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from sys import version_info
import gdb
if version_info[0] >= 3:
xrange = range
ZERO_FIELD = "__0"
FIRST_FIELD = "__1"
def unwrap_unique_or_non_null(unique_or_nonnull):
# BACKCOMPAT: rust 1.32
# https://github.com/rust-lang/rust/commit/7a0911528058e87d22ea305695f4047572c5e067
ptr = unique_or_nonnull["pointer"]
return ptr if ptr.type.code == gdb.TYPE_CODE_PTR else ptr[ZERO_FIELD]
class EnumProvider:
def __init__(self, valobj):
content = valobj[valobj.type.fields()[0]]
fields = content.type.fields()
self.empty = len(fields) == 0
if not self.empty:
if len(fields) == 1:
discriminant = 0
else:
discriminant = int(content[fields[0]]) + 1
self.active_variant = content[fields[discriminant]]
self.name = fields[discriminant].name
self.full_name = "{}::{}".format(valobj.type.name, self.name)
else:
self.full_name = valobj.type.name
def to_string(self):
return self.full_name
def children(self):
if not self.empty:
yield self.name, self.active_variant
class StdStringProvider:
def __init__(self, valobj):
self.valobj = valobj
vec = valobj["vec"]
self.length = int(vec["len"])
self.data_ptr = unwrap_unique_or_non_null(vec["buf"]["ptr"])
def to_string(self):
return self.data_ptr.lazy_string(encoding="utf-8", length=self.length)
@staticmethod
def display_hint():
return "string"
class StdOsStringProvider:
def __init__(self, valobj):
self.valobj = valobj
buf = self.valobj["inner"]["inner"]
is_windows = "Wtf8Buf" in buf.type.name
vec = buf[ZERO_FIELD] if is_windows else buf
self.length = int(vec["len"])
self.data_ptr = unwrap_unique_or_non_null(vec["buf"]["ptr"])
def to_string(self):
return self.data_ptr.lazy_string(encoding="utf-8", length=self.length)
def display_hint(self):
return "string"
class StdStrProvider:
def __init__(self, valobj):
self.valobj = valobj
self.length = int(valobj["length"])
self.data_ptr = valobj["data_ptr"]
def to_string(self):
return self.data_ptr.lazy_string(encoding="utf-8", length=self.length)
@staticmethod
def display_hint():
return "string"
class StdVecProvider:
def __init__(self, valobj):
self.valobj = valobj
self.length = int(valobj["len"])
self.data_ptr = unwrap_unique_or_non_null(valobj["buf"]["ptr"])
def to_string(self):
return "Vec(size={})".format(self.length)
def children(self):
saw_inaccessible = False
for index in xrange(self.length):
element_ptr = self.data_ptr + index
if saw_inaccessible:
return
try:
# rust-lang/rust#64343: passing deref expr to `str` allows
# catching exception on garbage pointer
str(element_ptr.dereference())
yield "[{}]".format(index), element_ptr.dereference()
except RuntimeError:
saw_inaccessible = True
yield str(index), "inaccessible"
@staticmethod
def display_hint():
return "array"
class StdVecDequeProvider:
def __init__(self, valobj):
self.valobj = valobj
self.head = int(valobj["head"])
self.tail = int(valobj["tail"])
self.cap = int(valobj["buf"]["cap"])
self.data_ptr = unwrap_unique_or_non_null(valobj["buf"]["ptr"])
if self.head >= self.tail:
self.size = self.head - self.tail
else:
self.size = self.cap + self.head - self.tail
def to_string(self):
return "VecDeque(size={})".format(self.size)
def children(self):
for index in xrange(0, self.size):
value = (self.data_ptr + ((self.tail + index) % self.cap)).dereference()
yield "[{}]".format(index), value
@staticmethod
def display_hint():
return "array"
class StdRcProvider:
def __init__(self, valobj, is_atomic=False):
self.valobj = valobj
self.is_atomic = is_atomic
self.ptr = unwrap_unique_or_non_null(valobj["ptr"])
self.value = self.ptr["data" if is_atomic else "value"]
