#!/usr/bin/env python3 # -*- coding: utf-8 -*- from __future__ import annotations from typing import Optional, TypedDict, NamedTuple, NotRequired, BinaryIO from socketserver import UnixStreamServer, StreamRequestHandler, ThreadingMixIn import os import re type Pointer = int class PointerTo[T](NamedTuple): ptr: Pointer target: T class Constant(NamedTuple): raw: int name: str class Flags(NamedTuple): bitfield: int flags: list[str] StructTimeSpec = TypedDict('StructTimeSpec', {'tv_sec': int, 'tv_nsec': int}) StructSigAction = TypedDict('StructSigAction', {'sa_flags': Flags, 'sa_handler': NotRequired[Pointer], 'sa_sigaction': NotRequired[Pointer], 'sa_mask': list[Constant]}) StructSockAddr = TypedDict('StructSockAddr', {'sa_family': Constant, 'sa_data': NotRequired[bytes], 'sun_path': NotRequired[bytes], 'sin_addr': NotRequired[bytes], 'sin_port': NotRequired[int], 'sin6_addr': NotRequired[bytes], 'sin6_port': NotRequired[int], 'sin6_scope_id': NotRequired[int]}) StructAddrInfo = TypedDict('StructAddrInfo', {'ai_flags': Flags, 'ai_family': Constant, 'ai_socktype': Constant, 'ai_protocol': int, 'ai_addrlen': int, 'ai_addr': PointerTo[StructSockAddr], 'ai_canonname': PointerTo[bytes], 'ai_next': Pointer}) StructMsgHdr = TypedDict('StructMsgHdr', {}) RET_ADDR_RE = re.compile(r': *((0x)?[0-9a-fA-Fx]+) *\((.+?)\+(.+?)(, *([^:]+?))?(, *(([^:]+?):([0-9]+)))?\)$') class FunctionCallId: func_name: str ret_addr: int obj_path: str rel_ret_addr: int sym_name: Optional[str] = None src_file_name: Optional[str] = None src_line_num: Optional[int] = None @property def obj_name(self) -> str: return self.obj_path.split('/')[-1] @staticmethod def for_exit() -> FunctionCallId: call_id = FunctionCallId() call_id.func_name = 'exit' call_id.obj_path = 'sys' call_id.ret_addr = 0 call_id.rel_ret_addr = 0 return call_id @property def discriminator(self) -> str: discr = [f'{self.obj_name}+0x{self.rel_ret_addr:x}'] if self.sym_name: discr.append(self.sym_name) if self.src_file_name and self.src_line_num: discr.append(f'{self.src_file_name}:{self.src_line_num}') return ', '.join(discr) def __eq__(self, other) -> bool: if not isinstance(other, FunctionCallId): return False return (self.func_name, self.obj_path, self.rel_ret_addr) == (other.func_name, other.obj_path, other.rel_ret_addr) def __hash__(self) -> int: return hash((self.func_name, self.obj_path, self.rel_ret_addr)) def __str__(self) -> str: return self.func_name + ', ' + self.discriminator def __repr__(self) -> str: return f'<{self}>' class ThreadedUnixStreamServer(ThreadingMixIn, UnixStreamServer): pass class Parser: rfile: BinaryIO wfile: Optional[BinaryIO] pid: Optional[int] tid: Optional[int] path: Optional[str] stack: dict[tuple[int, int], list[tuple[int, int, str, Optional[str], Optional[str], Optional[int], str, tuple]]] ret_addr: int rel_ret_addr: int dli_file_name: str dli_sym_name: Optional[str] src_file_name: Optional[str] src_line_num: Optional[int] def __init__(self, rfile: BinaryIO, wfile: BinaryIO = None): self.rfile = rfile self.wfile = wfile self.stack = {} self.pid = None self.path = None def get_call_id(self, func_name: str) -> FunctionCallId: call_id = FunctionCallId() call_id.func_name = func_name call_id.ret_addr = self.ret_addr call_id.obj_path = self.dli_file_name call_id.rel_ret_addr = self.rel_ret_addr call_id.sym_name = self.dli_sym_name call_id.src_file_name = self.src_file_name call_id.src_line_num = self.src_line_num return call_id def before(self) -> None: pass def after(self) -> None: pass def before_fallback(self, func_name: str, *args) -> str: pass def after_fallback(self, func_name: str, *args, **kwargs) -> None: pass def parse(self): self.before() try: while True: msg = self.rfile.readline() if not msg: return self.handle_msg(msg) finally: self.after() @staticmethod def parse_str(argument: str) -> tuple[bytes, int]: if not (len(argument) >= 2 and argument[0] == '"'): raise ValueError() idx = 1 esc, fin = False, False data = b'' tmp = None for ch in argument[1:]: idx += 1 if fin: if ch in (' ', '\t'): continue elif ch in (',', ']'): idx -= 1 