asgardius/android_kernel_samsung_heroqlte
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
android_kernel_samsung_hero.../drivers/input/touchscreen/stm/fts_fwu.c
HackerOO7 2bd1731e0a init: OSRC G9300ZCU2APF7
2016-08-17 16:41:52 +08:00

1174 lines
30 KiB
C
Raw Permalink Blame History

#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/delay.h>
#include <linux/input.h>
#include <linux/firmware.h>
#include <linux/slab.h>
#include <asm/uaccess.h>
#include <linux/hrtimer.h>
#include <linux/interrupt.h>
#include <linux/gpio.h>
#include "fts_ts.h"
#define WRITE_CHUNK_SIZE 64
#define FTS_DEFAULT_UMS_FW "/sdcard/Firmware/TSP/stm.fw"
#define FTS_DEFAULT_FFU_FW "ffu_tsp.bin"
#define FTS64FILE_SIGNATURE 0xaaaa5555
enum {
BUILT_IN = 0,
UMS,
NONE,
FFU,
};
struct fts64_header {
unsigned int signature;
unsigned short fw_ver;
unsigned char fw_id;
unsigned char reserved1;
unsigned char internal_ver[8];
unsigned char released_ver[8];
unsigned int reserved2;
unsigned int checksum;
};
static int fts_fw_wait_for_flash_ready(struct fts_ts_info *info)
{
unsigned char regAdd;
unsigned char buf[3];
int retry = 0;
regAdd = FTS_CMD_READ_FLASH_STAT;
while (info->fts_read_reg
(info, &regAdd, 1, (unsigned char *)buf, 1)) {
if ((buf[0] & 0x01) == 0)
break;
if (retry++ > FTS_RETRY_COUNT * 10) {
tsp_debug_err(true, info->dev,
"%s: Time Over\n",
__func__);
return -FTS_ERROR_TIMEOUT;
}
msleep(20);
}
return 0;
}
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
static bool get_PureAutotune_status(struct fts_ts_info *info)
{
int rc;
unsigned char regAdd[3];
unsigned char buf[5];
bool retVal = false;
regAdd[0] = 0xd0;
regAdd[1] = 0x00;
regAdd[2] = 0x58;
/*
regAdd[0] = 0xb3;
regAdd[1] = 0x00;
regAdd[2] = 0x01;
info->fts_write_reg(info, regAdd, 3);
fts_delay(1);
regAdd[0] = 0xb1;
regAdd[1] = 0xFF;
regAdd[2] = 0xE0;
*/
rc = info->fts_read_reg(info, regAdd, 3, buf, 4);
if (!rc)
{
tsp_debug_info(true, info->dev, "%s: PureAutotune Information Read Fail!! [Data : %2X%2X]\n", __func__, buf[1], buf[2]);
return rc;
}
if((buf[1] == 0xA5) && (buf[2] == 0x96))
retVal = true;
tsp_debug_info(true, info->dev, "%s: PureAutotune Information !! [Data : %2X%2X]\n", __func__, buf[1], buf[2]);
return retVal;
}
static bool get_AFE_status(struct fts_ts_info *info)
{
int rc;
unsigned char regAdd[3];
unsigned char buf[5];
bool retVal = false;
regAdd[0] = 0xd0;
regAdd[1] = 0x00;
regAdd[2] = 0x5A;
rc = info->fts_read_reg(info, regAdd, 3, buf, 4);
if (!rc)
{
tsp_debug_info(true, info->dev, "%s: Read Fail - Final AFE [Data : %2X] AFE Ver [Data : %2X] \n", __func__, buf[1], buf[2]);
return rc;
}
if( buf[1] )
retVal = true;
tsp_debug_info(true, info->dev, "%s: Final AFE [Data : %2X] AFE Ver [Data : %2X] \n", __func__, buf[1], buf[2]);
return retVal;
}
#endif
#define FW_IMAGE_SIZE_D1 (64 * 1024)
#define FW_IMAGE_SIZE_D2 (128 * 1024)
#define SIGNEDKEY_SIZE 256
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
#define FW_CX_AREA_SIZE (4 * 1024)
#endif
//TEST
int FTS_Check_DMA_Done(struct fts_ts_info *info)
{
int timeout = 60; // 3 sec timeout
unsigned char regAdd[2] = { 0xF9, 0x05};
unsigned char val[1];
int cnt = 0;
cnt = 0;
do
{
info->fts_read_reg(info, &regAdd[0], 2, (unsigned char*)val, 1);
if ( (val[0] & 0x80) != 0x80)
{
break;
}
msleep(50);
timeout--;
}while(timeout != 0);
if (timeout == 0)
{
return -1;
}
return 0;
}
static int fts_fw_burn(struct fts_ts_info *info, unsigned char *fw_data)
