This repository contains the starter code for project 1 (15-440, Fall 2020). It also contains
the tests that we will use to grade your implementation, and two simple echo server/client
(srunner and crunner, respectively) programs that you might find useful for your own testing
purposes. These instructions assume you have set your GOPATH to point to the repository's
root p1/ directory.
If at any point you have any trouble with building, installing, or testing your code, the article
titled How to Write Go Code (with GOPATH) is a great resource for understanding
how Go workspaces are built and organized. You might also find the documentation for the
go command to be helpful. As always, feel free to post your questions
on Piazza.
This project was designed for, and tested on AFS cluster machines, though you may choose to write and build your code locally as well.
Note that if you choose to test your implementation on AFS cluster, you need to manually install Go 1.15. For more instruction about setting up AFS, please check the README file in the P0 repo.
To make testing your server a bit easier we have provided two simple echo server/client
programs called srunner and crunner. If you look at the source code for the two programs,
you’ll notice that they import the github.com/cmu440/lsp package (in other words, they compile
against the current state of your LSP implementation). We believe you will find these programs
useful in the early stages of development when your client and server implementations are
largely incomplete.
To compile, build, and run these programs, use the go run command from inside the directory
storing the file (these instructions assume your GOPATH is pointing to the project’s root
p1/ directory):
go run srunner.goThe srunner and crunner programs may be customized using command line flags. For more
information, specify the -h flag at the command line. For example,
$ go run srunner.go -h
Usage of bin/srunner:
-elim=5: epoch limit
-ems=2000: epoch duration (ms)
-port=9999: port number
-rdrop=0: network read drop percent
-v=false: show srunner logs
-wdrop=0: network write drop percent
-wsize=1: window
-maxUnackMessages=1: maximum unacknowledged messages allowed
-maxBackoff: maximum interval epochWe have also provided pre-compiled executables for you to use called srunner_sols and crunner-sols.
These binaries were compiled against our reference LSP implementation,
so you might find them useful in the early stages of the development process (for example, if you wanted to test your
Client implementation but haven’t finished implementing the Server yet, etc.). Two separate binaries
are provided for Linux and Mac OS X machines (Windows is not supported at this time).
As an example, to start an echo server on port 6060 on an AFS cluster machine, execute the following command:
$GOPATH/bin/linux_amd64/srunner_sols -port=6060To test your submission, we will execute the following command from inside the
p1/src/github.com/cmu440/lsp directory for each of the tests (where TestName is the
name of one of the 44 test cases, such as TestBasic6 or TestWindow1):
go test -run=TestNameNote that we will execute each test individually using the -run flag and by specify a regular expression
identifying the name of the test to run. To ensure that previous tests don’t affect the outcome of later tests,
we recommend executing the tests individually (or in small batches, such as go test -run=TestBasic which will
execute all tests beginning with TestBasic) as opposed to all together using go test.
On some tests, we will also check your code for race conditions using Go’s race detector:
go test -race -run=TestNameWe have also provided Gradescope test scripts mocks in sh/. When you are inside the
p1/src/github.com/cmu440/lsp directory and execute corresponding script, you can have a rough sense of what your
score should be like on Gradescope.
As with project 0, we will be using Gradescope to grade your submissions for this project. We will run some—but not all—of the tests with the race detector enabled.
To submit your code to Gradescope, create a lsp.zip file containing your LSP implementation as follows:
cd p1/src/github.com/cmu440/
zip -r lsp.zip lsp/Note that the following files will be automatically ignored by Gradescope in your submissions:
lsp/client_api.go
lsp/server_api.go
lsp/params.go
lsp/message.go
lsp/*_test.go
lsp/checksum.go
lsp/*.shMake sure your implementation is not in those files.
In order to use the starter code we provide in the hash.go and message.go files, use the
following import statement:
import "github.com/cmu440/bitcoin"Once you do this, you should be able to make use of the bitcoin package as follows:
hash := bitcoin.Hash("thom yorke", 19970521)
msg := bitcoin.NewRequest("jonny greenwood", 200, 71010)To compile the client, miner, and server programs, use the go install command
as follows (these instructions assume your
GOPATH is pointing to the project's root p1/ directory):
# Compile the client, miner, and server programs. The resulting binaries
# will be located in the $GOPATH/bin directory.
go install github.com/cmu440/bitcoin/client
go install github.com/cmu440/bitcoin/miner
go install github.com/cmu440/bitcoin/server
# Start the server, specifying the port to listen on.
$GOPATH/bin/server 6060
# Start a miner, specifying the server's host:port.
$GOPATH/bin/miner localhost:6060
# Start the client, specifying the server's host:port, the message
# "bradfitz", and max nonce 9999.
$GOPATH/bin/client localhost:6060 bradfitz 9999Note that you will need to use the os.Args variable in your code to access the user-specified
command line arguments.
We have provided basic tests for your miner and client implementations. Note that passing them does not indicate that your implementation is correct, nor does it mean your code will earn full scores on Gradescope. Extra tests are encouraged before you submit your code.
To sanity tests, you need to ensure you have compiled version of client, miner and server in $GOPATH/bin. Then you can run ctest and mtest (without any parameter) in $GOPATH/bin/{YOUR-OS}/.
To submit your code to Gradescope, create a cmu440.zip file containing your part A and part B implementation
as follows:
cd p1/src/github.com/
zip -r cmu440.zip cmu440/Note that the following files will be automatically ignored by Gradescope in your submissions:
cmu440/lsp/client_api.go
cmu440/lsp/server_api.go
cmu440/lsp/params.go
cmu440/lsp/message.go
cmu440/lsp/*_test.go
cmu440/lsp/checksum.go
cmu440/lsp/*.sh
cmu440/lspnet/
cmu440/crunner/
cmu440/srunner/
cmu440/bitcoin/hash.go
cmu440/bitcoin/message.goMake sure your implementation is not in those files.
Before you begin the project, you should read and understand all of the starter code we provide. To make this experience a little less traumatic (we know, it's a lot :P), fire up a web server and read the documentation in a browser by executing the following command:
godoc -http=:6060 &If you don't have it already, you may have to run:
go get -v golang.org/x/tools/cmd/godocThis will install the godoc command in the $GOPATH/bin.
Then, navigate to localhost:6060/pkg/github.com/cmu440 in a browser.
Note that you can execute this command from anywhere in your system (assuming your GOPATH
is pointing to the project's root p1/ directory).