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#! /usr/bin/python3 # # kvmexit.py # # Display the exit_reason and its statistics of each vm exit # for all vcpus of all virtual machines. For example: # $./kvmexit.py # PID TID KVM_EXIT_REASON COUNT # 1273551 1273568 EXIT_REASON_MSR_WRITE 6 # 1274253 1274261 EXIT_REASON_EXTERNAL_INTERRUPT 1 # 1274253 1274261 EXIT_REASON_HLT 12 # ... # # Besides, we also allow users to specify one pid, tid(s), or one # pid and its vcpu. See kvmexit_example.txt for more examples. # # @PID: each vitual machine's pid in the user space. # @TID: the user space's thread of each vcpu of that virtual machine. # @KVM_EXIT_REASON: the reason why the vm exits. # @COUNT: the counts of the @KVM_EXIT_REASONS. # # REQUIRES: Linux 4.7+ (BPF_PROG_TYPE_TRACEPOINT support) # # Copyright (c) 2021 ByteDance Inc. All rights reserved. # # Author(s): # Fei Li <lifei.shirley@bytedance.com> from __future__ import print_function from time import sleep from bcc import BPF import argparse import multiprocessing import os import subprocess # # Process Arguments # def valid_args_list(args): args_list = args.split(",") for arg in args_list: try: int(arg) except: raise argparse.ArgumentTypeError("must be valid integer") return args_list # arguments examples = """examples: ./kvmexit # Display kvm_exit_reason and its statistics in real-time until Ctrl-C ./kvmexit 5 # Display in real-time after sleeping 5s ./kvmexit -p 3195281 # Collpase all tids for pid 3195281 with exit reasons sorted in descending order ./kvmexit -p 3195281 20 # Collpase all tids for pid 3195281 with exit reasons sorted in descending order, and display after sleeping 20s ./kvmexit -p 3195281 -v 0 # Display only vcpu0 for pid 3195281, descending sort by default ./kvmexit -p 3195281 -a # Display all tids for pid 3195281 ./kvmexit -t 395490 # Display only for tid 395490 with exit reasons sorted in descending order ./kvmexit -t 395490 20 # Display only for tid 395490 with exit reasons sorted in descending order after sleeping 20s ./kvmexit -T '395490,395491' # Display for a union like {395490, 395491} """ parser = argparse.ArgumentParser( description="Display kvm_exit_reason and its statistics at a timed interval", formatter_class=argparse.RawDescriptionHelpFormatter, epilog=examples) parser.add_argument("duration", nargs="?", default=99999999, type=int, help="show delta for next several seconds") parser.add_argument("-p", "--pid", type=int, help="trace this PID only") exgroup = parser.add_mutually_exclusive_group() exgroup.add_argument("-t", "--tid", type=int, help="trace this TID only") exgroup.add_argument("-T", "--tids", type=valid_args_list, help="trace a comma separated series of tids with no space in between") exgroup.add_argument("-v", "--vcpu", type=int, help="trace this vcpu only") exgroup.add_argument("-a", "--alltids", action="store_true", help="trace all tids for this pid") args = parser.parse_args() duration = int(args.duration) # # Setup BPF # # load BPF program bpf_text = """ #include <linux/delay.h> #define REASON_NUM 69 #define TGID_NUM 1024 struct exit_count { u64 exit_ct[REASON_NUM]; }; BPF_PERCPU_ARRAY(init_value, struct exit_count, 1); BPF_TABLE("percpu_hash", u64, struct exit_count, pcpu_kvm_stat, TGID_NUM); struct