{
unsigned char regAdd[WRITE_CHUNK_SIZE + 3];
int section;
int fsize = FW_IMAGE_SIZE_D1;
bool needPartialDownload = false;
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
needPartialDownload = get_PureAutotune_status(info);
if (needPartialDownload){
/* Reset FTS */
info->fts_systemreset(info);
/* wait for ready event */
info->fts_wait_for_ready(info);
}
#endif
tsp_debug_info(true, info->dev, "%s: start, PartialDownload is %s\n",
__func__, needPartialDownload ? "Enabled" : "Disabled");
/* Check busy Flash */
if (fts_fw_wait_for_flash_ready(info) < 0)
return -FTS_ERROR_TIMEOUT;
/* FTS_CMD_UNLOCK_FLASH */
tsp_debug_info(true, info->dev, "%s: Unlock Flash\n", __func__);
regAdd[0] = FTS_CMD_UNLOCK_FLASH;
regAdd[1] = 0x74;
regAdd[2] = 0x45;
info->fts_write_reg(info, &regAdd[0], 3);
msleep(500);
/* Copy to PRAM */
if (info->digital_rev == FTS_DIGITAL_REV_2)
{
fsize = FW_IMAGE_SIZE_D2 + sizeof(struct fts64_header);
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
if (needPartialDownload)
fsize = fsize - FW_CX_AREA_SIZE;
#endif
}
tsp_debug_info(true, info->dev, "%s: Copy to PRAM [Size : %d]\n", __func__, fsize);
for (section = 0; section < (fsize / WRITE_CHUNK_SIZE); section++) {
regAdd[0] = FTS_CMD_WRITE_PRAM + (((section * WRITE_CHUNK_SIZE) >> 16) & 0x0f);
regAdd[1] = ((section * WRITE_CHUNK_SIZE) >> 8) & 0xff;
regAdd[2] = (section * WRITE_CHUNK_SIZE) & 0xff;
memcpy(&regAdd[3],
&fw_data[section * WRITE_CHUNK_SIZE +
sizeof(struct fts64_header)],
WRITE_CHUNK_SIZE);
info->fts_write_reg(info, &regAdd[0], WRITE_CHUNK_SIZE + 3);
}
msleep(100);
/* Erase Program Flash */
tsp_debug_info(true, info->dev, "%s: Erase Program Flash\n", __func__);
info->fts_command(info, FTS_CMD_ERASE_PROG_FLASH);
msleep(100);
/* Check busy Flash */
if (fts_fw_wait_for_flash_ready(info) < 0)
return -FTS_ERROR_TIMEOUT;
/* Burn Program Flash */
tsp_debug_info(true, info->dev, "%s: Burn Program Flash\n", __func__);
info->fts_command(info, FTS_CMD_BURN_PROG_FLASH);
msleep(100);
/* Check busy Flash */
if (fts_fw_wait_for_flash_ready(info) < 0)
return -FTS_ERROR_TIMEOUT;
/* Reset FTS */
info->fts_systemreset(info);
return 0;
}
//TEST
static int fts_fw_burn_stm7(struct fts_ts_info *info, unsigned char *fw_data)
{
int rc;
const unsigned long int FTS_TOTAL_SIZE = (256 * 1024); // Total 256kB
const unsigned long int DRAM_LEN = (64 * 1024); // 64KB
const unsigned int CODE_ADDR_START = 0x0000;
const unsigned int WRITE_CHUNK_SIZE_D3 = 32;
unsigned long int size = 0;
unsigned long int i;
unsigned long int j;
unsigned long int k;
unsigned long int dataLen;
unsigned int len = 0;
unsigned int writeAddr = 0;
unsigned char buf[WRITE_CHUNK_SIZE_D3 + 3];
unsigned char regAdd[8] = {0};
int cnt;
//==================== System reset ====================
//System Reset ==> F7 52 34
regAdd[0] = 0xF7; regAdd[1] = 0x52; regAdd[2] = 0x34;
info->fts_write_reg(info, &regAdd[0], 3);
msleep(200);
//==================== Unlock Flash ====================
//Unlock Flash Command ==> F7 74 45
regAdd[0] = 0xF7; regAdd[1] = 0x74; regAdd[2] = 0x45;
info->fts_write_reg(info, &regAdd[0], 3);
msleep(100);
//==================== Unlock Erase Operation ====================
regAdd[0] = 0xFA; regAdd[1] = 0x72; regAdd[2] = 0x01;
info->fts_write_reg(info, &regAdd[0], 3);
msleep(100);
//==================== Erase full Flash ====================
regAdd[0] = 0xFA; regAdd[1] = 0x02; regAdd[2] = 0xC0;
