Add compile to tests/failing_tests/conditionals/helper_cond.py

Refactor handle_return

.pre-commit-config.yaml

@@ -21,7 +21,7 @@ ci:
 repos:
 # Standard hooks
 - repo: https://github.com/pre-commit/pre-commit-hooks
-  rev: v4.6.0
+  rev: v6.0.0
   hooks:
   - id: check-added-large-files
   - id: check-case-conflict
@@ -36,7 +36,7 @@ repos:
   - id: trailing-whitespace
 
 - repo: https://github.com/astral-sh/ruff-pre-commit
-  rev: "v0.4.2"
+  rev: "v0.13.2"
   hooks:
     - id: ruff
       args: ["--fix", "--show-fixes"]
@@ -45,7 +45,7 @@ repos:
 
 # Checking static types
 - repo: https://github.com/pre-commit/mirrors-mypy
-  rev: "v1.10.0"
+  rev: "v1.18.2"
   hooks:
     - id: mypy
       exclude: ^(tests)|^(examples)

TODO.md

@@ -1,7 +1,6 @@
 ## Short term
 
 - Implement enough functionality to port the BCC tutorial examples in PythonBPF
-- Static Typing
 - Add all maps
 - XDP support in pylibbpf
 - ringbuf support

examples/clone-matplotlib.ipynb

@@ -12,7 +12,7 @@
     "from pythonbpf import bpf, map, section, bpfglobal, BPF\n",
     "from pythonbpf.helper import pid\n",
     "from pythonbpf.maps import HashMap\n",
-    "from pylibbpf import *\n",
+    "from pylibbpf import BpfMap\n",
     "from ctypes import c_void_p, c_int64, c_uint64, c_int32\n",
     "import matplotlib.pyplot as plt"
    ]

pythonbpf/binary_ops.py

@@ -9,6 +9,7 @@ logger: Logger = logging.getLogger(__name__)
 def recursive_dereferencer(var, builder):
     """dereference until primitive type comes out"""
     # TODO: Not worrying about stack overflow for now
+    logger.info(f"Dereferencing {var}, type is {var.type}")
     if isinstance(var.type, ir.PointerType):
         a = builder.load(var)
         return recursive_dereferencer(a, builder)
@@ -18,7 +19,7 @@ def recursive_dereferencer(var, builder):
         raise TypeError(f"Unsupported type for dereferencing: {var.type}")
 
 
-def get_operand_value(operand, module, builder, local_sym_tab):
+def get_operand_value(operand, builder, local_sym_tab):
     """Extract the value from an operand, handling variables and constants."""
     if isinstance(operand, ast.Name):
         if operand.id in local_sym_tab:
@@ -29,14 +30,14 @@ def get_operand_value(operand, module, builder, local_sym_tab):
             return ir.Constant(ir.IntType(64), operand.value)
         raise TypeError(f"Unsupported constant type: {type(operand.value)}")
     elif isinstance(operand, ast.BinOp):
-        return handle_binary_op_impl(operand, module, builder, local_sym_tab)
+        return handle_binary_op_impl(operand, builder, local_sym_tab)
     raise TypeError(f"Unsupported operand type: {type(operand)}")
 
 
-def handle_binary_op_impl(rval, module, builder, local_sym_tab):
+def handle_binary_op_impl(rval, builder, local_sym_tab):
     op = rval.op
-    left = get_operand_value(rval.left, module, builder, local_sym_tab)
-    right = get_operand_value(rval.right, module, builder, local_sym_tab)
+    left = get_operand_value(rval.left, builder, local_sym_tab)
+    right = get_operand_value(rval.right, builder, local_sym_tab)
     logger.info(f"left is {left}, right is {right}, op is {op}")
 
     # Map AST operation nodes to LLVM IR builder methods
@@ -61,6 +62,11 @@ def handle_binary_op_impl(rval, module, builder, local_sym_tab):
         raise SyntaxError("Unsupported binary operation")
 
 
-def handle_binary_op(rval, module, builder, var_name, local_sym_tab):
-    result = handle_binary_op_impl(rval, module, builder, local_sym_tab)
-    builder.store(result, local_sym_tab[var_name].var)
+def handle_binary_op(rval, builder, var_name, local_sym_tab):
+    result = handle_binary_op_impl(rval, builder, local_sym_tab)
+    if var_name and var_name in local_sym_tab:
+        logger.info(
+            f"Storing result {result} into variable {local_sym_tab[var_name].var}"
+        )
+        builder.store(result, local_sym_tab[var_name].var)
+    return result, result.type

pythonbpf/codegen.py

@@ -1,14 +1,10 @@
 import ast
 from llvmlite import ir
 from .license_pass import license_processing
-from .functions_pass import func_proc
+from .functions import func_proc
 from .maps import maps_proc
 from .structs import structs_proc
-from .globals_pass import (
-    globals_list_creation,
-    globals_processing,
-    populate_global_symbol_table,
-)
+from .globals_pass import globals_processing
 from .debuginfo import DW_LANG_C11, DwarfBehaviorEnum, DebugInfoGenerator
 import os
 import subprocess
@@ -44,18 +40,15 @@ def processor(source_code, filename, module):
     for func_node in bpf_chunks:
         logger.info(f"Found BPF function/struct: {func_node.name}")
 
-    populate_global_symbol_table(tree, module)
-    license_processing(tree, module)
-    globals_processing(tree, module)
-
     structs_sym_tab = structs_proc(tree, module, bpf_chunks)
     map_sym_tab = maps_proc(tree, module, bpf_chunks)
     func_proc(tree, module, bpf_chunks, map_sym_tab, structs_sym_tab)
 
-    globals_list_creation(tree, module)
+    license_processing(tree, module)
+    globals_processing(tree, module)
 
 
-def compile_to_ir(filename: str, output: str, loglevel=logging.WARNING):
+def compile_to_ir(filename: str, output: str, loglevel=logging.INFO):
     logging.basicConfig(
         level=loglevel, format="%(asctime)s [%(levelname)s] %(name)s: %(message)s"
     )
@@ -128,7 +121,7 @@ def compile_to_ir(filename: str, output: str, loglevel=logging.WARNING):
     return output
 
 
-def compile(loglevel=logging.WARNING) -> bool:
+def compile(loglevel=logging.INFO) -> bool:
     # Look one level up the stack to the caller of this function
     caller_frame = inspect.stack()[1]
     caller_file = Path(caller_frame.filename).resolve()
@@ -161,7 +154,7 @@ def compile(loglevel=logging.WARNING) -> bool:
     return success
 
 
-def BPF(loglevel=logging.WARNING) -> BpfProgram:
+def BPF(loglevel=logging.INFO) -> BpfProgram:
     caller_frame = inspect.stack()[1]
     src = inspect.getsource(caller_frame.frame)
     with tempfile.NamedTemporaryFile(

pythonbpf/expr/__init__.py

@@ -0,0 +1,4 @@
+from .expr_pass import eval_expr, handle_expr
+from .type_normalization import convert_to_bool
+
+__all__ = ["eval_expr", "handle_expr", "convert_to_bool"]

