Features/COLO: Difference between revisions
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# x86_64-softmmu/qemu-system-x86_64 -enable-kvm -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name primary -cpu qemu64,+kvmclock -device piix3-usb-uhci \ | # x86_64-softmmu/qemu-system-x86_64 -enable-kvm -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name primary -cpu qemu64,+kvmclock -device piix3-usb-uhci \ | ||
-drive if=virtio,id=colo-disk0,driver=quorum,read-pattern=fifo,vote-threshold=1, | -drive if=virtio,id=colo-disk0,driver=quorum,read-pattern=fifo,vote-threshold=1,children.0.file.filename=/mnt/sdd/pure_IMG/linux/redhat/rhel_6.5_64_2U_ide,children.0.driver=raw -S \ | ||
-netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ | -netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ | ||
-device e1000,id=e0,netdev=hn0,mac=52:a4:00:12:78:66 \ | -device e1000,id=e0,netdev=hn0,mac=52:a4:00:12:78:66 \ | ||
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# x86_64-softmmu/qemu-system-x86_64 -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name secondary -enable-kvm -cpu qemu64,+kvmclock -device piix3-usb-uhci \ | # x86_64-softmmu/qemu-system-x86_64 -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name secondary -enable-kvm -cpu qemu64,+kvmclock -device piix3-usb-uhci \ | ||
-drive if=none,id=colo-disk0,file.filename=/mnt/sdd/pure_IMG/linux/redhat/rhel_6.5_64_2U_ide,driver=raw,node-name=node0 \ | -drive if=none,id=colo-disk0,file.filename=/mnt/sdd/pure_IMG/linux/redhat/rhel_6.5_64_2U_ide,driver=raw,node-name=node0 \ | ||
-drive if=virtio,id=active-disk0,driver=replication,mode=secondary,file.driver=qcow2,top-id=active-disk0, | -drive if=virtio,id=active-disk0,driver=replication,mode=secondary,file.driver=qcow2,top-id=active-disk0,file.file.filename=/mnt/ramfs/active_disk.img,file.backing.driver=qcow2,file.backing.file.filename=/mnt/ramfs/hidden_disk.img,file.backing.backing=colo-disk0 \ | ||
-netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ | -netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ | ||
-device e1000,netdev=hn0,mac=52:a4:00:12:78:66 -chardev socket,id=red0,host=9.61.1.8,port=9003 \ | -device e1000,netdev=hn0,mac=52:a4:00:12:78:66 -chardev socket,id=red0,host=9.61.1.8,port=9003 \ |
Revision as of 03:46, 27 October 2016
Feature Name
COarse-grained LOck-stepping Virtual Machines for Non-stop Service
Background
Virtual machine (VM) replication is a well known technique for providing application-agnostic software-implemented hardware fault
tolerance "non-stop service". COLO is a high availability solution. Both primary VM (PVM) and secondary VM (SVM) run in parallel. They
receive the same request from client, and generate response in parallel too. If the response packets from PVM and SVM are identical, they are
released immediately. Otherwise, a VM checkpoint (on demand) is conducted.
Feature authors
- Name: Hailiang Zhang, Congyang Wen, Chen Zhang
- Email: zhang.zhanghailiang@huawei.com, wency@cn.fujitsu.com, zhangchen.fnst@fujitsu.com
Architecture
The architecture of COLO is shown in the bellow diagram. It consists of a pair of networked physical nodes: The primary node running the PVM, and the secondary node running the SVM to maintain a valid replica of the PVM. PVM and SVM execute in parallel and generate output of response packets for client requests according to the application semantics.
The incoming packets from the client or external network are received by the primary node, and then forwarded to the secondary node, so that Both the PVM and the SVM are stimulated with the same requests.
COLO receives the outbound packets from both the PVM and SVM and compares them before allowing the output to be sent to clients.
The SVM is qualified as a valid replica of the PVM, as long as it generates identical responses to all client requests. Once the differences in the outputs are detected between the PVM and SVM, COLO withholds transmission of the outbound packets until it has successfully synchronized the PVM state to the SVM.
