kernel_samsung_a34x-permissive/drivers/input/touchscreen/mediatek/GT5688/gt1x_update.c

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#include <linux/delay.h>
#include <linux/i2c.h>
#include <linux/interrupt.h>
#include <linux/kthread.h>
#include <linux/mount.h>
#include <linux/namei.h>
#include <linux/sched.h>
#include <linux/time.h>
#include <linux/uaccess.h>
#include <linux/wait.h>
#ifdef CONFIG_GTP_REQUEST_FW_UPDATE
#include <linux/firmware.h>
#endif
#include "gt1x_config.h"
#include "include/gt1x_tpd_common.h"
#ifdef CONFIG_GTP_HEADER_FW_UPDATE
#include "gt1x_firmware.h"
#endif
#ifdef CONFIG_GTP_REQUEST_FW_UPDATE
#define GT1151_DEFAULT_FW "gt1151_default_"
#endif
#undef CONFIG_GTP_FOPEN_FW_UPDATE
#define UPDATE_FILE_PATH_1 "/data/_goodix_update_.bin"
#define UPDATE_FILE_PATH_2 "/sdcard/_goodix_update_.bin"
#define CONFIG_FILE_PATH_1 "/data/_gt1x_config_.cfg"
#define CONFIG_FILE_PATH_2 "/sdcard/_gt1x_config_.cfg"
#define FOUND_FW_PATH_1 0x01
#define FOUND_FW_PATH_2 0x02
#define FOUND_CFG_PATH_1 0x04
#define FOUND_CFG_PATH_2 0x08
#define PACK_SIZE 256
/*hardware register define*/
#define _bRW_MISCTL__SRAM_BANK 0x4048
#define _bRW_MISCTL__MEM_CD_EN 0x4049
#define _bRW_MISCTL__CACHE_EN 0x404B
#define _bRW_MISCTL__TMR0_EN 0x40B0
#define _rRW_MISCTL__SWRST_B0_ 0x4180
#define _bWO_MISCTL__CPU_SWRST_PULSE 0x4184
#define _rRW_MISCTL__BOOTCTL_B0_ 0x4190
#define _rRW_MISCTL__BOOT_OPT_B0_ 0x4218
#define _rRW_MISCTL__BOOT_CTL_ 0x5094
#define _bRW_MISCTL__DSP_MCU_PWR_ 0x4010
#define _bRW_MISCTL__PATCH_AREA_EN_ 0x404D
/*
* 1. firmware structure
* header: 128b
*
* offset size content
* 0 4 firmware length
* 4 2 checksum
* 6 6 target MASK name
* 12 3 target MASK version
* 15 6 TP subsystem PID
* 21 3 TP subsystem version
* 24 1 subsystem count
* 25 1 chip type 0x91:
* GT1X, 0x92: GT2X
* 26 6 reserved
* 32 8 subsystem info[0]
* 32 8 subsystem info[1]
* .....
* 120 8 subsystem info[11]
*
* body: followed header
*
* 128 N0 subsystem[0]
* 128+N0 N1 subsystem[1]
* ....
*
* 2. subsystem info structure
* offset size content
* 0 1 subsystem type
* 1 2 subsystem length
* 3 2 stored address in flash addr =
* value * 256
* 5 3 reserved
*
*/
#define FW_HEAD_SIZE 128
#define FW_HEAD_SUBSYSTEM_INFO_SIZE 8
#define FW_HEAD_OFFSET_SUBSYSTEM_INFO_BASE 32
#define FW_SECTION_TYPE_SS51_ISP 0x01
#define FW_SECTION_TYPE_SS51_PATCH 0x02
#define FW_SECTION_TYPE_SS51_PATCH_OVERLAY 0x03
#define FW_SECTION_TYPE_DSP 0x04
#define FW_SECTION_TYPE_HOTKNOT 0x05
#define FW_SECTION_TYPE_GESTURE 0x06
#define FW_SECTION_TYPE_GESTURE_OVERLAY 0x07
#define FW_SECTION_TYPE_FLASHLESS_FAST_POWER 0x08
#define UPDATE_TYPE_HEADER 0
#define UPDATE_TYPE_FILE 1
#define UPDATE_STATUS_IDLE 0
#define UPDATE_STATUS_RUNNING 1
struct fw_subsystem_info {
int type;
int length;
u32 address;
int offset;
};
#pragma pack(1)
struct fw_info {
u32 length;
u16 checksum;
u8 target_mask[6];
u8 target_mask_version[3];
u8 pid[6];
u8 version[3];
u8 subsystem_count;
u8 chip_type;
u8 reserved[6];
struct fw_subsystem_info subsystem[12];
};
#pragma pack()
struct fw_update_info update_info = {
.status = UPDATE_STATUS_IDLE, .progress = 0, .max_progress = 9};
/**
* @return: return 0 if success, otherwise return a negative number
* which contains the error code.
