/* drivers/input/touchscreen/goodix_tool.c * * 2010 - 2012 Goodix Technology. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be a reference * to you, when you are integrating the GOODiX's CTP IC into your system, * 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. * * Version:1.2 * V1.0:2012/05/01,create file. * V1.2:2012/10/17,reset_guitar etc. * */ #include "tpd.h" #include #include #include #include #include #include #include #include #include #include "tpd_custom_gt9xx.h" #include #include /*proc */ #pragma pack(1) struct st_cmd_head { u8 wr; /* write read flag£¬0:R 1:W 2:PID 3: */ u8 flag; /* 0:no need flag/int 1: need flag 2:need int */ u8 flag_addr[2]; /* flag address */ u8 flag_val; /* flag val */ u8 flag_relation; /* flag_val:flag 0:not equal 1:equal 2:> 3:< */ u16 circle; /* polling cycle */ u8 times; /* plling times */ u8 retry; /* I2C retry times */ u16 delay; /* delay before read or after write */ u16 data_len; /* data length */ u8 addr_len; /* address length */ u8 addr[2]; /* address */ u8 res[3]; /* reserved */ u8 *data; /* data pointer */ }; #pragma pack() struct st_cmd_head cmd_head; #define UPDATE_FUNCTIONS #define DATA_LENGTH_UINT 512 #define CMD_HEAD_LENGTH (sizeof(struct st_cmd_head) - sizeof(u8 *)) #define GOODIX_ENTRY_NAME "goodix_tool" static char procname[20] = { 0 }; static struct i2c_client *gt_client; #if 0 static struct proc_dir_entry *goodix_proc_entry; #endif static s32 goodix_tool_write(struct file *filp, const char __user *buff, unsigned long len, void *data); static s32 goodix_tool_read(char *page, char **start, off_t off, int count, int *eof, void *data); static s32 (*tool_i2c_read)(u8 *, u16); static s32 (*tool_i2c_write)(u8 *, u16); s32 DATA_LENGTH = 0; s8 IC_TYPE[16] = "GT9XX"; static void tool_set_proc_name(char *procname) { sprintf(procname, "gmnode"); } static ssize_t goodix_tool_upper_read(struct file *file, char __user *buffer, size_t count, loff_t *ppos) { return goodix_tool_read(buffer, NULL, 0, count, NULL, ppos); } static ssize_t goodix_tool_upper_write(struct file *file, const char __user *buffer, size_t count, loff_t *ppos) { return goodix_tool_write(file, buffer, count, ppos); } static const struct file_operations gt_tool_fops = { .write = goodix_tool_upper_write, .read = goodix_tool_upper_read }; static s32 tool_i2c_read_no_extra(u8 *buf, u16 len) { s32 ret = -1; ret = gtp_i2c_read(gt_client, buf, len + GTP_ADDR_LENGTH); return ret; } static s32 tool_i2c_write_no_extra(u8 *buf, u16 len) { s32 ret = -1; ret = gtp_i2c_write(gt_client, buf, len); return ret; } static s32 tool_i2c_read_with_extra(u8 *buf, u16 len) { s32 ret = -1; u8 pre[2] = { 0x0f, 0xff }; u8 end[2] = { 0x80, 0x00 }; tool_i2c_write_no_extra(pre, 2); ret = tool_i2c_read_no_extra(buf, len); tool_i2c_write_no_extra(end, 2); return ret; } static s32 tool_i2c_write_with_extra(u8 *buf, u16 len) { s32 ret = -1; u8 pre[2] = { 0x0f, 0xff }; u8 end[2] = { 0x80, 0x00 }; tool_i2c_write_no_extra(pre, 2); ret = tool_i2c_write_no_extra(buf, len); tool_i2c_write_no_extra(end, 2); return ret; } static void