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https://github.com/varun-r-mallya/Python-BPF.git
synced 2025-12-31 21:06:25 +00:00
one recursion issue solved
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@ -15,7 +15,20 @@ def get_module_symbols(module_name: str):
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# Recursive function that gets all the dependent classes and adds them to handler
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def process_vmlinux_class(node, llvm_module, handler: DependencyHandler):
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def process_vmlinux_class(node, llvm_module, handler: DependencyHandler, processing_stack=None):
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"""
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Recursively process vmlinux classes and their dependencies.
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Args:
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node: The class/type to process
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llvm_module: The LLVM module context
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handler: DependencyHandler to track all nodes
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processing_stack: Set of currently processing nodes to detect cycles
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"""
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# Initialize processing stack on first call
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if processing_stack is None:
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processing_stack = set()
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symbols_in_module, imported_module = get_module_symbols("vmlinux")
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# Handle both node objects and type objects
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@ -28,80 +41,120 @@ def process_vmlinux_class(node, llvm_module, handler: DependencyHandler):
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if current_symbol_name not in symbols_in_module:
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raise ImportError(f"{current_symbol_name} not present in module vmlinux")
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# Check if we're already processing this node (circular dependency)
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if current_symbol_name in processing_stack:
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logger.debug(f"Circular dependency detected for {current_symbol_name}, skipping")
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return True
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# Check if already processed
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if handler.has_node(current_symbol_name):
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existing_node = handler.get_node(current_symbol_name)
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# If the node exists and is ready, we're done
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if existing_node and existing_node.is_ready:
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logger.info(f"Node {current_symbol_name} already processed and ready")
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return True
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logger.info(f"Resolving vmlinux class {current_symbol_name}")
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logger.debug(
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f"Current handler state: {handler.is_ready} readiness and {handler.get_all_nodes()} all nodes"
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)
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field_table = {} # should contain the field and it's type.
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# Get the class object from the module
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class_obj = getattr(imported_module, current_symbol_name)
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# Add to processing stack to detect cycles
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processing_stack.add(current_symbol_name)
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# Below, I've written a general structure that gets class-info
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# everytime, no matter the format in which it is present
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try:
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field_table = {} # should contain the field and it's type.
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# Inspect the class fields
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# Assuming class_obj has fields stored in some standard way
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# If it's a ctypes-like structure with _fields_
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if hasattr(class_obj, "_fields_"):
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for field_name, field_type in class_obj._fields_:
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field_table[field_name] = field_type
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# Get the class object from the module
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class_obj = getattr(imported_module, current_symbol_name)
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# If it's using __annotations__
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elif hasattr(class_obj, "__annotations__"):
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for field_name, field_type in class_obj.__annotations__.items():
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field_table[field_name] = field_type
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# Inspect the class fields
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if hasattr(class_obj, "_fields_"):
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for field_name, field_type in class_obj._fields_:
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field_table[field_name] = field_type
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elif hasattr(class_obj, "__annotations__"):
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for field_name, field_type in class_obj.__annotations__.items():
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field_table[field_name] = field_type
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else:
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raise TypeError("Could not get required class and definition")
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else:
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raise TypeError("Could not get required class and definition")
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logger.debug(f"Extracted fields for {current_symbol_name}: {field_table}")
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logger.debug(f"Extracted fields for {current_symbol_name}: {field_table}")
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if handler.has_node(current_symbol_name):
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logger.info("Extraction pruned due to already available field")
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return True
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else:
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new_dep_node = DependencyNode(name=current_symbol_name)
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handler.add_node(new_dep_node)
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# Create or get the node
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if handler.has_node(current_symbol_name):
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new_dep_node = handler.get_node(current_symbol_name)
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else:
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new_dep_node = DependencyNode(name=current_symbol_name)
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handler.add_node(new_dep_node)
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# Process each field
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for elem_name, elem_type in field_table.items():
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module_name = getattr(elem_type, "__module__", None)
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if module_name == ctypes.__name__:
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# Simple ctypes - mark as ready immediately
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new_dep_node.add_field(elem_name, elem_type, ready=True)
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elif module_name == "vmlinux":
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# Complex vmlinux type - needs recursive processing
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new_dep_node.add_field(elem_name, elem_type, ready=False)
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print("elem_name:", elem_name, "elem_type:", elem_type)
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# currently fails when a non-normal type appears which is basically everytime
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logger.debug(f"Processing vmlinux field: {elem_name}, type: {elem_type}")
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identify_ctypes_type(elem_name, elem_type, new_dep_node)
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# Determine the actual symbol to process
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symbol_name = (
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elem_type.__name__
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if hasattr(elem_type, "__name__")
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else str(elem_type)
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)
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vmlinux_symbol = None
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# Handle pointers/arrays to other types
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if hasattr(elem_type, "_type_"):
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containing_module_name = getattr(
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(elem_type._type_), "__module__", None
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)
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if containing_module_name == ctypes.__name__:
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# Pointer/Array to ctypes - mark as ready
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new_dep_node.set_field_ready(elem_name, True)
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continue
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elif containing_module_name == "vmlinux":
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# Pointer/Array to vmlinux type
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symbol_name = (
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(elem_type._type_).__name__
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if hasattr((elem_type._type_), "__name__")
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else str(elem_type._type_)
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)
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# Self-referential check
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if symbol_name == current_symbol_name:
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logger.debug(f"Self-referential field {elem_name} in {current_symbol_name}")
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# For pointers to self, we can mark as ready since the type is being defined
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new_dep_node.set_field_ready(elem_name, True)
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continue
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vmlinux_symbol = getattr(imported_module, symbol_name)
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else:
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# Direct vmlinux type (not pointer/array)
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vmlinux_symbol = getattr(imported_module, symbol_name)
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if process_vmlinux_class(vmlinux_symbol, llvm_module, handler):
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new_dep_node.set_field_ready(elem_name, True)
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# Recursively process the dependency
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if vmlinux_symbol is not None:
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if process_vmlinux_class(vmlinux_symbol, llvm_module, handler, processing_stack):
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new_dep_node.set_field_ready(elem_name, True)
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else:
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raise ValueError(
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f"{elem_name} with type {elem_type} not supported in recursive resolver"
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)
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logger.info(f"added node: {current_symbol_name}")
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return True
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logger.info(f"Successfully processed node: {current_symbol_name}")
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return True
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finally:
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# Remove from processing stack when done
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processing_stack.discard(current_symbol_name)
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def identify_ctypes_type(elem_name, elem_type, new_dep_node: DependencyNode):
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@ -1,9 +1,9 @@
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from pythonbpf import bpf, map, section, bpfglobal, compile, compile_to_ir
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from pythonbpf.maps import HashMap
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from pythonbpf.helper import XDP_PASS
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from vmlinux import struct_xdp_md
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# from vmlinux import struct_ring_buffer_per_cpu # noqa: F401
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from vmlinux import struct_ring_buffer_per_cpu # noqa: F401
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from vmlinux import struct_xdp_buff # noqa: F401
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from vmlinux import struct_xdp_md
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from ctypes import c_int64
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# Instructions to how to run this program
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