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265dd9b445
This is most often just an invalid vector anyway.
417 lines
12 KiB
Python
417 lines
12 KiB
Python
# Copyright (c) 2021, Gunnar Beutner <gunnar@beutner.name>
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#
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# SPDX-License-Identifier: BSD-2-Clause
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import gdb
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import gdb.types
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import re
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def handler_class_for_type(type, re=re.compile('^([^<]+)(<.*>)?$')):
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typename = str(type.tag)
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match = re.match(typename)
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if not match:
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return UnhandledType
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klass = match.group(1)
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if klass == 'AK::Array':
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return AKArray
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elif klass == 'AK::Atomic':
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return AKAtomic
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elif klass == 'AK::DistinctNumeric':
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return AKDistinctNumeric
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elif klass == 'AK::HashMap':
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return AKHashMapPrettyPrinter
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elif klass == 'AK::RefCounted':
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return AKRefCounted
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elif klass == 'AK::RefPtr':
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return AKRefPtr
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elif klass == 'AK::OwnPtr':
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return AKOwnPtr
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elif klass == 'AK::NonnullRefPtr':
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return AKRefPtr
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elif klass == 'AK::SinglyLinkedList':
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return AKSinglyLinkedList
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elif klass == 'AK::String':
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return AKString
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elif klass == 'AK::StringView':
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return AKStringView
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elif klass == 'AK::StringImpl':
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return AKStringImpl
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elif klass == 'AK::Variant':
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return AKVariant
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elif klass == 'AK::Vector':
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return AKVector
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elif klass == 'VirtualAddress':
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return VirtualAddress
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else:
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return UnhandledType
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class UnhandledType:
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@classmethod
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def prettyprint_type(cls, type):
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return type.name
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class AKAtomic:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return self.val["m_value"]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::Atomic<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKDistinctNumeric:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return self.val["m_value"]
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@classmethod
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def prettyprint_type(cls, type):
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actual_name = type.template_argument(1)
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parts = actual_name.name.split("::")
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unqualified_name = re.sub(r'__(\w+)_tag', r'\1', actual_name.name)
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if unqualified_name != actual_name.name:
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qualified_name = '::'.join(parts[:-2] + [unqualified_name])
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return qualified_name
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# If the tag is malformed, just print DistinctNumeric<T>
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contained_type = type.template_argument(0)
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return f'AK::DistinctNumeric<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKRefCounted:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return self.val["m_ref_count"]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::RefCounted<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKString:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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if int(self.val["m_impl"]["m_ptr"]) == 0:
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return '""'
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else:
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impl = AKRefPtr(self.val["m_impl"]).get_pointee().dereference()
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return AKStringImpl(impl).to_string()
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::String'
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class AKStringView:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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if int(self.val["m_length"]) == 0:
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return '""'
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else:
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characters = self.val["m_characters"]
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str_type = characters.type.target().array(self.val["m_length"]).pointer()
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return str(characters.cast(str_type).dereference())
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::StringView'
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def get_field_unalloced(val, member, type):
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# Trying to access a variable-length field seems to fail with
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# Python Exception <class 'gdb.error'> value requires 4294967296 bytes, which is more than max-value-size
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# This works around that issue.
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return gdb.parse_and_eval(f"*({type}*)(({val.type.name}*){int(val.address)})->{member}")
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class AKStringImpl:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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if int(self.val["m_length"]) == 0:
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return '""'
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else:
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str_type = gdb.lookup_type("char").array(self.val["m_length"])
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return get_field_unalloced(self.val, "m_inline_buffer", str_type)
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@classmethod
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def prettyprint_type(cls, type):
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return 'AK::StringImpl'
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class AKOwnPtr:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return AKOwnPtr.prettyprint_type(self.val.type)
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def children(self):
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return [('*', self.val["m_ptr"])]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::OwnPtr<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKRefPtr:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return AKRefPtr.prettyprint_type(self.val.type)
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def get_pointee(self):
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inner_type = self.val.type.template_argument(0)
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inner_type_ptr = inner_type.pointer()
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return self.val["m_ptr"].cast(inner_type_ptr)
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def children(self):
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return [('*', self.get_pointee())]
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@classmethod
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def prettyprint_type(cls, type):
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contained_type = type.template_argument(0)
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return f'AK::RefPtr<{handler_class_for_type(contained_type).prettyprint_type(contained_type)}>'
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class AKVariant:
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def __init__(self, val):
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self.val = val
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self.index = int(self.val["m_index"])
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self.contained_types = self.resolve_types(self.val.type)
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def to_string(self):
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return AKVariant.prettyprint_type(self.val.type)
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def children(self):
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data = self.val["m_data"]
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ty = self.contained_types[self.index]
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return [(ty.name, data.cast(ty.pointer()).referenced_value())]
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@classmethod
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def resolve_types(cls, ty):
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contained_types = []
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type_resolved = ty.strip_typedefs()
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index = 0
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while True:
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try:
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arg = type_resolved.template_argument(index)
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index += 1
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contained_types.append(arg)
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except RuntimeError:
