/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (c) 2019 MediaTek Inc. */ #include "himax_inspection.h" static int g_gap_vertical_partial = 3; static int *g_gap_vertical_part; static int g_gap_horizontal_partial = 3; static int *g_gap_horizontal_part; static int g_dc_max; static int g_1kind_raw_size; uint32_t g_rslt_data_len; int **g_inspection_criteria; int *g_inspt_crtra_flag; int *g_test_item_flag; int do_lpwg_test; int HX_CRITERIA_ITEM; int HX_CRITERIA_SIZE; char *g_rslt_data; bool file_w_flag; static char g_file_path[256]; static char g_rslt_log[256]; static char g_start_log[512]; #define FAIL_IN_INDEX "%s: %s FAIL in index %d\n" #define FAIL_IN_INDEX_CRTRA \ "%s: %s FAIL in index %d,max=%d, min=%d, RAW=%d\n" char *g_hx_head_str[] = { "TP_Info", "Project_Info", "TestItem", "TestCriteria", NULL }; /*Need to map THP_INSPECTION_ENUM*/ char *g_himax_inspection_mode[] = { "HIMAX_OPEN", "HIMAX_MICRO_OPEN", "HIMAX_SHORT", "HIMAX_SC", "HIMAX_WEIGHT_NOISE", "HIMAX_ABS_NOISE", "HIMAX_RAWDATA", "HIMAX_BPN_RAWDATA", "HIMAX_SORTING", "HIMAX_GAPTEST_RAW", /*"HIMAX_GAPTEST_RAW_X",*/ /*"HIMAX_GAPTEST_RAW_Y",*/ "HIMAX_ACT_IDLE_NOISE", "HIMAX_ACT_IDLE_RAWDATA", "HIMAX_ACT_IDLE_BPN_RAWDATA", "HIMAX_LPWUG_WEIGHT_NOISE", "HIMAX_LPWUG_ABS_NOISE", "HIMAX_LPWUG_RAWDATA", "HIMAX_LPWUG_BPN_RAWDATA", "HIMAX_LPWUG_IDLE_NOISE", "HIMAX_LPWUG_IDLE_RAWDATA", "HIMAX_LPWUG_IDLE_BPN_RAWDATA", "HIMAX_BACK_NORMAL", NULL }; /* for criteria */ char *g_hx_inspt_crtra_name[] = { "CRITERIA_RAW_MIN", "CRITERIA_RAW_MAX", "CRITERIA_RAW_BPN_MIN", "CRITERIA_RAW_BPN_MAX", "CRITERIA_SC_MIN", "CRITERIA_SC_MAX", "CRITERIA_SC_GOLDEN", "CRITERIA_SHORT_MIN", "CRITERIA_SHORT_MAX", "CRITERIA_OPEN_MIN", "CRITERIA_OPEN_MAX", "CRITERIA_MICRO_OPEN_MIN", "CRITERIA_MICRO_OPEN_MAX", "CRITERIA_NOISE_WT_MIN", "CRITERIA_NOISE_WT_MAX", "CRITERIA_NOISE_ABS_MIN", "CRITERIA_NOISE_ABS_MAX", "CRITERIA_SORT_MIN", "CRITERIA_SORT_MAX", "CRITERIA_GAP_RAW_HOR_MIN", "CRITERIA_GAP_RAW_HOR_MAX", "CRITERIA_GAP_RAW_VER_MIN", "CRITERIA_GAP_RAW_VER_MAX", "ACT_IDLE_NOISE_MIN", "ACT_IDLE_NOISE_MAX", "ACT_IDLE_RAWDATA_MIN", "ACT_IDLE_RAWDATA_MAX", "ACT_IDLE_RAW_BPN_MIN", "ACT_IDLE_RAW_BPN_MAX", "LPWUG_NOISE_WT_MIN", "LPWUG_NOISE_WT_MAX", "LPWUG_NOISE_ABS_MIN", "LPWUG_NOISE_ABS_MAX", "LPWUG_RAWDATA_MIN", "LPWUG_RAWDATA_MAX", "LPWUG_RAW_BPN_MIN", "LPWUG_RAW_BPN_MAX", "LPWUG_IDLE_NOISE_MIN", "LPWUG_IDLE_NOISE_MAX", "LPWUG_IDLE_RAWDATA_MIN", "LPWUG_IDLE_RAWDATA_MAX", "LPWUG_IDLE_RAW_BPN_MIN", "LPWUG_IDLE_RAW_BPN_MAX", NULL }; void (*fp_himax_self_test_init)(void) = himax_inspection_init; static void himax_press_powerkey(void) { I(" %s POWER KEY event %x press\n", __func__, KEY_POWER); input_report_key(private_ts->input_dev, KEY_POWER, 1); input_sync(private_ts->input_dev); msleep(100); I(" %s POWER KEY event %x release\n", __func__, KEY_POWER); input_report_key(private_ts->input_dev, KEY_POWER, 0); input_sync(private_ts->input_dev); } static uint8_t NOISEMAX; static uint8_t g_recal_thx; static int arraydata_max1, arraydata_max2, arraydata_max3; static int arraydata_min1, arraydata_min2, arraydata_min3; void himax_get_arraydata_edge(uint32_t *RAW) { int temp, i, j; int len = ic_data->HX_RX_NUM * ic_data->HX_TX_NUM; uint32_t ArrayData[len]; for (i = 0; i < len; i++) ArrayData[i] = RAW[i]; for (j = len-1; j > 0; j--) { /*min to max*/ for (i = 0; i < j; i++) { if (ArrayData[i] > ArrayData[i+1]) { temp = ArrayData[i]; ArrayData[i] = ArrayData[i+1]; ArrayData[i+1] = temp; } } } arraydata_min1 = ArrayData[0]; arraydata_min2 = ArrayData[1]; arraydata_min3 = ArrayData[2]; arraydata_max1 = ArrayData[len-3]; arraydata_max2 = ArrayData[len-2]; arraydata_max3 = ArrayData[len-1]; } static int hx_test_data_get(uint32_t RAW[], char *start_log, char *result, int now_item) { uint32_t i; ssize_t len = 0; char *testdata = NULL; uint32_t SZ_SIZE = g_1kind_raw_size; I("%s: Entering, Now type=%s!\n", __func__, g_himax_inspection_mode[now_item]); testdata = kzalloc(sizeof(char) * SZ_SIZE, GFP_KERNEL); if (!testdata) return MEM_ALLOC_FAIL; len += snprintf((testdata + len), SZ_SIZE - len, "%s", start_log); for (i = 0; i < ic_data->HX_TX_NUM*ic_data->HX_RX_NUM; i++) { if (i > 1 && ((i + 1) % ic_data->HX_RX_NUM) == 0) { if (now_item == HX_WT_NOISE) { len += snprintf((testdata + len), SZ_SIZE - len, "%5d,\n", (int16_t)RAW[i]); } else { len += snprintf((testdata + len), SZ_SIZE - len, "%5d,\n", RAW[i]); } } else { if (now_item == HX_WT_NOISE) { len += snprintf((testdata + len), SZ_SIZE - len, "%5d,", (int16_t)RAW[i]); } else { len += snprintf((testdata + len), SZ_SIZE - len, "%5d,", RAW[i]); } } } len += snprintf((testdata + len), SZ_SIZE - len, "\n%s", result); memcpy(&g_rslt_data[0], testdata, len); g_rslt_data_len = len; I("%s: g_rslt_data_len=%d!\n", __func__, g_rslt_data_len); /* dbg */ /* for(i = 0; i < SZ_SIZE; i++) * { * I("0x%04X, ", g_rslt_data[i + (now_item * SZ_SIZE)]); * if(i > 0 && (i % 16 == 15)) * PCT("\n"); * } */ kfree(testdata); I("%s: End!\n", __func__); return NO_ERR; } static int himax_switch_mode_inspection(int mode) { uint8_t tmp_addr[4]; uint8_t tmp_data[4] = {0}; I("%s: Entering\n", __func__); /*Stop Handshaking*/ himax_parse_assign_cmd(sram_adr_rawdata_addr, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); switch (mode) { case HX_SORTING: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_SORTING_START; tmp_data[0] = PWD_SORTING_START; break; case HX_OPEN: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_OPEN_START; tmp_data[0] = PWD_OPEN_START; break; case HX_MICRO_OPEN: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_OPEN_START; tmp_data[0] = PWD_OPEN_START; break; case HX_SHORT: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_SHORT_START; tmp_data[0] = PWD_SHORT_START; break; case HX_GAPTEST_RAW: case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_RAWDATA_START; tmp_data[0] = PWD_RAWDATA_START; break; case HX_WT_NOISE: case HX_ABS_NOISE: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_NOISE_START; tmp_data[0] = PWD_NOISE_START; break; case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_ACT_IDLE_NOISE: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_ACT_IDLE_START; tmp_data[0] = PWD_ACT_IDLE_START; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_ABS_NOISE: case HX_LP_WT_NOISE: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_LP_START; tmp_data[0] = PWD_LP_START; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: case HX_LP_IDLE_NOISE: tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = PWD_LP_IDLE_START; tmp_data[0] = PWD_LP_IDLE_START; break; default: I("%s,Nothing to be done!\n", __func__); break; } if (g_core_fp.fp_assign_sorting_mode != NULL) g_core_fp.fp_assign_sorting_mode(tmp_data); I("%s: End of setting!\n", __func__); return 0; } static uint32_t himax_get_rawdata(uint32_t RAW[], uint32_t datalen) { uint8_t *tmp_rawdata; bool get_raw_rlst; uint8_t retry = 0; uint32_t i = 0; uint32_t j = 0; uint32_t index = 0; uint32_t Min_DATA = 0xFFFFFFFF; uint32_t Max_DATA = 0x00000000; /* We use two bytes to combine a value of rawdata.