X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/fe8ab488e9161c46dd9885d58fc52996dc0249ff..94ff46dc2849db4d43eaaf144872decc522aafb4:/tools/lldbmacros/scheduler.py?ds=sidebyside diff --git a/tools/lldbmacros/scheduler.py b/tools/lldbmacros/scheduler.py old mode 100644 new mode 100755 index 453708083..0708c7658 --- a/tools/lldbmacros/scheduler.py +++ b/tools/lldbmacros/scheduler.py @@ -1,35 +1,57 @@ from xnu import * from utils import * from process import * +from misc import * +from memory import * # TODO: write scheduler related macros here +# Macro: showallprocrunqcount + +@lldb_command('showallprocrunqcount') +def ShowAllProcRunQCount(cmd_args=None): + """ Prints out the runq count for all processors + """ + out_str = "Processor\t# Runnable\n" + processor_itr = kern.globals.processor_list + while processor_itr: + out_str += "{:d}\t\t{:d}\n".format(processor_itr.cpu_id, processor_itr.runq.count) + processor_itr = processor_itr.processor_list + # out_str += "RT:\t\t{:d}\n".format(kern.globals.rt_runq.count) + print out_str + +# EndMacro: showallprocrunqcount + # Macro: showinterrupts + @lldb_command('showinterrupts') def ShowInterrupts(cmd_args=None): """ Prints IRQ, IPI and TMR counts for each CPU """ - bcdata = kern.GetValueFromAddress(kern.GetLoadAddressForSymbol('BootCpuData'), 'cpu_data_t *') - print "CPU 0 IRQ: {:d}\n".format(bcdata.cpu_stat.irq_ex_cnt) - print "CPU 0 IPI: {:d}\n".format(bcdata.cpu_stat.ipi_cnt) - print "CPU 0 TMR: {:d}\n".format(bcdata.cpu_stat.timer_cnt) - if (kern.globals.machine_info.physical_cpu == 2): - if kern.arch == 'arm': - cdentries = kern.GetValueFromAddress(kern.GetLoadAddressForSymbol('CpuDataEntries') + 20, 'uintptr_t *') - cpu_data_entry = Cast(dereference(cdentries), 'cpu_data_t *') - print "CPU 1 IRQ: {:d}\n".format(cpu_data_entry.cpu_stat.irq_ex_cnt) - print "CPU 1 IPI: {:d}\n".format(cpu_data_entry.cpu_stat.ipi_cnt) - print "CPU 1 TMR: {:d}\n".format(cpu_data_entry.cpu_stat.timer_cnt) - elif kern.arch == 'arm64': - cdentries = kern.GetValueFromAddress(kern.GetLoadAddressForSymbol('CpuDataEntries') + 24, 'uintptr_t *') - cpu_data_entry = Cast(dereference(cdentries), 'cpu_data_t *') - print "CPU 1 IRQ: {:d}\n".format(cpu_data_entry.cpu_stat.irq_ex_cnt) - print "CPU 1 IPI: {:d}\n".format(cpu_data_entry.cpu_stat.ipi_cnt) - print "CPU 1 TMR: {:d}\n".format(cpu_data_entry.cpu_stat.timer_cnt) + + if not kern.arch.startswith('arm'): + print "showinterrupts is only supported on arm/arm64" + return + + base_address = kern.GetLoadAddressForSymbol('CpuDataEntries') + struct_size = 16 + x = 0 + y = 0 + while x < unsigned(kern.globals.machine_info.physical_cpu): + element = kern.GetValueFromAddress(base_address + (y * struct_size), 'uintptr_t *')[1] + if element: + cpu_data_entry = Cast(element, 'cpu_data_t *') + print "CPU {} IRQ: {:d}\n".format(y, cpu_data_entry.cpu_stat.irq_ex_cnt) + print "CPU {} IPI: {:d}\n".format(y, cpu_data_entry.cpu_stat.ipi_cnt) + print "CPU {} PMI: {:d}\n".format(y, cpu_data_entry.cpu_monotonic.mtc_npmis) + print "CPU {} TMR: {:d}\n".format(y, cpu_data_entry.cpu_stat.timer_cnt) + x = x + 1 + y = y + 1 # EndMacro: showinterrupts # Macro: showactiveinterrupts + @lldb_command('showactiveinterrupts') def ShowActiveInterrupts(cmd_args=None): """ Prints the interrupts that are unmasked & active with the Interrupt Controller @@ -64,6 +86,962 @@ def ShowActiveInterrupts(cmd_args=None): active = dereference(kern.GetValueFromAddress((current_pointer + aic_him_offset) + (4 * group_count), 'uintptr_t *')) else: mask = mask << 1 - # EndMacro: showactiveinterrupts +# Macro: showirqbyipitimerratio +@lldb_command('showirqbyipitimerratio') +def ShowIrqByIpiTimerRatio(cmd_args=None): + """ Prints the ratio of IRQ by sum of IPI & TMR counts for each CPU + """ + if kern.arch == "x86_64": + print "This macro is not supported on x86_64 architecture" + return + + out_str = "IRQ-IT Ratio: " + base_address = kern.GetLoadAddressForSymbol('CpuDataEntries') + struct_size = 16 + x = 0 + y = 0 + while x < unsigned(kern.globals.machine_info.physical_cpu): + element = kern.GetValueFromAddress(base_address + (y * struct_size), 'uintptr_t *')[1] + if element: + cpu_data_entry = Cast(element, 'cpu_data_t *') + out_str += " CPU {} [{:.2f}]".format(y, float(cpu_data_entry.cpu_stat.irq_ex_cnt)/(cpu_data_entry.cpu_stat.ipi_cnt + cpu_data_entry.cpu_stat.timer_cnt)) + x = x + 1 + y = y + 1 + print out_str + +# EndMacro: showirqbyipitimerratio + +#Macro: showinterruptsourceinfo +@lldb_command('showinterruptsourceinfo') +def showinterruptsourceinfo(cmd_args = None): + """ Extract information of interrupt source causing interrupt storms. + """ + if not cmd_args: + print "No arguments passed" + return False + #Dump IOInterruptVector object + print "--- Dumping IOInterruptVector object ---\n" + object_info = lldb_run_command("dumpobject {:s} IOInterruptVector".format(cmd_args[0])) + print object_info + print "--- Dumping IOFilterInterruptEventSource object ---\n" + #Dump the IOFilterInterruptEventSource object. + target_info=re.search('target =\s+(.*)',object_info) + target= target_info.group() + target= target.split() + #Dump the Object pointer of the source who is triggering the Interrupts. + vector_info=lldb_run_command("dumpobject {:s} ".format(target[2])) + print vector_info + owner_info= re.search('owner =\s+(.*)',vector_info) + owner= owner_info.group() + owner= owner.split() + print "\n\n" + out=lldb_run_command(" dumpobject {:s}".format(owner[2])) + print out + +# EndMacro: showinterruptsourceinfo + +@lldb_command('showcurrentabstime') +def ShowCurremtAbsTime(cmd_args=None): + """ Routine to print latest absolute time known to system before being stopped. + Usage: showcurrentabstime + """ + pset = addressof(kern.globals.pset0) + processor_array = kern.globals.processor_array + cur_abstime = 0 + + while unsigned(pset) != 0: + cpu_bitmap = int(pset.cpu_bitmask) + for cpuid in IterateBitmap(cpu_bitmap): + processor = processor_array[cpuid] + if unsigned(processor.last_dispatch) > cur_abstime: + cur_abstime = unsigned(processor.last_dispatch) + + pset = pset.pset_list + + print "Last dispatch time known: %d MATUs" % cur_abstime + +bucketStr = ["", "FIXPRI (>UI)", "TIMESHARE_FG", "TIMESHARE_IN", "TIMESHARE_DF", "TIMESHARE_UT", "TIMESHARE_BG"] + +@header(" {:>18s} | {:>20s} | {:>20s} | {:>10s} | {:>10s}".format('Thread Group', 'Interactivity Score', 'Last Timeshare Tick', 'pri_shift', 'highq')) +def GetSchedClutchBucketSummary(clutch_bucket): + return " 0x{:>16x} | {:>20d} | {:>20d} | {:>10d} | {:>10d}".format(clutch_bucket.scb_clutch.sc_tg, clutch_bucket.scb_interactivity_score, clutch_bucket.scb_timeshare_tick, clutch_bucket.scb_pri_shift, clutch_bucket.scb_runq.highq) + +def ShowSchedClutchForPset(pset): + root_clutch = pset.pset_clutch_root + print "\n{:s} : {:d}\n\n".format("Current Timestamp", GetRecentTimestamp()) + print "{:>10s} | {:>20s} | {:>30s} | {:>18s} | {:>10s} | {:>10s} | {:>30s} | {:>30s} | {:>15s} | ".format("Root", "Root Buckets", "Clutch Buckets", "Address", "Priority", "Count", "CPU Usage (MATUs)", "CPU Blocked (MATUs)", "Deadline (abs)") + GetSchedClutchBucketSummary.header + print "=" * 300 + print "{:>10s} | {:>20s} | {:>30s} | 0x{:16x} | {:>10d} | {:>10d} | {:>30s} | {:>30s} | {:>15s} | ".format("Root", "*", "*", addressof(root_clutch), root_clutch.scr_priority, root_clutch.scr_thr_count, "*", "*", "*") + print "-" * 300 + + for i in range(1, 7): + root_bucket = root_clutch.scr_buckets[i] + print "{:>10s} | {:>20s} | {:>30s} | 0x{:16x} | {:>10s} | {:>10s} | {:>30s} | {:>30s} | {:>15d} | ".format("*", bucketStr[i], "*", addressof(root_bucket), "*", "*", "*", "*", root_bucket.scrb_deadline) + prioq = root_bucket.scrb_clutch_buckets + clutch_bucket_list = [] + for clutch_bucket in IteratePriorityQueue(prioq, 'struct sched_clutch_bucket', 'scb_pqlink'): + clutch_bucket_list.append(clutch_bucket) + if len(clutch_bucket_list) > 0: + clutch_bucket_list.sort(key=lambda x: x.scb_priority, reverse=True) + for clutch_bucket in clutch_bucket_list: + cpu_used = clutch_bucket.scb_cpu_data.cpu_data.scbcd_cpu_used + cpu_blocked = clutch_bucket.scb_cpu_data.cpu_data.scbcd_cpu_blocked + print "{:>10s} | {:>20s} | {:>30s} | 0x{:16x} | {:>10d} | {:>10d} | {:>30d} | {:>30d} | {:>15s} | ".format("*", "*", clutch_bucket.scb_clutch.sc_tg.tg_name, clutch_bucket, clutch_bucket.scb_priority, clutch_bucket.scb_thr_count, cpu_used, cpu_blocked, "*") + GetSchedClutchBucketSummary(clutch_bucket) + print "-" * 300 + +@lldb_command('showschedclutch') +def ShowSchedClutch(cmd_args=[]): + """ Routine to print the clutch scheduler hierarchy. + Usage: showschedclutch + """ + if not cmd_args: + raise ArgumentError("Invalid argument") + pset = kern.GetValueFromAddress(cmd_args[0], "processor_set_t") + ShowSchedClutchForPset(pset) + +@lldb_command('showschedclutchroot') +def ShowSchedClutchRoot(cmd_args=[]): + """ show information about the root of the sched clutch hierarchy + Usage: showschedclutchroot + """ + if not cmd_args: + raise ArgumentError("Invalid argument") + root = kern.GetValueFromAddress(cmd_args[0], "struct sched_clutch_root *") + if not root: + print "unknown arguments:", str(cmd_args) + return False + print "{:>30s} : 0x{:16x}".format("Root", root) + print "{:>30s} : 0x{:16x}".format("Pset", root.scr_pset) + print "{:>30s} : {:d}".format("Priority", root.scr_priority) + print "{:>30s} : {:d}".format("Urgency", root.scr_urgency) + print "{:>30s} : {:d}".format("Threads", root.scr_thr_count) + print "{:>30s} : {:d}".format("Current Timestamp", GetRecentTimestamp()) + print "{:>30s} : {:b} (BG/UT/DF/IN/FG/FIX/NULL)".format("Runnable Root Buckets Bitmap", int(root.scr_runnable_bitmap[0])) + +@lldb_command('showschedclutchrootbucket') +def ShowSchedClutchRootBucket(cmd_args=[]): + """ show information about a root bucket in the sched clutch hierarchy + Usage: showschedclutchrootbucket + """ + if not cmd_args: + raise ArgumentError("Invalid argument") + root_bucket = kern.GetValueFromAddress(cmd_args[0], "struct sched_clutch_root_bucket *") + if not root_bucket: + print "unknown arguments:", str(cmd_args) + return False + print "{:<30s} : 0x{:16x}".format("Root Bucket", root_bucket) + print "{:<30s} : {:s}".format("Bucket Name", bucketStr[int(root_bucket.scrb_bucket)]) + print "{:<30s} : {:d}".format("Deadline", root_bucket.scrb_deadline) + print "{:<30s} : {:d}".format("Current Timestamp", GetRecentTimestamp()) + print "\n" + prioq = root_bucket.scrb_clutch_buckets + clutch_bucket_list = [] + for clutch_bucket in IteratePriorityQueue(prioq, 'struct sched_clutch_bucket', 'scb_pqlink'): + clutch_bucket_list.append(clutch_bucket) + if len(clutch_bucket_list) > 0: + print "=" * 240 + print "{:>30s} | {:>18s} | {:>20s} | {:>20s} | ".format("Name", "Clutch Bucket", "Priority", "Count") + GetSchedClutchBucketSummary.header + print "=" * 240 + clutch_bucket_list.sort(key=lambda x: x.scb_priority, reverse=True) + for clutch_bucket in clutch_bucket_list: + print "{:>30s} | 0x{:16x} | {:>20d} | {:>20d} | ".format(clutch_bucket.scb_clutch.sc_tg.tg_name, clutch_bucket, clutch_bucket.scb_priority, clutch_bucket.scb_thr_count) + GetSchedClutchBucketSummary(clutch_bucket) + +@lldb_command('showschedclutchbucket') +def ShowSchedClutchBucket(cmd_args=[]): + """ show information about a clutch bucket in the sched clutch hierarchy + Usage: showschedclutchbucket + """ + if not cmd_args: + raise ArgumentError("Invalid argument") + clutch_bucket = kern.GetValueFromAddress(cmd_args[0], "struct sched_clutch_bucket *") + if not clutch_bucket: + print "unknown arguments:", str(cmd_args) + return False + print "{:<30s} : 0x{:16x}".format("Clutch Bucket", clutch_bucket) + print "{:<30s} : {:s}".format("TG Name", clutch_bucket.scb_clutch.sc_tg.tg_name) + print "{:<30s} : {:d}".format("Priority", clutch_bucket.scb_priority) + print "{:<30s} : {:d}".format("Thread Count", clutch_bucket.scb_thr_count) + print "{:<30s} : 0x{:16x}".format("Thread Group", clutch_bucket.scb_clutch.sc_tg) + cpu_used = clutch_bucket.scb_cpu_data.cpu_data.scbcd_cpu_used + cpu_blocked = clutch_bucket.scb_cpu_data.cpu_data.scbcd_cpu_blocked + print "{:<30s} : {:d}".format("CPU Used (MATUs)", cpu_used) + print "{:<30s} : {:d}".format("CPU Blocked (MATUs)", cpu_blocked) + print "{:<30s} : {:d}".format("Interactivity Score", clutch_bucket.scb_interactivity_score) + print "{:<30s} : {:d}".format("Last Timeshare Update Tick", clutch_bucket.scb_timeshare_tick) + print "{:<30s} : {:d}".format("Priority Shift", clutch_bucket.scb_pri_shift) + print "\n" + runq = clutch_bucket.scb_clutchpri_prioq + thread_list = [] + for thread in IteratePriorityQueue(runq, 'struct thread', 'sched_clutchpri_link'): + thread_list.append(thread) + if len(thread_list) > 0: + print "=" * 240 + print GetThreadSummary.header + "{:s}".format("Process Name") + print "=" * 240 + for thread in thread_list: + proc = Cast(thread.task.bsd_info, 'proc *') + print GetThreadSummary(thread) + "{:s}".format(str(proc.p_comm)) + +@lldb_command('abs2nano') +def ShowAbstimeToNanoTime(cmd_args=[]): + """ convert mach_absolute_time units to nano seconds + Usage: (lldb) abs2nano + """ + if not cmd_args: + raise ArgumentError("Invalid argument") + timedata = ArgumentStringToInt(cmd_args[0]) + ns = kern.GetNanotimeFromAbstime(timedata) + us = float(ns) / 1000 + ms = us / 1000 + s = ms / 1000 + + if s > 60 : + m = s / 60 + h = m / 60 + d = h / 24 + + print "{:d} ns, {:f} us, {:f} ms, {:f} s, {:f} m, {:f} h, {:f} d".format(ns, us, ms, s, m, h, d) + else: + print "{:d} ns, {:f} us, {:f} ms, {:f} s".format(ns, us, ms, s) + + # Macro: showschedhistory + +def GetRecentTimestamp(): + """ + Return a recent timestamp. + TODO: on x86, if not in the debugger, then look at the scheduler + """ + if kern.arch == 'x86_64': + return kern.globals.debugger_entry_time + else : + return GetSchedMostRecentDispatch(False) + +def GetSchedMostRecentDispatch(show_processor_details=False): + """ Return the most recent dispatch on the system, printing processor + details if argument is true. + """ + processor_list = kern.globals.processor_list + + most_recent_dispatch = 0 + current_processor = processor_list + + while unsigned(current_processor) > 0: + active_thread = current_processor.active_thread + if unsigned(active_thread) != 0 : + task_val = active_thread.task + proc_val = Cast(task_val.bsd_info, 'proc *') + proc_name = "" if unsigned(proc_val) == 0 else str(proc_val.p_name) + + last_dispatch = unsigned(current_processor.last_dispatch) + + if kern.arch == 'x86_64': + cpu_data = kern.globals.cpu_data_ptr[current_processor.cpu_id] + if (cpu_data != 0) : + cpu_debugger_time = max(cpu_data.debugger_entry_time, cpu_data.debugger_ipi_time) + time_since_dispatch = unsigned(cpu_debugger_time - last_dispatch) + time_since_dispatch_us = kern.GetNanotimeFromAbstime(time_since_dispatch) / 1000.0 + time_since_debugger = unsigned(cpu_debugger_time - kern.globals.debugger_entry_time) + time_since_debugger_us = kern.GetNanotimeFromAbstime(time_since_debugger) / 1000.0 + + if show_processor_details: + print "Processor last dispatch: {:16d} Entered debugger: {:16d} ({:8.3f} us after dispatch, {:8.3f} us after debugger) Active thread: 0x{t:<16x} 0x{t.thread_id:<8x} {proc_name:s}".format(last_dispatch, cpu_debugger_time, + time_since_dispatch_us, time_since_debugger_us, t=active_thread, proc_name=proc_name) + else: + if show_processor_details: + print "Processor last dispatch: {:16d} Active thread: 0x{t:<16x} 0x{t.thread_id:<8x} {proc_name:s}".format(last_dispatch, t=active_thread, proc_name=proc_name) + + if last_dispatch > most_recent_dispatch: + most_recent_dispatch = last_dispatch + + current_processor = current_processor.processor_list + + return most_recent_dispatch + +@header("{:<18s} {:<10s} {:>16s} {:>16s} {:>16s} {:>16s} {:>18s} {:>16s} {:>16s} {:>16s} {:>16s} {:2s} {:2s} {:2s} {:>2s} {:<19s} {:<9s} {:>10s} {:>10s} {:>10s} {:>10s} {:>10s} {:>11s} {:>8s}".format("thread", "id", "on-core", "off-core", "runnable", "prichange", "last-duration (us)", "since-off (us)", "since-on (us)", "pending (us)", "pri-change (us)", "BP", "SP", "TP", "MP", "sched-mode", "state", "cpu-usage", "delta", "sch-usage", "stamp", "shift", "task", "thread-name")) +def ShowThreadSchedHistory(thread, most_recent_dispatch): + """ Given a thread and the most recent dispatch time of a thread on the + system, print out details about scheduler