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fix ruff errors

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varun-r-mallya
2025-10-02 01:23:55 +05:30
parent 6831f11179
commit 59b3d6514b
5 changed files with 268 additions and 160 deletions
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36
pythonbpf/functions_pass.py
View File

@ -83,19 +83,16 @@ def handle_assign(
elif isinstance(rval, ast.Constant):
if isinstance(rval.value, bool):
if rval.value:
builder.store(ir.Constant(ir.IntType(1), 1),
local_sym_tab[var_name][0])
builder.store(ir.Constant(ir.IntType(1), 1), local_sym_tab[var_name][0])
else:
builder.store(ir.Constant(ir.IntType(1), 0),
local_sym_tab[var_name][0])
builder.store(ir.Constant(ir.IntType(1), 0), local_sym_tab[var_name][0])
print(f"Assigned constant {rval.value} to {var_name}")
elif isinstance(rval.value, int):
# Assume c_int64 for now
# var = builder.alloca(ir.IntType(64), name=var_name)
# var.align = 8
builder.store(
ir.Constant(ir.IntType(64),
rval.value), local_sym_tab[var_name][0]
ir.Constant(ir.IntType(64), rval.value), local_sym_tab[var_name][0]
)
# local_sym_tab[var_name] = var
print(f"Assigned constant {rval.value} to {var_name}")
@ -110,8 +107,7 @@ def handle_assign(
global_str.linkage = "internal"
global_str.global_constant = True
global_str.initializer = str_const
str_ptr = builder.bitcast(
global_str, ir.PointerType(ir.IntType(8)))
str_ptr = builder.bitcast(global_str, ir.PointerType(ir.IntType(8)))
builder.store(str_ptr, local_sym_tab[var_name][0])
print(f"Assigned string constant '{rval.value}' to {var_name}")
else:
@ -130,8 +126,7 @@ def handle_assign(
# var = builder.alloca(ir_type, name=var_name)
# var.align = ir_type.width // 8
builder.store(
ir.Constant(
ir_type, rval.args[0].value), local_sym_tab[var_name][0]
ir.Constant(ir_type, rval.args[0].value), local_sym_tab[var_name][0]
)
print(
f"Assigned {call_type} constant "
@ -177,8 +172,7 @@ def handle_assign(
ir_type = struct_info.ir_type
# var = builder.alloca(ir_type, name=var_name)
# Null init
builder.store(ir.Constant(ir_type, None),
local_sym_tab[var_name][0])
builder.store(ir.Constant(ir_type, None), local_sym_tab[var_name][0])
local_var_metadata[var_name] = call_type
print(f"Assigned struct {call_type} to {var_name}")
# local_sym_tab[var_name] = var
@ -249,8 +243,7 @@ def handle_cond(func, module, builder, cond, local_sym_tab, map_sym_tab):
print(f"Undefined variable {cond.id} in condition")
return None
elif isinstance(cond, ast.Compare):
lhs = eval_expr(func, module, builder, cond.left,
local_sym_tab, map_sym_tab)[0]
lhs = eval_expr(func, module, builder, cond.left, local_sym_tab, map_sym_tab)[0]
if len(cond.ops) != 1 or len(cond.comparators) != 1:
print("Unsupported complex comparison")
return None
@ -303,8 +296,7 @@ def handle_if(
else:
else_block = None
cond = handle_cond(func, module, builder, stmt.test,
local_sym_tab, map_sym_tab)
cond = handle_cond(func, module, builder, stmt.test, local_sym_tab, map_sym_tab)
if else_block:
builder.cbranch(cond, then_block, else_block)
else:
@ -449,8 +441,7 @@ def allocate_mem(
ir_type = ctypes_to_ir(call_type)
var = builder.alloca(ir_type, name=var_name)
var.align = ir_type.width // 8
print(
f"Pre-allocated variable {var_name} of type {call_type}")
print(f"Pre-allocated variable {var_name} of type {call_type}")
elif HelperHandlerRegistry.has_handler(call_type):
# Assume return type is int64 for now
ir_type = ir.IntType(64)
@ -671,8 +662,7 @@ def infer_return_type(func_node: ast.FunctionDef):
if found_type is None:
found_type = t
elif found_type != t:
raise ValueError("Conflicting return types:"
f"{found_type} vs {t}")
raise ValueError("Conflicting return types:" f"{found_type} vs {t}")
return found_type or "None"
@ -709,8 +699,7 @@ def assign_string_to_array(builder, target_array_ptr, source_string_ptr, array_l
char = builder.load(src_ptr)
# Store character in target
dst_ptr = builder.gep(
target_array_ptr, [ir.Constant(ir.IntType(32), 0), idx])
dst_ptr = builder.gep(target_array_ptr, [ir.Constant(ir.IntType(32), 0), idx])
builder.store(char, dst_ptr)