*/ tmp_rawdata = kzalloc(sizeof(uint8_t) * (datalen * 2), GFP_KERNEL); if (!tmp_rawdata) return HX_INSP_MEMALLCTFAIL; while (retry < 50) { get_raw_rlst = g_core_fp.fp_get_DSRAM_data(tmp_rawdata, false); if (get_raw_rlst) break; retry++; } if (retry >= 50) goto DIRECT_END; /* Copy Data*/ for (i = 0; i < ic_data->HX_TX_NUM*ic_data->HX_RX_NUM; i++) RAW[i] = tmp_rawdata[(i * 2) + 1] * 256 + tmp_rawdata[(i * 2)]; if (private_ts->debug_log_level & BIT(4)) { for (j = 0; j < ic_data->HX_RX_NUM; j++) { if (j == 0) PCT(" RX%2d", j + 1); else PCT(" RX%2d", j + 1); } PCT("\n"); } for (i = 0; i < ic_data->HX_TX_NUM; i++) { if (private_ts->debug_log_level & BIT(4)) PCT("TX%2d", i + 1); for (j = 0; j < ic_data->HX_RX_NUM; j++) { if (private_ts->debug_log_level & BIT(4)) PCT("%5d ", RAW[index]); if (RAW[index] > Max_DATA) Max_DATA = RAW[index]; if (RAW[index] < Min_DATA) Min_DATA = RAW[index]; index++; } if (private_ts->debug_log_level & BIT(4)) PCT("\n"); } I("Max = %5d, Min = %5d\n", Max_DATA, Min_DATA); DIRECT_END: kfree(tmp_rawdata); if (get_raw_rlst) return HX_INSP_OK; else return HX_INSP_EGETRAW; } static void himax_switch_data_type(uint8_t checktype) { uint8_t datatype = 0x00; if (private_ts->debug_log_level & BIT(4)) { I("%s,Expected type[%d]=%s" , __func__ , checktype, g_himax_inspection_mode[checktype]); } switch (checktype) { case HX_SORTING: datatype = DATA_SORTING; break; case HX_OPEN: datatype = DATA_OPEN; break; case HX_MICRO_OPEN: datatype = DATA_MICRO_OPEN; break; case HX_SHORT: datatype = DATA_SHORT; break; case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: case HX_GAPTEST_RAW: datatype = DATA_RAWDATA; break; case HX_WT_NOISE: case HX_ABS_NOISE: datatype = DATA_NOISE; break; case HX_BACK_NORMAL: datatype = DATA_BACK_NORMAL; break; case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: datatype = DATA_ACT_IDLE_RAWDATA; break; case HX_ACT_IDLE_NOISE: datatype = DATA_ACT_IDLE_NOISE; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: datatype = DATA_LP_RAWDATA; break; case HX_LP_WT_NOISE: case HX_LP_ABS_NOISE: datatype = DATA_LP_NOISE; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: datatype = DATA_LP_IDLE_RAWDATA; break; case HX_LP_IDLE_NOISE: datatype = DATA_LP_IDLE_NOISE; break; default: E("Wrong type=%d\n", checktype); break; } g_core_fp.fp_diag_register_set(datatype, 0x00, false); } static void himax_bank_search_set(uint16_t Nframe, uint8_t checktype) { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; /*skip frame 0x100070F4*/ himax_parse_assign_cmd(addr_skip_frame, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); switch (checktype) { case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_ACT_IDLE_NOISE: tmp_data[0] = BS_ACT_IDLE; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_ABS_NOISE: case HX_LP_WT_NOISE: tmp_data[0] = BS_LPWUG; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: case HX_LP_IDLE_NOISE: tmp_data[0] = BS_LP_dile; break; case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: tmp_data[0] = BS_RAWDATA; break; case HX_WT_NOISE: case HX_ABS_NOISE: tmp_data[0] = BS_NOISE; break; default: tmp_data[0] = BS_OPENSHORT; break; } if (private_ts->debug_log_level & BIT(4)) { I("%s,Now BankSearch Value=%d\n", __func__, tmp_data[0]); } g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); } static void himax_neg_noise_sup(uint8_t *data) { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; /*0x10007FD8 Check support negative value or not */ himax_parse_assign_cmd(addr_neg_noise_sup, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); if ((tmp_data[3] & 0x04) == 0x04) { himax_parse_assign_cmd(data_neg_noise, tmp_data, sizeof(tmp_data)); data[2] = tmp_data[2]; data[3] = tmp_data[3]; } else I("%s Not support negative noise\n", __func__); } static void himax_set_N_frame(uint16_t Nframe, uint8_t checktype) { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; himax_bank_search_set(Nframe, checktype); /*IIR MAX - 0x10007294*/ himax_parse_assign_cmd(fw_addr_set_frame_addr, tmp_addr, sizeof(tmp_addr)); tmp_data[3] = 0x00; tmp_data[2] = 0x00; tmp_data[1] = (uint8_t)((Nframe & 0xFF00) >> 8); tmp_data[0] = (uint8_t)(Nframe & 0x00FF); g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); if (checktype == HX_WT_NOISE || checktype == HX_ABS_NOISE || checktype == HX_LP_WT_NOISE || checktype == HX_LP_ABS_NOISE) himax_neg_noise_sup(tmp_data); if (private_ts->debug_log_level & BIT(4)) { I("%s,Now N frame Value=0x%02X%02X\n", __func__, tmp_data[1], tmp_data[0]); } g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); } static void himax_get_noise_base(uint8_t checktype)/*Normal Threshold*/ { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; switch (checktype) { case HX_WT_NOISE: himax_parse_assign_cmd(addr_normal_noise_thx, tmp_addr, sizeof(tmp_addr)); break; case HX_LP_WT_NOISE: himax_parse_assign_cmd(addr_lpwug_noise_thx, tmp_addr, sizeof(tmp_addr)); break; default: I("%s Not support type\n", __func__); } /*normal : 0x1000708F, LPWUG:0x10007093*/ g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); NOISEMAX = tmp_data[3]; himax_parse_assign_cmd(addr_recal_thx, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); g_recal_thx = tmp_data[2];/*0x10007092*/ I("%s: NOISEMAX=%d, g_recal_thx = %d\n", __func__, NOISEMAX, g_recal_thx); } static uint16_t himax_get_palm_num(void)/*Palm Number*/ { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; uint16_t palm_num; himax_parse_assign_cmd(addr_palm_num, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); palm_num = tmp_data[3];/*0x100070AB*/ I("%s: palm_num = %d ", __func__, palm_num); return palm_num; } static int himax_get_noise_weight_test(uint8_t checktype) { uint8_t tmp_addr[4]; uint8_t tmp_data[4]; uint16_t weight = 0; uint16_t value = 0; himax_parse_assign_cmd(addr_weight_sup, tmp_addr, sizeof(tmp_addr)); /*0x100072C8 weighting value*/ g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); if (tmp_data[3] != tmp_addr[1] || tmp_data[2] != tmp_addr[0]) return FW_NOT_READY; value = (tmp_data[1] << 8) | tmp_data[0]; I("%s: value = %d, %d, %d ", __func__, value, tmp_data[2], tmp_data[3]); switch (checktype) { case HX_WT_NOISE: himax_parse_assign_cmd(addr_normal_weight_a, tmp_addr, sizeof(tmp_addr)); break; case HX_LP_WT_NOISE: himax_parse_assign_cmd(addr_lpwug_weight_a, tmp_addr, sizeof(tmp_addr)); break; default: I("%s Not support type\n", __func__); } /*Normal:0x1000709C, LPWUG:0x100070A0 weighting threshold*/ g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); weight = tmp_data[0]; himax_parse_assign_cmd(addr_weight_b, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); weight = tmp_data[1] * weight;/*0x10007095 weighting threshold*/ I("%s: weight = %d ", __func__, weight); if (value > weight) return ERR_TEST_FAIL; else