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iBoot/target/n78/init.c

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first and last commit
2023-07-08 13:03:17 -07:00
/*
* 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 <debug.h>
#include <drivers/display.h>
#include <drivers/flash_nor.h>
#include <drivers/iic.h>
#include <drivers/power.h>
#include <lib/devicetree.h>
#include <lib/env.h>
#include <lib/mib.h>
#include <lib/syscfg.h>
#include <platform.h>
#include <platform/gpio.h>
#include <platform/gpiodef.h>
#include <platform/memmap.h>
#include <sys.h>
#include <sys/boot.h>
#include <sys/menu.h>
#include <sys/task.h>
#include <target.h>
#include <target/powerconfig.h>
// BRD_REV3 is pulled down to 0 until EVT3, but we are inverting its value
#define N78_PROTO0A_BOARD (15)
#define N78_PROTO0B_BOARD (13)
#define N78_PROTO1_BOARD (12)
#define N78_EVT1_BOARD (9)
#define N78_EVT2_BOARD (8)
// Starting with EVT3, BRD_REV3 is pulled up to 1, but we are inverting its value
#define N78_EVT3_BOARD (7)
static u_int32_t n78_get_board_rev(void);
static uint32_t display_config;
MIB_CONSTANT(kMIBTargetOsPictureScale, kOIDTypeUInt32, 2);
MIB_CONSTANT(kMIBTargetPictureRotate, kOIDTypeInt32, 0);
void target_early_init(void)
{
}
void target_late_init(void)
{
}
void target_init(void)
{
#if WITH_HW_FLASH_NOR
flash_nor_init(SPI_NOR0);
#endif
// <rdar://problem/11625584> N78 LDO7 needs to be off for units older than EVT3
// NOTE: A board is EARLIER than an EVT3, because its board ID is larger (according to #defines above)
if (n78_get_board_rev() > N78_EVT3_BOARD) {
unsigned int i;
const uint8_t pmu_data[] = {
0x21, 0xB3, // kD1881_ACTIVE2: LDO4, LDO5, LDO8, LDO9, LDO11 enabled
};
for (i = 0; i < sizeof(pmu_data); i += 2)
iic_write(0, 0xe8, &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 = 0x00000964;
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", "n41", 0);
}
bool n78_get_e75(void)
{
return env_get_uint("e75", n78_get_board_rev() != N78_PROTO0A_BOARD) != 0;
}
#endif
static bool gpio_board_rev_valid;
static u_int32_t gpio_board_rev;
static u_int32_t n78_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(GPIO_BOARD_REV3, GPIO_CFG_IN);
gpio_configure_pupdn(GPIO_BOARD_REV0, GPIO_PDN);
gpio_configure_pupdn(GPIO_BOARD_REV1, GPIO_PDN);
gpio_configure_pupdn(GPIO_BOARD_REV2, GPIO_PDN);
gpio_configure_pupdn(GPIO_BOARD_REV3, GPIO_PDN);
spin(100); // Wait 100us
uint32_t brd_rev3_inverted = (gpio_read(GPIO_BOARD_REV3) ? 0UL : 1UL);
gpio_board_rev =
(brd_rev3_inverted << 3) |
(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_configure(GPIO_BOARD_REV3, GPIO_CFG_DFLT);
gpio_board_rev_valid = true;
}
return gpio_board_rev;
}
#if WITH_DEVICETREE
int target_update_device_tree(void)
{
#if WITH_HW_DISPLAY_PINOT
DTNode *clcd_node, *backlight_node;
#endif
DTNode *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-buck2";
if (FindProperty(node, &propName, &propData, &propSize)) {
propCnt = propSize / sizeof(u_int32_t);
platform_get_cpu_voltages(propCnt, propData);
platform_convert_voltages(2, propCnt, propData);
}
propName = "voltages-buck0";
if (FindProperty(node, &propName, &propData, &propSize)) {
propCnt = propSize / sizeof(u_int32_t);
platform_get_soc_voltages(propCnt, propData);
platform_convert_voltages(0, propCnt, propData);
}
}
#if WITH_HW_DISPLAY_PINOT
// Find the CLCD node
FindNode(0, "arm-io/clcd", &clcd_node);
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 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);
}
}
// 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);
}
}
// Updte the speaker calibration data
if (FindNode(0, "arm-io/i2c0/audio-speaker", &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;
if (syscfgCopyDataForTag('VPBR', &vpbr, sizeof(vpbr)) == 1) {
((uint8_t *)propData)[12] = (((uint8_t *)propData)[12] & ~0x1f) | (vpbr & 0x1f);
}
uint8_t vbst;
if (syscfgCopyDataForTag('VBST', &vbst, sizeof(vbst)) == 1) {
((uint8_t *)propData)[16] = vbst;
}
}
}
if (FindNode(0, "product", &node)) {
// N78a: If the NoBC syscfg key present, and it have bit 0 set
uint32_t sysCfgData;
int result = syscfgCopyDataForTag('NoBC', (uint8_t *)(&sysCfgData), sizeof(sysCfgData));
int isn78a = 0;
if (result == sizeof(sysCfgData) && (sysCfgData & 0x1) ) isn78a = 1;
// this isn't an N78a, so get rid of the n78a-mode property
propName = "n78a-mode";
if (isn78a==0 && FindProperty(node, &propName, &propData, &propSize) ) propName[0] = '~';
if (isn78a && FindNode(0, "product/camera", &node)) {
// isp/camera-rear and other product/camera rear camera related properties
// will be deleted by common code in lib/macho/dt.c.
