# # gdb helper commands and functions for Linux kernel debugging # # load kernel and module symbols # # Copyright (c) Siemens AG, 2011-2013 # # Authors: # Jan Kiszka # # This work is licensed under the terms of the GNU GPL version 2. # import atexit import gdb import os import re import struct from itertools import count from linux import bpf, constants, modules, utils if hasattr(gdb, 'Breakpoint'): class LoadModuleBreakpoint(gdb.Breakpoint): def __init__(self, spec, gdb_command): super(LoadModuleBreakpoint, self).__init__(spec, internal=True) self.silent = True self.gdb_command = gdb_command def stop(self): module = gdb.parse_and_eval("mod") module_name = module['name'].string() cmd = self.gdb_command # enforce update if object file is not found cmd.module_files_updated = False # Disable pagination while reporting symbol (re-)loading. # The console input is blocked in this context so that we would # get stuck waiting for the user to acknowledge paged output. with utils.pagination_off(): if module_name in cmd.loaded_modules: gdb.write("refreshing all symbols to reload module " "'{0}'\n".format(module_name)) cmd.load_all_symbols() else: cmd.load_module_symbols(module) return False def get_vmcore_s390(): with utils.qemu_phy_mem_mode(): vmcore_info = 0x0e0c paddr_vmcoreinfo_note = gdb.parse_and_eval("*(unsigned long long *)" + hex(vmcore_info)) if paddr_vmcoreinfo_note == 0 or paddr_vmcoreinfo_note & 1: # In the early boot case, extract vm_layout.kaslr_offset from the # vmlinux image in physical memory. if paddr_vmcoreinfo_note == 0: kaslr_offset_phys = 0 else: kaslr_offset_phys = paddr_vmcoreinfo_note - 1 with utils.pagination_off(): gdb.execute("symbol-file {0} -o {1}".format( utils.get_vmlinux(), hex(kaslr_offset_phys))) kaslr_offset = gdb.parse_and_eval("vm_layout.kaslr_offset") return "KERNELOFFSET=" + hex(kaslr_offset)[2:] inferior = gdb.selected_inferior() elf_note = inferior.read_memory(paddr_vmcoreinfo_note, 12) n_namesz, n_descsz, n_type = struct.unpack(">III", elf_note) desc_paddr = paddr_vmcoreinfo_note + len(elf_note) + n_namesz + 1 return gdb.parse_and_eval("(char *)" + hex(desc_paddr)).string() def get_kerneloffset(): if utils.is_target_arch('s390'): try: vmcore_str = get_vmcore_s390() except gdb.error as e: gdb.write("{}\n".format(e)) return None return utils.parse_vmcore(vmcore_str).kerneloffset return None def is_in_s390_decompressor(): # DAT is always off in decompressor. Use this as an indicator. # Note that in the kernel, DAT can be off during kexec() or restart. # Accept this imprecision in order to avoid complicating things. # It is unlikely that someone will run lx-symbols at these points. pswm = int(gdb.parse_and_eval("$pswm")) return (pswm & 0x0400000000000000) == 0 def skip_decompressor(): if utils.is_target_arch("s390"): if is_in_s390_decompressor(): # The address of the jump_to_kernel function is statically placed # into svc_old_psw.addr (see ipl_data.c); read it from there. DAT # is off, so we do not need to care about lowcore relocation. svc_old_pswa = 0x148 jump_to_kernel = int(gdb.parse_and_eval("*(unsigned long long *)" + hex(svc_old_pswa))) gdb.execute("tbreak *" + hex(jump_to_kernel)) gdb.execute("continue") while is_in_s390_decompressor(): gdb.execute("stepi") class LxSymbols(gdb.Command): """(Re-)load symbols of Linux kernel and currently loaded modules. The kernel (vmlinux) is taken from the current working directly. Modules (.ko) are scanned recursively, starting in the same directory. Optionally, the module search path can be extended by a space separated list of paths passed to the lx-symbols command. When the -bpf flag is specified, symbols from the currently loaded BPF programs are loaded as well.""" module_paths = [] module_files = [] module_files_updated = False loaded_modules = [] breakpoint = None bpf_prog_monitor = None bpf_ksym_monitor = None bpf_progs = {} # The remove-symbol-file command, even when invoked with -a, requires the # respective object file to exist, so keep them around. bpf_debug_objs = {} def __init__(self): super(LxSymbols, self).__init__("lx-symbols", gdb.COMMAND_FILES, gdb.COMPLETE_FILENAME) atexit.register(self.cleanup_bpf) def _update_module_files(self): self.module_files = [] for path in self.module_paths: gdb.write("scanning for modules in {0}\n".format(path)) for root, dirs, files in os.walk(path): for name in files: if name.endswith(".ko") or name.endswith(".ko.debug"): self.module_files.append(root + "/" + name) self.module_files_updated = True def _get_module_file(self, module_name): module_pattern = r".*/{0}\.ko(?:.debug)?