register_i2c_func(void) { /* if (!strncmp(IC_TYPE, "GT818", 5) || !strncmp(IC_TYPE, "GT816", 5) */ /* || !strncmp(IC_TYPE, "GT811", 5) || !strncmp(IC_TYPE, "GT818F", 6) */ /* || !strncmp(IC_TYPE, "GT827", 5) || !strncmp(IC_TYPE,"GT828", 5) */ /* || !strncmp(IC_TYPE, "GT813", 5)) */ if (strncmp(IC_TYPE, "GT8110", 6) && strncmp(IC_TYPE, "GT8105", 6) && strncmp(IC_TYPE, "GT801", 5) && strncmp(IC_TYPE, "GT800", 5) && strncmp(IC_TYPE, "GT801PLUS", 9) && strncmp(IC_TYPE, "GT811", 5) && strncmp(IC_TYPE, "GTxxx", 5) && strncmp(IC_TYPE, "GT9XX", 5)) { tool_i2c_read = tool_i2c_read_with_extra; tool_i2c_write = tool_i2c_write_with_extra; GTP_DEBUG("I2C function: with pre and end cmd!"); } else { tool_i2c_read = tool_i2c_read_no_extra; tool_i2c_write = tool_i2c_write_no_extra; GTP_INFO("I2C function: without pre and end cmd!"); } } static void unregister_i2c_func(void) { tool_i2c_read = NULL; tool_i2c_write = NULL; GTP_INFO("I2C function: unregister i2c transfer function!"); } s32 init_wr_node(struct i2c_client *client) { s32 i; gt_client = i2c_client_point; memset(&cmd_head, 0, sizeof(cmd_head)); cmd_head.data = NULL; i = 5; while ((!cmd_head.data) && i) { cmd_head.data = kzalloc(i * DATA_LENGTH_UINT, GFP_KERNEL); if (NULL != cmd_head.data) break; i--; } if (i) { DATA_LENGTH = i * DATA_LENGTH_UINT + GTP_ADDR_LENGTH; GTP_INFO("Applied memory size:%d.", DATA_LENGTH); } else { GTP_ERROR("Apply for memory failed."); return FAIL; } cmd_head.addr_len = 2; cmd_head.retry = 5; register_i2c_func(); tool_set_proc_name(procname); if (proc_create(procname, 0660, NULL, >_tool_fops) == NULL) { GTP_ERROR("create_proc_entry %s failed", procname); return -1; } return SUCCESS; } void uninit_wr_node(void) { kfree(cmd_head.data); cmd_head.data = NULL; unregister_i2c_func(); remove_proc_entry(procname, NULL); } static u8 relation(u8 src, u8 dst, u8 rlt) { u8 ret = 0; switch (rlt) { case 0: ret = (src != dst) ? true : false; break; case 1: ret = (src == dst) ? true : false; GTP_DEBUG("equal:src:0x%02x dst:0x%02x ret:%d.", src, dst, (s32) ret); break; case 2: ret = (src > dst) ? true : false; break; case 3: ret = (src < dst) ? true : false; break; case 4: ret = (src & dst) ? true : false; break; case 5: ret = (!(src | dst)) ? true : false; break; default: ret = false; break; } return ret; } /******************************************************* Function: Comfirm function. Input: None. Output: Return write length. ********************************************************/ static u8 comfirm(void) { s32 i = 0; u8 buf[32]; /* memcpy(&buf[GTP_ADDR_LENGTH - cmd_head.addr_len], &cmd_head.flag_addr, cmd_head.addr_len); */ /* memcpy(buf, &cmd_head.flag_addr, cmd_head.addr_len);//Modified by Scott, 2012-02-17 */ memcpy(buf, cmd_head.flag_addr, cmd_head.addr_len); for (i = 0; i < cmd_head.times; i++) { if (tool_i2c_read(buf, 1) <= 0) { GTP_ERROR("Read flag data failed!"); return FAIL; } if (true == relation(buf[GTP_ADDR_LENGTH], cmd_head.flag_val, cmd_head.flag_relation)) { GTP_DEBUG("value at flag addr:0x%02x.", buf[GTP_ADDR_LENGTH]); GTP_DEBUG("flag