mirror of
https://github.com/dortania/OpenCore-Legacy-Patcher.git
synced 2026-04-13 20:28:21 +10:00
540 lines
30 KiB
Python
540 lines
30 KiB
Python
# Framework for mounting and patching macOS root volume
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# Copyright (C) 2020-2021, Dhinak G, Mykola Grymalyuk
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# Missing Features:
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# - Full System/Library Snapshotting (need to research how Apple achieves this)
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# - Temporary Work-around: sudo bless --mount /System/Volumes/Update/mnt1 --bootefi --last-sealed-snapshot
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# - Work-around battery throttling on laptops with no battery (IOPlatformPluginFamily.kext/Contents/PlugIns/ACPI_SMC_PlatformPlugin.kext/Contents/Resources/)
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import os
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import plistlib
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import shutil
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import subprocess
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import zipfile
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from pathlib import Path
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from typing import Any
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from Resources import Constants, DeviceProbe, ModelArray, PCIIDArray, Utilities
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class PatchSysVolume:
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def __init__(self, model, versions):
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self.model = model
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self.constants: Constants.Constants = versions
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self.sip_patch_status = True
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self.root_mount_path = None
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self.sip_status = None
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# TODO: Put this in a better place
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if self.constants.recovery_status is True:
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if not Path("/Volumes/mnt1").exists:
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self.elevated(["mkdir", "/Volumes/mnt1"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.mount_location = "/Volumes/mnt1"
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else:
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self.mount_location = "/System/Volumes/Update/mnt1"
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self.mount_extensions = f"{self.mount_location}/System/Library/Extensions"
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self.mount_frameworks = f"{self.mount_location}/System/Library/Frameworks"
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self.mount_lauchd = f"{self.mount_location}/System/Library/LaunchDaemons"
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self.mount_private_frameworks = f"{self.mount_location}/System/Library/PrivateFrameworks"
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def elevated(self, *args, **kwargs) -> subprocess.CompletedProcess([Any], returncode=0):
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if os.getuid() == 0:
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return subprocess.run(*args, **kwargs)
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else:
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return subprocess.run(["sudo"] + [args[0][0]] + args[0][1:], **kwargs)
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def csr_decode(self, print_status):
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sip_int = int.from_bytes(self.sip_status, byteorder="little")
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i = 0
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for current_sip_bit in self.constants.csr_values:
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if sip_int & (1 << i):
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temp = True
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self.constants.csr_values[current_sip_bit] = True
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else:
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temp = False
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if print_status is True:
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print(f"- {current_sip_bit}\t {temp}")
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i = i + 1
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sip_needs_change = all(
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self.constants.csr_values[i]
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for i in [
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"CSR_ALLOW_UNTRUSTED_KEXTS",
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"CSR_ALLOW_UNRESTRICTED_FS",
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"CSR_ALLOW_UNRESTRICTED_DTRACE",
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"CSR_ALLOW_UNRESTRICTED_NVRAM",
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"CSR_ALLOW_DEVICE_CONFIGURATION",
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"CSR_ALLOW_UNAPPROVED_KEXTS",
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"CSR_ALLOW_EXECUTABLE_POLICY_OVERRIDE",
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"CSR_ALLOW_UNAUTHENTICATED_ROOT",
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]
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)
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if sip_needs_change is True:
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self.sip_patch_status = False
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else:
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self.sip_patch_status = True
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def recovery_root_mount(self):
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def human_fmt(num):