return 0; } static uint32_t himax_check_mode(uint8_t checktype) { uint8_t tmp_data[4] = {0}; uint8_t wait_pwd[2] = {0}; switch (checktype) { case HX_SORTING: wait_pwd[0] = PWD_SORTING_END; wait_pwd[1] = PWD_SORTING_END; break; case HX_OPEN: wait_pwd[0] = PWD_OPEN_END; wait_pwd[1] = PWD_OPEN_END; break; case HX_MICRO_OPEN: wait_pwd[0] = PWD_OPEN_END; wait_pwd[1] = PWD_OPEN_END; break; case HX_SHORT: wait_pwd[0] = PWD_SHORT_END; wait_pwd[1] = PWD_SHORT_END; break; case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: case HX_GAPTEST_RAW: wait_pwd[0] = PWD_RAWDATA_END; wait_pwd[1] = PWD_RAWDATA_END; break; case HX_WT_NOISE: case HX_ABS_NOISE: wait_pwd[0] = PWD_NOISE_END; wait_pwd[1] = PWD_NOISE_END; break; case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_ACT_IDLE_NOISE: wait_pwd[0] = PWD_ACT_IDLE_END; wait_pwd[1] = PWD_ACT_IDLE_END; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_ABS_NOISE: case HX_LP_WT_NOISE: wait_pwd[0] = PWD_LP_END; wait_pwd[1] = PWD_LP_END; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: case HX_LP_IDLE_NOISE: wait_pwd[0] = PWD_LP_IDLE_END; wait_pwd[1] = PWD_LP_IDLE_END; break; default: E("Wrong type=%d\n", checktype); break; } if (g_core_fp.fp_check_sorting_mode != NULL) g_core_fp.fp_check_sorting_mode(tmp_data); if ((wait_pwd[0] == tmp_data[0]) && (wait_pwd[1] == tmp_data[1])) { I("%s,It had been changed to [%d]=%s\n", __func__, checktype, g_himax_inspection_mode[checktype]); return 0; } else { return 1; } } #define TEMP_LOG \ "%s:%s,tmp_data[0]=%x,tmp_data[1]=%x,tmp_data[2]=%x,tmp_data[3]=%x\n" static uint32_t himax_wait_sorting_mode(uint8_t checktype) { uint8_t tmp_addr[4] = {0}; uint8_t tmp_data[4] = {0}; uint8_t wait_pwd[2] = {0}; int count = 0; if (private_ts->debug_log_level & BIT(4)) I("%s:start!\n", __func__); switch (checktype) { case HX_SORTING: wait_pwd[0] = PWD_SORTING_END; wait_pwd[1] = PWD_SORTING_END; break; case HX_OPEN: wait_pwd[0] = PWD_OPEN_END; wait_pwd[1] = PWD_OPEN_END; break; case HX_MICRO_OPEN: wait_pwd[0] = PWD_OPEN_END; wait_pwd[1] = PWD_OPEN_END; break; case HX_SHORT: wait_pwd[0] = PWD_SHORT_END; wait_pwd[1] = PWD_SHORT_END; break; case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: case HX_GAPTEST_RAW: wait_pwd[0] = PWD_RAWDATA_END; wait_pwd[1] = PWD_RAWDATA_END; break; case HX_WT_NOISE: case HX_ABS_NOISE: wait_pwd[0] = PWD_NOISE_END; wait_pwd[1] = PWD_NOISE_END; break; case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_ACT_IDLE_NOISE: wait_pwd[0] = PWD_ACT_IDLE_END; wait_pwd[1] = PWD_ACT_IDLE_END; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_ABS_NOISE: case HX_LP_WT_NOISE: wait_pwd[0] = PWD_LP_END; wait_pwd[1] = PWD_LP_END; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: case HX_LP_IDLE_NOISE: wait_pwd[0] = PWD_LP_IDLE_END; wait_pwd[1] = PWD_LP_IDLE_END; break; default: I("No Change Mode and now type=%d\n", checktype); break; } I("%s:NowType[%d] = %s, Expected=0x%02X%02X\n", __func__, checktype, g_himax_inspection_mode[checktype], wait_pwd[1], wait_pwd[0]); do { if (private_ts->debug_log_level & BIT(4)) I("%s:start check_sorting_mode!\n", __func__); if (g_core_fp.fp_check_sorting_mode != NULL) g_core_fp.fp_check_sorting_mode(tmp_data); if (private_ts->debug_log_level & BIT(4)) I("%s:end check_sorting_mode!\n", __func__); if ((wait_pwd[0] == tmp_data[0]) && (wait_pwd[1] == tmp_data[1])) return HX_INSP_OK; if (private_ts->debug_log_level & BIT(4)) { himax_parse_assign_cmd(fw_addr_chk_fw_status, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); I(TEMP_LOG, __func__, "0x900000A8", tmp_data[0], tmp_data[1], tmp_data[2], tmp_data[3]); himax_parse_assign_cmd(fw_addr_flag_reset_event, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); I(TEMP_LOG, __func__, "0x900000E4", tmp_data[0], tmp_data[1], tmp_data[2], tmp_data[3]); himax_parse_assign_cmd(fw_addr_fw_dbg_msg_addr, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, false); I(TEMP_LOG, __func__, "0x10007F40", tmp_data[0], tmp_data[1], tmp_data[2], tmp_data[3]); } I("Now retry %d times!\n", count++); msleep(50); } while (count < 50); if (private_ts->debug_log_level & BIT(4)) I("%s:end\n", __func__); return HX_INSP_ESWITCHMODE; } static int hx_turn_on_mp_func(int on) { int rslt = 0; int retry = 3; uint8_t tmp_addr[4] = {0}; uint8_t tmp_data[4] = {0}; uint8_t tmp_read[4] = {0}; /* char *tmp_chipname = private_ts->chip_name; */ himax_parse_assign_cmd(addr_ctrl_mpap_ovl, tmp_addr, sizeof(tmp_addr)); if (on) { I("%s : Turn on!\n", __func__); if (strcmp(HX_83102D_SERIES_PWON, private_ts->chip_name) == 0) { I("%s: need to enter Mp mode!\n", __func__); himax_parse_assign_cmd(PWD_TURN_ON_MPAP_OVL, tmp_data, sizeof(tmp_data)); do { g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); usleep_range(10000, 10001); g_core_fp.fp_register_read(tmp_addr, 4, tmp_read, false); I("%s:read2=0x%02X,read1=0x%02X,read0=0x%02X\n", __func__, tmp_read[2], tmp_read[1], tmp_read[0]); retry--; } while (((retry > 0) && (tmp_read[2] != tmp_data[2] && tmp_read[1] != tmp_data[1] && tmp_read[0] != tmp_data[0]))); } else { I("%s:Nothing to be done!\n", __func__); } } else { I("%s : Turn off!\n", __func__); if (strcmp(HX_83102D_SERIES_PWON, private_ts->chip_name) == 0) { I("%s: need to enter Mp mode!\n", __func__); himax_parse_assign_cmd(ic_cmd_rst, tmp_data, sizeof(tmp_data)); do { g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); usleep_range(10000, 10001); g_core_fp.fp_register_read(tmp_addr, 4, tmp_read, false); I("%s:read2=0x%02X,read1=0x%02X,read0=0x%02X\n", __func__, tmp_read[2], tmp_read[1], tmp_read[0]); retry--; } while ((retry > 0) && (tmp_read[2] != tmp_data[2] && tmp_read[1] != tmp_data[1] && tmp_read[0] != tmp_data[0])); } else { I("%s Nothing to be done!\n", __func__); } } return rslt; } /* HX_GAP START gap test function */ /* extern int himax_write_to_ic_flash_flow(uint32_t start_addr,*/ /* uint32_t *write_data, uint32_t write_len);*/ static int himax_gap_test_vertical_setting(void) { g_gap_vertical_part[0] = 0; g_gap_vertical_part[1] = 4; g_gap_vertical_part[2] = 8; return NO_ERR; } static void himax_cal_gap_data_vertical(int start, int end_idx, int direct, uint32_t *org_raw, uint32_t *result_raw) { int i = 0; int rx_num = ic_data->HX_RX_NUM; I("%s:start=%d,end_idx=%d\n", __func__, start, end_idx); for (i = start; i < (start + rx_num*end_idx); i++) { if (direct == 0) { /* up - down */ if (i < start+rx_num) result_raw[i] = 0; else result_raw[i] = org_raw[i-rx_num] - org_raw[i]; } else { /* down - up */ if (i > (start + rx_num*(end_idx-1)-1)) result_raw[i] = 0; else result_raw[i] = org_raw[i+rx_num] - org_raw[i]; } } } static int himax_gap_test_vertical_raw(int test_type, uint32_t *org_raw) { int i_partial = 0; int tmp_start = 0; int tmp_end_idx = 0; uint32_t *result_raw = NULL; int i = 0; int ret_val = NO_ERR; int tx_num = ic_data->HX_TX_NUM; int rx_num = ic_data->HX_RX_NUM; g_gap_vertical_part = kcalloc(g_gap_vertical_partial, sizeof(int), GFP_KERNEL); if (g_gap_vertical_part == NULL) return MEM_ALLOC_FAIL; result_raw = kcalloc(tx_num*rx_num, sizeof(uint32_t), GFP_KERNEL); if (result_raw == NULL) { ret_val = MEM_ALLOC_FAIL; goto alloc_result_raw_failed; } himax_gap_test_vertical_setting(); I("Print vertical ORG RAW\n"); for (i = 0; i < tx_num*rx_num; i++) { I("%04d,", org_raw[i]); if (i > 0 && i%rx_num == (rx_num-1)) I("\n"); } for (i_partial = 0; i_partial < g_gap_vertical_partial; i_partial++) { tmp_start = g_gap_vertical_part[i_partial]*rx_num; if (i_partial+1 == g_gap_vertical_partial) tmp_end_idx = tx_num - g_gap_vertical_part[i_partial]; else tmp_end_idx = g_gap_vertical_part[i_partial+1] - g_gap_vertical_part[i_partial]; if (i_partial % 2 == 0) himax_cal_gap_data_vertical(tmp_start, tmp_end_idx, 0, org_raw, result_raw); else himax_cal_gap_data_vertical(tmp_start, tmp_end_idx, 1, org_raw, result_raw); } I("Print Vertical New RAW\n"); for (i = 0; i < tx_num*rx_num; i++) { I("%04d,", result_raw[i]); if (i > 0 && i%rx_num == (rx_num-1)) I("\n"); } for (i = 0; i < tx_num*rx_num; i++) { if (result_raw[i] < g_inspection_criteria[IDX_GAP_VER_RAWMIN][i] && result_raw[i] > g_inspection_criteria[IDX_GAP_VER_RAWMAX][i]) { ret_val = NO_ERR - i; break; } } /* himax_write_to_ic_flash_flow(0x1A000,result_raw,tx_num*rx_num); */ kfree(result_raw); alloc_result_raw_failed: kfree(g_gap_vertical_part); g_gap_vertical_part = NULL; return ret_val; } static int himax_gap_test_horizontal_setting(void) { g_gap_horizontal_part[0] = 0; g_gap_horizontal_part[1] = 8; g_gap_horizontal_part[2] = 24; return NO_ERR; } static void himax_cal_gap_data_horizontal(int start, int end_idx, int direct, uint32_t *org_raw, uint32_t *result_raw) { int i = 0; int j = 0; int rx_num = ic_data->HX_RX_NUM; int tx_num = ic_data->HX_TX_NUM; I("start=%d,end_idx=%d\n", start, end_idx); for (j = 0; j < tx_num; j++) { for (i = (start + (j*rx_num)); i < (start + (j*rx_num) + end_idx); i++) { /* left - right */ if (direct == 0) { if (i == (start + (j*rx_num))) result_raw[i] = 0; else result_raw[i] = org_raw[i-1] - org_raw[i]; } else { /* right - left */ if (i == ((start + (j*rx_num) + end_idx) - 1)) result_raw[i] = 0; else result_raw[i] = org_raw[i + 1] - org_raw[i]; } } } } static int himax_gap_test_honrizontal_raw(int test_type, uint32_t *raw) { int rx_num = ic_data->HX_RX_NUM; int tx_num = ic_data->HX_TX_NUM; int tmp_start = 0; int tmp_end_idx = 0; int i_partial = 0; uint32_t *result_raw; int i = 0; int ret_val = NO_ERR; g_gap_horizontal_part = kcalloc(g_gap_horizontal_partial, sizeof(int), GFP_KERNEL); if (!g_gap_horizontal_part) return MEM_ALLOC_FAIL; result_raw = kcalloc(tx_num*rx_num, sizeof(uint32_t), GFP_KERNEL); if (!result_raw) { ret_val = MEM_ALLOC_FAIL; goto alloc_result_raw_failed; } himax_gap_test_horizontal_setting(); I("Print Horizontal ORG RAW\n"); for (i = 0; i < tx_num*rx_num; i++) { I("%04d,", raw[i]); if (i > 0 && i%rx_num == (rx_num-1)) I("\n"); } for (i_partial = 0; i_partial < g_gap_horizontal_partial; i_partial++) { tmp_start = g_gap_horizontal_part[i_partial]; if (i_partial+1 == g_gap_horizontal_partial) tmp_end_idx = rx_num - g_gap_horizontal_part[i_partial]; else tmp_end_idx = g_gap_horizontal_part[i_partial+1] - g_gap_horizontal_part[i_partial]; if (i_partial % 2 == 0) himax_cal_gap_data_horizontal(tmp_start, tmp_end_idx, 0, raw, result_raw); else himax_cal_gap_data_horizontal(tmp_start, tmp_end_idx, 1, raw, result_raw); } I("Print Horizontal New RAW\n"); for (i = 0; i < tx_num*rx_num; i++) { I("%04d,", result_raw[i]); if (i > 0 && i%rx_num == (rx_num-1)) I("\n"); } for (i = 0; i < tx_num*rx_num; i++) { if (result_raw[i] < g_inspection_criteria[IDX_GAP_HOR_RAWMIN][i] && result_raw[i] > g_inspection_criteria[IDX_GAP_HOR_RAWMAX][i]) { ret_val = NO_ERR - i; break; } } /* himax_write_to_ic_flash_flow(0x1A800,result_raw,tx_num*rx_num); */ kfree(result_raw); alloc_result_raw_failed: kfree(g_gap_horizontal_part); g_gap_horizontal_part = NULL; return ret_val; } static uint32_t himax_data_campare(uint8_t checktype, uint32_t *RAW, int ret_val) { int i = 0; int idx_max = 0; int idx_min = 0; int block_num = ic_data->HX_TX_NUM*ic_data->HX_RX_NUM; uint16_t palm_num = 0; uint16_t noise_count = 0; switch (checktype) { case HX_SORTING: idx_min = IDX_SORTMIN; break; case HX_OPEN: idx_max = IDX_OPENMAX; idx_min = IDX_OPENMIN; break; case HX_MICRO_OPEN: idx_max = IDX_M_OPENMAX; idx_min = IDX_M_OPENMIN; break; case HX_SHORT: idx_max = IDX_SHORTMAX; idx_min = IDX_SHORTMIN; break; case HX_RAWDATA: idx_max = IDX_RAWMAX; idx_min = IDX_RAWMIN; break; case HX_BPN_RAWDATA: idx_max = IDX_BPN_RAWMAX; idx_min = IDX_BPN_RAWMIN; break; case HX_SC: idx_max = IDX_SCMAX; idx_min = IDX_SCMIN; break; case HX_WT_NOISE: idx_max = IDX_WT_NOISEMAX; idx_min = IDX_WT_NOISEMIN; break; case HX_ABS_NOISE: idx_max = IDX_ABS_NOISEMAX; idx_min = IDX_ABS_NOISEMIN; break; case HX_GAPTEST_RAW: break; case HX_ACT_IDLE_RAWDATA: idx_max = IDX_ACT_IDLE_RAWDATA_MAX; idx_min = IDX_ACT_IDLE_RAWDATA_MIN; break; case HX_ACT_IDLE_BPN_RAWDATA: idx_max = IDX_ACT_IDLE_RAW_BPN_MAX; idx_min = IDX_ACT_IDLE_RAW_BPN_MIN; break; case HX_ACT_IDLE_NOISE: idx_max = IDX_ACT_IDLE_NOISE_MAX; idx_min = IDX_ACT_IDLE_NOISE_MIN; break; case HX_LP_RAWDATA: idx_max = IDX_LP_RAWDATA_MAX; idx_min = IDX_LP_RAWDATA_MIN; break; case HX_LP_BPN_RAWDATA: idx_max = IDX_LP_RAW_BPN_MAX; idx_min = IDX_LP_RAW_BPN_MIN; break; case HX_LP_WT_NOISE: idx_max = IDX_LP_WT_NOISEMAX; idx_min = IDX_LP_WT_NOISEMIN; break; case HX_LP_ABS_NOISE: idx_max = IDX_LP_NOISE_ABS_MAX; idx_min = IDX_LP_NOISE_ABS_MIN; break; case HX_LP_IDLE_RAWDATA: idx_max = IDX_LP_IDLE_RAWDATA_MAX; idx_min = IDX_LP_IDLE_RAWDATA_MIN; break; case HX_LP_IDLE_BPN_RAWDATA: idx_max = IDX_LP_IDLE_RAW_BPN_MAX; idx_min = IDX_LP_IDLE_RAW_BPN_MIN; break; case HX_LP_IDLE_NOISE: idx_max = IDX_LP_IDLE_NOISE_MAX; idx_min = IDX_LP_IDLE_NOISE_MIN; break; default: E("Wrong type=%d\n", checktype); break; } /*data process*/ switch (checktype) { case HX_SORTING: for (i = 0; i < block_num; i++) g_inspection_criteria[idx_max][i] = 999999; break; case HX_BPN_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: for (i = 0; i < block_num; i++) RAW[i] = (int)RAW[i] * 100 / g_dc_max; break; case HX_SC: for (i = 0; i < block_num; i++) { RAW[i] = ((int)RAW[i] - g_inspection_criteria[IDX_SC_GOLDEN][i]) * 100 / g_inspection_criteria[IDX_SC_GOLDEN][i]; } break; } /*data campare*/ switch (checktype) { case HX_GAPTEST_RAW: if ( himax_gap_test_vertical_raw(HX_GAPTEST_RAW, RAW) != NO_ERR) { E("%s: HX_GAPTEST_RAW FAIL\n", __func__); ret_val |= 1 << (checktype + ERR_SFT); break; } if (himax_gap_test_honrizontal_raw(HX_GAPTEST_RAW, RAW) != NO_ERR) { E("%s: HX_GAPTEST_RAW FAIL\n", __func__); ret_val |= 1 << (checktype + ERR_SFT); break; } break; case HX_WT_NOISE: case HX_LP_WT_NOISE: noise_count = 0; himax_get_noise_base(checktype); palm_num = himax_get_palm_num(); for (i = 0; i < (ic_data->HX_TX_NUM * ic_data->HX_RX_NUM); i++) { if ((int16_t)RAW[i] > NOISEMAX) noise_count++; } I("noise_count=%d\n", noise_count); if (noise_count > palm_num) { E("%s: noise test FAIL\n", __func__); ret_val |= 1 << (checktype + ERR_SFT); break; } snprintf(g_start_log, 256 * sizeof(char), "\n Threshold = %d\n", NOISEMAX); /*Check weightingt*/ if (himax_get_noise_weight_test(checktype) < 0) { I("%s: %s FAIL %X\n", __func__, g_himax_inspection_mode[checktype], ret_val); ret_val |= 1 << (checktype + ERR_SFT); break; } /*Check negative side noise*/ for (i = 0; i < block_num; i++) { if ((int16_t)RAW[i] > (g_inspection_criteria[idx_max][i] * NOISEMAX / 100) || (int16_t)RAW[i] < (g_inspection_criteria[idx_min][i] * g_recal_thx / 100)) { E(FAIL_IN_INDEX, __func__, g_himax_inspection_mode[checktype], i); ret_val |= 1 << (checktype + ERR_SFT); break; } } break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: case HX_LP_IDLE_NOISE: case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_BPN_RAWDATA: case HX_ACT_IDLE_NOISE: block_num = ic_data->ic_adc_num; case HX_SORTING: case HX_OPEN: case HX_MICRO_OPEN: case HX_SHORT: case HX_RAWDATA: case HX_BPN_RAWDATA: case HX_SC: case HX_ABS_NOISE: case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: case HX_LP_ABS_NOISE: for (i = 0; i < block_num; i++) { if ((int)RAW[i] > g_inspection_criteria[idx_max][i] || (int)RAW[i] < g_inspection_criteria[idx_min][i]) { if (private_ts->debug_log_level & BIT(4)) { E(FAIL_IN_INDEX_CRTRA, __func__, g_himax_inspection_mode[checktype], i , g_inspection_criteria[idx_max][i] , g_inspection_criteria[idx_min][i] , RAW[i]); ret_val |= 1 << (checktype + ERR_SFT); } else { E(FAIL_IN_INDEX, __func__, g_himax_inspection_mode[checktype], i); ret_val |= 1 << (checktype + ERR_SFT); } break; } #ifdef HX_INSPT_DBG if ((private_ts->debug_log_level & BIT(4))) { I("%s,type=%s, idx[%d]=%d\n", __func__, g_himax_inspection_mode[checktype], i, RAW[i]); I("%s, crteria,max=%d,min=%d\n", __func__, g_inspection_criteria[idx_max][i], g_inspection_criteria[idx_min][i]); } #endif } break; default: E("Wrong type[%d] = %s\n", checktype, g_himax_inspection_mode[checktype]); break; } I("%s: %s %s\n", __func__, g_himax_inspection_mode[checktype], (ret_val == HX_INSP_OK)?"PASS":"FAIL"); return ret_val; } static int himax_get_max_dc(void) { uint8_t tmp_data[DATA_LEN_4]; uint8_t tmp_addr[DATA_LEN_4]; int dc_max = 0; himax_parse_assign_cmd(addr_max_dc, tmp_addr, sizeof(tmp_addr)); g_core_fp.fp_register_read(tmp_addr, DATA_LEN_4, tmp_data, 0); I("%s: tmp_data[0-3] = %02x%02x%02x%02x\n", __func__, tmp_data[0], tmp_data[1], tmp_data[2], tmp_data[3]); dc_max = tmp_data[3]<<24 | tmp_data[2]<<16 | tmp_data[1]<<8 | tmp_data[0]; I("%s: dc max = %d\n", __func__, dc_max); return dc_max; } /* HX_GAP END*/ static uint32_t mpTestFunc(uint8_t checktype, uint32_t datalen) { uint32_t len = 0; uint32_t *RAW = NULL; int n_frame = 0; uint32_t ret_val = HX_INSP_OK; #if 0 uint8_t tmp_addr[4] = {0x00, 0x7F, 0x00, 0x10}; uint8_t tmp_data[4] = {0}; #endif /*uint16_t* pInspectGridData = &gInspectGridData[0];*/ /*uint16_t* pInspectNoiseData = &gInspectNoiseData[0];*/ I("Now Check type = %d\n", checktype); RAW = kcalloc(datalen, sizeof(uint32_t), GFP_KERNEL); if (RAW == NULL) { E("%s, Failed to allocate memory\n", __func__); return HX_INSP_MEMALLCTFAIL; } if (himax_check_mode(checktype)) { /*himax_check_mode(checktype);*/ I("Need Change Mode ,target=%s\n", g_himax_inspection_mode[checktype]); if (private_ts->debug_log_level & BIT(4)) I("%s:start sense off!\n", __func__); g_core_fp.fp_sense_off(true); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense off!\n", __func__); #if !defined(HX_ZERO_FLASH) hx_turn_on_mp_func(1); if (g_core_fp.fp_reload_disable != NULL) g_core_fp.fp_reload_disable(1); #endif #if 0 /* reload disable with keeping high byte value */ g_core_fp.fp_register_read(tmp_addr, 4, tmp_data, 0); tmp_data[1] = 0xA5; tmp_data[0] = 0x5A; g_core_fp.fp_register_write( tmp_addr, DATA_LEN_4, tmp_data, 0); /*******************/ #endif himax_switch_mode_inspection(checktype); switch (checktype) { case HX_WT_NOISE: case HX_ABS_NOISE: n_frame = NOISEFRAME; break; case HX_ACT_IDLE_RAWDATA: case HX_ACT_IDLE_NOISE: case HX_ACT_IDLE_BPN_RAWDATA: n_frame = NORMAL_IDLE_RAWDATA_NOISEFRAME; break; case HX_LP_RAWDATA: case HX_LP_BPN_RAWDATA: n_frame = LP_RAWDATAFRAME; break; case HX_LP_WT_NOISE: case HX_LP_ABS_NOISE: n_frame = LP_NOISEFRAME; break; case HX_LP_IDLE_RAWDATA: case HX_LP_IDLE_BPN_RAWDATA: n_frame = LP_IDLE_RAWDATAFRAME; break; case HX_LP_IDLE_NOISE: n_frame = LP_IDLE_NOISEFRAME; break; default: n_frame = OTHERSFRAME; } himax_set_N_frame(n_frame, checktype); if (private_ts->debug_log_level & BIT(4)) I("%s:start sense on!\n", __func__); g_core_fp.fp_sense_on(1); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense on!\n", __func__); } ret_val |= himax_wait_sorting_mode(checktype); if (ret_val) { E("%s: himax_wait_sorting_mode FAIL\n", __func__); ret_val |= (1 << (checktype + ERR_SFT)); goto fail_wait_sorting_mode; } himax_switch_data_type(checktype); ret_val |= himax_get_rawdata(RAW, datalen); if (ret_val) { E("%s: himax_get_rawdata FAIL\n", __func__); ret_val |= (1 << (checktype + ERR_SFT)); goto fail_get_rawdata; } /*get Max DC from FW*/ g_dc_max = himax_get_max_dc(); /* back to normal */ himax_switch_data_type(HX_BACK_NORMAL); I("%s: Init OK, start to test!\n", __func__); len += snprintf(g_start_log+len, 256 * sizeof(char), "\n%s%s\n", g_himax_inspection_mode[checktype], ": data as follow!\n"); ret_val |= himax_data_campare(checktype, RAW, ret_val); himax_get_arraydata_edge(RAW); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, "\n arraydata_min1 = %d,", arraydata_min1); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, " arraydata_min2 = %d,", arraydata_min2); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, " arraydata_min3 = %d,", arraydata_min3); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, "\n arraydata_max1 = %d,", arraydata_max1); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, " arraydata_max2 = %d,", arraydata_max2); len += snprintf(g_start_log + len, 256 * sizeof(char) - len, " arraydata_max3 = %d\n", arraydata_max3); if (!ret_val) {/*PASS*/ snprintf(g_rslt_log, 256 * sizeof(char), "\n%s%s\n", g_himax_inspection_mode[checktype], ":Test Pass!"); I("pass write log\n"); } else {/*FAIL*/ snprintf(g_rslt_log, 256 * sizeof(char), "\n%s%s\n", g_himax_inspection_mode[checktype], ":Test Fail!"); I("fail write log\n"); } hx_test_data_get(RAW, g_start_log, g_rslt_log, checktype); fail_get_rawdata: fail_wait_sorting_mode: kfree(RAW); return ret_val; } /* claculate 10's power function */ static int himax_power_cal(int pow, int number) { int i = 0; int result = 1; for (i = 0; i < pow; i++) result *= 10; result = result * number; return result; } /* String to int */ static int hiamx_parse_str2int(char *str) { int i = 0; int temp_cal = 0; int result = 0; unsigned int str_len = strlen(str); int negtive_flag = 0; for (i = 0; i < str_len; i++) { if (str[i] != '-' && str[i] > '9' && str[i] < '0') { E("%s: Parsing fail!