history for the thread. + """ + + thread_name = "" + + if unsigned(thread.uthread) != 0: + uthread = Cast(thread.uthread, 'uthread *') + # Doing the straightforward thing blows up weirdly, so use some indirections to get back on track + if unsigned(uthread.pth_name) != 0 : + thread_name = str(kern.GetValueFromAddress(unsigned(uthread.pth_name), 'char*')) + + task = thread.task + task_name = "unknown" + if task and unsigned(task.bsd_info): + p = Cast(task.bsd_info, 'proc *') + task_name = str(p.p_name) + + sched_mode = "" + + mode = str(thread.sched_mode) + if "TIMESHARE" in mode: + sched_mode+="timeshare" + elif "FIXED" in mode: + sched_mode+="fixed" + elif "REALTIME" in mode: + sched_mode+="realtime" + + if (unsigned(thread.bound_processor) != 0): + sched_mode+="-bound" + + # TH_SFLAG_THROTTLED + if (unsigned(thread.sched_flags) & 0x0004): + sched_mode+="-BG" + + state = thread.state + + thread_state_chars = {0x0:'', 0x1:'W', 0x2:'S', 0x4:'R', 0x8:'U', 0x10:'H', 0x20:'A', 0x40:'P', 0x80:'I'} + state_str = '' + mask = 0x1 + while mask <= 0x80 : + state_str += thread_state_chars[int(state & mask)] + mask = mask << 1 + + last_on = thread.computation_epoch + last_off = thread.last_run_time + last_runnable = thread.last_made_runnable_time + last_prichange = thread.last_basepri_change_time + + if int(last_runnable) == 18446744073709551615 : + last_runnable = 0 + + if int(last_prichange) == 18446744073709551615 : + last_prichange = 0 + + time_on_abs = unsigned(last_off - last_on) + time_on_us = kern.GetNanotimeFromAbstime(time_on_abs) / 1000.0 + + time_pending_abs = unsigned(most_recent_dispatch - last_runnable) + time_pending_us = kern.GetNanotimeFromAbstime(time_pending_abs) / 1000.0 + + if int(last_runnable) == 0 : + time_pending_us = 0 + + last_prichange_abs = unsigned(most_recent_dispatch - last_prichange) + last_prichange_us = kern.GetNanotimeFromAbstime(last_prichange_abs) / 1000.0 + + if int(last_prichange) == 0 : + last_prichange_us = 0 + + time_since_off_abs = unsigned(most_recent_dispatch - last_off) + time_since_off_us = kern.GetNanotimeFromAbstime(time_since_off_abs) / 1000.0 + time_since_on_abs = unsigned(most_recent_dispatch - last_on) + time_since_on_us = kern.GetNanotimeFromAbstime(time_since_on_abs) / 1000.0 + + fmt = "0x{t:<16x} 0x{t.thread_id:<8x} {t.computation_epoch:16d} {t.last_run_time:16d} {last_runnable:16d} {last_prichange:16d} {time_on_us:18.3f} {time_since_off_us:16.3f} {time_since_on_us:16.3f} {time_pending_us:16.3f} {last_prichange_us:16.3f}" + fmt2 = " {t.base_pri:2d} {t.sched_pri:2d} {t.task_priority:2d} {t.max_priority:2d} {sched_mode:19s}" + fmt3 = " {state:9s} {t.cpu_usage:10d} {t.cpu_delta:10d} {t.sched_usage:10d} {t.sched_stamp:10d} {t.pri_shift:10d} {name:s} {thread_name:s}" + + out_str = fmt.format(t=thread, time_on_us=time_on_us, time_since_off_us=time_since_off_us, time_since_on_us=time_since_on_us, last_runnable=last_runnable, time_pending_us=time_pending_us, last_prichange=last_prichange, last_prichange_us=last_prichange_us) + out_str += fmt2.format(t=thread, sched_mode=sched_mode) + out_str += fmt3.format(t=thread, state=state_str, name=task_name, thread_name=thread_name) + + print out_str + +def SortThreads(threads, column): + if column != 'on-core' and column != 'off-core' and column != 'last-duration': + raise ArgumentError("unsupported sort column") + if column == 'on-core': + threads.sort(key=lambda t: t.computation_epoch) + elif column == 'off-core': + threads.sort(key=lambda t: t.last_run_time) + else: + threads.sort(key=lambda t: t.last_run_time - t.computation_epoch) + +@lldb_command('showschedhistory', 'S:') +def ShowSchedHistory(cmd_args=None, cmd_options=None): + """ Routine to print out thread scheduling history, optionally sorted by a + column. + + Usage: showschedhistory [-S on-core|off-core|last-duration] [ ...] + """ + + sort_column = None + if '-S' in cmd_options: + sort_column = cmd_options['-S'] + + if cmd_args: + most_recent_dispatch = GetSchedMostRecentDispatch(False) + + print ShowThreadSchedHistory.header + + if sort_column: + threads = [] + for thread_ptr in cmd_args: + threads.append(kern.GetValueFromAddress(ArgumentStringToInt(thread_ptr), 'thread *')) + + SortThreads(threads, sort_column) + + for thread in threads: + ShowThreadSchedHistory(thread, most_recent_dispatch) + else: + for thread_ptr in cmd_args: + thread = kern.GetValueFromAddress(ArgumentStringToInt(thread_ptr), 'thread *') + ShowThreadSchedHistory(thread, most_recent_dispatch) + + return + + run_buckets = kern.globals.sched_run_buckets + + run_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_RUN')] + fixpri_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_FIXPRI')] + share_fg_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_FG')] + share_df_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_DF')] + share_ut_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_UT')] + share_bg_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_BG')] + + sched_pri_shifts = kern.globals.sched_run_buckets + + share_fg_shift = sched_pri_shifts[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_FG')] + share_df_shift = sched_pri_shifts[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_DF')] + share_ut_shift = sched_pri_shifts[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_UT')] + share_bg_shift = sched_pri_shifts[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_BG')] + + + print "Processors: {g.processor_avail_count:d} Runnable