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for unit in ["B", "KB", "MB", "GB", "TB", "PB"]:
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if abs(num) < 1000.0:
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return "%3.1f %s" % (num, unit)
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num /= 1000.0
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return "%.1f %s" % (num, "EB")
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print("- Starting Root Volume Picker")
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# Planned logic:
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# Load "diskutil list -plist"
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# Find all APFSVolumes entries where VolumeName is not named Update, VM, Recovery or Preboot
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# Omit any VolumeName entries containing "- Data"
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# Parse remianing options for macOS 11.x with /Volumes/$disk/System/Library/CoreServices/SystemVersion.plist
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# List remaining drives as user options
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all_disks = {}
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disks = plistlib.loads(subprocess.run("diskutil list -plist".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
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for disk in disks["AllDisksAndPartitions"]:
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disk_info = plistlib.loads(subprocess.run(f"diskutil info -plist {disk['DeviceIdentifier']}".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
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try:
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all_disks[disk["DeviceIdentifier"]] = {"identifier": disk_info["DeviceNode"], "name": disk_info["MediaName"], "size": disk_info["TotalSize"], "partitions": {}}
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for partition in disk["Partitions"] + disk.get("APFSVolumes", []):
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partition_info = plistlib.loads(subprocess.run(f"diskutil info -plist {partition['DeviceIdentifier']}".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
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all_disks[disk["DeviceIdentifier"]]["partitions"][partition["DeviceIdentifier"]] = {
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"fs": partition_info.get("FilesystemType", partition_info["Content"]),
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"type": partition_info["Content"],
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"name": partition_info.get("VolumeName", ""),
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"size": partition_info["TotalSize"],
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"sealed": partition_info.get("Sealed", "No"),
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}
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except KeyError:
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# Avoid crashing with CDs installed
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continue
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menu = Utilities.TUIMenu(
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["Select Disk"],
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"Please select the disk you would like to patch: ",
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in_between=["Missing disks? Ensure they have a macOS Big Sur install present."],
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return_number_instead_of_direct_call=True,
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loop=True,
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)
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for disk in all_disks:
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if not any(all_disks[disk]["partitions"][partition]["fs"] == "apfs" for partition in all_disks[disk]["partitions"]):
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continue
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menu.add_menu_option(f"{disk}: {all_disks[disk]['name']} ({human_fmt(all_disks[disk]['size'])})", key=disk[4:])
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response = menu.start()
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if response == -1:
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return
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disk_identifier = "disk" + response
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selected_disk = all_disks[disk_identifier]
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menu = Utilities.TUIMenu(
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["Select Partition"],
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"Please select the partition you would like to install OpenCore to: ",
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return_number_instead_of_direct_call=True,
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loop=True,
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in_between=["Missing disks? Ensure they have a macOS Big Sur install present.", "", "* denotes likely candidate."],
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)
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# TODO: check if Big Sur, when macOS 12 comes out
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for partition in selected_disk["partitions"]:
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if selected_disk["partitions"][partition]["fs"] != "apfs":
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continue
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text = f"{partition}: {selected_disk['partitions'][partition]['name']} ({human_fmt(selected_disk['partitions'][partition]['size'])})"
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if selected_disk["partitions"][partition]["sealed"] != "No":
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text += " *"
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menu.add_menu_option(text, key=partition[len(disk_identifier) + 1 :])