self.strong = self.ptr["strong"]["v" if is_atomic else "value"]["value"]
self.weak = self.ptr["weak"]["v" if is_atomic else "value"]["value"] - 1
def to_string(self):
if self.is_atomic:
return "Arc(strong={}, weak={})".format(int(self.strong), int(self.weak))
else:
return "Rc(strong={}, weak={})".format(int(self.strong), int(self.weak))
def children(self):
yield "value", self.value
yield "strong", self.strong
yield "weak", self.weak
class StdCellProvider:
def __init__(self, valobj):
self.value = valobj["value"]["value"]
def to_string(self):
return "Cell"
def children(self):
yield "value", self.value
class StdRefProvider:
def __init__(self, valobj):
self.value = valobj["value"].dereference()
self.borrow = valobj["borrow"]["borrow"]["value"]["value"]
def to_string(self):
borrow = int(self.borrow)
if borrow >= 0:
return "Ref(borrow={})".format(borrow)
else:
return "Ref(borrow_mut={})".format(-borrow)
def children(self):
yield "*value", self.value
yield "borrow", self.borrow
class StdRefCellProvider:
def __init__(self, valobj):
self.value = valobj["value"]["value"]
self.borrow = valobj["borrow"]["value"]["value"]
def to_string(self):
borrow = int(self.borrow)
if borrow >= 0:
return "RefCell(borrow={})".format(borrow)
else:
return "RefCell(borrow_mut={})".format(-borrow)
def children(self):
yield "value", self.value
yield "borrow", self.borrow
# Yields children (in a provider's sense of the word) for a BTreeMap.
def children_of_btree_map(map):
# Yields each key/value pair in the node and in any child nodes.
def children_of_node(node_ptr, height):
def cast_to_internal(node):
internal_type_name = node.type.target().name.replace("LeafNode", "InternalNode", 1)
internal_type = gdb.lookup_type(internal_type_name)
return node.cast(internal_type.pointer())
if node_ptr.type.name.startswith("alloc::collections::btree::node::BoxedNode<"):
# BACKCOMPAT: rust 1.49
node_ptr = node_ptr["ptr"]
node_ptr = unwrap_unique_or_non_null(node_ptr)
leaf = node_ptr.dereference()
keys = leaf["keys"]
vals = leaf["vals"]
edges = cast_to_internal(node_ptr)["edges"] if height > 0 else None
length = leaf["len"]
for i in xrange(0, length + 1):
if height > 0:
child_ptr = edges[i]["value"]["value"]
for child in children_of_node(child_ptr, height - 1):
yield child
if i < length:
# Avoid "Cannot perform pointer math on incomplete type" on zero-sized arrays.
key_type_size = keys.type.sizeof
val_type_size = vals.type.sizeof
key = keys[i]["value"]["value"] if key_type_size > 0 else gdb.parse_and_eval("()")
val = vals[i]["value"]["value"] if val_type_size > 0 else gdb.parse_and_eval("()")
yield key, val
if map["length"] > 0:
root = map["root"]
if root.type.name.startswith("core::option::Option<"):
root = root.cast(gdb.lookup_type(root.type.name[21:-1]))
node_ptr = root["node"]
height = root["height"]
for child in children_of_node(node_ptr, height):
yield child
class StdBTreeSetProvider:
def __init__(self, valobj):
self.valobj = valobj
def to_string(self):
return "BTreeSet(size={})".format(self.valobj["map"]["length"])
def children(self):
inner_map = self.valobj["map"]
for i, (child, _) in enumerate(children_of_btree_map(inner_map)):
yield "[{}]".format(i), child
@staticmethod
def display_hint():
return "array"
class StdBTreeMapProvider:
def __init__(self, valobj):
self.valobj = valobj
def to_string(self):
return "BTreeMap(size={})".format(self.valobj["length"])
def children(self):
for i, (key, val) in enumerate(children_of_btree_map(self.valobj)):
yield "key{}".format(i), key
yield "val{}".format(i), val
@staticmethod
def display_hint():
return "map"