pythonbpf/expr/expr_pass.py

@@ -0,0 +1,445 @@
+import ast
+from llvmlite import ir
+from logging import Logger
+import logging
+from typing import Dict
+
+from pythonbpf.type_deducer import ctypes_to_ir, is_ctypes
+from .type_normalization import convert_to_bool, handle_comparator
+
+logger: Logger = logging.getLogger(__name__)
+
+
+def _handle_name_expr(expr: ast.Name, local_sym_tab: Dict, builder: ir.IRBuilder):
+    """Handle ast.Name expressions."""
+    if expr.id in local_sym_tab:
+        var = local_sym_tab[expr.id].var
+        val = builder.load(var)
+        return val, local_sym_tab[expr.id].ir_type
+    else:
+        logger.info(f"Undefined variable {expr.id}")
+        return None
+
+
+def _handle_constant_expr(expr: ast.Constant):
+    """Handle ast.Constant expressions."""
+    if isinstance(expr.value, int) or isinstance(expr.value, bool):
+        return ir.Constant(ir.IntType(64), int(expr.value)), ir.IntType(64)
+    else:
+        logger.error("Unsupported constant type")
+        return None
+
+
+def _handle_attribute_expr(
+    expr: ast.Attribute,
+    local_sym_tab: Dict,
+    structs_sym_tab: Dict,
+    builder: ir.IRBuilder,
+):
+    """Handle ast.Attribute expressions for struct field access."""
+    if isinstance(expr.value, ast.Name):
+        var_name = expr.value.id
+        attr_name = expr.attr
+        if var_name in local_sym_tab:
+            var_ptr, var_type, var_metadata = local_sym_tab[var_name]
+            logger.info(f"Loading attribute {attr_name} from variable {var_name}")
+            logger.info(f"Variable type: {var_type}, Variable ptr: {var_ptr}")
+            metadata = structs_sym_tab[var_metadata]
+            if attr_name in metadata.fields:
+                gep = metadata.gep(builder, var_ptr, attr_name)
+                val = builder.load(gep)
+                field_type = metadata.field_type(attr_name)
+                return val, field_type
+    return None
+
+
+def _handle_deref_call(expr: ast.Call, local_sym_tab: Dict, builder: ir.IRBuilder):
+    """Handle deref function calls."""
+    logger.info(f"Handling deref {ast.dump(expr)}")
+    if len(expr.args) != 1:
+        logger.info("deref takes exactly one argument")
+        return None
+
+    arg = expr.args[0]
+    if (
+        isinstance(arg, ast.Call)
+        and isinstance(arg.func, ast.Name)
+        and arg.func.id == "deref"
+    ):
+        logger.info("Multiple deref not supported")
+        return None
+
+    if isinstance(arg, ast.Name):
+        if arg.id in local_sym_tab:
+            arg_ptr = local_sym_tab[arg.id].var
+        else:
+            logger.info(f"Undefined variable {arg.id}")
+            return None
+    else:
+        logger.info("Unsupported argument type for deref")
+        return None
+
+    if arg_ptr is None:
+        logger.info("Failed to evaluate deref argument")
+        return None
+
+    # Load the value from pointer
+    val = builder.load(arg_ptr)
+    return val, local_sym_tab[arg.id].ir_type
+
+
+def _handle_ctypes_call(
+    func,
+    module,
+    builder,
+    expr,
+    local_sym_tab,
+    map_sym_tab,
+    structs_sym_tab=None,
+):
+    """Handle ctypes type constructor calls."""
+    if len(expr.args) != 1:
+        logger.info("ctypes constructor takes exactly one argument")
+        return None
+
+    arg = expr.args[0]
+    val = eval_expr(
+        func,
+        module,
+        builder,
+        arg,
+        local_sym_tab,
+        map_sym_tab,
+        structs_sym_tab,
+    )
+    if val is None:
+        logger.info("Failed to evaluate argument to ctypes constructor")
+        return None
+    call_type = expr.func.id
+    expected_type = ctypes_to_ir(call_type)
+
+    if val[1] != expected_type:
+        # NOTE: We are only considering casting to and from int types for now
+        if isinstance(val[1], ir.IntType) and isinstance(expected_type, ir.IntType):
+            if val[1].width < expected_type.width:
+                val = (builder.sext(val[0], expected_type), expected_type)
+            else:
+                val = (builder.trunc(val[0], expected_type), expected_type)
+        else:
+            raise ValueError(f"Type mismatch: expected {expected_type}, got {val[1]}")
+    return val
+
+
+def _handle_compare(
+    func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab=None
+):
+    """Handle ast.Compare expressions."""
+
+    if len(cond.ops) != 1 or len(cond.comparators) != 1:
+        logger.error("Only single comparisons are supported")
+        return None
+    lhs = eval_expr(
+        func,
+        module,
+        builder,
+        cond.left,
+        local_sym_tab,
+        map_sym_tab,
+        structs_sym_tab,
+    )
+    rhs = eval_expr(
+        func,
+        module,
+        builder,
+        cond.comparators[0],
+        local_sym_tab,
+        map_sym_tab,
+        structs_sym_tab,
+    )
+
+    if lhs is None or rhs is None:
+        logger.error("Failed to evaluate comparison operands")
+        return None
+
+    lhs, _ = lhs
+    rhs, _ = rhs
+    return handle_comparator(func, builder, cond.ops[0], lhs, rhs)
+
+
+def _handle_unary_op(
+    func,
+    module,
+    builder,
+    expr: ast.UnaryOp,
+    local_sym_tab,
+    map_sym_tab,
+    structs_sym_tab=None,
+):
+    """Handle ast.UnaryOp expressions."""
+    if not isinstance(expr.op, ast.Not):
+        logger.error("Only 'not' unary operator is supported")
+        return None
+
+    operand = eval_expr(
+        func, module, builder, expr.operand, local_sym_tab, map_sym_tab, structs_sym_tab
+    )
+    if operand is None:
+        logger.error("Failed to evaluate operand for unary operation")
+        return None
+
+    operand_val, operand_type = operand
+    true_const = ir.Constant(ir.IntType(1), 1)
+    result = builder.xor(convert_to_bool(builder, operand_val), true_const)
+    return result, ir.IntType(1)
+
+
+def _handle_and_op(func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab):
+    """Handle `and` boolean operations."""
+
+    logger.debug(f"Handling 'and' operator with {len(expr.values)} operands")
+
+    merge_block = func.append_basic_block(name="and.merge")
+    false_block = func.append_basic_block(name="and.false")
+
+    incoming_values = []
+
+    for i, value in enumerate(expr.values):
+        is_last = i == len(expr.values) - 1
+
+        # Evaluate current operand
+        operand_result = eval_expr(
+            func, None, builder, value, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+        if operand_result is None:
+            logger.error(f"Failed to evaluate operand {i} in 'and' expression")
+            return None
+
+        operand_val, operand_type = operand_result
+
+        # Convert to boolean if needed
+        operand_bool = convert_to_bool(builder, operand_val)
+        current_block = builder.block
+
+        if is_last:
+            # Last operand: result is this value
+            builder.branch(merge_block)
+            incoming_values.append((operand_bool, current_block))
+        else:
+            # Not last: check if true, continue or short-circuit
+            next_check = func.append_basic_block(name=f"and.check_{i + 1}")
+            builder.cbranch(operand_bool, next_check, false_block)
+            builder.position_at_end(next_check)
+
+    # False block: short-circuit with false
+    builder.position_at_end(false_block)
+    builder.branch(merge_block)
+    false_value = ir.Constant(ir.IntType(1), 0)
+    incoming_values.append((false_value, false_block))
+
+    # Merge block: phi node
+    builder.position_at_end(merge_block)
+    phi = builder.phi(ir.IntType(1), name="and.result")
+    for val, block in incoming_values:
+        phi.add_incoming(val, block)
+
+    logger.debug(f"Generated 'and' with {len(incoming_values)} incoming values")
+    return phi, ir.IntType(1)
+
+
+def _handle_or_op(func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab):
+    """Handle `or` boolean operations."""
+
+    logger.debug(f"Handling 'or' operator with {len(expr.values)} operands")
+
+    merge_block = func.append_basic_block(name="or.merge")
+    true_block = func.append_basic_block(name="or.true")
+
+    incoming_values = []
+
+    for i, value in enumerate(expr.values):
+        is_last = i == len(expr.values) - 1
+
+        # Evaluate current operand
+        operand_result = eval_expr(
+            func, None, builder, value, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+        if operand_result is None:
+            logger.error(f"Failed to evaluate operand {i} in 'or' expression")
+            return None
+
+        operand_val, operand_type = operand_result
+
+        # Convert to boolean if needed
+        operand_bool = convert_to_bool(builder, operand_val)
+        current_block = builder.block
+
+        if is_last:
+            # Last operand: result is this value
+            builder.branch(merge_block)
+            incoming_values.append((operand_bool, current_block))
+        else:
+            # Not last: check if false, continue or short-circuit
+            next_check = func.append_basic_block(name=f"or.check_{i + 1}")
+            builder.cbranch(operand_bool, true_block, next_check)
+            builder.position_at_end(next_check)
+
+    # True block: short-circuit with true
+    builder.position_at_end(true_block)
+    builder.branch(merge_block)
+    true_value = ir.Constant(ir.IntType(1), 1)
+    incoming_values.append((true_value, true_block))
+
+    # Merge block: phi node
+    builder.position_at_end(merge_block)
+    phi = builder.phi(ir.IntType(1), name="or.result")
+    for val, block in incoming_values:
+        phi.add_incoming(val, block)
+
+    logger.debug(f"Generated 'or' with {len(incoming_values)} incoming values")
+    return phi, ir.IntType(1)
+
+
+def _handle_boolean_op(
+    func,
+    module,
+    builder,
+    expr: ast.BoolOp,
+    local_sym_tab,
+    map_sym_tab,
+    structs_sym_tab=None,
+):
+    """Handle `and` and `or` boolean operations."""
+
+    if isinstance(expr.op, ast.And):
+        return _handle_and_op(
+            func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+    elif isinstance(expr.op, ast.Or):
+        return _handle_or_op(
+            func, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+    else:
+        logger.error(f"Unsupported boolean operator: {type(expr.op).__name__}")
+        return None
+
+
+def eval_expr(
+    func,
+    module,
+    builder,
+    expr,
+    local_sym_tab,
+    map_sym_tab,
+    structs_sym_tab=None,
+):
+    logger.info(f"Evaluating expression: {ast.dump(expr)}")
+    if isinstance(expr, ast.Name):
+        return _handle_name_expr(expr, local_sym_tab, builder)
+    elif isinstance(expr, ast.Constant):
+        return _handle_constant_expr(expr)
+    elif isinstance(expr, ast.Call):
+        if isinstance(expr.func, ast.Name) and expr.func.id == "deref":
+            return _handle_deref_call(expr, local_sym_tab, builder)
+
+        if isinstance(expr.func, ast.Name) and is_ctypes(expr.func.id):
+            return _handle_ctypes_call(
+                func,
+                module,
+                builder,
+                expr,
+                local_sym_tab,
+                map_sym_tab,
+                structs_sym_tab,
+            )
+
+        # delayed import to avoid circular dependency
+        from pythonbpf.helper import HelperHandlerRegistry, handle_helper_call
+
+        if isinstance(expr.func, ast.Name) and HelperHandlerRegistry.has_handler(
+            expr.func.id
+        ):
+            return handle_helper_call(
+                expr,
+                module,
+                builder,
+                func,
+                local_sym_tab,
+                map_sym_tab,
+                structs_sym_tab,
+            )
+        elif isinstance(expr.func, ast.Attribute):
+            logger.info(f"Handling method call: {ast.dump(expr.func)}")
+            if isinstance(expr.func.value, ast.Call) and isinstance(
+                expr.func.value.func, ast.Name
+            ):
+                method_name = expr.func.attr
+                if HelperHandlerRegistry.has_handler(method_name):
+                    return handle_helper_call(
+                        expr,
+                        module,
+                        builder,
+                        func,
+                        local_sym_tab,
+                        map_sym_tab,
+                        structs_sym_tab,
+                    )
+            elif isinstance(expr.func.value, ast.Name):
+                obj_name = expr.func.value.id
+                method_name = expr.func.attr
+                if obj_name in map_sym_tab:
+                    if HelperHandlerRegistry.has_handler(method_name):
+                        return handle_helper_call(
+                            expr,
+                            module,
+                            builder,
+                            func,
+                            local_sym_tab,
+                            map_sym_tab,
+                            structs_sym_tab,
+                        )
+    elif isinstance(expr, ast.Attribute):
+        return _handle_attribute_expr(expr, local_sym_tab, structs_sym_tab, builder)
+    elif isinstance(expr, ast.BinOp):
+        from pythonbpf.binary_ops import handle_binary_op
+
+        return handle_binary_op(expr, builder, None, local_sym_tab)
+    elif isinstance(expr, ast.Compare):
+        return _handle_compare(
+            func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+    elif isinstance(expr, ast.UnaryOp):
+        return _handle_unary_op(
+            func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+    elif isinstance(expr, ast.BoolOp):
+        return _handle_boolean_op(
+            func, module, builder, expr, local_sym_tab, map_sym_tab, structs_sym_tab
+        )
+    logger.info("Unsupported expression evaluation")
+    return None
+
+
+def handle_expr(
+    func,
+    module,
+    builder,
+    expr,
+    local_sym_tab,
+    map_sym_tab,
+    structs_sym_tab,
+):
+    """Handle expression statements in the function body."""
+    logger.info(f"Handling expression: {ast.dump(expr)}")
+    call = expr.value
+    if isinstance(call, ast.Call):
+        eval_expr(
+            func,
+            module,
+            builder,
+            call,
+            local_sym_tab,
+            map_sym_tab,
+            structs_sym_tab,
+        )
+    else:
+        logger.info("Unsupported expression type")

