Chapter 04: Namespaces
Toward the end of this tutorial you will deploy your election smart contract to Testnet. Everyone else who is following along with this tutorial will do the same. If everyone would deploy Pact modules with the same name, however, it would become impossible to distinguish your Pact module from all the others. Therefore, it is not allowed to deploy a Pact module with a name that already exists on the chain you are deploying to and your deployment transaction will fail with an error if you would try. Fortunately, Kadena offers a solution to this problem by introducing namespaces. You can create your own unique namespace on the blockchain and you get to decide who can update the namespace or use it to define keysets and modules inside it. As long as you choose a unique name for your namespace, all keysets and modules defined inside it will automatically be unique, too.
In this chapter, you will use the Pact REPL to test out Pact commands for defining namespaces. At the end of the chapter you will define a namespace for your project on your local Devnet. You will be using that namespace throughout the remainder of the tutorial.
Recommended reading
Get the code
The project files have not been changed since the last chapter, so if you are
following along with the tutorial you can continue on the 01-getting-started
branch. If you started the tutorial with this chapter, clone the tutorial
project and change the current directory of your terminal to the project folder.
git clone git@github.com:kadena-community/voting-dapp.git election-dappcd election-dapp
git clone git@github.com:kadena-community/voting-dapp.git election-dappcd election-dapp
After cloning the project, switch branches to get the starter code for this chapter.
git checkout 04-namespaces
git checkout 04-namespaces
In this chapter you will add some code to the project for the first time. If you want to skip ahead and see the final solution for this chapter, you can check out the branch containing the starter code for the next chapter.
git checkout 05-keysets
git checkout 05-keysets
Exercise: Define a namespace
In the ./pact
folder, create a file namespace.repl
. Write an empty transaction inside
this file.
(begin-tx "Define a namespace called 'election")(commit-tx)
(begin-tx "Define a namespace called 'election")(commit-tx)
If you have the pact executable installed locally, you can run the namespace.repl
file using the following command in a terminal with the current directory set
to the root of your project.
pact pact/namespace.repl -t
pact pact/namespace.repl -t
If you do not have the pact executable installed locally, you can run the namespace.repl
file from the pact ttyd in your browser.
Make sure that your local Devnet is running.
(load "namespace.repl")
(load "namespace.repl")
If all is well, you should see the following output.
pact/namespace.repl:2:0:Trace: Begin Tx 0: Define a namespace called 'electionpact/namespace.repl:5:0:Trace: Commit Tx 0: Define a namespace called 'electionLoad successful
pact/namespace.repl:2:0:Trace: Begin Tx 0: Define a namespace called 'electionpact/namespace.repl:5:0:Trace: Commit Tx 0: Define a namespace called 'electionLoad successful
Define a namespace
Inside the transaction you will call the built-in Pact function define-namespace
with
the name of the namespace, the keyset that defines who can use the namespace and the
keyset that defines who governs the namespace as arguments. This function is wrapped
by the expect
function in order to test that calling define-namespace
will succeed.
The first argument of expect is the title of the test, the second argument is the expected
output of the define-namespace
function and the third argument is the actual define-namespace
function call. Add the following code between the begin-tx
and commit-tx
lines in
namespace.repl
and run it.
(expect "A namespace can be defined" "Namespace defined: election" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))
(expect "A namespace can be defined" "Namespace defined: election" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))
The test will fail with the message No such key in message: user-keyset
. You will need
to load the user-keyset
and admin-keyset
into the context of the Pact REPL so they
can be read using the read-keyset
function. Add the following lines at the top of the
namespace.repl
file and run it again.
(env-data { 'user-keyset : { 'keys : [ 'user-public-key ] , 'pred : 'keys-all } , 'admin-keyset : { 'keys : [ 'admin-public-key ] , 'pred : 'keys-all } })
(env-data { 'user-keyset : { 'keys : [ 'user-public-key ] , 'pred : 'keys-all } , 'admin-keyset : { 'keys : [ 'admin-public-key ] , 'pred : 'keys-all } })
At the end of the output you will see Load successful
, which means that your test has
passed and you successfully defined a namespace called election
in the Pact REPL.