$".format( module_name.replace("_", r"[_\-]")) for name in self.module_files: if re.match(module_pattern, name) and os.path.exists(name): return name return None def _section_arguments(self, module, module_addr): try: sect_attrs = module['sect_attrs'].dereference() except gdb.error: return str(module_addr) section_name_to_address = {} for i in count(): # this is a NULL terminated array if sect_attrs['grp']['bin_attrs'][i] == 0x0: break attr = sect_attrs['grp']['bin_attrs'][i].dereference() section_name_to_address[attr['attr']['name'].string()] = attr['private'] textaddr = section_name_to_address.get(".text", module_addr) args = [] for section_name in [".data", ".data..read_mostly", ".rodata", ".bss", ".text.hot", ".text.unlikely"]: address = section_name_to_address.get(section_name) if address: args.append(" -s {name} {addr}".format( name=section_name, addr=str(address))) return "{textaddr} {sections}".format( textaddr=textaddr, sections="".join(args)) def load_module_symbols(self, module): module_name = module['name'].string() module_addr = str(module['mem'][constants.LX_MOD_TEXT]['base']).split()[0] module_file = self._get_module_file(module_name) if not module_file and not self.module_files_updated: self._update_module_files() module_file = self._get_module_file(module_name) if module_file: if utils.is_target_arch('s390'): # Module text is preceded by PLT stubs on s390. module_arch = module['arch'] plt_offset = int(module_arch['plt_offset']) plt_size = int(module_arch['plt_size']) module_addr = hex(int(module_addr, 0) + plt_offset + plt_size) gdb.write("loading @{addr}: {filename}\n".format( addr=module_addr, filename=module_file)) cmdline = "add-symbol-file {filename} {sections}".format( filename=module_file, sections=self._section_arguments(module, module_addr)) gdb.execute(cmdline, to_string=True) if module_name not in self.loaded_modules: self.loaded_modules.append(module_name) else: gdb.write("no module object found for '{0}'\n".format(module_name)) def add_bpf_prog(self, prog): if prog["jited"]: self.bpf_progs[int(prog["bpf_func"])] = prog def remove_bpf_prog(self, prog): self.bpf_progs.pop(int(prog["bpf_func"]), None) def add_bpf_ksym(self, ksym): addr = int(ksym["start"]) name = bpf.get_ksym_name(ksym) with utils.pagination_off(): gdb.write("loading @{addr}: {name}\n".format( addr=hex(addr), name=name)) debug_obj = bpf.generate_debug_obj(ksym, self.bpf_progs.get(addr)) if debug_obj is None: return try: cmdline = "add-symbol-file {obj} {addr}".format( obj=debug_obj.name, addr=hex(addr)) gdb.execute(cmdline, to_string=True) except: debug_obj.close() raise self.bpf_debug_objs[addr] = debug_obj def remove_bpf_ksym(self, ksym): addr = int(ksym["start"]) debug_obj = self.bpf_debug_objs.pop(addr, None) if debug_obj is None: return try: name = bpf.get_ksym_name(ksym) gdb.write("unloading @{addr}: {name}\n".format( addr=hex(addr), name=name)) cmdline = "remove-symbol-file {path}".format(path=debug_obj.name) gdb.execute(cmdline, to_string=True) finally: debug_obj.close() def cleanup_bpf(self): self.bpf_progs = {} while len(self.bpf_debug_objs) > 0: self.bpf_debug_objs.popitem()[1].close() def load_all_symbols(self): gdb.write("loading vmlinux\n") # Dropping symbols will disable all breakpoints. So save their states # and restore them afterward. saved_states = [] if hasattr(gdb, 'breakpoints') and not gdb.breakpoints() is None: for bp in gdb.breakpoints(): saved_states.append({'breakpoint': bp, 'enabled': bp.enabled}) # drop all current symbols and reload vmlinux orig_vmlinux = utils.get_vmlinux() gdb.execute("symbol-file", to_string=True) kerneloffset = get_kerneloffset() if kerneloffset is None: offset_arg = "" else: offset_arg = " -o " + hex(kerneloffset) gdb.execute("symbol-file {0}{1}".format(orig_vmlinux, offset_arg)) self.loaded_modules = [] module_list = modules.module_list() if not module_list: gdb.write("no modules found\n") else: [self.load_module_symbols(module) for module in module_list] self.cleanup_bpf() if self.bpf_prog_monitor is not None: self.bpf_prog_monitor.notify_initial() if self.bpf_ksym_monitor is not None: self.bpf_ksym_monitor.notify_initial() for saved_state in saved_states: saved_state['breakpoint'].enabled = saved_state['enabled'] def invoke(self, arg, from_tty): skip_decompressor() monitor_bpf = False self.module_paths = [] for p in arg.split(): if p == "-bpf": monitor_bpf = True else: p.append(os.path.abspath(os.path.expanduser(p))) self.module_paths.append(os.getcwd()) if self.breakpoint is not None: self.breakpoint.delete() self.breakpoint = None if self.bpf_prog_monitor is not None: self.bpf_prog_monitor.delete() self.bpf_prog_monitor = None if self.bpf_ksym_monitor is not None: self.bpf_ksym_monitor.delete() self.bpf_ksym_monitor = None # enforce update self.module_files = [] self.module_files_updated = False self.load_all_symbols() if not hasattr(gdb, 'Breakpoint'): gdb.write("Note: symbol update on module and BPF loading not " "supported with this gdb version\n") return if modules.has_modules(): self.breakpoint = LoadModuleBreakpoint( "kernel/module/main.c:do_init_module", self) if monitor_bpf: if constants.LX_CONFIG_BPF_SYSCALL: self.bpf_prog_monitor = bpf.ProgMonitor(self.add_bpf_prog, self.remove_bpf_prog) if constants.LX_CONFIG_BPF and constants.LX_CONFIG_BPF_JIT: self.bpf_ksym_monitor = bpf.KsymMonitor(self.add_bpf_ksym, self.remove_bpf_ksym) LxSymbols()