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response = menu.start()
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if response == -1:
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return
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else:
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return f"{disk_identifier}s{response}"
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def find_mount_root_vol(self, patch):
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if self.constants.recovery_status is True:
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print("- Running RecoveryOS logic")
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self.root_mount_path = self.recovery_root_mount()
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if not self.root_mount_path:
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return
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print(f"- Root Mount Path: {self.root_mount_path}")
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if not Path(self.constants.payload_mnt1_path).exists():
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print("- Creating mnt1 folder")
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Path(self.constants.payload_mnt1_path).mkdir()
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else:
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root_partition_info = plistlib.loads(subprocess.run("diskutil info -plist /".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
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self.root_mount_path = root_partition_info["DeviceIdentifier"]
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if self.root_mount_path.startswith("disk"):
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if self.constants.recovery_status is False:
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self.root_mount_path = self.root_mount_path[:-2] if self.root_mount_path.count("s") > 1 else self.root_mount_path
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print(f"- Found Root Volume at: {self.root_mount_path}")
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if Path(self.mount_extensions).exists():
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print("- Root Volume is already mounted")
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if patch is True:
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self.patch_root_vol()
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return True
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else:
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self.unpatch_root_vol()
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return True
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else:
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if self.constants.recovery_status is True:
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print("- Mounting drive as writable in Recovery")
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umount_drive = plistlib.loads(subprocess.run(f"diskutil info -plist {self.root_mount_path}".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
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umount_drive = umount_drive["VolumeName"]
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self.elevated(["umount", f'/Volumes/{umount_drive}'], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["mount", "-t", "apfs", "-rw", f"/dev/{self.root_mount_path}", self.mount_location], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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else:
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print("- Mounting drive as writable in OS")
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self.elevated(["mount", "-o", "nobrowse", "-t", "apfs", f"/dev/{self.root_mount_path}", self.mount_location], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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if Path(self.mount_extensions).exists():
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print("- Successfully mounted the Root Volume")
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if patch is True:
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self.patch_root_vol()
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return True
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else:
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self.unpatch_root_vol()
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return True
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else:
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print("- Failed to mount the Root Volume")
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else:
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print("- Could not find root volume")
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def delete_old_binaries(self, vendor_patch):
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for delete_current_kext in vendor_patch:
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delete_path = Path(self.mount_extensions) / Path(delete_current_kext)
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if Path(delete_path).exists():
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print(f"- Deleting {delete_current_kext}")
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self.elevated(["sudo", "rm", "-R", delete_path], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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else:
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print(f"- Couldn't find {delete_current_kext}, skipping")
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def add_new_binaries(self, vendor_patch, vendor_location):
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for add_current_kext in vendor_patch:
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existing_path = Path(self.mount_extensions) / Path(add_current_kext)
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if Path(existing_path).exists():
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print(f"- Found conflicting kext, Deleting Root Volume's {add_current_kext}")