Update the namespace
It is possible to update a namespace. In the next transaction you will update the namespace
to allow the user-keyset
to govern the namespace and limit the admin-keyset
to only use
the namespace for defining keysets and Pact modules. Add the following transaction at the
bottom of the namespace.yml
file and run it.
(begin-tx "Update the 'election' namespace")(expect "An admin can redefine the namespace, for instance to set another admin keyset" "Namespace defined: election" (define-namespace 'election (read-keyset 'admin-keyset) (read-keyset 'user-keyset)))(commit-tx)
(begin-tx "Update the 'election' namespace")(expect "An admin can redefine the namespace, for instance to set another admin keyset" "Namespace defined: election" (define-namespace 'election (read-keyset 'admin-keyset) (read-keyset 'user-keyset)))(commit-tx)
You will see the transaction fail with a message containing Keyset failure
. This demonstrates
that indeed only the admin-keyset
is allowed to update the namespace. Sign the transaction
with the admin-keyset
by loading it into the context of the Pact REPL right before the last
transaction. Use the following code and run namespace.repl
again.
(env-sigs [{ 'key : 'admin-public-key , 'caps : [] }])
(env-sigs [{ 'key : 'admin-public-key , 'caps : [] }])
The output should show Load successful
, meaning that the namespace was updated successfully.
Try to update the namespace with incorrect permissions
After the second transaction, the admin-keyset
no longer governs the election
namespace.
You can confirm this with a new transaction in which you redefine the namespace with the same
permissions that you used when creating the namespace. Only, this time, you will wrap the
define-namespace
function inside an expect-failure
function, to assert that redefining
the namespace will fail. Redefining the namespace will fail this time around, because the transaction
will be signed with the admin-keyset
and this keyset no longer has governance permission
after the previous transaction. Add the following transaction at the
bottom of the namespace.yml
file and run it.
(begin-tx "Try to update the 'election' namespace with the wrong permissions")(expect-failure "The previous admin can no longer update the namespace" "Keyset failure (keys-all)" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))(commit-tx)
(begin-tx "Try to update the 'election' namespace with the wrong permissions")(expect-failure "The previous admin can no longer update the namespace" "Keyset failure (keys-all)" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))(commit-tx)
Redefine the namespace as the new admin
To further prove that the namespace was successfully updated in the previous steps, it should
be tested that the user-keyset
will now be able to redefine the contract. You will need
to load the signature of the user-keyset
into the context of the Pact REPL and write a
transaction to redefine the namespace. The transaction will be the same as the previous one,
but this time it is wrapped inside an expect
function instead of expect-failure
.
Add the following transaction at the bottom of the namespace.yml
file and run it.
(env-sigs [{ 'key : 'user-public-key , 'caps : [] }])(begin-tx "Redefine a namespace called 'election as the new admin")(expect "The new admin can update the namespace" "Namespace defined: election" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))(commit-tx)
(env-sigs [{ 'key : 'user-public-key , 'caps : [] }])(begin-tx "Redefine a namespace called 'election as the new admin")(expect "The new admin can update the namespace" "Namespace defined: election" (define-namespace 'election (read-keyset 'user-keyset) (read-keyset 'admin-keyset)))(commit-tx)
If all is well, Load successful
will be displayed at the bottom of the output. In conclusion,
you defined a namespace election
and specified a keyset that is allowed to govern the
namespace and a keyset that is allowed to use the namespace. You wrote an automated test
script to verify that indeed only the governance keyset can redefine the namespace. The
namespace was redefined in a way that handed over governance permissions to another keyset.
Great work.
Exercise: Define a principal namespace
Choosing an arbitrary namespace name like election-your-name
still provides no guarantee
that, by coincidence, this namespace is not already defined by someone else. To ensure
that your namespace will be unique, you can create a principal namespace. The
create-principal-namespace
from the ns
module creates a principle namespace name
that is a hash of a keyset, prefixed with n_
. In this example, you will use an admin-keyset
that contains the public key of the sender00
account, because ns.create-principal-namespace
only accepts valid public keys inside the keyset. The ns
module is readily available
on Mainnet, Testnet and Devnet, but to use it in the Pact REPL it needs to be loaded
from the local filesystem. The output of ns.create-principal-namespace
called with the
admin-keyset
can be stored in a variable (ns-name
) and passed to the define-namespace
as the first argument. In the ./pact
folder create principal-namespace.repl
file and paste the following
code into it.