break elif tmp: tmp += ch if len(tmp) == 2: data += bytes([int(tmp, 16)]) tmp = None elif esc: if ch in ('\\', '"'): data += ch.encode('ascii') esc = False elif ch == 'x': tmp = '' esc = False elif ch in ('n', 'r'): data += b'\n' if ch == 'n' else b'\r' esc = False else: raise ValueError(ch) elif ch == '"': fin = True elif ch == '\\': esc = True else: data += ch.encode('utf-8') if not fin: raise ValueError() return data, idx @staticmethod def parse_arg(argument: str) -> tuple[any, int]: if argument == '': return None, 0 m = re.match(r'^\s*(\(nil\)|NULL|null|nullptr)\s*(,|]|}|$)', argument) if m: return 0, len(m.group(0)) - (1 if m.group(2) in ('}', ']') else 0) m = re.match(r'\s*"', argument) if m: idx = len(m.group(0)) - 1 s, i = Parser.parse_str(argument[idx:]) idx += i if idx < len(argument) and argument[idx] in ',;': idx += 1 return s, idx m = re.match(r'\s*\[', argument) if m: idx = len(m.group(0)) s, i = Parser.parse_args(argument[idx:]) idx += i if idx < len(argument) and argument[idx] in ',;': idx += 1 return s, idx m = re.match(r'\s*\{', argument) if m: idx = len(m.group(0)) s, i = Parser.parse_args(argument[idx:], named=True) idx += i if idx < len(argument) and argument[idx] in ',;': idx += 1 return s, idx m = re.match(r'^\s*(.*?)([,:\]}]|$)', argument) a, e = m.group(1), m.group(2) idx = len(m.group(0)) if a.startswith('0x'): val = int(a[2:], 16) elif a.startswith('0') and len(a) > 1: val = int(a[1:], 8) elif a in ('(nil)', 'NULL', 'null', 'nullptr'): val = 0 else: val = int(a, 10) if e in (',', ''): return val, idx elif e in ('}', ']'): return val, idx - 1 if argument[idx] == '[': idx += 1 l, i = Parser.parse_args(argument[idx:]) idx += i if idx < len(argument) and argument[idx] == ',': idx += 1 return PointerTo(val, list(l)), idx elif argument[idx] == '|': m = re.match(r'^[| A-Za-z0-9_]*', argument[idx:]) flags = m.group(0) if not flags.startswith('|') or not flags.endswith('|'): raise ValueError() idx += len(flags) if idx < len(argument) and argument[idx] == ',': idx += 1 flags = [f.strip() for f in flags[1:-1].split('|') if len(f.strip()) > 0] return Flags(val, flags), idx elif argument[idx] == '"': s, i = Parser.parse_str(argument[idx:]) idx += i if idx < len(argument) and argument[idx] == ',': idx += 1 return PointerTo(val, s), idx elif argument[idx] == '{': idx += 1 l, i = Parser.parse_args(argument[idx:], named=True) idx += i if idx < len(argument) and argument[idx] == ',': idx += 1 return PointerTo(val, l), idx else: m = re.match(r'0x[0-9a-fA-F]+|[0-9]+|\(nil\)', argument[idx:]) if m is not None: value = m.group(0) idx += len(value) if idx < len(argument) and argument[idx] == ',': idx += 1 value = int(value, 0) if value != '(nil)' else 0 return PointerTo(val, value), idx m = re.match(r'[A-Z0-9_]+|\?', argument[idx:]) if m is not None: value = m.group(0) idx += len(value) if idx < len(argument) and argument[idx] == ',': idx += 1 return Constant(val, value), idx raise ValueError() @staticmethod def parse_args(arguments: str, named: bool = False, ret: bool = False) -> tuple[tuple or dict, int]: args = [] if not named else {} idx = 0 name = None while idx < len(arguments): if arguments[idx] == ']' and not named or arguments[idx] == '}' and named: idx += 1 break elif ret and named: m = re.match(r'^\s*([^=]+)=', arguments[idx:]) idx += len(m.group(0)) name = m.group(1) elif named: m = re.match(r'^\s*([^:]+):', arguments[idx:]) idx += len(m.group(0)) name = m.group(1) val, i = Parser.parse_arg(arguments[idx:]) if named: args[name] = val else: args.append(val) idx += i return tuple(args) if not named else args, idx def handle_msg(self, msg: bytes): timestamp, pid, tid, data = msg.rstrip(b'\n').split(b' ', 3) self.pid, self.tid = int(pid), int(tid) if len(self.stack) == 0: self.stack[(self.pid, self.tid)] = [] elif (self.pid, self.tid) not in self.stack: self.stack[(self.pid, self.tid)] = [] if not data.startswith(b'return ') and not data == b'return': call = data.decode('utf-8') #print(f'[{self.pid}][{self.tid}] {call}') func_name = call[:call.find('(')] ret = call[call.rfind(': '):] m = RET_ADDR_RE.match(ret) g_ret, _, g_fname, g_rel, _, g_sym, _, _, src_fname, src_line = m.groups() self.ret_addr = int(g_ret, 0) self.rel_ret_addr = int(g_rel, 0) self.dli_file_name = g_fname self.dli_sym_name = g_sym self.src_file_name = src_fname self.src_line_num = int(src_line, 0) if src_line else None args, _ = Parser.parse_args(call[call.find('(') + 1:call.rfind(': ') - 1]) self.stack[(self.pid, self.tid)].append( (self.ret_addr, self.rel_ret_addr, self.dli_file_name, self.dli_sym_name, self.src_file_name, self.src_line_num, func_name, args)) if func_name == 'fork': self.stack[(0, 0)] = self.stack[(self.pid, self.tid)][:] try: func = getattr(self, f'before_{func_name}') if not callable(func): func = None except AttributeError: func = None try: if func is None: raise NotImplementedError() command = func(*args) or self.before_fallback(func_name, *args) or 'ok' except NotImplementedError: command = self.before_fallback(func_name, *args) or 'ok' if self.wfile: #print(f'[{self.pid}][{self.tid}] -> {command}') self.wfile.write(command.encode('utf-8') + b'\n') else: ret = data.decode('utf-8') ret = ret.split(';', 1) other_vals = ret[1].strip() if len(ret) > 1 else '' ret_value, _ = Parser.parse_arg(ret[0][7:]) kwargs = {} if other_vals.startswith('optind '): ret = other_vals[7:].split(';', 1) kwargs['optind'] = int(ret[0].strip()) other_vals = ret[1].strip() if len(ret) > 1 else '' if other_vals.startswith('errno '): ret = other_vals[6:].split(';', 1) kwargs['errno'] = ret[0].strip() other_vals = ret[1].strip() if len(ret) > 1 else '' if len(other_vals) > 0: kwargs, _ = Parser.parse_args(other_vals, named=True, ret=True) if (self.pid, self.tid) not in self.stack: self.stack[(self.pid, self.tid)] = self.stack[(0, 0)] del self.stack[(0, 0)] (self.ret_addr, self.rel_ret_addr, self.dli_file_name, self.dli_sym_name, self.src_file_name, self.src_line_num, func_name, args) = self.stack[(self.pid, self.tid)].pop() try: func = getattr(self, f'after_{func_name}') if not callable(func): func = None except AttributeError: func = None try: if func is None: raise NotImplementedError() if ret_value is None: func(*args, **kwargs) else: func(*args, ret_value=ret_value, **kwargs) except NotImplementedError: if ret_value is None: self.after_fallback(func_name, *args, **kwargs) else: self.after_fallback(func_name, *args, ret_value=ret_value, **kwargs) #print(f'[{self.pid}][{self.tid}] -> {ret}') def before_malloc(self, size: int) -> str: raise NotImplementedError() def after_malloc(self, size: int, ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_calloc(self, nmemb: int, size: int) -> str: raise NotImplementedError() def after_calloc(self, nmemb: int, size: int, ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_realloc(self, ptr: Pointer, size: int) -> str: raise NotImplementedError() def after_realloc(self, ptr: Pointer, size: int, ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_reallocarray(self, ptr: Pointer, nmemb: int, size: int) -> str: raise NotImplementedError() def after_reallocarray(self, ptr: Pointer, nmemb: int, size: int, ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_free(self, ptr: Pointer) -> str: raise NotImplementedError() def after_free(self, ptr: Pointer) -> None: raise NotImplementedError() def before_getopt(self, argc: int, argv: PointerTo[list[PointerTo[bytes]]], optstring: PointerTo[bytes]) -> str: raise NotImplementedError() def after_getopt(self, argc: int, argv: PointerTo[list[PointerTo[bytes]]], optstring: PointerTo[bytes], ret_value: int, optind: int = None) -> None: raise NotImplementedError() def before_exit(self, status: int) -> str: raise NotImplementedError() def after_exit(self, status: int) -> None: raise NotImplementedError() def before_read(self, fildes: int, buf_ptr: Pointer, nbyte: int) -> str: raise NotImplementedError() def after_read(self, fildes: int, buf_ptr: Pointer, nbyte: int, ret_value: int, errno: str = None, buf: PointerTo[bytes] = None) -> None: raise NotImplementedError() def before_pread(self, fildes: int, buf_ptr: Pointer, nbyte: int, offset: int) -> str: raise NotImplementedError() def after_pread(self, fildes: int, buf_ptr: Pointer, nbyte: int, offset: int, ret_value: int, errno: str = None, buf: PointerTo[bytes] = None) -> None: raise NotImplementedError() def before_write(self, fildes: int, buf: PointerTo[bytes], nbyte: int) -> str: raise NotImplementedError() def after_write(self, fildes: int, buf: PointerTo[bytes], nbyte: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_pwrite(self, fildes: int, buf: PointerTo[bytes], nbyte: int, offste: int) -> str: raise NotImplementedError() def after_pwrite(self, fildes: int, buf: PointerTo[bytes], nbyte: int, offste: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_close(self, fildes: int) -> str: raise NotImplementedError() def after_close(self, fildes: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sigaction(self, sig: Constant, act: PointerTo[StructSigAction], oact_ptr: Pointer) -> str: raise NotImplementedError() def after_sigaction(self, sig: Constant, act: PointerTo[StructSigAction], oact_ptr: Pointer, ret_value: int, errno: str = None, oact: StructSigAction = None) -> None: raise NotImplementedError() def before_sem_init(self, sem: Pointer, pshared: int, value: int) -> str: raise NotImplementedError() def after_sem_init(self, sem: Pointer, pshared: int, value: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_open(self, name: str, oflag: Flags, mode: Optional[int], value: Optional[int]) -> str: raise NotImplementedError() def after_sem_open(self, name: str, oflag: Flags, mode: Optional[int], value: Optional[int], ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_sem_post(self, sem: Pointer) -> str: raise NotImplementedError() def after_sem_post(self, sem: Pointer, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_wait(self, sem: Pointer) -> str: raise NotImplementedError() def after_sem_wait(self, sem: Pointer, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_trywait(self, sem: Pointer) -> str: raise NotImplementedError() def after_sem_trywait(self, sem: Pointer, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_timedwait(self, sem: Pointer, abs_timeout: PointerTo[StructTimeSpec]) -> str: raise NotImplementedError() def after_sem_timedwait(self, sem: Pointer, abs_timeout: PointerTo[StructTimeSpec], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_getvalue(self, sem: Pointer, value_ptr: Pointer) -> str: raise NotImplementedError() def after_sem_getvalue(self, sem: Pointer, value_ptr: Pointer, ret_value: int, errno: str = None, value: int = None) -> None: raise NotImplementedError() def before_sem_close(self, sem: Pointer) -> str: raise NotImplementedError() def after_sem_close(self, sem: Pointer, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_unlink(self, name: PointerTo[bytes]) -> str: raise NotImplementedError() def after_sem_unlink(self, name: PointerTo[bytes], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sem_destroy(self, sem: Pointer) -> str: raise NotImplementedError() def after_sem_destroy(self, sem: Pointer, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_shm_open(self, name: PointerTo[bytes], oflag: Flags, mode: int) -> str: raise NotImplementedError() def after_shm_open(self, name: PointerTo[bytes], oflag: Flags, mode: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_shm_unlink(self, name: PointerTo[bytes]) -> str: raise NotImplementedError() def after_shm_unlink(self, name: PointerTo[bytes], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_mmap(self, addr: Pointer, length: int, prot: Flags, flags: Flags, fildes: int, off: int) -> str: raise NotImplementedError() def after_mmap(self, addr: Pointer, length: int, prot: Flags, flags: Flags, fildes: int, off: int, ret_value: Pointer, errno: str = None) -> None: raise NotImplementedError() def before_munmap(self, addr: Pointer, length: int) -> str: raise NotImplementedError() def after_munmap(self, addr: Pointer, length: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_ftruncate(self, fildes: int, length: int) -> str: raise NotImplementedError() def after_ftruncate(self, fildes: int, length: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_fork(self) -> str: raise NotImplementedError() def after_fork(self, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_wait(self, stat_loc: Pointer) -> str: raise NotImplementedError() def after_wait(self, stat_loc: Pointer, ret_value: int, errno: str = None, stat: int = None) -> None: raise NotImplementedError() def before_waitpid(self, pid: int, stat_loc: Pointer, options: Flags) -> str: raise NotImplementedError() def after_waitpid(self, pid: int, stat_loc: Pointer, options: Flags, ret_value: int, errno: str = None, stat: int = None) -> None: raise NotImplementedError() def before_execl(self, pathname: PointerTo[bytes], *args: list[PointerTo[bytes]]) -> str: raise NotImplementedError() def after_execl(self, pathname: PointerTo[bytes], *args: list[PointerTo[bytes]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execlp(self, file: PointerTo[bytes], *args: list[PointerTo[bytes]]) -> str: raise NotImplementedError() def after_execlp(self, file: PointerTo[bytes], *args: list[PointerTo[bytes]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execle(self, pathname: PointerTo[bytes], *args: list[PointerTo[bytes]], envp: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_execle(self, pathname: PointerTo[bytes], *args: list[PointerTo[bytes]], envp: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execv(self, pathname: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_execv(self, pathname: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execvp(self, file: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_execvp(self, file: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execvpe(self, file: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_execvpe(self, file: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_execve(self, pathname: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_execve(self, pathname: PointerTo[bytes], argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_fexecve(self, fd: int, argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]]) -> str: raise NotImplementedError() def after_fexecve(self, fd: int, argv: PointerTo[list[PointerTo[bytes]]], envp: PointerTo[list[PointerTo[bytes]]], ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_pipe(self, fildes_ptr: Pointer) -> str: raise NotImplementedError() def after_pipe(self, fildes_ptr: Pointer, ret_value: int, errno: str = None, fildes: list[int] = None) -> None: raise NotImplementedError() def before_dup(self, oldfd: int) -> str: raise NotImplementedError() def after_dup(self, oldfd: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_dup2(self, oldfd: int, newfd: int) -> str: raise NotImplementedError() def after_dup2(self, oldfd: int, newfd: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_dup3(self, oldfd: int, newfd: int, flags: Flags) -> str: raise NotImplementedError() def after_dup3(self, oldfd: int, newfd: int, flags: Flags, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_socket(self, domain: Constant, socktype: Constant, protocol: int) -> str: raise NotImplementedError() def after_socket(self, domain: Constant, socktype: Constant, protocol: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_bind(self, sockfd: int, address: PointerTo[StructSockAddr], address_len: int) -> str: raise NotImplementedError() def after_bind(self, sockfd: int, address: PointerTo[StructSockAddr], address_len: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_listen(self, sockfd: int, backlog: int) -> str: raise NotImplementedError() def after_listen(self, sockfd: int, backlog: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_accept(self, sockfd: int, address_ptr: Pointer, address_len_ptr: Pointer) -> str: raise NotImplementedError() def after_accept(self, sockfd: int, address_ptr: Pointer, address_len_ptr: Pointer, ret_value: int, errno: str = None, address: PointerTo[StructSockAddr] = None, address_len: PointerTo[StructSockAddr] = None) -> None: raise NotImplementedError() def before_connect(self, sockfd: int, address: PointerTo[StructSockAddr], address_len: int) -> str: raise NotImplementedError() def after_connect(self, sockfd: int, address: PointerTo[StructSockAddr], address_len: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_getaddrinfo(self, node: PointerTo[bytes], service: PointerTo[bytes], hints: PointerTo[list[StructAddrInfo]], res_ptr: Pointer) -> str: raise NotImplementedError() def after_getaddrinfo(self, node: PointerTo[bytes], service: PointerTo[bytes], hints: PointerTo[list[StructAddrInfo]], res_ptr: Pointer, ret_value: Constant, errno: str = None, res: PointerTo[list[StructAddrInfo]] = None) -> None: raise NotImplementedError() def before_freeaddrinfo(self, res: Pointer) -> str: raise NotImplementedError() def after_freeaddrinfo(self, res: Pointer) -> None: raise NotImplementedError() def before_send(self, sockfd: int, buf: PointerTo[bytes], length: int, flags: Flags) -> str: raise NotImplementedError() def after_send(self, sockfd: int, buf: PointerTo[bytes], length: int, flags: Flags, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sendto(self, sockfd: int, buf: PointerTo[bytes], length: int, flags: Flags, dest_addr: PointerTo[StructSockAddr], addrlen: int) -> str: raise NotImplementedError() def after_sendto(self, sockfd: int, buf: PointerTo[bytes], length: int, flags: Flags, dest_addr: PointerTo[StructSockAddr], addrlen: int, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_sendmsg(self, sockfd: int, message: StructMsgHdr, flags: Flags) -> str: raise NotImplementedError() def after_sendmsg(self, sockfd: int, message: StructMsgHdr, flags: Flags, ret_value: int, errno: str = None) -> None: raise NotImplementedError() def before_recv(self, sockfd: int, buf_ptr: Pointer, size: int, flags: Flags) -> str: raise NotImplementedError() def after_recv(self, sockfd: int, buf_ptr: Pointer, size: int, flags: Flags, ret_value: int, errno: str = None, buf: PointerTo[bytes] = None) -> None: raise NotImplementedError() def before_recvfrom(self, sockfd: int, buf_ptr: Pointer, size: int, flags: Flags, src_addr_ptr: Pointer, addrlen_ptr: Pointer) -> str: raise NotImplementedError() def after_recvfrom(self, sockfd: int, buf_ptr: Pointer, size: int, flags: Flags, src_addr_ptr: Pointer, addrlen_ptr: Pointer, ret_value: int, errno: str = None, buf: PointerTo[bytes] = None, src_addr: PointerTo[StructSockAddr] = None, addrlen: int = None) -> None: raise NotImplementedError() def before_recvmsg(self, sockfd: int, message_ptr: Pointer, flags: Flags) -> str: raise NotImplementedError() def after_recvmsg(self, sockfd: int, message_ptr: Pointer, flags: Flags, ret_value: int, errno: str = None, message: PointerTo[StructMsgHdr] = None) -> None: raise NotImplementedError() def before_getline(self, line_ptr: PointerTo[Pointer], n_ptr: PointerTo[int], stream: Pointer) -> str: raise NotImplementedError() def after_getline(self, line_ptr: PointerTo[Pointer], n_ptr: PointerTo[int], stream: Pointer, ret_value: int, errno: str = None, n: int = None, line: PointerTo[bytes] = None) -> None: raise NotImplementedError() def before_getdelim(self, line_ptr: PointerTo[Pointer], n_ptr: PointerTo[int], delim: int, stream: Pointer) -> str: raise NotImplementedError() def after_getdelim(self, line_ptr: PointerTo[Pointer], n_ptr: PointerTo[int], delim: int, stream: Pointer, ret_value: int, errno: str = None, n: int = None, line: PointerTo[bytes] = None) -> None: raise NotImplementedError() class Handler(StreamRequestHandler, Parser): def handle(self): first = self.rfile.readline() meta = {a[0]: a[1] for a in [tuple(p.decode('utf-8').split(':', 1)) for p in first.split(b' ', 3)[3].strip().split(b';')]} self.pid = int(meta['PID']) if 'PID' in meta else None self.path = meta['PATH'] if 'PATH' in meta else None print(f'Process with PID {self.pid} connected ({self.path})') self.stack = {} self.parse() def intercept(socket: str, handler: type[Handler]) -> None: try: with ThreadedUnixStreamServer(socket, handler) as server: server.serve_forever() except KeyboardInterrupt: print('\nBye') server.shutdown() finally: try: os.unlink(socket) except FileNotFoundError: pass