs header */
rp->data += 4;
rp->len -= 4;
/* strip out 2 bytes of checksum */
rp->len -= 2;
return len;
}
void mipi_dsi_host_init(struct mipi_panel_info *pinfo)
{
uint32 dsi_ctrl, intr_ctrl;
uint32 data;
if (mdp_rev > MDP_REV_41 || mdp_rev == MDP_REV_303)
pinfo->rgb_swap = DSI_RGB_SWAP_RGB;
else
pinfo->rgb_swap = DSI_RGB_SWAP_BGR;
if (pinfo->mode == DSI_VIDEO_MODE) {
data = 0;
if (pinfo->pulse_mode_hsa_he)
data |= BIT(28);
if (pinfo->hfp_power_stop)
data |= BIT(24);
if (pinfo->hbp_power_stop)
data |= BIT(20);
if (pinfo->hsa_power_stop)
data |= BIT(16);
if (pinfo->eof_bllp_power_stop)
data |= BIT(15);
if (pinfo->bllp_power_stop)
data |= BIT(12);
data |= ((pinfo->traffic_mode & 0x03) << 8);
data |= ((pinfo->dst_format & 0x03) << 4); /* 2 bits */
data |= (pinfo->vc & 0x03);
MIPI_OUTP(MIPI_DSI_BASE + 0x000c, data);
data = 0;
data |= ((pinfo->rgb_swap & 0x07) << 12);
if (pinfo->b_sel)
data |= BIT(8);
if (pinfo->g_sel)
data |= BIT(4);
if (pinfo->r_sel)
data |= BIT(0);
MIPI_OUTP(MIPI_DSI_BASE + 0x001c, data);
} else if (pinfo->mode == DSI_CMD_MODE) {
data = 0;
data |= ((pinfo->interleave_max & 0x0f) << 20);
data |= ((pinfo->rgb_swap & 0x07) << 16);
if (pinfo->b_sel)
data |= BIT(12);
if (pinfo->g_sel)
data |= BIT(8);
if (pinfo->r_sel)
data |= BIT(4);
data |= (pinfo->dst_format & 0x0f); /* 4 bits */
MIPI_OUTP(MIPI_DSI_BASE + 0x003c, data);
/* DSI_COMMAND_MODE_MDP_DCS_CMD_CTRL */
data = pinfo->wr_mem_continue & 0x0ff;
data <<= 8;
data |= (pinfo->wr_mem_start & 0x0ff);
if (pinfo->insert_dcs_cmd)
data |= BIT(16);
MIPI_OUTP(MIPI_DSI_BASE + 0x0040, data);
} else
pr_err("%s: Unknown DSI mode=%d\n", __func__, pinfo->mode);
dsi_ctrl = BIT(8) | BIT(2); /* clock enable & cmd mode */
intr_ctrl = 0;
intr_ctrl = (DSI_INTR_CMD_DMA_DONE_MASK | DSI_INTR_CMD_MDP_DONE_MASK);
if (pinfo->crc_check)
dsi_ctrl |= BIT(24);
if (pinfo->ecc_check)
dsi_ctrl |= BIT(20);
if (pinfo->data_lane3)
dsi_ctrl |= BIT(7);
if (pinfo->data_lane2)
dsi_ctrl |= BIT(6);
if (pinfo->data_lane1)
dsi_ctrl |= BIT(5);
if (pinfo->data_lane0)
dsi_ctrl |= BIT(4);
/* from frame buffer, low power mode */
/* DSI_COMMAND_MODE_DMA_CTRL */
MIPI_OUTP(MIPI_DSI_BASE + 0x38, 0x14000000);
data = 0;
if (pinfo->te_sel)
data |= BIT(31);
data |= pinfo->mdp_trigger << 4;/* cmd mdp trigger */
data |= pinfo->dma_trigger; /* cmd dma trigger */
data |= (pinfo->stream & 0x01) << 8;
MIPI_OUTP(MIPI_DSI_BASE + 0x0080, data); /* DSI_TRIG_CTRL */
/* DSI_LAN_SWAP_CTRL */
MIPI_OUTP(MIPI_DSI_BASE + 0x00ac, pinfo->dlane_swap);
/* clock out ctrl */
data = pinfo->t_clk_post & 0x3f; /* 6 bits */
data <<= 8;
data |= pinfo->t_clk_pre & 0x3f; /* 6 bits */
MIPI_OUTP(MIPI_DSI_BASE + 0xc0, data); /* DSI_CLKOUT_TIMING_CTRL */
data = 0;
if (pinfo->rx_eot_ignore)
data |= BIT(4);
if (pinfo->tx_eot_append)
data |= BIT(0);
MIPI_OUTP(MIPI_DSI_BASE + 0x00c8, data); /* DSI_EOT_PACKET_CTRL */
/* allow only ack-err-status to generate interrupt */
MIPI_OUTP(MIPI_DSI_BASE + 0x0108, 0x13ff3fe0); /* DSI_ERR_INT_MASK0 */
intr_ctrl |= DSI_INTR_ERROR_MASK;
MIPI_OUTP(MIPI_DSI_BASE + 0x010c, intr_ctrl); /* DSI_INTL_CTRL */
/* turn esc, byte, dsi, pclk, sclk, hclk on */
if (mdp_rev >= MDP_REV_41)
MIPI_OUTP(MIPI_DSI_BASE + 0x118, 0x23f); /* DSI_CLK_CTRL */
else
MIPI_OUTP(MIPI_DSI_BASE + 0x118, 0x33f); /* DSI_CLK_CTRL */
dsi_ctrl |= BIT(0); /* enable dsi */
MIPI_OUTP(MIPI_DSI_BASE + 0x0000, dsi_ctrl);
wmb();
}
void mipi_set_tx_power_mode(int mode)
{
uint32 data = MIPI_INP(MIPI_DSI_BASE + 0x38);
if (mode == 0)
data &= ~BIT(26);
else
data |= BIT(26);
MIPI_OUTP(MIPI_DSI_BASE + 0x38, data);
}
void mipi_dsi_sw_reset(void)
{
MIPI_OUTP(MIPI_DSI_BASE + 0x114, 0x01);
wmb();
MIPI_OUTP(MIPI_DSI_BASE + 0x114, 0x00);
wmb();
}
void mipi_dsi_controller_cfg(int enable)
{
uint32 dsi_ctrl;
uint32 status;
u32 sleep_us = 1000;
u32 timeout_us = 16000;
/* Check for CMD_MODE_DMA_BUSY */
if (readl_poll_timeout((MIPI_DSI_BASE + 0x0004),
status,
((status & 0x02) == 0),
sleep_us, timeout_us))
pr_info("%s: DSI status=%x failed\n", __func__, status);
/* Check for x_HS_FIFO_EMPTY */
if (readl_poll_timeout((MIPI_DSI_BASE + 0x0008),
status,
((status & 0x11111000) == 0x11111000),
sleep_us, timeout_us))
pr_info("%s: FIFO status=%x failed\n", __func__, status);
/* Check for VIDEO_MODE_ENGINE_BUSY */
if (readl_poll_timeout((MIPI_DSI_BASE + 0x0004),
status,
((status & 0x08) == 0),
sleep_us, timeout_us))
pr_info("%s: DSI status=%x failed\n", __func__, status);
dsi_ctrl = MIPI_INP(MIPI_DSI_BASE + 0x0000);
if (enable)
dsi_ctrl |= 0x01;
else
dsi_ctrl &= ~0x01;
MIPI_OUTP(MIPI_DSI_BASE + 0x0000, dsi_ctrl);
wmb();
}
void mipi_dsi_op_mode_config(int mode)
{
uint32 dsi_ctrl, intr_ctrl;
dsi_ctrl = MIPI_INP(MIPI_DSI_BASE + 0x0000);
dsi_ctrl &= ~0x07;
if (mode == DSI_VIDEO_MODE) {
dsi_ctrl |= 0x03;
intr_ctrl = DSI_INTR_CMD_DMA_DONE_MASK;
} else { /* command mode */
dsi_ctrl |= 0x05;
intr_ctrl = DSI_INTR_CMD_DMA_DONE_MASK | DSI_INTR_ERROR_MASK |
DSI_INTR_CMD_MDP_DONE_MASK;
}
pr_debug("%s: dsi_ctrl=%x intr=%x\n", __func__, dsi_ctrl, intr_ctrl);
MIPI_OUTP(MIPI_DSI_BASE + 0x010c, intr_ctrl); /* DSI_INTL_CTRL */
MIPI_OUTP(MIPI_DSI_BASE + 0x0000, dsi_ctrl);
wmb();
}
void mipi_dsi_mdp_busy_wait(void)
{
mutex_lock(&cmd_mutex);
mipi_dsi_cmd_mdp_busy();
mutex_unlock(&cmd_mutex);
}
void mipi_dsi_cmd_mdp_start(void)
{
unsigned long flag;
mipi_dsi_mdp_stat_inc(STAT_DSI_START);
spin_lock_irqsave(&dsi_mdp_lock, flag);
mipi_dsi_enable_irq(DSI_MDP_TERM);
dsi_mdp_busy = TRUE;
INIT_COMPLETION(dsi_mdp_comp);
spin_unlock_irqrestore(&dsi_mdp_lock, flag);
}
void mipi_dsi_cmd_bta_sw_trigger(void)
{
uint32 data;
int cnt = 0;
MIPI_OUTP(MIPI_DSI_BASE + 0x094, 0x01); /* trigger */
wmb();
while (cnt < 10000) {
data = MIPI_INP(MIPI_DSI_BASE + 0x0004);/* DSI_STATUS */
if ((data & 0x0010) == 0)
break;
cnt++;
}
mipi_dsi_ack_err_status();
pr_debug("%s: BTA done, cnt=%d\n", __func__, cnt);
}
static char set_tear_on[2] = {0x35, 0x00};
static struct dsi_cmd_desc dsi_tear_on_cmd = {
DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(set_tear_on), set_tear_on};
static char set_tear_off[2] = {0x34, 0x00};
static struct dsi_cmd_desc dsi_tear_off_cmd = {
DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(set_tear_off), set_tear_off};
void mipi_dsi_set_tear_on(struct msm_fb_data_type *mfd)
{
struct dcs_cmd_req cmdreq;
cmdreq.cmds = &dsi_tear_on_cmd;
cmdreq.cmds_cnt = 1;
cmdreq.flags = CMD_REQ_COMMIT;
cmdreq.rlen = 0;
cmdreq.cb = NULL;
mipi_dsi_cmdlist_put(&cmdreq);
}
void mipi_dsi_set_tear_off(struct msm_fb_data_type *mfd)
{
struct dcs_cmd_req cmdreq;
cmdreq.cmds = &dsi_tear_off_cmd;
cmdreq.cmds_cnt = 1;
cmdreq.flags = CMD_REQ_COMMIT;
cmdreq.rlen = 0;
cmdreq.cb = NULL;
mipi_dsi_cmdlist_put(&cmdreq);
}
int mipi_dsi_cmd_reg_tx(uint32 data)
{
#ifdef DSI_HOST_DEBUG
int i;
char *bp;
bp = (char *)&data;
pr_debug("%s: ", __func__);
for (i = 0; i < 4; i++)
pr_debug("%x ", *bp++);
pr_debug("\n");
#endif
MIPI_OUTP(MIPI_DSI_BASE + 0x0080, 0x04);/* sw trigger */
MIPI_OUTP(MIPI_DSI_BASE + 0x0, 0x135);
wmb();
MIPI_OUTP(MIPI_DSI_BASE + 0x038, data);
wmb();
MIPI_OUTP(MIPI_DSI_BASE + 0x08c, 0x01); /* trigger */
wmb();
udelay(300);
return 4;
}
static int mipi_dsi_cmd_dma_tx(struct dsi_buf *tp);
static int mipi_dsi_cmd_dma_rx(struct dsi_buf *rp, int rlen);
/*
* mipi_dsi_cmds_tx:
* thread context only
*/
static int mipi_dsi_cmds_tx(struct dsi_buf *tp,
struct dsi_cmd_desc *cmds, int cnt)
{
struct dsi_cmd_desc *cm;
uint32 dsi_ctrl, ctrl;
int i, video_mode;
/* turn on cmd mode
* for video mode, do not send cmds more than
* one pixel line, since it only transmit it
* during BLLP.
*/
dsi_ctrl = MIPI_INP(MIPI_DSI_BASE + 0x0000);
video_mode = dsi_ctrl & 0x02; /* VIDEO_MODE_EN */
if (video_mode) {
ctrl = dsi_ctrl | 0x04; /* CMD_MODE_EN */
MIPI_OUTP(MIPI_DSI_BASE + 0x0000, ctrl);
}
cm = cmds;
mipi_dsi_buf_init(tp);
for (i = 0; i < cnt; i++) {
mipi_dsi_enable_irq(DSI_CMD_TERM);
mipi_dsi_buf_init(tp);
mipi_dsi_cmd_dma_add(tp, cm);
mipi_dsi_cmd_dma_tx(tp);
if (cm->wait)
msleep(cm->wait);
cm++;
}
if (video_mode)
MIPI_OUTP(MIPI_DSI_BASE + 0x0000, dsi_ctrl); /* restore */
return cnt;
}
/* MIPI_DSI_MRPS, Maximum Return Packet Size */
static char max_pktsize[2] = {0x00, 0x00}; /* LSB tx first, 10 bytes */
static struct dsi_cmd_desc pkt_size_cmd[] = {
{DTYPE_MAX_PKTSIZE, 1, 0, 0, 0,
sizeof(max_pktsize), max_pktsize}
};
/*
* DSI panel reply with MAX_RETURN_PACKET_SIZE bytes of data
* plus DCS header, ECC and CRC for DCS long read response
* mipi_dsi_controller only have 4x32 bits register ( 16 bytes) to
* hold data per transaction.
* MIPI_DSI_LEN equal to 8
* len should be either 4 or 8
* any return data more than MIPI_DSI_LEN need to be break down
* to multiple transactions.
*/
static int mipi_dsi_cmds_rx(struct dsi_buf *tp, struct dsi_buf *rp,
struct dcs_cmd_req *req, int rlen)
{
struct dsi_cmd_desc *cmds;
int cnt, len, diff, pkt_size;
char cmd;
if (req->flags & CMD_REQ_NO_MAX_PKT_SIZE) {
/* Only support rlen = 4*n */
rlen += 3;
rlen &= ~0x03;
}
cmds = req->cmds;
len = rlen;
diff = 0;
if (len <= 2)
cnt = 4; /* short read */
else {
if (len > MIPI_DSI_LEN)
len = MIPI_DSI_LEN; /* 8 bytes at most */
len = (len + 3) & ~0x03; /* len 4 bytes align */
diff = len - rlen;
/*
* add extra 2 bytes to len to have overall
* packet size is multipe by 4. This also make
* sure 4 bytes dcs headerlocates within a
* 32 bits register after shift in.
* after all, len should be either 6 or 10.
*/
len += 2;
cnt = len + 6; /* 4 bytes header + 2 bytes crc */
}
if (!(req->flags & CMD_REQ_NO_MAX_PKT_SIZE)) {
/* packet size need to be set at every read */
pkt_size = len;
max_pktsize[0] = pkt_size;
mipi_dsi_enable_irq(DSI_CMD_TERM);
mipi_dsi_buf_init(tp);
mipi_dsi_cmd_dma_add(tp, pkt_size_cmd);
mipi_dsi_cmd_dma_tx(tp);
}
mipi_dsi_enable_irq(DSI_CMD_TERM);
mipi_dsi_buf_init(tp);
mipi_dsi_cmd_dma_add(tp, cmds);
/* transmit read comamnd to client */
mipi_dsi_cmd_dma_tx(tp);
/*
* once cmd_dma_done interrupt received,
* return data from client is ready and stored
* at RDBK_DATA register already
*/
mipi_dsi_buf_init(rp);
if (req->flags & CMD_REQ_NO_MAX_PKT_SIZE) {
/*
* expect rlen = n * 4
* short alignement for start addr
*/
rp->data += 2;
}
mipi_dsi_cmd_dma_rx(rp, cnt);
