/* * Copyright (C) 2011-2015 Apple Inc. All rights reserved. * * This document is the property of Apple Inc. * It is considered confidential and proprietary. * * This document may not be reproduced or transmitted in any form, * in whole or in part, without the express written permission of * Apple Inc. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define IPAD2B_PROTO0_DEV1_BOARD (0x0) #define IPAD2B_PROTO1_BOARD (0x1) #define IPAD2B_PROTO2_BOARD (0x2) #define IPAD2B_EVT1_BOARD (0x3) static uint32_t ipad2b_get_board_rev(void); MIB_CONSTANT_PTR(kMIBTargetDisplayGammaTablePtr,kOIDTypeStruct, (void *)ipad2b_display_gamma_tables); MIB_CONSTANT(kMIBTargetDisplayGammaTableCount, kOIDTypeUInt32, ARRAY_SIZE(ipad2b_display_gamma_tables)); MIB_CONSTANT(kMIBTargetOsPictureScale, kOIDTypeUInt32, 1); MIB_CONSTANT(kMIBTargetPictureRotate, kOIDTypeInt32, 0); static uint32_t display_config; void target_early_init(void) { unsigned int i; // For proto0, go back to 2.8 V: P105 LDO10 needs to be set to 2.5v for Proto1 if (ipad2b_get_board_rev() == IPAD2B_PROTO0_DEV1_BOARD) { const uint8_t pmu_data[] = { 0x38, 0x06, }; for (i = 0; i < sizeof(pmu_data); i += 2) iic_write(0, 0x78, &pmu_data[i], 2); } } void target_late_init(void) { } void target_init(void) { #if WITH_HW_FLASH_NOR flash_nor_init(SPI_NOR0); #endif // P105 EVT: Disable Alison LCM boost soft start to fix some grape fallouts // P105's LCM Boost: SW to disable OC every time boot if (ipad2b_get_board_rev() <= IPAD2B_EVT1_BOARD) { unsigned int i; const uint8_t pmu_data[] = { 0x1e, 0x02, // bank 2 0xd0, 0x01, // enable test mode 0xef, 0x10, // disable OC for LCM boost 0x1e, 0x01, // bank 1 0xee, 0x0c, // trim_conf15 = 0x0c ; disable soft-start 0x1e, 0x02, // bank 2 0xd0, 0x00, // disable test mode 0x1e, 0x00, // bank 0 }; for (i = 0; i < sizeof(pmu_data); i += 2) iic_write(0, 0x78, &pmu_data[i], 2); } } void target_quiesce_hardware(void) { } void target_poweroff(void) { } int target_bootprep(enum boot_target target) { switch (target) { case BOOT_DARWIN: case BOOT_DARWIN_RESTORE: case BOOT_DIAGS: break; default: ; // do nothing } return 0; } bool target_should_recover(void) { return platform_get_request_dfu2() && power_has_usb(); } bool target_should_poweron(bool *cold_button_boot) { #if WITH_HW_POWER if (power_get_boot_flag() == kPowerBootFlagColdButton) *cold_button_boot = true; #else *cold_button_boot = false; #endif return !*cold_button_boot || platform_get_request_dfu1(); } bool target_should_poweroff(bool at_boot) { return platform_get_request_dfu1() && (!at_boot || !power_has_usb()); } #if APPLICATION_IBOOT void target_watchdog_tickle(void) { u_int32_t value = gpio_read(GPIO_WDOG_TICKLE); gpio_write(GPIO_WDOG_TICKLE, value ^ 1); } #endif // APPLICATION_IBOOT void * target_get_display_configuration(void) { display_config = 0x00000944; // X124 LVDS panel timing parameters workaround for proto0 if (ipad2b_get_board_rev() == IPAD2B_PROTO0_DEV1_BOARD) { display_config = 0x00000644; } return ((void *)(&display_config)); } #if WITH_ENV void target_setup_default_environment(void) { env_set("boot-device", "nand0", 0); env_set("display-color-space","RGB888", 0); env_set("display-timing", "ipad2b", 0); // X124 LVDS panel timing parameters workaround for proto0 if (ipad2b_get_board_rev() == IPAD2B_PROTO0_DEV1_BOARD) { env_set("display-timing", "ipad2b-p0", 0); } } #endif #if WITH_DEVICETREE int target_update_device_tree(void) { DTNode *node, *clcd_node, *backlight_node; uint32_t propSize, propCnt; char *propName; void *propData; // Update the DWI node with the actual voltages if (FindNode(0, "arm-io/dwi", &node)) { propName = "voltages-buck0"; if (FindProperty(node, &propName, &propData, &propSize)) { propCnt = propSize / sizeof(u_int32_t); platform_get_cpu_voltages(propCnt, propData); platform_convert_voltages(0, propCnt, propData); } propName = "voltages-buck2"; if (FindProperty(node, &propName, &propData, &propSize)) { propCnt = propSize / sizeof(u_int32_t); platform_get_soc_voltages(propCnt, propData); platform_convert_voltages(2, propCnt, propData); } } // Find the CLCD node FindNode(0, "arm-io/clcd", &clcd_node); #if WITH_HW_DISPLAY_PINOT if (FindNode(0, "arm-io/mipi-dsim/lcd", &node)) { extern int pinot_update_device_tree(DTNode *pinot_node, DTNode *clcd_node, DTNode *backlight_node); FindNode(0, "backlight", &backlight_node); pinot_update_device_tree(node, clcd_node, backlight_node); } #endif // Update the backlight calibration data if (FindNode(0, "backlight", &node)) { propName = "backlight-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('BLCl', propData, propSize); } } // Update the bottom prox calibration data if (FindNode(0, "arm-io/i2c1/prox", &node)) { propName = "prox-bottom-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('PBCl', propData, propSize); } propName = "prox-temp-base"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('PBTb', propData, propSize); } propName = "prox-centerpoint-base"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('PBCb', propData, propSize); } propName = "prox-calibration-blob"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('CPCl', propData, propSize); } } // Update