\n", __func__); result = -9487; negtive_flag = 0; break; } if (str[i] == '-') { negtive_flag = 1; continue; } temp_cal = str[i] - '0'; result += himax_power_cal(str_len-i-1, temp_cal); /* str's the lowest char is the number's the highest number * So we should reverse this number before using the power * function * -1: starting number is from 0 ex:10^0 = 1,10^1=10 */ } if (negtive_flag == 1) result = 0 - result; return result; } int hx_find_crtra_id(char *input) { int i = 0; int result = 0; for (i = 0 ; i < HX_CRITERIA_SIZE ; i++) { if (strcmp(g_hx_inspt_crtra_name[i], input) == 0) { result = i; I("find the str=%s,idx=%d\n", g_hx_inspt_crtra_name[i], i); break; } } if (i > (HX_CRITERIA_SIZE - 1)) { E("%s: find Fail!\n", __func__); return LENGTH_FAIL; } return result; } #ifdef HX_INSPT_DBG int hx_print_crtra_after_parsing(void) { int i = 0, j = 0; int all_mut_len = ic_data->HX_TX_NUM*ic_data->HX_RX_NUM; for (i = 0; i < HX_CRITERIA_SIZE; i++) { I("Now is %s\n", g_hx_inspt_crtra_name[i]); if (g_inspt_crtra_flag[i] == 1) { for (j = 0; j < all_mut_len; j++) { PCT("%d, ", g_inspection_criteria[i][j]); if (j % 16 == 15) PCT("\n"); } } else { I("No this Item in this criteria file!\n"); } PCT("\n"); } return 0; } #endif static int hx_crtra_get(char *result, int himax_count_type, int comprae_data) { int temp = 0; temp = hiamx_parse_str2int(result); if (temp != -9487) g_inspection_criteria[himax_count_type][comprae_data] = temp; else { I("%s: Parsing Fail in %d, rslt = %d\n", __func__, comprae_data, temp); return HX_INSP_EFILE; } #ifdef HX_INSPT_DBG /* dbg:print all of criteria from parsing file */ hx_print_crtra_after_parsing(); #endif return HX_INSP_OK; } static int himax_parse_criteria_str(char *str_data, int hx_str_len) { int err = HX_INSP_OK; char result[100] = {0}; char str_rslt[100] = {0}; int str_rslt_nm = 0; int result_nm = 0; char str_len = 0; char *str_addr = NULL; int str_flag = 1; int i, j, k = 0; int crtra_id = 0; int mul_num = ic_data->HX_TX_NUM * ic_data->HX_RX_NUM; int flag = 1; int temp; if (private_ts->debug_log_level & BIT(4)) I("%s,Entering\n", __func__); for (str_rslt_nm = 0; str_rslt_nm < hx_str_len; str_rslt_nm++) str_rslt[str_rslt_nm] = *(str_data + str_rslt_nm); crtra_id = hx_find_crtra_id(str_rslt); if (crtra_id == -1) { E("Please check criteria file again!\n"); return HX_INSP_EFILE; } g_inspt_crtra_flag[crtra_id] = 1; str_data = str_data + hx_str_len + 1; for (i = 0; i < mul_num; i++) { if (i <= mul_num - 2) { while (flag) { if (*(str_data + flag) == ',') { str_addr = str_data + flag; flag = 1; break; } flag++; } if (str_addr == NULL) continue; str_flag = 1; str_len = str_addr - str_data; for (j = 1; j <= str_len; j++) { if ((*(str_data+j) == '\r' || *(str_data+j) == '\n')) { memset(result, 0, 100); for (k = 0; k < j ; k++) result[k] = *(str_data + k); str_flag = 0; break; } } if (str_flag) { memset(result, 0, 100); for (k = 0; k < str_len; k++) result[k] = *(str_data + k); } err = hx_crtra_get(result, crtra_id, i); if (err != HX_INSP_OK) { E("%s:Get crrteria Fail!!\n", __func__); return HX_INSP_EFILE; } str_data = str_addr + 1; } else{ temp = 1; while (*(str_data + temp) <= '9' && *(str_data + temp) >= '0') temp++; str_len = temp; memset(result, 0, 100); for (result_nm = 0; result_nm < str_len; result_nm++) result[result_nm] = *(str_data + result_nm); err = hx_crtra_get(result, crtra_id, mul_num - 1); if (err != HX_INSP_OK) { E("%s:Get crrteria Fail!\n", __func__); return HX_INSP_EFILE; } } } if (private_ts->debug_log_level & BIT(4)) I("%s,END\n", __func__); return err; /* parsing Criteria end */ } static int himax_test_item_parse(char *str_data, int str_size) { int size = str_size; char *str_ptr = str_data; char *end_ptr = NULL; int i = 0; int ret = HX_INSP_EFILE; I("%s,str_data: %p, str_size: %d\n", __func__, str_data, str_size); do { str_ptr = strnstr(str_ptr, "HIMAX", size); end_ptr = strnstr(str_ptr, "\x0d\x0a", size); if (str_ptr != NULL && end_ptr != NULL) { while (g_himax_inspection_mode[i]) { if (strncmp(str_ptr, g_himax_inspection_mode[i], end_ptr - str_ptr) == 0) { I("%s,Find item : %s\n", __func__, g_himax_inspection_mode[i]); g_test_item_flag[i] = 1; ret = HX_INSP_OK; break; } i++; } size = str_size - (end_ptr - str_data); str_ptr = end_ptr++; i = 0; } else { I("%s,Can't find %s or %s\n", __func__, "HIMAX", "\x0d\x0a"); break; } } while (size > strlen("HIMAX")); return ret; } static int himax_parse_criteria(const struct firmware *file_entry) { int ret = 0; int i = 0; int start_str_len = 0; char *start_ptr = NULL; while (g_hx_inspt_crtra_name[i] != NULL) { start_ptr = strnstr(file_entry->data, g_hx_inspt_crtra_name[i], file_entry->size); if (start_ptr != NULL) { I("g_hx_inspt_crtra_name[%d] = %s\n", i, g_hx_inspt_crtra_name[i]); start_str_len = strlen(g_hx_inspt_crtra_name[i]); ret |= himax_parse_criteria_str(start_ptr, start_str_len); } i++; } return ret; } static int himax_parse_test_dri_file(const struct firmware *file_entry) { int start_str_len = 0; int str_size = 0; char *start_ptr = NULL; char *end_ptr = NULL; int i = 0; int j = 0; char str[2][60]; /*[0]->Start string, [1]->End string*/ char *str_tail[2] = {"_Begin]\x0d\x0a", "_End]\x0d\x0a"}; int ret = HX_INSP_OK; while (g_hx_head_str[i]) { /*compose header string of .dri file*/ for (j = 0; j < 2; j++) { strlcpy(str[j], "[", sizeof(str[j])); strlcat(str[j], g_hx_head_str[i], sizeof(str[j])); strlcat(str[j], str_tail[j], sizeof(str[j])); /*I("%s string[%d] : %s\n", __func__, j, str[j]);*/ } /*find each group of .dri file*/ start_str_len = strlen(str[0]); start_ptr = strnstr(file_entry->data, str[0], file_entry->size); end_ptr = strnstr(file_entry->data, str[1], file_entry->size); if (start_ptr == NULL || end_ptr == NULL) { E("%s,Can't find string %s\n", __func__, g_hx_head_str[i]); } else { /*parse each sub group string*/ /*if (strncmp(g_hx_head_str[i], "Project_Info",*/ /*strlen(g_hx_head_str[i])) == 0) {*/ /* get project informaion - Not Use*/ /*}*/ str_size = end_ptr - start_ptr - start_str_len; /*I("%s,String Length = %d\n", __func__, str_size);*/ if (strncmp(g_hx_head_str[i], "TestItem", strlen(g_hx_head_str[i])) == 0) { /*get Test Item*/ I("%s,Start to parse %s\n", __func__, g_hx_head_str[i]); ret |= himax_test_item_parse(start_ptr + start_str_len, str_size); } /*if (strncmp(g_hx_head_str[i], "TestCriteria_Weight",*/ /*strlen(g_hx_head_str[i])) == 0) {*/ /*get Test Criteria Weight - Not Use*/ /*}*/ if (strncmp(g_hx_head_str[i], "TestCriteria", strlen(g_hx_head_str[i])) == 0) { /*get Test Criteria*/ I("%s,Start to parse %s\n", __func__, g_hx_head_str[i]); ret |= himax_parse_criteria(file_entry); } } i++; } return ret; } static void himax_test_item_chk(int csv_test) { int i = 0; if (csv_test) for (i = 0; i < HX_CRITERIA_ITEM - 1; i++) g_test_item_flag[i] = 1; g_test_item_flag[HX_OPEN] &= (g_inspt_crtra_flag[IDX_OPENMIN] == 1 && g_inspt_crtra_flag[IDX_OPENMAX] == 1) ? 