#!/usr/bin/env python3 # # Copyright (c) 2020 Intel Corporation # # SPDX-License-Identifier: Apache-2.0 import abc import binascii import logging logger = logging.getLogger("gdbstub") class GdbStub(abc.ABC): def __init__(self, logfile, elffile): self.logfile = logfile self.elffile = elffile self.socket = None self.gdb_signal = None mem_regions = list() for r in logfile.get_memory_regions(): mem_regions.append(r) for r in elffile.get_memory_regions(): mem_regions.append(r) self.mem_regions = mem_regions def get_gdb_packet(self): socket = self.socket if socket is None: return None data = b'' checksum = 0 # Wait for '$' while True: ch = socket.recv(1) if ch == b'$': break # Get a full packet while True: ch = socket.recv(1) if ch == b'#': # End of packet break checksum += ord(ch) data += ch # Get checksum (2-bytes) ch = socket.recv(2) in_chksum = ord(binascii.unhexlify(ch)) logger.debug(f"Received GDB packet: {data}") if (checksum % 256) == in_chksum: # ACK logger.debug("ACK") socket.send(b'+') return data else: # NACK logger.debug(f"NACK (checksum {in_chksum} != {checksum}") socket.send(b'-') return None def put_gdb_packet(self, data): socket = self.socket if socket is None: return checksum = 0 for d in data: checksum += d pkt = b'$' + data + b'#' checksum = checksum % 256 pkt += format(checksum, "02X").encode() logger.debug(f"Sending GDB packet: {pkt}") socket.send(pkt) def handle_signal_query_packet(self): # the '?' packet pkt = b'S' pkt += format(self.gdb_signal, "02X").encode() self.put_gdb_packet(pkt) @abc.abstractmethod def handle_register_group_read_packet(self): # the 'g' packet for reading a group of registers pass def handle_register_group_write_packet(self): # the 'G' packet for writing to a group of registers # # We don't support writing so return error self.put_gdb_packet(b"E01") def handle_register_single_read_packet(self, pkt): # the 'p' packet for reading a single register self.put_gdb_packet(b"E01") def handle_register_single_write_packet(self, pkt): # the 'P' packet for writing to registers # # We don't support writing so return error self.put_gdb_packet(b"E01") def handle_memory_read_packet(self, pkt): # the 'm' packet for reading memory: m, def get_mem_region(addr): for r in self.mem_regions: if r['start'] <= addr < r['end']: return r return None # extract address and length from packet # and convert them into usable integer values str_addr, str_length = pkt[1:].split(b',') s_addr = int(b'0x' + str_addr, 16) length = int(b'0x' + str_length, 16) # FIXME: Need more efficient way of extracting memory content remaining = length addr = s_addr barray = b'' r = get_mem_region(addr) while remaining > 0: if r is None: barray = None break if addr > r['end']: r = get_mem_region(addr) continue offset = addr - r['start'] barray += r['data'][offset:offset+1] addr += 1 remaining -= 1 if barray is not None: pkt = binascii.hexlify(barray) self.put_gdb_packet(pkt) else: self.put_gdb_packet(b"E01") def handle_memory_write_packet(self, pkt): # the 'M' packet for writing to memory # # We don't support writing so return error self.put_gdb_packet(b"E02") def handle_general_query_packet(self, pkt): self.put_gdb_packet(b'') def run(self, socket): self.socket = socket while True: pkt = self.get_gdb_packet() if pkt is None: continue pkt_type = pkt[0:1] logger.debug(f"Got packet type: {pkt_type}") if pkt_type == b'?': self.handle_signal_query_packet() elif pkt_type in (b'C', b'S'): # Continue/stepping execution, which is not supported. # So signal exception again self.handle_signal_query_packet() elif pkt_type == b'g': self.handle_register_group_read_packet() elif pkt_type == b'G': self.handle_register_group_write_packet() elif pkt_type == b'p': self.handle_register_single_read_packet(pkt) elif pkt_type == b'P': self.handle_register_single_write_packet(pkt) elif pkt_type == b'm': self.handle_memory_read_packet(pkt) elif pkt_type == b'M': self.handle_memory_write_packet(pkt) elif pkt_type == b'q': self.handle_general_query_packet(pkt) elif pkt_type == b'k': # GDB quits break else: self.put_gdb_packet(b'')