info->fts_write_reg(info, &regAdd[0], 3);
msleep(100);
//==================== Unlock Programming operation ====================
regAdd[0] = 0xFA; regAdd[1] = 0x72; regAdd[2] = 0x02;
info->fts_write_reg(info, &regAdd[0], 3);
//========================== Write to FLASH ==========================
i = 0;
k = 0;
size = FTS_TOTAL_SIZE;
while(i < size)
{
j = 0;
dataLen = size - i;
while ((j < DRAM_LEN) && (j < dataLen)) //DRAM_LEN = 64*1024
{
writeAddr = (unsigned int)(j & 0xFFFF);
cnt = 0;
buf[cnt++] = 0xF8;
buf[cnt++] = (writeAddr >> 8) & 0xFF;
buf[cnt++] = (writeAddr >> 0) & 0xFF;
memcpy(&buf[cnt], &fw_data[sizeof(struct fts64_header) + i], WRITE_CHUNK_SIZE_D3);
cnt += WRITE_CHUNK_SIZE_D3;
info->fts_write_reg(info, &buf[0], cnt);
i += WRITE_CHUNK_SIZE_D3;
j += WRITE_CHUNK_SIZE_D3;
}
tsp_debug_info(true, info->dev, "%s: Write to Flash - Total %ld bytes\n", __func__, i);
//===================configure flash DMA=====================
len = j / 4 - 1; // 64*1024 / 4 - 1
buf[0] = 0xFA;
buf[1] = 0x06;
buf[2] = 0x00;
buf[3] = 0x00;
buf[4] = (CODE_ADDR_START +( (k * DRAM_LEN) >> 2)) & 0xFF; // k * 64 * 1024 / 4
buf[5] = (CODE_ADDR_START + ((k * DRAM_LEN) >> (2+8))) & 0xFF; // k * 64 * 1024 / 4 / 256
buf[6] = (len >> 0) & 0xFF; //DMA length in word
buf[7] = (len >> 8) & 0xFF; //DMA length in word
buf[8] = 0x00;
info->fts_write_reg(info, &buf[0], 9);
msleep(100);
//===================START FLASH DMA=====================
buf[0] = 0xFA;
buf[1] = 0x05;
buf[2] = 0xC0;
info->fts_write_reg(info, &buf[0], 3);
rc = FTS_Check_DMA_Done(info);
if (rc < 0)
{
return rc;
}
k++;
}
tsp_debug_info(true, info->dev, "%s : Total write %ld kbytes \n", __func__, i / 1024);
//==================== System reset ====================
//System Reset ==> F7 52 34
regAdd[0] = 0xF7; regAdd[1] = 0x52; regAdd[2] = 0x34;
info->fts_write_reg(info, &regAdd[0],3);
return 0;
}
static int fts_get_system_status(struct fts_ts_info *info, unsigned char *val1, unsigned char *val2)
{
bool rc = -1;
unsigned char regAdd1[4] = { 0xb2, 0x07, 0xfb, 0x04 };
unsigned char regAdd2[4] = { 0xb2, 0x17, 0xfb, 0x04 };
unsigned char data[FTS_EVENT_SIZE];
int retry = 0;
if (info->digital_rev == FTS_DIGITAL_REV_2) {
regAdd2[1] = 0x1f;
} else if (info->digital_rev == FTS_DIGITAL_REV_3) {
/* Mutual Tune Version - Config area */
regAdd1[1] = 0x07;
regAdd1[2] = 0x31;
/* Mutual Tune Version - Info0 area */
regAdd2[1] = 0x10;
regAdd2[2] = 0x00;
}
info->fts_write_reg(info, &regAdd1[0], 4);
info->fts_write_reg(info, &regAdd2[0], 4);
memset(data, 0x0, FTS_EVENT_SIZE);
regAdd1[0] = READ_ONE_EVENT;
while (info->fts_read_reg(info, &regAdd1[0], 1, (unsigned char *)data,
FTS_EVENT_SIZE)) {
if ((data[0] == 0x12) && (data[1] == regAdd1[1])
&& (data[2] == regAdd1[2])) {
rc = 0;
*val1 = data[3];
tsp_debug_info(true, info->dev,
"%s: System Status 1 : 0x%02x, retry=%d\n",
__func__, data[3], retry);
} else if ((data[0] == 0x12) && (data[1] == regAdd2[1])
&& (data[2] == regAdd2[2])) {
rc = 0;
*val2 = data[3];
tsp_debug_info(true, info->dev,
"%s: System Status 2 : 0x%02x, retry=%d\n",
__func__, data[3], retry);
break;
}
if (retry++ > FTS_RETRY_COUNT * 10) {
rc = -1;
tsp_debug_err(true, info->dev,
"%s: Time Over\n", __func__);
break;
}
}
return rc;
}
int fts_fw_wait_for_event(struct fts_ts_info *info, unsigned char eid)
{
int rc;
unsigned char regAdd;
unsigned char data[FTS_EVENT_SIZE];
int retry = 0;
memset(data, 0x0, FTS_EVENT_SIZE);
