From patchwork Tue Jan 12 22:56:45 2010 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Lucas Meneghel Rodrigues X-Patchwork-Id: 72457 Received: from vger.kernel.org (vger.kernel.org [209.132.180.67]) by demeter.kernel.org (8.14.3/8.14.2) with ESMTP id o0CMuuc3027936 for ; Tue, 12 Jan 2010 22:56:56 GMT Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1753470Ab0ALW4y (ORCPT ); Tue, 12 Jan 2010 17:56:54 -0500 Received: (majordomo@vger.kernel.org) by vger.kernel.org id S1752392Ab0ALW4y (ORCPT ); Tue, 12 Jan 2010 17:56:54 -0500 Received: from mx1.redhat.com ([209.132.183.28]:60563 "EHLO mx1.redhat.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1751135Ab0ALW4x (ORCPT ); Tue, 12 Jan 2010 17:56:53 -0500 Received: from int-mx03.intmail.prod.int.phx2.redhat.com (int-mx03.intmail.prod.int.phx2.redhat.com [10.5.11.16]) by mx1.redhat.com (8.13.8/8.13.8) with ESMTP id o0CMuopM032419 (version=TLSv1/SSLv3 cipher=DHE-RSA-AES256-SHA bits=256 verify=OK); Tue, 12 Jan 2010 17:56:50 -0500 Received: from localhost.localdomain (vpn-10-70.rdu.redhat.com [10.11.10.70]) by int-mx03.intmail.prod.int.phx2.redhat.com (8.13.8/8.13.8) with ESMTP id o0CMulOr023438; Tue, 12 Jan 2010 17:56:47 -0500 From: Lucas Meneghel Rodrigues To: autotest@test.kernel.org Cc: kvm@vger.kernel.org, Lucas Meneghel Rodrigues , Jiri Zupka , =?UTF-8?q?Luk=C3=A1=C5=A1=20Doktor?= Subject: [PATCH] KVM test: KSM (kernel shared memory) overcommit test Date: Tue, 12 Jan 2010 20:56:45 -0200 Message-Id: <1263337005-9992-1-git-send-email-lmr@redhat.com> MIME-Version: 1.0 X-Scanned-By: MIMEDefang 2.67 on 10.5.11.16 Sender: kvm-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: kvm@vger.kernel.org diff --git a/client/tests/kvm/kvm_test_utils.py b/client/tests/kvm/kvm_test_utils.py index 02ec0cf..7d96d6e 100644 --- a/client/tests/kvm/kvm_test_utils.py +++ b/client/tests/kvm/kvm_test_utils.py @@ -22,7 +22,8 @@ More specifically: """ import time, os, logging, re, commands -from autotest_lib.client.common_lib import utils, error +from autotest_lib.client.common_lib import error +from autotest_lib.client.bin import utils import kvm_utils, kvm_vm, kvm_subprocess @@ -203,3 +204,36 @@ def get_time(session, time_command, time_filter_re, time_format): s = re.findall(time_filter_re, s)[0] guest_time = time.mktime(time.strptime(s, time_format)) return (host_time, guest_time) + + +def get_memory_info(lvms): + """ + Get memory information from host and guests in format: + Host: memfree = XXXM; Guests memsh = {XXX,XXX,...} + + @params lvms: List of VM objects + @return: String with memory info report + """ + if not isinstance(lvms, list): + raise error.TestError("Invalid list passed to get_stat: %s " % lvms) + + try: + meminfo = "Host: memfree = " + meminfo += str(int(utils.freememtotal()) / 1024) + "M; " + meminfo += "swapfree = " + mf = int(utils.read_from_meminfo("SwapFree")) / 1024 + meminfo += str(mf) + "M; " + except Exception, e: + raise error.TestFail("Could not fetch host free memory info, " + "reason: %s" % e) + + meminfo += "Guests memsh = {" + for vm in lvms: + shm = vm.get_shared_meminfo() + if shm is None: + raise error.TestError("Could not get shared meminfo from " + "VM %s" % vm) + meminfo += "%dM; " % shm + meminfo = meminfo[0:-2] + "}" + + return meminfo diff --git a/client/tests/kvm/kvm_utils.py b/client/tests/kvm/kvm_utils.py index 2bbbe22..0118742 100644 --- a/client/tests/kvm/kvm_utils.py +++ b/client/tests/kvm/kvm_utils.py @@ -713,6 +713,22 @@ def generate_random_string(length): return str +def generate_tmp_file_name(file, ext=None, dir='/tmp/'): + """ + Returns a temporary file name. The file is not created. + """ + while True: + file_name = (file + '-' + time.strftime("%Y%m%d-%H%M%S-") + + generate_random_string(4)) + if