forked from mirrors/linux
eb985b5dbf
1. Move page table debugging from mm.py to pgtable.py. 2. Add aarch64 kernel config and memory constants value. 3. Add below aarch64 page operation helper commands. page_to_pfn, page_to_phys, pfn_to_page, page_address, virt_to_phys, sym_to_pfn, pfn_to_kaddr, virt_to_page. 4. Only support CONFIG_SPARSEMEM_VMEMMAP=y now. Link: https://lkml.kernel.org/r/20230808083020.22254-5-Kuan-Ying.Lee@mediatek.com Signed-off-by: Kuan-Ying Lee <Kuan-Ying.Lee@mediatek.com> Cc: AngeloGioacchino Del Regno <angelogioacchino.delregno@collabora.com> Cc: Chinwen Chang <chinwen.chang@mediatek.com> Cc: Matthias Brugger <matthias.bgg@gmail.com> Cc: Qun-Wei Lin <qun-wei.lin@mediatek.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
222 lines
10 KiB
Python
222 lines
10 KiB
Python
# SPDX-License-Identifier: GPL-2.0-only
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#
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# gdb helper commands and functions for Linux kernel debugging
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#
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# routines to introspect page table
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#
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# Authors:
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# Dmitrii Bundin <dmitrii.bundin.a@gmail.com>
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#
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import gdb
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from linux import utils
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PHYSICAL_ADDRESS_MASK = gdb.parse_and_eval('0xfffffffffffff')
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def page_mask(level=1):
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# 4KB
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if level == 1:
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return gdb.parse_and_eval('(u64) ~0xfff')
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# 2MB
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elif level == 2:
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return gdb.parse_and_eval('(u64) ~0x1fffff')
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# 1GB
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elif level == 3:
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return gdb.parse_and_eval('(u64) ~0x3fffffff')
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else:
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raise Exception(f'Unknown page level: {level}')
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#page_offset_base in case CONFIG_DYNAMIC_MEMORY_LAYOUT is disabled
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POB_NO_DYNAMIC_MEM_LAYOUT = '0xffff888000000000'
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def _page_offset_base():
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pob_symbol = gdb.lookup_global_symbol('page_offset_base')
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pob = pob_symbol.name if pob_symbol else POB_NO_DYNAMIC_MEM_LAYOUT
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return gdb.parse_and_eval(pob)
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def is_bit_defined_tupled(data, offset):
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return offset, bool(data >> offset & 1)
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def content_tupled(data, bit_start, bit_end):
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return (bit_start, bit_end), data >> bit_start & ((1 << (1 + bit_end - bit_start)) - 1)
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def entry_va(level, phys_addr, translating_va):
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def start_bit(level):
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if level == 5:
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return 48
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elif level == 4:
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return 39
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elif level == 3:
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return 30
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elif level == 2:
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return 21
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elif level == 1:
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return 12
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else:
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raise Exception(f'Unknown level {level}')
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entry_offset = ((translating_va >> start_bit(level)) & 511) * 8
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entry_va = _page_offset_base() + phys_addr + entry_offset
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return entry_va
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class Cr3():
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def __init__(self, cr3, page_levels):
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self.cr3 = cr3
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self.page_levels = page_levels
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self.page_level_write_through = is_bit_defined_tupled(cr3, 3)
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self.page_level_cache_disabled = is_bit_defined_tupled(cr3, 4)
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self.next_entry_physical_address = cr3 & PHYSICAL_ADDRESS_MASK & page_mask()
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def next_entry(self, va):
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next_level = self.page_levels
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return PageHierarchyEntry(entry_va(next_level, self.next_entry_physical_address, va), next_level)
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def mk_string(self):
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return f"""\
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cr3:
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{'cr3 binary data': <30} {hex(self.cr3)}
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{'next entry physical address': <30} {hex(self.next_entry_physical_address)}