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self.elevated(["rm", "-R", existing_path], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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print(f"- Adding {add_current_kext}")
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self.elevated(["cp", "-R", f"{vendor_location}/{add_current_kext}", self.mount_extensions], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chmod", "-Rf", "755", f"{self.mount_extensions}/{add_current_kext}"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chown", "-Rf", "root:wheel", f"{self.mount_extensions}/{add_current_kext}"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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def add_brightness_patch(self):
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print("- Merging legacy Brightness Control Patches")
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self.delete_old_binaries(ModelArray.DeleteBrightness)
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self.add_new_binaries(ModelArray.AddBrightness, self.constants.legacy_brightness)
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self.elevated(["ditto", self.constants.payload_apple_private_frameworks_path_brightness, self.mount_private_frameworks], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chmod", "-Rf", "755", f"{self.mount_private_frameworks}/DisplayServices.framework"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chown", "-Rf", "root:wheel", f"{self.mount_private_frameworks}/DisplayServices.framework"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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def gpu_accel_patches_11(self):
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igpu_vendor, igpu_device, igpu_acpi = DeviceProbe.pci_probe().gpu_probe("IGPU")
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dgpu_vendor, dgpu_device, dgpu_acpi = DeviceProbe.pci_probe().gpu_probe("GFX0")
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if dgpu_vendor:
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print(f"- Found GFX0: {dgpu_vendor}:{dgpu_device}")
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if dgpu_vendor == self.constants.pci_nvidia:
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if dgpu_device in PCIIDArray.nvidia_ids().tesla_ids or dgpu_device in PCIIDArray.nvidia_ids().fermi_ids:
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print("- Merging legacy Nvidia Tesla and Fermi Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteNvidiaAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddNvidiaAccel11, self.constants.legacy_nvidia_path)
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self.added_kexts = True
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# TODO: Enable below code if macOS 12 drops support
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# elif dgpu_device in PCIIDArray.nvidia_ids().kepler_ids and self.constants.detected_os > self.constants.big_sur:
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# print("- Merging legacy Nvidia Kepler Kexts and Bundles")
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# self.add_new_binaries(ModelArray.AddNvidiaKeplerAccel11, self.constants.legacy_nvidia_kepler_path)
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elif dgpu_vendor == self.constants.pci_amd_ati:
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if dgpu_device in PCIIDArray.amd_ids().terascale_1_ids:
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print("- Merging legacy AMD Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteAMDAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddAMDAccel11, self.constants.legacy_amd_path)
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self.added_kexts = True
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if self.model in ["MacBookPro8,2", "MacBookPro8,3"]:
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# This is used for MacBookPro8,2/3 where dGPU is disabled via NVRAM and still requires AMD framebuffer
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# For reference:
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#- deMUX: Don't need the AMD patches
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#- dGPUs enabled: Don't install the AMD patches (Infinite login loop otherwise)
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#- dGPUs disabled: Do need the AMD patches (Restores Brightness control)
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dgpu_status: str = subprocess.run("nvram FA4CE28D-B62F-4C99-9CC3-6815686E30F9:gpu-power-prefs".split(), stdout=subprocess.PIPE, stderr=subprocess.STDOUT).stdout.decode()
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if dgpu_status.startswith("FA4CE28D-B62F-4C99-9CC3-6815686E30F9:gpu-power-prefs %01"):
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print("- Detected dGPU is disabled via NVRAM")
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print("- Merging legacy AMD Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteAMDAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddAMDAccel11, self.constants.legacy_amd_path)
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self.added_kexts = True
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else:
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print("- Cannot install Brightness Control, pleas ensure the dGPU is disabled via NVRAM")
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if igpu_vendor:
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print(f"- Found IGPU: {igpu_vendor}:{igpu_device}")
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if igpu_vendor == self.constants.pci_intel:
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if igpu_device in PCIIDArray.intel_ids().iron_ids:
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print("- Merging legacy Intel 1st Gen Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteNvidiaAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddIntelGen1Accel, self.constants.legacy_intel_gen1_path)
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self.added_kexts = True
