Initial plan

move requests.py to passing tests
sort fields in debug info by offset order
2025-12-31 21:06:25 +00:00 · 2025-11-22 07:59:21 +00:00 · 2025-11-22 13:19:55 +05:30 · 2025-11-22 12:35:47 +05:30 · 2025-11-22 01:48:44 +05:30 · 2025-11-22 01:47:25 +05:30
36 changed files with 1963 additions and 317 deletions
--- a/BCC-Examples/sync_perf_output.py
+++ b/BCC-Examples/sync_perf_output.py
@ -68,8 +68,6 @@ def callback(cpu, event):
 perf = b["events"].open_perf_buffer(callback, struct_name="data_t")
 print("Starting to poll... (Ctrl+C to stop)")
 print("Try running: fork() or clone() system calls to trigger events")
 try:
    while True:
        b["events"].poll(1000)
--- a/pyproject.toml
+++ b/pyproject.toml
@ -26,7 +26,7 @@ classifiers = [
 ]
 readme = "README.md"
 license = {text = "Apache-2.0"}
-requires-python = ">=3.8"
+requires-python = ">=3.10"
 dependencies = [
  "llvmlite",
--- a/pythonbpf/allocation_pass.py
+++ b/pythonbpf/allocation_pass.py
@ -7,6 +7,7 @@ from pythonbpf.helper import HelperHandlerRegistry
 from pythonbpf.vmlinux_parser.dependency_node import Field
 from .expr import VmlinuxHandlerRegistry
 from pythonbpf.type_deducer import ctypes_to_ir
 from pythonbpf.maps import BPFMapType
 logger = logging.getLogger(__name__)
@ -25,7 +26,9 @@ def create_targets_and_rvals(stmt):
    return stmt.targets, [stmt.value]
-def handle_assign_allocation(builder, stmt, local_sym_tab, structs_sym_tab):
+def handle_assign_allocation(
    builder, stmt, local_sym_tab, map_sym_tab, structs_sym_tab
 ):
    """Handle memory allocation for assignment statements."""
    logger.info(f"Handling assignment for allocation: {ast.dump(stmt)}")
@ -55,7 +58,9 @@ def handle_assign_allocation(builder, stmt, local_sym_tab, structs_sym_tab):
        # Determine type and allocate based on rval
        if isinstance(rval, ast.Call):
-            _allocate_for_call(builder, var_name, rval, local_sym_tab, structs_sym_tab)
+            _allocate_for_call(
                builder, var_name, rval, local_sym_tab, map_sym_tab, structs_sym_tab
            )
        elif isinstance(rval, ast.Constant):
            _allocate_for_constant(builder, var_name, rval, local_sym_tab)
        elif isinstance(rval, ast.BinOp):
@ -74,7 +79,9 @@ def handle_assign_allocation(builder, stmt, local_sym_tab, structs_sym_tab):
            )
-def _allocate_for_call(builder, var_name, rval, local_sym_tab, structs_sym_tab):
+def _allocate_for_call(
    builder, var_name, rval, local_sym_tab, map_sym_tab, structs_sym_tab
 ):
    """Allocate memory for variable assigned from a call."""
    if isinstance(rval.func, ast.Name):
@ -111,20 +118,91 @@ def _allocate_for_call(builder, var_name, rval, local_sym_tab, structs_sym_tab):
            local_sym_tab[var_name] = LocalSymbol(var, struct_info.ir_type, call_type)
            logger.info(f"Pre-allocated {var_name} for struct {call_type}")
        elif VmlinuxHandlerRegistry.is_vmlinux_struct(call_type):
            # When calling struct_name(pointer), we're doing a cast, not construction
            # So we allocate as a pointer (i64) not as the actual struct
            var = builder.alloca(ir.IntType(64), name=var_name)
            var.align = 8
            local_sym_tab[var_name] = LocalSymbol(
                var, ir.IntType(64), VmlinuxHandlerRegistry.get_struct_type(call_type)
            )
            logger.info(
                f"Pre-allocated {var_name} for vmlinux struct pointer cast to {call_type}"
            )
        else:
            logger.warning(f"Unknown call type for allocation: {call_type}")
    elif isinstance(rval.func, ast.Attribute):
        # Map method calls - need double allocation for ptr handling
-        _allocate_for_map_method(builder, var_name, local_sym_tab)
+        _allocate_for_map_method(
            builder, var_name, rval, local_sym_tab, map_sym_tab, structs_sym_tab
        )
    else:
        logger.warning(f"Unsupported call function type for {var_name}")
-def _allocate_for_map_method(builder, var_name, local_sym_tab):
+def _allocate_for_map_method(
    builder, var_name, rval, local_sym_tab, map_sym_tab, structs_sym_tab
 ):
    """Allocate memory for variable assigned from map method (double alloc)."""
    map_name = rval.func.value.id
    method_name = rval.func.attr
    # NOTE: We will have to special case HashMap.lookup which returns a pointer to value type
    # The value type can be a struct as well, so we need to handle that properly
    # This special casing is not ideal, as over time other map methods may need similar handling
    # But for now, we will just handle lookup specifically
    if map_name not in map_sym_tab:
        logger.error(f"Map '{map_name}' not found for allocation")
        return
    if method_name != "lookup":
        # Fallback allocation for other map methods
        _allocate_for_map_method_fallback(builder, var_name, local_sym_tab)
        return
    map_params = map_sym_tab[map_name].params
    if map_params["type"] != BPFMapType.HASH:
        logger.warning(
            "Map method lookup used on non-hash map, using fallback allocation"
        )
        _allocate_for_map_method_fallback(builder, var_name, local_sym_tab)
        return
    value_type = map_params["value"]
    # Determine IR type for value
    if isinstance(value_type, str) and value_type in structs_sym_tab:
        struct_info = structs_sym_tab[value_type]
        value_ir_type = struct_info.ir_type
    else:
        value_ir_type = ctypes_to_ir(value_type)
    if value_ir_type is None:
        logger.warning(
            f"Could not determine IR type for map value '{value_type}', using fallback allocation"
        )
        _allocate_for_map_method_fallback(builder, var_name, local_sym_tab)
        return
    # Main variable (pointer to pointer)
    ir_type = ir.PointerType(ir.IntType(64))
    var = builder.alloca(ir_type, name=var_name)
    local_sym_tab[var_name] = LocalSymbol(var, ir_type)
    # Temporary variable for computed values
    tmp_ir_type = value_ir_type
    var_tmp = builder.alloca(tmp_ir_type, name=f"{var_name}_tmp")
    local_sym_tab[f"{var_name}_tmp"] = LocalSymbol(var_tmp, tmp_ir_type)
    logger.info(
        f"Pre-allocated {var_name} and {var_name}_tmp for map method lookup of type {value_ir_type}"
    )
 def _allocate_for_map_method_fallback(builder, var_name, local_sym_tab):
    """Fallback allocation for map method variable (i64* and i64**)."""
    # Main variable (pointer to pointer)
    ir_type = ir.PointerType(ir.IntType(64))
    var = builder.alloca(ir_type, name=var_name)
@ -135,7 +213,9 @@ def _allocate_for_map_method(builder, var_name, local_sym_tab):
    var_tmp = builder.alloca(tmp_ir_type, name=f"{var_name}_tmp")
    local_sym_tab[f"{var_name}_tmp"] = LocalSymbol(var_tmp, tmp_ir_type)
-    logger.info(f"Pre-allocated {var_name} and {var_name}_tmp for map method")
+    logger.info(
        f"Pre-allocated {var_name} and {var_name}_tmp for map method (fallback)"
    )
 def _allocate_for_constant(builder, var_name, rval, local_sym_tab):
@ -177,17 +257,33 @@ def _allocate_for_binop(builder, var_name, local_sym_tab):
    logger.info(f"Pre-allocated {var_name} for binop result")
 def _get_type_name(ir_type):
    """Get a string representation of an IR type."""
    if isinstance(ir_type, ir.IntType):
        return f"i{ir_type.width}"
    elif isinstance(ir_type, ir.PointerType):
        return "ptr"
    elif isinstance(ir_type, ir.ArrayType):
        return f"[{ir_type.count}x{_get_type_name(ir_type.element)}]"
    else:
        return str(ir_type).replace(" ", "")
 def allocate_temp_pool(builder, max_temps, local_sym_tab):
    """Allocate the temporary scratch space pool for helper arguments."""
-    if max_temps == 0:
+    if not max_temps:
        logger.info("No temp pool allocation needed")
        return
-    logger.info(f"Allocating temp pool of {max_temps} variables")
+    for tmp_type, cnt in max_temps.items():
-    for i in range(max_temps):
+        type_name = _get_type_name(tmp_type)
-        temp_name = f"__helper_temp_{i}"
+        logger.info(f"Allocating temp pool of {cnt} variables of type {type_name}")
-        temp_var = builder.alloca(ir.IntType(64), name=temp_name)
+        for i in range(cnt):
-        temp_var.align = 8
+            temp_name = f"__helper_temp_{type_name}_{i}"
-        local_sym_tab[temp_name] = LocalSymbol(temp_var, ir.IntType(64))
+            temp_var = builder.alloca(tmp_type, name=temp_name)
            temp_var.align = _get_alignment(tmp_type)
            local_sym_tab[temp_name] = LocalSymbol(temp_var, tmp_type)
            logger.debug(f"Allocated temp variable: {temp_name}")
 def _allocate_for_name(builder, var_name, rval, local_sym_tab):
@ -241,13 +337,6 @@ def _allocate_for_attribute(builder, var_name, rval, local_sym_tab, structs_sym_
                VmlinuxHandlerRegistry.get_field_type(vmlinux_struct_name, field_name)
            )
            field_ir, field = field_type
            # TODO: For now, we only support integer type allocations.
            # This always assumes first argument of function to be the context struct
            base_ptr = builder.function.args[0]
            local_sym_tab[
                struct_var
            ].var = base_ptr  # This is repurposing of var to store the pointer of the base type
            local_sym_tab[struct_var].ir_type = field_ir
            # Determine the actual IR type based on the field's type
            actual_ir_type = None
@ -302,12 +391,14 @@ def _allocate_for_attribute(builder, var_name, rval, local_sym_tab, structs_sym_
                )
                actual_ir_type = ir.IntType(64)
-            # Allocate with the actual IR type, not the GlobalVariable
+            # Allocate with the actual IR type
            var = _allocate_with_type(builder, var_name, actual_ir_type)
-            local_sym_tab[var_name] = LocalSymbol(var, actual_ir_type, field)
+            local_sym_tab[var_name] = LocalSymbol(
                var, actual_ir_type, field
            )  # <-- Store Field metadata
            logger.info(
-                f"Pre-allocated {var_name} from vmlinux struct {vmlinux_struct_name}.{field_name}"
+                f"Pre-allocated {var_name} as {actual_ir_type} from vmlinux struct {vmlinux_struct_name}.{field_name}"
            )
            return
        else:
--- a/pythonbpf/assign_pass.py
+++ b/pythonbpf/assign_pass.py
@ -1,5 +1,7 @@
 import ast
 import logging
 from inspect import isclass
 from llvmlite import ir
 from pythonbpf.expr import eval_expr
 from pythonbpf.helper import emit_probe_read_kernel_str_call
@ -148,8 +150,30 @@ def handle_variable_assignment(
        return False
    val, val_type = val_result
-    logger.info(f"Evaluated value for {var_name}: {val} of type {val_type}, {var_type}")
+    logger.info(
        f"Evaluated value for {var_name}: {val} of type {val_type}, expected {var_type}"
    )
    if val_type != var_type:
        # Handle vmlinux struct pointers - they're represented as Python classes but are i64 pointers
        if isclass(val_type) and (val_type.__module__ == "vmlinux"):
            logger.info("Handling vmlinux struct pointer assignment")
            # vmlinux struct pointers: val is a pointer, need to convert to i64
            if isinstance(var_type, ir.IntType) and var_type.width == 64:
                # Convert pointer to i64 using ptrtoint
                if isinstance(val.type, ir.PointerType):
                    val = builder.ptrtoint(val, ir.IntType(64))
                    logger.info(
                        "Converted vmlinux struct pointer to i64 using ptrtoint"
                    )
                builder.store(val, var_ptr)
                logger.info(f"Assigned vmlinux struct pointer to {var_name} (i64)")
                return True
            else:
                logger.error(
                    f"Type mismatch: vmlinux struct pointer requires i64, got {var_type}"
                )
                return False
        if isinstance(val_type, Field):
            logger.info("Handling assignment to struct field")
            # Special handling for struct_xdp_md i32 fields that are zero-extended to i64
--- a/pythonbpf/codegen.py
+++ b/pythonbpf/codegen.py
@ -86,7 +86,7 @@ def processor(source_code, filename, 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)
+    map_sym_tab = maps_proc(tree, module, bpf_chunks, structs_sym_tab)
    func_proc(tree, module, bpf_chunks, map_sym_tab, structs_sym_tab)
    globals_list_creation(tree, module)
@ -218,13 +218,11 @@ def compile(loglevel=logging.WARNING) -> bool:
 def BPF(loglevel=logging.WARNING) -> BpfObject:
    caller_frame = inspect.stack()[1]
    src = inspect.getsource(caller_frame.frame)
-    with tempfile.NamedTemporaryFile(
+    with (
-        mode="w+", delete=True, suffix=".py"
+        tempfile.NamedTemporaryFile(mode="w+", delete=True, suffix=".py") as f,
-    ) as f, tempfile.NamedTemporaryFile(
+        tempfile.NamedTemporaryFile(mode="w+", delete=True, suffix=".ll") as inter,
-        mode="w+", delete=True, suffix=".ll"
+        tempfile.NamedTemporaryFile(mode="w+", delete=False, suffix=".o") as obj_file,
-    ) as inter, tempfile.NamedTemporaryFile(
+    ):
        mode="w+", delete=False, suffix=".o"
    ) as obj_file:
        f.write(src)
        f.flush()
        source = f.name
--- a/pythonbpf/debuginfo/debug_info_generator.py
+++ b/pythonbpf/debuginfo/debug_info_generator.py
@ -49,6 +49,10 @@ class DebugInfoGenerator:
            )
        return self._type_cache[key]
    def get_uint8_type(self) -> Any:
        """Get debug info for signed 8-bit integer"""
        return self.get_basic_type("char", 8, dc.DW_ATE_unsigned)
    def get_int32_type(self) -> Any:
        """Get debug info for signed 32-bit integer"""
        return self.get_basic_type("int", 32, dc.DW_ATE_signed)
--- a/pythonbpf/expr/expr_pass.py
+++ b/pythonbpf/expr/expr_pass.py
@ -12,8 +12,8 @@ from .type_normalization import (
    get_base_type_and_depth,
    deref_to_depth,
 )
 from pythonbpf.vmlinux_parser.assignment_info import Field
 from .vmlinux_registry import VmlinuxHandlerRegistry
 from ..vmlinux_parser.dependency_node import Field
 logger: Logger = logging.getLogger(__name__)
@ -89,8 +89,16 @@ def _handle_attribute_expr(
                    return vmlinux_result
                else:
                    raise RuntimeError("Vmlinux struct did not process successfully")
-            metadata = structs_sym_tab[var_metadata]
+
-            if attr_name in metadata.fields:
+            elif isinstance(var_metadata, Field):
                logger.error(
                    f"Cannot access field '{attr_name}' on already-loaded field value '{var_name}'"
                )
                return None
            # Regular user-defined struct
            metadata = structs_sym_tab.get(var_metadata)
            if metadata and attr_name in metadata.fields:
                gep = metadata.gep(builder, var_ptr, attr_name)
                val = builder.load(gep)
                field_type = metadata.field_type(attr_name)
@ -525,6 +533,66 @@ def _handle_boolean_op(
        return None
 # ============================================================================
 # VMLinux casting
 # ============================================================================
 def _handle_vmlinux_cast(
    func,
    module,
    builder,
    expr,
    local_sym_tab,
    map_sym_tab,
    structs_sym_tab=None,
 ):
    # handle expressions such as struct_request(ctx.di) where struct_request is a vmlinux
    # struct and ctx.di is a pointer to a struct but is actually represented as a c_uint64
    # which needs to be cast to a pointer. This is also a field of another vmlinux struct
    """Handle vmlinux struct cast expressions like struct_request(ctx.di)."""