# Increment counter
@ -721,6 +710,5 @@ def assign_string_to_array(builder, target_array_ptr, source_string_ptr, array_l
# Ensure null termination
last_idx = ir.Constant(ir.IntType(32), array_length - 1)
null_ptr = builder.gep(
target_array_ptr, [ir.Constant(ir.IntType(32), 0), last_idx])
null_ptr = builder.gep(target_array_ptr, [ir.Constant(ir.IntType(32), 0), last_idx])
builder.store(ir.Constant(ir.IntType(8), 0), null_ptr)

2
pythonbpf/helper/__init__.py
View File

@ -1,2 +1,4 @@
from .helper_utils import HelperHandlerRegistry
from .bpf_helper_handler import handle_helper_call
__all__ = [HelperHandlerRegistry, handle_helper_call]

230
pythonbpf/helper/bpf_helper_handler.py
View File

@ -1,10 +1,14 @@
import ast
from llvmlite import ir
from enum import Enum
from .helper_utils import (HelperHandlerRegistry,
get_or_create_ptr_from_arg, get_flags_val,
handle_fstring_print, simple_string_print,
get_data_ptr_and_size)
from .helper_utils import (
HelperHandlerRegistry,
get_or_create_ptr_from_arg,
get_flags_val,
handle_fstring_print,
simple_string_print,
get_data_ptr_and_size,
)
class BPFHelperID(Enum):
@ -18,9 +22,16 @@ class BPFHelperID(Enum):
@HelperHandlerRegistry.register("ktime")
def bpf_ktime_get_ns_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_ktime_get_ns_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_ktime_get_ns helper function call.
"""
@ -34,27 +45,34 @@ def bpf_ktime_get_ns_emitter(call, map_ptr, module, builder, func,
@HelperHandlerRegistry.register("lookup")
def bpf_map_lookup_elem_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_map_lookup_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_lookup_elem helper function call.
"""
if not call.args or len(call.args) != 1:
raise ValueError("Map lookup expects exactly one argument (key), got "
f"{len(call.args)}")
raise ValueError(
"Map lookup expects exactly one argument (key), got " f"{len(call.args)}"
)
key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.PointerType(), # Return type: void*
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(
64), BPFHelperID.BPF_MAP_LOOKUP_ELEM.value)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_LOOKUP_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
@ -63,33 +81,46 @@ def bpf_map_lookup_elem_emitter(call, map_ptr, module, builder, func,
@HelperHandlerRegistry.register("print")
def bpf_printk_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_printk_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""Emit LLVM IR for bpf_printk helper function call."""
if not hasattr(func, "_fmt_counter"):
func._fmt_counter = 0
if not call.args:
raise ValueError(
"bpf_printk expects at least one argument (format string)")
raise ValueError("bpf_printk expects at least one argument (format string)")
args = []
if isinstance(call.args[0], ast.JoinedStr):
args = handle_fstring_print(call.args[0], module, builder, func,
local_sym_tab, struct_sym_tab,
local_var_metadata)
elif (isinstance(call.args[0], ast.Constant) and
isinstance(call.args[0].value, str)):
args = handle_fstring_print(
call.args[0],
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
elif isinstance(call.args[0], ast.Constant) and isinstance(call.args[0].value, str):
# TODO: We are only supporting single arguments for now.
# In case of multiple args, the first one will be taken.
args = simple_string_print(call.args[0].value, module, builder, func)
else:
raise NotImplementedError(
"Only simple strings or f-strings are supported in bpf_printk.")
"Only simple strings or f-strings are supported in bpf_printk."
)
fn_type = ir.FunctionType(
ir.IntType(64), [ir.PointerType(), ir.IntType(32)], var_arg=True)
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), BPFHelperID.BPF_PRINTK.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
@ -99,18 +130,25 @@ def bpf_printk_emitter(call, map_ptr, module, builder, func,
@HelperHandlerRegistry.register("update")
def bpf_map_update_elem_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_map_update_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_update_elem helper function call.