value:0x%02x.", cmd_head.flag_val); break; } msleep(cmd_head.circle); } if (i >= cmd_head.times) { GTP_ERROR("Didn't get the flag to continue!"); return FAIL; } return SUCCESS; } /******************************************************* Function: Goodix tool write function. Input: standard proc write function param. Output: Return write length. ********************************************************/ static s32 goodix_tool_write(struct file *filp, const char __user *buff, unsigned long len, void *data) { u64 ret = 0; GTP_DEBUG_FUNC(); GTP_DEBUG_ARRAY((u8 *) buff, len); ret = copy_from_user(&cmd_head, buff, CMD_HEAD_LENGTH); if (ret) GTP_ERROR("copy_from_user failed."); GTP_DEBUG("wr :0x%02x.", cmd_head.wr); GTP_DEBUG("flag:0x%02x.", cmd_head.flag); GTP_DEBUG("flag addr:0x%02x%02x.", cmd_head.flag_addr[0], cmd_head.flag_addr[1]); GTP_DEBUG("flag val:0x%02x.", cmd_head.flag_val); GTP_DEBUG("flag rel:0x%02x.", cmd_head.flag_relation); GTP_DEBUG("circle :%d.", (s32) cmd_head.circle); GTP_DEBUG("times :%d.", (s32) cmd_head.times); GTP_DEBUG("retry :%d.", (s32) cmd_head.retry); GTP_DEBUG("delay :%d.", (s32) cmd_head.delay); GTP_DEBUG("data len:%d.", (s32) cmd_head.data_len); GTP_DEBUG("addr len:%d.", (s32) cmd_head.addr_len); GTP_DEBUG("addr:0x%02x%02x.", cmd_head.addr[0], cmd_head.addr[1]); GTP_DEBUG("len:%d.", (s32) len); GTP_DEBUG("buf[20]:0x%02x.", buff[CMD_HEAD_LENGTH]); if (1 == cmd_head.wr) { /* copy_from_user(&cmd_head.data[cmd_head.addr_len], &buff[CMD_HEAD_LENGTH], cmd_head.data_len); */ ret = copy_from_user(&cmd_head.data[GTP_ADDR_LENGTH], &buff[CMD_HEAD_LENGTH], cmd_head.data_len); if (ret) GTP_ERROR("copy_from_user failed."); memcpy(&cmd_head.data[GTP_ADDR_LENGTH - cmd_head.addr_len], cmd_head.addr, cmd_head.addr_len); GTP_DEBUG_ARRAY(cmd_head.data, cmd_head.data_len + cmd_head.addr_len); GTP_DEBUG_ARRAY((u8 *) &buff[CMD_HEAD_LENGTH], cmd_head.data_len); if (1 == cmd_head.flag) { if (FAIL == comfirm()) { GTP_ERROR("[WRITE]Comfirm fail!"); return FAIL; } } else if (2 == cmd_head.flag) { /* Need interrupt! */ } if (tool_i2c_write (&cmd_head.data[GTP_ADDR_LENGTH - cmd_head.addr_len], cmd_head.data_len + cmd_head.addr_len) <= 0) { GTP_ERROR("[WRITE]Write data failed!"); return FAIL; } GTP_DEBUG_ARRAY(&cmd_head.data[GTP_ADDR_LENGTH - cmd_head.addr_len], cmd_head.data_len + cmd_head.addr_len); if (cmd_head.delay) msleep(cmd_head.delay); return cmd_head.data_len + CMD_HEAD_LENGTH; } else if (3 == cmd_head.wr) { memcpy(IC_TYPE, cmd_head.data, cmd_head.data_len); register_i2c_func(); return cmd_head.data_len + CMD_HEAD_LENGTH; } else if (5 == cmd_head.wr) { /* memcpy(IC_TYPE, cmd_head.data, cmd_head.data_len); */ return cmd_head.data_len + CMD_HEAD_LENGTH; } else if (7 == cmd_head.wr) { /* mt_eint_mask(CUST_EINT_TOUCH_PANEL_NUM); */ disable_irq(touch_irq); #if GTP_ESD_PROTECT gtp_esd_switch(i2c_client_point, SWITCH_OFF); #endif return CMD_HEAD_LENGTH; } else if (9 == cmd_head.wr) { /* mt_eint_unmask(CUST_EINT_TOUCH_PANEL_NUM); */ enable_irq(touch_irq); #if GTP_ESD_PROTECT gtp_esd_switch(i2c_client_point, SWITCH_ON); #endif return CMD_HEAD_LENGTH; } else