1 : 0; g_test_item_flag[HX_MICRO_OPEN] &= (g_inspt_crtra_flag[IDX_M_OPENMIN] == 1 && g_inspt_crtra_flag[IDX_M_OPENMAX] == 1) ? 1 : 0; g_test_item_flag[HX_SHORT] &= (g_inspt_crtra_flag[IDX_SHORTMIN] == 1 && g_inspt_crtra_flag[IDX_SHORTMAX] == 1) ? 1 : 0; g_test_item_flag[HX_RAWDATA] &= (g_inspt_crtra_flag[IDX_RAWMIN] == 1 && g_inspt_crtra_flag[IDX_RAWMAX] == 1) ? 1 : 0; g_test_item_flag[HX_BPN_RAWDATA] &= (g_inspt_crtra_flag[IDX_BPN_RAWMIN] == 1 && g_inspt_crtra_flag[IDX_BPN_RAWMAX] == 1) ? 1 : 0; g_test_item_flag[HX_SC] &= (g_inspt_crtra_flag[IDX_SCMIN] == 1 && g_inspt_crtra_flag[IDX_SCMAX] == 1 && g_inspt_crtra_flag[IDX_SC_GOLDEN] == 1) ? 1 : 0; g_test_item_flag[HX_WT_NOISE] &= (g_inspt_crtra_flag[IDX_WT_NOISEMIN] == 1 && g_inspt_crtra_flag[IDX_WT_NOISEMAX] == 1) ? 1 : 0; g_test_item_flag[HX_ABS_NOISE] &= (g_inspt_crtra_flag[IDX_ABS_NOISEMIN] == 1 && g_inspt_crtra_flag[IDX_ABS_NOISEMAX] == 1) ? 1 : 0; g_test_item_flag[HX_SORTING] &= (g_inspt_crtra_flag[IDX_SORTMIN] == 1 && g_inspt_crtra_flag[IDX_SORTMAX] == 1) ? 1 : 0; g_test_item_flag[HX_GAPTEST_RAW] &= (g_inspt_crtra_flag[IDX_GAP_HOR_RAWMAX] == 1 && g_inspt_crtra_flag[IDX_GAP_HOR_RAWMIN] == 1 && g_inspt_crtra_flag[IDX_GAP_VER_RAWMAX] == 1 && g_inspt_crtra_flag[IDX_GAP_VER_RAWMIN] == 1) ? 1 : 0; g_test_item_flag[HX_ACT_IDLE_RAWDATA] &= (g_inspt_crtra_flag[IDX_ACT_IDLE_RAWDATA_MIN] == 1 && g_inspt_crtra_flag[IDX_ACT_IDLE_RAWDATA_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_ACT_IDLE_BPN_RAWDATA] &= (g_inspt_crtra_flag[IDX_ACT_IDLE_RAW_BPN_MIN] == 1 && g_inspt_crtra_flag[IDX_ACT_IDLE_RAW_BPN_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_ACT_IDLE_NOISE] &= (g_inspt_crtra_flag[IDX_ACT_IDLE_NOISE_MIN] == 1 && g_inspt_crtra_flag[IDX_ACT_IDLE_NOISE_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_LP_RAWDATA] &= (g_inspt_crtra_flag[IDX_LP_RAWDATA_MIN] == 1 && g_inspt_crtra_flag[IDX_LP_RAWDATA_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_LP_BPN_RAWDATA] &= (g_inspt_crtra_flag[IDX_LP_RAW_BPN_MIN] == 1 && g_inspt_crtra_flag[IDX_LP_RAW_BPN_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_LP_WT_NOISE] &= (g_inspt_crtra_flag[IDX_LP_WT_NOISEMAX] == 1 && g_inspt_crtra_flag[IDX_LP_WT_NOISEMIN] == 1) ? 1 : 0; g_test_item_flag[HX_LP_ABS_NOISE] &= (g_inspt_crtra_flag[IDX_LP_NOISE_ABS_MAX] == 1 && g_inspt_crtra_flag[IDX_LP_NOISE_ABS_MIN] == 1) ? 1 : 0; g_test_item_flag[HX_LP_IDLE_RAWDATA] &= (g_inspt_crtra_flag[IDX_LP_IDLE_RAWDATA_MAX] == 1 && g_inspt_crtra_flag[IDX_LP_IDLE_RAWDATA_MIN] == 1) ? 1 : 0; g_test_item_flag[HX_LP_IDLE_BPN_RAWDATA] &= (g_inspt_crtra_flag[IDX_LP_IDLE_RAW_BPN_MIN] == 1 && g_inspt_crtra_flag[IDX_LP_IDLE_RAW_BPN_MAX] == 1) ? 1 : 0; g_test_item_flag[HX_LP_IDLE_NOISE] &= (g_inspt_crtra_flag[IDX_LP_IDLE_NOISE_MAX] == 1 && g_inspt_crtra_flag[IDX_LP_IDLE_NOISE_MIN] == 1) ? 1 : 0; do_lpwg_test = g_test_item_flag[HX_LP_RAWDATA] | g_test_item_flag[HX_LP_BPN_RAWDATA] | g_test_item_flag[HX_LP_WT_NOISE] | g_test_item_flag[HX_LP_ABS_NOISE] | g_test_item_flag[HX_LP_IDLE_RAWDATA] | g_test_item_flag[HX_LP_IDLE_BPN_RAWDATA] | g_test_item_flag[HX_LP_IDLE_NOISE]; if (private_ts->debug_log_level & BIT(4)) { for (i = 0; i < HX_CRITERIA_ITEM - 1; i++) I("g_test_item_flag[%d] = %d\n", i, g_test_item_flag[i]); } } int hx_get_size_str_arr(char **input) { int i = 0; int result = 0; while (input[i] != NULL) i++; result = i; if (private_ts->debug_log_level & BIT(4)) I("There is %d in [0]=%s\n", result, input[0]); return result; } static void hx_print_ic_id(void) { uint8_t i; uint32_t len = 0; char *prt_data = NULL; prt_data = kzalloc(sizeof(char) * HX_SZ_ICID, GFP_KERNEL); if (prt_data == NULL) return; len += snprintf(prt_data + len, HX_SZ_ICID - len, "IC ID : "); for (i = 0; i < 13; i++) { len += snprintf(prt_data + len, HX_SZ_ICID - len, "%02X", ic_data->vendor_ic_id[i]); } len += snprintf(prt_data + len, HX_SZ_ICID - len, "\n"); memcpy(&g_rslt_data[0], prt_data, len); g_rslt_data_len = len; I("%s: g_rslt_data_len=%d!\n", __func__, g_rslt_data_len); kfree(prt_data); } static int himax_self_test_data_init(void) { const struct firmware *file_entry = NULL; struct himax_ts_data *ts = private_ts; char *file_name_1 = "hx_criteria.dri"; char *file_name_2 = "hx_criteria.csv"; int ret = HX_INSP_OK; int err = 0; int i = 0; /* * 5: one value will not over than 99999, so get this size of string * 2: get twice size */ g_1kind_raw_size = 5 * ic_data->HX_RX_NUM * ic_data->HX_TX_NUM * 2; /* get test item and its items of criteria*/ HX_CRITERIA_ITEM = hx_get_size_str_arr(g_himax_inspection_mode); HX_CRITERIA_SIZE = hx_get_size_str_arr(g_hx_inspt_crtra_name); I("There is %d HX_CRITERIA_ITEM and %d HX_CRITERIA_SIZE\n", HX_CRITERIA_ITEM, HX_CRITERIA_SIZE); /* init criteria data*/ g_test_item_flag = kcalloc(HX_CRITERIA_ITEM, sizeof(int), GFP_KERNEL); if (g_test_item_flag == NULL) { ret = HX_INSP_MEMALLCTFAIL; goto err_malloc_test_item_flag; } g_inspt_crtra_flag = kcalloc(HX_CRITERIA_SIZE, sizeof(int), GFP_KERNEL); if (g_inspt_crtra_flag == NULL) { ret = HX_INSP_MEMALLCTFAIL; goto err_malloc_inspt_crtra_flag; } g_inspection_criteria = kcalloc(HX_CRITERIA_SIZE, sizeof(int *), GFP_KERNEL); if (g_inspection_criteria == NULL) { ret = HX_INSP_MEMALLCTFAIL; goto err_malloc_inspection_criteria; } for (i = 0; i < HX_CRITERIA_SIZE; i++) { g_inspection_criteria[i] = kcalloc((ic_data->HX_TX_NUM * ic_data->HX_RX_NUM), sizeof(int), GFP_KERNEL); if (g_inspection_criteria[i] == NULL) { ret = HX_INSP_MEMALLCTFAIL; goto err_malloc_inspection_criteria2; } } g_rslt_data_len = 0; if (g_rslt_data == NULL) { g_rslt_data = kcalloc(g_1kind_raw_size, sizeof(char), GFP_KERNEL); if (g_rslt_data == NULL) { E("%s,%d: Memory allocation failed!\n", __func__, __LINE__); ret = HX_INSP_MEMALLCTFAIL; goto err_malloc_rslt_data; } } I("%s: initialize g_rslt_data, length = %d\n", __func__, g_1kind_raw_size); memset(g_rslt_data, 0x00, g_1kind_raw_size * sizeof(char)); /* default path is /system/etc/firmware */ /* request criteria file*/ err = request_firmware(&file_entry, file_name_1, ts->dev); if (err < 0) { E("%s,Fail to get %s\n", __func__, file_name_1); err = request_firmware(&file_entry, file_name_2, ts->dev); if (err < 0) { E("%s,Fail to get %s\n", __func__, file_name_2); I("No criteria file file"); ret = HX_INSP_EFILE; goto err_open_criteria_file; } else { I("%s,Success to get %s\n", __func__, file_name_2); /* parsing criteria from file .csv*/ ret = himax_parse_criteria(file_entry); release_firmware(file_entry); if (ret > 0) goto err_open_criteria_file; himax_test_item_chk(true); } } else { /* parsing test file .dri*/ I("%s,Success to get %s\n", __func__, file_name_1); ret = himax_parse_test_dri_file(file_entry); release_firmware(file_entry); if (ret > 0) goto