Expected call signature: map.update(key, value, flags=0)
"""
if (not call.args or
len(call.args) < 2 or
len(call.args) > 3):
raise ValueError("Map update expects 2 or 3 args (key, value, flags), "
f"got {len(call.args)}")
if not call.args or len(call.args) < 2 or len(call.args) > 3:
raise ValueError(
"Map update expects 2 or 3 args (key, value, flags), "
f"got {len(call.args)}"
)
key_arg = call.args[0]
value_arg = call.args[1]
@ -124,12 +162,11 @@ def bpf_map_update_elem_emitter(call, map_ptr, module, builder, func,
fn_type = ir.FunctionType(
ir.IntType(64),
[ir.PointerType(), ir.PointerType(), ir.PointerType(), ir.IntType(64)],
var_arg=False
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(
64), BPFHelperID.BPF_MAP_UPDATE_ELEM.value)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_UPDATE_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
if isinstance(flags_val, int):
@ -138,22 +175,31 @@ def bpf_map_update_elem_emitter(call, map_ptr, module, builder, func,
flags_const = flags_val
result = builder.call(
fn_ptr, [map_void_ptr, key_ptr, value_ptr, flags_const], tail=False)
fn_ptr, [map_void_ptr, key_ptr, value_ptr, flags_const], tail=False
)
return result, None
@HelperHandlerRegistry.register("delete")
def bpf_map_delete_elem_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_map_delete_elem_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_map_delete_elem helper function call.
Expected call signature: map.delete(key)
"""
if not call.args or len(call.args) != 1:
raise ValueError("Map delete expects exactly one argument (key), got "
f"{len(call.args)}")
raise ValueError(
"Map delete expects exactly one argument (key), got " f"{len(call.args)}"
)
key_ptr = get_or_create_ptr_from_arg(call.args[0], builder, local_sym_tab)
map_void_ptr = builder.bitcast(map_ptr, ir.PointerType())
@ -161,12 +207,11 @@ def bpf_map_delete_elem_emitter(call, map_ptr, module, builder, func,
fn_type = ir.FunctionType(
ir.IntType(64), # Return type: int64 (status code)
[ir.PointerType(), ir.PointerType()], # Args: (void*, void*)
var_arg=False
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
fn_addr = ir.Constant(ir.IntType(
64), BPFHelperID.BPF_MAP_DELETE_ELEM.value)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_MAP_DELETE_ELEM.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(fn_ptr, [map_void_ptr, key_ptr], tail=False)
@ -175,15 +220,21 @@ def bpf_map_delete_elem_emitter(call, map_ptr, module, builder, func,
@HelperHandlerRegistry.register("pid")
def bpf_get_current_pid_tgid_emitter(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_get_current_pid_tgid_emitter(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""
Emit LLVM IR for bpf_get_current_pid_tgid helper function call.
"""
# func is an arg to just have a uniform signature with other emitters
helper_id = ir.Constant(ir.IntType(
64), BPFHelperID.BPF_GET_CURRENT_PID_TGID.value)
helper_id = ir.Constant(ir.IntType(64), BPFHelperID.BPF_GET_CURRENT_PID_TGID.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)
@ -196,18 +247,26 @@ def bpf_get_current_pid_tgid_emitter(call, map_ptr, module, builder, func,
@HelperHandlerRegistry.register("output")
def bpf_perf_event_output_handler(call, map_ptr, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def bpf_perf_event_output_handler(
call,
map_ptr,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
if len(call.args) != 1:
raise ValueError("Perf event output expects exactly one argument, "
f"got {len(call.args)}")
raise ValueError(
"Perf event output expects exactly one argument, " f"got {len(call.args)}"
)
data_arg = call.args[0]
ctx_ptr = func.args[0] # First argument to the function is ctx