cache_info { u64 cache_pid_tgid; struct exit_count cache_exit_ct; }; BPF_PERCPU_ARRAY(pcpu_cache, struct cache_info, 1); TRACEPOINT_PROBE(kvm, kvm_exit) { int cache_miss = 0; int zero = 0; u32 er = args->exit_reason; if (er >= REASON_NUM) { return 0; } u64 cur_pid_tgid = bpf_get_current_pid_tgid(); u32 tgid = cur_pid_tgid >> 32; u32 pid = cur_pid_tgid; if (THREAD_FILTER) return 0; struct exit_count *tmp_info = NULL, *initial = NULL; struct cache_info *cache_p; cache_p = pcpu_cache.lookup(&zero); if (cache_p == NULL) { return 0; } if (cache_p->cache_pid_tgid == cur_pid_tgid) { //a. If the cur_pid_tgid hit this physical cpu consecutively, save it to pcpu_cache tmp_info = &cache_p->cache_exit_ct; } else { //b. If another pid_tgid matches this pcpu for the last hit, OR it is the first time to hit this physical cpu. cache_miss = 1; // b.a Try to load the last cache struct if exists. tmp_info = pcpu_kvm_stat.lookup(&cur_pid_tgid); // b.b If it is the first time for the cur_pid_tgid to hit this pcpu, employ a // per_cpu array to initialize pcpu_kvm_stat's exit_count with each exit reason's count is zero if (tmp_info == NULL) { initial = init_value.lookup(&zero); if (initial == NULL) { return 0; } pcpu_kvm_stat.update(&cur_pid_tgid, initial); tmp_info = pcpu_kvm_stat.lookup(&cur_pid_tgid); // To pass the verifier if (tmp_info == NULL) { return 0; } } } if (er < REASON_NUM) { tmp_info->exit_ct[er]++; if (cache_miss == 1) { if (cache_p->cache_pid_tgid != 0) { // b.*.a Let's save the last hit cache_info into kvm_stat. pcpu_kvm_stat.update(&cache_p->cache_pid_tgid, &cache_p->cache_exit_ct); } // b.* As the cur_pid_tgid meets current pcpu_cache_array for the first time, save it. cache_p->cache_pid_tgid = cur_pid_tgid; bpf_probe_read(&cache_p->cache_exit_ct, sizeof(*tmp_info), tmp_info); } return 0; } return 0; } """ # format output exit_reasons = ( "EXCEPTION_NMI", "EXTERNAL_INTERRUPT", "TRIPLE_FAULT", "INIT_SIGNAL", "N/A", "N/A", "N/A", "INTERRUPT_WINDOW", "NMI_WINDOW", "TASK_SWITCH", "CPUID", "N/A", "HLT", "INVD", "INVLPG", "RDPMC", "RDTSC", "N/A", "VMCALL", "VMCLEAR", "VMLAUNCH", "VMPTRLD", "VMPTRST", "VMREAD", "VMRESUME", "VMWRITE", "VMOFF", "VMON", "CR_ACCESS", "DR_ACCESS", "IO_INSTRUCTION", "MSR_READ", "MSR_WRITE", "INVALID_STATE", "MSR_LOAD_FAIL", "N/A", "MWAIT_INSTRUCTION", "MONITOR_TRAP_FLAG", "N/A", "MONITOR_INSTRUCTION", "PAUSE_INSTRUCTION", "MCE_DURING_VMENTRY", "N/A", "TPR_BELOW_THRESHOLD", "APIC_ACCESS", "EOI_INDUCED", "GDTR_IDTR", "LDTR_TR", "EPT_VIOLATION", "EPT_MISCONFIG", "INVEPT", "RDTSCP", "PREEMPTION_TIMER", "INVVPID", "WBINVD", "XSETBV", "APIC_WRITE", "RDRAND", "INVPCID", "VMFUNC", "ENCLS", "RDSEED", "PML_FULL", "XSAVES", "XRSTORS", "N/A", "N/A", "UMWAIT", "TPAUSE" ) # # Do some checks # try: # Currently, only adapte on intel architecture cmd = "cat /proc/cpuinfo | grep vendor_id | head -n 1" arch_info = subprocess.check_output(cmd, shell=True).strip() if b"Intel" in arch_info: pass else: raise Exception("Currently we only support Intel architecture, please do expansion if needs more.") # Check if kvm module is loaded if os.access("/dev/kvm", os.R_OK | os.W_OK): pass else: raise Exception("Please insmod kvm module to use kvmexit tool.") except Exception as e: raise Exception("Failed to do precondition check, due to: %s." % e) def find_tid(tgt_dir, tgt_vcpu): for tid in os.listdir(tgt_dir): path = tgt_dir + "/" + tid + "/comm" fp = open(path, "r") comm = fp.read() if (comm.find(tgt_vcpu) != -1): return tid return -1 # set process/thread filter thread_context = "" header_format = "" need_collapse = not args.alltids if args.tid is not None: thread_context = "TID %s" % args.tid thread_filter = 'pid != %s' % args.tid elif args.tids is not None: thread_context = "TIDS %s" % args.tids thread_filter = "pid != " + " && pid != ".join(args.tids) header_format = "TIDS " elif args.pid is not None: thread_context = "PID %s" % args.pid thread_filter = 'tgid != %s' % args.pid if args.vcpu is not None: thread_context = "PID %s VCPU %s" % (args.pid, args.vcpu) # transfer vcpu to tid tgt_dir = '/proc/' + str(args.pid) + '/task' tgt_vcpu = "CPU " + str(args.vcpu) args.tid = find_tid(tgt_dir, tgt_vcpu) if args.tid == -1: raise Exception("There's no v%s for PID %d." % (tgt_vcpu, args.pid)) thread_filter = 'pid != %s' % args.tid elif args.alltids: thread_context = "PID %s and its all threads" % args.pid header_format = "TID " else: thread_context = "all threads" thread_filter = '0' header_format = "PID TID " bpf_text = bpf_text.replace('THREAD_FILTER', thread_filter) b = BPF(text=bpf_text) # header print("Display kvm exit reasons and statistics for %s" % thread_context, end="") if duration < 99999999: print(" after sleeping %d secs." % duration) else: print("... Hit Ctrl-C to end.") try: sleep(duration) except KeyboardInterrupt: print() # Currently, sort multiple tids in descending order is not supported. if (args.pid or args.tid): ct_reason = [] if args.pid: tgid_exit = [0 for i in range(len(exit_reasons))] # output print("%s%-35s %s" % (header_format, "KVM_EXIT_REASON", "COUNT")) pcpu_kvm_stat = b["pcpu_kvm_stat"] pcpu_cache = b["pcpu_cache"] for k, v in pcpu_kvm_stat.items(): tgid = k.value >> 32 pid = k.value & 0xffffffff for i in range(0, len(exit_reasons)): sum1 = 0 for inner_cpu in range(0, multiprocessing.cpu_count()): cachePIDTGID = pcpu_cache[0][inner_cpu].cache_pid_tgid # Take priority to check if it is in cache if cachePIDTGID == k.value: sum1 += pcpu_cache[0][inner_cpu].cache_exit_ct.exit_ct[i] # If not in cache, find from kvm_stat else: sum1 += v[inner_cpu].exit_ct[i] if sum1 == 0: continue if (args.pid and args.pid == tgid and need_collapse): tgid_exit[i] += sum1 elif (args.tid and args.tid == pid): ct_reason.append((sum1, i)) elif not need_collapse or args.tids: print("%-8u %-35s %-8u" % (pid, exit_reasons[i], sum1)) else: print("%-8u %-8u %-35s %-8u" % (tgid, pid, exit_reasons[i], sum1)) # Display only for the target tid in descending sort if (args.tid and args.tid == pid): ct_reason.sort(reverse=True) for i in range(0, len(ct_reason)): if ct_reason[i][0] == 0: continue print("%-35s %-8u" % (exit_reasons[ct_reason[i][1]], ct_reason[i][0])) break # Aggregate all tids' counts for this args.pid in descending sort if args.pid and need_collapse: for i in range(0, len(exit_reasons)): ct_reason.append((tgid_exit[i], i)) ct_reason.sort(reverse=True) for i in range(0, len(ct_reason)): if ct_reason[i][0] == 0: continue print("%-35s %-8u" % (exit_reasons[ct_reason[i][1]], ct_reason[i][0]))