/* * Copyright (C) 2013-2014 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 bool sim_target_should_recover(void) { return false; } bool sim_target_should_poweron(bool *cold_button_boot) { *cold_button_boot = true; return true; } bool sim_target_should_poweroff(bool at_boot) { return false; } #if !PRODUCT_LLB bool target_get_property(enum target_property prop, void *data, int maxdata, int *retlen) { return false; } #endif #if WITH_ENV void sim_target_setup_default_environment(void) { env_set("boot-args", "debug=0x14e serial=3 amfi=0x83 cs_enforcement_disable=1 -disable_aslr", ENV_PERSISTENT); env_set("boot-device", "asp_nand", 0); env_set("display-color-space","RGB888", 0); env_set("display-timing", "POR_DISP_B_VID", 0); env_set("idle-off", "false", 0); // env_set("kaslr-slide", "0x10000000", 0); env_set("kaslr-off", "true", 0); env_set("wifiaddr", "12:22:33:44:55:66", 0); env_set("ethaddr", "12:22:33:44:55:77", 0); env_set("btaddr", "00:00:00:00:00:00", 0); } #endif bool product_target_is_display_in_video_mode(void) { return true; } #if WITH_DEVICETREE #define ROOT_DTPATH "" int sim_target_update_device_tree(void) { DTNode *node; uint32_t propSize; char *propName; void *propData; // Overwrite the serial-number with data from the simplertc fastsim model if (FindNode(0, ROOT_DTPATH, &node)) { propName = "serial-number"; if (FindProperty(node, &propName, &propData, &propSize)) { if (propSize != 0x20) { dprintf(DEBUG_CRITICAL, "serial-number property size 0x%x (expected 0x20)\n", propSize); return -1; } uint64_t *serial = (uint64_t *)propData; serial[0] = *(volatile uint64_t *)0x4a000040; serial[1] = *(volatile uint64_t *)0x4a000048; serial[2] = *(volatile uint64_t *)0x4a000050; serial[3] = *(volatile uint64_t *)0x4a000058; } } // Overwrite the region-info with data from the simplertc fastsim model if (FindNode(0, ROOT_DTPATH, &node)) { propName = "region-info"; if (FindProperty(node, &propName, &propData, &propSize)) { if (propSize != 0x20) { dprintf(DEBUG_CRITICAL, "region-info property size 0x%x (expected 0x20)\n", propSize); return -1; } uint64_t *region = (uint64_t *)propData; region[0] = *(volatile uint64_t *)0x4a000060; region[1] = *(volatile uint64_t *)0x4a000068; region[2] = *(volatile uint64_t *)0x4a000070; region[3] = *(volatile uint64_t *)0x4a000078; } } if (FindNode(0, "arm-io/spu/iop-spu-nub", &node)) { propName = "AAPL,ignore"; if (FindProperty(node, &propName, &propData, &propSize)) { propName[0] = '~'; } } return 0; } #endif bool target_do_chargetrap(void) { return false; } bool target_needs_chargetrap(void) { return false; } #if !WITH_HW_POWER bool power_needs_precharge(void) { return false; } bool power_needs_thermal_trap(void) { return false; } void power_cancel_buttonwait(void) { } bool power_do_chargetrap(void) { return false; } bool power_is_suspended(void) { return false; } void power_will_resume(void) { } bool power_has_usb(void) { return false; } int power_read_dock_id(unsigned *id) { return -1; } bool power_get_diags_dock(void) { return false; } u_int32_t power_get_boot_battery_level(void) { return 0; } int power_get_nvram(u_int8_t key, u_int8_t *data) { return -1; } int power_set_nvram(u_int8_t key, u_int8_t data) { return -1; } int power_set_soc_voltage(unsigned mv, int override) { return -1; } bool force_usb_power = false; void power_set_usb_state(bool configured, bool suspended) { } int power_backlight_enable(u_int32_t backlight_level) { return 0; } #endif /* ! WITH_HW_POWER */