data_ptr, size_val = get_data_ptr_and_size(data_arg, local_sym_tab,
struct_sym_tab,
local_var_metadata)
data_ptr, size_val = get_data_ptr_and_size(
data_arg, local_sym_tab, struct_sym_tab, local_var_metadata
)
# BPF_F_CURRENT_CPU is -1 in 32 bit
flags_val = ir.Constant(ir.IntType(64), 0xFFFFFFFF)
@ -216,36 +275,56 @@ def bpf_perf_event_output_handler(call, map_ptr, module, builder, func,
data_void_ptr = builder.bitcast(data_ptr, ir.PointerType())
fn_type = ir.FunctionType(
ir.IntType(64),
[ir.PointerType(ir.IntType(8)), ir.PointerType(), ir.IntType(64),
ir.PointerType(), ir.IntType(64)],
var_arg=False
[
ir.PointerType(ir.IntType(8)),
ir.PointerType(),
ir.IntType(64),
ir.PointerType(),
ir.IntType(64),
],
var_arg=False,
)
fn_ptr_type = ir.PointerType(fn_type)
# helper id
fn_addr = ir.Constant(ir.IntType(64),
BPFHelperID.BPF_PERF_EVENT_OUTPUT.value)
fn_addr = ir.Constant(ir.IntType(64), BPFHelperID.BPF_PERF_EVENT_OUTPUT.value)
fn_ptr = builder.inttoptr(fn_addr, fn_ptr_type)
result = builder.call(
fn_ptr,
[ctx_ptr, map_void_ptr, flags_val, data_void_ptr, size_val],
tail=False)
fn_ptr, [ctx_ptr, map_void_ptr, flags_val, data_void_ptr, size_val], tail=False
)
return result, None
def handle_helper_call(call, module, builder, func,
local_sym_tab=None, map_sym_tab=None,
struct_sym_tab=None, local_var_metadata=None):
def handle_helper_call(
call,
module,
builder,
func,
local_sym_tab=None,
map_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""Process a BPF helper function call and emit the appropriate LLVM IR."""
# Helper function to get map pointer and invoke handler
def invoke_helper(method_name, map_ptr=None):
handler = HelperHandlerRegistry.get_handler(method_name)
if not handler:
raise NotImplementedError(
f"Helper function '{method_name}' is not implemented.")
return handler(call, map_ptr, module, builder, func,
local_sym_tab, struct_sym_tab, local_var_metadata)
f"Helper function '{method_name}' is not implemented."
)
return handler(
call,
map_ptr,
module,
builder,
func,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
# Handle direct function calls (e.g., print(), ktime())
if isinstance(call.func, ast.Name):
@ -265,7 +344,8 @@ def handle_helper_call(call, module, builder, func,
map_name = value.id
else:
raise NotImplementedError(
f"Unsupported map access pattern: {ast.dump(value)}")
f"Unsupported map access pattern: {ast.dump(value)}"
)
# Verify map exists and get pointer
if not map_sym_tab or map_name not in map_sym_tab:

155
pythonbpf/helper/helper_utils.py
View File

@ -8,14 +8,17 @@ logger = logging.getLogger(__name__)
class HelperHandlerRegistry:
"""Registry for BPF helpers"""
_handlers = {}
@classmethod
def register(cls, helper_name):
"""Decorator to register a handler function for a helper"""
def decorator(func):
cls._handlers[helper_name] = func
return func
return decorator
@classmethod
@ -55,7 +58,8 @@ def get_or_create_ptr_from_arg(arg, builder, local_sym_tab):
ptr = create_int_constant_ptr(arg.value, builder)
else:
raise NotImplementedError(
"Only simple variable names are supported as args in map helpers.")
"Only simple variable names are supported as args in map helpers."
)
return ptr
@ -69,13 +73,13 @@ def get_flags_val(arg, builder, local_sym_tab):
flags_ptr = local_sym_tab[arg.id][0]
return builder.load(flags_ptr)
else:
raise ValueError(
f"Variable '{arg.id}' not found in local symbol table")
raise ValueError(f"Variable '{arg.id}' not found in local symbol table")
elif isinstance(arg, ast.Constant) and isinstance(arg.value, int):
return arg.value
raise NotImplementedError(
"Only var names or int consts are supported as map helpers flags.")
"Only var names or int consts are supported as map helpers flags."