*/
s32 gt1x_check_fs_mounted(char *path_name)
{
struct path root_path;
struct path path;
s32 err;
err = kern_path("/", LOOKUP_FOLLOW, &root_path);
if (err)
return ERROR_PATH;
err = kern_path(path_name, LOOKUP_FOLLOW, &path);
if (err) {
err = ERROR_PATH;
goto check_fs_fail;
}
if (path.mnt->mnt_sb == root_path.mnt->mnt_sb)
err = ERROR_PATH;
else
err = 0;
path_put(&path);
check_fs_fail:
path_put(&root_path);
return err;
}
int gt1x_i2c_write_with_readback(u16 addr, u8 *buffer, int length)
{
u8 buf[100];
int ret = gt1x_i2c_write(addr, buffer, length);
if (ret)
return ret;
ret = gt1x_i2c_read(addr, buf, length);
if (ret)
return ret;
if (memcmp(buf, buffer, length))
return ERROR_CHECK;
return 0;
}
#define getU32(a) ((u32)getUint((u8 *)(a), 4))
#define getU16(a) ((u16)getUint((u8 *)(a), 2))
u32 getUint(u8 *buffer, int len)
{
u32 num = 0;
int i;
for (i = 0; i < len; i++) {
num <<= 8;
num += buffer[i];
}
return num;
}
int gt1x_auto_update_proc(void *data)
{
#ifdef CONFIG_GTP_HEADER_FW_UPDATE
GTP_INFO("Start auto update thread...");
gt1x_update_firmware(NULL);
#elif defined(CONFIG_GTP_REQUEST_FW_UPDATE)
GTP_INFO("Start auto update thread...");
gt1x_update_firmware(NULL);
#endif
gt1x_auto_update_done();
return 0;
}
void gt1x_enter_update_mode(void)
{
#ifdef CONFIG_GTP_ESD_PROTECT
gt1x_esd_switch(SWITCH_OFF);
#endif
gt1x_irq_disable();
}
int gt1x_update_prepare(char *filename)
{
int ret = 0;
int retry = 5;
#ifdef CONFIG_GTP_REQUEST_FW_UPDATE
const struct firmware *fw_entry;
char buf[64];
#endif
if (filename == NULL) {
#ifdef CONFIG_GTP_REQUEST_FW_UPDATE
update_info.fw_name = NULL;
update_info.update_type = UPDATE_TYPE_HEADER;
snprintf(buf, sizeof(buf), "%s%s.img", GT1151_DEFAULT_FW,
CONFIG_GT1151_FIRMWARE);
GTP_INFO("Request default firmware version: %s\n", buf);
ret = request_firmware(&fw_entry, buf, &gt1x_i2c_client->dev);
if (ret) {
GTP_ERROR("load %s fail, error: %d\n",
GT1151_DEFAULT_FW, ret);
return ret;
}
GTP_INFO("firmware size: 0x%x\n", (unsigned int)fw_entry->size);
update_info.fw_data = (u8 *)devm_kzalloc(
&gt1x_i2c_client->dev, fw_entry->size, GFP_KERNEL);
if (!update_info.fw_data)
GTP_ERROR("Alloca memory fail\n");
memcpy(update_info.fw_data, fw_entry->data, fw_entry->size);
update_info.fw_length = fw_entry->size;
release_firmware(fw_entry);
#elif defined(CONFIG_GTP_HEADER_FW_UPDATE)
update_info.fw_data = gt1x_default_FW;
update_info.fw_length = sizeof(gt1x_default_FW);
#else
GTP_ERROR("No Fw in .h file!");
return ERROR_FW;
#endif
}
while (retry > 0) {
retry--;
update_info.firmware =
kzalloc(sizeof(struct fw_info), GFP_KERNEL);
if (update_info.firmware == NULL) {
GTP_INFO("Alloc %d bytes memory fail.",
(int)(sizeof(struct fw_info)));
continue;
} else {
GTP_INFO("Alloc %d bytes memory success.",
(int)(sizeof(struct fw_info)));
break;
}
}
if (retry <= 0) {
ret = ERROR_RETRY;
goto gt1x_update_pre_fail1;
}
retry = 5;
while (retry > 0) {
retry--;
update_info.buffer = kzalloc(1024 * 4, GFP_KERNEL);
if (update_info.buffer == NULL) {
GTP_ERROR("Alloc %d bytes memory fail.", 1024 * 4);
continue;
} else {
GTP_INFO("Alloc %d bytes memory success.", 1024 * 4);
break;
}
}
if (retry <= 0) {
ret = ERROR_RETRY;
goto gt1x_update_pre_fail0;
}
return 0;
gt1x_update_pre_fail0:
kfree(update_info.firmware);
gt1x_update_pre_fail1:
return ret;
}
/**
* @return: return a pointer pointed at the content of firmware
* if success, otherwise return NULL.
