# # Copyright (C) Lynn Tran, Jiachen Zhang 2018 # # utils-gdb.py -- # # Author : Lynn Tran # Created On : Mon Oct 1 22:06:09 2018 # Last Modified By : Peter A. Buhr # Last Modified On : Thu Dec 20 22:11:23 2018 # Update Count : 5 # """ To run this extension, the python name has to be as same as one of the loaded library Additionally, the file must exist in a folder which is in gdb's safe path """ import collections import gdb # set these signal handlers with some settings (nostop, noprint, pass) gdb.execute('handle SIGALRM nostop noprint pass') gdb.execute('handle SIGUSR1 nostop noprint pass') # GDB types for various structures/types in uC++ uCluster_ptr_type = gdb.lookup_type('uCluster').pointer() uClusterDL_ptr_type = gdb.lookup_type('uClusterDL').pointer() uBaseTask_ptr_type = gdb.lookup_type('uBaseTask').pointer() uBaseTaskDL_ptr_type = gdb.lookup_type('uBaseTaskDL').pointer() int_ptr_type = gdb.lookup_type('int').pointer() # A named tuple representing information about a stack StackInfo = collections.namedtuple('StackInfo', 'sp fp pc') # A global variable to keep track of stack information as one context switches # from one task to another task STACK = [] # A global variable to keep all system task name SysTask_Name = ["uLocalDebuggerReader", "uLocalDebugger", "uProcessorTask", "uBootTask", "uSystemTask", "uProcessorTask", "uPthread", "uProfiler"] def get_addr(addr): """ NOTE: sketchy solution to retrieve address. There is a better solution... @addr: str of an address that can be in a format 0xfffff Return: str of just the address """ str_addr = str(addr) ending_addr_index = str_addr.find('<') if ending_addr_index == -1: return str(addr) return str_addr[:ending_addr_index].strip() def print_usage(msg): """ Print out usage message @msg: str """ print('Usage: ' + msg) def get_argv_list(args): """ Split the argument list in string format, where each argument is separated by whitespace delimiter, to a list of arguments like argv @args: str of arguments Return: [] if args is an empty string list if args is not empty """ # parse the string format of arguments and return a list of arguments argv = args.split(' ') if len(argv) == 1 and argv[0] == '': return [] return argv def get_cluster_root(): """ Return: gdb.Value of globalClusters.root (is an address) """ cluster_root = gdb.parse_and_eval('uKernelModule::globalClusters.root') if cluster_root.address == 0x0: print('No clusters, program terminated') return cluster_root def lookup_cluster_by_name(cluster_name): """ Look up a cluster given its ID @cluster_name: str Return: gdb.Value """ cluster_root = get_cluster_root() if cluster_root.address == 0x0: return cluster_root.address # lookup for the task associated with the id cluster = 0x0 curr = cluster_root while True: if curr['cluster_']['name'].string() == cluster_name: cluster = curr['cluster_'].address break curr = curr['next'].cast(uClusterDL_ptr_type) if curr == cluster_root: break if cluster == 0x0: print("Cannot find a cluster with the name: {}.".format(cluster_name)) return cluster ############################ COMMAND IMPLEMENTATION ######################### class Clusters(gdb.Command): """Print out the list of available clusters""" usage_msg = 'cluster' def __init__(self): super(Clusters, self).__init__('clusters', gdb.COMMAND_USER) def invoke(self, arg, from_tty): """ Iterate through a circular linked list of clusters and print out its name along with address associated to each cluster @arg: str @from_tty: bool """ argv = get_argv_list(arg) if len(argv) != 0: print_usage(self.usage_msg) return cluster_root = get_cluster_root() if cluster_root.address == 0x0: return curr = cluster_root print('{:>20}{:>18}'.format('Name', 'Address')) while True: print('{:>20}{:>18}'.format(curr['cluster_']['name'].string(), str(curr['cluster_'].reference_value())[1:])) curr = curr['next'].cast(uClusterDL_ptr_type) if curr == cluster_root: break class ClusterProcessors(gdb.Command): """Display a list of all info about all available processors on a particular cluster""" usage_msg = 'processors ' def __init__(self): super(ClusterProcessors, self).