pythonbpf/expr/type_normalization.py

@@ -0,0 +1,128 @@
+from llvmlite import ir
+import logging
+import ast
+
+logger = logging.getLogger(__name__)
+
+COMPARISON_OPS = {
+    ast.Eq: "==",
+    ast.NotEq: "!=",
+    ast.Lt: "<",
+    ast.LtE: "<=",
+    ast.Gt: ">",
+    ast.GtE: ">=",
+    ast.Is: "==",
+    ast.IsNot: "!=",
+}
+
+
+def _get_base_type_and_depth(ir_type):
+    """Get the base type for pointer types."""
+    cur_type = ir_type
+    depth = 0
+    while isinstance(cur_type, ir.PointerType):
+        depth += 1
+        cur_type = cur_type.pointee
+    return cur_type, depth
+
+
+def _deref_to_depth(func, builder, val, target_depth):
+    """Dereference a pointer to a certain depth."""
+
+    cur_val = val
+    cur_type = val.type
+
+    for depth in range(target_depth):
+        if not isinstance(val.type, ir.PointerType):
+            logger.error("Cannot dereference further, non-pointer type")
+            return None
+
+        # dereference with null check
+        pointee_type = cur_type.pointee
+        null_check_block = builder.block
+        not_null_block = func.append_basic_block(name=f"deref_not_null_{depth}")
+        merge_block = func.append_basic_block(name=f"deref_merge_{depth}")
+
+        null_ptr = ir.Constant(cur_type, None)
+        is_not_null = builder.icmp_signed("!=", cur_val, null_ptr)
+        logger.debug(f"Inserted null check for pointer at depth {depth}")
+
+        builder.cbranch(is_not_null, not_null_block, merge_block)
+
+        builder.position_at_end(not_null_block)
+        dereferenced_val = builder.load(cur_val)
+        logger.debug(f"Dereferenced to depth {depth - 1}, type: {pointee_type}")
+        builder.branch(merge_block)
+
+        builder.position_at_end(merge_block)
+        phi = builder.phi(pointee_type, name=f"deref_result_{depth}")
+
+        zero_value = (
+            ir.Constant(pointee_type, 0)
+            if isinstance(pointee_type, ir.IntType)
+            else ir.Constant(pointee_type, None)
+        )
+        phi.add_incoming(zero_value, null_check_block)
+
+        phi.add_incoming(dereferenced_val, not_null_block)
+
+        # Continue with phi result
+        cur_val = phi
+        cur_type = pointee_type
+    return cur_val
+
+
+def _normalize_types(func, builder, lhs, rhs):
+    """Normalize types for comparison."""
+
+    logger.info(f"Normalizing types: {lhs.type} vs {rhs.type}")
+    if isinstance(lhs.type, ir.IntType) and isinstance(rhs.type, ir.IntType):
+        if lhs.type.width < rhs.type.width:
+            lhs = builder.sext(lhs, rhs.type)
+        else:
+            rhs = builder.sext(rhs, lhs.type)
+        return lhs, rhs
+    elif not isinstance(lhs.type, ir.PointerType) and not isinstance(
+        rhs.type, ir.PointerType
+    ):
+        logger.error(f"Type mismatch: {lhs.type} vs {rhs.type}")
+        return None, None
+    else:
+        lhs_base, lhs_depth = _get_base_type_and_depth(lhs.type)
+        rhs_base, rhs_depth = _get_base_type_and_depth(rhs.type)
+        if lhs_base == rhs_base:
+            if lhs_depth < rhs_depth:
+                rhs = _deref_to_depth(func, builder, rhs, rhs_depth - lhs_depth)
+            elif rhs_depth < lhs_depth:
+                lhs = _deref_to_depth(func, builder, lhs, lhs_depth - rhs_depth)
+            return _normalize_types(func, builder, lhs, rhs)
+
+
+def convert_to_bool(builder, val):
+    """Convert a value to boolean."""
+    if val.type == ir.IntType(1):
+        return val
+    if isinstance(val.type, ir.PointerType):
+        zero = ir.Constant(val.type, None)
+    else:
+        zero = ir.Constant(val.type, 0)
+    return builder.icmp_signed("!=", val, zero)
+
+
+def handle_comparator(func, builder, op, lhs, rhs):
+    """Handle comparison operations."""
+
+    if lhs.type != rhs.type:
+        lhs, rhs = _normalize_types(func, builder, lhs, rhs)
+
+    if lhs is None or rhs is None:
+        return None
+
+    if type(op) not in COMPARISON_OPS:
+        logger.error(f"Unsupported comparison operator: {type(op)}")
+        return None
+
+    predicate = COMPARISON_OPS[type(op)]
+    result = builder.icmp_signed(predicate, lhs, rhs)
+    logger.debug(f"Comparison result: {result}")
+    return result, ir.IntType(1)

