############################################################################ # tools/gdb/thread.py # # Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. The # ASF licenses this file to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance with the # License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. # ############################################################################ import gdb import utils UINT16_MAX = 0xFFFF saved_regs = None def save_regs(): global saved_regs tcbinfo = gdb.parse_and_eval("g_tcbinfo") if saved_regs is not None: return arch = gdb.selected_frame().architecture() saved_regs = [] i = 0 for reg in arch.registers(): if i >= tcbinfo["basic_num"]: break saved_regs.append(gdb.parse_and_eval("$%s" % reg.name)) i += 1 def restore_regs(): tcbinfo = gdb.parse_and_eval("g_tcbinfo") global saved_regs if saved_regs is None: return arch = gdb.selected_frame().architecture() i = 0 for reg in arch.registers(): if i >= tcbinfo["basic_num"]: break gdb.execute("set $%s=%d" % (reg.name, int(saved_regs[i]))) i += 1 saved_regs = None class Nxsetregs(gdb.Command): """ Set registers to the specified values. Usage: nxsetregs [regs] Etc: nxsetregs nxsetregs g_current_regs[0] nxsetregs tcb->xcp.regs Nxsetregs g_pidhash[0].tcb->xcp.regs Default regs is g_current_regs[0],if regs is NULL, it will not set registers. """ def __init__(self): super(Nxsetregs, self).__init__("nxsetregs", gdb.COMMAND_USER) def invoke(self, args, from_tty): current_regs = gdb.parse_and_eval("g_current_regs") tcbinfo = gdb.parse_and_eval("g_tcbinfo") arg = args.split(" ") if arg[0] != "": regs = gdb.parse_and_eval("%s" % arg[0]).cast( gdb.lookup_type("char").pointer() ) else: if utils.is_target_smp(): gdb.execute("set $_index=up_cpu_index()") index = gdb.parse_and_eval("$_index") else: index = 0 if current_regs[index] == 0: return regs = current_regs[index].cast(gdb.lookup_type("char").pointer()) if regs == 0: gdb.write("regs is NULL\n") return save_regs() arch = gdb.selected_frame().architecture() i = 0 for reg in arch.registers(): if i >= tcbinfo["basic_num"]: return if tcbinfo["reg_off"]["p"][i] != UINT16_MAX: value = gdb.Value(regs + tcbinfo["reg_off"]["p"][i]).cast( gdb.lookup_type("uintptr_t").pointer() )[0] gdb.execute("set $%s = 0x%x" % (reg.name, value)) i += 1 def get_pc_value(tcb): arch = gdb.selected_frame().architecture() tcbinfo = gdb.parse_and_eval("g_tcbinfo") i = 0 for reg in arch.registers(): if reg.name == "pc" or reg.name == "rip" or reg.name == "eip": break i += 1 regs = tcb["xcp"]["regs"].cast(gdb.lookup_type("char").pointer()) value = gdb.Value(regs + tcbinfo["reg_off"]["p"][i]).cast( gdb.lookup_type("uintptr_t").pointer() )[0] return int(value) class Nxinfothreads(gdb.Command): def __init__(self): super(Nxinfothreads, self).