regAdd = READ_ONE_EVENT;
rc = -1;
while (info->fts_read_reg(info, &regAdd, 1, (unsigned char *)data, FTS_EVENT_SIZE)) {
if (data[0] == EVENTID_STATUS_EVENT || data[0] == EVENTID_ERROR) {
if ((data[0] == EVENTID_STATUS_EVENT) && (data[1] == eid)) {
rc = 0;
break;
} else {
tsp_debug_info(true, info->dev, "%s: %2X,%2X,%2X,%2X \n", __func__, data[0],data[1],data[2],data[3]);
}
}
if (retry++ > FTS_RETRY_COUNT * 15) {
rc = -1;
tsp_debug_info(true, info->dev, "%s: Time Over ( %2X,%2X,%2X,%2X )\n", __func__, data[0],data[1],data[2],data[3]);
break;
}
msleep(20);
}
return rc;
}
static int fts_fw_wait_for_event_D3(struct fts_ts_info *info, unsigned char eid0, unsigned char eid1)
{
int rc;
unsigned char regAdd;
unsigned char data[FTS_EVENT_SIZE];
int retry = 0;
memset(data, 0x0, FTS_EVENT_SIZE);
regAdd = READ_ONE_EVENT;
rc = -1;
while (info->fts_read_reg
(info, &regAdd, 1, (unsigned char *)data, FTS_EVENT_SIZE)) {
if (data[0] == EVENTID_STATUS_EVENT || data[0] == EVENTID_ERROR) {
if ((data[0] == EVENTID_STATUS_EVENT) && (data[1] == eid0) && (data[2] == eid1)) {
rc = 0;
break;
} else {
tsp_debug_info(true, info->dev, "%s: %2X,%2X,%2X,%2X \n", __func__, data[0], data[1], data[2], data[3]);
}
}
if (retry++ > FTS_RETRY_COUNT * 15) {
rc = -1;
tsp_debug_info(true, info->dev, "%s: Time Over ( %2X,%2X,%2X,%2X )\n", __func__, data[0], data[1], data[2], data[3]);
break;
}
msleep(20);
}
return rc;
}
int fts_fw_wait_for_specific_event(struct fts_ts_info *info, unsigned char eid0, unsigned char eid1, unsigned char eid2)
{
int rc;
unsigned char regAdd;
unsigned char data[FTS_EVENT_SIZE];
int retry = 0;
memset(data, 0x0, FTS_EVENT_SIZE);
regAdd = READ_ONE_EVENT;
rc = -1;
while (info->fts_read_reg(info, &regAdd, 1, (unsigned char *)data, FTS_EVENT_SIZE)) {
if (data[0]) {
if ((data[0] == eid0) && (data[1] == eid1) && (data[2] == eid2)) {
rc = 0;
break;
} else {
tsp_debug_info(true, info->dev, "%s: %2X,%2X,%2X,%2X \n",
__func__, data[0], data[1], data[2], data[3]);
}
}
if (retry++ > FTS_RETRY_COUNT * 15) {
rc = -1;
tsp_debug_info(true, info->dev, "%s: Time Over ( %2X,%2X,%2X,%2X )\n",
__func__, data[0], data[1], data[2], data[3]);
break;
}
msleep(20);
}
return rc;
}
void fts_execute_autotune(struct fts_ts_info *info)
{
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
int ret = 0;
unsigned char regData[4]; // {0xC1, 0x0E};
#endif
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
bool bFinalAFE = false;
bool NoNeedAutoTune = false; // default for factory
bFinalAFE = get_AFE_status(info);
#if !defined (CONFIG_SEC_FACTORY)
NoNeedAutoTune = get_PureAutotune_status(info); // Check flag and decide cx_tune
#endif
tsp_debug_info(true, info->dev, "%s: AFE(%d), NoNeedAutoTune(%d)\n", __func__,bFinalAFE, NoNeedAutoTune);
if ((!NoNeedAutoTune) || (info->o_afe_ver!=info->afe_ver)) {
#endif
info->fts_command(info, CX_TUNNING);
msleep(300);
if (info->stm_ver == STM_VER7) {
fts_fw_wait_for_event_D3(info, STATUS_EVENT_MUTUAL_AUTOTUNE_DONE, 0x00);
info->fts_command(info, SELF_AUTO_TUNE);
msleep(300);
fts_fw_wait_for_event_D3(info, STATUS_EVENT_SELF_AUTOTUNE_DONE_D3, 0x00);
#ifdef FTS_SUPPORT_WATER_MODE
fts_fw_wait_for_event(info, STATUS_EVENT_WATER_SELF_AUTOTUNE_DONE);
fts_fw_wait_for_event(info, STATUS_EVENT_SELF_AUTOTUNE_DONE);
#endif
} else {
fts_fw_wait_for_event(info, STATUS_EVENT_MUTUAL_AUTOTUNE_DONE);
#ifdef FTS_SUPPORT_WATER_MODE
fts_fw_wait_for_event(info, STATUS_EVENT_WATER_SELF_AUTOTUNE_DONE);