the compass calibration data if (FindNode(0, "arm-io/i2c1/compass", &node)) { propName = "compass-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('CPAS', propData, propSize); } } // Update als node with calibration data if (FindNode(0, "arm-io/i2c2/als", &node)) { propName = "backlight-leakage-channel0"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('ALC0', propData, propSize); } propName = "backlight-leakage-channel1"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('ALC1', propData, propSize); } propName = "alsCalibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('AlsC', propData, propSize); } propName = "als-colorCfg"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('ClrC', propData, propSize); } } // Update the gyro calibration data if (FindNode(0, "arm-io/i2c2/gyro", &node)) { propName = "low-temp-offset"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('LTGO', propData, propSize); } propName = "high-temp-offset"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('HTGO', propData, propSize); } propName = "gyro-sensitivity-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('GSCl', propData, propSize); } propName = "gyro-temp-table"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('GYTT', propData, propSize); } propName = "gyro-interrupt-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('GICl', propData, propSize); } } // Update accelerometer calibration data if (FindNode(0, "arm-io/i2c2/accelerometer", &node)) { propName = "low-temp-accel-offset"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('LTAO', propData, propSize); } propName = "accel-sensitivity-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('ASCl', propData, propSize); } propName = "accel-interrupt-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('AICl', propData, propSize); } } // Update camera calibration data if (FindNode(0, "arm-io/isp", &node)) { propName = "camera-calibration"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('CmCl', propData, propSize); } } // Updte the speaker calibration data if (FindNode(0, "arm-io/i2c0/audio-speaker0", &node)) { propName = "speaker-rdc"; if (FindProperty(node, &propName, &propData, &propSize)) { syscfgCopyDataForTag('SRdc', propData, propSize); } propName = "speaker-config"; if (FindProperty(node, &propName, &propData, &propSize)) { uint8_t vpbr[2]; if (syscfgCopyDataForTag('VPBR', vpbr, sizeof(vpbr)) == 2) { ((uint8_t *)propData)[12] = (((uint8_t *)propData)[12] & ~0x1f) | (vpbr[0] & 0x1f); ((uint8_t *)propData)[32] = (((uint8_t *)propData)[12] & ~0x1f) | (vpbr[1] & 0x1f); } uint8_t vbst[2]; if (syscfgCopyDataForTag('VBST', vbst, sizeof(vbst)) == 2) { ((uint8_t *)propData)[16] = vbst[0]; ((uint8_t *)propData)[36] = vbst[1]; } } } // Update USB input current limit if (FindNode(0, "charger", &node)) { propName = "usb-input-limit-max"; if (FindProperty(node, &propName, &propData, &propSize)) { *(uint32_t *)propData = TARGET_MAX_USB_INPUT_CURRENT; } } // pre-Proto2 Grape clock config if (ipad2b_get_board_rev() <= IPAD2B_PROTO1_BOARD) { if (FindNode(0, "arm-io/spi1/multi-touch", &node)) { propName = "function-clock_enable"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[0] = '~'; } propName = "function-clock_enable-pmu"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[21] = '\0'; } } // configure PMU GPIO1 to be Grape clock (off until enabled) // configure SoC PWM2 to be disabled ( power_gpio_configure(0, 0x11); gpio_configure(GPIO(7, 7), GPIO_CFG_IN); } // pre-EVT Grape LDO config if (ipad2b_get_board_rev() <= IPAD2B_PROTO2_BOARD) { if (FindNode(0, "arm-io/spi1/multi-touch", &node)) { propName = "function-power_ana"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[0] = '~'; } propName = "function-power_ldo"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[0] = '~'; } propName = "function-power_ldo-pre-evt"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[18] = '\0'; } } } // pre-EVT speaker amp interrupt assignments if (ipad2b_get_board_rev() <= IPAD2B_PROTO2_BOARD) { if (FindNode(0, "arm-io/i2c0/audio-speaker0", &node)) { propName = "interrupts"; if (FindProperty(node, &propName, &propData, &propSize)) { *(uint32_t *)propData = 0x07; } } if (FindNode(0, "arm-io/i2c0/audio-speaker1", &node)) { propName = "interrupts"; if (FindProperty(node, &propName, &propData, &propSize)) { *(uint32_t *)propData = 0x2e; } } } return 0; } #endif static bool gpio_board_rev_valid; static uint32_t gpio_board_rev; static uint32_t ipad2b_get_board_rev(void) { if(!gpio_board_rev_valid) { gpio_configure(GPIO_BOARD_REV0, GPIO_CFG_IN); gpio_configure(GPIO_BOARD_REV1, GPIO_CFG_IN); gpio_configure(GPIO_BOARD_REV2, GPIO_CFG_IN); gpio_configure_pupdn(GPIO_BOARD_REV0, GPIO_PUP); gpio_configure_pupdn(GPIO_BOARD_REV1, GPIO_PUP); gpio_configure_pupdn(GPIO_BOARD_REV2, GPIO_PUP); spin(100); // Wait 100us gpio_board_rev = (gpio_read(GPIO_BOARD_REV2) << 2) | (gpio_read(GPIO_BOARD_REV1) << 1) | (gpio_read(GPIO_BOARD_REV0) << 0); gpio_configure(GPIO_BOARD_REV0, GPIO_CFG_DFLT); gpio_configure(GPIO_BOARD_REV1, GPIO_CFG_DFLT); gpio_configure(GPIO_BOARD_REV2, GPIO_CFG_DFLT); gpio_board_rev_valid = true; } return gpio_board_rev; }