)
def simple_string_print(string_value, module, builder, func):
@ -87,9 +91,15 @@ def simple_string_print(string_value, module, builder, func):
return args
def handle_fstring_print(joined_str, module, builder, func,
local_sym_tab=None, struct_sym_tab=None,
local_var_metadata=None):
def handle_fstring_print(
joined_str,
module,
builder,
func,
local_sym_tab=None,
struct_sym_tab=None,
local_var_metadata=None,
):
"""Handle f-string formatting for bpf_printk emitter."""
fmt_parts = []
exprs = []
@ -100,25 +110,34 @@ def handle_fstring_print(joined_str, module, builder, func,
if isinstance(value, ast.Constant):
_process_constant_in_fstring(value, fmt_parts, exprs)
elif isinstance(value, ast.FormattedValue):
_process_fval(value, fmt_parts, exprs,
local_sym_tab, struct_sym_tab,
local_var_metadata)
_process_fval(
value,
fmt_parts,
exprs,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
else:
raise NotImplementedError(
f"Unsupported f-string value type: {type(value)}")
raise NotImplementedError(f"Unsupported f-string value type: {type(value)}")
fmt_str = "".join(fmt_parts)
args = simple_string_print(fmt_str, module, builder, func)
# NOTE: Process expressions (limited to 3 due to BPF constraints)
if len(exprs) > 3:
logger.warning(
"bpf_printk supports up to 3 args, extra args will be ignored.")
logger.warning("bpf_printk supports up to 3 args, extra args will be ignored.")
for expr in exprs[:3]:
arg_value = _prepare_expr_args(expr, func, module, builder,
local_sym_tab, struct_sym_tab,
local_var_metadata)
arg_value = _prepare_expr_args(
expr,
func,
module,
builder,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
args.append(arg_value)
return args
@ -133,24 +152,31 @@ def _process_constant_in_fstring(cst, fmt_parts, exprs):
exprs.append(ir.Constant(ir.IntType(64), cst.value))
else:
raise NotImplementedError(
f"Unsupported constant type in f-string: {type(cst.value)}")
f"Unsupported constant type in f-string: {type(cst.value)}"
)
def _process_fval(fval, fmt_parts, exprs,
local_sym_tab, struct_sym_tab,
local_var_metadata):
def _process_fval(
fval, fmt_parts, exprs, local_sym_tab, struct_sym_tab, local_var_metadata
):
"""Process formatted values in f-string."""
logger.debug(f"Processing formatted value: {ast.dump(fval)}")
if isinstance(fval.value, ast.Name):
_process_name_in_fval(fval.value, fmt_parts, exprs, local_sym_tab)
elif isinstance(fval.value, ast.Attribute):
_process_attr_in_fval(fval.value, fmt_parts, exprs,
local_sym_tab, struct_sym_tab,
local_var_metadata)
_process_attr_in_fval(
fval.value,
fmt_parts,
exprs,
local_sym_tab,
struct_sym_tab,
local_var_metadata,
)
else:
raise NotImplementedError(
f"Unsupported formatted value in f-string: {type(fval.value)}")
f"Unsupported formatted value in f-string: {type(fval.value)}"
)
def _process_name_in_fval(name_node, fmt_parts, exprs, local_sym_tab):
@ -160,34 +186,39 @@ def _process_name_in_fval(name_node, fmt_parts, exprs, local_sym_tab):
_populate_fval(var_type, name_node, fmt_parts, exprs)
def _process_attr_in_fval(attr_node, fmt_parts, exprs,
local_sym_tab, struct_sym_tab,
local_var_metadata):
def _process_attr_in_fval(
attr_node, fmt_parts, exprs, local_sym_tab, struct_sym_tab, local_var_metadata
):
"""Process attribute nodes in formatted values."""
if (isinstance(attr_node.value, ast.Name) and
local_sym_tab and attr_node.value.id in local_sym_tab):
if (
isinstance(attr_node.value, ast.Name)
and local_sym_tab
and attr_node.value.id in local_sym_tab
):
var_name = attr_node.value.id
field_name = attr_node.attr
if not local_var_metadata or var_name not in local_var_metadata:
raise ValueError(
f"Metadata for '{var_name}' not found in local var metadata")
f"Metadata for '{var_name}' not found in local var metadata"
)
var_type = local_var_metadata[var_name]
if var_type not in struct_sym_tab:
raise ValueError(
f"Struct '{var_type}' for '{var_name}' not in symbol table")
f"Struct '{var_type}' for '{var_name}' not in symbol table"
)
struct_info = struct_sym_tab[var_type]
if field_name not in struct_info.fields:
raise ValueError(
f"Field '{field_name}' not found in struct '{var_type}'")
raise ValueError(f"Field '{field_name}' not found in struct '{var_type}'")
field_type = struct_info.field_type(field_name)
_populate_fval(field_type, attr_node, fmt_parts, exprs)
else:
raise NotImplementedError(
"Only simple attribute on local vars is supported in f-strings.")