fts_fw_wait_for_event(info, STATUS_EVENT_SELF_AUTOTUNE_DONE);
#endif
#ifdef FTS_SUPPORT_SELF_MODE
info->fts_command(info, SELF_AUTO_TUNE);
msleep(300);
fts_fw_wait_for_event(info, STATUS_EVENT_SELF_AUTOTUNE_DONE);
#endif
}
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
}
if (bFinalAFE) {
#ifdef CONFIG_SEC_FACTORY
tsp_debug_info(true, info->dev, "%s: AFE_status(%d) write ( C1 0E )\n", __func__,bFinalAFE);
regData[0] = 0xC1;
regData[1] = 0x0E;
ret = info->fts_write_reg(info, regData, 2);//write C1 0E
if (ret < 0)
tsp_debug_info(true, info->dev, "%s: Flash Back up PureAutotune Fail(Set)\n", __func__);
msleep(20);
fts_fw_wait_for_event(info, STATUS_EVENT_PURE_AUTOTUNE_FLAG_WRITE_FINISH);
#else
if (NoNeedAutoTune && (info->o_afe_ver!=info->afe_ver))
{
tsp_debug_info(true, info->dev, "%s: AFE_status(%d) write ( C2 0E )\n", __func__,bFinalAFE);
regData[0] = 0xC2;
regData[1] = 0x0E;
ret = info->fts_write_reg(info, regData, 2);//Write C2 0E
if (ret < 0)
tsp_debug_info(true, info->dev, "%s: Flash Back up PureAutotune Fail(Clear)\n", __func__);
msleep(20);
fts_fw_wait_for_event(info, STATUS_EVENT_PURE_AUTOTUNE_FLAG_ERASE_FINISH);
}
#endif
} else {
tsp_debug_info(true, info->dev, "%s: AFE_status(%d) write ( C2 0E )\n", __func__,bFinalAFE);
regData[0] = 0xC2;
regData[1] = 0x0E;
ret = info->fts_write_reg(info, regData, 2);//Write C2 0E
if (ret < 0)
tsp_debug_info(true, info->dev, "%s: Flash Back up PureAutotune Fail(Clear)\n", __func__);
msleep(20);
fts_fw_wait_for_event(info, STATUS_EVENT_PURE_AUTOTUNE_FLAG_ERASE_FINISH);
}
#endif
info->fts_command(info, FTS_CMD_SAVE_CX_TUNING);
msleep(230);
fts_fw_wait_for_event(info, STATUS_EVENT_FLASH_WRITE_CXTUNE_VALUE);
if (info->stm_ver == STM_VER7) {
info->fts_command(info, FTS_CMD_SAVE_FWCONFIG);
msleep(230);
fts_fw_wait_for_event(info, STATUS_EVENT_FLASH_WRITE_CONFIG);
}
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
/* Reset FTS */
info->fts_systemreset(info);
msleep(20);
/* wait for ready event */
info->fts_wait_for_ready(info);
#endif
}
#ifdef FTS_SUPPORT_STRINGLIB
static void fts_enable_custom_library(struct fts_ts_info *info)
{
unsigned char EnableCLIB[4] = {0xB0, 0x01, 0x10, 0x77};
if (strncmp(info->dt_data->project, "T", 1) == 0) {
if (strncmp(info->dt_data->project, "TB", 2) == 0)
EnableCLIB[3] = 0x7D;
} else {
return;
}
tsp_debug_info(true, info->dev, "%s\n", __func__);
info->fts_write_reg(info, &EnableCLIB[0], 4);
}
static void fts_check_custom_library(struct fts_ts_info *info)
{
int rc;
unsigned char regAdd[3] = {0xd0, 0x00, 0x50};
unsigned char buf[3];
unsigned char ver = 0;
/* string library is seperate by model name in T project
* after T project, String library is used all project.
*/
if (strncmp(info->dt_data->project, "T", 1) != 0)
return;
rc = info->fts_read_reg(info, regAdd, 3, buf, 2);
/* ver = buf[0];*/
ver = buf[1];
tsp_debug_info(true, info->dev, "%s, CHN on =%d\n", __func__, ver);
if (rc < 0) {
tsp_debug_info(true, info->dev, "%s, read fail,%d\n", __func__, rc);
} else if (ver == 0) {
fts_enable_custom_library(info);
info->fts_command(info, FTS_CMD_SAVE_FWCONFIG);
msleep(300);
info->fts_systemreset(info);
info->fts_wait_for_ready(info);
}
}
#endif
void fts_fw_init(struct fts_ts_info *info)
{
/* fts_enable_custom_library : enable String library when use BlackUI/QuickApp/QuickCAM.. etc..
* after all Firmware config sending, send SAVE command.