    if len(expr.args) != 1:
        logger.info("vmlinux struct cast takes exactly one argument")
        return None
    # Get the struct name
    struct_name = expr.func.id
    # Evaluate the argument (e.g., ctx.di which is a c_uint64)
    arg_result = eval_expr(
        func,
        module,
        builder,
        expr.args[0],
        local_sym_tab,
        map_sym_tab,
        structs_sym_tab,
    )
    if arg_result is None:
        logger.info("Failed to evaluate argument to vmlinux struct cast")
        return None
    arg_val, arg_type = arg_result
    # Get the vmlinux struct type
    vmlinux_struct_type = VmlinuxHandlerRegistry.get_struct_type(struct_name)
    if vmlinux_struct_type is None:
        logger.error(f"Failed to get vmlinux struct type for {struct_name}")
        return None
    # Cast the integer/value to a pointer to the struct
    # If arg_val is an integer type, we need to inttoptr it
    ptr_type = ir.PointerType()
    # TODO: add a integer check here later
    if ctypes_to_ir(arg_type.type.__name__):
        # Cast integer to pointer
        casted_ptr = builder.inttoptr(arg_val, ptr_type)
    else:
        logger.error(f"Unsupported type for vmlinux cast: {arg_type}")
        return None
    return casted_ptr, vmlinux_struct_type
 # ============================================================================
 # Expression Dispatcher
 # ============================================================================
@ -545,6 +613,18 @@ def eval_expr(
    elif isinstance(expr, ast.Constant):
        return _handle_constant_expr(module, builder, expr)
    elif isinstance(expr, ast.Call):
        if isinstance(expr.func, ast.Name) and VmlinuxHandlerRegistry.is_vmlinux_struct(
            expr.func.id
        ):
            return _handle_vmlinux_cast(
                func,
                module,
                builder,
                expr,
                local_sym_tab,
                map_sym_tab,
                structs_sym_tab,
            )
        if isinstance(expr.func, ast.Name) and expr.func.id == "deref":
            return _handle_deref_call(expr, local_sym_tab, builder)
--- a/pythonbpf/functions/functions_pass.py
+++ b/pythonbpf/functions/functions_pass.py
@ -39,7 +39,7 @@ logger = logging.getLogger(__name__)
 def count_temps_in_call(call_node, local_sym_tab):
    """Count the number of temporary variables needed for a function call."""
-    count = 0
+    count = {}
    is_helper = False
    # NOTE: We exclude print calls for now
@ -49,21 +49,28 @@ def count_temps_in_call(call_node, local_sym_tab):
            and call_node.func.id != "print"
        ):
            is_helper = True
            func_name = call_node.func.id
    elif isinstance(call_node.func, ast.Attribute):
        if HelperHandlerRegistry.has_handler(call_node.func.attr):
            is_helper = True
            func_name = call_node.func.attr
    if not is_helper:
-        return 0
+        return {}  # No temps needed
-    for arg in call_node.args:
+    for arg_idx in range(len(call_node.args)):
        # NOTE: Count all non-name arguments
        # For struct fields, if it is being passed as an argument,
        # The struct object should already exist in the local_sym_tab
-        if not isinstance(arg, ast.Name) and not (
+        arg = call_node.args[arg_idx]
        if isinstance(arg, ast.Name) or (
            isinstance(arg, ast.Attribute) and arg.value.id in local_sym_tab
        ):
-            count += 1
+            continue
        param_type = HelperHandlerRegistry.get_param_type(func_name, arg_idx)
        if isinstance(param_type, ir.PointerType):
            pointee_type = param_type.pointee
            count[pointee_type] = count.get(pointee_type, 0) + 1
    return count
@ -99,11 +106,15 @@ def handle_if_allocation(
 def allocate_mem(
    module, builder, body, func, ret_type, map_sym_tab, local_sym_tab, structs_sym_tab
 ):
-    max_temps_needed = 0
+    max_temps_needed = {}
    def merge_type_counts(count_dict):
        nonlocal max_temps_needed
        for typ, cnt in count_dict.items():
            max_temps_needed[typ] = max(max_temps_needed.get(typ, 0), cnt)
    def update_max_temps_for_stmt(stmt):
        nonlocal max_temps_needed
        temps_needed = 0
        if isinstance(stmt, ast.If):
            for s in stmt.body:
@ -112,10 +123,13 @@ def allocate_mem(
                update_max_temps_for_stmt(s)
            return
        stmt_temps = {}
        for node in ast.walk(stmt):
            if isinstance(node, ast.Call):
-                temps_needed += count_temps_in_call(node, local_sym_tab)
+                call_temps = count_temps_in_call(node, local_sym_tab)
-        max_temps_needed = max(max_temps_needed, temps_needed)
+                for typ, cnt in call_temps.items():
                    stmt_temps[typ] = stmt_temps.get(typ, 0) + cnt
        merge_type_counts(stmt_temps)
    for stmt in body:
        update_max_temps_for_stmt(stmt)
@ -133,7 +147,9 @@ def allocate_mem(
                structs_sym_tab,
            )
        elif isinstance(stmt, ast.Assign):
-            handle_assign_allocation(builder, stmt, local_sym_tab, structs_sym_tab)
+            handle_assign_allocation(
                builder, stmt, local_sym_tab, map_sym_tab, structs_sym_tab
            )
    allocate_temp_pool(builder, max_temps_needed, local_sym_tab)
--- a/pythonbpf/helper/init.py
+++ b/pythonbpf/helper/init.py
@ -1,7 +1,25 @@
 from .helper_registry import HelperHandlerRegistry
 from .helper_utils import reset_scratch_pool
-from .bpf_helper_handler import handle_helper_call, emit_probe_read_kernel_str_call
+from .bpf_helper_handler import (
-from .helpers import ktime, pid, deref, comm, probe_read_str, XDP_DROP, XDP_PASS
+    handle_helper_call,
    emit_probe_read_kernel_str_call,
    emit_probe_read_kernel_call,
 )
 from .helpers import (
    ktime,
    pid,
    deref,
    comm,
    probe_read_str,
    random,
    probe_read,
    smp_processor_id,
    uid,
    skb_store_bytes,
    get_stack,
    XDP_DROP,
    XDP_PASS,
 )
 # Register the helper handler with expr module
@ -60,11 +78,18 @@ __all__ = [
    "reset_scratch_pool",
    "handle_helper_call",
    "emit_probe_read_kernel_str_call",
    "emit_probe_read_kernel_call",
    "ktime",
    "pid",
    "deref",
    "comm",
    "probe_read_str",
    "random",
    "probe_read",
    "smp_processor_id",
    "uid",
    "skb_store_bytes",
    "get_stack",
    "XDP_DROP",
    "XDP_PASS",
 ]
--- a/pythonbpf/helper/bpf_helper_handler.py
+++ b/pythonbpf/helper/bpf_helper_handler.py
@ -8,30 +8,44 @@ from .helper_utils import (
    get_flags_val,
    get_data_ptr_and_size,
    get_buffer_ptr_and_size,
    get_char_array_ptr_and_size,
    get_ptr_from_arg,
    get_int_value_from_arg,
 )
 from .printk_formatter import simple_string_print, handle_fstring_print
-
+from pythonbpf.maps import BPFMapType
 from logging import Logger
 import logging
-logger: Logger = logging.getLogger(__name__)
+logger = logging.getLogger(__name__)
 class BPFHelperID(Enum):
    BPF_MAP_LOOKUP_ELEM = 1
    BPF_MAP_UPDATE_ELEM = 2
    BPF_MAP_DELETE_ELEM = 3
    BPF_PROBE_READ = 4
    BPF_KTIME_GET_NS = 5
    BPF_PRINTK = 6
    BPF_GET_PRANDOM_U32 = 7
    BPF_GET_SMP_PROCESSOR_ID = 8
    BPF_SKB_STORE_BYTES = 9
    BPF_GET_CURRENT_PID_TGID = 14
    BPF_GET_CURRENT_UID_GID = 15
    BPF_GET_CURRENT_COMM = 16
    BPF_PERF_EVENT_OUTPUT = 25
    BPF_GET_STACK = 67
    BPF_PROBE_READ_KERNEL_STR = 115
    BPF_PROBE_READ_KERNEL = 113
    BPF_RINGBUF_OUTPUT = 130
    BPF_RINGBUF_RESERVE = 131
    BPF_RINGBUF_SUBMIT = 132
    BPF_RINGBUF_DISCARD = 133
-@HelperHandlerRegistry.register("ktime")
+@HelperHandlerRegistry.register(
    "ktime",
    param_types=[],
    return_type=ir.IntType(64),
 )
 def bpf_ktime_get_ns_emitter(
    call,
    map_ptr,
@ -54,7 +68,11 @@ def bpf_ktime_get_ns_emitter(
    return result, ir.IntType(64)
-@HelperHandlerRegistry.register("lookup")
+@HelperHandlerRegistry.register(
    "lookup",
    param_types=[ir.PointerType(ir.IntType(64))],
    return_type=ir.PointerType(ir.IntType(64)),
 )
 def bpf_map_lookup_elem_emitter(
    call,
    map_ptr,
@ -96,6 +114,7 @@ def bpf_map_lookup_elem_emitter(
    return result, ir.PointerType()
 # NOTE: This has special handling so we won't reflect the signature here.
@HelperHandlerRegistry.register("print")
 def bpf_printk_emitter(
    call,
@ -144,7 +163,15 @@ def bpf_printk_emitter(
    return True
-@HelperHandlerRegistry.register("update")
+@HelperHandlerRegistry.register(
    "update",
    param_types=[
        ir.PointerType(ir.IntType(64)),
        ir.PointerType(ir.IntType(64)),
        ir.IntType(64),
    ],
    return_type=ir.PointerType(ir.IntType(64)),
 )
 def bpf_map_update_elem_emitter(
    call,
    map_ptr,
@ -199,7 +226,11 @@ def bpf_map_update_elem_emitter(
    return result, None
-@HelperHandlerRegistry.register("delete")
+@HelperHandlerRegistry.register(
    "delete",
    param_types=[ir.PointerType(ir.IntType(64))],
    return_type=ir.PointerType(ir.IntType(64)),
 )
 def bpf_map_delete_elem_emitter(
    call,
    map_ptr,
@ -239,7 +270,11 @@ def bpf_map_delete_elem_emitter(
    return result, None
-@HelperHandlerRegistry.register("comm")
+@HelperHandlerRegistry.register(
    "comm",
    param_types=[ir.PointerType(ir.IntType(8))],
    return_type=ir.IntType(64),
 )
 def bpf_get_current_comm_emitter(
    call,
    map_ptr,
@ -296,7 +331,11 @@ def bpf_get_current_comm_emitter(
    return result, None
-@HelperHandlerRegistry.register("pid")
+@HelperHandlerRegistry.register(
    "pid",
    param_types=[],
    return_type=ir.IntType(64),
 )
 def bpf_get_current_pid_tgid_emitter(
    call,
    map_ptr,
@ -318,12 +357,12 @@ def bpf_get_current_pid_tgid_emitter(
    result = builder.call(fn_ptr, [], tail=False)
    # Extract the lower 32 bits (PID) using bitwise AND with 0xFFFFFFFF
    # TODO: return both PID and TGID if we end up needing TGID somewhere
    mask = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
    pid = builder.and_(result, mask)
    return pid, ir.IntType(64)
@HelperHandlerRegistry.register("output")
 def bpf_perf_event_output_handler(
    call,
    map_ptr,
@ -334,6 +373,10 @@ def bpf_perf_event_output_handler(
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_perf_event_output helper function call.
    """
    if len(call.args) != 1:
        raise ValueError(
            f"Perf event output expects exactly one argument, got {len(call.args)}"
@ -371,6 +414,98 @@ def bpf_perf_event_output_handler(
    return result, None
 def bpf_ringbuf_output_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_ringbuf_output helper function call.
    """
    if len(call.args) != 1:
        raise ValueError(
            f"Ringbuf output expects exactly one argument, got {len(call.args)}"
        )
    data_arg = call.args[0]
    data_ptr, size_val = get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab)
    flags_val = ir.Constant(ir.IntType(64), 0)
    map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
    data_void_ptr = builder.bitcast(data_ptr, ir.PointerType())
    fn_type = ir.FunctionType(
        ir.IntType(64),
        [
            ir.PointerType(),
            ir.PointerType(),
            ir.IntType(64),
            ir.IntType(64),
        ],
        var_arg=False,
    )
    fn_ptr_type = ir.PointerType(fn_type)
    # helper id
    fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_RINGBUF_OUTPUT.value)
    fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
    result = builder.call(
        fn_ptr, [map_void_ptr, data_void_ptr, size_val, flags_val], tail=False
    )
    return result, None
@HelperHandlerRegistry.register(
    "output",
    param_types=[ir.PointerType(ir.IntType(8))],
    return_type=ir.IntType(64),
 )
 def handle_output_helper(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Route output helper to the appropriate emitter based on map type.