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elif igpu_device in PCIIDArray.intel_ids().sandy_ids:
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print("- Merging legacy Intel 2nd Gen Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteNvidiaAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddIntelGen2Accel, self.constants.legacy_intel_gen2_path)
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self.added_kexts = True
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# TODO: Enable below code if macOS 12 drops support
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# elif igpu_device in PCIIDArray.intel_ids().ivy_ids:
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# print("- Merging legacy Intel 3rd Gen Kexts and Bundles")
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# self.add_new_binaries(ModelArray.AddIntelGen3Accel, self.constants.legacy_intel_gen3_path)
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elif igpu_vendor == self.constants.pci_nvidia:
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if not dgpu_vendor:
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# Avoid patching twice, as Nvidia iGPUs will only have Nvidia dGPUs
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print("- Merging legacy Nvidia Kexts and Bundles")
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self.delete_old_binaries(ModelArray.DeleteNvidiaAccel11)
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self.add_new_binaries(ModelArray.AddGeneralAccel, self.constants.legacy_general_path)
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self.add_new_binaries(ModelArray.AddNvidiaAccel11, self.constants.legacy_nvidia_path)
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self.added_kexts = True
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if self.added_kexts == True:
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# Frameworks
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print("- Merging legacy Frameworks")
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self.elevated(["ditto", self.constants.payload_apple_frameworks_path_accel, self.mount_frameworks], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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if self.model in ModelArray.LegacyBrightness:
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self.add_brightness_patch()
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# LaunchDaemons
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if Path(self.mount_lauchd / Path("HiddHack.plist")).exists():
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print("- Removing legacy HiddHack")
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self.elevated(["rm", f"{self.mount_lauchd}/HiddHack.plist"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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print("- Adding IOHID-Fixup.plist")
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self.elevated(["ditto", self.constants.payload_apple_lauchd_path_accel, self.mount_lauchd], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chmod", "755", f"{self.mount_lauchd}/IOHID-Fixup.plist"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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self.elevated(["chown", "root:wheel", f"{self.mount_lauchd}/IOHID-Fixup.plist"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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# PrivateFrameworks
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print("- Merging legacy PrivateFrameworks")
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self.elevated(["ditto", self.constants.payload_apple_private_frameworks_path_accel, self.mount_private_frameworks], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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# Sets AppKit to Catalina Window Drawing codepath
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# Disabled upon ASentientBot request
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# print("- Enabling NSDefenestratorModeEnabled")
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# subprocess.run("defaults write -g NSDefenestratorModeEnabled -bool true".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode()
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else:
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print("- No Acceleration Kexts were installed, skipping remaining acceleration patches")
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def patch_root_vol(self):
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print(f"- Detecting patches for {self.model}")
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rebuild_required = False
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# TODO: Create Backup of S*/L*/Extensions, Frameworks and PrivateFramework to easily revert changes
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# APFS snapshotting seems to ignore System Volume changes inconsistently, would like a backup to avoid total brick
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# Perhaps a basic py2 script to run in recovery to restore
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# Ensures no .DS_Stores got in
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print("- Preparing Files")
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self.elevated(["find", self.constants.payload_apple_root_path, "-name", "'.DS_Store'", "-delete"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
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if self.model in ModelArray.LegacyGPU or self.constants.assume_legacy is True:
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dgpu_vendor, dgpu_device, dgpu_acpi = DeviceProbe.pci_probe().gpu_probe("GFX0")
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if (
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dgpu_vendor
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and dgpu_vendor == self.constants.pci_amd_ati
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and (
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dgpu_device in PCIIDArray.amd_ids().polaris_ids