*/
#ifdef FTS_SUPPORT_STRINGLIB
fts_enable_custom_library(info);
#endif
// info->fts_command(info, SLEEPOUT);
// msleep(50);
if (info->stm_ver != STM_VER7) {
info->fts_command(info, SLEEPOUT);
msleep(50);
if (info->digital_rev == FTS_DIGITAL_REV_2) {
info->fts_command(info, FTS_CMD_TRIM_LOW_POWER_OSCILLATOR);
msleep(300);
info->fts_command(info, FTS_CMD_SAVE_CX_TUNING);
msleep(230);
fts_fw_wait_for_event(info, STATUS_EVENT_FLASH_WRITE_CXTUNE_VALUE);
}
} else {
info->fts_command(info, FTS_CMD_TRIM_LOW_POWER_OSCILLATOR);
msleep(200);
}
//TEST
fts_execute_autotune(info);
//TEST
if (info->stm_ver != STM_VER7) {
info->fts_command(info, SLEEPOUT);
msleep(50);
}
info->fts_command(info, SENSEON);
#ifdef FTS_SUPPORT_WATER_MODE
fts_fw_wait_for_event(info, STATUS_EVENT_WATER_SELF_DONE);
#else
if (info->stm_ver == STM_VER7) {
fts_fw_wait_for_event(info, STATUS_EVENT_FORCE_CAL_DONE_D3);
} else {
fts_fw_wait_for_event(info, STATUS_EVENT_FORCE_CAL_DONE);
}
#endif
#ifdef FTS_SUPPORT_TOUCH_KEY
if (info->dt_data->support_mskey)
info->fts_command(info, FTS_CMD_KEY_SENSE_ON);
#endif
if (info->stm_ver == STM_VER7) {
fts_interrupt_set(info, INT_ENABLE);
msleep(20);
}
}
const int fts_fw_updater(struct fts_ts_info *info, unsigned char *fw_data)
{
const struct fts64_header *header;
int retval;
int retry = 0;
unsigned short fw_main_version;
if (!fw_data) {
tsp_debug_err(true, info->dev, "%s: Firmware data is NULL\n",
__func__);
return -ENODEV;
}
header = (struct fts64_header *)fw_data;
fw_main_version = (header->released_ver[0] << 8) + (header->released_ver[1]);
tsp_debug_info(true, info->dev,
"Starting firmware update : 0x%04X\n",
fw_main_version);
while (1) {
#ifdef FTS_SUPPORT_PARTIAL_DOWNLOAD
info->o_afe_ver = info->afe_ver;
#endif
if (info->stm_ver == STM_VER7)
retval = fts_fw_burn_stm7(info, fw_data);
else
retval = fts_fw_burn(info, fw_data);
if (retval >= 0) {
info->fts_wait_for_ready(info);
info->fts_get_version_info(info);
#ifdef FTS_SUPPORT_NOISE_PARAM
info->fts_get_noise_param_address(info);
#endif
if (fw_main_version == info->fw_main_version_of_ic) {
tsp_debug_info(true, info->dev,
"%s: Success Firmware update\n",
__func__);
info->fts_systemreset(info);
info->fts_delay(10);
info->fts_wait_for_ready(info);
fts_fw_init(info);
retval = 0;
break;
}
}
if (retry++ > 2) {
tsp_debug_err(true, info->dev, "%s: Fail Firmware update\n",
__func__);
retval = -1;
break;
}
}
/* set_tsp_test_result using backup data */
if (info->stm_ver == STM_VER7) {
struct fts_ts_test_result result;
retry = 0;
do {
result.data[0] = info->test_result.data[0];
fts_set_tsp_test_result(info);
fts_get_tsp_test_result(info);
retry++;
} while ((result.data[0] != info->test_result.data[0]) && (retry < 5));
if (retry >= 5) {
tsp_debug_err(true, info->dev, "%s: failed to set_tsp_test_result\n",
__func__);
}
}
return retval;
}
EXPORT_SYMBOL(fts_fw_updater);
static bool fts_check_firmware_data(struct fts_ts_info *info, unsigned char *fw_data)
{
int config_id, num_rx, num_tx;
config_id = fw_data[CONFIG_OFFSET_BIN_D3];
num_rx = fw_data[RX_OFFSET_BIN_D2];
num_tx = fw_data[TX_OFFSET_BIN_D2];
tsp_debug_info(true, info->dev, "%s: BIN:[%d] %d, %d // IC: %d, %d\n",
__func__, config_id, num_rx, num_tx,
info->SenseChannelLength, info->ForceChannelLength);
return false;
}
int fts_fw_update_on_probe(struct fts_ts_info *info)
{
int retval;
const struct firmware *fw_entry = NULL;
unsigned char *fw_data = NULL;
char fw_path[FTS_MAX_FW_PATH];
const struct fts64_header *header;
unsigned char SYS_STAT[2];
#ifdef FTS_SUPPORT_STRINGLIB
fts_check_custom_library(info);
#endif
if (info->digital_rev == FTS_DIGITAL_REV_3) {
info->firmware_name = info->dt_data->firmware_name;
} else {
info->firmware_name = FTS_FIRMWARE_NAME_NULL;
}
snprintf(fw_path, FTS_MAX_FW_PATH, "%s", info->firmware_name);
tsp_debug_info(true, info->dev, "%s: Load firmware : %s, Digital_rev : %d\n", __func__,
fw_path, info->digital_rev);
if (!info->firmware_name) {
tsp_debug_info(true, info->dev, "%s: firmawer name is NULL, return\n", __func__);
return 0;
}
retval = request_firmware(&fw_entry, fw_path, info->dev);
if (retval) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available\n", __func__,
fw_path);
goto update_on_probe_done;
}
if ((info->digital_rev == FTS_DIGITAL_REV_1) &&
fw_entry->size != (FW_IMAGE_SIZE_D1 + sizeof(struct fts64_header))) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available for FTS D1\n", __func__,
fw_path);
goto update_on_probe_done;
}
if ((info->digital_rev == FTS_DIGITAL_REV_2) &&
fw_entry->size != (FW_IMAGE_SIZE_D2 + sizeof(struct fts64_header))) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available for FTS D2\n", __func__,
fw_path);
goto update_on_probe_done;
}
fw_data = (unsigned char *)fw_entry->data;
header = (struct fts64_header *)fw_data;
info->fw_version_of_bin = (fw_data[5] << 8) + fw_data[4];
info->fw_main_version_of_bin = (header->released_ver[0] << 8) +
(header->released_ver[1]);
if (info->digital_rev == FTS_DIGITAL_REV_1)
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D1] << 8) + fw_data[CONFIG_OFFSET_BIN_D1 - 1];
else if (info->digital_rev == FTS_DIGITAL_REV_2)
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D2] << 8) + fw_data[CONFIG_OFFSET_BIN_D2 - 1];
else
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D3] << 8) + fw_data[CONFIG_OFFSET_BIN_D3 - 1];
tsp_debug_info(true, info->dev,
"Bin Firmware Version : 0x%04X, Bin Config Version : 0x%04X, Bin Main Version : 0x%04X\n",
info->fw_version_of_bin,
info->config_version_of_bin,
info->fw_main_version_of_bin);
fts_check_firmware_data(info, fw_data);
/*
* skip firmware update @ bringup flag is enabled in device tree.