// Here, remove the product/camera/auto-focus entry
propName = "auto-focus";
if (FindProperty(node, &propName, &propData, &propSize) ) {
propName[0] = '~';
}
propName = "rear-hdr-on";
if (FindProperty(node, &propName, &propData, &propSize) ) {
//n78a: set rear-hdr-on to 0
memset(propData, 0, propSize );
}
propName = "rear-burst-image-duration";
if (FindProperty(node, &propName, &propData, &propSize) ) {
//n78a: set rear-burst-image-duration to 0
memset(propData, 0, propSize );
}
}
}
// if E75 config, reconfigure everything
if (n78_get_e75()) {
// enable uart2
if (FindNode(0, "arm-io/uart2", &node)) {
propName = "AAPL,ignore";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
}
// reconfigure uart1
if (FindNode(0, "arm-io/uart1/iap", &node)) {
propName = "name";
if (FindProperty(node, &propName, &propData, &propSize)) {
strlcpy(propData, "debug-console", kPropNameLength);
}
propName = "function-dock_parent";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
}
// enable tristar
uint32_t tristarPHandle = -1;
if (FindNode(0, "arm-io/i2c0/tristar", &node)) {
propName = "AAPL,ignore";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
propName = "AAPL,phandle";
if (FindProperty(node, &propName, &propData, &propSize)) {
tristarPHandle = *(uint32_t *)propData;
}
}
// disconnect BRICK_ID from USB
if (FindNode(0, "arm-io/otgphyctrl", &node)) {
propName = "function-dmon_voltage";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
}
// change dock from 30-pin to 9-pin
uint32_t dockPHandle = -1;
if (FindNode(0, "dock", &node)) {
propName = "compatible";
if (FindProperty(node, &propName, &propData, &propSize)) {
strlcpy(propData, "dock,9pin", kPropNameLength);
}
propName = "function-read_acc";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
propName = "function-acc_detect";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
propName = "interrupt-parent";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
propName = "interrupts";
if (FindProperty(node, &propName, &propData, &propSize)) {
propName[0] = '~';
}
propName = "AAPL,phandle";
if (FindProperty(node, &propName, &propData, &propSize)) {
dockPHandle = *(uint32_t *)propData;
}
}
// use TriStar for brick detect
if (FindNode(0, "charger", &node)) {
propName = "function-usb_dmonitor";
if (FindProperty(node, &propName, &propData, &propSize)) {
((uint32_t *)propData)[0] = tristarPHandle;
}
}
}
// pre-EVT1 Grape clock config
if (n78_get_board_rev() > N78_EVT1_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, 0x09);
gpio_configure(GPIO(7, 7), GPIO_CFG_IN);
}
// pre-EVT2 codec config
if (n78_get_board_rev() > N78_EVT2_BOARD) {
if (FindNode(0, "arm-io/spi2/audio-codec", &node)) {
propName = "class-h-control";
if (FindProperty(node, &propName, &propData, &propSize)) {
((uint32_t *)propData)[0] = 0;
}
}
}
return 0;
}
#endif