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---
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{'bit' : <4} {self.page_level_write_through[0]: <10} {'page level write through': <30} {self.page_level_write_through[1]}
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{'bit' : <4} {self.page_level_cache_disabled[0]: <10} {'page level cache disabled': <30} {self.page_level_cache_disabled[1]}
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"""
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class PageHierarchyEntry():
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def __init__(self, address, level):
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data = int.from_bytes(
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memoryview(gdb.selected_inferior().read_memory(address, 8)),
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"little"
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)
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if level == 1:
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self.is_page = True
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self.entry_present = is_bit_defined_tupled(data, 0)
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self.read_write = is_bit_defined_tupled(data, 1)
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self.user_access_allowed = is_bit_defined_tupled(data, 2)
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self.page_level_write_through = is_bit_defined_tupled(data, 3)
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self.page_level_cache_disabled = is_bit_defined_tupled(data, 4)
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self.entry_was_accessed = is_bit_defined_tupled(data, 5)
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self.dirty = is_bit_defined_tupled(data, 6)
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self.pat = is_bit_defined_tupled(data, 7)
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self.global_translation = is_bit_defined_tupled(data, 8)
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self.page_physical_address = data & PHYSICAL_ADDRESS_MASK & page_mask(level)
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self.next_entry_physical_address = None
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self.hlat_restart_with_ordinary = is_bit_defined_tupled(data, 11)
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self.protection_key = content_tupled(data, 59, 62)
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self.executed_disable = is_bit_defined_tupled(data, 63)
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else:
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page_size = is_bit_defined_tupled(data, 7)
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page_size_bit = page_size[1]
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self.is_page = page_size_bit
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self.entry_present = is_bit_defined_tupled(data, 0)
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self.read_write = is_bit_defined_tupled(data, 1)
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self.user_access_allowed = is_bit_defined_tupled(data, 2)
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self.page_level_write_through = is_bit_defined_tupled(data, 3)
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self.page_level_cache_disabled = is_bit_defined_tupled(data, 4)
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self.entry_was_accessed = is_bit_defined_tupled(data, 5)
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self.page_size = page_size
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self.dirty = is_bit_defined_tupled(
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data, 6) if page_size_bit else None
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self.global_translation = is_bit_defined_tupled(
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data, 8) if page_size_bit else None
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self.pat = is_bit_defined_tupled(
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data, 12) if page_size_bit else None
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self.page_physical_address = data & PHYSICAL_ADDRESS_MASK & page_mask(level) if page_size_bit else None
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self.next_entry_physical_address = None if page_size_bit else data & PHYSICAL_ADDRESS_MASK & page_mask()
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self.hlat_restart_with_ordinary = is_bit_defined_tupled(data, 11)
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self.protection_key = content_tupled(data, 59, 62) if page_size_bit else None
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self.executed_disable = is_bit_defined_tupled(data, 63)
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self.address = address
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self.page_entry_binary_data = data
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self.page_hierarchy_level = level
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def next_entry(self, va):
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if self.is_page or not self.entry_present[1]:
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return None
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next_level = self.page_hierarchy_level - 1
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return PageHierarchyEntry(entry_va(next_level, self.next_entry_physical_address, va), next_level)
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def mk_string(self):
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if not self.entry_present[1]:
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return f"""\
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level {self.page_hierarchy_level}:
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{'entry address': <30} {hex(self.address)}
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{'page entry binary data': <30} {hex(self.page_entry_binary_data)}
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---
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PAGE ENTRY IS NOT PRESENT!
