/* * Copyright (C) 2013 Samsung Electronics * Przemyslaw Marczak * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include #include #include #include #include #include #include #include #include #include DECLARE_GLOBAL_DATA_PTR; #ifdef CONFIG_SET_DFU_ALT_INFO void set_dfu_alt_info(void) { size_t buf_size = CONFIG_SET_DFU_ALT_BUF_LEN; ALLOC_CACHE_ALIGN_BUFFER(char, buf, buf_size); char *alt_info = "Settings not found!"; char *status = "error!\n"; char *alt_setting; char *alt_sep; int offset = 0; puts("DFU alt info setting: "); alt_setting = get_dfu_alt_boot(); if (alt_setting) { setenv("dfu_alt_boot", alt_setting); offset = snprintf(buf, buf_size, "%s", alt_setting); } alt_setting = get_dfu_alt_system(); if (alt_setting) { if (offset) alt_sep = ";"; else alt_sep = ""; offset += snprintf(buf + offset, buf_size - offset, "%s%s", alt_sep, alt_setting); } if (offset) { alt_info = buf; status = "done\n"; } setenv("dfu_alt_info", alt_info); puts(status); } #endif #ifdef CONFIG_ENV_VARS_UBOOT_RUNTIME_CONFIG void set_board_info(void) { char info[64]; snprintf(info, ARRAY_SIZE(info), "%u.%u", (s5p_cpu_rev & 0xf0) >> 4, s5p_cpu_rev & 0xf); setenv("soc_rev", info); snprintf(info, ARRAY_SIZE(info), "%x", s5p_cpu_id); setenv("soc_id", info); #ifdef CONFIG_REVISION_TAG snprintf(info, ARRAY_SIZE(info), "%x", get_board_rev()); setenv("board_rev", info); #endif #ifdef CONFIG_OF_LIBFDT const char *bdtype = ""; const char *bdname = CONFIG_SYS_BOARD; #ifdef CONFIG_BOARD_TYPES bdtype = get_board_type(); sprintf(info, "%s%s", bdname, bdtype); setenv("boardname", info); #endif snprintf(info, ARRAY_SIZE(info), "%s%x-%s%s.dtb", CONFIG_SYS_SOC, s5p_cpu_id, bdname, bdtype); setenv("fdtfile", info); #endif } #endif /* CONFIG_ENV_VARS_UBOOT_RUNTIME_CONFIG */ #ifdef CONFIG_LCD_MENU static int power_key_pressed(u32 reg) { struct pmic *pmic; u32 status; u32 mask; pmic = pmic_get(KEY_PWR_PMIC_NAME); if (!pmic) { printf("%s: Not found\n", KEY_PWR_PMIC_NAME); return 0; } if (pmic_probe(pmic)) return 0; if (reg == KEY_PWR_STATUS_REG) mask = KEY_PWR_STATUS_MASK; else mask = KEY_PWR_INTERRUPT_MASK; if (pmic_reg_read(pmic, reg, &status)) return 0; return !!(status & mask); } static int key_pressed(int key) { int value; switch (key) { case KEY_POWER: value = power_key_pressed(KEY_PWR_INTERRUPT_REG); break; case KEY_VOLUMEUP: value = !gpio_get_value(KEY_VOL_UP_GPIO); break; case KEY_VOLUMEDOWN: value = !gpio_get_value(KEY_VOL_DOWN_GPIO); break; default: value = 0; break; } return value; } static int check_keys(void) { int keys = 0; if (key_pressed(KEY_POWER)) keys += KEY_POWER; if (key_pressed(KEY_VOLUMEUP)) keys += KEY_VOLUMEUP; if (key_pressed(KEY_VOLUMEDOWN)) keys += KEY_VOLUMEDOWN; return keys; } /* * 0 BOOT_MODE_INFO * 1 BOOT_MODE_THOR * 2 BOOT_MODE_UMS * 3 BOOT_MODE_DFU * 4 BOOT_MODE_EXIT */ static char * mode_name[BOOT_MODE_EXIT + 1][2] = { {"DEVICE", ""}, {"THOR", "thor"}, {"UMS", "ums"}, {"DFU", "dfu"}, {"GPT", "gpt"}, {"ENV", "env"}, {"EXIT", ""}, }; static char * mode_info[BOOT_MODE_EXIT + 1] = { "info", "downloader", "mass storage", "firmware update", "restore", "default", "and run normal boot" }; static char * mode_cmd[BOOT_MODE_EXIT + 1] = { "", "thor 0 mmc 0", "ums 0 mmc 0", "dfu 0 mmc 0", "gpt write mmc 0 $partitions", "env default -a; saveenv", "", }; static void display_board_info(void) { #ifdef CONFIG_GENERIC_MMC struct mmc *mmc = find_mmc_device(0); #endif vidinfo_t *vid = &panel_info; lcd_position_cursor(4, 4); lcd_printf("%s\n\t", U_BOOT_VERSION); lcd_puts("\n\t\tBoard Info:\n"); #ifdef CONFIG_SYS_BOARD lcd_printf("\tBoard name: %s\n", CONFIG_SYS_BOARD); #endif #ifdef CONFIG_REVISION_TAG lcd_printf("\tBoard rev: %u\n", get_board_rev()); #endif lcd_printf("\tDRAM banks: %u\n", CONFIG_NR_DRAM_BANKS); lcd_printf("\tDRAM size: %u MB\n", gd->ram_size / SZ_1M); #ifdef CONFIG_GENERIC_MMC if (mmc) { if (!mmc->capacity) mmc_init(mmc); lcd_printf("\teMMC size: %llu MB\n", mmc->capacity / SZ_1M); } #endif