Primary Node Secondary Node +------------+ +-----------------------+ +------------------------+ +------------+ | | | HeartBeat |<----->| HeartBeat | | | | Primary VM | +-----------|-----------+ +-----------|------------+ |Secondary VM| | | | | | | | | +-----------|-----------+ +-----------|------------+ | | | | |QEMU +---v----+ | |QEMU +----v---+ | | | | | | |Failover| | | |Failover| | | | | | | +--------+ | | +--------+ | | | | | | +---------------+ | | +---------------+ | | | | | | | VM Checkpoint |-------------->| VM Checkpoint | | | | | | | +---------------+ | | +---------------+ | | | | | | | | | | | |Requests<---------------------------^------------------------------------------>Requests| |Responses----------------------\ /--|--------------\ /------------------------Responses| | | | | | | | | | | | | | | | | +-----------+ | | | | | | | +------------+ | | | | | | | COLO disk | | | | | | | | | COLO disk | | | | | | | | Manager |-|-|--|--------------|--|->| Manager | | | | | | | +|----------+ | | | | | | | +-----------|+ | | | | | | | | | | | | | | | | | | +------------+ +--|------------|-|--|--+ +---|--|--------------|--+ +------------+ | | | | | | | +-------------+ | +----------v-v--|--+ +---|--v-----------+ | +-------------+ | VM Monitor | | | COLO Proxy | | COLO Proxy | | | VM Monitor | | | | |(compare packet) | | (adjust sequence)| | | | +-------------+ | +----------|----^--+ +------------------+ | +-------------+ | | | | +------------------|------------|----|--+ +---------------------|------------------+ | Kernel | | | | | Kernel | | +------------------|------------|----|--+ +---------------------|------------------+ | | | | +--------------v+ +--------v----|--+ +------------------+ +v-------------+ | Storage | |External Network| | External Network | | Storage | +---------------+ +----------------+ +------------------+ +--------------+
Components introduction
- HeartBeat
- Runs on both the primary and secondary nodes, to periodically check platform
- availability. When the primary node suffers a hardware fail-stop failure,
- the heartbeat stops responding, the secondary node will trigger a failover
- as soon as it determines the absence.
- COLO Block Replication (Please refer to BlockReplication)
- When primary VM writes data into image, the colo disk manger captures this data
- and send it to secondary VM’s which makes sure the context of secondary VM's image is consentient with
- the context of primary VM 's image.
- The following is the image of block replication workflow:
+----------------------+ +------------------------+ |Primary Write Requests| |Secondary Write Requests| +----------------------+ +------------------------+ | | | (4) | V | /-------------\ | Copy and Forward | | |---------(1)----------+ | Disk Buffer | | | | | | (3) \-------------/ | speculative ^ | write through (2) | | | V V | +--------------+ +----------------+ | Primary Disk | | Secondary Disk | +--------------+ +----------------+
1) Primary write requests will be copied and forwarded to Secondary QEMU. 2) Before Primary write requests are written to Secondary disk, the original sector content will be read from Secondary disk and buffered in the Disk buffer, but it will not overwrite the existing sector content (it could be from either "Secondary Write Requests" or previous COW of "Primary Write Requests") in the Disk buffer. 3) Primary write requests will be written to Secondary disk. 4) Secondary write requests will be buffered in the Disk buffer and it will overwrite the existing sector content in the buffer.
- COLO framework: COLO Checkpoint/Failover Controller
- Modifications of save/restore flow to realize continuous migration, to make sure the state of VM in Secondary side
- always be consistent with VM in Primary side.
- COLO Proxy:
- Delivers packets to Primary and Seconday, and then compare the reponse from both side. Then decide whether to
- start a checkpoint according to some rules.
Primary qemu Secondary qemu +--------------------------------------------------------------+ +----------------------------------------------------------------+ | +----------------------------------------------------------+ | | +-----------------------------------------------------------+ | | | | | | | | | | | guest | | | | guest | | | | | | | | | | | +-------^--------------------------+-----------------------+ | | +---------------------+--------+----------------------------+ | | | | | | ^ | | | | | | | | | | | | +------------------------------------------------------+ | | | | |netfilter| | | | | | netfilter | | | | +----------+ +----------------------------+ | | | +-----------------------------------------------------------+ | | | | | | | out | | | | | | filter excute order | | | | | | +-----------------------------+ | | | | | | +-------------------> | | | | | | | | | | | | | | | | TCP | | | | +-----+--+-+ +-----v----+ +-----v----+ |pri +----+----+sec| | | | +------------+ +---+----+---v+rewriter++ +------------+ | | | | | | | | | | |in | |in | | | | | | | | | | | | | | | | filter | | filter | | filter +------> colo <------+ +--------> filter +--> adjust | adjust +--> filter | | | | | | mirror | |redirector| |redirector| | | compare | | | | | | redirector | | ack | seq | | redirector | | | | | | | | | | | | | | | | | | | | | | | | | | | | | +----^-----+ +----+-----+ +----------+ | +---------+ | | | | +------------+ +--------+--------------+ +---+--------+ | | | | | tx | rx rx | | | | | tx all | rx | | | | | | | | | | +-----------------------------------------------------------+ | | | | +--------------+ | | | | | | | | | filter excute order | | | | | | | | | | +----------------> | | | +--------------------------------------------------------+ | | +-----------------------------------------+ | | | | | | | | | +--------------------------------------------------------------+ +----------------------------------------------------------------+ |guest receive | guest send | | +--------+----------------------------v------------------------+ | | NOTE: filter direction is rx/tx/all | tap | rx:receive packets sent to the netdev | | tx:receive packets sent by the netdev +--------------------------------------------------------------+
- In COLO-compare, we do packet comparing job.