pythonbpf/expr_pass.py

@@ -1,183 +0,0 @@
-import ast
-from llvmlite import ir
-from logging import Logger
-import logging
-from typing import Dict
-
-logger: Logger = logging.getLogger(__name__)
-
-
-def _handle_name_expr(expr: ast.Name, local_sym_tab: Dict, builder: ir.IRBuilder):
-    """Handle ast.Name expressions."""
-    if expr.id in local_sym_tab:
-        var = local_sym_tab[expr.id].var
-        val = builder.load(var)
-        return val, local_sym_tab[expr.id].ir_type
-    else:
-        logger.info(f"Undefined variable {expr.id}")
-        return None
-
-
-def _handle_constant_expr(expr: ast.Constant):
-    """Handle ast.Constant expressions."""
-    if isinstance(expr.value, int):
-        return ir.Constant(ir.IntType(64), expr.value), ir.IntType(64)
-    elif isinstance(expr.value, bool):
-        return ir.Constant(ir.IntType(1), int(expr.value)), ir.IntType(1)
-    else:
-        logger.info("Unsupported constant type")
-        return None
-
-
-def _handle_attribute_expr(
-    expr: ast.Attribute,
-    local_sym_tab: Dict,
-    structs_sym_tab: Dict,
-    builder: ir.IRBuilder,
-):
-    """Handle ast.Attribute expressions for struct field access."""
-    if isinstance(expr.value, ast.Name):
-        var_name = expr.value.id
-        attr_name = expr.attr
-        if var_name in local_sym_tab:
-            var_ptr, var_type, var_metadata = local_sym_tab[var_name]
-            logger.info(f"Loading attribute {attr_name} from variable {var_name}")
-            logger.info(f"Variable type: {var_type}, Variable ptr: {var_ptr}")
-
-            metadata = structs_sym_tab[var_metadata]
-            if attr_name in metadata.fields:
-                gep = metadata.gep(builder, var_ptr, attr_name)
-                val = builder.load(gep)
-                field_type = metadata.field_type(attr_name)
-                return val, field_type
-    return None
-
-
-def _handle_deref_call(expr: ast.Call, local_sym_tab: Dict, builder: ir.IRBuilder):
-    """Handle deref function calls."""
-    logger.info(f"Handling deref {ast.dump(expr)}")
-    if len(expr.args) != 1:
-        logger.info("deref takes exactly one argument")
-        return None
-
-    arg = expr.args[0]
-    if (
-        isinstance(arg, ast.Call)
-        and isinstance(arg.func, ast.Name)
-        and arg.func.id == "deref"
-    ):
-        logger.info("Multiple deref not supported")
-        return None
-
-    if isinstance(arg, ast.Name):
-        if arg.id in local_sym_tab:
-            arg_ptr = local_sym_tab[arg.id].var
-        else:
-            logger.info(f"Undefined variable {arg.id}")
-            return None
-    else:
-        logger.info("Unsupported argument type for deref")
-        return None
-
-    if arg_ptr is None:
-        logger.info("Failed to evaluate deref argument")
-        return None
-
-    # Load the value from pointer
-    val = builder.load(arg_ptr)
-    return val, local_sym_tab[arg.id].ir_type
-
-
-def eval_expr(
-    func,
-    module,
-    builder,
-    expr,
-    local_sym_tab,
-    map_sym_tab,
-    structs_sym_tab=None,
-):
-    logger.info(f"Evaluating expression: {ast.dump(expr)}")
-    if isinstance(expr, ast.Name):
-        return _handle_name_expr(expr, local_sym_tab, builder)
-    elif isinstance(expr, ast.Constant):
-        return _handle_constant_expr(expr)
-    elif isinstance(expr, ast.Call):
-        if isinstance(expr.func, ast.Name) and expr.func.id == "deref":
-            return _handle_deref_call(expr, local_sym_tab, builder)
-
-        # delayed import to avoid circular dependency
-        from pythonbpf.helper import HelperHandlerRegistry, handle_helper_call
-
-        if isinstance(expr.func, ast.Name) and HelperHandlerRegistry.has_handler(
-            expr.func.id
-        ):
-            return handle_helper_call(
-                expr,
-                module,
-                builder,
-                func,
-                local_sym_tab,
-                map_sym_tab,
-                structs_sym_tab,
-            )
-        elif isinstance(expr.func, ast.Attribute):
-            logger.info(f"Handling method call: {ast.dump(expr.func)}")
-            if isinstance(expr.func.value, ast.Call) and isinstance(
-                expr.func.value.func, ast.Name
-            ):
-                method_name = expr.func.attr
-                if HelperHandlerRegistry.has_handler(method_name):
-                    return handle_helper_call(
-                        expr,
-                        module,
-                        builder,
-                        func,
-                        local_sym_tab,
-                        map_sym_tab,
-                        structs_sym_tab,
-                    )
-            elif isinstance(expr.func.value, ast.Name):
-                obj_name = expr.func.value.id
-                method_name = expr.func.attr
-                if obj_name in map_sym_tab:
-                    if HelperHandlerRegistry.has_handler(method_name):
-                        return handle_helper_call(
-                            expr,
-                            module,
-                            builder,
-                            func,
-                            local_sym_tab,
-                            map_sym_tab,
-                            structs_sym_tab,
-                        )
-    elif isinstance(expr, ast.Attribute):
-        return _handle_attribute_expr(expr, local_sym_tab, structs_sym_tab, builder)
-    logger.info("Unsupported expression evaluation")
-    return None
-
-
-def handle_expr(
-    func,
-    module,
-    builder,
-    expr,
-    local_sym_tab,
-    map_sym_tab,
-    structs_sym_tab,
-):
-    """Handle expression statements in the function body."""
-    logger.info(f"Handling expression: {ast.dump(expr)}")
-    call = expr.value
-    if isinstance(call, ast.Call):
-        eval_expr(
-            func,
-            module,
-            builder,
-            call,
-            local_sym_tab,
-            map_sym_tab,
-            structs_sym_tab,
-        )
-    else:
-        logger.info("Unsupported expression type")

pythonbpf/functions/__init__.py

@@ -0,0 +1,3 @@
+from .functions_pass import func_proc
+
+__all__ = ["func_proc"]

pythonbpf/functions/func_registry_handlers.py

@@ -0,0 +1,22 @@
+from typing import Dict
+
+
+class StatementHandlerRegistry:
+    """Registry for statement handlers."""
+
+    _handlers: Dict = {}
+
+    @classmethod
+    def register(cls, stmt_type):
+        """Register a handler for a specific statement type."""
+
+        def decorator(handler):
+            cls._handlers[stmt_type] = handler
+            return handler
+
+        return decorator
+
+    @classmethod
+    def __getitem__(cls, stmt_type):
+        """Get the handler for a specific statement type."""
+        return cls._handlers.get(stmt_type, None)

pythonbpf/functions/functions_pass.py

@@ -4,10 +4,13 @@ import logging
 from typing import Any
 from dataclasses import dataclass
 