    """
    match map_sym_tab[map_ptr.name].type:
        case BPFMapType.PERF_EVENT_ARRAY:
            return bpf_perf_event_output_handler(
                call,
                map_ptr,
                module,
                builder,
                func,
                local_sym_tab,
                struct_sym_tab,
                map_sym_tab,
            )
        case BPFMapType.RINGBUF:
            return bpf_ringbuf_output_emitter(
                call,
                map_ptr,
                module,
                builder,
                func,
                local_sym_tab,
                struct_sym_tab,
                map_sym_tab,
            )
        case _:
            logger.error("Unsupported map type for output helper.")
    raise NotImplementedError("Output helper for this map type is not implemented.")
 def emit_probe_read_kernel_str_call(builder, dst_ptr, dst_size, src_ptr):
    """Emit LLVM IR call to bpf_probe_read_kernel_str"""
@ -398,7 +533,14 @@ def emit_probe_read_kernel_str_call(builder, dst_ptr, dst_size, src_ptr):
    return result
-@HelperHandlerRegistry.register("probe_read_str")
+@HelperHandlerRegistry.register(
    "probe_read_str",
    param_types=[
        ir.PointerType(ir.IntType(8)),
        ir.PointerType(ir.IntType(8)),
    ],
    return_type=ir.IntType(64),
 )
 def bpf_probe_read_kernel_str_emitter(
    call,
    map_ptr,
@ -417,8 +559,8 @@ def bpf_probe_read_kernel_str_emitter(
        )
    # Get destination buffer (char array -> i8*)
-    dst_ptr, dst_size = get_char_array_ptr_and_size(
+    dst_ptr, dst_size = get_or_create_ptr_from_arg(
-        call.args[0], builder, local_sym_tab, struct_sym_tab
+        func, module, call.args[0], builder, local_sym_tab, map_sym_tab, struct_sym_tab
    )
    # Get source pointer (evaluate expression)
@ -433,6 +575,499 @@ def bpf_probe_read_kernel_str_emitter(
    return result, ir.IntType(64)
 def emit_probe_read_kernel_call(builder, dst_ptr, dst_size, src_ptr):
    """Emit LLVM IR call to bpf_probe_read_kernel"""
    fn_type = ir.FunctionType(
        ir.IntType(64),
        [ir.PointerType(), ir.IntType(32), ir.PointerType()],
        var_arg=False,
    )
    fn_ptr = builder.inttoptr(
        ir.Constant(ir.IntType(64), BPFHelperID.BPF_PROBE_READ_KERNEL.value),
        ir.PointerType(fn_type),
    )
    result = builder.call(
        fn_ptr,
        [
            builder.bitcast(dst_ptr, ir.PointerType()),
            ir.Constant(ir.IntType(32), dst_size),
            builder.bitcast(src_ptr, ir.PointerType()),
        ],
        tail=False,
    )
    logger.info(f"Emitted bpf_probe_read_kernel (size={dst_size})")
    return result
@HelperHandlerRegistry.register(
    "probe_read_kernel",
    param_types=[
        ir.PointerType(ir.IntType(8)),
        ir.PointerType(ir.IntType(8)),
    ],
    return_type=ir.IntType(64),
 )
 def bpf_probe_read_kernel_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """Emit LLVM IR for bpf_probe_read_kernel helper."""
    if len(call.args) != 2:
        raise ValueError(
            f"probe_read_kernel expects 2 args (dst, src), got {len(call.args)}"
        )
    # Get destination buffer (char array -> i8*)
    dst_ptr, dst_size = get_or_create_ptr_from_arg(
        func, module, call.args[0], builder, local_sym_tab, map_sym_tab, struct_sym_tab
    )
    # Get source pointer (evaluate expression)
    src_ptr, src_type = get_ptr_from_arg(
        call.args[1], func, module, builder, local_sym_tab, map_sym_tab, struct_sym_tab
    )
    # Emit the helper call
    result = emit_probe_read_kernel_call(builder, dst_ptr, dst_size, src_ptr)
    logger.info(f"Emitted bpf_probe_read_kernel (size={dst_size})")
    return result, ir.IntType(64)
@HelperHandlerRegistry.register(
    "random",
    param_types=[],
    return_type=ir.IntType(32),
 )
 def bpf_get_prandom_u32_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_get_prandom_u32 helper function call.
    """
    helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_PRANDOM_U32.value)
    fn_type = ir.FunctionType(ir.IntType(32), [], var_arg=False)
    fn_ptr_type = ir.PointerType(fn_type)
    fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
    result = builder.call(fn_ptr, [], tail=False)
    return result, ir.IntType(32)
@HelperHandlerRegistry.register(
    "probe_read",
    param_types=[
        ir.PointerType(ir.IntType(8)),
        ir.IntType(32),
        ir.PointerType(ir.IntType(8)),
    ],
    return_type=ir.IntType(64),
 )
 def bpf_probe_read_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_probe_read helper function
    """
    if len(call.args) != 3:
        logger.warn("Expected 3 args for probe_read helper")
        return
    dst_ptr = get_or_create_ptr_from_arg(
        func,
        module,
        call.args[0],
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
        ir.IntType(8),
    )
    size_val = get_int_value_from_arg(
        call.args[1],
        func,
        module,
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
    )
    src_ptr = get_or_create_ptr_from_arg(
        func,
        module,
        call.args[2],
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
        ir.IntType(8),
    )
    fn_type = ir.FunctionType(
        ir.IntType(64),
        [ir.PointerType(), ir.IntType(32), ir.PointerType()],
        var_arg=False,
    )
    fn_ptr = builder.inttoptr(
        ir.Constant(ir.IntType(64), BPFHelperID.BPF_PROBE_READ.value),
        ir.PointerType(fn_type),
    )
    result = builder.call(
        fn_ptr,
        [
            builder.bitcast(dst_ptr, ir.PointerType()),
            builder.trunc(size_val, ir.IntType(32)),
            builder.bitcast(src_ptr, ir.PointerType()),
        ],
        tail=False,
    )
    logger.info(f"Emitted bpf_probe_read (size={size_val})")
    return result, ir.IntType(64)
@HelperHandlerRegistry.register(
    "smp_processor_id",
    param_types=[],
    return_type=ir.IntType(32),
 )
 def bpf_get_smp_processor_id_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_get_smp_processor_id helper function call.
    """
    helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_SMP_PROCESSOR_ID.value)
    fn_type = ir.FunctionType(ir.IntType(32), [], var_arg=False)
    fn_ptr_type = ir.PointerType(fn_type)
    fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
    result = builder.call(fn_ptr, [], tail=False)
    logger.info("Emitted bpf_get_smp_processor_id call")
    return result, ir.IntType(32)
@HelperHandlerRegistry.register(
    "uid",
    param_types=[],
    return_type=ir.IntType(64),
 )
 def bpf_get_current_uid_gid_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_get_current_uid_gid helper function call.
    """
    helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_CURRENT_UID_GID.value)
    fn_type = ir.FunctionType(ir.IntType(64), [], var_arg=False)
    fn_ptr_type = ir.PointerType(fn_type)
    fn_ptr = builder.inttoptr(helper_id, fn_ptr_type)
    result = builder.call(fn_ptr, [], tail=False)
    # Extract the lower 32 bits (UID) using bitwise AND with 0xFFFFFFFF
    # TODO: return both UID and GID if we end up needing GID somewhere
    mask = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
    pid = builder.and_(result, mask)
    return pid, ir.IntType(64)
@HelperHandlerRegistry.register(
    "skb_store_bytes",
    param_types=[
        ir.IntType(32),
        ir.PointerType(ir.IntType(8)),
        ir.IntType(32),
        ir.IntType(64),
    ],
    return_type=ir.IntType(64),
 )
 def bpf_skb_store_bytes_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_skb_store_bytes helper function call.
    Expected call signature: skb_store_bytes(skb, offset, from, len, flags)
    """
    args_signature = [
        ir.PointerType(),  # skb pointer
        ir.IntType(32),  # offset
        ir.PointerType(),  # from
        ir.IntType(32),  # len
        ir.IntType(64),  # flags
    ]
    if len(call.args) not in (3, 4):
        raise ValueError(
            f"skb_store_bytes expects 3 or 4 args (offset, from, len, flags), got {len(call.args)}"
        )
    skb_ptr = func.args[0]  # First argument to the function is skb
    offset_val = get_int_value_from_arg(
        call.args[0],
        func,
        module,
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
    )
    from_ptr = get_or_create_ptr_from_arg(
        func,
        module,
        call.args[1],
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
        args_signature[2],
    )
    len_val = get_int_value_from_arg(
        call.args[2],
        func,
        module,
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
    )
    if len(call.args) == 4:
        flags_val = get_flags_val(call.args[3], builder, local_sym_tab)
    else:
        flags_val = 0
    if isinstance(flags_val, int):
        flags = ir.Constant(ir.IntType(64), flags_val)
    else:
        flags = flags_val
    fn_type = ir.FunctionType(
        ir.IntType(64),
        args_signature,
        var_arg=False,
    )
    fn_ptr = builder.inttoptr(
        ir.Constant(ir.IntType(64), BPFHelperID.BPF_SKB_STORE_BYTES.value),
        ir.PointerType(fn_type),
    )
    result = builder.call(
        fn_ptr,
        [
            builder.bitcast(skb_ptr, ir.PointerType()),
            builder.trunc(offset_val, ir.IntType(32)),
            builder.bitcast(from_ptr, ir.PointerType()),
            builder.trunc(len_val, ir.IntType(32)),
            flags,
        ],
        tail=False,
    )
    logger.info("Emitted bpf_skb_store_bytes call")
    return result, ir.IntType(64)
@HelperHandlerRegistry.register(
    "reserve",
    param_types=[ir.IntType(64)],
    return_type=ir.PointerType(ir.IntType(8)),
 )
 def bpf_ringbuf_reserve_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_ringbuf_reserve helper function call.
    Expected call signature: ringbuf.reserve(size)
    """
    if len(call.args) != 1:
        raise ValueError(
            f"ringbuf.reserve expects exactly one argument (size), got {len(call.args)}"
        )
    size_val = get_int_value_from_arg(
        call.args[0],
        func,
        module,
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
    )
    map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
    fn_type = ir.FunctionType(
        ir.PointerType(ir.IntType(8)),
        [ir.PointerType(), ir.IntType(64)],
        var_arg=False,
    )
    fn_ptr_type = ir.PointerType(fn_type)
    fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_RINGBUF_RESERVE.value)
    fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
    result = builder.call(fn_ptr, [map_void_ptr, size_val], tail=False)
    return result, ir.PointerType(ir.IntType(8))
@HelperHandlerRegistry.register(
    "submit",
    param_types=[ir.PointerType(ir.IntType(8)), ir.IntType(64)],
    return_type=ir.VoidType(),
 )
 def bpf_ringbuf_submit_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_ringbuf_submit helper function call.
    Expected call signature: ringbuf.submit(data, flags=0)
    """
    if len(call.args) not in (1, 2):
        raise ValueError(
            f"ringbuf.submit expects 1 or 2 args (data, flags), got {len(call.args)}"
        )
    data_arg = call.args[0]
    flags_arg = call.args[1] if len(call.args) == 2 else None
    data_ptr = get_or_create_ptr_from_arg(
        func,
        module,
        data_arg,
        builder,
        local_sym_tab,
        map_sym_tab,
        struct_sym_tab,
        ir.PointerType(ir.IntType(8)),
    )
    flags_const = get_flags_val(flags_arg, builder, local_sym_tab)
    if isinstance(flags_const, int):
        flags_const = ir.Constant(ir.IntType(64), flags_const)
    map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
    fn_type = ir.FunctionType(
        ir.VoidType(),
        [ir.PointerType(), ir.PointerType(), ir.IntType(64)],
        var_arg=False,
    )
    fn_ptr_type = ir.PointerType(fn_type)
    fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_RINGBUF_SUBMIT.value)
    fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
    result = builder.call(fn_ptr, [map_void_ptr, data_ptr, flags_const], tail=False)
    return result, None
@HelperHandlerRegistry.register(
    "get_stack",
    param_types=[ir.PointerType(ir.IntType(8)), ir.IntType(64)],
    return_type=ir.IntType(64),
 )
 def bpf_get_stack_emitter(
    call,
    map_ptr,
    module,
    builder,
    func,
    local_sym_tab=None,
    struct_sym_tab=None,
    map_sym_tab=None,
 ):
    """
    Emit LLVM IR for bpf_get_stack helper function call.
    """
    if len(call.args) not in (1, 2):
        raise ValueError(
            f"get_stack expects atmost two arguments (buf, flags), got {len(call.args)}"
        )
    ctx_ptr = func.args[0]  # First argument to the function is ctx
    buf_arg = call.args[0]
    flags_arg = call.args[1] if len(call.args) == 2 else None
    buf_ptr, buf_size = get_buffer_ptr_and_size(
        buf_arg, builder, local_sym_tab, struct_sym_tab
    )
    flags_val = get_flags_val(flags_arg, builder, local_sym_tab)
    if isinstance(flags_val, int):
        flags_val = ir.Constant(ir.IntType(64), flags_val)
    buf_void_ptr = builder.bitcast(buf_ptr, ir.PointerType())
    fn_type = ir.FunctionType(
        ir.IntType(64),
        [
            ir.PointerType(ir.IntType(8)),
            ir.PointerType(),
            ir.IntType(64),
            ir.IntType(64),
        ],
        var_arg=False,
    )
    fn_ptr_type = ir.PointerType(fn_type)
    fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_STACK.value)
    fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
    result = builder.call(
        fn_ptr,
        [ctx_ptr, buf_void_ptr, ir.Constant(ir.IntType(64), buf_size), flags_val],
        tail=False,
    )
    return result, ir.IntType(64)
 def handle_helper_call(
    call,
    module,
@ -487,6 +1122,6 @@ def handle_helper_call(
        if not map_sym_tab or map_name not in map_sym_tab:
            raise ValueError(f"Map '{map_name}' not found in symbol table")
-        return invoke_helper(method_name, map_sym_tab[map_name])
+        return invoke_helper(method_name, map_sym_tab[map_name].sym)
    return None
--- a/pythonbpf/helper/helper_registry.py
+++ b/pythonbpf/helper/helper_registry.py
@ -1,17 +1,31 @@
 from dataclasses import dataclass
 from llvmlite import ir
 from typing import Callable
@dataclass
 class HelperSignature:
    """Signature of a BPF helper function"""
    arg_types: list[ir.Type]
    return_type: ir.Type
    func: Callable
 class HelperHandlerRegistry:
    """Registry for BPF helpers"""
-    _handlers: dict[str, Callable] = {}
+    _handlers: dict[str, HelperSignature] = {}
    @classmethod
-    def register(cls, helper_name):
+    def register(cls, helper_name, param_types=None, return_type=None):
        """Decorator to register a handler function for a helper"""
        def decorator(func):
-            cls._handlers[helper_name] = func
+            helper_sig = HelperSignature(
                arg_types=param_types, return_type=return_type, func=func
            )
            cls._handlers[helper_name] = helper_sig
            return func
        return decorator
@ -19,9 +33,29 @@ class HelperHandlerRegistry:
    @classmethod
    def get_handler(cls, helper_name):
        """Get the handler function for a helper"""
-        return cls._handlers.get(helper_name)
+        handler = cls._handlers.get(helper_name)
        return handler.func if handler else None
    @classmethod
    def has_handler(cls, helper_name):
        """Check if a handler function is registered for a helper"""
        return helper_name in cls._handlers
    @classmethod
    def get_signature(cls, helper_name):
        """Get the signature of a helper function"""
        return cls._handlers.get(helper_name)
    @classmethod
    def get_param_type(cls, helper_name, index):
        """Get the type of a parameter of a helper function by the index"""
        signature = cls.get_signature(helper_name)
        if signature and signature.arg_types and 0 <= index < len(signature.arg_types):
            return signature.arg_types[index]
        return None
    @classmethod
    def get_return_type(cls, helper_name):
        """Get the return type of a helper function"""
        signature = cls.get_signature(helper_name)
        return signature.return_type if signature else None
--- a/pythonbpf/helper/helper_utils.py
+++ b/pythonbpf/helper/helper_utils.py
@ -14,26 +14,43 @@ class ScratchPoolManager:
    """Manage the temporary helper variables in local_sym_tab"""
    def __init__(self):
-        self._counter = 0
+        self._counters = {}
    @property
    def counter(self):
-        return self._counter
+        return sum(self._counters.values())
    def reset(self):
-        self._counter = 0
+        self._counters.clear()
        logger.debug("Scratch pool counter reset to 0")
-    def get_next_temp(self, local_sym_tab):
+    def _get_type_name(self, ir_type):
-        temp_name = f"__helper_temp_{self._counter}"
+        if isinstance(ir_type, ir.PointerType):
-        self._counter += 1
+            return "ptr"
        elif isinstance(ir_type, ir.IntType):
            return f"i{ir_type.width}"
        elif isinstance(ir_type, ir.ArrayType):
            return f"[{ir_type.count}x{self._get_type_name(ir_type.element)}]"
        else:
            return str(ir_type).replace(" ", "")
    def get_next_temp(self, local_sym_tab, expected_type=None):
        # Default to i64 if no expected type provided
        type_name = self._get_type_name(expected_type) if expected_type else "i64"
        if type_name not in self._counters:
            self._counters[type_name] = 0
        counter = self._counters[type_name]
        temp_name = f"__helper_temp_{type_name}_{counter}"
        self._counters[type_name] += 1
        if temp_name not in local_sym_tab:
            raise ValueError(
                f"Scratch pool exhausted or inadequate: {temp_name}. "
-                f"Current counter: {self._counter}"
+                f"Type: {type_name} Counter: {counter}"
            )
        logger.debug(f"Using {temp_name} for type {type_name}")
        return local_sym_tab[temp_name].var, temp_name
@ -60,24 +77,73 @@ def get_var_ptr_from_name(var_name, local_sym_tab):
 def create_int_constant_ptr(value, builder, local_sym_tab, int_width=64):
    """Create a pointer to an integer constant."""