*/
u8 *gt1x_get_fw_data(u32 offset, int length)
{
return &update_info.fw_data[offset];
}
int gt1x_check_firmware(void)
{
u16 checksum;
u16 checksum_in_header;
u8 *p;
struct fw_info *firmware;
int i;
int offset;
/*compare file length with the length field in the firmware header*/
if (update_info.fw_length < FW_HEAD_SIZE) {
GTP_ERROR("Bad firmware!(file length: %d)",
update_info.fw_length);
return ERROR_CHECK;
}
p = gt1x_get_fw_data(0, 6);
if (p == NULL)
return ERROR_FW;
if (getU32(p) + 6 != update_info.fw_length) {
GTP_ERROR("Bad firmware!(file length: %d, header define: %d)",
update_info.fw_length, getU32(p));
return ERROR_CHECK;
}
/*check firmware's checksum*/
checksum_in_header = getU16(&p[4]);
checksum = 0;
for (i = 6; i < update_info.fw_length; i++) {
p = gt1x_get_fw_data(i, 1);
if (p == NULL)
return ERROR_FW;
checksum += p[0];
}
if (checksum != checksum_in_header) {
GTP_ERROR(
"Bad firmware!(checksum: 0x%04X, header define: 0x%04X)",
checksum, checksum_in_header);
return ERROR_CHECK;
}
/*parse firmware*/
p = gt1x_get_fw_data(0, FW_HEAD_SIZE);
if (p == NULL)
return ERROR_FW;
memcpy((u8 *)update_info.firmware, p, FW_HEAD_SIZE - 8 * 12);
update_info.firmware->pid[5] = 0;
p = &p[FW_HEAD_OFFSET_SUBSYSTEM_INFO_BASE];
firmware = update_info.firmware;
offset = FW_HEAD_SIZE;
for (i = 0; i < firmware->subsystem_count; i++) {
firmware->subsystem[i].type =
p[i * FW_HEAD_SUBSYSTEM_INFO_SIZE];
firmware->subsystem[i].length =
getU16(&p[i * FW_HEAD_SUBSYSTEM_INFO_SIZE + 1]);
firmware->subsystem[i].address =
getU16(&p[i * FW_HEAD_SUBSYSTEM_INFO_SIZE + 3]) * 256;
firmware->subsystem[i].offset = offset;
offset += firmware->subsystem[i].length;
}
/*print update information*/
GTP_INFO("Update type: %s",
update_info.update_type == UPDATE_TYPE_HEADER ? "Header"
: "File");
GTP_INFO("Firmware length: %d", update_info.fw_length);
GTP_INFO("Firmware product: GT%s", update_info.firmware->pid);
GTP_INFO("Firmware patch: %02X%02X%02X",
update_info.firmware->version[0],
update_info.firmware->version[1],
update_info.firmware->version[2]);
GTP_INFO("Firmware chip: 0x%02X", update_info.firmware->chip_type);
GTP_INFO("Subsystem count: %d", update_info.firmware->subsystem_count);
for (i = 0; i < update_info.firmware->subsystem_count; i++) {
GTP_INFO("------------------------------------------");
GTP_INFO("Subsystem: %d", i);
GTP_INFO("Type: %d", update_info.firmware->subsystem[i].type);
GTP_INFO("Length: %d",
update_info.firmware->subsystem[i].length);
GTP_INFO("Address: 0x%08X",
update_info.firmware->subsystem[i].address);
GTP_INFO("Offset: %d",
update_info.firmware->subsystem[i].offset);
}
return 0;
}
int gt1x_update_judge(void)
{
int ret;
u8 reg_val[1];
u8 retry = 3;
struct gt1x_version_info ver_info;
struct gt1x_version_info fw_ver_info;
fw_ver_info.mask_id =
(update_info.firmware->target_mask_version[0] << 16) |
(update_info.firmware->target_mask_version[1] << 8) |
(update_info.firmware->target_mask_version[2]);
fw_ver_info.patch_id = (update_info.firmware->version[0] << 16) |
(update_info.firmware->version[1] << 8) |
(update_info.firmware->version[2]);
memcpy(fw_ver_info.product_id, update_info.firmware->pid, 4);
fw_ver_info.product_id[4] = 0;