*/
if (info->dt_data->bringup) {
tsp_debug_err(true, info->dev, "%s: not update\n", __func__);
return 0;
}
/* check core + config + main */
if ((info->fw_main_version_of_ic < info->fw_main_version_of_bin)
|| (info->config_version_of_ic < info->config_version_of_bin)
|| (info->fw_version_of_ic < info->fw_version_of_bin))
retval = fts_fw_updater(info, fw_data);
else
retval = FTS_NOT_ERROR;
if (fts_get_system_status(info, &SYS_STAT[0], &SYS_STAT[1]) >= 0)
if (SYS_STAT[0] != SYS_STAT[1]) {
info->fts_systemreset(info);
info->fts_delay(10);
info->fts_wait_for_ready(info);
fts_fw_init(info);
}
update_on_probe_done:
if (fw_entry)
release_firmware(fw_entry);
/*
if (retval < 0) {
if (fts_get_system_status(info, &SYS_STAT[0], &SYS_STAT[1]) >= 0) {
if (SYS_STAT[0] != SYS_STAT[1])
fts_fw_init(info);
}
}
*/
return retval;
}
EXPORT_SYMBOL(fts_fw_update_on_probe);
static int fts_load_fw_from_kernel(struct fts_ts_info *info,
const char *fw_path)
{
int retval;
const struct firmware *fw_entry = NULL;
unsigned char *fw_data = NULL;
if (!fw_path) {
tsp_debug_err(true, info->dev, "%s: Firmware name is not defined\n",
__func__);
return -EINVAL;
}
tsp_debug_info(true, info->dev, "%s: Load firmware : %s\n", __func__,
fw_path);
retval = request_firmware(&fw_entry, fw_path, info->dev);
if (retval) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available\n", __func__,
fw_path);
goto load_kernel_done;
}
fw_data = (unsigned char *)fw_entry->data;
if (info->irq)
fts_irq_enable(info, false);
else
hrtimer_cancel(&info->timer);
info->fts_systemreset(info);
info->fts_wait_for_ready(info);
retval = fts_fw_updater(info, fw_data);
if (retval)
tsp_debug_err(true, info->dev, "%s: failed update firmware\n",
__func__);
if (info->irq)
fts_irq_enable(info, true);
else
hrtimer_start(&info->timer, ktime_set(1, 0), HRTIMER_MODE_REL);
load_kernel_done:
if (fw_entry)
release_firmware(fw_entry);
return retval;
}
static int fts_load_fw_from_ums(struct fts_ts_info *info)
{
struct file *fp;
mm_segment_t old_fs;
long fw_size, nread;
int error = 0;
old_fs = get_fs();
set_fs(KERNEL_DS);
fp = filp_open(FTS_DEFAULT_UMS_FW, O_RDONLY, S_IRUSR);
if (IS_ERR(fp)) {
tsp_debug_err(true, info->dev, "%s: failed to open %s.\n", __func__,
FTS_DEFAULT_UMS_FW);
error = -ENOENT;
goto open_err;
}
fw_size = fp->f_path.dentry->d_inode->i_size;
if (0 < fw_size) {
unsigned char *fw_data;
const struct fts64_header *header;
fw_data = kzalloc(fw_size, GFP_KERNEL);
nread = vfs_read(fp, (char __user *)fw_data,
fw_size, &fp->f_pos);
tsp_debug_info(true, info->dev,
"%s: start, file path %s, size %ld Bytes\n",
__func__, FTS_DEFAULT_UMS_FW, fw_size);
if (nread != fw_size) {
tsp_debug_err(true, info->dev,
"%s: failed to read firmware file, nread %ld Bytes\n",
__func__, nread);
error = -EIO;
} else {
header = (struct fts64_header *)fw_data;
if (header->signature == FTS64FILE_SIGNATURE) {
if (info->irq)
fts_irq_enable(info, false);
else
hrtimer_cancel(&info->timer);
info->fts_systemreset(info);
info->fts_wait_for_ready(info);
tsp_debug_info(true, info->dev,
"[UMS] Firmware Version : 0x%04X, [UMS] Main Version : 0x%04X\n",
(fw_data[5] << 8) + fw_data[4],
(header->released_ver[0] << 8) +
(header->released_ver[1]));
error = fts_fw_updater(info, fw_data);
if (info->irq)
fts_irq_enable(info, true);
else
hrtimer_start(&info->timer,
ktime_set(1, 0),
