Skip to content

Latest commit

 

History

History
269 lines (197 loc) · 11.9 KB

README.md

File metadata and controls

269 lines (197 loc) · 11.9 KB

RAMCloud

THIS REPO IS DEPRECATED!!!

If you are looking for the current RAMCloud repo maintained by Stateless, which is used by the Stateless Software Router version 4.0 & later, it is here.

Older Instructions

This is the Stateless fork of RAMCloud. Instead of maintaining a normal git fork we use stgit to maintain a patchset. This simplifies things by keeping the upstream history entirely outside of our repo and the set of stateless-specific patches is very clear. This should make it easy to incorporate our changes upstream while pulling in new changes from upstream regularly.

General Workflow

While the below sections discuss in detail all of the elements of this repository and how they work together, a simple overview of a general workflow one might use to develop changes against RAMCloud is presented first.

Generally, if you want to change any RAMCloud code, you will need a development environment containing all of the dependencies required to build RAMCloud. First, you should fork the BeStateless/RAMCloud repository. Don't do your work out of the official repository, use your own fork. Once your fork has been created, create a local copy of it by cloning it from GitHub. After the source code has been retrieved, a docker-based development environment can be created using:

./config/dev-env

This will drop you into a bash shell in the development environment container. Then, inside the development environment, you will want to build RAMCloud by running:

./config/make-ramcloud

This will place all of the RAMCloud build artifacts at ./RAMCloud/install.

Less common: If an inner RAMCloud directory was already existing, and you do NOT want to refresh patches from patches/series you can do:

./config/make-ramcloud --nopatch

(Optional) One other thing you can do within this development environment shell is run the unit tests for RAMCloud. Note, in order to do that, you must pass the --debug option when you compile RAMCloud with the ./config/make-ramcloud script. Once RAMCloud is built with DEBUG=yes, the unit tests can be ran with:

./config/make-ramcloud-unit-test

As outlined in the Known Unit Test Issues section, there are some known issues with the unit tests.

After RAMCloud has been built (via make-ramcloud), a full standalone test suite may be run using this command (shown below) in the dev-env container. The tests are called "standalone" since the coordinators and servers are treated as standalone products, and interacted with via python test files acting as a RAMCloud client.

./config/make-ramcloud-standalone-test

This will build a ramcloud-test Docker image from the build artifacts at /src/RAMCloud/install, then spin up a three-node ZooKeeper ensemble, 3 or 4 RAMCloud coordinators, and 3 or 4 RAMCloud servers. Once that infrastructure has been spun up, the python RAMCloud client is used to connect to the running RAMCloud cluster, create a RAMCloud table, write a value to the table, read that value back, and validate that it has the correct value.

Because standalone tests run slow. If you only wish to rerun one specific standalone test (for example, test_zookeeper_read() within the class TestInfrastructure of file test_infrastructure.py), you can do so this way.

python3 -m unittest test_infrastructure.TestInfrastructure.test_zookeeper_read

In addition, the comments of cluster_test_utils.py provides some suggestions to try in the Python interpreter (within the development environment container) for debugging if you run into trouble with the standalone tests.

To make changes to the RAMCloud code simply make changes to the code in the ./RAMCloud directory on your host machine, and then run ./config/make-ramcloud again on the the development environment bash shell. Once RAMCloud is rebuilt, you can run the unit and standalone tests again to run the updated code.

Bringing up your own RAMCloud test cluster

There's a script to simplify bringing up/down/resetting your RAMCloud cluster for you, especially if you feel like debugging RAMCloud from python3 interpreter (arguably a really nice way to troubleshoot in RAMCloud). It's the file testing/ramcloud_test_cluster.py, from within the development environment (it's ./config/dev-env to bring this up, as mentioned in previous section). From this dev environment, you can run:

python3 testing/ramcloud_test_cluster.py

This shows the status of your RAMCloud cluster. (Nifty, aye?) It may say you don't have a cluster up or not. You can bring one up or clear out all RAMCloud tables in this cluster by doing:

python3 testing/ramcloud_test_cluster.py -a reset

The nice thing about this command is clearing out all tables without wasting time bringing down then up RAMCloud. You can also do this to bring down the cluster when you're done.

python3 testing/ramcloud_test_cluster.py -a stop

The -a option also supports start and status, in addition to reset and stop. start will hard-reset the cluster if it's up already (slower), or in the event there's no cluster up, it brings one up. status shows if a cluster is up or not (it's equiv to omitting the -a option)

There's also the -n option, which controls the number of nodes to bring up (each node has zk + rc-coordinator + rc-server). When -n is ommitted, it defaults to 3. You should RARELY ever need to change this from the default. 3 is arguably the minimum # of nodes needed for "good behavior" in zk (due to consensus algorithm with tie-breaker) and rc-server (due to needing one instance for master copy, one instance for backup, and one instance for "probation" until it is trusted by the other rc-servers and elected rc-coordinator)

In the event you do need to mess with -n (let's say you want it at 4), note that you WILL need to hard-reset the cluster (ie doing -a reset will NOT work). Something like this should achieve the effect you want:

python3 testing/ramcloud_test_cluster.py -a start -n 4

After this point, you can continue to soft-reset the cluster, and it keeps the same number of nodes. I.e., this command should work at this point:

python3 testing/ramcloud_test_cluster.py -a reset

Obtaining the Patched Code

First, install stgit through your package manager, e.g. apt-get install stgit or zypper in stgit. Alternatively, you can clone the stgit repo and install it manually if you want to run the latest and greatest version.