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break
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return contained_types
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@classmethod
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def prettyprint_type(cls, ty):
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names = ", ".join(handler_class_for_type(t).prettyprint_type(t) for t in AKVariant.resolve_types(ty))
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return f'AK::Variant<{names}>'
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class AKVector:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return f'{AKVector.prettyprint_type(self.val.type)} of len {int(self.val["m_size"])}'
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def children(self):
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vec_len = int(self.val["m_size"])
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if vec_len == 0:
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return []
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outline_buf = self.val["m_outline_buffer"]
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inner_type_ptr = self.val.type.template_argument(0).pointer()
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if int(outline_buf) != 0:
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elements = outline_buf.cast(inner_type_ptr)
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else:
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elements = get_field_unalloced(self.val, "m_inline_buffer_storage", inner_type_ptr)
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# Very arbitrary limit, just to catch UAF'd and garbage vector values with a silly number of elements
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if vec_len > 373373:
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return []
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return [(f"[{i}]", elements[i]) for i in range(vec_len)]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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return f'AK::Vector<{handler_class_for_type(template_type).prettyprint_type(template_type)}>'
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class AKArray:
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def __init__(self, val):
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self.val = val
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self.storage_type = self.val.type.template_argument(0)
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self.array_size = self.val.type.template_argument(1)
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def to_string(self):
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return AKArray.prettyprint_type(self.val.type)
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def children(self):
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data_array = self.val["__data"]
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storage_type_ptr = self.storage_type.pointer()
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elements = data_array.cast(storage_type_ptr)
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return [(f"[{i}]", elements[i]) for i in range(self.array_size)]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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template_size = type.template_argument(1)
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return f'AK::Array<{template_type}, {template_size}>'
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class AKHashMapPrettyPrinter:
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def __init__(self, val):
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self.val = val
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@staticmethod
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def _iter_hashtable(val, cb):
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entry_type_ptr = val.type.template_argument(0).pointer()
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buckets = val["m_buckets"]
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for i in range(0, val["m_capacity"]):
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bucket = buckets[i]
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# if state == Used
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if bucket["state"] & 0xf0 == 0x10:
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cb(bucket["storage"].cast(entry_type_ptr))
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@staticmethod
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def _iter_hashmap(val, cb):
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table = val["m_table"]
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AKHashMapPrettyPrinter._iter_hashtable(table, lambda entry: cb(entry["key"], entry["value"]))
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def to_string(self):
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return AKHashMapPrettyPrinter.prettyprint_type(self.val.type)
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def children(self):
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elements = []
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def cb(key, value):
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nonlocal elements
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elements.append((f"[{key}]", value))
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AKHashMapPrettyPrinter._iter_hashmap(self.val, cb)
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return elements
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@classmethod
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def prettyprint_type(cls, type):
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template_types = list(type.template_argument(i) for i in (0, 1))
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key, value = list(handler_class_for_type(t).prettyprint_type(t) for t in template_types)
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return f'AK::HashMap<{key}, {value}>'
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class AKSinglyLinkedList:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return AKSinglyLinkedList.prettyprint_type(self.val.type)
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def children(self):
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elements = []
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node = self.val["m_head"]
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while node != 0:
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elements.append(node["value"])
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node = node["next"]
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return [(f"[{i}]", elements[i]) for i in range(len(elements))]
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@classmethod
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def prettyprint_type(cls, type):
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template_type = type.template_argument(0)
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return f'AK::SinglyLinkedList<{handler_class_for_type(template_type).prettyprint_type(template_type)}>'
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class VirtualAddress:
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def __init__(self, val):
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self.val = val
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def to_string(self):
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return self.val["m_address"]
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@classmethod
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def prettyprint_type(cls, type):
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return 'VirtualAddress'
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class SerenityPrettyPrinterLocator(gdb.printing.PrettyPrinter):
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def __init__(self):
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super(SerenityPrettyPrinterLocator, self).__init__("serenity_pretty_printers", [])
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def __call__(self, val):
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type = gdb.types.get_basic_type(val.type)
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handler = handler_class_for_type(type)
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if handler is UnhandledType:
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return None
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return handler(val)
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gdb.printing.register_pretty_printer(None, SerenityPrettyPrinterLocator(), replace=True)
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class FindThreadCmd(gdb.Command):
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"""
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Find SerenityOS thread for the specified TID.
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find_thread TID
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"""
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def __init__(self):
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super(FindThreadCmd, self).__init__(
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"find_thread", gdb.COMMAND_USER
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)
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def _find_thread(self, tid):
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threads = gdb.parse_and_eval("Kernel::Thread::g_tid_map")
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thread = None
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def cb(key, value):
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nonlocal thread
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if int(key["m_value"]) == tid:
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thread = value
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AKHashMapPrettyPrinter._iter_hashmap(threads, cb)
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return thread
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def complete(self, text, word):
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return gdb.COMPLETE_SYMBOL
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def invoke(self, args, from_tty):
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argv = gdb.string_to_argv(args)
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if len(argv) == 0:
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gdb.write("Argument required (TID).\n")
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return
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tid = int(argv[0])
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thread = self._find_thread(tid)
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if not thread:
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gdb.write(f"No thread with TID {tid} found.\n")
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else:
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gdb.write(f"{thread}\n")
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FindThreadCmd()
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