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"""
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elif self.is_page:
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def page_size_line(ps_bit, ps, level):
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return "" if level == 1 else f"{'bit': <3} {ps_bit: <5} {'page size': <30} {ps}"
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return f"""\
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level {self.page_hierarchy_level}:
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{'entry address': <30} {hex(self.address)}
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{'page entry binary data': <30} {hex(self.page_entry_binary_data)}
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{'page size': <30} {'1GB' if self.page_hierarchy_level == 3 else '2MB' if self.page_hierarchy_level == 2 else '4KB' if self.page_hierarchy_level == 1 else 'Unknown page size for level:' + self.page_hierarchy_level}
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{'page physical address': <30} {hex(self.page_physical_address)}
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---
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{'bit': <4} {self.entry_present[0]: <10} {'entry present': <30} {self.entry_present[1]}
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{'bit': <4} {self.read_write[0]: <10} {'read/write access allowed': <30} {self.read_write[1]}
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{'bit': <4} {self.user_access_allowed[0]: <10} {'user access allowed': <30} {self.user_access_allowed[1]}
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{'bit': <4} {self.page_level_write_through[0]: <10} {'page level write through': <30} {self.page_level_write_through[1]}
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{'bit': <4} {self.page_level_cache_disabled[0]: <10} {'page level cache disabled': <30} {self.page_level_cache_disabled[1]}
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{'bit': <4} {self.entry_was_accessed[0]: <10} {'entry has been accessed': <30} {self.entry_was_accessed[1]}
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{"" if self.page_hierarchy_level == 1 else f"{'bit': <4} {self.page_size[0]: <10} {'page size': <30} {self.page_size[1]}"}
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{'bit': <4} {self.dirty[0]: <10} {'page dirty': <30} {self.dirty[1]}
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{'bit': <4} {self.global_translation[0]: <10} {'global translation': <30} {self.global_translation[1]}
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{'bit': <4} {self.hlat_restart_with_ordinary[0]: <10} {'restart to ordinary': <30} {self.hlat_restart_with_ordinary[1]}
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{'bit': <4} {self.pat[0]: <10} {'pat': <30} {self.pat[1]}
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{'bits': <4} {str(self.protection_key[0]): <10} {'protection key': <30} {self.protection_key[1]}
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{'bit': <4} {self.executed_disable[0]: <10} {'execute disable': <30} {self.executed_disable[1]}
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"""
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else:
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return f"""\
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level {self.page_hierarchy_level}:
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{'entry address': <30} {hex(self.address)}
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{'page entry binary data': <30} {hex(self.page_entry_binary_data)}
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{'next entry physical address': <30} {hex(self.next_entry_physical_address)}
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---
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{'bit': <4} {self.entry_present[0]: <10} {'entry present': <30} {self.entry_present[1]}
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{'bit': <4} {self.read_write[0]: <10} {'read/write access allowed': <30} {self.read_write[1]}
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{'bit': <4} {self.user_access_allowed[0]: <10} {'user access allowed': <30} {self.user_access_allowed[1]}
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{'bit': <4} {self.page_level_write_through[0]: <10} {'page level write through': <30} {self.page_level_write_through[1]}
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{'bit': <4} {self.page_level_cache_disabled[0]: <10} {'page level cache disabled': <30} {self.page_level_cache_disabled[1]}
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{'bit': <4} {self.entry_was_accessed[0]: <10} {'entry has been accessed': <30} {self.entry_was_accessed[1]}
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{'bit': <4} {self.page_size[0]: <10} {'page size': <30} {self.page_size[1]}
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{'bit': <4} {self.hlat_restart_with_ordinary[0]: <10} {'restart to ordinary': <30} {self.hlat_restart_with_ordinary[1]}
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{'bit': <4} {self.executed_disable[0]: <10} {'execute disable': <30} {self.executed_disable[1]}
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"""
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class TranslateVM(gdb.Command):
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"""Prints the entire paging structure used to translate a given virtual address.
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Having an address space of the currently executed process translates the virtual address
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and prints detailed information of all paging structure levels used for the transaltion.
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Currently supported arch: x86"""
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def __init__(self):
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super(TranslateVM, self).__init__('translate-vm', gdb.COMMAND_USER)
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def invoke(self, arg, from_tty):
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if utils.is_target_arch("x86"):
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vm_address = gdb.parse_and_eval(f'{arg}')
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cr3_data = gdb.parse_and_eval('$cr3')
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cr4 = gdb.parse_and_eval('$cr4')
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page_levels = 5 if cr4 & (1 << 12) else 4
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page_entry = Cr3(cr3_data, page_levels)
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while page_entry:
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gdb.write(page_entry.mk_string())
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page_entry = page_entry.next_entry(vm_address)
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else:
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gdb.GdbError("Virtual address translation is not"
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"supported for this arch")
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TranslateVM()
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