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or dgpu_device in PCIIDArray.amd_ids().vega_ids
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or dgpu_device in PCIIDArray.amd_ids().navi_ids
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or dgpu_device in PCIIDArray.amd_ids().legacy_gcn_ids
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)
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):
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print("- Detected Metal-based AMD GPU, skipping legacy patches")
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elif dgpu_vendor and dgpu_vendor == self.constants.pci_nvidia and dgpu_device in PCIIDArray.nvidia_ids().kepler_ids:
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print("- Detected Metal-based Nvidia GPU, skipping legacy patches")
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else:
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print("- Detected legacy GPU, attempting legacy acceleration patches")
|
|
self.gpu_accel_patches_11()
|
|
rebuild_required = True
|
|
|
|
if self.model in ["iMac7,1", "iMac8,1"]:
|
|
print("- Fixing Volume Control Support")
|
|
self.delete_old_binaries(ModelArray.DeleteVolumeControl)
|
|
self.add_new_binaries(ModelArray.AddVolumeControl, self.constants.audio_path)
|
|
rebuild_required = True
|
|
|
|
if rebuild_required is True:
|
|
self.rebuild_snapshot()
|
|
|
|
def unpatch_root_vol(self):
|
|
print("- Reverting to last signed APFS snapshot")
|
|
self.elevated(["bless", "--mount", self.mount_location, "--bootefi", "--last-sealed-snapshot"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
|
|
|
|
def rebuild_snapshot(self):
|
|
if self.constants.gui_mode is False:
|
|
input("Press [ENTER] to continue with cache rebuild")
|
|
print("- Rebuilding Kernel Cache (This may take some time)")
|
|
result = self.elevated(["kmutil", "install", "--volume-root", self.mount_location, "--update-all"], stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
|
|
|
|
if result.returncode != 0:
|
|
self.success_status = False
|
|
print("- Unable to build new kernel cache")
|
|
print("\nPlease report this to Github")
|
|
print("Reason for Patch Failure:")
|
|
print(result.stdout.decode())
|
|
print("")
|
|
else:
|
|
self.success_status = True
|
|
print("- Successfully built new kernel cache")
|
|
if self.constants.gui_mode is False:
|
|
input("Press [ENTER] to continue with snapshotting")
|
|
print("- Creating new APFS snapshot")
|
|
self.elevated(["bless", "--folder", f"{self.mount_location}/System/Library/CoreServices", "--bootefi", "--create-snapshot"], stdout=subprocess.PIPE).stdout.decode().strip().encode()
|
|
|
|
def unmount_drive(self):
|
|
print("- Unmounting Root Volume (Don't worry if this fails)")
|
|
self.elevated(["diskutil", "unmount", self.root_mount_path], stdout=subprocess.PIPE).stdout.decode().strip().encode()
|
|
|
|
def check_status(self):
|
|
nvram_dump = plistlib.loads(subprocess.run("nvram -x -p".split(), stdout=subprocess.PIPE).stdout.decode().strip().encode())
|
|
try:
|
|
self.sip_status = nvram_dump["csr-active-config"]
|
|
except KeyError:
|
|
self.sip_status = b"\x00\x00\x00\x00"
|
|
|
|
self.smb_model: str = subprocess.run("nvram 94B73556-2197-4702-82A8-3E1337DAFBFB:HardwareModel ".split(), stdout=subprocess.PIPE, stderr=subprocess.STDOUT).stdout.decode()
|
|
if not self.smb_model.startswith("nvram: Error getting variable"):
|
|
self.smb_model = [line.strip().split(":HardwareModel ", 1)[1] for line in self.smb_model.split("\n") if line.strip().startswith("94B73556-2197-4702-82A8-3E1337DAFBFB:")][0]
|
|
if self.smb_model.startswith("j137"):
|
|
self.smb_status = True
|
|
else:
|
|
self.smb_status = False
|
|
else:
|
|
self.smb_status = False
|
|
self.fv_status = True
|
|
if self.constants.recovery_status == False:
|
|
self.fv_status: str = subprocess.run("fdesetup status".split(), stdout=subprocess.PIPE, stderr=subprocess.STDOUT).stdout.decode()
|
|
if self.fv_status.startswith("FileVault is Off"):
|
|
self.fv_status = False
|
|
else:
|
|
# Assume FileVault is off for Recovery purposes
|
|
self.fv_status = False
|
|
self.csr_decode(False)
|
|
|
|
def check_files(self):
|
|
if Path(self.constants.payload_apple_root_path).exists():
|
|
print("- Found Apple Binaries")
|
|
if self.constants.gui_mode is False:
|
|
patch_input = input("Would you like to redownload?(y/n): ")
|
|
if patch_input in {"y", "Y", "yes", "Yes"}:
|
|
shutil.rmtree(Path(self.constants.payload_apple_root_path))
|
|
self.download_files()
|
|
else:
|
|
self.download_files()
|
|
else:
|
|
print("- Apple binaries missing")
|
|
self.download_files()
|
|
|
|
def download_files(self):
|
|
Utilities.cls()
|
|
print("- Downloading Apple binaries")
|
|
popen_oclp = subprocess.Popen(
|
|
["curl", "-S", "-L", f"{self.constants.url_apple_binaries}{self.constants.payload_version}.zip", "--output", self.constants.payload_apple_root_path_zip],
|
|
stdin=subprocess.PIPE,
|
|
stdout=subprocess.PIPE,
|
|
stderr=subprocess.STDOUT,
|
|
universal_newlines=True,
|
|
)
|
|
for stdout_line in iter(popen_oclp.stdout.readline, ""):
|
|
print(stdout_line, end="")
|
|
popen_oclp.stdout.close()
|
|
if self.constants.payload_apple_root_path_zip.exists():
|
|
print("- Download completed")
|
|
print("- Unzipping download...")
|
|
try:
|
|
subprocess.run(["unzip", self.constants.payload_apple_root_path_zip], stdout=subprocess.PIPE, stderr=subprocess.STDOUT, cwd=self.constants.payload_path).stdout.decode()
|
|
print("- Renaming folder")
|
|
os.rename(self.constants.payload_apple_root_path_unzip, self.constants.payload_apple_root_path)
|
|
print("- Binaries downloaded to:")
|
|
print(self.constants.payload_path)
|
|
if self.constants.gui_mode is False:
|
|
input("Press [ENTER] to continue")
|
|
except zipfile.BadZipFile:
|
|
print("- Couldn't unzip")
|
|
os.remove(self.constants.payload_apple_root_path_zip)
|
|
else:
|
|
print("- Download failed, please verify the below link works:")
|
|
print(f"{self.constants.url_apple_binaries}{self.constants.payload_version}")
|
|
|
|
def start_patch(self):
|
|
# Check SIP
|
|
# self.check_files()
|
|
if self.constants.custom_model is not None:
|
|
print("Root Patching must be done on target machine!")