/* check register 0x41E4 */
do {
ret = gt1x_i2c_read_dbl_check(0x41E4, reg_val, 1);
if (ret != 0) { /* read reg failed */
gt1x_reset_guitar();
} else {
break;
}
} while (--retry);
if (reg_val[0] != 0xBE) {
GTP_ERROR("check 0x41E4 failed, force update!!!");
return 0;
}
ret = gt1x_read_version(&ver_info);
if (ret < 0) {
GTP_ERROR("Get IC's version info failed, force update!!!");
return 0;
}
if (memcmp(fw_ver_info.product_id, ver_info.product_id, 4)) {
GTP_ERROR("Product id is not match!");
return ERROR_CHECK;
}
if ((fw_ver_info.mask_id & 0xFFFFFF00) !=
(ver_info.mask_id & 0xFFFFFF00)) {
GTP_ERROR("Mask id is not match!");
return ERROR_CHECK;
}
if (fw_ver_info.patch_id <= ver_info.patch_id) {
GTP_ERROR("The version of the fw is not high than the IC's!");
return ERROR_CHECK;
}
return 0;
}
u16 gt1x_calc_checksum(u8 *fw, u32 length)
{
u32 i = 0;
u32 checksum = 0;
for (i = 0; i < length; i += 2) {
checksum += (((int)fw[i]) << 8);
checksum += fw[i + 1];
}
checksum &= 0xFFFF;
return checksum;
}
int gt1x_recall_check(u8 *chk_src, u16 start_addr, u16 chk_length)
{
u8 rd_buf[PACK_SIZE];
s32 ret = 0;
u16 len = 0;
u32 compared_length = 0;
while (chk_length > 0) {
len = (chk_length > PACK_SIZE ? PACK_SIZE : chk_length);
ret = gt1x_i2c_read(start_addr + compared_length, rd_buf, len);
if (ret) {
GTP_ERROR("recall i2c error,exit!");
return ret;
}
if (memcmp(rd_buf, &chk_src[compared_length], len)) {
GTP_ERROR("Recall frame not equal(addr: 0x%04X)",
start_addr + compared_length);
GTP_DEBUG("chk_src array:");
GTP_DEBUG_ARRAY(&chk_src[compared_length], len);
GTP_DEBUG("recall array:");
GTP_DEBUG_ARRAY(rd_buf, len);
return ERROR_CHECK;
}
chk_length -= len;
compared_length += len;
}
GTP_DEBUG("Recall check %d bytes(address: 0x%04X) success.",
compared_length, start_addr);
return 0;
}
int gt1x_run_ss51_isp(u8 *ss51_isp, int length)
{
int ret;
u8 buffer[10];
ret = gt1x_hold_ss51_dsp();
if (ret)
return ret;
/*select bank4*/
buffer[0] = 0x04;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__SRAM_BANK, buffer, 1);
if (ret) {
GTP_ERROR("select bank4 fail.");
return ret;
}
/*enable patch area access*/
buffer[0] = 0x01;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__PATCH_AREA_EN_, buffer,
1);
if (ret) {
GTP_ERROR("enable patch area access fail!");
return ret;
}
GTP_INFO("ss51_isp length: %d, checksum: 0x%04X", length,
gt1x_calc_checksum(ss51_isp, length));
/*load ss51 isp*/
ret = gt1x_i2c_write(0xC000, ss51_isp, length);
if (ret) {
GTP_ERROR("load ss51 isp fail!");
return ret;
}
/*recall compare*/
ret = gt1x_recall_check(ss51_isp, 0xC000, length);
if (ret) {
GTP_ERROR("recall check ss51 isp fail!");
return ret;
}
memset(buffer, 0xAA, 10);
ret = gt1x_i2c_write_with_readback(0x8140, buffer, 10);
/*disable patch area access*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__PATCH_AREA_EN_, buffer,
1);
if (ret) {
GTP_ERROR("disable patch area access fail!");
return ret;
}
/*set 0x8006*/
memset(buffer, 0x55, 8);
ret = gt1x_i2c_write_with_readback(0x8006, buffer, 8);
if (ret) {
GTP_ERROR("set 0x8006[0~7] 0x55 fail!");
return ret;
}
/*release ss51*/
buffer[0] = 0x08;
ret = gt1x_i2c_write_with_readback(_rRW_MISCTL__SWRST_B0_, buffer, 1);