Next, run the following commands.

git clone [email protected]:BeStateless/RAMCloud.git
cd RAMCloud
./patch

Now the patched code is in the RAMCloud directory in the repository root with stgit set up on the tip of the patch set.

Making New Patches

To make a new patch simply use stg new patch-name.patch, edit the files you want to include in the patch, use stg refresh to incorporate those changes into the patch, and finally use stg export -d ../patches from the inner RAMCloud directory to export the new patch. Modifying an existing patch, reordering patches, rebasing onto newer upstream changes, and other operations are explained in the stgit tutorial.

Updating Existing Patches

If you want to change an existing patch, first retreive the fully patched code. After you have the code, from the inner RAMCloud directory you can use the command stg series to show all patches in the series. Find the patch you want to edit and use the command stg goto ${patch} where ${patch} is the name of the patch to be edited. From there, edit the code as needed. Once all edits are made, use stg refresh to add the working changes to the patch. Once the patch is updated, go back to the last patch in the series using the command stg goto $(stg series | tail -1 | cut -c2-) (there may be an easier command to do that, but this one works). Finally, once you are back at the top of the stack of patches, you can use stg export -d ../ to export the updated patch.

Debugging

On your host machine (i.e., not the development environment container), it will help to modify the kernel.core_pattern in your /etc/sysctl.conf file. See http://man7.org/linux/man-pages/man5/core.5.html for more information on how the different values work, and the % placeholders. This will allow you to debug RAMCloud crashes using GDB by placing core dumps at a known location.

Looking at ZooKeeper Contents

It is easy to use the ZooKeeper CLI to look at the contents of ZooKeeper, which is used by RAMCloud to store persistent configuration information. Simply run the command

docker run -it --rm --net ramcloud-net zookeeper zkCli.sh -server ramcloud-node-1

The command may be run within the dev-env or on your host, it does not matter.

Modifying Standalone Test Packages

Changes to command-line packages used in the development environment container need to be made to config/Dockerfile.dev, and changes to command-line packages used in the node containers running RAMCloud or ZooKeeper need to be made to config/Dockerfile.node

Changes to the packages used in the Standalone Tests (python 3.7) need to be made to config/Pipfile. Then, within the development environment container, do the following:

cd /src/config
pipenv update

This will modify the config/Pipfile.lock file with the appropriate new packages, existing package versions, and modified hash values.

Known Standalone Test Issues

Standalone tests may exhibit the warning shown below.

/usr/lib/python3.7/copy.py:291: ResourceWarning: unclosed <socket.socket fd=51, family=AddressFamily.AF_UNIX, type=SocketKind.SOCK_STREAM, proto=0>
  for key, value in slotstate.items():

Or possibly also this one.

sys:1: ResourceWarning: unclosed <socket.socket fd=50, family=AddressFamily.AF_UNIX, type=SocketKind.SOCK_STREAM, proto=0, raddr=/var/run/docker.sock>

However, per conversation on this link shown here, these aren't something to be concerned about.

psf/requests#3912

Known Unit Test Issues

The following unit tests appear to fail consistently after rebasing RAMCloud. Further investigation required.

InfRcTransportTest.sanityCheck InfRcTransportTest.ClientRpc_sendZeroCopy InfRcTransportTest.InfRcSession_abort_onClientSendQueue InfRcTransportTest.InfRcSession_abort_onOutstandingRpcs InfRcTransportTest.InfRcSession_cancelRequest_rpcPending InfRcTransportTest.InfRcSession_cancelRequest_rpcSent InfRcTransportTest.getRpcInfo InfRcTransportTest.ClientRpc_sendRequest_sessionAborted InfRcTransportTest.ServerRpc_getClientServiceLocator InfUdDriverTest.basics

For other tests, we pass for 90% of the time it is ran, but there are still failures, segfaults, or freezes for the other 10%. None of the freezes have been replicated in gdb, but the failures and segfaults have been.

The most common segfaults are (1) in MultiFileStorage.cc:784 trying to read from a specific file on disk, with the file set up in a manner different than on prod, and (2) in UdpDriver.cc:357 making a recieve messages socket call using a mock Syscall object, also different from prod behavior.

Other less frequent segfaults include: WorkerTimer.cc:379, ServerRpcPool.h:55, and ServerIdRpcWrapper.cc:180.

The most common test failure is at PortAlarmTest.cc:292. This line used to crash, but using an assert on the null-check prevents the pointer from being used once it's determined that it's null. Fixing the cause behind the problem is less intuitive. It involves modifying PortAlarmTest's static member variables and/or AlartmentPort to reset properly once PortAlarmTest is completely reset. This class's tests pass on the first run for all unit tests for RAMCloud, but fail on subsequent runs precisely for this reason.

Other less frequent observed test failures include: WorkerTimerTest.stopInternal_handlerDoesntFinishQuickly, WorkerTimerTest.start_startDispatchTimer, WorkerTimerTest.sync, SegmentManagerTest.freeUnreferencedSegments_blockByWorkerTimer, PortAlarmTest.triple_alarm, LoggerTest.logMessage_discardEntriesBecauseOfOverflow, UdpDriverTest.readerThreadMain_errorInRecvmmsg.