ext: + file_name += '.' + ext + file_name = os.path.join(dir, file_name) + if not os.path.exists(file_name): + break + + return file_name + + def format_str_for_message(str): """ Format str so that it can be appended to a message. diff --git a/client/tests/kvm/kvm_vm.py b/client/tests/kvm/kvm_vm.py index 7229b79..e52f826 100755 --- a/client/tests/kvm/kvm_vm.py +++ b/client/tests/kvm/kvm_vm.py @@ -690,6 +690,23 @@ class VM: return self.process.get_pid() + def get_shared_meminfo(self): + """ + Returns the VM's shared memory information. + + @return: Shared memory used by VM (MB) + """ + if self.is_dead(): + logging.error("Could not get shared memory info from dead VM.") + return None + + cmd = "cat /proc/%d/statm" % self.params.get('pid_' + self.name) + shm = int(os.popen(cmd).readline().split()[2]) + # statm stores informations in pages, translate it to MB + shm = shm * 4 / 1024 + return shm + + def remote_login(self, nic_index=0, timeout=10): """ Log into the guest via SSH/Telnet/Netcat. diff --git a/client/tests/kvm/scripts/allocator.py b/client/tests/kvm/scripts/allocator.py new file mode 100644 index 0000000..e0b8c75 --- /dev/null +++ b/client/tests/kvm/scripts/allocator.py @@ -0,0 +1,230 @@ +#!/usr/bin/python +# -*- coding: utf-8 -*- +""" +Auxiliary script used to allocate memory on guests. + +@copyright: 2008-2009 Red Hat Inc. +@author: Jiri Zupka (jzupka@redhat.com) +""" + + +import os, array, sys, struct, random, copy, inspect, tempfile, datetime + +PAGE_SIZE = 4096 # machine page size + + +class MemFill(object): + """ + Fills guest memory according to certain patterns. + """ + def __init__(self, mem, static_value, random_key): + """ + Constructor of MemFill class. + + @param mem: Amount of test memory in MB. + @param random_key: Seed of random series used for fill up memory. + @param static_value: Value used to fill all memory. + """ + if (static_value < 0 or static_value > 255): + print ("FAIL: Initialization static value" + "can be only in range (0..255)") + return + + self.tmpdp = tempfile.mkdtemp() + ret_code = os.system("mount -o size=%dM tmpfs %s -t tmpfs" % + ((mem + 25), self.tmpdp)) + if ret_code != 0: + if os.getuid() != 0: + print ("FAIL: Unable to mount tmpfs " + "(likely cause: you are not root)") + else: + print "FAIL: Unable to mount tmpfs" + else: + self.f = tempfile.TemporaryFile(prefix='mem', dir=self.tmpdp) + self.allocate_by = 'L' + self.npages = (mem * 1024 * 1024) / PAGE_SIZE + self.random_key = random_key + self.static_value = static_value + print "PASS: Initialization" + + + def __del__(self): + if (os.path.ismount(self.tmpdp)): + self.f.close() + os.system("umount %s" % (self.tmpdp)) + + + def compare_page(self, original, inmem): + """ + Compare pages of memory. + + @param original: Data that was expected to be in memory. + @param inmem: Data in memory. + """ + for ip in range(PAGE_SIZE / original.itemsize): + if (not original[ip] == inmem[ip]): # find which item is wrong + originalp = array.array("B") + inmemp = array.array("B") + originalp.fromstring(original[ip:ip+1].tostring()) + inmemp.fromstring(inmem[ip:ip+1].tostring()) + for ib in range(len(originalp)): # find wrong byte in item + if not (originalp[ib] == inmemp[ib]): + position = (self.f.tell() - PAGE_SIZE + ip * + original.itemsize + ib) + print ("Mem error on position %d wanted 0x%Lx and is " + "0x%Lx" % (position, originalp[ib], inmemp[ib])) + + + def value_page(self, value): + """ + Create page filled by value. + + @param value: String we want to fill the page with. + @return: return array of bytes size PAGE_SIZE. + """ + a = array.array("B") + for i in range(PAGE_SIZE / a.itemsize): + try: + a.append(value) + except: + print "FAIL: Value can be only in range (0..255)" + return a + + + def random_page(self, seed): + """ + Create page filled by static random series. + + @param seed: Seed of random series. + @return: Static random array series. + """ + random.seed(seed) + a = array.array(self.allocate_by) + for i in range(PAGE_SIZE / a.itemsize): + a.append(random.randrange(0, sys.maxint)) + return a + + + def value_fill(self, value=None): + """ + Fill memory page by page, with value generated with value_page. + + @param value: Parameter to be passed to value_page. None to just use + what's on the attribute static_value. + """ + self.f.seek(0) + if value is None: + value = self.static_value + page = self.value_page(value) + for pages in range(self.npages): + page.tofile(self.f) + print "PASS: Mem value fill" + + + def value_check(self): + """ + Check memory to see if data is correct. + + @return: if data in memory is correct return PASS + else print some wrong data and return FAIL + """ + self.f.seek(0) + e = 2 + failure = False + page = self.value_page(self.static_value) + for pages in range(self.npages): + pf = array.array("B") + pf.fromfile(self.f, PAGE_SIZE / pf.itemsize) + if not (page == pf): + failure = True + self.compare_page(page, pf) + e = e - 1 + if e == 0: + break + if failure: + print "FAIL: value verification" + else: + print "PASS: value verification" + + + def static_random_fill(self, n_bytes_on_end=PAGE_SIZE): + """ + Fill memory by page with static random series with added special value + on random place in pages. + + @param n_bytes_on_end: how many bytes on the end of page can be changed. + @return: PASS. + """ + self.f.seek(0) + page = self.random_page(self.random_key) + random.seed(self.random_key) + p = copy.copy(page) + + t_start = datetime.datetime.now() + for pages in range(self.npages): + rand = random.randint(((PAGE_SIZE / page.itemsize) - 1) - + (n_bytes_on_end / page.itemsize), + (PAGE_SIZE/page.itemsize) - 1) + p[rand] = pages + p.tofile(self.f) + p[rand] = page[rand] + + t_end = datetime.datetime.now() + delta = t_end - t_start + milisec = delta.microseconds / 1e3 + delta.seconds * 1e3 + print "PASS: filling duration = %Ld ms" % milisec + + + def static_random_verify(self, n_bytes_on_end=PAGE_SIZE): + """ + Check memory to see if it contains correct contents. + + @return: if data in memory is correct return PASS + else print some wrong data and return FAIL. + """ + self.f.seek(0) + e = 2 + page = self.random_page(self.random_key) + random.seed(self.random_key) + p = copy.copy(page) + failure = False + for pages in range(self.npages): + rand = random.randint(((PAGE_SIZE/page.itemsize) - 1) - + (n_bytes_on_end/page.itemsize), + (PAGE_SIZE/page.itemsize) - 1) + p[rand] = pages + pf = array.array(self.allocate_by) + pf.fromfile(self.f, PAGE_SIZE / pf.itemsize) + if not (p == pf): + failure = True + self.compare_page(p, pf) + e = e - 1 + if e == 0: + break + p[rand] = page[rand] + if failure: + print "FAIL: Random series verification" + else: + print "PASS: Random series verification" + + +def die(): + """ + Quit allocator. + """ + exit(0) + + +def main(): + """ + Main (infinite) loop of allocator. + """ + print "PASS: Start" + end = False + while (not end): + str = raw_input() + exec str + + +if __name__ == "__main__": + main() diff --git a/client/tests/kvm/tests/ksm_overcommit.py b/client/tests/kvm/tests/ksm_overcommit.py new file mode 100644 index 0000000..01b2271 --- /dev/null +++ b/client/tests/kvm/tests/ksm_overcommit.py @@ -0,0 +1,573 @@ +import logging, time, random, string, math, os, tempfile +from autotest_lib.client.common_lib import error +from autotest_lib.client.bin import utils +import kvm_subprocess, kvm_test_utils, kvm_utils, kvm_preprocessing + + +def run_ksm_overcommit(test, params, env): + """ + Test how KSM (Kernel Shared Memory) act with more than physical memory is + used. In second part is also tested, how KVM can handle the situation, + when the host runs out of memory (it is expected to pause the guest system, + wait until some process returns the memory and bring the guest back to life) + + + + @param test: kvm test object. + @param params: Dictionary with test parameters. + @param env: Dictionary with the test wnvironment. + """ + + def initialize_guests(): + """ + Initialize guests (fill their memories with specified patterns). + """ + logging.info("Starting phase 1: filling with 0") + logging.info("Preparing the guests and fill in pages with 0") + for session in lsessions: + vm = lvms[lsessions.index(session)] + + ret = session.get_command_status("swapoff -a", timeout=300) + if ret is None or ret: + raise error.TestFail("Failed to swapoff on VM %s" % vm.name) + + # Start the allocator + session.sendline("python /tmp/allocator.py") + (ret, data) = session.read_until_last_line_matches( + ["PASS:","FAIL:"], + 60 * perf_ratio) + if ret is None or ret == 1: + raise error.TestFail("Could not run vksmd in %s errno: %s\n" + "Output:\n%s" % (vm.name, ret, data)) + + # Set allocator keys + for i in range(0, vmsc): + vm = lvms[i] + + lsessions[i].sendline("mem = MemFill(%d, %s, %s)" % + (ksm_size, skeys[i], dkeys[i])) + + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + 60 * perf_ratio) + if match == 1 or match is None: + raise error.TestFail("Could not allocate memory on guest %s\n" + "Output:\n%s" % (vm.name, data)) + + lsessions[i].sendline("mem.value_fill(%d)"% (skeys[0])) + (match,data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + 120 * perf_ratio) + if match == 1 or match is None: + raise error.TestFail("Could not allocate memory on guest %s\n" + "Output: %s" % (vm.name, data)) + + # Let kksmd works (until shared mem reaches expected value) + shm = 0 + i = 0 + while shm < ksm_size: + if i > 64: + logging.info(kvm_test_utils.get_memory_info(lvms)) + raise error.TestError("SHM didn't merge the memory until " + "the DL on guest: %s"% (vm.name)) + st = ksm_size / 200 * perf_ratio + logging.debug("Sleep (%d)" % st) + time.sleep(st) + shm = vm.get_shared_meminfo() + i = i + 1 + + # Keep some reserve + time.sleep(ksm_size / 200 * perf_ratio) + + logging.info(kvm_test_utils.get_memory_info(lvms)) + logging.info("Phase 1 => passed") + + + def separate_first_guest(): + """ + Separate memory of the first guest by generating special random series + """ + logging.info("Starting phase 2: Split the pages on the first guest") + + lsessions[0].sendline("mem.static_random_fill()") + + (match, data) = lsessions[0].read_until_last_line_matches( + ["PASS:","FAIL:"], + 120 * perf_ratio) + if match == 1: + raise error.TestFail("Could not fill memory by random on guest %s" + "\nOutput:\n%s" % (vm.name, data)) + + if match == None: + raise error.TestFail("Generating random series timeout on " + "guest %s" % vm.name) + + r_msg = data.splitlines()[-1] + logging.debug("Return message of static_random_fill: %s", r_msg) + out = int(r_msg.split()[4]) + logging.info("PERFORMANCE: %dMB * 1000 / %dms = %dMB/s", ksm_size, out, + (ksm_size * 1000 / out)) + logging.info(kvm_test_utils.get_memory_info(lvms)) + logging.info("Phase 2 => passed") + + + def split_guest(): + """ + Sequential split of pages on guests up to memory limit + """ + logging.info("Starting phase 3a: Sequentional split of pages on " + "guests up to memory limit") + last_vm = 0 + session = None + vm = None + for i in range(1, vmsc): + vm = lvms[i] + session = lsessions[i] + session.sendline("mem.static_random_fill()") + + out = "" + while not out.startswith("PASS") and not out.startswith("FAIL"): + + free_mem = int(utils.read_from_meminfo("MemFree")) + if (ksm_swap): + free_mem = (free_mem + + int(utils.read_from_meminfo("SwapFree"))) + logging.debug("FreeMem = %d" % (free_mem)) + # We need to keep some memory for python to run. + + if (free_mem < 64000) or (ksm_swap and free_mem < (450000*perf_ratio)): + logging.debug("Only %s free memory, killing 0 - %d hosts" % + (free_mem, (i-1))) + vm.send_monitor_cmd('stop') + for j in range(0, i): + lvms[j].destroy(gracefully = False) + time.sleep(20) + vm.send_monitor_cmd('c') + last_vm = i + break + out = session.read_nonblocking(0.1) + + if last_vm != 0: + break + + logging.info("Memory filled by the guest %s" % (vm.name)) + logging.info("Phase 3a => passed") + + # Check if memory in max loading guest is right + logging.info("Starting phase 3b") + + # Kill rest of machines + for i in range(last_vm + 1, vmsc): + lsessions[i].close() + if i == (vmsc - 1): + logging.info(kvm_test_utils.get_memory_info([lvms[i]])) + lvms[i].destroy(gracefully = False) + + # Verify last machine with randomly generated memory + session.sendline("mem.static_random_verify()") + (match, data) = session.read_until_last_line_matches( + ["PASS:","FAIL:"], + (mem / 200 * 50 * perf_ratio)) + if (match == 1): + raise error.TestError("Memory error dump: %s" % data) + logging.info(kvm_test_utils.get_memory_info([lvms[last_vm]])) + (status,data) = lsessions[i].get_command_status_output("die()",20) + lvms[last_vm].destroy(gracefully = False) + logging.info("Phase 3b => passed") + + + def split_parallel(): + """ + Parallel page spliting + """ + logging.info("Phase 1: parallel page spliting") + # We have to wait until allocator is finished (it waits 5 seconds to + # clean the socket + + session = lsessions[0] + vm = lvms[0] + for i in range(1,max_alloc): + lsessions.append(kvm_utils.wait_for(vm.remote_login, 360, 0, 2)) + if not lsessions[i]: + raise error.TestFail("Could not log into guest %s" % + lvms[i].name) + + ret = session.get_command_status("swapoff -a", timeout=300) + if ret is None or ret: + raise error.TestFail("Failed to swapoff in the %s" % (vm.name)) + + for i in range(0, max_alloc): + lsessions[i].sendline("python /tmp/allocator.py") + (ret,data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], (60 * perf_ratio)) + if ret == None: + raise error.TestFail("Could not run vksmd in guest %s" % + vm.name) + if ret == 1: + raise error.TestFail("Could not run allocator in %s errno: %d" + "\nOutput:\n%s" % (vm.name, ret, data)) + + logging.info("Phase 4a: Simultaneous merging") + for i in range(0, max_alloc): + logging.info("Memory to guest allocator = %dMB" % + (ksm_size / max_alloc)) + lsessions[i].sendline("mem = MemFill(%d, %s, %s)" % + ((ksm_size / max_alloc), skeys[i], dkeys[i])) + + for i in range(0, max_alloc): + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], (60 * perf_ratio)) + if match == 1: + raise error.TestFail("Could not allocate memory on guest %s" + "\nOutput:\n%s" % (vm.name, data)) + + for i in range(0, max_alloc): + lsessions[i].sendline("mem.value_fill(%d)" % (skeys[0])) + + for i in range(0, max_alloc): + (match,data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], (90 * perf_ratio)) + if match == 1: + raise error.TestFail("Could not allocate memory on guest %s" + "\nOutput:\n%s" % (vm.name, data)) + # Wait until kksmd merges the pages (3 * ksm_size / 3) + shm = 0 + i = 0 + while shm < ksm_size: + if i > 64: + logging.info(kvm_test_utils.get_memory_info(lvms)) + raise error.TestError("SHM didn't merge the memory until DL") + logging.debug("Sleep(%d)" % (ksm_size / 200 * perf_ratio)) + time.sleep(ksm_size / 200 * perf_ratio) + shm = vm.get_shared_meminfo() + i = i + 1 + logging.info(kvm_test_utils.get_memory_info([vm])) + + logging.info("Phases 