threads: {:d} Fixpri threads: {:d}\n".format(run_count, fixpri_count, g=kern.globals) + print "FG Timeshare threads: {:d} DF Timeshare threads: {:d} UT Timeshare threads: {:d} BG Timeshare threads: {:d}\n".format(share_fg_count, share_df_count, share_ut_count, share_bg_count) + print "Mach factor: {g.sched_mach_factor:d} Load factor: {g.sched_load_average:d} Sched tick: {g.sched_tick:d} timestamp: {g.sched_tick_last_abstime:d} interval:{g.sched_tick_interval:d}\n".format(g=kern.globals) + print "Fixed shift: {g.sched_fixed_shift:d} FG shift: {:d} DF shift: {:d} UT shift: {:d} BG shift: {:d}\n".format(share_fg_shift, share_df_shift, share_ut_shift, share_bg_shift, g=kern.globals) + print "sched_pri_decay_band_limit: {g.sched_pri_decay_band_limit:d} sched_decay_usage_age_factor: {g.sched_decay_usage_age_factor:d}\n".format(g=kern.globals) + + if kern.arch == 'x86_64': + print "debugger_entry_time: {g.debugger_entry_time:d}\n".format(g=kern.globals) + + most_recent_dispatch = GetSchedMostRecentDispatch(True) + print "Most recent dispatch: " + str(most_recent_dispatch) + + print ShowThreadSchedHistory.header + + if sort_column: + threads = [t for t in IterateQueue(kern.globals.threads, 'thread *', 'threads')] + + SortThreads(threads, sort_column) + + for thread in threads: + ShowThreadSchedHistory(thread, most_recent_dispatch) + else: + for thread in IterateQueue(kern.globals.threads, 'thread *', 'threads'): + ShowThreadSchedHistory(thread, most_recent_dispatch) + + +# EndMacro: showschedhistory + +def int32(n): + n = n & 0xffffffff + return (n ^ 0x80000000) - 0x80000000 + +# Macro: showallprocessors + +def ShowGroupSetSummary(runq, task_map): + """ Internal function to print summary of group run queue + params: runq - value representing struct run_queue * + """ + + print " runq: count {: <10d} highq: {: <10d} urgency {: <10d}\n".format(runq.count, int32(runq.highq), runq.urgency) + + runq_queue_i = 0 + runq_queue_count = sizeof(runq.queues)/sizeof(runq.queues[0]) + + for runq_queue_i in xrange(runq_queue_count) : + runq_queue_head = addressof(runq.queues[runq_queue_i]) + runq_queue_p = runq_queue_head.next + + if unsigned(runq_queue_p) != unsigned(runq_queue_head): + runq_queue_this_count = 0 + + for entry in ParanoidIterateLinkageChain(runq_queue_head, "sched_entry_t", "entry_links", circleQueue=True): + runq_queue_this_count += 1 + + print " Queue [{: <#012x}] Priority {: <3d} count {:d}\n".format(runq_queue_head, runq_queue_i, runq_queue_this_count) + for entry in ParanoidIterateLinkageChain(runq_queue_head, "sched_entry_t", "entry_links", circleQueue=True): + group_addr = unsigned(entry) - (sizeof(dereference(entry)) * unsigned(entry.sched_pri)) + group = kern.GetValueFromAddress(unsigned(group_addr), 'sched_group_t') + task = task_map.get(unsigned(group), 0x0) + if task == 0x0 : + print "Cannot find task for group: {: <#012x}".format(group) + print "\tEntry [{: <#012x}] Priority {: <3d} Group {: <#012x} Task {: <#012x}\n".format(unsigned(entry), entry.sched_pri, unsigned(group), unsigned(task)) + +@lldb_command('showrunq') +def ShowRunq(cmd_args=None): + """ Routine to print information of a runq + Usage: showrunq + """ + + if not cmd_args: + print "No arguments passed" + print ShowRunq.__doc__ + return False + + runq = kern.GetValueFromAddress(cmd_args[0], 'struct run_queue *') + ShowRunQSummary(runq) + +def ShowRunQSummary(runq): + """ Internal function to print summary of run_queue + params: runq - value representing struct run_queue * + """ + + print " runq: count {: <10d} highq: {: <10d} urgency {: <10d}\n".format(runq.count, int32(runq.highq), runq.urgency) + + runq_queue_i = 0 + runq_queue_count = sizeof(runq.queues)/sizeof(runq.queues[0]) + + for runq_queue_i in xrange(runq_queue_count) : + runq_queue_head = addressof(runq.queues[runq_queue_i]) + runq_queue_p = runq_queue_head.head + + if unsigned(runq_queue_p): + runq_queue_this_count = 0 + + for thread in ParanoidIterateLinkageChain(runq_queue_head, "thread_t", "runq_links", circleQueue=True): + runq_queue_this_count += 1 + + print " Queue [{: <#012x}] Priority {: <3d} count {:d}\n".format(runq_queue_head, runq_queue_i, runq_queue_this_count) + print "\t" + GetThreadSummary.header + "\n" + for thread in ParanoidIterateLinkageChain(runq_queue_head, "thread_t", "runq_links", circleQueue=True): + print "\t" + GetThreadSummary(thread) + "\n" + if config['verbosity'] > vHUMAN : + print "\t" + GetThreadBackTrace(thread, prefix="\t\t") + "\n" + +def ShowRTRunQSummary(rt_runq): + if (hex(rt_runq.count) == hex(0xfdfdfdfd)) : + print " Realtime Queue ({:<#012x}) uninitialized\n".format(addressof(rt_runq.queue)) + return + print " Realtime Queue ({:<#012x}) Count {:d}\n".format(addressof(rt_runq.queue), rt_runq.count) + if rt_runq.count != 0: + print "\t" + GetThreadSummary.header + "\n" + for rt_runq_thread in ParanoidIterateLinkageChain(rt_runq.queue, "thread_t", "runq_links", circleQueue=True): + print "\t" + GetThreadSummary(rt_runq_thread) + "\n" + +def ShowGrrrSummary(grrr_runq): + """ Internal function to print summary of grrr_run_queue + params: grrr_runq - value representing struct grrr_run_queue * + """ + print " GRRR Info: Count {: <10d} Weight {: <10d} Current Group {: <#012x}\n".format(grrr_runq.count, + grrr_runq.weight, grrr_runq.current_group) + grrr_group_i = 0 + grrr_group_count = sizeof(grrr_runq.groups)/sizeof(grrr_runq.groups[0]) + for grrr_group_i in xrange(grrr_group_count) : + grrr_group = addressof(grrr_runq.groups[grrr_group_i]) + if grrr_group.count > 0: + print " Group {: <3d} [{: <#012x}] ".format(grrr_group.index, grrr_group) + print "Count {:d} Weight {:d}\n".format(grrr_group.count, grrr_group.weight) + grrr_group_client_head = addressof(grrr_group.clients) + print GetThreadSummary.header + for thread in ParanoidIterateLinkageChain(grrr_group_client_head, "thread_t", "runq_links", circleQueue=True): + print "\t" + GetThreadSummary(thread) + "\n" + if config['verbosity'] > vHUMAN : + print "\t" + GetThreadBackTrace(thread, prefix="\t\t") + "\n" + +def ShowActiveThread(processor): + if (processor.active_thread != 0) : + print "\t" + GetThreadSummary.header + "\n" + print "\t" + GetThreadSummary(processor.active_thread) + "\n" + +@lldb_command('showallprocessors') +@lldb_command('showscheduler') +def ShowScheduler(cmd_args=None): + """ Routine to print information of all psets and processors + Usage: showscheduler + """ + node = addressof(kern.globals.pset_node0) + show_grrr = 0 + show_priority_runq = 0 + show_priority_pset_runq = 0 + show_group_pset_runq = 0 + show_clutch = 0 + sched_string = str(kern.globals.sched_string) + + if sched_string == "traditional": + show_priority_runq = 1 + elif sched_string == "traditional_with_pset_runqueue": + show_priority_pset_runq = 1 + elif sched_string == "grrr": + show_grrr = 1 + elif sched_string == "multiq": + show_priority_runq = 1 + show_group_pset_runq = 1 + elif sched_string == "dualq": + show_priority_pset_runq = 1 + show_priority_runq = 1 + elif sched_string == "amp": + show_priority_pset_runq = 1 + show_priority_runq = 1 + elif sched_string == "clutch": + show_clutch = 1 + else : + print "Unknown sched_string {:s}".format(sched_string) + + print "Scheduler: {:s}\n".format(sched_string) + + if show_clutch == 0: + run_buckets = kern.globals.sched_run_buckets + run_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_RUN')] + fixpri_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_FIXPRI')] + share_fg_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_FG')] + share_df_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_DF')] + share_ut_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_UT')] + share_bg_count = run_buckets[GetEnumValue('sched_bucket_t::TH_BUCKET_SHARE_BG')] + print "Processors: {g.processor_avail_count:d} Runnable threads: {:d} Fixpri threads: {:d}\n".format(run_count, fixpri_count, g=kern.globals) + print "FG Timeshare threads: {:d} DF Timeshare threads: {:d} UT Timeshare threads: {:d} BG Timeshare threads: {:d}\n".format(share_fg_count, share_df_count, share_ut_count, share_bg_count) + + processor_offline = GetEnumValue('processor_state_t::PROCESSOR_OFF_LINE') + processor_idle = GetEnumValue('processor_state_t::PROCESSOR_IDLE') + processor_dispatching = GetEnumValue('processor_state_t::PROCESSOR_DISPATCHING') + processor_running = GetEnumValue('processor_state_t::PROCESSOR_RUNNING') + + if show_group_pset_runq: + if hasattr(kern.globals, "multiq_sanity_check"): + print "multiq scheduler config: deep-drain {g.deep_drain:d}, ceiling {g.drain_ceiling:d}, depth limit {g.drain_depth_limit:d}, band limit {g.drain_band_limit:d}, sanity check {g.multiq_sanity_check:d}\n".format(g=kern.globals) + else: + print "multiq scheduler config: deep-drain {g.deep_drain:d}, ceiling {g.drain_ceiling:d}, depth limit {g.drain_depth_limit:d}, band limit {g.drain_band_limit:d}\n".format(g=kern.globals) + + # Create a group->task mapping + task_map = {} + for task in kern.tasks: + task_map[unsigned(task.sched_group)] = task + for task in kern.terminated_tasks: + task_map[unsigned(task.sched_group)] = task + + print " \n" + + while node != 0: + pset = node.psets + pset = kern.GetValueFromAddress(unsigned(pset), 'struct processor_set *') + + while pset != 0: + print "Processor Set {: <#012x} Count {:d} (cpu_id {:<#x}-{:<#x})\n".format(pset, + unsigned(pset.cpu_set_count), pset.cpu_set_low, pset.cpu_set_hi) + + rt_runq = kern.GetValueFromAddress(unsigned(addressof(pset.rt_runq)), 'struct rt_queue *') + ShowRTRunQSummary(rt_runq) + + if show_priority_pset_runq: + runq = kern.GetValueFromAddress(unsigned(addressof(pset.pset_runq)), 'struct run_queue *') + ShowRunQSummary(runq) + + if show_group_pset_runq: + print "Main Runq:\n" + runq = kern.GetValueFromAddress(unsigned(addressof(pset.pset_runq)), 'struct run_queue *') + ShowGroupSetSummary(runq, task_map) + print "All Groups:\n" + # TODO: Possibly output task header for each group + for group in IterateQueue(kern.globals.sched_groups, "sched_group_t", "sched_groups"): + if (group.runq.count != 0) : + task = task_map.get(unsigned(group), "Unknown task!") + print "Group {: <#012x} Task {: <#012x}\n".format(unsigned(group), unsigned(task)) + ShowRunQSummary(group.runq) + print " \n" + + processor_array = kern.globals.processor_array + + print "Active Processors:\n" + active_bitmap = int(pset.cpu_state_map[processor_dispatching]) | int(pset.cpu_state_map[processor_running]) + for cpuid in IterateBitmap(active_bitmap): + processor = processor_array[cpuid] + if processor != 0: + print " " + GetProcessorSummary(processor) + ShowActiveThread(processor) + + if show_priority_runq: + runq = processor.runq + ShowRunQSummary(runq) + if show_grrr: + grrr_runq = processor.grrr_runq + ShowGrrrSummary(grrr_runq) + print " \n" + + + print "Idle Processors:\n" + idle_bitmap = int(pset.cpu_state_map[processor_idle]) & int(pset.primary_map) + for cpuid in IterateBitmap(idle_bitmap): + processor = processor_array[cpuid] + if processor != 0: + print " " + GetProcessorSummary(processor) + ShowActiveThread(processor) + + if show_priority_runq: + ShowRunQSummary(processor.runq) + print " \n" + + + print "Idle Secondary Processors:\n" + idle_bitmap = int(pset.cpu_state_map[processor_idle]) & ~(int(pset.primary_map)) + for cpuid in IterateBitmap(idle_bitmap): + processor = processor_array[cpuid] + if processor != 0: + print " " + GetProcessorSummary(processor) + ShowActiveThread(processor) + + if show_priority_runq: + print ShowRunQSummary(processor.runq) + print " \n" + + + print "Other Processors:\n" + other_bitmap = 0 + for i in range(processor_offline, processor_idle): + other_bitmap |= int(pset.cpu_state_map[i]) + other_bitmap &= int(pset.cpu_bitmask) + for cpuid in IterateBitmap(other_bitmap): + processor = processor_array[cpuid] + if processor != 0: + print " " + GetProcessorSummary(processor) + ShowActiveThread(processor) + + if show_priority_runq: + ShowRunQSummary(processor.runq) + print " \n" + + if show_clutch: + print "=== Clutch Scheduler Hierarchy ===\n\n" + ShowSchedClutchForPset(pset) + + pset = pset.pset_list + + node = node.node_list + + print "\nCrashed Threads Queue: ({:<#012x})\n".format(addressof(kern.globals.crashed_threads_queue)) + first = True + for thread in ParanoidIterateLinkageChain(kern.globals.crashed_threads_queue, "thread_t", "runq_links"): + if first: + print "\t" + GetThreadSummary.header + first = False + print "\t" + GetThreadSummary(thread) + + def dump_mpsc_thread_queue(name, head): + head = addressof(head) + print "\n{:s}: ({:<#012x})\n".format(name, head) + first = True + for thread in IterateMPSCQueue(head.mpd_queue, 'struct thread', 'mpsc_links'): + if first: + print "\t" + GetThreadSummary.header + first = False + print "\t" + GetThreadSummary(thread) + + dump_mpsc_thread_queue("Terminate Queue", kern.globals.thread_terminate_queue) + dump_mpsc_thread_queue("Waiting For Kernel Stacks Queue", kern.globals.thread_stack_queue) + dump_mpsc_thread_queue("Thread Exception Queue", kern.globals.thread_exception_queue) + dump_mpsc_thread_queue("Thread Deallocate Queue", kern.globals.thread_deallocate_queue) + + print "\n" + + print "\n" + +# EndMacro: showallprocessors + + +def ParanoidIterateLinkageChain(queue_head, element_type, field_name, field_ofst=0, circleQueue=False): + """ Iterate over a Linkage Chain queue in kernel of type queue_head_t or circle_queue_head_t. (osfmk/kern/queue.h method 1 or circle_queue.h) + This is equivalent to the qe_foreach_element() macro + Blows up aggressively and descriptively when something goes wrong iterating a queue. + Prints correctness errors, and throws exceptions on 'cannot proceed' errors + If this is annoying, set the global 'enable_paranoia' to false. + + params: + queue_head - value : Value object for queue_head. + element_type - lldb.SBType : pointer type of the element which contains the queue_chain_t. Typically its structs like thread, task etc.. + - str : OR a string describing the type. ex. 'task *' + field_name - str : Name of the field (in element) which holds a queue_chain_t + field_ofst - int : offset from the 'field_name' (in element) which holds a queue_chain_t + This is mostly useful if a particular element contains an array of queue_chain_t + returns: + A generator does not return. It is used for iterating. + value : An object thats of type (element_type). Always a pointer object + example usage: + for thread in IterateQueue(kern.globals.threads, 'thread *', 'threads'): + print thread.thread_id + """ + + if type(element_type) is str: + element_type = gettype(element_type) + + # Some ways of constructing a queue head seem to end up with the + # struct object as the value and not a pointer to the struct head + # In that case, addressof will give us a pointer to the struct, which is what we need + if not queue_head.GetSBValue().GetType().IsPointerType() : + queue_head = addressof(queue_head) + + if circleQueue: + # Mosh the value into a brand new value, to really get rid of its old cvalue history + queue_head = kern.GetValueFromAddress(unsigned(queue_head), 'struct circle_queue_head *').head + else: + # Mosh the value into a brand new value, to really get rid of its old cvalue history + queue_head = kern.GetValueFromAddress(unsigned(queue_head), 'struct queue_entry *') + + if unsigned(queue_head) == 0: + if not circleQueue and ParanoidIterateLinkageChain.enable_paranoia: + print "bad queue_head_t: {:s}".format(queue_head) + return + + if element_type.IsPointerType(): + struct_type = element_type.GetPointeeType() + else: + struct_type = element_type + + elem_ofst = getfieldoffset(struct_type, field_name) + field_ofst + + try: + link = queue_head.next + last_link = queue_head + try_read_next = unsigned(queue_head.next) + except: + print "Exception while looking at queue_head: {:>#18x}".format(unsigned(queue_head)) + raise + + if ParanoidIterateLinkageChain.enable_paranoia: + if unsigned(queue_head.next) == 0: + raise ValueError("NULL next pointer on head: queue_head {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, queue_head.next, queue_head.prev)) + if unsigned(queue_head.prev) == 0: + print "NULL prev pointer on head: queue_head {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, queue_head.next, queue_head.prev) + if unsigned(queue_head.next) == unsigned(queue_head) and unsigned(queue_head.prev) != unsigned(queue_head): + print "corrupt queue_head {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, queue_head.next, queue_head.prev) + + if ParanoidIterateLinkageChain.enable_debug : + print "starting at queue_head {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, queue_head.next, queue_head.prev) + + addr = 0 + obj = 0 + + try: + while True: + if not circleQueue and unsigned(queue_head) == unsigned(link): + break; + if ParanoidIterateLinkageChain.enable_paranoia: + if unsigned(link.next) == 0: + raise ValueError("NULL next pointer: queue_head {:>#18x} link: {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, link, link.next, link.prev)) + if unsigned(link.prev) == 0: + print "NULL prev pointer: queue_head {:>#18x} link: {:>#18x} next: {:>#18x} prev: {:>#18x}".format(queue_head, link, link.next, link.prev) + if unsigned(last_link) != unsigned(link.prev): + print "Corrupt prev pointer: queue_head {:>#18x} link: {:>#18x} next: {:>#18x} prev: {:>#18x} prev link: {:>#18x} ".format( + queue_head, link, link.next, link.prev, last_link) + + addr = unsigned(link) - unsigned(elem_ofst); + obj = kern.GetValueFromAddress(addr, element_type) + if ParanoidIterateLinkageChain.enable_debug : + print "yielding link: {:>#18x} next: {:>#18x} prev: {:>#18x} addr: {:>#18x} obj: {:>#18x}".format(link, link.next, link.prev, addr, obj) + yield obj + last_link = link + link = link.next + if circleQueue and unsigned(queue_head) == unsigned(link): + break; + except: + exc_info = sys.exc_info() + try: + print "Exception while iterating queue: {:>#18x} link: {:>#18x} addr: {:>#18x} obj: {:>#18x} last link: {:>#18x}".format(queue_head, link, addr, obj, last_link) + except: + import traceback + traceback.print_exc() + raise exc_info[0], exc_info[1], exc_info[2] + +ParanoidIterateLinkageChain.enable_paranoia = True +ParanoidIterateLinkageChain.enable_debug = False + +def bit_first(bitmap): + return bitmap.bit_length() - 1 + +def lsb_first(bitmap): + bitmap = bitmap & -bitmap + return bit_first(bitmap) + +def IterateBitmap(bitmap): + """ Iterate over a bitmap, returning the index of set bits starting from 0 + + params: + bitmap - value : bitmap + returns: + A generator does not return. It is used for iterating. + value : index of a set bit + example usage: + for cpuid in IterateBitmap(running_bitmap): + print processor_array[cpuid] + """ + i = lsb_first(bitmap) + while (i >= 0): + yield i + bitmap = bitmap & ~((1 << (i + 1)) - 1) + i = lsb_first(bitmap) + + +# Macro: showallcallouts + +def ShowThreadCall(prefix, call): + """ + Print a description of a thread_call_t and its relationship to its expected fire time + """ + func = call.tc_call.func + param0 = call.tc_call.param0 + param1 = call.tc_call.param1 + + iotes_desc = "" + iotes_callout = kern.GetLoadAddressForSymbol("_ZN18IOTimerEventSource17timeoutAndReleaseEPvS0_") + iotes_callout2 = kern.GetLoadAddressForSymbol("_ZN18IOTimerEventSource15timeoutSignaledEPvS0_") + + if (unsigned(func) == unsigned(iotes_callout) or + unsigned(func) == unsigned(iotes_callout2)) : + iotes = Cast(call.tc_call.param0, 'IOTimerEventSource*') + func = iotes.action + param0 = iotes.owner + param1 = unsigned(iotes) + + func_name = kern.Symbolicate(func) + if (func_name == "") : + func_name = FindKmodNameForAddr(func) + + call_entry = call.tc_call + + recent_timestamp = GetRecentTimestamp() + + # THREAD_CALL_CONTINUOUS 0x100 + kern.globals.mach_absolutetime_asleep + if (call.tc_flags & 0x100) : + timer_fire = call_entry.deadline - (recent_timestamp + kern.globals.mach_absolutetime_asleep) + else : + timer_fire = call_entry.deadline - recent_timestamp + + timer_fire_s = kern.GetNanotimeFromAbstime(timer_fire) / 1000000000.0 + + ttd_s = kern.GetNanotimeFromAbstime(call.tc_ttd) / 1000000000.0 + + print "{:s}{:#018x}: {:18d} {:18d} {:03.06f} {:03.06f} {:#018x}({:#018x},{:#018x}) ({:s})".format(prefix, + unsigned(call), call_entry.deadline, call.tc_soft_deadline, ttd_s, timer_fire_s, + func, param0, param1, func_name) + +@lldb_command('showallcallouts') +def ShowAllCallouts(cmd_args=None): + """ Prints out the pending and delayed thread calls for the thread call groups + """ + + index_max = GetEnumValue('thread_call_index_t::THREAD_CALL_INDEX_MAX') + + for i in range (0, index_max) : + group = kern.globals.thread_call_groups[i] + + print "Group {i:d}: {g.tcg_name:s} ({:>#18x})".format(addressof(group), i=i, g=group) + print "\t" +"Active: {g.active_count:d} Idle: {g.idle_count:d}\n".format(g=group) + print "\t" +"Blocked: {g.blocked_count:d} Pending: {g.pending_count:d}\n".format(g=group) + print "\t" +"Target: {g.target_thread_count:d}\n".format(g=group) + + print "\t" +"Pending Queue: ({:>#18x})\n".format(addressof(group.pending_queue)) + for call in ParanoidIterateLinkageChain(group.pending_queue, "thread_call_t", "tc_call.q_link"): + ShowThreadCall("\t\t", call) + + print "\t" +"Delayed Queue (Absolute Time): ({:>#18x}) timer: ({:>#18x})\n".format( + addressof(group.delayed_queues[0]), addressof(group.delayed_timers[0])) + for call in ParanoidIterateLinkageChain(group.delayed_queues[0], "thread_call_t", "tc_call.q_link"): + ShowThreadCall("\t\t", call) + + print "\t" +"Delayed Queue (Continuous Time): ({:>#18x}) timer: ({:>#18x})\n".format( + addressof(group.delayed_queues[1]), addressof(group.delayed_timers[1])) + for call in ParanoidIterateLinkageChain(group.delayed_queues[1], "thread_call_t", "tc_call.q_link"): + ShowThreadCall("\t\t", call) + +# EndMacro: showallcallouts +