-    # Default to 64-bit integer
+    int_type = ir.IntType(int_width)
-    ptr, temp_name = _temp_pool_manager.get_next_temp(local_sym_tab)
+    ptr, temp_name = _temp_pool_manager.get_next_temp(local_sym_tab, int_type)
    logger.info(f"Using temp variable '{temp_name}' for int constant {value}")
-    const_val = ir.Constant(ir.IntType(int_width), value)
+    const_val = ir.Constant(int_type, value)
    builder.store(const_val, ptr)
    return ptr
 def get_or_create_ptr_from_arg(
-    func, module, arg, builder, local_sym_tab, map_sym_tab, struct_sym_tab=None
+    func,
    module,
    arg,
    builder,
    local_sym_tab,
    map_sym_tab,
    struct_sym_tab=None,
    expected_type=None,
 ):
    """Extract or create pointer from the call arguments."""
    logger.info(f"Getting pointer from arg: {ast.dump(arg)}")
    sz = None
    if isinstance(arg, ast.Name):
        # Stack space is already allocated
        ptr = get_var_ptr_from_name(arg.id, local_sym_tab)
    elif isinstance(arg, ast.Constant) and isinstance(arg.value, int):
-        ptr = create_int_constant_ptr(arg.value, builder, local_sym_tab)
+        int_width = 64  # Default to i64
        if expected_type and isinstance(expected_type, ir.IntType):
            int_width = expected_type.width
        ptr = create_int_constant_ptr(arg.value, builder, local_sym_tab, int_width)
    elif isinstance(arg, ast.Attribute):
        # A struct field
        struct_name = arg.value.id
        field_name = arg.attr
        if not local_sym_tab or struct_name not in local_sym_tab:
            raise ValueError(f"Struct '{struct_name}' not found")
        struct_type = local_sym_tab[struct_name].metadata
        if not struct_sym_tab or struct_type not in struct_sym_tab:
            raise ValueError(f"Struct type '{struct_type}' not found")
        struct_info = struct_sym_tab[struct_type]
        if field_name not in struct_info.fields:
            raise ValueError(
                f"Field '{field_name}' not found in struct '{struct_name}'"
            )
        field_type = struct_info.field_type(field_name)
        struct_ptr = local_sym_tab[struct_name].var
        # Special handling for char arrays
        if (
            isinstance(field_type, ir.ArrayType)
            and isinstance(field_type.element, ir.IntType)
            and field_type.element.width == 8
        ):
            ptr, sz = get_char_array_ptr_and_size(
                arg, builder, local_sym_tab, struct_sym_tab
            )
            if not ptr:
                raise ValueError("Failed to get char array pointer from struct field")
        else:
            ptr = struct_info.gep(builder, struct_ptr, field_name)
    else:
        # NOTE: For any integer expression reaching this branch, it is probably a struct field or a binop
        # Evaluate the expression and store the result in a temp variable
        val = get_operand_value(
            func, module, arg, builder, local_sym_tab, map_sym_tab, struct_sym_tab
@ -85,13 +151,20 @@ def get_or_create_ptr_from_arg(
        if val is None:
            raise ValueError("Failed to evaluate expression for helper arg.")
-        # NOTE: We assume the result is an int64 for now
+        ptr, temp_name = _temp_pool_manager.get_next_temp(local_sym_tab, expected_type)
        # if isinstance(arg, ast.Attribute):
        # return val
        ptr, temp_name = _temp_pool_manager.get_next_temp(local_sym_tab)
        logger.info(f"Using temp variable '{temp_name}' for expression result")
        if (
            isinstance(val.type, ir.IntType)
            and expected_type
            and val.type.width > expected_type.width
        ):
            val = builder.trunc(val, expected_type)
        builder.store(val, ptr)
    # NOTE: For char arrays, also return size
    if sz:
        return ptr, sz
    return ptr
@ -214,7 +287,10 @@ def get_char_array_ptr_and_size(buf_arg, builder, local_sym_tab, struct_sym_tab)
        field_type = struct_info.field_type(field_name)
        if not _is_char_array(field_type):
-            raise ValueError("Expected char array field")
+            logger.info(
                "Field is not a char array, falling back to int or ptr detection"
            )
            return None, 0
        struct_ptr = local_sym_tab[var_name].var
        field_ptr = struct_info.gep(builder, struct_ptr, field_name)
@ -274,3 +350,23 @@ def get_ptr_from_arg(
        raise ValueError(f"Expected pointer type, got {val_type}")
    return val, val_type
 def get_int_value_from_arg(
    arg, func, module, builder, local_sym_tab, map_sym_tab, struct_sym_tab
 ):
    """Evaluate argument and return integer value"""
    result = eval_expr(
        func, module, builder, arg, local_sym_tab, map_sym_tab, struct_sym_tab
    )
    if not result:
        raise ValueError("Failed to evaluate argument")
    val, val_type = result
    if not isinstance(val_type, ir.IntType):
        raise ValueError(f"Expected integer type, got {val_type}")
    return val
--- a/pythonbpf/helper/helpers.py
+++ b/pythonbpf/helper/helpers.py
@ -27,6 +27,36 @@ def probe_read_str(dst, src):
    return ctypes.c_int64(0)
 def random():
    """get a pseudorandom u32 number"""
    return ctypes.c_int32(0)
 def probe_read(dst, size, src):
    """Safely read data from kernel memory"""
    return ctypes.c_int64(0)
 def smp_processor_id():
    """get the current CPU id"""
    return ctypes.c_int32(0)
 def uid():
    """get current user id"""
    return ctypes.c_int32(0)
 def skb_store_bytes(offset, from_buf, size, flags=0):
    """store bytes into a socket buffer"""
    return ctypes.c_int64(0)
 def get_stack(buf, flags=0):
    """get the current stack trace"""
    return ctypes.c_int64(0)
 XDP_ABORTED = ctypes.c_int64(0)
 XDP_DROP = ctypes.c_int64(1)
 XDP_PASS = ctypes.c_int64(2)
--- a/pythonbpf/helper/printk_formatter.py
+++ b/pythonbpf/helper/printk_formatter.py
@ -4,6 +4,7 @@ import logging
 from llvmlite import ir
 from pythonbpf.expr import eval_expr, get_base_type_and_depth, deref_to_depth
 from pythonbpf.expr.vmlinux_registry import VmlinuxHandlerRegistry
 from pythonbpf.helper.helper_utils import get_char_array_ptr_and_size
 logger = logging.getLogger(__name__)
@ -219,11 +220,12 @@ def _prepare_expr_args(expr, func, module, builder, local_sym_tab, struct_sym_ta
    """Evaluate and prepare an expression to use as an arg for bpf_printk."""
    # Special case: struct field char array needs pointer to first element
-    char_array_ptr = _get_struct_char_array_ptr(
+    if isinstance(expr, ast.Attribute):
-        expr, builder, local_sym_tab, struct_sym_tab
+        char_array_ptr, _ = get_char_array_ptr_and_size(
-    )
+            expr, builder, local_sym_tab, struct_sym_tab
-    if char_array_ptr:
+        )
-        return char_array_ptr
+        if char_array_ptr:
            return char_array_ptr
    # Regular expression evaluation
    val, _ = eval_expr(func, module, builder, expr, local_sym_tab, None, struct_sym_tab)
@ -242,52 +244,6 @@ def _prepare_expr_args(expr, func, module, builder, local_sym_tab, struct_sym_ta
        return ir.Constant(ir.IntType(64), 0)
 def _get_struct_char_array_ptr(expr, builder, local_sym_tab, struct_sym_tab):
    """Get pointer to first element of char array in struct field, or None."""
    if not (isinstance(expr, ast.Attribute) and isinstance(expr.value, ast.Name)):
        return None
    var_name = expr.value.id
    field_name = expr.attr
    # Check if it's a valid struct field
    if not (
        local_sym_tab
        and var_name in local_sym_tab
        and struct_sym_tab
        and local_sym_tab[var_name].metadata in struct_sym_tab
    ):
        return None
    struct_type = local_sym_tab[var_name].metadata
    struct_info = struct_sym_tab[struct_type]
    if field_name not in struct_info.fields:
        return None
    field_type = struct_info.field_type(field_name)
    # Check if it's a char array
    is_char_array = (
        isinstance(field_type, ir.ArrayType)
        and isinstance(field_type.element, ir.IntType)
        and field_type.element.width == 8
    )
    if not is_char_array:
        return None
    # Get field pointer and GEP to first element: [N x i8]* -> i8*
    struct_ptr = local_sym_tab[var_name].var
    field_ptr = struct_info.gep(builder, struct_ptr, field_name)
    return builder.gep(
        field_ptr,
        [ir.Constant(ir.IntType(32), 0), ir.Constant(ir.IntType(32), 0)],
        inbounds=True,
    )
 def _handle_pointer_arg(val, func, builder):
    """Convert pointer type for bpf_printk."""
    target, depth = get_base_type_and_depth(val.type)
--- a/pythonbpf/maps/init.py
+++ b/pythonbpf/maps/init.py
@ -1,4 +1,5 @@
-from .maps import HashMap, PerfEventArray, RingBuf
+from .maps import HashMap, PerfEventArray, RingBuffer
 from .maps_pass import maps_proc
 from .map_types import BPFMapType
-__all__ = ["HashMap", "PerfEventArray", "maps_proc", "RingBuf"]
+__all__ = ["HashMap", "PerfEventArray", "maps_proc", "RingBuffer", "BPFMapType"]
--- a/pythonbpf/maps/map_debug_info.py
+++ b/pythonbpf/maps/map_debug_info.py
@ -1,22 +1,31 @@
 import logging
 from llvmlite import ir
 from pythonbpf.debuginfo import DebugInfoGenerator
 from .map_types import BPFMapType
 logger: logging.Logger = logging.getLogger(__name__)
-def create_map_debug_info(module, map_global, map_name, map_params):
+
 def create_map_debug_info(module, map_global, map_name, map_params, structs_sym_tab):
    """Generate debug info metadata for BPF maps HASH and PERF_EVENT_ARRAY"""
    generator = DebugInfoGenerator(module)
-
+    logger.info(f"Creating debug info for map {map_name} with params {map_params}")
    uint_type = generator.get_uint32_type()
    ulong_type = generator.get_uint64_type()
    array_type = generator.create_array_type(
        uint_type, map_params.get("type", BPFMapType.UNSPEC).value
    )
    type_ptr = generator.create_pointer_type(array_type, 64)
    key_ptr = generator.create_pointer_type(
-        array_type if "key_size" in map_params else ulong_type, 64
+        array_type
        if "key_size" in map_params
        else _get_key_val_dbg_type(map_params.get("key"), generator, structs_sym_tab),
        64,
    )
    value_ptr = generator.create_pointer_type(
-        array_type if "value_size" in map_params else ulong_type, 64
+        array_type
        if "value_size" in map_params
        else _get_key_val_dbg_type(map_params.get("value"), generator, structs_sym_tab),
        64,
    )
    elements_arr = []
@ -64,7 +73,13 @@ def create_map_debug_info(module, map_global, map_name, map_params):
    return global_var
-def create_ringbuf_debug_info(module, map_global, map_name, map_params):
+# TODO: This should not be exposed outside of the module.