if (17 == cmd_head.wr) { ret = copy_from_user(&cmd_head.data[GTP_ADDR_LENGTH], &buff[CMD_HEAD_LENGTH], cmd_head.data_len); if (ret) GTP_DEBUG("copy_from_user failed."); if (cmd_head.data[GTP_ADDR_LENGTH]) { GTP_DEBUG("gtp enter rawdiff."); gtp_rawdiff_mode = true; } else { gtp_rawdiff_mode = false; GTP_DEBUG("gtp leave rawdiff."); } return CMD_HEAD_LENGTH; } #ifdef UPDATE_FUNCTIONS else if (11 == cmd_head.wr) { /* Enter update mode! */ if (FAIL == gup_enter_update_mode(gt_client)) return FAIL; } else if (13 == cmd_head.wr) { gup_leave_update_mode(); } else if (15 == cmd_head.wr) { show_len = 0; total_len = 0; if ((cmd_head.data == NULL) || (cmd_head.data_len >= DATA_LENGTH) || (cmd_head.data_len >= (len - CMD_HEAD_LENGTH))) { GTP_ERROR("copy_from_user data out of range."); return -EINVAL; } memset(cmd_head.data, 0, cmd_head.data_len + 1); memcpy(cmd_head.data, &buff[CMD_HEAD_LENGTH], cmd_head.data_len); GTP_DEBUG("update firmware, filename: %s", cmd_head.data); if (FAIL == gup_update_proc((void *)cmd_head.data)) return FAIL; } #endif return CMD_HEAD_LENGTH; } /******************************************************* Function: Goodix tool read function. Input: standard proc read function param. Output: Return read length. ********************************************************/ static s32 goodix_tool_read(char *page, char **start, off_t off, int count, int *eof, void *data) { GTP_DEBUG_FUNC(); if (cmd_head.wr % 2) { return FAIL; } else if (!cmd_head.wr) { u16 len = 0; s16 data_len = 0; u16 loc = 0; if (1 == cmd_head.flag) { if (FAIL == comfirm()) { GTP_ERROR("[READ]Comfirm fail!"); return FAIL; } } else if (2 == cmd_head.flag) { /* Need interrupt! */ } memcpy(cmd_head.data, cmd_head.addr, cmd_head.addr_len); GTP_DEBUG("[CMD HEAD DATA] ADDR:0x%02x%02x.", cmd_head.data[0], cmd_head.data[1]); GTP_DEBUG("[CMD HEAD ADDR] ADDR:0x%02x%02x.", cmd_head.addr[0], cmd_head.addr[1]); if (cmd_head.delay) msleep(cmd_head.delay); data_len = cmd_head.data_len; while (data_len > 0) { if (data_len > DATA_LENGTH) len = DATA_LENGTH; else len = data_len; data_len -= DATA_LENGTH; if (tool_i2c_read(cmd_head.data, len) <= 0) { GTP_ERROR("[READ]Read data failed!"); return FAIL; } memcpy(&page[loc], &cmd_head.data[GTP_ADDR_LENGTH], len); loc += len; GTP_DEBUG_ARRAY(&cmd_head.data[GTP_ADDR_LENGTH], len); GTP_DEBUG_ARRAY(page, len); } } else if (2 == cmd_head.wr) { /* memcpy(page, "gt8", cmd_head.data_len); */ /* memcpy(page, "GT818", 5); */ /* page[5] = 0; */ GTP_DEBUG("Return ic type:%s len:%d.", page, (s32) cmd_head.data_len); return cmd_head.data_len; /* return sizeof(IC_TYPE_NAME); */ } else if (4 == cmd_head.wr) { page[0] = show_len >> 8; page[1] = show_len & 0xff; page[2] = total_len >> 8; page[3] = total_len & 0xff; return cmd_head.data_len; } else if (6 == cmd_head.wr) { /* Read error code! */ } else if (8 == cmd_head.wr) { /* memcpy(page, GTP_DRIVER_VERSION, strlen(GTP_DRIVER_VERSION)); */ s32 tmp_len; tmp_len = strlen(GTP_DRIVER_VERSION); memcpy(page, GTP_DRIVER_VERSION, tmp_len); page[tmp_len] = 0; } return cmd_head.data_len; }