(env-data { 'admin-keyset : { 'keys : [ "368820f80c324bbc7c2b0610688a7da43e39f91d118732671cd9c7500ff43cca" ] , 'pred : 'keys-all } }) (begin-tx)(load "root/ns.pact")(commit-tx) (begin-tx "Define a principal namespace")(expect "A principal namespace can be created" "Namespace defined: n_560eefcee4a090a24f12d7cf68cd48f11d8d2bd9" (let ((ns-name (ns.create-principal-namespace (read-keyset 'admin-keyset)))) (define-namespace ns-name (read-keyset 'admin-keyset ) (read-keyset 'admin-keyset )) ))(commit-tx)
(env-data { 'admin-keyset : { 'keys : [ "368820f80c324bbc7c2b0610688a7da43e39f91d118732671cd9c7500ff43cca" ] , 'pred : 'keys-all } }) (begin-tx)(load "root/ns.pact")(commit-tx) (begin-tx "Define a principal namespace")(expect "A principal namespace can be created" "Namespace defined: n_560eefcee4a090a24f12d7cf68cd48f11d8d2bd9" (let ((ns-name (ns.create-principal-namespace (read-keyset 'admin-keyset)))) (define-namespace ns-name (read-keyset 'admin-keyset ) (read-keyset 'admin-keyset )) ))(commit-tx)
You will notice that the code is very similar to the code in namespace.repl
. The main
differences are that the ns
module is loaded and the define-namespace
is called
with the variable ns-name
as its first argument, instead of the hardcoded string
election
. Run the principal-namespace.repl
file and verify that the test passed.
If so, you have successfully defined a principal namespace in the Pact REPL and you
are ready to define a principal namespace on Devnet with the admin account you
created in the previous chapter.
Define your namespace on Devnet
Before you define your principal namespace on Devnet, make sure that Chainweaver is
open and the Devnet network is selected. Also, verify that your admin account exists
and holds KDA on chain 1. Otherwise, repeat the steps in the previous chapter to create
and fund your admin account. Chainweaver needs to remain open, because you will use
it to sign the transaction for defining the namespace. Switch to your editor and open
the file ./snippets/principal-namespace.ts
. The pactCommand
variable contains the
crucial bit of Pact code for defining a principle namespace, which you just tested in
the Pact REPL. Also, recognize how the keyset data is added in a similar fashion as in
the .repl
file, with slightly different syntax. For the transaction on Devnet, a signer
is also added, which was not required in the Pact REPL. After the transaction is defined,
it is signed with Chainweaver. That is why you need to have Chainweaver open before
executing this snippet. The remainder of the snippet deals with handling the response
that the Kadena JavaScript client receives from your local Devnet.
Open up a terminal and change the directory to the ./snippets
folder in the root of
your project. Execute the ./principal-namespace.ts
snippet by running the following command.
Replace k:account
with your admin account.
npm run create-namespace:devnet -- k:account
npm run create-namespace:devnet -- k:account
The Chainweaver window usually comes to the foreground as soon as there is a new signing
request for one of your accounts. If not, manually bring the Chainweaver window
to the foreground. You will see a modal with details of the signing request.
Click Sign All
to sign the request and switch back to your terminal window.
If everything went well, you will see something similar to the following output.
{ status: 'success', data: 'Namespace defined: n_fd020525c953aa002f20fb81a920982b175cdf1a'}
{ status: 'success', data: 'Namespace defined: n_fd020525c953aa002f20fb81a920982b175cdf1a'}
Congratulations! You have defined a principle namespace on your local Devnet that can be governed and used by your admin account.
Next steps
In this chapter you learned to define and update a namespace in the Pact REPL, allowing you to verify the behavior of Pact namespaces on your local computer before defining a namespace on the blockchain. You also learned about the difference between a namespace and a principal namespace. Finally, you used the Kadena JavaScript client to define a principal namespace on your local Devnet. In the next chapter you will define a keyset inside your principal namespace. This keyset definition will later be used to guard who can govern, i.e update, your election smart contract.