if (ret) {
GTP_ERROR("release ss51 fail!");
return ret;
}
msleep(100);
/*check run state*/
ret = gt1x_i2c_read(0x8006, buffer, 2);
if (ret) {
GTP_ERROR("read 0x8006 fail!");
return ret;
}
if (!(buffer[0] == 0xAA && buffer[1] == 0xBB)) {
GTP_ERROR("ERROR: isp is not running! 0x8006: %02X %02X",
buffer[0], buffer[1]);
return ERROR_CHECK;
}
return 0;
}
int gt1x_burn_subsystem(struct fw_subsystem_info *subsystem)
{
int block_len;
u16 checksum;
int burn_len = 0;
u16 cur_addr;
u32 length = subsystem->length;
u8 buffer[10];
int ret;
int wait_time;
int burn_state;
int retry = 5;
u8 *fw;
GTP_INFO("Subsystem: %d", subsystem->type);
GTP_INFO("Length: %d", subsystem->length);
GTP_INFO("Address: 0x%08X", subsystem->address);
while (length > 0 && retry > 0) {
retry--;
block_len = length > 1024 * 4 ? 1024 * 4 : length;
GTP_INFO("Burn block ==> length: %d, address: 0x%08X",
block_len, subsystem->address + burn_len);
fw = gt1x_get_fw_data(subsystem->offset + burn_len, block_len);
if (fw == NULL)
return ERROR_FW;
cur_addr = ((subsystem->address + burn_len) >> 8);
checksum = 0;
checksum += block_len;
checksum += cur_addr;
checksum += gt1x_calc_checksum(fw, block_len);
checksum = (0 - checksum);
buffer[0] = ((block_len >> 8) & 0xFF);
buffer[1] = (block_len & 0xFF);
buffer[2] = ((cur_addr >> 8) & 0xFF);
buffer[3] = (cur_addr & 0xFF);
ret = gt1x_i2c_write_with_readback(0x8100, buffer, 4);
if (ret) {
GTP_ERROR("write length & address fail!");
continue;
}
ret = gt1x_i2c_write(0x8100 + 4, fw, block_len);
if (ret) {
GTP_ERROR("write fw data fail!");
continue;
}
ret = gt1x_recall_check(fw, 0x8100 + 4, block_len);
if (ret)
continue;
buffer[0] = ((checksum >> 8) & 0xFF);
buffer[1] = (checksum & 0xFF);
ret = gt1x_i2c_write_with_readback(0x8100 + 4 + block_len,
buffer, 2);
if (ret) {
GTP_ERROR("write checksum fail!");
continue;
}
buffer[0] = 0;
ret = gt1x_i2c_write_with_readback(0x8022, buffer, 1);
if (ret) {
GTP_ERROR("clear control flag fail!");
continue;
}
buffer[0] = subsystem->type;
buffer[1] = subsystem->type;
ret = gt1x_i2c_write_with_readback(0x8020, buffer, 2);
if (ret) {
GTP_ERROR("write subsystem type fail!");
continue;
}
burn_state = ERROR;
wait_time = 200;
while (wait_time > 0) {
wait_time--;
msleep(20);
ret = gt1x_i2c_read(0x8022, buffer, 1);
if (ret)
continue;
if (buffer[0] == 0xAA) {
GTP_INFO("burning.....");
continue;
} else if (buffer[0] == 0xDD) {
GTP_ERROR("checksum error!");
break;
} else if (buffer[0] == 0xBB) {
GTP_INFO("burning success.");
burn_state = 0;
break;
} else if (buffer[0] == 0xCC) {
GTP_ERROR("burning failed!");
break;
}
GTP_INFO("unknown state!(0x8022: 0x%02X)", buffer[0]);
}
if (!burn_state) {
length -= block_len;
burn_len += block_len;
retry = 5;
}
}
if (length == 0)
return 0;
else
return ERROR_RETRY;
}
int gt1x_read_flash(u32 addr, int length)
{
int wait_time;
int ret = 0;
u8 buffer[4];
u16 read_addr = (addr >> 8);
GTP_INFO("Read flash: 0x%04X, length: %d", addr, length);
buffer[0] = 0;
ret = gt1x_i2c_write_with_readback(0x8022, buffer, 1);
buffer[0] = ((length >> 8) & 0xFF);
buffer[1] = (length & 0xFF);
buffer[2] = ((read_addr >> 8) & 0xFF);
buffer[3] = (read_addr & 0xFF);
ret |= gt1x_i2c_write_with_readback(0x8100, buffer, 4);