 # Ideally we should expose a single create_map_debug_info function that handles all map types.
 # We can probably use a registry pattern to register different map types and their debug info generators.
 # map_params["type"] will be used to determine which generator to use.
 def create_ringbuf_debug_info(
    module, map_global, map_name, map_params, structs_sym_tab
 ):
    """Generate debug information metadata for BPF RINGBUF map"""
    generator = DebugInfoGenerator(module)
@ -91,3 +106,65 @@ def create_ringbuf_debug_info(module, map_global, map_name, map_params):
    )
    map_global.set_metadata("dbg", global_var)
    return global_var
 def _get_key_val_dbg_type(name, generator, structs_sym_tab):
    """Get the debug type for key/value based on type object"""
    if not name:
        logger.warn("No name provided for key/value type, defaulting to uint64")
        return generator.get_uint64_type()
    type_obj = structs_sym_tab.get(name)
    if type_obj:
        return _get_struct_debug_type(type_obj, generator, structs_sym_tab)
    # Fallback to basic types
    logger.info(f"No struct named {name}, falling back to basic type")
    # NOTE: Only handling int and long for now
    if name in ["c_int32", "c_uint32"]:
        return generator.get_uint32_type()
    # Default fallback for now
    return generator.get_uint64_type()
 def _get_struct_debug_type(struct_obj, generator, structs_sym_tab):
    """Recursively create debug type for struct"""
    elements_arr = []
    for fld in struct_obj.fields.keys():
        fld_type = struct_obj.field_type(fld)
        if isinstance(fld_type, ir.IntType):
            if fld_type.width == 32:
                fld_dbg_type = generator.get_uint32_type()
            else:
                # NOTE: Assuming 64-bit for all other int types
                fld_dbg_type = generator.get_uint64_type()
        elif isinstance(fld_type, ir.ArrayType):
            # NOTE: Array types have u8 elements only for now
            # Debug info generation should fail for other types
            elem_type = fld_type.element
            if isinstance(elem_type, ir.IntType) and elem_type.width == 8:
                char_type = generator.get_uint8_type()
                fld_dbg_type = generator.create_array_type(char_type, fld_type.count)
            else:
                logger.warning(
                    f"Array element type {str(elem_type)} not supported for debug info, skipping"
                )
                continue
        else:
            # NOTE: Only handling int and char arrays for now
            logger.warning(
                f"Field type {str(fld_type)} not supported for debug info, skipping"
            )
            continue
        member = generator.create_struct_member(
            fld, fld_dbg_type, struct_obj.field_size(fld)
        )
        elements_arr.append(member)
    struct_type = generator.create_struct_type(
        elements_arr, struct_obj.size, is_distinct=True
    )
    return struct_type
--- a/pythonbpf/maps/maps.py
+++ b/pythonbpf/maps/maps.py
@ -36,11 +36,14 @@ class PerfEventArray:
        pass  # Placeholder for output method
-class RingBuf:
+class RingBuffer:
    def __init__(self, max_entries):
        self.max_entries = max_entries
-    def reserve(self, size: int, flags=0):
+    def output(self, data, flags=0):
        pass
    def reserve(self, size: int):
        if size > self.max_entries:
            raise ValueError("size cannot be greater than set maximum entries")
        return 0
@ -48,4 +51,7 @@ class RingBuf:
    def submit(self, data, flags=0):
        pass
    def discard(self, data, flags=0):
        pass
    # add discard, output and also give names to flags and stuff
--- a/pythonbpf/maps/maps_pass.py
+++ b/pythonbpf/maps/maps_pass.py
@ -3,7 +3,7 @@ import logging
 from logging import Logger
 from llvmlite import ir
-from .maps_utils import MapProcessorRegistry
+from .maps_utils import MapProcessorRegistry, MapSymbol
 from .map_types import BPFMapType
 from .map_debug_info import create_map_debug_info, create_ringbuf_debug_info
 from pythonbpf.expr.vmlinux_registry import VmlinuxHandlerRegistry
@ -12,13 +12,15 @@ from pythonbpf.expr.vmlinux_registry import VmlinuxHandlerRegistry
 logger: Logger = logging.getLogger(__name__)
-def maps_proc(tree, module, chunks):
+def maps_proc(tree, module, chunks, structs_sym_tab):
    """Process all functions decorated with @map to find BPF maps"""
    map_sym_tab = {}
    for func_node in chunks:
        if is_map(func_node):
            logger.info(f"Found BPF map: {func_node.name}")
-            map_sym_tab[func_node.name] = process_bpf_map(func_node, module)
+            map_sym_tab[func_node.name] = process_bpf_map(
                func_node, module, structs_sym_tab
            )
    return map_sym_tab
@ -46,7 +48,7 @@ def create_bpf_map(module, map_name, map_params):
    map_global.align = 8
    logger.info(f"Created BPF map: {map_name} with params {map_params}")
-    return map_global
+    return MapSymbol(type=map_params["type"], sym=map_global, params=map_params)
 def _parse_map_params(rval, expected_args=None):
@ -60,7 +62,8 @@ def _parse_map_params(rval, expected_args=None):
            if i < len(rval.args):
                arg = rval.args[i]
                if isinstance(arg, ast.Name):
-                    params[arg_name] = arg.id
+                    result = _get_vmlinux_enum(handler, arg.id)
                    params[arg_name] = result if result is not None else arg.id
                elif isinstance(arg, ast.Constant):
                    params[arg_name] = arg.value
@ -68,33 +71,48 @@ def _parse_map_params(rval, expected_args=None):
    for keyword in rval.keywords:
        if isinstance(keyword.value, ast.Name):
            name = keyword.value.id
-            if handler and handler.is_vmlinux_enum(name):
+            result = _get_vmlinux_enum(handler, name)
-                result = handler.get_vmlinux_enum_value(name)
+            params[keyword.arg] = result if result is not None else name
                params[keyword.arg] = result if result is not None else name
            else:
                params[keyword.arg] = name
        elif isinstance(keyword.value, ast.Constant):
            params[keyword.arg] = keyword.value.value
    return params
-@MapProcessorRegistry.register("RingBuf")
+def _get_vmlinux_enum(handler, name):
-def process_ringbuf_map(map_name, rval, module):
+    if handler and handler.is_vmlinux_enum(name):
        return handler.get_vmlinux_enum_value(name)
@MapProcessorRegistry.register("RingBuffer")
 def process_ringbuf_map(map_name, rval, module, structs_sym_tab):
    """Process a BPF_RINGBUF map declaration"""
    logger.info(f"Processing Ringbuf: {map_name}")
    map_params = _parse_map_params(rval, expected_args=["max_entries"])
    map_params["type"] = BPFMapType.RINGBUF
    # NOTE: constraints borrowed from https://docs.ebpf.io/linux/map-type/BPF_MAP_TYPE_RINGBUF/
    max_entries = map_params.get("max_entries")
    if (
        not isinstance(max_entries, int)
        or max_entries < 4096
        or (max_entries & (max_entries - 1)) != 0
    ):
        raise ValueError(
            "Ringbuf max_entries must be a power of two greater than or equal to the page size (4096)"
        )
    logger.info(f"Ringbuf map parameters: {map_params}")
    map_global = create_bpf_map(module, map_name, map_params)
-    create_ringbuf_debug_info(module, map_global, map_name, map_params)
+    create_ringbuf_debug_info(
        module, map_global.sym, map_name, map_params, structs_sym_tab
    )
    return map_global
@MapProcessorRegistry.register("HashMap")
-def process_hash_map(map_name, rval, module):
+def process_hash_map(map_name, rval, module, structs_sym_tab):
    """Process a BPF_HASH map declaration"""
    logger.info(f"Processing HashMap: {map_name}")
    map_params = _parse_map_params(rval, expected_args=["key", "value", "max_entries"])
@ -103,12 +121,12 @@ def process_hash_map(map_name, rval, module):
    logger.info(f"Map parameters: {map_params}")
    map_global = create_bpf_map(module, map_name, map_params)
    # Generate debug info for BTF
-    create_map_debug_info(module, map_global, map_name, map_params)
+    create_map_debug_info(module, map_global.sym, map_name, map_params, structs_sym_tab)
    return map_global
@MapProcessorRegistry.register("PerfEventArray")
-def process_perf_event_map(map_name, rval, module):
+def process_perf_event_map(map_name, rval, module, structs_sym_tab):
    """Process a BPF_PERF_EVENT_ARRAY map declaration"""
    logger.info(f"Processing PerfEventArray: {map_name}")
    map_params = _parse_map_params(rval, expected_args=["key_size", "value_size"])
@ -117,11 +135,11 @@ def process_perf_event_map(map_name, rval, module):
    logger.info(f"Map parameters: {map_params}")
    map_global = create_bpf_map(module, map_name, map_params)
    # Generate debug info for BTF
-    create_map_debug_info(module, map_global, map_name, map_params)
+    create_map_debug_info(module, map_global.sym, map_name, map_params)
    return map_global
-def process_bpf_map(func_node, module):
+def process_bpf_map(func_node, module, structs_sym_tab):
    """Process a BPF map (a function decorated with @map)"""
    map_name = func_node.name
    logger.info(f"Processing BPF map: {map_name}")
@ -140,7 +158,7 @@ def process_bpf_map(func_node, module):
    if isinstance(rval, ast.Call) and isinstance(rval.func, ast.Name):
        handler = MapProcessorRegistry.get_processor(rval.func.id)
        if handler:
-            return handler(map_name, rval, module)
+            return handler(map_name, rval, module, structs_sym_tab)
        else:
            logger.warning(f"Unknown map type {rval.func.id}, defaulting to HashMap")
            return process_hash_map(map_name, rval, module)
--- a/pythonbpf/maps/maps_utils.py
+++ b/pythonbpf/maps/maps_utils.py
@ -1,5 +1,17 @@
 from collections.abc import Callable
 from dataclasses import dataclass
 from llvmlite import ir
 from typing import Any
 from .map_types import BPFMapType
@dataclass
 class MapSymbol:
    """Class representing a symbol on the map"""
    type: BPFMapType
    sym: ir.GlobalVariable
    params: dict[str, Any] | None = None
 class MapProcessorRegistry:
--- a/pythonbpf/type_deducer.py
+++ b/pythonbpf/type_deducer.py
@ -17,7 +17,6 @@ mapping = {
    "c_ulong": ir.IntType(64),
    "c_longlong": ir.IntType(64),
    "c_uint": ir.IntType(32),
    "c_int": ir.IntType(32),
    # Not so sure about this one
    "str": ir.PointerType(ir.IntType(8)),
 }
--- a/pythonbpf/vmlinux_parser/class_handler.py
+++ b/pythonbpf/vmlinux_parser/class_handler.py
@ -16,6 +16,33 @@ def get_module_symbols(module_name: str):
    return [name for name in dir(imported_module)], imported_module
 def unwrap_pointer_type(type_obj: Any) -> Any:
    """
    Recursively unwrap all pointer layers to get the base type.
    This handles multiply nested pointers like LP_LP_struct_attribute_group
    and returns the base type (struct_attribute_group).
    Stops unwrapping when reaching a non-pointer type (one without _type_ attribute).
    Args:
        type_obj: The type object to unwrap
    Returns:
        The base type after unwrapping all pointer layers
    """
    current_type = type_obj
    # Keep unwrapping while it's a pointer/array type (has _type_)
    # But stop if _type_ is just a string or basic type marker
    while hasattr(current_type, "_type_"):
        next_type = current_type._type_
        # Stop if _type_ is a string (like 'c' for c_char)
        if isinstance(next_type, str):
            break
        current_type = next_type
    return current_type
 def process_vmlinux_class(
    node,
    llvm_module,
@ -158,13 +185,90 @@ def process_vmlinux_post_ast(
                        if hasattr(elem_type, "_length_") and is_complex_type:
                            type_length = elem_type._length_
-                        if containing_type.__module__ == "vmlinux":
+                        # Unwrap all pointer layers to get the base type for dependency tracking
-                            new_dep_node.add_dependent(
+                        base_type = unwrap_pointer_type(elem_type)
-                                elem_type._type_.__name__
+                        base_type_module = getattr(base_type, "__module__", None)
-                                if hasattr(elem_type._type_, "__name__")
+
-                                else str(elem_type._type_)
+                        if base_type_module == "vmlinux":
                            base_type_name = (
                                base_type.__name__
                                if hasattr(base_type, "__name__")
                                else str(base_type)
                            )
                            # ONLY add vmlinux types as dependencies
                            new_dep_node.add_dependent(base_type_name)
                            logger.debug(
                                f"{containing_type} containing type of parent {elem_name} with {elem_type} and ctype {ctype_complex_type} and length {type_length}"
                            )
                            new_dep_node.set_field_containing_type(
                                elem_name, containing_type
                            )
                            new_dep_node.set_field_type_size(elem_name, type_length)
                            new_dep_node.set_field_ctype_complex_type(
                                elem_name, ctype_complex_type
                            )
                            new_dep_node.set_field_type(elem_name, elem_type)
                            # Check the containing_type module to decide whether to recurse
                            containing_type_module = getattr(
                                containing_type, "__module__", None
                            )
                            if containing_type_module == "vmlinux":
                                # Also unwrap containing_type to get base type name
                                base_containing_type = unwrap_pointer_type(
                                    containing_type
                                )
                                containing_type_name = (
                                    base_containing_type.__name__
                                    if hasattr(base_containing_type, "__name__")
                                    else str(base_containing_type)
                                )
                                # Check for self-reference or already processed
                                if containing_type_name == current_symbol_name:
                                    # Self-referential pointer
                                    logger.debug(
                                        f"Self-referential pointer in {current_symbol_name}.{elem_name}"
                                    )
                                    new_dep_node.set_field_ready(elem_name, True)
                                elif handler.has_node(containing_type_name):
                                    # Already processed
                                    logger.debug(
                                        f"Reusing already processed {containing_type_name}"
                                    )
                                    new_dep_node.set_field_ready(elem_name, True)
                                else:
                                    # Process recursively - use base containing type, not the pointer wrapper
                                    new_dep_node.add_dependent(containing_type_name)
                                    process_vmlinux_post_ast(
                                        base_containing_type,
                                        llvm_handler,
                                        handler,
                                        processing_stack,
                                    )
                                    new_dep_node.set_field_ready(elem_name, True)
                            elif (
                                containing_type_module == ctypes.__name__
                                or containing_type_module is None
                            ):
                                logger.debug(
                                    f"Processing ctype internal{containing_type}"
                                )
                                new_dep_node.set_field_ready(elem_name, True)
                            else:
                                raise TypeError(
                                    f"Module not supported in recursive resolution: {containing_type_module}"
                                )
                        elif (
                            base_type_module == ctypes.__name__
                            or base_type_module is None
                        ):
                            # Handle ctypes or types with no module (like some internal ctypes types)
                            # DO NOT add ctypes as dependencies - just set field metadata and mark ready
                            logger.debug(
                                f"Base type {base_type} is ctypes - NOT adding as dependency, just processing field"
                            )
                        elif containing_type.__module__ == ctypes.__name__:
                            if isinstance(elem_type, type):
                                if issubclass(elem_type, ctypes.Array):
                                    ctype_complex_type = ctypes.Array
@ -176,57 +280,20 @@ def process_vmlinux_post_ast(
                                    )
                            else:
                                raise TypeError("Unsupported ctypes subclass")
                        else:
                            raise ImportError(
                                f"Unsupported module of {containing_type}"
                            )
                        logger.debug(
                            f"{containing_type} containing type of parent {elem_name} with {elem_type} and ctype {ctype_complex_type} and length {type_length}"
                        )
                        new_dep_node.set_field_containing_type(
                            elem_name, containing_type
                        )
                        new_dep_node.set_field_type_size(elem_name, type_length)
                        new_dep_node.set_field_ctype_complex_type(
                            elem_name, ctype_complex_type
                        )
                        new_dep_node.set_field_type(elem_name, elem_type)
                        if containing_type.__module__ == "vmlinux":
                            containing_type_name = (
                                containing_type.__name__
                                if hasattr(containing_type, "__name__")
                                else str(containing_type)
                            )
-                            # Check for self-reference or already processed
+                            # Set field metadata but DO NOT add dependency or recurse
-                            if containing_type_name == current_symbol_name:
+                            new_dep_node.set_field_containing_type(
-                                # Self-referential pointer
+                                elem_name, containing_type
-                                logger.debug(
+                            )
-                                    f"Self-referential pointer in {current_symbol_name}.{elem_name}"
+                            new_dep_node.set_field_type_size(elem_name, type_length)
-                                )
+                            new_dep_node.set_field_ctype_complex_type(
-                                new_dep_node.set_field_ready(elem_name, True)
+                                elem_name, ctype_complex_type
-                            elif handler.has_node(containing_type_name):
+                            )
-                                # Already processed
+                            new_dep_node.set_field_type(elem_name, elem_type)
                                logger.debug(
                                    f"Reusing already processed {containing_type_name}"
                                )
                                new_dep_node.set_field_ready(elem_name, True)
                            else:
                                # Process recursively - THIS WAS MISSING
                                new_dep_node.add_dependent(containing_type_name)
                                process_vmlinux_post_ast(
                                    containing_type,
                                    llvm_handler,
                                    handler,
                                    processing_stack,
                                )
                                new_dep_node.set_field_ready(elem_name, True)
                        elif containing_type.__module__ == ctypes.__name__:
                            logger.debug(f"Processing ctype internal{containing_type}")
                            new_dep_node.set_field_ready(elem_name, True)
                        else:
-                            raise TypeError(
+                            raise ImportError(
-                                "Module not supported in recursive resolution"
+                                f"Unsupported module of {base_type}: {base_type_module}"
                            )
                    else:
                        new_dep_node.add_dependent(
@ -245,9 +312,12 @@ def process_vmlinux_post_ast(
                    raise ValueError(
                        f"{elem_name} with type {elem_type} from module {module_name} not supported in recursive resolver"
                    )
-
+    elif module_name == ctypes.__name__ or module_name is None:
        # Handle ctypes types - these don't need processing, just return
        logger.debug(f"Skipping ctypes type {current_symbol_name}")
        return True
    else:
-        raise ImportError("UNSUPPORTED Module")
+        raise ImportError(f"UNSUPPORTED Module {module_name}")
    logger.info(
        f"{current_symbol_name} processed and handler readiness {handler.is_ready}"
--- a/pythonbpf/vmlinux_parser/import_detector.py
+++ b/pythonbpf/vmlinux_parser/import_detector.py
@ -11,7 +11,9 @@ from .class_handler import process_vmlinux_class
 logger = logging.getLogger(__name__)
-def detect_import_statement(tree: ast.AST) -> list[tuple[str, ast.ImportFrom]]:
+def detect_import_statement(
    tree: ast.AST,
 ) -> list[tuple[str, ast.ImportFrom, str, str]]:
    """
    Parse AST and detect import statements from vmlinux.