if (vid) lcd_printf("\tDisplay resolution: %u x % u\n", vid->vl_col, vid->vl_row); lcd_printf("\tDisplay BPP: %u\n", 1 << vid->vl_bpix); } static int mode_leave_menu(int mode) { char *exit_option; char *exit_reset = "reset"; char *exit_back = "back"; cmd_tbl_t *cmd; int cmd_result; int leave; lcd_clear(); switch (mode) { case BOOT_MODE_EXIT: return 1; case BOOT_MODE_INFO: display_board_info(); exit_option = exit_back; leave = 0; break; default: cmd = find_cmd(mode_name[mode][1]); if (cmd) { printf("Enter: %s %s\n", mode_name[mode][0], mode_info[mode]); lcd_printf("\n\n\t%s %s\n", mode_name[mode][0], mode_info[mode]); lcd_puts("\n\tDo not turn off device before finish!\n"); cmd_result = run_command(mode_cmd[mode], 0); if (cmd_result == CMD_RET_SUCCESS) { printf("Command finished\n"); lcd_clear(); lcd_printf("\n\n\t%s finished\n", mode_name[mode][0]); exit_option = exit_reset; leave = 1; } else { printf("Command error\n"); lcd_clear(); lcd_printf("\n\n\t%s command error\n", mode_name[mode][0]); exit_option = exit_back; leave = 0; } } else { lcd_puts("\n\n\tThis mode is not supported.\n"); exit_option = exit_back; leave = 0; } } lcd_printf("\n\n\tPress POWER KEY to %s\n", exit_option); /* Clear PWR button Rising edge interrupt status flag */ power_key_pressed(KEY_PWR_INTERRUPT_REG); /* Wait for PWR key */ while (!key_pressed(KEY_POWER)) mdelay(1); lcd_clear(); return leave; } static void display_download_menu(int mode) { char *selection[BOOT_MODE_EXIT + 1]; int i; for (i = 0; i <= BOOT_MODE_EXIT; i++) selection[i] = "[ ]"; selection[mode] = "[=>]"; lcd_clear(); lcd_printf("\n\n\t\tDownload Mode Menu\n\n"); for (i = 0; i <= BOOT_MODE_EXIT; i++) lcd_printf("\t%s %s - %s\n\n", selection[i], mode_name[i][0], mode_info[i]); } static void download_menu(void) { int mode = 0; int last_mode = 0; int run; int key = 0; int timeout = 15; /* sec */ int i; display_download_menu(mode); lcd_puts("\n"); /* Start count if no key is pressed */ while (check_keys()) continue; while (timeout--) { lcd_printf("\r\tNormal boot will start in: %2.d seconds.", timeout); /* about 1000 ms in for loop */ for (i = 0; i < 10; i++) { mdelay(100); key = check_keys(); if (key) break; } if (key) break; } if (!key) { lcd_clear(); return; } while (1) { run = 0; if (mode != last_mode) display_download_menu(mode); last_mode = mode; mdelay(200); key = check_keys(); switch (key) { case KEY_POWER: run = 1; break; case KEY_VOLUMEUP: if (mode > 0) mode--; break; case KEY_VOLUMEDOWN: if (mode < BOOT_MODE_EXIT) mode++; break; default: break; } if (run) { if (mode_leave_menu(mode)) run_command("reset", 0); display_download_menu(mode); } } lcd_clear(); } void check_boot_mode(void) { int pwr_key; pwr_key = power_key_pressed(KEY_PWR_STATUS_REG); if (!pwr_key) return; /* Clear PWR button Rising edge interrupt status flag */ power_key_pressed(KEY_PWR_INTERRUPT_REG); if (key_pressed(KEY_VOLUMEUP)) download_menu(); else if (key_pressed(KEY_VOLUMEDOWN)) mode_leave_menu(BOOT_MODE_THOR); } void keys_init(void) { /* Set direction to input */ gpio_request(KEY_VOL_UP_GPIO, "volume-up"); gpio_request(KEY_VOL_DOWN_GPIO, "volume-down"); gpio_direction_input(KEY_VOL_UP_GPIO); gpio_direction_input(KEY_VOL_DOWN_GPIO); } #endif /* CONFIG_LCD_MENU */ #ifdef CONFIG_CMD_BMP void draw_logo(void) { int x, y; ulong addr; addr = panel_info.logo_addr; if (!addr) { error("There is no logo data."); return; } if (panel_info.vl_width >= panel_info.logo_width) { x = ((panel_info.vl_width - panel_info.logo_width) >> 1); x += panel_info.logo_x_offset; /* For X center align */ } else { x = 0; printf("Warning: image width is bigger than display width\n"); } if (panel_info.vl_height >= panel_info.logo_height) { y = ((panel_info.vl_height - panel_info.logo_height) >> 1); y += panel_info.logo_y_offset; /* For Y center align */ } else { y = 0; printf("Warning: image height is bigger than display height\n"); } bmp_display(addr, x, y); } #endif /* CONFIG_CMD_BMP */