-from .helper import HelperHandlerRegistry, handle_helper_call
-from .type_deducer import ctypes_to_ir
-from .binary_ops import handle_binary_op
-from .expr_pass import eval_expr, handle_expr
+from pythonbpf.helper import HelperHandlerRegistry, handle_helper_call
+from pythonbpf.type_deducer import ctypes_to_ir
+from pythonbpf.binary_ops import handle_binary_op
+from pythonbpf.expr import eval_expr, handle_expr, convert_to_bool
+
+from .return_utils import _handle_none_return, _handle_xdp_return, _is_xdp_name
+
 
 logger = logging.getLogger(__name__)
 
@@ -146,8 +149,7 @@ def handle_assign(
                     local_sym_tab[var_name].var,
                 )
                 logger.info(
-                    f"Assigned {call_type} constant "
-                    f"{rval.args[0].value} to {var_name}"
+                    f"Assigned {call_type} constant {rval.args[0].value} to {var_name}"
                 )
             elif HelperHandlerRegistry.has_handler(call_type):
                 # var = builder.alloca(ir.IntType(64), name=var_name)
@@ -233,76 +235,18 @@ def handle_assign(
         else:
             logger.info("Unsupported assignment call function type")
     elif isinstance(rval, ast.BinOp):
-        handle_binary_op(rval, module, builder, var_name, local_sym_tab)
+        handle_binary_op(rval, builder, var_name, local_sym_tab)
     else:
         logger.info("Unsupported assignment value type")
 
 
-def handle_cond(func, module, builder, cond, local_sym_tab, map_sym_tab):
-    if isinstance(cond, ast.Constant):
-        if isinstance(cond.value, bool):
-            return ir.Constant(ir.IntType(1), int(cond.value))
-        elif isinstance(cond.value, int):
-            return ir.Constant(ir.IntType(1), int(bool(cond.value)))
-        else:
-            logger.info("Unsupported constant type in condition")
-            return None
-    elif isinstance(cond, ast.Name):
-        if cond.id in local_sym_tab:
-            var = local_sym_tab[cond.id].var
-            val = builder.load(var)
-            if val.type != ir.IntType(1):
-                # Convert nonzero values to true, zero to false
-                if isinstance(val.type, ir.PointerType):
-                    # For pointer types, compare with null pointer
-                    zero = ir.Constant(val.type, None)
-                else:
-                    # For integer types, compare with zero
-                    zero = ir.Constant(val.type, 0)
-                val = builder.icmp_signed("!=", val, zero)
-            return val
-        else:
-            logger.info(f"Undefined variable {cond.id} in condition")
-            return None
-    elif isinstance(cond, ast.Compare):
-        lhs = eval_expr(func, module, builder, cond.left, local_sym_tab, map_sym_tab)[0]
-        if len(cond.ops) != 1 or len(cond.comparators) != 1:
-            logger.info("Unsupported complex comparison")
-            return None
-        rhs = eval_expr(
-            func, module, builder, cond.comparators[0], local_sym_tab, map_sym_tab
-        )[0]
-        op = cond.ops[0]
-
-        if lhs.type != rhs.type:
-            if isinstance(lhs.type, ir.IntType) and isinstance(rhs.type, ir.IntType):
-                # Extend the smaller type to the larger type
-                if lhs.type.width < rhs.type.width:
-                    lhs = builder.sext(lhs, rhs.type)
-                elif lhs.type.width > rhs.type.width:
-                    rhs = builder.sext(rhs, lhs.type)
-            else:
-                logger.info("Type mismatch in comparison")
-                return None
-
-        if isinstance(op, ast.Eq):
-            return builder.icmp_signed("==", lhs, rhs)
-        elif isinstance(op, ast.NotEq):
-            return builder.icmp_signed("!=", lhs, rhs)
-        elif isinstance(op, ast.Lt):
-            return builder.icmp_signed("<", lhs, rhs)
-        elif isinstance(op, ast.LtE):
-            return builder.icmp_signed("<=", lhs, rhs)
-        elif isinstance(op, ast.Gt):
-            return builder.icmp_signed(">", lhs, rhs)
-        elif isinstance(op, ast.GtE):
-            return builder.icmp_signed(">=", lhs, rhs)
-        else:
-            logger.info("Unsupported comparison operator")
-            return None
-    else:
-        logger.info("Unsupported condition expression")
-        return None
+def handle_cond(
+    func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab=None
+):
+    val = eval_expr(
+        func, module, builder, cond, local_sym_tab, map_sym_tab, structs_sym_tab
+    )[0]
+    return convert_to_bool(builder, val)
 
 
 def handle_if(
@@ -318,7 +262,9 @@ def handle_if(
     else:
         else_block = None
 
-    cond = handle_cond(func, module, builder, stmt.test, local_sym_tab, map_sym_tab)
+    cond = handle_cond(
+        func, module, builder, stmt.test, local_sym_tab, map_sym_tab, structs_sym_tab
+    )
     if else_block:
         builder.cbranch(cond, then_block, else_block)
     else:
@@ -351,6 +297,27 @@ def handle_if(
     builder.position_at_end(merge_block)
 
 
+def handle_return(builder, stmt, local_sym_tab, ret_type):
+    logger.info(f"Handling return statement: {ast.dump(stmt)}")
+    if stmt.value is None:
+        return _handle_none_return(builder)
+    elif isinstance(stmt.value, ast.Name) and _is_xdp_name(stmt.value.id):
+        return _handle_xdp_return(stmt, builder, ret_type)
+    else:
+        val = eval_expr(
+            func=None,
+            module=None,
+            builder=builder,
+            expr=stmt.value,
+            local_sym_tab=local_sym_tab,
+            map_sym_tab={},
+            structs_sym_tab={},
+        )
+        logger.info(f"Evaluated return expression to {val}")
+        builder.ret(val[0])
+        return True
+
+
 def process_stmt(
     func,
     module,
@@ -384,36 +351,12 @@ def process_stmt(
             func, module, builder, stmt, map_sym_tab, local_sym_tab, structs_sym_tab
         )
     elif isinstance(stmt, ast.Return):
-        if stmt.value is None:
-            builder.ret(ir.Constant(ir.IntType(32), 0))
-            did_return = True
-        elif (
-            isinstance(stmt.value, ast.Call)
-            and isinstance(stmt.value.func, ast.Name)
-            and len(stmt.value.args) == 1
-            and isinstance(stmt.value.args[0], ast.Constant)
-            and isinstance(stmt.value.args[0].value, int)
-        ):
-            call_type = stmt.value.func.id
-            if ctypes_to_ir(call_type) != ret_type:
-                raise ValueError(
-                    "Return type mismatch: expected"
-                    f"{ctypes_to_ir(call_type)}, got {call_type}"
-                )
-            else:
-                builder.ret(ir.Constant(ret_type, stmt.value.args[0].value))
-                did_return = True
-        elif isinstance(stmt.value, ast.Name):
-            if stmt.value.id == "XDP_PASS":
-                builder.ret(ir.Constant(ret_type, 2))
-                did_return = True
-            elif stmt.value.id == "XDP_DROP":
-                builder.ret(ir.Constant(ret_type, 1))
-                did_return = True
-            else:
-                raise ValueError("Failed to evaluate return expression")
-        else:
-            raise ValueError("Unsupported return value")
+        did_return = handle_return(
+            builder,
+            stmt,
+            local_sym_tab,
+            ret_type,
+        )
     return did_return
 