@ -25,7 +27,7 @@ def detect_import_statement(tree: ast.AST) -> list[tuple[str, ast.ImportFrom]]:
        List of tuples containing (module_name, imported_item) for each vmlinux import
    Raises:
-        SyntaxError: If multiple imports from vmlinux are attempted or import * is used
+        SyntaxError: If import * is used
    """
    vmlinux_imports = []
@ -40,28 +42,19 @@ def detect_import_statement(tree: ast.AST) -> list[tuple[str, ast.ImportFrom]]:
                        "Please import specific types explicitly."
                    )
                # Check for multiple imports: from vmlinux import A, B, C
                if len(node.names) > 1:
                    imported_names = [alias.name for alias in node.names]
                    raise SyntaxError(
                        f"Multiple imports from vmlinux are not supported. "
                        f"Found: {', '.join(imported_names)}. "
                        f"Please use separate import statements for each type."
                    )
                # Check if no specific import is specified (should not happen with valid Python)
                if len(node.names) == 0:
                    raise SyntaxError(
                        "Import from vmlinux must specify at least one type."
                    )
-                # Valid single import
+                # Support multiple imports: from vmlinux import A, B, C
                for alias in node.names:
                    import_name = alias.name
-                    # Use alias if provided, otherwise use the original name (commented)
+                    # Use alias if provided, otherwise use the original name
-                    # as_name = alias.asname if alias.asname else alias.name
+                    as_name = alias.asname if alias.asname else alias.name
-                    vmlinux_imports.append(("vmlinux", node))
+                    vmlinux_imports.append(("vmlinux", node, import_name, as_name))
-                    logger.info(f"Found vmlinux import: {import_name}")
+                    logger.info(f"Found vmlinux import: {import_name} as {as_name}")
        # Handle "import vmlinux" statements (not typical but should be rejected)
        elif isinstance(node, ast.Import):
@ -103,40 +96,37 @@ def vmlinux_proc(tree: ast.AST, module):
    with open(source_file, "r") as f:
        mod_ast = ast.parse(f.read(), filename=source_file)
-    for import_mod, import_node in import_statements:
+    for import_mod, import_node, imported_name, as_name in import_statements:
-        for alias in import_node.names:
+        found = False
-            imported_name = alias.name
+        for mod_node in mod_ast.body:
-            found = False
+            if isinstance(mod_node, ast.ClassDef) and mod_node.name == imported_name:
-            for mod_node in mod_ast.body:
+                process_vmlinux_class(mod_node, module, handler)
-                if (
+                found = True
-                    isinstance(mod_node, ast.ClassDef)
+                break
-                    and mod_node.name == imported_name
+            if isinstance(mod_node, ast.Assign):
-                ):
+                for target in mod_node.targets:
-                    process_vmlinux_class(mod_node, module, handler)
+                    if isinstance(target, ast.Name) and target.id == imported_name:
-                    found = True
+                        process_vmlinux_assign(mod_node, module, assignments, as_name)
-                    break
+                        found = True
-                if isinstance(mod_node, ast.Assign):
+                        break
-                    for target in mod_node.targets:
+            if found:
-                        if isinstance(target, ast.Name) and target.id == imported_name:
+                break
-                            process_vmlinux_assign(mod_node, module, assignments)
+        if not found:
-                            found = True
+            logger.info(f"{imported_name} not found as ClassDef or Assign in vmlinux")
                            break
                if found:
                    break
            if not found:
                logger.info(
                    f"{imported_name} not found as ClassDef or Assign in vmlinux"
                )
    IRGenerator(module, handler, assignments)
    return assignments
-def process_vmlinux_assign(node, module, assignments: dict[str, AssignmentInfo]):
+def process_vmlinux_assign(
    node, module, assignments: dict[str, AssignmentInfo], target_name=None
 ):
    """Process assignments from vmlinux module."""
    # Only handle single-target assignments
    if len(node.targets) == 1 and isinstance(node.targets[0], ast.Name):
-        target_name = node.targets[0].id
+        # Use provided target_name (for aliased imports) or fall back to original name
        if target_name is None:
            target_name = node.targets[0].id
        # Handle constant value assignments
        if isinstance(node.value, ast.Constant):
--- a/pythonbpf/vmlinux_parser/ir_gen/debug_info_gen.py
+++ b/pythonbpf/vmlinux_parser/ir_gen/debug_info_gen.py
@ -21,7 +21,7 @@ def debug_info_generation(
        generated_debug_info: List of tuples (struct, debug_info) to track generated debug info
    Returns:
-        The generated global variable debug info
+        The generated global variable debug info, or None for unsupported types
    """
    # Set up debug info generator
    generator = DebugInfoGenerator(llvm_module)
@ -31,23 +31,42 @@ def debug_info_generation(
        if existing_struct.name == struct.name:
            return debug_info
    # Check if this is a union (not supported yet)
    if not struct.name.startswith("struct_"):
        logger.warning(f"Skipping debug info generation for union: {struct.name}")
        # Create a minimal forward declaration for unions
        union_type = generator.create_struct_type(
            [], struct.__sizeof__() * 8, is_distinct=True
        )
        return union_type
    # Process all fields and create members for the struct
    members = []
    for field_name, field in struct.fields.items():
        # Get appropriate debug type for this field
        field_type = _get_field_debug_type(
            field_name, field, generator, struct, generated_debug_info
        )
        # Create struct member with proper offset
        member = generator.create_struct_member_vmlinux(
            field_name, field_type, field.offset * 8
        )
        members.append(member)
-    if struct.name.startswith("struct_"):
+    sorted_fields = sorted(struct.fields.items(), key=lambda item: item[1].offset)
-        struct_name = struct.name.removeprefix("struct_")
+
-    else:
+    for field_name, field in sorted_fields:
-        raise ValueError("Unions are not supported in the current version")
+        try:
            # Get appropriate debug type for this field
            field_type = _get_field_debug_type(
                field_name, field, generator, struct, generated_debug_info
            )
            # Ensure field_type is a tuple
            if not isinstance(field_type, tuple) or len(field_type) != 2:
                logger.error(f"Invalid field_type for {field_name}: {field_type}")
                continue
            # Create struct member with proper offset
            member = generator.create_struct_member_vmlinux(
                field_name, field_type, field.offset * 8
            )
            members.append(member)
        except Exception as e:
            logger.error(f"Failed to process field {field_name} in {struct.name}: {e}")
            continue
    struct_name = struct.name.removeprefix("struct_")
    # Create struct type with all members
    struct_type = generator.create_struct_type_with_name(
        struct_name, members, struct.__sizeof__() * 8, is_distinct=True
@ -74,11 +93,19 @@ def _get_field_debug_type(
        generated_debug_info: List of already generated debug info
    Returns:
-        The debug info type for this field
+        A tuple of (debug_type, size_in_bits)
    """
-    # Handle complex types (arrays, pointers)
+    # Handle complex types (arrays, pointers, function pointers)
    if field.ctype_complex_type is not None:
-        if issubclass(field.ctype_complex_type, ctypes.Array):
+        # Handle function pointer types (CFUNCTYPE)
        if callable(field.ctype_complex_type):
            # Function pointers are represented as void pointers
            logger.warning(
                f"Field {field_name} is a function pointer, using void pointer"
            )
            void_ptr = generator.create_pointer_type(None, 64)
            return void_ptr, 64
        elif issubclass(field.ctype_complex_type, ctypes.Array):
            # Handle array types
            element_type, base_type_size = _get_basic_debug_type(
                field.containing_type, generator
@ -100,11 +127,13 @@ def _get_field_debug_type(
        for existing_struct, debug_info in generated_debug_info:
            if existing_struct.name == struct_name:
                # Use existing debug info
-                return debug_info, existing_struct.__sizeof__()
+                return debug_info, existing_struct.__sizeof__() * 8
        # If not found, create a forward declaration
        # This will be completed when the actual struct is processed
-        logger.warning("Forward declaration in struct created")
+        logger.info(
            f"Forward declaration created for {struct_name} in {parent_struct.name}"
        )
        forward_type = generator.create_struct_type([], 0, is_distinct=True)
        return forward_type, 0
--- a/pythonbpf/vmlinux_parser/ir_gen/ir_generation.py
+++ b/pythonbpf/vmlinux_parser/ir_gen/ir_generation.py
@ -11,6 +11,10 @@ logger = logging.getLogger(__name__)
 class IRGenerator:
    # This field keeps track of the non_struct names to avoid duplicate name errors.
    type_number = 0
    unprocessed_store: list[str] = []
    # get the assignments dict and add this stuff to it.
    def __init__(self, llvm_module, handler: DependencyHandler, assignments):
        self.llvm_module = llvm_module
@ -129,7 +133,19 @@ class IRGenerator:
        for field_name, field in struct.fields.items():
            # does not take arrays and similar types into consideration yet.
-            if field.ctype_complex_type is not None and issubclass(
+            if callable(field.ctype_complex_type):
                # Function pointer case - generate a simple field accessor
                field_co_re_name, returned = self._struct_name_generator(
                    struct, field, field_index
                )
                field_index += 1
                globvar = ir.GlobalVariable(
                    self.llvm_module, ir.IntType(64), name=field_co_re_name
                )
                globvar.linkage = "external"
                globvar.set_metadata("llvm.preserve.access.index", debug_info)
                self.generated_field_names[struct.name][field_name] = globvar
            elif field.ctype_complex_type is not None and issubclass(
                field.ctype_complex_type, ctypes.Array
            ):
                array_size = field.type_size
@ -137,7 +153,7 @@ class IRGenerator:
                if containing_type.__module__ == ctypes.__name__:
                    containing_type_size = ctypes.sizeof(containing_type)
                    if array_size == 0:
-                        field_co_re_name = self._struct_name_generator(
+                        field_co_re_name, returned = self._struct_name_generator(
                            struct, field, field_index, True, 0, containing_type_size
                        )
                        globvar = ir.GlobalVariable(
@ -149,7 +165,7 @@ class IRGenerator:
                        field_index += 1
                        continue
                    for i in range(0, array_size):
-                        field_co_re_name = self._struct_name_generator(
+                        field_co_re_name, returned = self._struct_name_generator(
                            struct, field, field_index, True, i, containing_type_size
                        )
                        globvar = ir.GlobalVariable(
@ -163,12 +179,28 @@ class IRGenerator:
                array_size = field.type_size
                containing_type = field.containing_type
                if containing_type.__module__ == "vmlinux":
-                    containing_type_size = self.handler[
+                    # Unwrap all pointer layers to get the base struct type
-                        containing_type.__name__
+                    base_containing_type = containing_type
-                    ].current_offset
+                    while hasattr(base_containing_type, "_type_"):
-                    for i in range(0, array_size):
+                        next_type = base_containing_type._type_
-                        field_co_re_name = self._struct_name_generator(
+                        # Stop if _type_ is a string (like 'c' for c_char)
-                            struct, field, field_index, True, i, containing_type_size
+                        # TODO: stacked pointers not handl;ing ctypes check here as well
                        if isinstance(next_type, str):
                            break
                        base_containing_type = next_type
                    # Get the base struct name
                    base_struct_name = (
                        base_containing_type.__name__
                        if hasattr(base_containing_type, "__name__")
                        else str(base_containing_type)
                    )
                    # Look up the size using the base struct name
                    containing_type_size = self.handler[base_struct_name].current_offset
                    if array_size == 0:
                        field_co_re_name, returned = self._struct_name_generator(
                            struct, field, field_index, True, 0, containing_type_size
                        )
                        globvar = ir.GlobalVariable(
                            self.llvm_module, ir.IntType(64), name=field_co_re_name
@ -176,9 +208,30 @@ class IRGenerator:
                        globvar.linkage = "external"
                        globvar.set_metadata("llvm.preserve.access.index", debug_info)
                        self.generated_field_names[struct.name][field_name] = globvar
-                    field_index += 1
+                        field_index += 1
                    else:
                        for i in range(0, array_size):
                            field_co_re_name, returned = self._struct_name_generator(
                                struct,
                                field,
                                field_index,
                                True,
                                i,
                                containing_type_size,
                            )
                            globvar = ir.GlobalVariable(
                                self.llvm_module, ir.IntType(64), name=field_co_re_name
                            )
                            globvar.linkage = "external"
                            globvar.set_metadata(
                                "llvm.preserve.access.index", debug_info
                            )
                            self.generated_field_names[struct.name][field_name] = (
                                globvar
                            )
                        field_index += 1
            else:
-                field_co_re_name = self._struct_name_generator(
+                field_co_re_name, returned = self._struct_name_generator(
                    struct, field, field_index
                )
                field_index += 1
@ -198,7 +251,7 @@ class IRGenerator:
        is_indexed: bool = False,
        index: int = 0,
        containing_type_size: int = 0,
-    ) -> str:
+    ) -> tuple[str, bool]:
        # TODO: Does not support Unions as well as recursive pointer and array type naming
        if is_indexed:
            name = (
@ -208,7 +261,7 @@ class IRGenerator:
                + "$"
                + f"0:{field_index}:{index}"
            )
-            return name
+            return name, True
        elif struct.name.startswith("struct_"):
            name = (
                "llvm."