"Only simple attribute on local vars is supported in f-strings."
)
def _populate_fval(ftype, node, fmt_parts, exprs):
@ -202,14 +233,14 @@ def _populate_fval(ftype, node, fmt_parts, exprs):
exprs.append(node)
else:
raise NotImplementedError(
f"Unsupported integer width in f-string: {ftype.width}")
f"Unsupported integer width in f-string: {ftype.width}"
)
elif ftype == ir.PointerType(ir.IntType(8)):
# NOTE: We assume i8* is a string
fmt_parts.append("%s")
exprs.append(node)
else:
raise NotImplementedError(
f"Unsupported field type in f-string: {ftype}")
raise NotImplementedError(f"Unsupported field type in f-string: {ftype}")
def _create_format_string_global(fmt_str, func, module, builder):
@ -218,11 +249,11 @@ def _create_format_string_global(fmt_str, func, module, builder):
func._fmt_counter += 1
fmt_gvar = ir.GlobalVariable(
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=fmt_name)
module, ir.ArrayType(ir.IntType(8), len(fmt_str)), name=fmt_name
)
fmt_gvar.global_constant = True
fmt_gvar.initializer = ir.Constant(
ir.ArrayType(ir.IntType(8), len(fmt_str)),
bytearray(fmt_str.encode("utf8"))
ir.ArrayType(ir.IntType(8), len(fmt_str)), bytearray(fmt_str.encode("utf8"))
)
fmt_gvar.linkage = "internal"
fmt_gvar.align = 1
@ -230,13 +261,20 @@ def _create_format_string_global(fmt_str, func, module, builder):
return builder.bitcast(fmt_gvar, ir.PointerType())
def _prepare_expr_args(expr, func, module, builder,
local_sym_tab, struct_sym_tab,
local_var_metadata):
def _prepare_expr_args(
expr, func, module, builder, local_sym_tab, struct_sym_tab, local_var_metadata
):
"""Evaluate and prepare an expression to use as an arg for bpf_printk."""
val, _ = eval_expr(func, module, builder, expr,
local_sym_tab, None, struct_sym_tab,
local_var_metadata)
val, _ = eval_expr(
func,
module,
builder,
expr,
local_sym_tab,
None,
struct_sym_tab,
local_var_metadata,
)
if val:
if isinstance(val.type, ir.PointerType):
@ -246,19 +284,19 @@ def _prepare_expr_args(expr, func, module, builder,
val = builder.sext(val, ir.IntType(64))
else:
logger.warning(
"Only int and ptr supported in bpf_printk args. "
"Others default to 0.")
"Only int and ptr supported in bpf_printk args. " "Others default to 0."
)
val = ir.Constant(ir.IntType(64), 0)
return val
else:
logger.warning(
"Failed to evaluate expression for bpf_printk argument. "
"It will be converted to 0.")
"It will be converted to 0."
)
return ir.Constant(ir.IntType(64), 0)
def get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab,
local_var_metadata):
def get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab, local_var_metadata):
"""Extract data pointer and size information for perf event output."""
if isinstance(data_arg, ast.Name):
data_name = data_arg.id
@ -266,7 +304,8 @@ def get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab,
data_ptr = local_sym_tab[data_name][0]
else:
raise ValueError(
f"Data variable {data_name} not found in local symbol table.")
f"Data variable {data_name} not found in local symbol table."
)
# Check if data_name is a struct
if local_var_metadata and data_name in local_var_metadata:
@ -277,12 +316,14 @@ def get_data_ptr_and_size(data_arg, local_sym_tab, struct_sym_tab,
return data_ptr, size_val
else:
raise ValueError(
f"Struct {data_type} for {data_name} not in symbol table.")
f"Struct {data_type} for {data_name} not in symbol table."
)
else:
raise ValueError(
f"Metadata for variable {data_name} "
"not found in local variable metadata.")
"not found in local variable metadata."
)
else:
raise NotImplementedError(
"Only simple object names are supported "
"as data in perf event output.")
"Only simple object names are supported " "as data in perf event output."
)