 
@@ -455,6 +398,9 @@ def allocate_mem(
                 continue
             var_name = target.id
             rval = stmt.value
+            if var_name in local_sym_tab:
+                logger.info(f"Variable {var_name} already allocated")
+                continue
             if isinstance(rval, ast.Call):
                 if isinstance(rval.func, ast.Name):
                     call_type = rval.func.id
@@ -483,8 +429,7 @@ def allocate_mem(
                         var = builder.alloca(ir_type, name=var_name)
                         has_metadata = True
                         logger.info(
-                            f"Pre-allocated variable {var_name} "
-                            f"for struct {call_type}"
+                            f"Pre-allocated variable {var_name} for struct {call_type}"
                         )
                 elif isinstance(rval.func, ast.Attribute):
                     ir_type = ir.PointerType(ir.IntType(64))
@@ -568,7 +513,7 @@ def process_func_body(
         )
 
     if not did_return:
-        builder.ret(ir.Constant(ir.IntType(32), 0))
+        builder.ret(ir.Constant(ir.IntType(64), 0))
 
 
 def process_bpf_chunk(func_node, module, return_type, map_sym_tab, structs_sym_tab):

pythonbpf/functions/return_utils.py

@@ -0,0 +1,45 @@
+import logging
+import ast
+
+from llvmlite import ir
+
+logger: logging.Logger = logging.getLogger(__name__)
+
+XDP_ACTIONS = {
+    "XDP_ABORTED": 0,
+    "XDP_DROP": 1,
+    "XDP_PASS": 2,
+    "XDP_TX": 3,
+    "XDP_REDIRECT": 4,
+}
+
+
+def _handle_none_return(builder) -> bool:
+    """Handle return or return None -> returns 0."""
+    builder.ret(ir.Constant(ir.IntType(64), 0))
+    logger.debug("Generated default return: 0")
+    return True
+
+
+def _is_xdp_name(name: str) -> bool:
+    """Check if a name is an XDP action"""
+    return name in XDP_ACTIONS
+
+
+def _handle_xdp_return(stmt: ast.Return, builder, ret_type) -> bool:
+    """Handle XDP returns"""
+    if not isinstance(stmt.value, ast.Name):
+        return False
+
+    action_name = stmt.value.id
+
+    if action_name not in XDP_ACTIONS:
+        raise ValueError(
+            f"Unknown XDP action: {action_name}. Available: {XDP_ACTIONS.keys()}"
+        )
+        return False
+
+    value = XDP_ACTIONS[action_name]
+    builder.ret(ir.Constant(ret_type, value))
+    logger.debug(f"Generated XDP action return: {action_name} = {value}")
+    return True

pythonbpf/globals_pass.py

@@ -1,121 +1,8 @@
 from llvmlite import ir
 import ast
 
-from logging import Logger
-import logging
-from .type_deducer import ctypes_to_ir
 
-logger: Logger = logging.getLogger(__name__)
-
-# TODO: this is going to be a huge fuck of a headache in the future.
-global_sym_tab = []
-
-
-def populate_global_symbol_table(tree, module: ir.Module):
-    for node in tree.body:
-        if isinstance(node, ast.FunctionDef):
-            for dec in node.decorator_list:
-                if (
-                    isinstance(dec, ast.Call)
-                    and isinstance(dec.func, ast.Name)
-                    and dec.func.id == "section"
-                    and len(dec.args) == 1
-                    and isinstance(dec.args[0], ast.Constant)
-                    and isinstance(dec.args[0].value, str)
-                ):
-                    global_sym_tab.append(node)
-                elif isinstance(dec, ast.Name) and dec.id == "bpfglobal":
-                    global_sym_tab.append(node)
-
-                elif isinstance(dec, ast.Name) and dec.id == "map":
-                    global_sym_tab.append(node)
-    return False
-
-
-def emit_global(module: ir.Module, node, name):
-    logger.info(f"global identifier {name} processing")
-    # deduce LLVM type from the annotated return
-    if not isinstance(node.returns, ast.Name):
-        raise ValueError(f"Unsupported return annotation {ast.dump(node.returns)}")
-    ty = ctypes_to_ir(node.returns.id)
-
-    # extract the return expression
-    # TODO: turn this return extractor into a generic function I can use everywhere.
-    ret_stmt = node.body[0]
-    if not isinstance(ret_stmt, ast.Return) or ret_stmt.value is None:
-        raise ValueError(f"Global '{name}' has no valid return")
-
-    init_val = ret_stmt.value
-
-    # simple constant like "return 0"
-    if isinstance(init_val, ast.Constant):
-        llvm_init = ir.Constant(ty, init_val.value)
-
-    # variable reference like "return SOME_CONST"
-    elif isinstance(init_val, ast.Name):
-        # need symbol resolution here, stub as 0 for now
-        raise ValueError(f"Name reference {init_val.id} not yet supported")
-
-    # constructor call like "return c_int64(0)" or dataclass(...)
-    elif isinstance(init_val, ast.Call):
-        if len(init_val.args) >= 1 and isinstance(init_val.args[0], ast.Constant):
-            llvm_init = ir.Constant(ty, init_val.args[0].value)
-        else:
-            logger.info("Defaulting to zero as no constant argument found")
-            llvm_init = ir.Constant(ty, 0)
-    else:
-        raise ValueError(f"Unsupported return expr {ast.dump(init_val)}")
-
-    gvar = ir.GlobalVariable(module, ty, name=name)
-    gvar.initializer = llvm_init
-    gvar.align = 8
-    gvar.linkage = "dso_local"
-    gvar.global_constant = False
-    return gvar
-
-
-def globals_processing(tree, module):
-    """Process stuff decorated with @bpf and @bpfglobal except license and return the section name"""
-    globals_sym_tab = []
-
-    for node in tree.body:
-        # Skip non-assignment and non-function nodes
-        if not (isinstance(node, ast.FunctionDef)):
-            continue
-
-        # Get the name based on node type
-        if isinstance(node, ast.FunctionDef):
-            name = node.name
-        else:
-            continue
-
-        # Check for duplicate names
-        if name in globals_sym_tab:
-            raise SyntaxError(f"ERROR: Global name '{name}' previously defined")
-        else:
-            globals_sym_tab.append(name)
-
-        if isinstance(node, ast.FunctionDef) and node.name != "LICENSE":
-            decorators = [
-                dec.id for dec in node.decorator_list if isinstance(dec, ast.Name)
-            ]
-            if "bpf" in decorators and "bpfglobal" in decorators:
-                if (
-                    len(node.body) == 1
-                    and isinstance(node.body[0], ast.Return)
-                    and node.body[0].value is not None
-                    and isinstance(
-                        node.body[0].value, (ast.Constant, ast.Name, ast.Call)
-                    )
-                ):
-                    emit_global(module, node, name)
-                else:
-                    raise SyntaxError(f"ERROR: Invalid syntax for {name} global")
-
-    return None
-
-
-def emit_llvm_compiler_used(module: ir.Module, names: list[str]):
+def emit_globals(module: ir.Module, names: list[str]):
     """
     Emit the @llvm.compiler.used global given a list of function/global names.
     """
@@ -137,7 +24,7 @@ def emit_llvm_compiler_used(module: ir.Module, names: list[str]):
     gv.section = "llvm.metadata"
 
 
-def globals_list_creation(tree, module: ir.Module):
+def globals_processing(tree, module: ir.Module):
     collected = ["LICENSE"]
 
     for node in tree.body:
@@ -153,11 +40,10 @@ def globals_list_creation(tree, module: ir.Module):
                 ):
                     collected.append(node.name)
 