@ -217,9 +270,18 @@ class IRGenerator:
                + "$"
                + f"0:{field_index}"
            )
-            return name
+            return name, True
        else:
-            print(self.handler[struct.name])
+            logger.warning(
-            raise TypeError(
+                "Blindly handling non-struct type to avoid type errors in vmlinux IR generation. Possibly a union."
                "Name generation cannot occur due to type name not starting with struct"
            )
            self.type_number += 1
            unprocessed_type = "unprocessed_type_" + str(self.handler[struct.name].name)
            if self.unprocessed_store.__contains__(unprocessed_type):
                return unprocessed_type + "_" + str(self.type_number), False
            else:
                self.unprocessed_store.append(unprocessed_type)
                return unprocessed_type, False
            # raise TypeError(
            #     "Name generation cannot occur due to type name not starting with struct"
            # )
--- a/pythonbpf/vmlinux_parser/vmlinux_exports_handler.py
+++ b/pythonbpf/vmlinux_parser/vmlinux_exports_handler.py
@ -94,17 +94,140 @@ class VmlinuxHandler:
                f"Attempting to access field {field_name} of possible vmlinux struct {struct_var_name}"
            )
            python_type: type = var_info.metadata
-            struct_name = python_type.__name__
+            # Check if this is a context field (ctx) or a cast struct
-            globvar_ir, field_data = self.get_field_type(struct_name, field_name)
+            is_context_field = var_info.var is None
-            builder.function.args[0].type = ir.PointerType(ir.IntType(8))
+
-            field_ptr = self.load_ctx_field(
+            if is_context_field:
-                builder, builder.function.args[0], globvar_ir, field_data, struct_name
+                # Handle context field access (original behavior)
-            )
+                struct_name = python_type.__name__
-            # Return pointer to field and field type
+                globvar_ir, field_data = self.get_field_type(struct_name, field_name)
-            return field_ptr, field_data
+                builder.function.args[0].type = ir.PointerType(ir.IntType(8))
                field_ptr = self.load_ctx_field(
                    builder,
                    builder.function.args[0],
                    globvar_ir,
                    field_data,
                    struct_name,
                )
                return field_ptr, field_data
            else:
                # Handle cast struct field access
                struct_name = python_type.__name__
                globvar_ir, field_data = self.get_field_type(struct_name, field_name)
                # Handle cast struct field access (use bpf_probe_read_kernel)
                # Load the struct pointer from the local variable
                struct_ptr = builder.load(var_info.var)
                # Use bpf_probe_read_kernel for non-context struct field access
                field_value = self.load_struct_field(
                    builder, struct_ptr, globvar_ir, field_data, struct_name
                )
                # Return field value and field type
                return field_value, field_data
        else:
            raise RuntimeError("Variable accessed not found in symbol table")
    @staticmethod
    def load_struct_field(
        builder, struct_ptr_int, offset_global, field_data, struct_name=None
    ):
        """
        Generate LLVM IR to load a field from a regular (non-context) struct using bpf_probe_read_kernel.
        Args:
            builder: llvmlite IRBuilder instance
            struct_ptr_int: The struct pointer as an i64 value (already loaded from alloca)
            offset_global: Global variable containing the field offset (i64)
            field_data: contains data about the field
            struct_name: Name of the struct being accessed (optional)
        Returns:
            The loaded value
        """
        # Load the offset value
        offset = builder.load(offset_global)
        # Convert i64 to pointer type (BPF stores pointers as i64)
        i8_ptr_type = ir.PointerType(ir.IntType(8))
        struct_ptr = builder.inttoptr(struct_ptr_int, i8_ptr_type)
        # GEP with offset to get field pointer
        field_ptr = builder.gep(
            struct_ptr,
            [offset],
            inbounds=False,
        )
        # Determine the appropriate field size based on field information
        field_size_bytes = 8  # Default to 8 bytes (64-bit)
        int_width = 64  # Default to 64-bit
        needs_zext = False
        if field_data is not None:
            # Try to determine the size from field metadata
            if field_data.type.__module__ == ctypes.__name__:
                try:
                    field_size_bytes = ctypes.sizeof(field_data.type)
                    field_size_bits = field_size_bytes * 8
                    if field_size_bits in [8, 16, 32, 64]:
                        int_width = field_size_bits
                        logger.info(
                            f"Determined field size: {int_width} bits ({field_size_bytes} bytes)"
                        )
                        # Special handling for struct_xdp_md i32 fields
                        if struct_name == "struct_xdp_md" and int_width == 32:
                            needs_zext = True
                            logger.info(
                                "struct_xdp_md i32 field detected, will zero-extend to i64"
                            )
                    else:
                        logger.warning(
                            f"Unusual field size {field_size_bits} bits, using default 64"
                        )
                except Exception as e:
                    logger.warning(
                        f"Could not determine field size: {e}, using default 64"
                    )
            elif field_data.type.__module__ == "vmlinux":
                # For pointers to structs or complex vmlinux types
                if field_data.ctype_complex_type is not None and issubclass(
                    field_data.ctype_complex_type, ctypes._Pointer
                ):
                    int_width = 64  # Pointers are always 64-bit
                    field_size_bytes = 8
                    logger.info("Field is a pointer type, using 64 bits")
                else:
                    logger.warning("Complex vmlinux field type, using default 64 bits")
        # Allocate local storage for the field value
        local_storage = builder.alloca(ir.IntType(int_width))
        local_storage_i8_ptr = builder.bitcast(local_storage, i8_ptr_type)
        # Use bpf_probe_read_kernel to safely read the field
        # This generates:
        #   %gep = getelementptr i8, ptr %struct_ptr, i64 %offset (already done above as field_ptr)
        #   %passed = tail call ptr @llvm.bpf.passthrough.p0.p0(i32 2, ptr %gep)
        #   %result = call i64 inttoptr (i64 113 to ptr)(ptr %local_storage, i32 %size, ptr %passed)
        from pythonbpf.helper import emit_probe_read_kernel_call
        emit_probe_read_kernel_call(
            builder, local_storage_i8_ptr, field_size_bytes, field_ptr
        )
        # Load the value from local storage
        value = builder.load(local_storage)
        # Zero-extend i32 to i64 if needed
        if needs_zext:
            value = builder.zext(value, ir.IntType(64))
            logger.info("Zero-extended i32 value to i64")
        return value
    @staticmethod
    def load_ctx_field(builder, ctx_arg, offset_global, field_data, struct_name=None):
        """
--- a/tests/c-form/Makefile
+++ b/tests/c-form/Makefile
@ -3,21 +3,20 @@ CFLAGS := -emit-llvm -target bpf -c
 SRC := $(wildcard *.bpf.c)
 LL := $(SRC:.bpf.c=.bpf.ll)
 LL2 := $(SRC:.bpf.c=.bpf.o2.ll)
 OBJ := $(SRC:.bpf.c=.bpf.o)
-
+LL0 := $(SRC:.bpf.c=.bpf.o0.ll)
 .PHONY: all clean
-all: $(LL) $(OBJ) $(LL2)
+all: $(LL) $(OBJ) $(LL0)
 %.bpf.o: %.bpf.c
 	$(BPF_CLANG) -O2 -g -target bpf -c $< -o $@
 %.bpf.ll: %.bpf.c
-	$(BPF_CLANG) -O0 $(CFLAGS) -g -S $< -o $@
+	$(BPF_CLANG) $(CFLAGS) -O2 -g -S $< -o $@
-%.bpf.o2.ll: %.bpf.c
+%.bpf.o0.ll: %.bpf.c
-	$(BPF_CLANG) -O2 $(CFLAGS) -g -S $< -o $@
+	$(BPF_CLANG) $(CFLAGS) -O0 -g -S $< -o $@
 clean:
-	rm -f $(LL) $(OBJ) $(LL2)
+	rm -f $(LL) $(OBJ) $(LL0)
--- a/tests/c-form/requests.bpf.c
+++ b/tests/c-form/requests.bpf.c
@ -0,0 +1,18 @@
 #include "vmlinux.h"
 #include <bpf/bpf_helpers.h>
 #include <bpf/bpf_tracing.h>
 #include <bpf/bpf_core_read.h>
 char LICENSE[] SEC("license") = "GPL";
 SEC("kprobe/blk_mq_start_request")
 int example(struct pt_regs *ctx)
 {
    u64 a = ctx->r15;
    struct request *req = (struct request *)(ctx->di);
    unsigned int something_ns = BPF_CORE_READ(req, timeout);
    unsigned int data_len = BPF_CORE_READ(req, __data_len);
    bpf_printk("data length %lld %ld %ld\n", data_len,  something_ns, a);
    return 0;
 }
--- a/tests/c-form/requests2.bpf.c
+++ b/tests/c-form/requests2.bpf.c
@ -0,0 +1,18 @@
 #include "vmlinux.h"
 #include <bpf/bpf_helpers.h>
 #include <bpf/bpf_tracing.h>
 #include <bpf/bpf_core_read.h>
 char LICENSE[] SEC("license") = "GPL";
 SEC("kprobe/blk_mq_start_request")
 int example(struct pt_regs *ctx)
 {
    u64 a = ctx->r15;
    struct request *req = (struct request *)(ctx->di);
    unsigned int something_ns = req->timeout;
    unsigned int data_len = req->__data_len;
    bpf_printk("data length %lld %ld %ld\n", data_len,  something_ns, a);
    return 0;
 }
--- a/tests/failing_tests/vmlinux/assignment_handling.py
+++ b/tests/failing_tests/vmlinux/assignment_handling.py
@ -0,0 +1,22 @@
 from vmlinux import XDP_PASS
 from pythonbpf import bpf, section, bpfglobal, compile_to_ir
 import logging
 from ctypes import c_int64, c_void_p
@bpf
@section("kprobe/blk_mq_start_request")
 def example(ctx: c_void_p) -> c_int64:
    d = XDP_PASS  # This gives an error, but
    e = XDP_PASS + 0  # this does not
    print(f"test1 {e} test2 {d}")
    return c_int64(0)
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile_to_ir("assignment_handling.py", "assignment_handling.ll", loglevel=logging.INFO)
--- a/tests/passing_tests/hash_map_struct.py
+++ b/tests/passing_tests/hash_map_struct.py
@ -0,0 +1,42 @@
 from pythonbpf import bpf, section, struct, bpfglobal, compile, map
 from pythonbpf.maps import HashMap
 from pythonbpf.helper import pid
 from ctypes import c_void_p, c_int64
@bpf
@struct
 class val_type:
    counter: c_int64
    shizzle: c_int64
@bpf
@map
 def last() -> HashMap:
    return HashMap(key=val_type, value=c_int64, max_entries=16)
@bpf
@section("tracepoint/syscalls/sys_enter_clone")
 def hello_world(ctx: c_void_p) -> c_int64:
    obj = val_type()
    obj.counter, obj.shizzle = 42, 96
    t = last.lookup(obj)
    if t:
        print(f"Found existing entry: counter={obj.counter}, pid={t}")
        last.delete(obj)
        return 0  # type: ignore [return-value]
    val = pid()
    last.update(obj, val)
    print(f"Map updated!, {obj.counter}, {obj.shizzle}, {val}")
    return 0  # type: ignore [return-value]
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile()
--- a/tests/passing_tests/helpers/bpf_probe_read.py
+++ b/tests/passing_tests/helpers/bpf_probe_read.py
@ -0,0 +1,29 @@
 from pythonbpf import bpf, section, bpfglobal, compile, struct
 from ctypes import c_void_p, c_int64, c_uint64, c_uint32
 from pythonbpf.helper import probe_read
@bpf
@struct
 class data_t:
    pid: c_uint32
    value: c_uint64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
 def test_probe_read(ctx: c_void_p) -> c_int64:
    """Test bpf_probe_read helper function"""
    data = data_t()
    probe_read(data.value, 8, ctx)
    probe_read(data.pid, 4, ctx)
    return 0
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile()
--- a/tests/passing_tests/helpers/prandom.py
+++ b/tests/passing_tests/helpers/prandom.py
@ -0,0 +1,25 @@
 from pythonbpf import bpf, bpfglobal, section, BPF, trace_pipe
 from ctypes import c_void_p, c_int64
 from pythonbpf.helper import random
@bpf
@section("tracepoint/syscalls/sys_enter_clone")
 def hello_world(ctx: c_void_p) -> c_int64:
    r = random()
    print(f"Hello, World!, {r}")
    return 0  # type: ignore [return-value]