- Packets coming from the primary char indev will be sent to outdev.
- Packets coming from the secondary char dev will be dropped after comparing.
- colo-comapre need two input chardev and one output chardev: primary_in=chardev1-id (source: primary send packet) secondary_in=chardev2-id (source: secondary send packet) outdev=chardev3-id
- Note:
- a. HeartBeat is not been realized, so you need to trigger failover process by using 'x-colo-lost-heartbeat' command.
- b. COLO proxy compents is work-in-process, it only support periodic checkpoint mode now, just as Micro-checkpointing.
Current Status
Github:(Checkout to latest COLO branch)
How to setup/test COLO
Test environment prepare
- Qemu colo
- Checkout the latest COLO branch from colo-v5.1-developing-COLO-frame-v21-with-shared-disk
# cd qemu # ./configure --target-list=x86_64-softmmu --enable-colo --enable-gcrypt --enable-replication # make -j
- Set Up the Bridge and network environment
In Primary, setup a bridge br0, using command brctl, like: # ifconfig eth0 down # ifconfig eth0 0.0.0.0 # brctl addbr br0 # brctl addif br0 eth0 # ifconfig br0 192.168.0.33 netmask 255.255.255.0 # ifconfig eth0 up In Secondary, setup br0 like Primary side
- Qemu-ifup/Qemu-ifdown
- We need a script to bring up the TAP interface.
- a qemu-ifdown script is needed to reset you networking configuration which is configured by qemu-ifup script
- You can find this info from http://en.wikibooks.org/wiki/QEMU/Networking.
NOTE: Don't forget to change this script file permission to be executable Primary: root@master# cat /etc/qemu-ifup #!/bin/sh switch=br0 if [ -n "$1" ]; then ip link set $1 up brctl addif ${switch} $1 fi root@master# cat /etc/qemu-ifdown !/bin/sh switch=br0 if [ -n "$1" ]; then brctl delif ${switch} $1 fi Secondary: like Primary side
Test steps
Note: Here the primary side host ip is 9.61.1.8, secondary side host ip is 9.61.1.7. Please change them according to your actual environment.
- (1) Startup qemu
- Primary side:
# x86_64-softmmu/qemu-system-x86_64 -enable-kvm -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name primary -cpu qemu64,+kvmclock -device piix3-usb-uhci \ -drive if=virtio,id=colo-disk0,driver=quorum,read-pattern=fifo,vote-threshold=1,children.0.file.filename=/mnt/sdd/pure_IMG/linux/redhat/rhel_6.5_64_2U_ide,children.0.driver=raw -S \ -netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ -device e1000,id=e0,netdev=hn0,mac=52:a4:00:12:78:66 \ -chardev socket,id=mirror0,host=9.61.1.8,port=9003,server,nowait -chardev socket,id=compare1,host=9.61.1.8,port=9004,server,nowait \ -chardev socket,id=compare0,host=9.61.1.8,port=9001,server,nowait -chardev socket,id=compare0-0,host=9.61.1.8,port=9001 \ -chardev socket,id=compare_out,host=9.61.1.8,port=9005,server,nowait \ -chardev socket,id=compare_out0,host=9.61.1.8,port=9005 \ -object filter-mirror,id=m0,netdev=hn0,queue=tx,outdev=mirror0 \ -object filter-redirector,netdev=hn0,id=redire0,queue=rx,indev=compare_out -object filter-redirector,netdev=hn0,id=redire1,queue=rx,outdev=compare0 \ -object colo-compare,id=comp0,primary_in=compare0-0,secondary_in=compare1,outdev=compare_out0
- Secondary side:
# qemu-img create -f qcow2 /mnt/ramfs/active_disk.img 10G # qemu-img create -f qcow2 /mnt/ramfs/hidden_disk.img 10G # x86_64-softmmu/qemu-system-x86_64 -boot c -m 2048 -smp 2 -qmp stdio -vnc :7 -name secondary -enable-kvm -cpu qemu64,+kvmclock -device piix3-usb-uhci \ -drive if=none,id=colo-disk0,file.filename=/mnt/sdd/pure_IMG/linux/redhat/rhel_6.5_64_2U_ide,driver=raw,node-name=node0 \ -drive if=virtio,id=active-disk0,driver=replication,mode=secondary,file.driver=qcow2,top-id=active-disk0,file.file.filename=/mnt/ramfs/active_disk.img,file.backing.driver=qcow2,file.backing.file.filename=/mnt/ramfs/hidden_disk.img,file.backing.backing=colo-disk0 \ -netdev tap,id=hn0,vhost=off,script=/etc/qemu-ifup,downscript=/etc/qemu-ifdown \ -device e1000,netdev=hn0,mac=52:a4:00:12:78:66 -chardev socket,id=red0,host=9.61.1.8,port=9003 \ -chardev socket,id=red1,host=9.61.1.8,port=9004 \ -object filter-redirector,id=f1,netdev=hn0,queue=tx,indev=red0 \ -object filter-redirector,id=f2,netdev=hn0,queue=rx,outdev=red1 \ -object filter-rewriter,id=rew0,netdev=hn0,queue=all -incoming tcp:0:8888
- (2) On Secondary VM's QEMU monitor, issue command
{'execute':'qmp_capabilities'} { 'execute': 'nbd-server-start', 'arguments': {'addr': {'type': 'inet', 'data': {'host': '9.61.1.7', 'port': '8889'} } } } {'execute': 'nbd-server-add', 'arguments': {'device': 'colo-disk0', 'writable': true } }
Note: a. The qmp command nbd-server-start and nbd-server-add must be run before running the qmp command migrate on primary QEMU b. Active disk, hidden disk and nbd target's length should be the same. c. It is better to put active disk and hidden disk in ramdisk.
- (3) On Primary VM's QEMU monitor, issue command:
{'execute':'qmp_capabilities'} { 'execute': 'human-monitor-command', 'arguments': {'command-line': 'drive_add -n buddy driver=replication,mode=primary,file.driver=nbd,file.host=9.61.1.7,file.port=8889,file.export=colo-disk0,node-name=node0'}} { 'execute':'x-blockdev-change', 'arguments':{'parent': 'colo-disk0', 'node': 'node0' } } { 'execute': 'migrate-set-capabilities', 'arguments': {'capabilities': [ {'capability': 'x-colo', 'state': true } ] } } { 'execute': 'migrate', 'arguments': {'uri': 'tcp:xx.xx.xx.xx:8888' } }
Note: a. There should be only one NBD Client for each primary disk. b. The qmp command line must be run after running qmp command line in secondary qemu
- (4) Done
- You will see two runing VMs, whenever you make changes to PVM, SVM will be synced.
- (5) Failover test
- You can kill Primary VM and run 'x_colo_lost_heartbeat' in Secondary VM's monitor at the same time, then SVM will failover and client will not detect this change.
- Before issuing '{ "execute": "x-colo-lost-heartbeat" }' command, we have to issue block related command to stop block replication.
Primary: Remove the nbd child from the quorum:
{ 'execute': 'x-blockdev-change', 'arguments': {'parent': 'colo-disk0', 'child': 'children.1'}} { 'execute': 'human-monitor-command','arguments': {'command-line': 'drive_del blk-buddy0'}} Note: there is no qmp command to remove the blockdev now
Secondary: The primary host is down, so we should do the following thing:
{ 'execute': 'nbd-server-stop' }
Supporting documentation
The idea is presented in Xen summit 2012, and 2013,
and academia paper in SOCC 2013. It's also presented in
KVM forum 2013,KVM forum 2015,KVM forum2016
Future works
- 1. Support continuously VM replication.
- 2. Support shared storage.
- 3. Develop the heartbeat part.
- 4. Reduce checkpoint VM’s downtime while do checkpoint.