// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2015 Samsung Electronics * Przemyslaw Marczak */ #include #include #include #include #include #include #include #include #include #include #include #include DECLARE_GLOBAL_DATA_PTR; static const struct udevice_id board_ids[] = { { .compatible = "samsung,odroidxu3", .data = EXYNOS5_BOARD_ODROID_XU3 }, { .compatible = "samsung,exynos5", .data = EXYNOS5_BOARD_GENERIC }, { }, }; /** * Odroix XU3/XU4/HC1/HC2 board revisions (from HC1+_HC2_MAIN_REV0.1_20171017.pdf): * Rev ADCmax Board * 0.1 0 XU3 0.1 * 0.2 372 XU3 0.2 | XU3L - no DISPLAYPORT (probe I2C0:0x40 / INA231) * 0.3 1280 XU4 0.1 * 0.4 739 XU4 0.2 * 0.5 1016 XU4+Air0.1 (Passive cooling) * 0.6 1309 XU4-HC1 0.1 * 0.7 1470 XU4-HC1+ 0.1 (HC2) * Use +1% for ADC value tolerance in the array below, the code loops until * the measured ADC value is lower than then ADCmax from the array. */ struct odroid_rev_info odroid_info[] = { { EXYNOS5_BOARD_ODROID_XU3_REV01, 1, 10, "xu3" }, { EXYNOS5_BOARD_ODROID_XU3_REV02, 2, 375, "xu3" }, { EXYNOS5_BOARD_ODROID_XU4_REV01, 1, 1293, "xu4" }, { EXYNOS5_BOARD_ODROID_HC1_REV01, 1, 1322, "hc1" }, { EXYNOS5_BOARD_ODROID_HC2_REV01, 1, 1484, "hc1" }, { EXYNOS5_BOARD_ODROID_UNKNOWN, 0, 4095, "unknown" }, }; /* * Read ADC at least twice and check the resuls. If regulator providing voltage * on to measured point was just turned on, first reads might require time * to stabilize. */ static int odroid_get_adc_val(unsigned int *adcval) { unsigned int adcval_prev = 0; int ret, retries = 20; ret = adc_channel_single_shot("adc@12D10000", CFG_ODROID_REV_AIN, &adcval_prev); if (ret) return ret; while (retries--) { mdelay(5); ret = adc_channel_single_shot("adc@12D10000", CFG_ODROID_REV_AIN, adcval); if (ret) return ret; /* * If difference between ADC reads is less than 3%, * accept the result */ if ((100 * abs(*adcval - adcval_prev) / adcval_prev) < 3) return ret; adcval_prev = *adcval; } return ret; } static int odroid_get_board_type(void) { unsigned int adcval; int ret, i; ret = odroid_get_adc_val(&adcval); if (ret) goto rev_default; for (i = 0; i < ARRAY_SIZE(odroid_info); i++) { /* ADC tolerance: +1% */ if (adcval < odroid_info[i].adc_val) return odroid_info[i].board_type; } rev_default: return EXYNOS5_BOARD_ODROID_XU3; } /** * odroid_get_type_str - returns pointer to one of the board type string. * Board types: "xu3", "xu3-lite", "xu4". However the "xu3lite" can be * detected only when the i2c controller is ready to use. Fortunately, * XU3 and XU3L are compatible, and the information about board lite * revision is needed before booting the linux, to set proper environment * variable: $fdtfile. */ static const char *odroid_get_type_str(void) { const char *type_xu3l = "xu3-lite"; struct udevice *dev, *chip; int i, ret; if (gd->board_type != EXYNOS5_BOARD_ODROID_XU3_REV02) goto exit; ret = pmic_get("s2mps11_pmic@66", &dev); if (ret) goto exit; /* Enable LDO26: 3.0V */ ret = pmic_reg_write(dev, S2MPS11_REG_L26CTRL, S2MPS11_LDO26_ENABLE); if (ret) goto exit; /* Check XU3Lite by probe INA231 I2C0:0x40 */ ret = uclass_get_device(UCLASS_I2C, 0, &dev); if (ret) goto exit; ret = dm_i2c_probe(dev, 0x40, 0x0, &chip); if (ret) return type_xu3l; exit: for (i = 0; i < ARRAY_SIZE(odroid_info); i++) { if (odroid_info[i].board_type == gd->board_type) return odroid_info[i].name; } return NULL; } bool board_is_odroidxu3(void) { if (gd->board_type >= EXYNOS5_BOARD_ODROID_XU3 && gd->board_type <= EXYNOS5_BOARD_ODROID_XU3_REV02) return true; return false; } bool board_is_odroidxu4(void) { if (gd->board_type == EXYNOS5_BOARD_ODROID_XU4_REV01) return true; return false; } bool board_is_odroidhc1(void) { if (gd->board_type == EXYNOS5_BOARD_ODROID_HC1_REV01) return true; return false; } bool board_is_odroidhc2(void) { if (gd->board_type == EXYNOS5_BOARD_ODROID_HC2_REV01) return true; return false; } bool board_is_generic(void) { if (gd->board_type == EXYNOS5_BOARD_GENERIC) return true; return false; } #ifdef CONFIG_REVISION_TAG static unsigned int odroid_get_rev(void) { int i; for (i = 0; i < ARRAY_SIZE(odroid_info); i++) { if (odroid_info[i].board_type == gd->board_type) return odroid_info[i].board_rev; } return 0; } /** * get_board_rev() - return detected board revision. * * @return: return board revision number for XU3 or 0 for generic */ u32 get_board_rev(void) { if (board_is_generic()) return 0; return odroid_get_rev(); } #endif /** * get_board_type() - returns board type string. * * @return: return board type string for XU3 or empty string for generic */ const char *get_board_type(void) { const char *generic = ""; if (board_is_generic()) return generic; return odroid_get_type_str(); } /** * set_board_type() - set board type in gd->board_type. * As default type set EXYNOS5_BOARD_GENERIC. If Odroid is detected, * set its proper type based on device tree. * * This might be called early when some more specific ways to detect revision * are not yet available. */ void set_board_type(void) { const struct udevice_id *of_match = board_ids; int ret; gd->board_type = EXYNOS5_BOARD_GENERIC; while (of_match->compatible) { ret = fdt_node_check_compatible(gd->fdt_blob, 0, of_match->compatible); if (ret) of_match++; gd->board_type = of_match->data; break; } } /** * set_board_revision() - set detailed board type in gd->board_type. * Should be called when resources (e.g. regulators) are available * so ADC can be used to detect the specific revision of a board. */ void set_board_revision(void) { if (board_is_odroidxu3()) gd->board_type = odroid_get_board_type(); }