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 # Compile and load
 b = BPF()
 b.load()
 b.attach_all()
 trace_pipe()
--- a/tests/passing_tests/helpers/smp_processor_id.py
+++ b/tests/passing_tests/helpers/smp_processor_id.py
@ -0,0 +1,40 @@
 from pythonbpf import bpf, section, bpfglobal, compile, struct
 from ctypes import c_void_p, c_int64, c_uint32, c_uint64
 from pythonbpf.helper import smp_processor_id, ktime
@bpf
@struct
 class cpu_event_t:
    cpu_id: c_uint32
    timestamp: c_uint64
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
 def trace_with_cpu(ctx: c_void_p) -> c_int64:
    """Test bpf_get_smp_processor_id helper function"""
    # Get the current CPU ID
    cpu = smp_processor_id()
    # Print it
    print(f"Running on CPU {cpu}")
    # Use it in a struct
    event = cpu_event_t()
    event.cpu_id = smp_processor_id()
    event.timestamp = ktime()
    print(f"Event on CPU {event.cpu_id} at time {event.timestamp}")
    return 0
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile()
--- a/tests/passing_tests/helpers/uid_gid.py
+++ b/tests/passing_tests/helpers/uid_gid.py
@ -0,0 +1,31 @@
 from pythonbpf import bpf, section, bpfglobal, compile
 from ctypes import c_void_p, c_int64
 from pythonbpf.helper import uid, pid
@bpf
@section("tracepoint/syscalls/sys_enter_execve")
 def filter_by_user(ctx: c_void_p) -> c_int64:
    """Filter events by specific user ID"""
    current_uid = uid()
    # Only trace root user (UID 0)
    if current_uid == 0:
        process_id = pid()
        print(f"Root process {process_id} executed")
    # Or trace specific user (e.g., UID 1000)
    if current_uid == 1002:
        print("User 1002 executed something")
    return 0
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile()
--- a/tests/passing_tests/vmlinux/requests.py
+++ b/tests/passing_tests/vmlinux/requests.py
@ -0,0 +1,27 @@
 from vmlinux import struct_request, struct_pt_regs
 from pythonbpf import bpf, section, bpfglobal, compile_to_ir, compile
 import logging
 from ctypes import c_int64
@bpf
@section("kprobe/blk_mq_start_request")
 def example(ctx: struct_pt_regs) -> c_int64:
    a = ctx.r15
    req = struct_request(ctx.di)
    d = req.__data_len
    b = ctx.r12
    c = req.timeout
    print(f"data length {d} and {c} and {a}")
    print(f"ctx arg {b}")
    return c_int64(0)
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile_to_ir("requests.py", "requests.ll", loglevel=logging.INFO)
 compile()
--- a/tests/passing_tests/vmlinux/requests2.py
+++ b/tests/passing_tests/vmlinux/requests2.py
@ -0,0 +1,21 @@
 from vmlinux import struct_pt_regs
 from pythonbpf import bpf, section, bpfglobal, compile_to_ir
 import logging
 from ctypes import c_int64
@bpf
@section("kprobe/blk_mq_start_request")
 def example(ctx: struct_pt_regs) -> c_int64:
    req = ctx.di
    print(f"data length {req}")
    return c_int64(0)
@bpf
@bpfglobal
 def LICENSE() -> str:
    return "GPL"
 compile_to_ir("requests2.py", "requests2.ll", loglevel=logging.INFO)
Author	SHA1	Message	Date
copilot-swe-agent[bot]	3f66c4f53f	Initial plan	2025-11-22 07:59:21 +00:00
varun-r-mallya	081ee5cb4c	move requests.py to passing tests	2025-11-22 13:19:55 +05:30
varun-r-mallya	a91c3158ad	sort fields in debug info by offset order	2025-11-22 12:35:47 +05:30
varun-r-mallya	2b3635fe20	format chore	2025-11-22 01:48:44 +05:30
varun-r-mallya	6f25c554a9	fix CO-RE read for cast structs	2025-11-22 01:47:25 +05:30
varun-r-mallya	84507b8b98	add btf probe read kernel helper	2025-11-22 00:57:12 +05:30
varun-r-mallya	a42a75179d	format chore	2025-11-22 00:37:39 +05:30
varun-r-mallya	377fa4041d	add regular struct field access handling in vmlinux_registry.py	2025-11-22 00:36:59 +05:30
varun-r-mallya	99321c7669	add a failing C test	2025-11-21 23:01:08 +05:30
varun-r-mallya	11850d16d3	field check in allocation pass	2025-11-21 21:47:58 +05:30
varun-r-mallya	9ee821c7f6	make pointer allocation feasible but subverting LLC	2025-11-21 21:47:55 +05:30
varun-r-mallya	25394059a6	allow casting	2025-11-21 21:47:10 +05:30
varun-r-mallya	fde8eab775	allow allocation pass on vmlinux cast	2025-11-21 21:47:07 +05:30
varunrmallya	42b8865a56	Merge branch 'master' into request-struct	2025-11-21 02:10:52 +05:30
varun-r-mallya	144d9b0ab4	change c-file test structure	2025-11-20 17:24:02 +05:30
varun-r-mallya	902a52a07d	remove debug print statements	2025-11-20 14:39:13 +05:30
varun-r-mallya	306570953b	format chore	2025-11-20 14:18:45 +05:30
varun-r-mallya	740eed45e1	add placeholder debug info to shut llvmlite up about NoneType	2025-11-20 14:17:57 +05:30
varun-r-mallya	c8801f4c3e	nonetype not parsed	2025-11-19 23:35:10 +05:30
Pragyansh Chaturvedi	e5b3b001ce	Minor fix for PTR_TO_MAP_VALUE_OR_NULL target	2025-11-19 04:29:35 +05:30
Pragyansh Chaturvedi	19b42b9a19	Allocate hashmap lookup return vars based on the value type of said hashmap	2025-11-19 04:09:51 +05:30
Pragyansh Chaturvedi	9f5ec62383	Add get_uint8_type to DebugInfoGenerator	2025-11-19 03:24:40 +05:30
Pragyansh Chaturvedi	7af54df7c0	Add passing test hash_map_struct.py for using structs as hashmap key/val types	2025-11-19 00:17:01 +05:30
Pragyansh Chaturvedi	573bbb350e	Allow structs to be key/val type for hashmaps	2025-11-19 00:08:15 +05:30
Pragyansh Chaturvedi	64679f8072	Add skeleton _get_key_val_dbg_type in maps_debug_info.py	2025-11-18 05:00:00 +05:30
Pragyansh Chaturvedi	5667facf23	Pass down structs_sym_tab to maps_debug_info, allow vmlinux enums to be used in an indexed format for map declaration	2025-11-18 04:34:51 +05:30
Pragyansh Chaturvedi	4f8af16a17	Pass structs_sym_tab to maps_proc	2025-11-18 04:34:42 +05:30
Pragyansh Chaturvedi	b84884162d	Merge pull request #69 from pythonbpf/symex Add support for userspace+kernelspace stack trace example using blazesym	2025-11-17 01:47:35 +05:30
Pragyansh Chaturvedi	e9bb90cb70	Add docstring for bpf_get_stack_emitter	2025-11-17 01:46:57 +05:30
varun-r-mallya	49740598ea	format chore	2025-11-13 09:31:10 +05:30
varun-r-mallya	73bbf00e7c	add tests	2025-11-13 09:29:53 +05:30
Pragyansh Chaturvedi	9d76502d5a	Fix get_flags_val usage	2025-11-13 02:24:35 +05:30
Pragyansh Chaturvedi	a10da4a277	Implement bpf_get_stack handler	2025-11-13 00:59:50 +05:30
Pragyansh Chaturvedi	29e90601b7	Init bpf_get_stack emitter	2025-11-13 00:51:48 +05:30
Pragyansh Chaturvedi	56df05a93c	Janitorial formatting	2025-11-12 14:38:35 +05:30
Pragyansh Chaturvedi	a55efc6469	Implement output helper for RingBuf maps, add a match-case based dispatch for output helper handlers for multiple map types	2025-11-12 14:06:09 +05:30
Pragyansh Chaturvedi	64cd2d2fc2	Set minimum supported Python version to 3.10	2025-11-12 14:06:00 +05:30
Pragyansh Chaturvedi	cbddc0aa96	Introduce MapSymbol to propagate map type info in map_sym_tab	2025-11-12 13:16:23 +05:30
Pragyansh Chaturvedi	209df33c8f	Add RingBuf submit and reserve helpers	2025-11-12 03:53:16 +05:30
Pragyansh Chaturvedi	7a56e5d0cd	Initialize required helpers for ringbuffer	2025-11-12 01:59:07 +05:30
Pragyansh Chaturvedi	1d7a436c9f	Add linting function for RingBuf.discard	2025-11-12 01:30:15 +05:30
Pragyansh Chaturvedi	5eaeb3e921	Add max_entries constraints for RingBuffer	2025-11-12 01:27:41 +05:30
Pragyansh Chaturvedi	cd52d0d91b	Rename RingBuf map to RingBuffer	2025-11-12 01:07:12 +05:30
Pragyansh Chaturvedi	df981be095	Janitorial format	2025-11-11 21:08:06 +05:30
Pragyansh Chaturvedi	316c21c428	Fix char_array to pointer/int detection fallback in helper_utils	2025-11-11 21:00:42 +05:30
Pragyansh Chaturvedi	c883d95655	Minor fix - check expr type before sending to char_array handler in printk_formatter	2025-11-11 17:43:20 +05:30
varun-r-mallya	f7dee329cb	fix nested pointers issue in array generation and also fix zero length array IR generation	2025-11-10 20:29:28 +05:30
varun-r-mallya	5031f90377	fix stacked vmlinux struct parsing issue	2025-11-10 20:06:04 +05:30
varun-r-mallya	95a624044a	fix type error	2025-11-08 20:28:56 +05:30
varun-r-mallya	c5bef26b88	add multi imports to single import line.	2025-11-08 18:08:04 +05:30
Pragyansh Chaturvedi	5a8b64f1d9	Merge pull request #64 from pythonbpf/all_helpers Add support for all eBPF helpers	2025-11-07 19:26:55 +05:30
Pragyansh Chaturvedi	cf99b3bb9a	Fix call to get_or_create_ptr_from_arg for probe_read_str	2025-11-07 19:16:48 +05:30
Pragyansh Chaturvedi	6c85b248ce	Init sz in get_or_create_ptr_from_arg	2025-11-07 19:03:21 +05:30
Pragyansh Chaturvedi	b5a3494cc6	Fix typo in get_or_create_ptr_from_arg	2025-11-07 19:01:40 +05:30
Pragyansh Chaturvedi	be62972974	Fix ScratchPoolManager::counter	2025-11-07 19:00:57 +05:30
Pragyansh Chaturvedi	2f4a7d2f90	Remove get_struct_char_array_ptr in favour of get_char_array_ptr_and_size, wrap it in get_or_crate_ptr_from_arg to use in bpf_helper_handler	2025-11-07 18:54:59 +05:30
Pragyansh Chaturvedi	3ccd3f767e	Add expected types for pointer creation of args in probe_read handler	2025-11-06 19:59:04 +05:30
Pragyansh Chaturvedi	2e37726922	Add signature relection for all helper handlers except print	2025-11-06 19:47:57 +05:30
Pragyansh Chaturvedi	5b36726b7d	Make bpf_skb_store_bytes work	2025-11-05 20:02:39 +05:30
varunrmallya	faad3555dc	Merge pull request #67 from pythonbpf/32int_support add i32 support and special support for xdp_md with zext	2025-11-05 19:42:05 +05:30
Pragyansh Chaturvedi	3e6cea2b67	Move get_struct_char_array_ptr from helper/printk_formatter to helper/helper_utils, enable array to ptr conversion in skb_store_bytes	2025-11-05 19:10:58 +05:30
Pragyansh Chaturvedi	338d4994d8	Fix count_temps_in_call to only look for Pointer args of a helper_sig	2025-11-05 17:36:37 +05:30
Pragyansh Chaturvedi	3078d4224d	Add typed scratch space support to the bpf_skb_store_bytes helper	2025-11-04 16:09:11 +05:30
Pragyansh Chaturvedi	7d29790f00	Make use of new get_next_temp in helpers	2025-11-04 16:02:56 +05:30
Pragyansh Chaturvedi	963e2a8171	Change ScratchPoolManager to use typed scratch space	2025-11-04 14:16:44 +05:30
Pragyansh Chaturvedi	123a92af1d	Change allocation pass to generate typed temp variables	2025-11-04 06:20:39 +05:30
Pragyansh Chaturvedi	752f564d3f	Change count_temps_in_call to return hashmap of types	2025-11-04 05:40:22 +05:30
Pragyansh Chaturvedi	d8cddb9799	Add signature extraction to HelperHandlerRegistry	2025-11-04 05:19:22 +05:30
Pragyansh Chaturvedi	33e18f6d6d	Introduce HelperSignature in HelperHandlerRegistry	2025-11-03 21:21:13 +05:30
Pragyansh Chaturvedi	5e371787eb	Fix the number of args for skb_store_bytes by making the first arg implicit	2025-11-03 21:11:16 +05:30
Pragyansh Chaturvedi	67c9d9b932	Fix imports for bpf_skb_store_bytes	2025-11-02 04:33:45 +05:30
Pragyansh Chaturvedi	f757a32a63	Implement bpf_skb_store_bytes_emitter	2025-11-02 04:32:05 +05:30
Pragyansh Chaturvedi	c5de92b9d0	Add BPF_SKB_STORE_BYTES to HelperIDs	2025-11-02 04:17:15 +05:30
Pragyansh Chaturvedi	4efd3223cd	Add passing uid_gid helper test	2025-11-02 03:47:26 +05:30
Pragyansh Chaturvedi	4884ed7577	Fix imports for bpf_get_current_uid_gid	2025-11-02 03:35:41 +05:30
Pragyansh Chaturvedi	5b7769dd38	Implement bpf_get_current_uid_gid_emitter	2025-11-02 03:34:04 +05:30
Pragyansh Chaturvedi	b7c1e92f05	Add BPF_GET_CURRENT_UID_GID to HelperIDs	2025-11-02 03:29:02 +05:30
Pragyansh Chaturvedi	8b28a927c3	Add helpful TODO to PID_TGID emitter	2025-11-02 03:27:27 +05:30
Pragyansh Chaturvedi	f9ee43e7ef	Add passing test smp_processor_id.py for helpers	2025-11-01 14:13:52 +05:30
Pragyansh Chaturvedi	dabb8bf0df	Fix imports for BPF_GET_SMP_PROCESSOR_ID	2025-11-01 14:07:47 +05:30
Pragyansh Chaturvedi	19dedede53	Implement BPF_GET_SMP_PROCESSOR_ID helper	2025-11-01 14:05:50 +05:30
Pragyansh Chaturvedi	82cac8f8ef	Add BPF_GET_SMP_PROCESSOR_ID to HelperIDs	2025-11-01 14:02:07 +05:30
Pragyansh Chaturvedi	70a04f54d1	Add passing test for bpf_probe_read helper	2025-11-01 13:51:08 +05:30
Pragyansh Chaturvedi	ec2ea835e5	Fix imports and type issues for bpf_probe_read	2025-11-01 13:50:23 +05:30
Pragyansh Chaturvedi	2257c175ed	Implement BPF_PROBE_READ helper	2025-11-01 13:14:50 +05:30
Pragyansh Chaturvedi	5bf60d69b8	Add BPF_PROBE_READ to HelperIDs	2025-11-01 12:52:15 +05:30
Pragyansh Chaturvedi	0006e26b08	Add passing test for bpf_get_prandom_u32 implementation	2025-10-27 01:09:27 +05:30
Pragyansh Chaturvedi	5cbd9a531e	Add bpf_get_prandom_u32 helper	2025-10-27 01:08:56 +05:30