-                # NOTE: all globals other than
-                # elif isinstance(dec, ast.Name) and dec.id == "bpfglobal":
-                #     collected.append(node.name)
+                elif isinstance(dec, ast.Name) and dec.id == "bpfglobal":
+                    collected.append(node.name)
 
                 elif isinstance(dec, ast.Name) and dec.id == "map":
                     collected.append(node.name)
 
-    emit_llvm_compiler_used(module, collected)
+    emit_globals(module, collected)

pythonbpf/helper/bpf_helper_handler.py

@@ -62,7 +62,7 @@ def bpf_map_lookup_elem_emitter(
     """
     if not call.args or len(call.args) != 1:
         raise ValueError(
-            "Map lookup expects exactly one argument (key), got " f"{len(call.args)}"
+            f"Map lookup expects exactly one argument (key), got {len(call.args)}"
         )
     key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
     map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
@@ -145,8 +145,7 @@ def bpf_map_update_elem_emitter(
     """
     if not call.args or len(call.args) < 2 or len(call.args) > 3:
         raise ValueError(
-            "Map update expects 2 or 3 args (key, value, flags), "
-            f"got {len(call.args)}"
+            f"Map update expects 2 or 3 args (key, value, flags), got {len(call.args)}"
         )
 
     key_arg = call.args[0]
@@ -196,7 +195,7 @@ def bpf_map_delete_elem_emitter(
     """
     if not call.args or len(call.args) != 1:
         raise ValueError(
-            "Map delete expects exactly one argument (key), got " f"{len(call.args)}"
+            f"Map delete expects exactly one argument (key), got {len(call.args)}"
         )
     key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
     map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
@@ -255,7 +254,7 @@ def bpf_perf_event_output_handler(
 ):
     if len(call.args) != 1:
         raise ValueError(
-            "Perf event output expects exactly one argument, " f"got {len(call.args)}"
+            f"Perf event output expects exactly one argument, got {len(call.args)}"
         )
     data_arg = call.args[0]
     ctx_ptr = func.args[0]  # First argument to the function is ctx

pythonbpf/helper/helper_utils.py

@@ -3,7 +3,7 @@ import logging
 from collections.abc import Callable
 
 from llvmlite import ir
-from pythonbpf.expr_pass import eval_expr
+from pythonbpf.expr import eval_expr
 
 logger = logging.getLogger(__name__)
 
@@ -270,7 +270,7 @@ def _prepare_expr_args(expr, func, module, builder, local_sym_tab, struct_sym_ta
                 val = builder.sext(val, ir.IntType(64))
         else:
             logger.warning(
-                "Only int and ptr supported in bpf_printk args. " "Others default to 0."
+                "Only int and ptr supported in bpf_printk args. Others default to 0."
             )
             val = ir.Constant(ir.IntType(64), 0)
         return val

pythonbpf/maps/maps_pass.py

@@ -3,7 +3,7 @@ from logging import Logger
 from llvmlite import ir
 from enum import Enum
 from .maps_utils import MapProcessorRegistry
-from ..debuginfo import DebugInfoGenerator
+from pythonbpf.debuginfo import DebugInfoGenerator
 import logging
 
 logger: Logger = logging.getLogger(__name__)
@@ -278,9 +278,7 @@ def process_bpf_map(func_node, module):
         if handler:
             return handler(map_name, rval, module)
         else:
-            logger.warning(
-                f"Unknown map type " f"{rval.func.id}, defaulting to HashMap"
-            )
+            logger.warning(f"Unknown map type {rval.func.id}, defaulting to HashMap")
             return process_hash_map(map_name, rval, module)
     else:
         raise ValueError("Function under @map must return a map")

pythonbpf/type_deducer.py

@@ -1,24 +1,28 @@
 from llvmlite import ir
 
 # TODO: THIS IS NOT SUPPOSED TO MATCH STRINGS :skull:
+mapping = {
+    "c_int8": ir.IntType(8),
+    "c_uint8": ir.IntType(8),
+    "c_int16": ir.IntType(16),
+    "c_uint16": ir.IntType(16),
+    "c_int32": ir.IntType(32),
+    "c_uint32": ir.IntType(32),
+    "c_int64": ir.IntType(64),
+    "c_uint64": ir.IntType(64),
+    "c_float": ir.FloatType(),
+    "c_double": ir.DoubleType(),
+    "c_void_p": ir.IntType(64),
+    # Not so sure about this one
+    "str": ir.PointerType(ir.IntType(8)),
+}
 
 
 def ctypes_to_ir(ctype: str):
-    mapping = {
-        "c_int8": ir.IntType(8),
-        "c_uint8": ir.IntType(8),
-        "c_int16": ir.IntType(16),
-        "c_uint16": ir.IntType(16),
-        "c_int32": ir.IntType(32),
-        "c_uint32": ir.IntType(32),
-        "c_int64": ir.IntType(64),
-        "c_uint64": ir.IntType(64),
-        "c_float": ir.FloatType(),
-        "c_double": ir.DoubleType(),
-        "c_void_p": ir.IntType(64),
-        # Not so sure about this one
-        "str": ir.PointerType(ir.IntType(8)),
-    }
     if ctype in mapping:
         return mapping[ctype]
     raise NotImplementedError(f"No mapping for {ctype}")
+
+
+def is_ctypes(ctype: str) -> bool:
+    return ctype in mapping

tests/c-form/globals.bpf.c

@@ -1,27 +0,0 @@
-// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
-#include <linux/bpf.h>
-#include <bpf/bpf_helpers.h>
-#include <bpf/bpf_tracing.h>
-#include <linux/types.h>
-
-struct test_struct {
-    __u64 a;
-    __u64 b;
-};
-
-struct test_struct w = {};
-volatile __u64 prev_time = 0;
-
-SEC("tracepoint/syscalls/sys_enter_execve")
-int trace_execve(void *ctx)
-{
-    bpf_printk("previous %ul now %ul", w.b, w.a);
-    __u64 ts = bpf_ktime_get_ns();
-    bpf_printk("prev %ul now %ul", prev_time, ts);
-    w.a = ts;
-    w.b = prev_time;
-    prev_time = ts;
-    return 0;
-}
-
-char LICENSE[] SEC("license") = "GPL";

tests/failing_tests/conditionals/helper_cond.py

@@ -0,0 +1,34 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+# NOTE: Decided against fixing this
+# as a workaround is assigning the result of lookup to a variable
+# and then using that variable in the if statement.
+# Might fix in future.
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    last.update(0, 1)
+    if last.lookup(0) > 0:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/failing_tests/conditionals/struct_ptr.py

@@ -0,0 +1,34 @@
+from pythonbpf import bpf, struct, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+
+# NOTE: Decided against fixing this
+# as one workaround is to just check any field of the struct
+# in the if statement. Ugly but works.
+# Might fix in future.
+
+
+@bpf
+@struct
+class data_t:
+    pid: c_uint64
+    ts: c_uint64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    dat = data_t()
+    if dat:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/failing_tests/direct_assign.py

@@ -4,6 +4,18 @@ from pythonbpf.maps import HashMap
 
 from ctypes import c_void_p, c_int64
 
+# NOTE: I have decided to not fix this example for now.
+# The issue is in line 31, where we are passing an expression.
+# The update helper expects a pointer type. But the problem is
+# that we must allocate the space for said pointer in the first
+# basic block. As that usage is in a different basic block, we
+# are unable to cast the expression to a pointer type. (as we never
+# allocated space for it).
+# Shall we change our space allocation logic? That allows users to
+# spam the same helper with the same args, and still run out of
+# stack space. So we consider this usage invalid for now.
+# Might fix it later.
+
 
