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Complete example 1, albeit hardcoded somewhat. Implement body function processing skeleton

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Pragyansh Chaturvedi
2025-09-06 14:40:51 +05:30
parent 4ce92f0c95
commit 43b8c2c010
1 changed files with 90 additions and 0 deletions
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pythonbpf/functions_pass.py
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@ -58,11 +58,101 @@ def get_probe_string(func_node):
return "helper"
def process_func_body(module, builder, func_node, func):
"""Process the body of a bpf function"""
# TODO: A lot. We just have print -> bpf_trace_printk for now
did_return = False
for stmt in func_node.body:
if isinstance(stmt, ast.Expr) and isinstance(stmt.value, ast.Call):
call = stmt.value
if isinstance(call.func, ast.Name) and call.func.id == "print":
# Handle print statement
for arg in call.args:
if isinstance(arg, ast.Constant) and isinstance(arg.value, str):
fmt_str = arg.value + "\n"
# Create a global variable for the format string
fmt_gvar = ir.GlobalVariable(
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=f"{func.name}____fmt")
fmt_gvar.global_constant = True
fmt_gvar.initializer = ir.Constant(
ir.ArrayType(ir.IntType(8), len(fmt_str)),
bytearray(fmt_str.encode("utf8"))
)
fmt_gvar.linkage = "internal"
fmt_gvar.align = 1
# Cast the global variable to i8*
fmt_ptr = builder.bitcast(
fmt_gvar, ir.PointerType())
# Call bpf_trace_printk (assumed to be at address 6)
fn_type = ir.FunctionType(ir.IntType(
64), [ir.PointerType(), ir.IntType(32)], var_arg=True)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(64), 6)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
# Call the function
builder.call(fn_ptr, [fmt_ptr, ir.Constant(
ir.IntType(32), len(fmt_str))], tail=True)
elif isinstance(stmt, ast.Return):
if stmt.value is None:
builder.ret(ir.Constant(ir.IntType(32), 0))
did_return = True
elif isinstance(stmt.value, ast.Call) and isinstance(stmt.value.func, ast.Name) and stmt.value.func.id == "c_int32" and len(stmt.value.args) == 1 and isinstance(stmt.value.args[0], ast.Constant) and isinstance(stmt.value.args[0].value, int):
builder.ret(ir.Constant(ir.IntType(
32), stmt.value.args[0].value))
did_return = True
else:
print("Unsupported return value")
if not did_return:
builder.ret(ir.Constant(ir.IntType(32), 0))
def process_bpf_chunk(func_node, module):
"""Process a single BPF chunk (function) and emit corresponding LLVM IR."""
func_name = func_node.name
# TODO: parse return type
ret_type = ir.IntType(32)
# TODO: parse parameters
param_types = []
if func_node.args.args:
# Assume first arg to be ctx
param_types.append(ir.PointerType())
func_ty = ir.FunctionType(ret_type, param_types)
func = ir.Function(module, func_ty, func_name)
func.linkage = "dso_local"
func.attributes.add("nounwind")
if func_node.args.args:
# Only look at the first argument for now
param = func.args[0]
param.add_attribute("nocapture")
func.section = get_probe_string(func_node)
block = func.append_basic_block(name="entry")
builder = ir.IRBuilder(block)
process_func_body(module, builder, func_node, func)
print(func)
return func
def func_proc(tree, module, chunks):
for func_node in chunks:
func_type = get_probe_string(func_node)
print(f"Found probe_string of {func_node.name}: {func_type}")
process_bpf_chunk(func_node, module)
def functions_processing(tree, module):
bpf_functions = []