|
|
elif self.model in ModelArray.NoRootPatch11 and self.constants.assume_legacy is False:
|
|
print("Root Patching not required for this machine!")
|
|
elif self.model not in ModelArray.SupportedSMBIOS11 and self.constants.assume_legacy is False:
|
|
print("Cannot run on this machine, model is unsupported!")
|
|
elif self.constants.detected_os < self.constants.big_sur:
|
|
print("Cannot run on this OS, requires macOS 11!")
|
|
else:
|
|
self.check_status()
|
|
Utilities.cls()
|
|
if (self.sip_patch_status is False) and (self.smb_status is False):
|
|
print("- Detected SIP and SecureBootModel are disabled, continuing")
|
|
if self.constants.gui_mode is False:
|
|
input("\nPress [ENTER] to continue")
|
|
self.check_files()
|
|
if self.constants.payload_apple_root_path.exists():
|
|
if not self.find_mount_root_vol(True):
|
|
return
|
|
self.unmount_drive()
|
|
print("- Patching complete")
|
|
if self.success_status is True:
|
|
print("\nPlease reboot the machine for patches to take effect")
|
|
else:
|
|
print("\nPlease reboot the machine to avoid potential issues rerunning the patcher")
|
|
if self.sip_patch_status is True:
|
|
print("SIP set incorrectly, cannot patch on this machine!")
|
|
print("Please disable SIP and SecureBootModel in Patcher Settings")
|
|
self.csr_decode(True)
|
|
print("")
|
|
if self.smb_status is True:
|
|
print("SecureBootModel set incorrectly, unable to patch!")
|
|
print("Please disable SecureBootModel in Patcher Settings")
|
|
print("")
|
|
if self.fv_status is True:
|
|
print("FileVault enabled, unable to patch!")
|
|
print("Please disable FileVault in System Preferences")
|
|
print("")
|
|
if self.constants.gui_mode is False:
|
|
input("Press [Enter] to go exit.")
|
|
|
|
def start_unpatch(self):
|
|
if self.constants.custom_model is not None:
|
|
print("Unpatching must be done on target machine!")
|
|
elif self.constants.detected_os < self.constants.big_sur:
|
|
print("Cannot run on this OS, requires macOS 11!")
|
|
else:
|
|
self.check_status()
|
|
Utilities.cls()
|
|
if (self.sip_patch_status is False) and (self.smb_status is False):
|
|
print("- Detected SIP and SecureBootModel are disabled, continuing")
|
|
if self.constants.gui_mode is False:
|
|
input("\nPress [ENTER] to continue")
|
|
if not self.find_mount_root_vol(False):
|
|
return
|
|
self.unmount_drive()
|
|
print("- Unpatching complete")
|
|
print("\nPlease reboot the machine for patches to take effect")
|
|
if self.sip_patch_status is True:
|
|
print("SIP set incorrectly, cannot unpatch on this machine!")
|
|
print("Please disable SIP and SecureBootModel in Patcher Settings")
|
|
self.csr_decode(True)
|
|
print("")
|
|
if self.smb_status is True:
|
|
print("SecureBootModel set incorrectly, unable to unpatch!")
|
|
print("Please disable SecureBootModel in Patcher Settings")
|
|
print("")
|
|
if self.fv_status is True:
|
|
print("FileVault enabled, unable to unpatch!")
|
|
print("Please disable FileVault in System Preferences")
|
|
print("")
|
|
if self.constants.gui_mode is False:
|
|
input("Press [Enter] to go exit.")
|