python-bpf/pythonbpf/allocation_pass.py

import ast
import logging

from llvmlite import ir
from dataclasses import dataclass
from typing import Any
from pythonbpf.helper import HelperHandlerRegistry
from .expr import VmlinuxHandlerRegistry
from pythonbpf.type_deducer import ctypes_to_ir

logger = logging.getLogger(__name__)


@dataclass
class LocalSymbol:
    var: ir.AllocaInstr
    ir_type: ir.Type
    metadata: Any = None

    def __iter__(self):
        yield self.var
        yield self.ir_type
        yield self.metadata


def handle_assign_allocation(builder, stmt, local_sym_tab, structs_sym_tab):
    """Handle memory allocation for assignment statements."""

    # Validate assignment
    if len(stmt.targets) != 1:
        logger.warning("Multi-target assignment not supported, skipping allocation")
        return

    target = stmt.targets[0]

    # Skip non-name targets (e.g., struct field assignments)
    if isinstance(target, ast.Attribute):
        logger.debug(f"Struct field assignment to {target.attr}, no allocation needed")
        return

    if not isinstance(target, ast.Name):
        logger.warning(f"Unsupported assignment target type: {type(target).__name__}")
        return

    var_name = target.id
    rval = stmt.value

    # Skip if already allocated
    if var_name in local_sym_tab:
        logger.debug(f"Variable {var_name} already allocated, skipping")
        return

    # When allocating a variable, check if it's a vmlinux struct type
    if isinstance(rval, ast.Name) and VmlinuxHandlerRegistry.is_vmlinux_struct(
        stmt.value.id
    ):
        # Handle vmlinux struct allocation
        # This requires more implementation
        print(stmt.value)
        pass

    # 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)
    elif isinstance(rval, ast.Constant):
        _allocate_for_constant(builder, var_name, rval, local_sym_tab)
    elif isinstance(rval, ast.BinOp):
        _allocate_for_binop(builder, var_name, local_sym_tab)
    else:
        logger.warning(
            f"Unsupported assignment value type for {var_name}: {type(rval).__name__}"
        )


def _allocate_for_call(builder, var_name, rval, local_sym_tab, structs_sym_tab):
    """Allocate memory for variable assigned from a call."""

    if isinstance(rval.func, ast.Name):
        call_type = rval.func.id

        # C type constructors
        if call_type in ("c_int32", "c_int64", "c_uint32", "c_uint64"):
            ir_type = ctypes_to_ir(call_type)
            var = builder.alloca(ir_type, name=var_name)
            var.align = ir_type.width // 8
            local_sym_tab[var_name] = LocalSymbol(var, ir_type)
            logger.info(f"Pre-allocated {var_name} as {call_type}")

        # Helper functions
        elif HelperHandlerRegistry.has_handler(call_type):
            ir_type = ir.IntType(64)  # Assume i64 return type
            var = builder.alloca(ir_type, name=var_name)
            var.align = 8
            local_sym_tab[var_name] = LocalSymbol(var, ir_type)
            logger.info(f"Pre-allocated {var_name} for helper {call_type}")

        # Deref function
        elif call_type == "deref":
            ir_type = ir.IntType(64)  # Assume i64 return type
            var = builder.alloca(ir_type, name=var_name)
            var.align = 8
            local_sym_tab[var_name] = LocalSymbol(var, ir_type)
            logger.info(f"Pre-allocated {var_name} for deref")

        # Struct constructors
        elif call_type in structs_sym_tab:
            struct_info = structs_sym_tab[call_type]
            var = builder.alloca(struct_info.ir_type, name=var_name)
            local_sym_tab[var_name] = LocalSymbol(var, struct_info.ir_type, call_type)
            logger.info(f"Pre-allocated {var_name} for struct {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)

    else:
        logger.warning(f"Unsupported call function type for {var_name}")


def _allocate_for_map_method(builder, var_name, local_sym_tab):
    """Allocate memory for variable assigned from map method (double alloc)."""

    # 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 = ir.IntType(64)
    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")


def _allocate_for_constant(builder, var_name, rval, local_sym_tab):
    """Allocate memory for variable assigned from a constant."""

    if isinstance(rval.value, bool):
        ir_type = ir.IntType(1)
        var = builder.alloca(ir_type, name=var_name)
        var.align = 1
        local_sym_tab[var_name] = LocalSymbol(var, ir_type)
        logger.info(f"Pre-allocated {var_name} as bool")

    elif isinstance(rval.value, int):
        ir_type = ir.IntType(64)
        var = builder.alloca(ir_type, name=var_name)
        var.align = 8
        local_sym_tab[var_name] = LocalSymbol(var, ir_type)
        logger.info(f"Pre-allocated {var_name} as i64")

    elif isinstance(rval.value, str):
        ir_type = ir.PointerType(ir.IntType(8))
        var = builder.alloca(ir_type, name=var_name)
        var.align = 8
        local_sym_tab[var_name] = LocalSymbol(var, ir_type)
        logger.info(f"Pre-allocated {var_name} as string")

    else:
        logger.warning(
            f"Unsupported constant type for {var_name}: {type(rval.value).__name__}"
        )


def _allocate_for_binop(builder, var_name, local_sym_tab):
    """Allocate memory for variable assigned from a binary operation."""
    ir_type = ir.IntType(64)  # Assume i64 result
    var = builder.alloca(ir_type, name=var_name)
    var.align = 8
    local_sym_tab[var_name] = LocalSymbol(var, ir_type)
    logger.info(f"Pre-allocated {var_name} for binop result")


def allocate_temp_pool(builder, max_temps, local_sym_tab):
    """Allocate the temporary scratch space pool for helper arguments."""
    if max_temps == 0:
        return

    logger.info(f"Allocating temp pool of {max_temps} variables")
    for i in range(max_temps):
        temp_name = f"__helper_temp_{i}"
        temp_var = builder.alloca(ir.IntType(64), name=temp_name)
        temp_var.align = 8
        local_sym_tab[temp_name] = LocalSymbol(temp_var, ir.IntType(64))