buffer[0] = 0xAA;
buffer[1] = 0xAA;
ret |= gt1x_i2c_write(0x8020, buffer, 2);
if (ret) {
GTP_ERROR("Error occurred.");
return ret;
}
wait_time = 200;
while (wait_time > 0) {
wait_time--;
msleep(20);
ret = gt1x_i2c_read(0x8022, buffer, 1);
if (ret)
continue;
if (buffer[0] == 0xBB) {
GTP_INFO("Read success(addr: 0x%04X, length: %d)", addr,
length);
break;
}
}
if (wait_time == 0) {
GTP_ERROR("Read Flash FAIL!");
return ERROR_RETRY;
}
return 0;
}
int gt1x_check_subsystem_in_flash(struct fw_subsystem_info *subsystem)
{
int block_len;
int checked_len = 0;
u32 length = subsystem->length;
int ret;
int check_state = 0;
int retry = 5;
u8 *fw;
GTP_INFO("Subsystem: %d", subsystem->type);
GTP_INFO("Length: %d", subsystem->length);
GTP_INFO("Address: 0x%08X", subsystem->address);
while (length > 0) {
block_len = length > 1024 * 4 ? 1024 * 4 : length;
GTP_INFO("Check block ==> length: %d, address: 0x%08X",
block_len, subsystem->address + checked_len);
fw = gt1x_get_fw_data(subsystem->offset + checked_len,
block_len);
if (fw == NULL)
return ERROR_FW;
ret = gt1x_read_flash(subsystem->address + checked_len,
block_len);
if (ret)
check_state |= ret;
ret = gt1x_recall_check(fw, 0x8100, block_len);
if (ret) {
GTP_ERROR("Block in flash is broken!");
check_state |= ret;
}
length -= block_len;
checked_len += block_len;
retry = 5;
}
if (check_state)
GTP_ERROR("Subsystem in flash is broken!");
else
GTP_INFO("Subsystem in flash is correct!");
return check_state;
}
void gt1x_update_cleanup(void)
{
if (update_info.buffer != NULL) {
kfree(update_info.buffer);
update_info.buffer = NULL;
}
if (update_info.firmware != NULL) {
kfree(update_info.firmware);
update_info.firmware = NULL;
}
}
int gt1x_update_firmware(char *filename)
{
int i = 0;
int ret = 0;
u8 *p;
if (update_info.status != UPDATE_STATUS_IDLE) {
GTP_ERROR("Update process is running!");
return ERROR;
}
update_info.status = UPDATE_STATUS_RUNNING;
update_info.max_progress = 9;
update_info.progress = 0;
gt1x_enter_update_mode();
ret = gt1x_update_prepare(filename);
if (ret) {
update_info.status = UPDATE_STATUS_IDLE;
goto gt1x_update_exit;
}
update_info.progress = 1;
ret = gt1x_check_firmware();
if (ret)
goto gt1x_update_exit;
update_info.progress = 2;
ret = gt1x_update_judge();
if (ret)
goto gt1x_update_exit;
update_info.progress = 3;
p = gt1x_get_fw_data(update_info.firmware->subsystem[0].offset,
update_info.firmware->subsystem[0].length);
if (p == NULL) {
GTP_ERROR("get isp fail");
ret = ERROR_FW;
goto gt1x_update_exit;
}
update_info.progress = 4;
ret = gt1x_run_ss51_isp(p, update_info.firmware->subsystem[0].length);
if (ret) {
GTP_ERROR("run isp fail");
goto gt1x_update_exit;
}
update_info.progress = 5;
msleep(800);
for (i = 1; i < update_info.firmware->subsystem_count; i++) {
GTP_INFO("subsystem: %d",
update_info.firmware->subsystem[i].type);
GTP_INFO("Length: %d",
update_info.firmware->subsystem[i].length);
GTP_INFO("Address: %d",
update_info.firmware->subsystem[i].address);
ret = gt1x_burn_subsystem(
&(update_info.firmware->subsystem[i]));
if (ret) {
GTP_ERROR("burn subsystem fail!");
goto gt1x_update_exit;
}
}
update_info.progress = 6;
gt1x_reset_guitar();
p = gt1x_get_fw_data(update_info.firmware->subsystem[0].offset,
update_info.firmware->subsystem[0].length);
if (p == NULL) {
GTP_ERROR("get isp fail");
ret = ERROR_FW;
goto gt1x_update_exit;
}
update_info.progress = 7;
ret = gt1x_run_ss51_isp(p, update_info.firmware->subsystem[0].length);
if (ret) {
GTP_ERROR("run isp fail");
goto gt1x_update_exit;
}
update_info.progress = 8;
GTP_INFO("Reset guitar & check firmware in flash.");
/*heck_state = SUCCESS;*/
for (i = 1; i < update_info.firmware->subsystem_count; i++) {
GTP_INFO("subsystem: %d",
update_info.firmware->subsystem[i].type);
GTP_INFO("Length: %d",
update_info.firmware->subsystem[i].length);
GTP_INFO("Address: %d",
update_info.firmware->subsystem[i].address);
ret = gt1x_check_subsystem_in_flash(
&(update_info.firmware->subsystem[i]));
if (ret)
break;
}
update_info.progress = 9;
gt1x_update_exit:
gt1x_update_cleanup();
gt1x_leave_update_mode();
gt1x_read_version(NULL);
update_info.status = UPDATE_STATUS_IDLE;
if (ret) {
GTP_ERROR("Update firmware failed!");
} else if (gt1x_init_failed) {
gt1x_read_version(&gt1x_version);
gt1x_init_panel();
}
GTP_INFO("Update firmware succeefully!");
return ret;
}
int __gt1x_hold_ss51_dsp_20(void)
{
int ret = -1;
int retry = 0;
u8 buf[1];
int hold_times = 0;
while (retry++ < 2000) {
/*Hold ss51 & dsp*/
buf[0] = 0x0C;
ret = gt1x_i2c_write(_rRW_MISCTL__SWRST_B0_, buf, 1);
if (ret) {
GTP_DEBUG("Hold ss51 & dsp I2C error,retry:%d", retry);
continue;
}
/*Confirm hold*/
buf[0] = 0x00;
ret = gt1x_i2c_read(_rRW_MISCTL__SWRST_B0_, buf, 1);
if (ret) {
GTP_DEBUG("Hold ss51 & dsp I2C error,retry:%d", retry);
continue;
}
if (buf[0] == 0x0C) {
if (hold_times++ < 20)
continue;
else
break;
}
GTP_DEBUG("Hold ss51 & dsp confirm 0x4180 failed,value:%d",
buf[0]);
}
if (retry >= 2000) {
GTP_ERROR("Hold ss51&dsp failed!");
return ERROR_RETRY;
}
GTP_INFO("Hold ss51&dsp successfully.");
return 0;
}
int gt1x_hold_ss51_dsp(void)
{
int ret = ERROR;
u8 buffer[2];
gt1x_select_addr();
msleep(20);
/*old ss51_dsp*/
ret = __gt1x_hold_ss51_dsp_20();
if (ret)
return ret;
/*enable dsp & mcu power*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__DSP_MCU_PWR_, buffer,
1);
if (ret) {
GTP_ERROR("enabel dsp & mcu power fail!");
return ret;
}
/*disable watchdog*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__TMR0_EN, buffer, 1);
if (ret) {
GTP_ERROR("disable wdt fail!");
return ret;
}
/*clear cache*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__CACHE_EN, buffer, 1);
if (ret) {
GTP_ERROR("clear cache fail!");
return ret;
}
/*soft reset*/
buffer[0] = 0x01;
ret = gt1x_i2c_write(_bWO_MISCTL__CPU_SWRST_PULSE, buffer, 1);
if (ret) {
GTP_ERROR("software reset fail!");
return ret;
}
/*set scramble*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_rRW_MISCTL__BOOT_OPT_B0_, buffer,
1);
if (ret) {
GTP_ERROR("set scramble fail!");
return ret;
}
return 0;
}
void gt1x_leave_update_mode(void)
{
GTP_DEBUG("[leave_update_mode]reset chip.");
gt1x_reset_guitar();
#ifdef CONFIG_GTP_ESD_PROTECT
gt1x_esd_switch(SWITCH_ON);
#endif
gt1x_irq_enable();
}
void read_reg(u16 addr, int len)
{
int i;
u8 buffer[16];
int read_len = 0;
int cur_len;
GTP_INFO("Read address: 0x%04X, Length: %d", addr, len);
while (len > 0) {
cur_len = (len > 16 ? 16 : len);
gt1x_i2c_read(addr + read_len, buffer, cur_len);
GTP_INFO("<<GTP-INF>> ");
for (i = 0; i < cur_len; i++)
GTP_INFO("%02X ", buffer[i]);
GTP_INFO("\n");
len -= cur_len;
read_len += cur_len;
}
}
int gt1x_hold_ss51_dsp_no_reset(void)
{
int ret = ERROR;
u8 buffer[2];
/*old ss51_dsp*/
ret = __gt1x_hold_ss51_dsp_20();
if (ret)
return ret;
/*enable dsp & mcu power*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__DSP_MCU_PWR_, buffer,
1);
if (ret) {
GTP_ERROR("enabel dsp & mcu power fail!");
return ret;
}
/*disable watchdog*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__TMR0_EN, buffer, 1);
if (ret) {
GTP_ERROR("disable wdt fail!");
return ret;
}
/*clear cache*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_bRW_MISCTL__CACHE_EN, buffer, 1);
if (ret) {
GTP_ERROR("clear cache fail!");
return ret;
}
/*t reset*/
buffer[0] = 0x01;
ret = gt1x_i2c_write(_bWO_MISCTL__CPU_SWRST_PULSE, buffer, 1);
if (ret) {
GTP_ERROR("software reset fail!");
return ret;
}
/*et scramble*/
buffer[0] = 0x00;
ret = gt1x_i2c_write_with_readback(_rRW_MISCTL__BOOT_OPT_B0_, buffer,
1);
if (ret) {
GTP_ERROR("set scramble fail!");
return ret;
}
return 0;
}
#define GT1X_LOAD_PACKET_SIZE (1024 * 2)
int gt1x_load_patch(u8 *patch, u32 patch_size, int offset, int bank_size)
{
s32 loaded_length = 0;
s32 len = 0;
s32 ret = 0;
u8 bank = 0, tmp;
u16 address;
GTP_INFO(
"Load patch code(size: %d, checksum: 0x%04X, position: 0x%04X, bank-size: %d",
patch_size, gt1x_calc_checksum(patch, patch_size),
0xC000 + offset, bank_size);
while (loaded_length != patch_size) {
if (loaded_length == 0 ||
(loaded_length + offset) % bank_size == 0) {
/*lect bank*/
bank = 0x04 + (loaded_length + offset) / bank_size;
ret = gt1x_i2c_write(_bRW_MISCTL__SRAM_BANK, &bank, 1);
if (ret) {
GTP_ERROR("select bank%d fail!", bank);
return ret;
}
GTP_INFO("Select bank%d success.", bank);
/*enable patch area access*/
tmp = 0x01;
ret = gt1x_i2c_write_with_readback(
_bRW_MISCTL__PATCH_AREA_EN_ + bank - 4, &tmp,
1);
if (ret) {
GTP_ERROR("enable patch area access fail!");
return ret;
}
}
len = patch_size - loaded_length > GT1X_LOAD_PACKET_SIZE
? GT1X_LOAD_PACKET_SIZE
: patch_size - loaded_length;
address = 0xC000 + (loaded_length + offset) % bank_size;
ret = gt1x_i2c_write(address, &patch[loaded_length], len);
if (ret) {
GTP_ERROR("load 0x%04X, %dbytes fail!", address, len);
return ret;
}
ret = gt1x_recall_check(&patch[loaded_length], address, len);
if (ret) {
GTP_ERROR("Recall check 0x%04X, %dbytes fail!", address,
len);
return ret;
}
GTP_INFO("load code 0x%04X, %dbytes success.", address, len);
loaded_length += len;
}
return 0;
}
int gt1x_startup_patch(void)
{
s32 ret = 0;
u8 buffer[8] = {0x55};
buffer[0] = 0x00;
buffer[1] = 0x00;
ret |= gt1x_i2c_write(_bRW_MISCTL__PATCH_AREA_EN_, buffer, 2);
memset(buffer, 0x55, 8);
ret |= gt1x_i2c_write(GTP_REG_FLASH_PASSBY, buffer, 8);
ret |= gt1x_i2c_write(GTP_REG_VERSION, buffer, 5);
buffer[0] = 0xAA;
ret |= gt1x_i2c_write(GTP_REG_CMD, buffer, 1);
ret |= gt1x_i2c_write(GTP_REG_ESD_CHECK, buffer, 1);
buffer[0] = 0x00;
ret |= gt1x_i2c_write(_rRW_MISCTL__SWRST_B0_, buffer, 1);
msleep(200);
return ret;
}