# BACKCOMPAT: rust 1.35
class StdOldHashMapProvider:
def __init__(self, valobj, show_values=True):
self.valobj = valobj
self.show_values = show_values
self.table = self.valobj["table"]
self.size = int(self.table["size"])
self.hashes = self.table["hashes"]
self.hash_uint_type = self.hashes.type
self.hash_uint_size = self.hashes.type.sizeof
self.modulo = 2 ** self.hash_uint_size
self.data_ptr = self.hashes[ZERO_FIELD]["pointer"]
self.capacity_mask = int(self.table["capacity_mask"])
self.capacity = (self.capacity_mask + 1) % self.modulo
marker = self.table["marker"].type
self.pair_type = marker.template_argument(0)
self.pair_type_size = self.pair_type.sizeof
self.valid_indices = []
for idx in range(self.capacity):
data_ptr = self.data_ptr.cast(self.hash_uint_type.pointer())
address = data_ptr + idx
hash_uint = address.dereference()
hash_ptr = hash_uint[ZERO_FIELD]["pointer"]
if int(hash_ptr) != 0:
self.valid_indices.append(idx)
def to_string(self):
if self.show_values:
return "HashMap(size={})".format(self.size)
else:
return "HashSet(size={})".format(self.size)
def children(self):
start = int(self.data_ptr) & ~1
hashes = self.hash_uint_size * self.capacity
align = self.pair_type_size
len_rounded_up = (((((hashes + align) % self.modulo - 1) % self.modulo) & ~(
(align - 1) % self.modulo)) % self.modulo - hashes) % self.modulo
pairs_offset = hashes + len_rounded_up
pairs_start = gdb.Value(start + pairs_offset).cast(self.pair_type.pointer())
for index in range(self.size):
table_index = self.valid_indices[index]
idx = table_index & self.capacity_mask
element = (pairs_start + idx).dereference()
if self.show_values:
yield "key{}".format(index), element[ZERO_FIELD]
yield "val{}".format(index), element[FIRST_FIELD]
else:
yield "[{}]".format(index), element[ZERO_FIELD]
def display_hint(self):
return "map" if self.show_values else "array"
class StdHashMapProvider:
def __init__(self, valobj, show_values=True):
self.valobj = valobj
self.show_values = show_values
table = self.table()
capacity = int(table["bucket_mask"]) + 1
ctrl = table["ctrl"]["pointer"]
self.size = int(table["items"])
self.pair_type = table.type.template_argument(0).strip_typedefs()
self.new_layout = not table.type.has_key("data")
if self.new_layout:
self.data_ptr = ctrl.cast(self.pair_type.pointer())
else:
self.data_ptr = table["data"]["pointer"]
self.valid_indices = []
for idx in range(capacity):
address = ctrl + idx
value = address.dereference()
is_presented = value & 128 == 0
if is_presented:
self.valid_indices.append(idx)
def table(self):
if self.show_values:
hashbrown_hashmap = self.valobj["base"]
elif self.valobj.type.fields()[0].name == "map":
# BACKCOMPAT: rust 1.47
# HashSet wraps std::collections::HashMap, which wraps hashbrown::HashMap
hashbrown_hashmap = self.valobj["map"]["base"]
else:
# HashSet wraps hashbrown::HashSet, which wraps hashbrown::HashMap
hashbrown_hashmap = self.valobj["base"]["map"]
return hashbrown_hashmap["table"]
def to_string(self):
if self.show_values:
return "HashMap(size={})".format(self.size)
else:
return "HashSet(size={})".format(self.size)
def children(self):
pairs_start = self.data_ptr
for index in range(self.size):
idx = self.valid_indices[index]
if self.new_layout:
idx = -(idx + 1)
element = (pairs_start + idx).dereference()
if self.show_values:
yield "key{}".format(index), element[ZERO_FIELD]
yield "val{}".format(index), element[FIRST_FIELD]
else:
yield "[{}]".format(index), element[ZERO_FIELD]
def display_hint(self):
return "map" if self.show_values else "array"
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