if (req->flags & CMD_REQ_NO_MAX_PKT_SIZE) {
/*
* remove extra 2 bytes from previous
* rx transaction at shift register
* which was inserted during copy
* shift registers to rx buffer
* rx payload start from long alignment addr
*/
rp->data += 2;
}
cmd = rp->data[0];
switch (cmd) {
case DTYPE_ACK_ERR_RESP:
pr_debug("%s: rx ACK_ERR_PACLAGE\n", __func__);
break;
case DTYPE_GEN_READ1_RESP:
case DTYPE_DCS_READ1_RESP:
mipi_dsi_short_read1_resp(rp);
break;
case DTYPE_GEN_READ2_RESP:
case DTYPE_DCS_READ2_RESP:
mipi_dsi_short_read2_resp(rp);
break;
case DTYPE_GEN_LREAD_RESP:
case DTYPE_DCS_LREAD_RESP:
mipi_dsi_long_read_resp(rp);
rp->len -= 2; /* extra 2 bytes added */
rp->len -= diff; /* align bytes */
break;
default:
break;
}
return rp->len;
}
static int mipi_dsi_cmd_dma_tx(struct dsi_buf *tp)
{
unsigned long flags;
#ifdef DSI_HOST_DEBUG
int i;
char *bp;
bp = tp->data;
pr_debug("%s: ", __func__);
for (i = 0; i < tp->len; i++)
pr_debug("%x ", *bp++);
pr_debug("\n");
#endif
if (tp->len == 0) {
pr_err("%s: Error, len=0\n", __func__);
return 0;
}
spin_lock_irqsave(&dsi_mdp_lock, flags);
tp->len += 3;
tp->len &= ~0x03; /* multipled by 4 */
tp->dmap = dma_map_single(&dsi_dev, tp->data, tp->len, DMA_TO_DEVICE);
if (dma_mapping_error(&dsi_dev, tp->dmap))
pr_err("%s: dmap mapp failed\n", __func__);
INIT_COMPLETION(dsi_dma_comp);
MIPI_OUTP(MIPI_DSI_BASE + 0x044, tp->dmap);
MIPI_OUTP(MIPI_DSI_BASE + 0x048, tp->len);
wmb();
MIPI_OUTP(MIPI_DSI_BASE + 0x08c, 0x01); /* trigger */
wmb();
spin_unlock_irqrestore(&dsi_mdp_lock, flags);
wait_for_completion(&dsi_dma_comp);
dma_unmap_single(&dsi_dev, tp->dmap, tp->len, DMA_TO_DEVICE);
tp->dmap = 0;
return tp->len;
}
static int mipi_dsi_cmd_dma_rx(struct dsi_buf *rp, int rlen)
{
uint32 *lp, data;
int i, off, cnt;
lp = (uint32 *)rp->data;
cnt = rlen;
cnt += 3;
cnt >>= 2;
if (cnt > 4)
cnt = 4; /* 4 x 32 bits registers only */
off = 0x068; /* DSI_RDBK_DATA0 */
off += ((cnt - 1) * 4);
for (i = 0; i < cnt; i++) {
data = (uint32)MIPI_INP(MIPI_DSI_BASE + off);
*lp++ = ntohl(data); /* to network byte order */
off -= 4;
rp->len += sizeof(*lp);
}
return rlen;
}
static void mipi_dsi_wait_for_video_eng_busy(void)
{
u32 status;
int sleep_us = 4000;
/*
* if video mode engine was not busy (in BLLP)
* wait to pass BLLP
*/
/* check for VIDEO_MODE_ENGINE_BUSY */
readl_poll((MIPI_DSI_BASE + 0x0004), /* DSI_STATUS */
status,
(status & 0x08),
sleep_us);
}
void mipi_dsi_cmd_mdp_busy(void)
{
unsigned long flags;
int need_wait = 0;
pr_debug("%s: start pid=%d\n",
__func__, current->pid);
spin_lock_irqsave(&dsi_mdp_lock, flags);
if (dsi_mdp_busy == TRUE)
need_wait++;
spin_unlock_irqrestore(&dsi_mdp_lock, flags);
if (need_wait) {
/* wait until DMA finishes the current job */
pr_debug("%s: pending pid=%d\n",
__func__, current->pid);
wait_for_completion(&dsi_mdp_comp);
}
pr_debug("%s: done pid=%d\n",
__func__, current->pid);
}
/*
* mipi_dsi_cmd_get: cmd_mutex acquired by caller
*/
struct dcs_cmd_req *mipi_dsi_cmdlist_get(void)
{
struct dcs_cmd_req *req = NULL;
if (cmdlist.get != cmdlist.put) {
req = &cmdlist.list[cmdlist.get];
cmdlist.get++;
cmdlist.get %= CMD_REQ_MAX;
cmdlist.tot--;
pr_debug("%s: tot=%d put=%d get=%d\n", __func__,
cmdlist.tot, cmdlist.put, cmdlist.get);
}
return req;
}
void mipi_dsi_cmdlist_tx(struct dcs_cmd_req *req)
{
struct dsi_buf *tp;
int ret;
mipi_dsi_buf_init(&dsi_tx_buf);
tp = &dsi_tx_buf;
ret = mipi_dsi_cmds_tx(tp, req->cmds, req->cmds_cnt);
if (req->cb)
req->cb(ret);
}
void mipi_dsi_cmdlist_rx(struct dcs_cmd_req *req)
{
int len;
u32 *dp;
struct dsi_buf *tp;
struct dsi_buf *rp;
mipi_dsi_buf_init(&dsi_tx_buf);
tp = &dsi_tx_buf;
if (req->rbuf)
rp = req->rbuf;
else
rp = &dsi_rx_buf;
mipi_dsi_buf_init(rp);
len = mipi_dsi_cmds_rx(tp, rp, req, req->rlen);
dp = (u32 *)rp->data;
if (req->cb)
req->cb(*dp);
}
void mipi_dsi_cmdlist_commit(int from_mdp)
{
struct dcs_cmd_req *req;
u32 dsi_ctrl;
mutex_lock(&cmd_mutex);
req = mipi_dsi_cmdlist_get();
/* make sure dsi_cmd_mdp is idle */
mipi_dsi_cmd_mdp_busy();
if (req == NULL)
goto need_lock;
pr_debug("%s: from_mdp=%d pid=%d\n", __func__, from_mdp, current->pid);
dsi_ctrl = MIPI_INP(MIPI_DSI_BASE + 0x0000);
if (dsi_ctrl & 0x02) {
/* video mode, make sure dsi_cmd_mdp is busy
* so dcs command will be txed at start of BLLP
*/
mipi_dsi_wait_for_video_eng_busy();
} else {
/* command mode */
if (!from_mdp) { /* cmdlist_put */
/* make sure dsi_cmd_mdp is idle */
mipi_dsi_cmd_mdp_busy();
}
}
if (req->flags & CMD_REQ_RX)
mipi_dsi_cmdlist_rx(req);
else
mipi_dsi_cmdlist_tx(req);
need_lock:
if (from_mdp) /* from pipe_commit */
mipi_dsi_cmd_mdp_start();
mutex_unlock(&cmd_mutex);
}
int mipi_dsi_cmdlist_put(struct dcs_cmd_req *cmdreq)
{
struct dcs_cmd_req *req;
int ret = 0;
mutex_lock(&cmd_mutex);
req = &cmdlist.list[cmdlist.put];
*req = *cmdreq;
cmdlist.put++;
cmdlist.put %= CMD_REQ_MAX;
cmdlist.tot++;
if (cmdlist.put == cmdlist.get) {
/* drop the oldest one */
pr_debug("%s: DROP, tot=%d put=%d get=%d\n", __func__,
cmdlist.tot, cmdlist.put, cmdlist.get);
cmdlist.get++;
cmdlist.get %= CMD_REQ_MAX;
cmdlist.tot--;
}
mutex_unlock(&cmd_mutex);
ret++;
pr_debug("%s: tot=%d put=%d get=%d\n", __func__,
cmdlist.tot, cmdlist.put, cmdlist.get);
if (req->flags & CMD_CLK_CTRL)
mipi_dsi_clk_cfg(1);
if (req->flags & CMD_REQ_COMMIT)
mipi_dsi_cmdlist_commit(0);
if (req->flags & CMD_CLK_CTRL)
mipi_dsi_clk_cfg(0);
return ret;
}
void mipi_dsi_irq_set(uint32 mask, uint32 irq)
{
uint32 data;
data = MIPI_INP(MIPI_DSI_BASE + 0x010c);/* DSI_INTR_CTRL */
data &= ~mask;
data |= irq;
MIPI_OUTP(MIPI_DSI_BASE + 0x010c, data);
}
void mipi_dsi_ack_err_status(void)
{
uint32 status;
status = MIPI_INP(MIPI_DSI_BASE + 0x0064);/* DSI_ACK_ERR_STATUS */
if (status) {
MIPI_OUTP(MIPI_DSI_BASE + 0x0064, status);
pr_debug("%s: status=%x\n", __func__, status);
}
}
void mipi_dsi_timeout_status(void)
{
uint32 status;
status = MIPI_INP(MIPI_DSI_BASE + 0x00bc);/* DSI_TIMEOUT_STATUS */
if (status & 0x0111) {
MIPI_OUTP(MIPI_DSI_BASE + 0x00bc, status);
pr_debug("%s: status=%x\n", __func__, status);
}
}
void mipi_dsi_dln0_phy_err(void)
{
uint32 status;
status = MIPI_INP(MIPI_DSI_BASE + 0x00b0);/* DSI_DLN0_PHY_ERR */
if (status & 0x011111) {
MIPI_OUTP(MIPI_DSI_BASE + 0x00b0, status);
pr_debug("%s: status=%x\n", __func__, status);
}
}
void mipi_dsi_fifo_status(void)
{
uint32 status;
status = MIPI_INP(MIPI_DSI_BASE + 0x0008);/* DSI_FIFO_STATUS */
if (status & 0x44444489) {
MIPI_OUTP(MIPI_DSI_BASE + 0x0008, status);
pr_debug("%s: status=%x\n", __func__, status);
}
}
void mipi_dsi_status(void)
{
uint32 status;
status = MIPI_INP(MIPI_DSI_BASE + 0x0004);/* DSI_STATUS */
if (status & 0x80000000) {
MIPI_OUTP(MIPI_DSI_BASE + 0x0004, status);
pr_debug("%s: status=%x\n", __func__, status);
}
}
void mipi_dsi_error(void)
{
/* DSI_ERR_INT_MASK0 */
mipi_dsi_ack_err_status(); /* mask0, 0x01f */
mipi_dsi_timeout_status(); /* mask0, 0x0e0 */
mipi_dsi_fifo_status(); /* mask0, 0x133d00 */
mipi_dsi_status(); /* mask0, 0xc0100 */
mipi_dsi_dln0_phy_err(); /* mask0, 0x3e00000 */
}
irqreturn_t mipi_dsi_isr(int irq, void *ptr)
{
uint32 isr;
isr = MIPI_INP(MIPI_DSI_BASE + 0x010c);/* DSI_INTR_CTRL */
MIPI_OUTP(MIPI_DSI_BASE + 0x010c, isr);
pr_debug("%s: isr=%x\n", __func__, (int)isr);
#ifdef CONFIG_FB_MSM_MDP40
mdp4_stat.intr_dsi++;
#endif
if (isr & DSI_INTR_ERROR) {
mipi_dsi_mdp_stat_inc(STAT_DSI_ERROR);
mipi_dsi_error();
}
if (isr & DSI_INTR_VIDEO_DONE) {
/*
* do something here
*/
}
if (isr & DSI_INTR_CMD_DMA_DONE) {
mipi_dsi_mdp_stat_inc(STAT_DSI_CMD);
spin_lock(&dsi_mdp_lock);
complete(&dsi_dma_comp);
dsi_ctrl_lock = FALSE;
mipi_dsi_disable_irq_nosync(DSI_CMD_TERM);
spin_unlock(&dsi_mdp_lock);
}
if (isr & DSI_INTR_CMD_MDP_DONE) {
mipi_dsi_mdp_stat_inc(STAT_DSI_MDP);
spin_lock(&dsi_mdp_lock);
dsi_ctrl_lock = FALSE;
dsi_mdp_busy = FALSE;
mipi_dsi_disable_irq_nosync(DSI_MDP_TERM);
complete(&dsi_mdp_comp);
spin_unlock(&dsi_mdp_lock);
}
return IRQ_HANDLED;
}