__init__("info threads", gdb.COMMAND_USER) def invoke(self, args, from_tty): npidhash = gdb.parse_and_eval("g_npidhash") pidhash = gdb.parse_and_eval("g_pidhash") statenames = gdb.parse_and_eval("g_statenames") if utils.is_target_smp(): gdb.write( "%-4s %-4s %-21s %-80s %-30s\n" % ("Id", "Cpu", "Thread", "Info", "Frame") ) else: gdb.write("%-4s %-21s %-80s %-30s\n" % ("Id", "Thread", "Info", "Frame")) for i in range(0, npidhash): if pidhash[i] == 0: continue if pidhash[i]["task_state"] == gdb.parse_and_eval("TSTATE_TASK_RUNNING"): id = "*%s" % i pc = int(gdb.parse_and_eval("$pc")) else: id = "%s" % i pc = get_pc_value(pidhash[i]) thread = "Thread 0x%x" % pidhash[i] try: """Maybe tcb not have name member, or name is not utf-8""" info = "(Name: %s, State: %s, Priority: %d, Stack: %d)" % ( pidhash[i]["name"].string(), statenames[pidhash[i]["task_state"]].string(), pidhash[i]["sched_priority"], pidhash[i]["adj_stack_size"], ) except gdb.error and UnicodeDecodeError: info = "(Name: Not utf-8, State: %s, Priority: %d, Stack: %d)" % ( statenames[pidhash[i]["task_state"]].string(), pidhash[i]["sched_priority"], pidhash[i]["adj_stack_size"], ) line = gdb.find_pc_line(pc) if line.symtab: func = gdb.execute("info symbol %d " % pc, to_string=True) frame = "0x%x %s at %s:%d" % ( pc, func.split()[0] + "()", line.symtab, line.line, ) else: frame = "No symbol with pc" if utils.is_target_smp(): cpu = "%d" % pidhash[i]["cpu"] gdb.write( "%-4s %-4s %-21s %-80s %-30s\n" % (id, cpu, thread, info, frame) ) else: gdb.write("%-4s %-21s %-80s %-30s\n" % (id, thread, info, frame)) class Nxthread(gdb.Command): def __init__(self): super(Nxthread, self).__init__("thread", gdb.COMMAND_USER) def invoke(self, args, from_tty): npidhash = gdb.parse_and_eval("g_npidhash") pidhash = gdb.parse_and_eval("g_pidhash") arg = args.split(" ") arglen = len(arg) if arg[0] == "": pass elif arg[0] == "apply": if arglen <= 1: gdb.write("Please specify a thread ID list\n") elif arglen <= 2: gdb.write("Please specify a command following the thread ID list\n") elif arg[1] == "all": for i in range(0, npidhash): if pidhash[i] == 0: continue try: gdb.write("Thread %d %s\n" % (i, pidhash[i]["name"].string())) except gdb.error and UnicodeDecodeError: gdb.write("Thread %d\n" % (i)) gdb.execute("nxsetregs g_pidhash[%d]->xcp.regs" % i) cmd_arg = "" for cmd in arg[2:]: cmd_arg += cmd + " " gdb.execute("%s\n" % cmd_arg) restore_regs() else: threadlist = [] i = 0 cmd = "" for i in range(1, arglen): if arg[i].isnumeric(): threadlist.append(int(arg[i])) else: cmd += arg[i] + " " if len(threadlist) == 0 or cmd == "": gdb.write("Please specify a thread ID list and command\n") else: for i in threadlist: if i >= npidhash: break if pidhash[i] == 0: continue try: gdb.write( "Thread %d %s\n" % (i, pidhash[i]["name"].string()) ) except gdb.error and UnicodeDecodeError: gdb.write("Thread %d\n" % (i)) gdb.execute("nxsetregs g_pidhash[%d]->xcp.regs" % i) gdb.execute("%s\n" % cmd) restore_regs() else: if arg[0].isnumeric() and pidhash[int(arg[0])] != 0: gdb.execute("nxsetregs g_pidhash[%s]->xcp.regs" % arg[0]) else: gdb.write("Invalid thread id %s\n" % arg[0]) class Nxcontinue(gdb.Command): def __init__(self): super(Nxcontinue, self).__init__("nxcontinue", gdb.COMMAND_USER) def invoke(self, args, from_tty): restore_regs() gdb.execute("continue") # We can't use a user command to rename continue it will recursion gdb.execute("define c\n nxcontinue \n end\n") gdb.write("\nif use thread command, plase don't use 'continue', use 'c' inside !!!\n") Nxsetregs() Nxinfothreads() Nxthread() Nxcontinue()