err_open_criteria_file; himax_test_item_chk(false); } if (private_ts->debug_log_level & BIT(4)) { /* print get criteria string */ for (i = 0 ; i < HX_CRITERIA_SIZE ; i++) { if (g_inspt_crtra_flag[i] != 0) I("%s: [%d]There is String=%s\n", __func__, i, g_hx_inspt_crtra_name[i]); } } snprintf(g_file_path, (int)(strlen(HX_RSLT_OUT_PATH) + strlen(HX_RSLT_OUT_FILE)+1), "%s%s", HX_RSLT_OUT_PATH, HX_RSLT_OUT_FILE); file_w_flag = true; return ret; err_open_criteria_file: kfree(g_rslt_data); g_rslt_data = NULL; err_malloc_rslt_data: err_malloc_inspection_criteria2: for (i = 0; i < HX_CRITERIA_SIZE; i++) { if (g_inspection_criteria[i] != NULL) { kfree(g_inspection_criteria[i]); g_inspection_criteria[i] = NULL; } } kfree(g_inspection_criteria); g_inspection_criteria = NULL; err_malloc_inspection_criteria: kfree(g_inspt_crtra_flag); g_inspt_crtra_flag = NULL; err_malloc_inspt_crtra_flag: kfree(g_test_item_flag); g_test_item_flag = NULL; err_malloc_test_item_flag: return ret; } static void himax_self_test_data_deinit(void) { int i = 0; /*dbg*/ /* for (i = 0; i < HX_CRITERIA_ITEM; i++) * I("%s:[%d]%d\n", __func__, i, g_inspection_criteria[i]); */ I("%s: release allocated memory\n", __func__); for (i = 0; i < HX_CRITERIA_SIZE; i++) { if (g_inspection_criteria[i] != NULL) { kfree(g_inspection_criteria[i]); g_inspection_criteria[i] = NULL; } } kfree(g_inspection_criteria); g_inspection_criteria = NULL; kfree(g_inspt_crtra_flag); g_inspt_crtra_flag = NULL; kfree(g_test_item_flag); g_test_item_flag = NULL; I("%s: release finished\n", __func__); } static int himax_chip_self_test(struct seq_file *s, void *v) { uint32_t ret = HX_INSP_OK; uint32_t test_size = ic_data->HX_TX_NUM * ic_data->HX_RX_NUM + ic_data->HX_TX_NUM + ic_data->HX_RX_NUM; int i = 0; int j = 0; char test_result[] = "0P-1P-2P-3P-4P"; uint8_t tmp_addr[DATA_LEN_4] = {0x94, 0x72, 0x00, 0x10}; uint8_t tmp_data[DATA_LEN_4] = {0x01, 0x00, 0x00, 0x00}; struct file *raw_file = NULL; struct filename *vts_name = NULL; mm_segment_t fs; loff_t pos = 0; uint32_t rslt = HX_INSP_OK; //#if 0 uint8_t tmp_addr2[4] = {0x00, 0x7F, 0x00, 0x10}; uint8_t tmp_data2[4] = {0}; //#endif I("%s:IN\n", __func__); private_ts->suspend_resume_done = 0; ret = himax_self_test_data_init(); if (ret > 0) { E("%s: initialize self test failed\n", __func__); goto END; } #if defined(HX_ZERO_FLASH) g_core_fp.fp_0f_op_file_dirly(MPAP_FWNAME); hx_turn_on_mp_func(1); g_core_fp.fp_reload_disable(0); if (private_ts->debug_log_level & BIT(4)) I("%s:start sense on!\n", __func__); g_core_fp.fp_sense_on(0x00); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense on!\n", __func__); #endif if (!kp_getname_kernel) { E("kp_getname_kernel is NULL, not open file!\n"); file_w_flag = false; } else vts_name = kp_getname_kernel(g_file_path); if (raw_file == NULL && file_w_flag) { raw_file = kp_file_open_name(vts_name, O_TRUNC|O_CREAT|O_RDWR, 0660); if (IS_ERR(raw_file)) { E("%s open file failed = %ld\n", __func__, PTR_ERR(raw_file)); file_w_flag = false; } } fs = get_fs(); set_fs(get_ds()); hx_print_ic_id(); if (file_w_flag) { vfs_write(raw_file, g_rslt_data, g_rslt_data_len, &pos); pos += g_rslt_data_len; } /*Do normal test items*/ for (i = 0; i < HX_CRITERIA_ITEM; i++) { if (i < HX_LP_RAWDATA) { if (g_test_item_flag[i] == 1) { I("%d. %s Start\n", i, g_himax_inspection_mode[i]); rslt = mpTestFunc(i, test_size); if (file_w_flag && ((rslt & HX_INSP_EGETRAW) == 0) && ((rslt & HX_INSP_ESWITCHMODE) == 0)) { vfs_write(raw_file, g_rslt_data, g_rslt_data_len, &pos); pos += g_rslt_data_len; } ret |= rslt; I("%d. %s End, ret = %d\n", i, g_himax_inspection_mode[i], ret); } } else { break; } } /* Press power key and do LPWUG test items*/ if (do_lpwg_test) { himax_press_powerkey(); /* Wait suspend done */ while (private_ts->suspend_resume_done != 1) { usleep_range(1000, 1001); if (private_ts->debug_log_level & BIT(4)) I("Waiting for tp suspend!\n"); } private_ts->suspend_resume_done = 0; for (; i < HX_CRITERIA_ITEM; i++) { if (g_test_item_flag[i] == 1) { I("%d.%s Start\n", i, g_himax_inspection_mode[i]); rslt = mpTestFunc(i, test_size); if (file_w_flag && ((rslt & HX_INSP_EGETRAW) == 0) && ((rslt & HX_INSP_ESWITCHMODE) == 0)) { vfs_write(raw_file, g_rslt_data, g_rslt_data_len, &pos); pos += g_rslt_data_len; } ret |= rslt; I("%d.%s End\n", i, g_himax_inspection_mode[i]); } } himax_press_powerkey(); /* Wait resume done */ while (private_ts->suspend_resume_done != 1) usleep_range(1000, 1001); } if (file_w_flag) filp_close(raw_file, NULL); set_fs(fs); #if defined(HX_ZERO_FLASH) private_ts->in_self_test = 0; g_core_fp.fp_0f_op_file_dirly(BOOT_UPGRADE_FWNAME); g_core_fp.fp_sense_off(true); hx_turn_on_mp_func(0); //#if 0 /* reload enable with keeping high byte values */ g_core_fp.fp_register_read(tmp_addr2, 4, tmp_data2, 0); tmp_data2[1] = 0x9A; tmp_data2[0] = 0xA9; g_core_fp.fp_register_write( tmp_addr2, DATA_LEN_4, tmp_data2, 0); /************************************************/ //#endif /* set N frame back to default value 1*/ g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); // g_core_fp.fp_reload_disable(0); #else if (private_ts->debug_log_level & BIT(4)) I("%s:start sense off!\n", __func__); g_core_fp.fp_sense_off(true); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense off!\n", __func__); hx_turn_on_mp_func(0); /*himax_set_N_frame(1, HX_INSPECTION_WT_NOISE);*/ /* set N frame back to default value 1*/ g_core_fp.fp_register_write(tmp_addr, 4, tmp_data, 0); #if !defined(HX_ZERO_FLASH) if (g_core_fp.fp_reload_disable != NULL) g_core_fp.fp_reload_disable(0); #endif #endif if (himax_check_mode(HX_RAWDATA)) { I("%s:try to Need to back to Normal!\n", __func__); himax_switch_mode_inspection(HX_RAWDATA); if (private_ts->debug_log_level & BIT(4)) I("%s:start sense on!\n", __func__); g_core_fp.fp_sense_on(0); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense on!\n", __func__); himax_wait_sorting_mode(HX_RAWDATA); } else { I("%s: It has been in Normal!\n", __func__); if (private_ts->debug_log_level & BIT(4)) I("%s:start sense on!\n", __func__); g_core_fp.fp_sense_on(0); if (private_ts->debug_log_level & BIT(4)) I("%s:end sense on!\n", __func__); } if (ret == HX_INSP_OK) { //seq_puts(s, "Self_Test Pass:\n"); seq_puts(s, "0P-1P-2P-3P-4P"); } else { //seq_puts(s, "Self_Test Fail:\n"); for (i = 0, j = 1; i < HX_CRITERIA_ITEM - 1; i++) { if (g_test_item_flag[i] == 1) { if (j <= strlen(test_result)) { test_result[j] = ((ret & (1 << (i + ERR_SFT))) == (1 << (i + ERR_SFT))) ? 'F':'P'; j += 3; } } } seq_printf(s, "%s", test_result); } himax_self_test_data_deinit(); END: I("running status = %X\n", ret); /*if (ret != 0)*/ /*ret = 1;*/ I("%s:OUT\n", __func__); return ret; } void himax_inspect_data_clear(void) { if (!g_rslt_data) { kfree(g_rslt_data); g_rslt_data = NULL; } } void himax_inspection_init(void) { I("%s: enter, %d\n", __func__, __LINE__); g_core_fp.fp_chip_self_test = himax_chip_self_test; }