__init__('processors', gdb.COMMAND_USER) def invoke(self, arg, from_tty): """ Iterate through a circular linked list of tasks and print out all info about each processor in that cluster @arg: str @from_tty: bool """ argv = get_argv_list(arg) if len(argv) > 1: print_usage(self.usage_msg) return if len(argv) == 0: cluster_address = lookup_cluster_by_name("userCluster") else: cluster_address = lookup_cluster_by_name(argv[0]) if cluster_address == 0x0: return processor_root = cluster_address.cast(uCluster_ptr_type)['processorsOnCluster']['root'] if processor_root.address == 0x0: print('There are no processors for cluster at address: {}'.format(cluster_address)) return uProcessorDL_ptr_type = gdb.lookup_type('uProcessorDL').pointer() print('{:>18}{:>20}{:>20}{:>20}'.format('Address', 'PID', 'Preemption', 'Spin')) curr = processor_root while True: processor = curr['processor_'] print('{:>18}{:>20}{:>20}{:>20}'.format(get_addr(processor.address), str(processor['pid']), str(processor['preemption']), str(processor['spin']))) curr = curr['next'].cast(uProcessorDL_ptr_type) if curr == processor_root: break class Task(gdb.Command): usage_msg = """ task : print userCluster tasks, application tasks only task : print cluster tasks, application tasks only task all : print all clusters, all tasks task : context switch to task id on userCluster task 0x

: context switch to task on any cluster task : context switch to task on specified cluster """ def __init__(self): # The first parameter of the line below is the name of the command. You # can call it 'uc++ task' super(Task, self).__init__('task', gdb.COMMAND_USER) ############################ AUXILIARY FUNCTIONS ######################### def print_tasks_by_cluster_all(self, cluster_address): """ Display a list of all info about all available tasks on a particular cluster @cluster_address: gdb.Value """ cluster_address = cluster_address.cast(uCluster_ptr_type) task_root = cluster_address['tasksOnCluster']['root'] if task_root.address == 0x0: print('There are no tasks for cluster at address: {}'.format(cluster_address)) return print('{:>4}{:>20}{:>18}{:>25}'.format('ID', 'Task Name', 'Address', 'State')) curr = task_root task_id = 0 systask_id = -1 btstr = gdb.execute('bt', to_string = True) break_addr = btstr.splitlines()[0].split('this=',1)[1].split(',')[0].split(')')[0] while True: global SysTask_Name if (curr['task_']['name'].string() in SysTask_Name): if str(curr['task_'].reference_value())[1:] == break_addr: print( ('{:>4}{:>20}{:>18}{:>25}'.format('* '+str(systask_id), curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) ) else: print( ('{:>4}{:>20}{:>18}{:>25}'.format(systask_id, curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) ) systask_id -= 1 else: if str(curr['task_'].reference_value())[1:] == break_addr: print('{:>4}{:>20}{:>18}{:>25}'.format('* '+str(task_id), curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) else: print('{:>4}{:>20}{:>18}{:>25}'.format(task_id, curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) task_id += 1 curr = curr['next'].cast(uBaseTaskDL_ptr_type) if curr == task_root: break def print_tasks_by_cluster_address_all(self, cluster_address): """ Display a list of all info about all available tasks on a particular cluster @cluster_address: str """ # Iterate through a circular linked list of tasks and print out its # name along with address associated to each cluster # convert hex string to hex number try: hex_addr = int(cluster_address, 16) except: print_usage(self.usage_msg) return cluster_address = gdb.Value(hex_addr) self.print_tasks_by_cluster_all(cluster_address) def print_tasks_by_cluster_address(self, cluster_address): """ Display a list of limited info about all available tasks on a particular cluster @cluster_address: str """ # Iterate through a circular linked list of tasks and print out its # name along with address associated to each cluster # convert hex string to hex number try: hex_addr = int(cluster_address, 16) except: print_usage(self.usage_msg) return cluster_address = gdb.Value(hex_addr).cast(uCluster_ptr_type) task_root = cluster_address['tasksOnCluster']['root'] if