 @bpf
 @map
@@ -14,12 +26,12 @@ def count() -> HashMap:
 @bpf
 @section("xdp")
 def hello_world(ctx: c_void_p) -> c_int64:
-    prev = count().lookup(0)
+    prev = count.lookup(0)
     if prev:
-        count().update(0, prev + 1)
+        count.update(0, prev + 1)
         return XDP_PASS
     else:
-        count().update(0, 1)
+        count.update(0, 1)
 
     return XDP_PASS
 

tests/failing_tests/globals.py

@@ -1,101 +0,0 @@
-import logging
-
-from pythonbpf import compile, bpf, section, bpfglobal, compile_to_ir
-from ctypes import c_void_p, c_int64, c_int32
-
-@bpf
-@bpfglobal
-def somevalue() -> c_int32:
-    return c_int32(42)
-
-@bpf
-@bpfglobal
-def somevalue2() -> c_int64:
-    return c_int64(69)
-
-@bpf
-@bpfglobal
-def somevalue1() -> c_int32:
-    return c_int32(42)
-
-
-# --- Passing examples ---
-
-# Simple constant return
-@bpf
-@bpfglobal
-def g1() -> c_int64:
-    return c_int64(42)
-
-# Constructor with one constant argument
-@bpf
-@bpfglobal
-def g2() -> c_int64:
-    return c_int64(69)
-
-
-# --- Failing examples ---
-
-# No return annotation
-# @bpf
-# @bpfglobal
-# def g3():
-#     return 42
-
-# Return annotation is complex
-# @bpf
-# @bpfglobal
-# def g4() -> List[int]:
-#     return []
-
-# # Return is missing
-# @bpf
-# @bpfglobal
-# def g5() -> c_int64:
-#     pass
-
-# # Return is a variable reference
-# #TODO: maybe fix this sometime later. It defaults to 0
-# CONST = 5
-# @bpf
-# @bpfglobal
-# def g6() -> c_int64:
-#     return c_int64(CONST)
-
-# Constructor with multiple args
-#TODO: this is not working. should it work ?
-@bpf
-@bpfglobal
-def g7() -> c_int64:
-    return c_int64(1)
-
-# Dataclass call
-#TODO: fails with dataclass
-# @dataclass
-# class Point:
-#     x: c_int64
-#     y: c_int64
-
-# @bpf
-# @bpfglobal
-# def g8() -> Point:
-#     return Point(1, 2)
-
-
-@bpf
-@section("tracepoint/syscalls/sys_enter_execve")
-def sometag(ctx: c_void_p) -> c_int64:
-    print("test")
-    global somevalue
-    somevalue = 2
-    print(f"{somevalue}")
-    return c_int64(1)
-
-@bpf
-@bpfglobal
-def LICENSE() -> str:
-    return "GPL"
-
-
-compile_to_ir("globals.py", "globals.ll", loglevel=logging.INFO)
-compile()

tests/failing_tests/named_arg.py

@@ -0,0 +1,40 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from pythonbpf.helper import XDP_PASS
+from pythonbpf.maps import HashMap
+
+from ctypes import c_void_p, c_int64
+
+# NOTE: This example exposes the problems with our typing system.
+# We can't do steps on line 25 and 27.
+# prev is of type i64**. For prev + 1, we deref it down to i64
+# To assign it back to prev, we need to go back to i64**.
+# We cannot allocate space for the intermediate type now.
+# We probably need to track the ref/deref chain for each variable.
+
+@bpf
+@map
+def count() -> HashMap:
+    return HashMap(key=c_int64, value=c_int64, max_entries=1)
+
+
+@bpf
+@section("xdp")
+def hello_world(ctx: c_void_p) -> c_int64:
+    prev = count.lookup(0)
+    if prev:
+        prev = prev + 1
+        count.update(0, prev)
+        return XDP_PASS
+    else:
+        count.update(0, 1)
+
+    return XDP_PASS
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/failing_tests/undeclared_values.py

@@ -1,21 +0,0 @@
-import logging
-
-from pythonbpf import compile, bpf, section, bpfglobal, compile_to_ir
-from ctypes import c_void_p, c_int64
-
-# This should not pass as somevalue is not declared at all.
-@bpf
-@section("tracepoint/syscalls/sys_enter_execve")
-def sometag(ctx: c_void_p) -> c_int64:
-    print("test")
-    print(f"{somevalue}")  # noqa: F821
-    return c_int64(1)
-
-@bpf
-@bpfglobal
-def LICENSE() -> str:
-    return "GPL"
-
-
-compile_to_ir("globals.py", "globals.ll", loglevel=logging.INFO)
-compile()

tests/passing_tests/conditionals/and.py

@@ -0,0 +1,32 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    last.update(0, 1)
+    last.update(1, 2)
+    x = last.lookup(0)
+    y = last.lookup(1)
+    if x and y:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/bool.py

@@ -0,0 +1,21 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    if True:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/const_binop.py

@@ -0,0 +1,21 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    if (0 + 1) * 0:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/const_int.py

@@ -0,0 +1,21 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    if 0:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/map.py

@@ -0,0 +1,30 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    # last.update(0, 1)
+    tsp = last.lookup(0)
+    if tsp:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/map_comp.py

@@ -0,0 +1,30 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    last.update(0, 1)
+    tsp = last.lookup(0)
+    if tsp > 0:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/not.py

@@ -0,0 +1,30 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    # last.update(0, 1)
+    tsp = last.lookup(0)
+    if not tsp:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/or.py

@@ -0,0 +1,32 @@
+from pythonbpf import bpf, map, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+from pythonbpf.maps import HashMap
+
+
+@bpf
+@map
+def last() -> HashMap:
+    return HashMap(key=c_uint64, value=c_uint64, max_entries=3)
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    last.update(0, 1)
+    # last.update(1, 2)
+    x = last.lookup(0)
+    y = last.lookup(1)
+    if x or y:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/struct_access.py

@@ -0,0 +1,29 @@
+from pythonbpf import bpf, struct, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_uint64
+
+
+@bpf
+@struct
+class data_t:
+    pid: c_uint64
+    ts: c_uint64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    dat = data_t()
+    if dat.ts:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/type_mismatch.py

@@ -0,0 +1,23 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64, c_int32
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    x = 0
+    y = c_int32(0)
+    if x == y:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/var.py

@@ -0,0 +1,22 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    x = 0
+    if x:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/var_binop.py

@@ -0,0 +1,22 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    x = 0
+    if x * 1:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/conditionals/var_comp.py

@@ -0,0 +1,22 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    x = 2
+    if x > 3:
+        print("Hello, World!")
+    else:
+        print("Goodbye, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/binop_const.py

@@ -0,0 +1,18 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    return 1 + 1 - 2
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/binop_var.py

@@ -0,0 +1,19 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    a = 2
+    return a - 2
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/bool.py

@@ -0,0 +1,18 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    return True
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/int.py

@@ -0,0 +1,18 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    return 1
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/null.py

@@ -0,0 +1,18 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    return
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/typecast_binops.py

@@ -0,0 +1,20 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int32
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int32:
+    print("Hello, World!")
+    a = 1  # int64
+    x = 1  # int64
+    return c_int32(a - x)  # typecast to int32
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/typecast_const.py

@@ -0,0 +1,18 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int32
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int32:
+    print("Hello, World!")
+    return c_int32(1)
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/typecast_var.py

@@ -0,0 +1,19 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int32
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int32:
+    print("Hello, World!")
+    a = 1 # int64
+    return c_int32(a) # typecast to int32
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/var.py

@@ -0,0 +1,19 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    a = 1
+    return a
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/return/xdp.py

@@ -0,0 +1,19 @@
+from pythonbpf import bpf, section, bpfglobal, compile
+from ctypes import c_void_p, c_int64
+from pythonbpf.helper import XDP_PASS
+
+
+@bpf
+@section("tracepoint/syscalls/sys_enter_execve")
+def hello_world(ctx: c_void_p) -> c_int64:
+    print("Hello, World!")
+    return XDP_PASS
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile()

tests/passing_tests/var_rval.py

@@ -0,0 +1,20 @@
+import logging
+
+from pythonbpf import compile, bpf, section, bpfglobal
+from ctypes import c_void_p, c_int64
+
+
+@bpf
+@section("sometag1")
+def sometag(ctx: c_void_p) -> c_int64:
+    a = 1 - 1
+    return c_int64(a)
+
+
+@bpf
+@bpfglobal
+def LICENSE() -> str:
+    return "GPL"
+
+
+compile(loglevel=logging.INFO)