HRTIMER_MODE_REL);
} else {
error = -1;
tsp_debug_err(true, info->dev,
"%s: File type is not match with FTS64 file. [%8x]\n",
__func__, header->signature);
}
}
if (error < 0)
tsp_debug_err(true, info->dev, "%s: failed update firmware\n",
__func__);
kfree(fw_data);
}
filp_close(fp, NULL);
open_err:
set_fs(old_fs);
return error;
}
static int fts_load_fw_from_ffu(struct fts_ts_info *info)
{
int retval;
const struct firmware *fw_entry = NULL;
unsigned char *fw_data = NULL;
const char *fw_path = FTS_DEFAULT_FFU_FW;
const struct fts64_header *header;
if (!fw_path) {
tsp_debug_err(true, info->dev, "%s: Firmware name is not defined\n",
__func__);
return -EINVAL;
}
tsp_debug_info(true, info->dev, "%s: Load firmware : %s\n", __func__,
fw_path);
retval = request_firmware(&fw_entry, fw_path, info->dev);
if (retval) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available\n", __func__,
fw_path);
goto load_ffu_done;
}
if (info->digital_rev == FTS_DIGITAL_REV_2 && fw_entry->size!=(FW_IMAGE_SIZE_D2 + sizeof(struct fts64_header))) {
tsp_debug_err(true, info->dev,
"%s: Firmware image %s not available for FTS D2\n", __func__,
fw_path);
goto load_ffu_done;
}
fw_data = (unsigned char *)fw_entry->data;
header = (struct fts64_header *)fw_data;
info->fw_version_of_bin = (fw_data[5] << 8)+fw_data[4];
info->fw_main_version_of_bin = (header->released_ver[0] << 8) +
(header->released_ver[1]);
if (info->digital_rev == FTS_DIGITAL_REV_1)
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D1] << 8) + fw_data[CONFIG_OFFSET_BIN_D1 - 1];
else if (info->digital_rev == FTS_DIGITAL_REV_2)
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D2] << 8) + fw_data[CONFIG_OFFSET_BIN_D2 - 1];
else
info->config_version_of_bin = (fw_data[CONFIG_OFFSET_BIN_D3] << 8) + fw_data[CONFIG_OFFSET_BIN_D3 - 1];
tsp_debug_info(true, info->dev,
"FFU Firmware Version : 0x%04X "
"FFU Config Version : 0x%04X "
"FFU Main Version : 0x%04X\n",
info->fw_version_of_bin,
info->config_version_of_bin,
info->fw_main_version_of_bin);
/* TODO : if you need to check firmware version between IC and Binary,
* add it this position.
*/
if (info->irq)
fts_irq_enable(info, false);
else
hrtimer_cancel(&info->timer);
info->fts_systemreset(info);
info->fts_wait_for_ready(info);
retval = fts_fw_updater(info, fw_data);
if (retval)
tsp_debug_err(true, info->dev, "%s: failed update firmware\n",
__func__);
if (info->irq)
fts_irq_enable(info, true);
else
hrtimer_start(&info->timer, ktime_set(1, 0), HRTIMER_MODE_REL);
load_ffu_done:
if (fw_entry)
release_firmware(fw_entry);
return retval;
}
int fts_fw_update_on_hidden_menu(struct fts_ts_info *info, int update_type)
{
int retval = 0;
/* Factory cmd for firmware update
* argument represent what is source of firmware like below.
*
* 0 : [BUILT_IN] Getting firmware which is for user.
* 1 : [UMS] Getting firmware from sd card.
* 2 : none
* 3 : [FFU] Getting firmware from air.
*/
switch (update_type) {
case BUILT_IN:
retval = fts_load_fw_from_kernel(info, info->firmware_name);
break;
case UMS:
retval = fts_load_fw_from_ums(info);
break;
case FFU:
retval = fts_load_fw_from_ffu(info);
break;
default:
tsp_debug_err(true, info->dev, "%s: Not support command[%d]\n",
__func__, update_type);
break;
}
return retval;
}
EXPORT_SYMBOL(fts_fw_update_on_hidden_menu);
Reference in a new issue View git blame Copy permalink