4b: Simultaneous spliting") + # Actual splitting + for i in range(0, max_alloc): + lsessions[i].sendline("mem.static_random_fill()") + + for i in range(0, max_alloc): + (match,data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], (90 * perf_ratio)) + if match == 1: + raise error.TestFail("Could not fill memory with random " + "pattern on guest %s\n" + "Output:\n%s" % (vm.name, data)) + + if match == None: + raise error.TestFail("Generating random series timeout on " + "guest %s" % (vm.name)) + + data = data.splitlines()[-1] + logging.debug(data) + out = int(data.split()[4]) + logging.info("PERFORMANCE: %dMB * 1000 / %dms = %dMB/s" % + ((ksm_size / max_alloc), out, + (ksm_size * 1000 / out / max_alloc))) + logging.info(kvm_test_utils.get_memory_info([vm])) + + logging.info("Phase 4c: Simultaneous verification") + for i in range(0, max_alloc): + lsessions[i].sendline("mem.static_random_verify()") + for i in range(0, max_alloc): + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + (mem / 200 * 50 * perf_ratio)) + if (match == 1): + raise error.TestError("Memory error dump: %s" % data) + + logging.info("Phases 4d: Simultaneous merging") + + # Actual splitting + for i in range(0, max_alloc): + lsessions[i].sendline("mem.value_fill(%d)" % (skeys[0])) + for i in range(0, max_alloc): + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + (120 * perf_ratio)) + if match == 1: + raise error.TestFail("Could not fill memory by random on guest " + "%s\nOutput:\n%s" % vm.name) + logging.info(kvm_test_utils.get_memory_info([vm])) + + logging.info("Phase 4e: Simultaneous verification") + for i in range(0, max_alloc): + lsessions[i].sendline("mem.value_fill(%d)" % (skeys[0])) + for i in range(0, max_alloc): + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + (mem / 200 * 50 * perf_ratio)) + if match == 1: + raise error.TestError("Memory error dump: %s" % data) + + logging.info("Phases 4f: Simultaneous spliting last 96B") + + # Actual splitting + for i in range(0, max_alloc): + lsessions[i].sendline("mem.static_random_fill(96)") + + for i in range(0, max_alloc): + (match, data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + (60 * perf_ratio)) + if match == 1: + raise error.TestFail("Could not fill memory by zero on guest " + "%s\nOutput:\n%s" % (vm.name)) + + if match == None: + raise error.TestFail("Generating random series timeout on " + "guest %s" % vm.name) + + data = data.splitlines()[-1] + out = int(data.split()[4]) + logging.info("PERFORMANCE: %dMB * 1000 / %dms = %dMB/s", + ksm_size/max_alloc, out, + (ksm_size * 1000 / out / max_alloc)) + logging.info(kvm_test_utils.get_memory_info([vm])) + + logging.info("Phase 4g: Simultaneous verification last 96B") + for i in range(0, max_alloc): + lsessions[i].sendline("mem.static_random_verify(96)") + for i in range(0, max_alloc): + (match,data) = lsessions[i].read_until_last_line_matches( + ["PASS:","FAIL:"], + (mem / 200 * 50 * perf_ratio)) + if (match == 1): + raise error.TestError("Memory error dump: %s" % data) + + logging.info(kvm_test_utils.get_memory_info([vm])) + + logging.info("Phase 4 => passed") + + # Clean up + for i in range(0, max_alloc): + lsessions[i].get_command_status_output("die()", 20) + session.close() + vm.destroy(gracefully = False) + + + # Main test code + logging.info("Starting phase 0: Initialization") + # host_reserve: mem reserve kept for the host system to run + host_reserve = 256 + # guest_reserve: mem reserve which is not used by allocator on the + # guests + guest_reserve = 256 + max_vms = params.get("max_vms") + if max_vms: + max_vms = int(max_vms) + else: + max_vms = 2 + + overcommit = params.get("ksm_overcommit_ratio") + if overcommit: + overcommit = float(overcommit) + else: + overcommit = 2.0 + + max_alloc = params.get("ksm_parallel_ratio") + if max_alloc: + max_alloc = int(max_alloc) + else: + max_alloc = 1 + + # vmsc: count of all used VMs + vmsc = int(overcommit) + 1 + vmsc = max(vmsc, max_vms) + + if (params['ksm_test_size'] == "serial"): + max_alloc = vmsc + + host_mem = (int(utils.memtotal()) / 1024 - host_reserve) + + ksm_swap = False + if params.get("ksm_swap") == "yes": + ksm_swap = True + + # Performance ratio + perf_ratio = params.get("ksm_perf_ratio") + if perf_ratio: + perf_ratio = float(perf_ratio) + else: + perf_ratio = 1 + + if (params['ksm_test_size'] == "parallel"): + vmsc = 1 + overcommit = 1 + mem = host_mem + # 32bit system adjustment + if not params['image_name'].endswith("64"): + logging.debug("Probably i386 guest architecture, " + "max allocator mem = 2G") + # Guest can have more than 2G but + # kvm mem + 1MB (allocator itself) can't + if (host_mem > 3100): + mem = 3100 + + if os.popen("uname -i").readline().startswith("i386"): + logging.debug("Host is i386 architecture, max guest mem is 2G") + # Guest system with qemu overhead (64M) can't have more than 2G + if mem > 3100 - 64: + mem = 3100 - 64 + + else: + # mem: Memory of the guest systems. Maximum must be less than + # host's physical ram + mem = int(overcommit * host_mem / vmsc) + + # 32bit system adjustment + if not params['image_name'].endswith("64"): + logging.debug("Probably i386 guest architecture, " + "max allocator mem = 2G") + # Guest can have more than 2G but + # kvm mem + 1MB (allocator itself) can't + if mem - guest_reserve - 1 > 3100: + vmsc = int(math.ceil((host_mem * overcommit) / + (3100 + guest_reserve))) + mem = int(math.floor(host_mem * overcommit / vmsc)) + + if os.popen("uname -i").readline().startswith("i386"): + logging.debug("Host is i386 architecture, max guest mem is 2G") + # Guest system with qemu overhead (64M) can't have more than 2G + if mem > 3100 - 64: + vmsc = int(math.ceil((host_mem * overcommit) / + (3100 - 64.0))) + mem = int(math.floor(host_mem * overcommit / vmsc)) + + logging.debug("Checking KSM status...") + ksm_flag = 0 + for line in os.popen('ksmctl info').readlines(): + if line.startswith('flags'): + ksm_flag = int(line.split(' ')[1].split(',')[0]) + if int(ksm_flag) != 1: + logging.info("KSM module is not loaded! Trying to load module and " + "start ksmctl...") + try: + utils.run("modprobe ksm") + utils.run("ksmctl start 5000 100") + except error.CmdError, e: + raise error.TestFail("Failed to load KSM: %s" % e) + logging.debug("KSM module loaded and ksmctl started") + + logging.info("overcommit = %f", overcommit) + logging.info("true overcommit = %f ", (float(vmsc * mem) / + float(host_mem))) + logging.info("host mem = %dM", host_mem) + logging.info("mem = %dM", mem) + logging.info("using swap = %s", ksm_swap) + swap = int(utils.read_from_meminfo("SwapTotal")) / 1024 + logging.info("swap = %dM", swap) + logging.info("max_vms = %d", max_vms) + logging.info("vmsc = %d", vmsc) + logging.info("performance_ratio = %f", perf_ratio) + + # Generate unique keys for random series + skeys = [] + dkeys = [] + for i in range(0, max(vmsc, max_alloc)): + key = random.randrange(0, 255) + while key in skeys: + key = random.randrange(0, 255) + skeys.append(key) + + key = random.randrange(0, 999) + while key in dkeys: + key = random.randrange(0, 999) + dkeys.append(key) + + lvms = [] + lsessions = [] + + # As we don't know the number and memory amount of VMs in advance, + # we need to specify and create them here (FIXME: not a nice thing) + vm_name = params.get("main_vm") + params['mem'] = mem + params['vms'] = vm_name + # Associate pidfile name + params['pid_' + vm_name] = kvm_utils.generate_tmp_file_name(vm_name, + 'pid') + if not