task_root.address == 0x0: print('There are no tasks for cluster at address: {}'.format(cluster_address)) return print('{:>4}{:>20}{:>18}{:>25}'.format('ID', 'Task Name', 'Address', 'State')) curr = task_root task_id = 0 btstr = gdb.execute('bt', to_string = True) break_addr = btstr.splitlines()[0].split('this=',1)[1].split(',')[0].split(')')[0] while True: global SysTask_Name if (curr['task_']['name'].string() not in SysTask_Name): if str(curr['task_'].reference_value())[1:] == break_addr: print( ('{:>4}{:>20}{:>18}{:>25}'.format('* '+str(task_id), curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) ) else: print('{:>4}{:>20}{:>18}{:>25}'.format(task_id, curr['task_']['name'].string(), str(curr['task_'].reference_value())[1:], str(curr['task_']['state'])) ) curr = curr['next'].cast(uBaseTaskDL_ptr_type) task_id += 1 if curr == task_root: break else: curr = curr['next'].cast(uBaseTaskDL_ptr_type) if curr == task_root: break ############################ COMMAND FUNCTIONS ######################### def print_user_tasks(self): """Iterate only userCluster, print only tasks and main""" cluster_address = lookup_cluster_by_name("userCluster") if cluster_address == 0x0: return self.print_tasks_by_cluster_address(str(cluster_address)) def print_all_tasks(self): """Iterate through each cluster, iterate through all tasks and print out info about all the tasks in those clusters""" cluster_root = get_cluster_root() if cluster_root.address == 0x0: return curr = cluster_root print('{:>20}{:>18}'.format('Cluster Name', 'Address')) while True: addr = str(curr['cluster_'].reference_value())[1:] print('{:>20}{:>18}'.format(curr['cluster_']['name'].string(), addr)) self.print_tasks_by_cluster_address_all(addr) curr = curr['next'].cast(uClusterDL_ptr_type) if curr == cluster_root: break def pushtask_by_address(self, task_address): """Change to a new task by switching to a different stack and manually adjusting sp, fp and pc @task_address: str 2 supported format: in hex format : literal hexadecimal address Ex: 0xffffff in name of the pointer to the task "task_name": pointer of the variable name of the cluster Ex: T* s -> task_name = s Return: gdb.value of the cluster's address """ # Task address has a format "task_address", which implies that it is the # name of the variable, and it needs to be evaluated if task_address.startswith('"') and task_address.endswith('"'): task = gdb.parse_and_eval(task_address.replace('"', '')) else: # Task address format does not include the quotation marks, which implies # that it is a hex address # convert hex string to hex number try: hex_addr = int(task_address, 16) except: print_usage(self.usage_msg) return task_address = gdb.Value(hex_addr) task = task_address.cast(uBaseTask_ptr_type) uContext_t_ptr_type = gdb.lookup_type('UPP::uMachContext::uContext_t').pointer() task_state = task['state'] if task_state == gdb.parse_and_eval('uBaseTask::Terminate'): print('Cannot switch to a terminated thread') return task_context = task['context'].cast(uContext_t_ptr_type) # lookup for sp,fp and uSwitch xsp = task_context['SP'] + 48 xfp = task_context['FP'] if not gdb.lookup_symbol('uSwitch'): print('uSwitch symbol is unavailable') return # convert string so we can strip out the address xpc = get_addr(gdb.parse_and_eval('uSwitch').address + 28) # must be at frame 0 to set pc register gdb.execute('select-frame 0') # push sp, fp, pc into a global stack global STACK sp = gdb.parse_and_eval('$sp') fp = gdb.parse_and_eval('$fp') pc = gdb.parse_and_eval('$pc') stack_info = StackInfo(sp = sp, fp = fp, pc = pc) STACK.append(stack_info) # update registers for new task gdb.execute('set $rsp={}'.format(xsp)) gdb.execute('set $rbp={}'.format(xfp)) gdb.execute('set $pc={}'.format(xpc)) def pushtask_by_id(self, task_id, cluster_name): """ @cluster_name: str @task_id: str """ try: task_id = int(task_id) except: print_usage(self.usage_msg) return # retrieve the address associated with the cluster name cluster_address = lookup_cluster_by_name(cluster_name) if cluster_address == 0x0: return task_root = cluster_address.cast(uCluster_ptr_type)['tasksOnCluster']['root'] if task_root.address == 0x0: print('There are no tasks on this cluster') return user_id = 0 task_addr = None systask_id = -1 # system search id starts with negative # lookup for the task associated with the id global SysTask_Name if (task_id >= 0 and cluster_name == "systemCluster"): print('internal error: systemCluster does not have ID >= 0') return #id is a system task elif task_id < 0: curr = task_root rootflag = False while (curr['task_']['name'].string() not in SysTask_Name): curr = curr['next'].cast(uBaseTaskDL_ptr_type) if curr == task_root: rootflag = True break if rootflag == False: if task_id == systask_id: task_addr = str(curr['task_'].address) else: while True: curr = curr['next'].cast(uBaseTaskDL_ptr_type) if (curr['task_']['name'].string() in SysTask_Name): systask_id -= 1 if curr == task_root: break if task_id == systask_id: task_addr = str(curr['task_'].address) break if curr == task_root: break #id is a user task else: curr = task_root rootflag = False while (curr['task_']['name'].string() in SysTask_Name): curr = curr['next'].cast(uBaseTaskDL_ptr_type) if curr == task_root: rootflag = True break if rootflag == False: if task_id == user_id: task_addr = str(curr['task_'].address) else: while True: curr = curr['next'].cast(uBaseTaskDL_ptr_type) if (curr['task_']['name'].string() not in SysTask_Name): user_id += 1 if curr == task_root: break if task_id == user_id: task_addr = str(curr['task_'].address) break if curr == task_root: break if not task_addr: print("Cannot find task ID: {}. Only have {} tasks".format(task_id,user_id)) else: self.pushtask_by_address(task_addr) def print_tasks_by_cluster_name(self, cluster_name): """ Print out all the tasks available in the specified cluster @cluster_name: str """ cluster_address = lookup_cluster_by_name(cluster_name) if cluster_address == 0x0: return self.print_tasks_by_cluster_all(cluster_address) def invoke(self, arg, from_tty): """ @arg: str @from_tty: bool """ argv = get_argv_list(arg) if len(argv) == 0: # print tasks self.print_user_tasks() # only tasks and main elif len(argv) == 1: # push task if argv[0].isdigit(): self.pushtask_by_id(argv[0], "userCluster") # by id, userCluster elif argv[0].startswith('0x') or argv[0].startswith('0X'): self.pushtask_by_address(argv[0]) # by address, any cluster # print tasks elif argv[0] == 'all': self.print_all_tasks() # all tasks, all clusters else: self.print_tasks_by_cluster_name(argv[0]) # all tasks, specified cluster elif len(argv) == 2: # push task self.pushtask_by_id(argv[0], argv[1]) # by id, specified cluster else: print('parse error') print_usage(self.usage_msg) class PrevTask(gdb.Command): """Switch back to previous task on the stack""" usage_msg = 'prevtask ' def __init__(self): super(PrevTask, self).__init__('prevtask', gdb.COMMAND_USER) def invoke(self, arg, from_tty): """ @arg: str @from_tty: bool """ global STACK if len(STACK) != 0: # must be at frame 0 to set pc register gdb.execute('select-frame 0') # pop stack stack_info = STACK.pop() pc = get_addr(stack_info.pc) sp = stack_info.sp fp = stack_info.fp # pop sp, fp, pc from global stack gdb.execute('set $pc = {}'.format(pc)) gdb.execute('set $rbp = {}'.format(fp)) gdb.execute('set $sp = {}'.format(sp)) # must be at C++ frame to access C++ vars gdb.execute('frame 1') else: print('empty stack') class ResetOriginFrame(gdb.Command): """Reset to the origin frame prior to continue execution again""" usage_msg = 'resetOriginFrame' def __init__(self): super(ResetOriginFrame, self).__init__('reset', gdb.COMMAND_USER) def invoke(self, arg, from_tty): """ @arg: str @from_tty: bool """ global STACK if len(STACK) != 0: stack_info = STACK.pop(0) STACK.clear() pc = get_addr(stack_info.pc) sp = stack_info.sp fp = stack_info.fp # pop sp, fp, pc from global stack gdb.execute('set $pc = {}'.format(pc)) gdb.execute('set $rbp = {}'.format(fp)) gdb.execute('set $sp = {}'.format(sp)) # must be at C++ frame to access C++ vars gdb.execute('frame 1') #else: #print('reset: empty stack') #probably does not have to print msg Clusters() ClusterProcessors() PrevTask() ResetOriginFrame() Task() # Local Variables: # # mode: Python # # End: #