params.get('extra_params'): + params['extra_params'] = ' ' + params['extra_params_' + vm_name] = params.get('extra_params') + params['extra_params_' + vm_name] += (" -pidfile %s" % + (params.get('pid_' + vm_name))) + params['extra_params'] = params.get('extra_params_'+vm_name) + + # ksm_size: amount of memory used by allocator + ksm_size = mem - guest_reserve + logging.info("ksm_size = %dM" % (ksm_size)) + + # Creating the first guest + kvm_preprocessing.preprocess_vm(test, params, env, vm_name) + lvms.append(kvm_utils.env_get_vm(env, vm_name)) + if not lvms[0]: + raise error.TestError("VM object not found in environment") + if not lvms[0].is_alive(): + raise error.TestError("VM seems to be dead; Test requires a living " + "VM") + + logging.info("Booting the first guest %s", lvms[0].name) + + lsessions.append(kvm_utils.wait_for(lvms[0].remote_login, 360, 0, 2)) + if not lsessions[0]: + raise error.TestFail("Could not log into first guest") + # Associate vm PID + try: + tmp = open(params.get('pid_' + vm_name), 'r') + params['pid_' + vm_name] = int(tmp.readline()) + except: + raise error.TestFail("Could not get PID of %s" % (vm_name)) + + # Creating other guest systems + for i in range(1, vmsc): + vm_name = "vm" + str(i + 1) + params['pid_' + vm_name] = kvm_utils.generate_tmp_file_name(vm_name, + 'pid') + params['extra_params_' + vm_name] = params.get('extra_params') + params['extra_params_' + vm_name] += (" -pidfile %s" % + (params.get('pid_' + vm_name))) + params['extra_params'] = params.get('extra_params_' + vm_name) + + # Last VM is later used to run more allocators simultaneously + lvms.append(lvms[0].clone(vm_name, params)) + kvm_utils.env_register_vm(env, vm_name, lvms[i]) + params['vms'] += " " + vm_name + + logging.info("Booting guest %s" % lvms[i].name) + if not lvms[i].create(): + raise error.TestFail("Cannot create VM %s" % lvms[i].name) + if not lvms[i].is_alive(): + raise error.TestError("VM %s seems to be dead; Test requires a" + "living VM" % lvms[i].name) + + lsessions.append(kvm_utils.wait_for(lvms[i].remote_login, 360, 0, 2)) + if not lsessions[i]: + raise error.TestFail("Could not log into guest %s" % + lvms[i].name) + try: + tmp = open(params.get('pid_' + vm_name), 'r') + params['pid_' + vm_name] = int(tmp.readline()) + except: + raise error.TestFail("Could not get PID of %s" % (vm_name)) + + # Let systems take a rest :-) + time.sleep(vmsc * 2 * perf_ratio) + logging.info(kvm_test_utils.get_memory_info(lvms)) + + # Copy allocator.py into guests + pwd = os.path.join(os.environ['AUTODIR'],'tests/kvm') + vksmd_src = os.path.join(pwd, "scripts/allocator.py") + dst_dir = "/tmp" + for vm in lvms: + if not vm.copy_files_to(vksmd_src, dst_dir): + raise error.TestFail("copy_files_to failed %s" % vm.name) + logging.info("Phase 0 => passed") + + if params['ksm_test_size'] == "parallel": + split_parallel() + elif params['ksm_test_size'] == "serial": + initialize_guests() + separate_first_guest() + split_guest() diff --git a/client/tests/kvm/tests_base.cfg.sample b/client/tests/kvm/tests_base.cfg.sample index b8f25f4..24c789d 100644 --- a/client/tests/kvm/tests_base.cfg.sample +++ b/client/tests/kvm/tests_base.cfg.sample @@ -270,6 +270,24 @@ variants: type = physical_resources_check catch_uuid_cmd = dmidecode | awk -F: '/UUID/ {print $2}' + - ksm_overcommit: + # Don't preprocess any vms as we need to change its params + vms = '' + image_snapshot = yes + kill_vm_gracefully = no + type = ksm_overcommit + ksm_swap = yes + no hugepages + # Overcommit of host memmory + ksm_overcommit_ratio = 3 + # Max paralel runs machine + ksm_parallel_ratio = 4 + variants: + - ksm_serial + ksm_test_size = "serial" + - ksm_parallel + ksm_test_size = "parallel" + # NICs variants: - @rtl8139: