The Plutus Application Framework, part of the Plutus Platform, is a framework for developing distributed applications using the Cardano blockchain. For more information about the projects, see the User documentation.
This repository contains:
-
Plutus Platform
-
Libraries which implement the Plutus Application Framework, a framework for writing applications that work with Cardano.
-
A selection of end-to-end usecases written with the Plutus Application Framework
-
The Plutus Playground, a web-based playground for learning and writing basic Plutus Applications.
-
Important
|
The rest of this README is focussed on people who want to develop or contribute to the Framework. For people who want to use the Framework, please consult the User documentation. |
Important
|
DO NOT IGNORE THIS If you want to use Nix with this project, make sure to set up the IOHK binary cache. If you do not do this, you will end up building GHC, which takes several hours. If you find yourself building GHC, STOP and fix the cache. |
The main documentation is located here.
The generated Haskell API documentation (haddocks) are here: https://playground.plutus.iohkdev.io/doc/haddock.
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Plutus Technical Report (draft)
PVP reminder:
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Two major-version components, A.B
-
In this doc: “first-major-version”, “second-major-version”
-
-
One minor-version component C
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Any number of (meaningless but higher) patch-version components
The core plutus-apps
packages are versioned as follows:
-
Package versioning follows the PVP on a best-effort basis (i.e. we will generally try to but we won’t guarantee it).
-
The first-major-version component indicates the "era" which for our purposes means which major version of the Cardano node the tools are compatible with.
-
The second-major-version component is used for releases which are major versions according to the PVP, but which are still compatible with the current "era".
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The minor-version and below are used as normal.
-
-
Packages which are used downstream should all have the same version.
-
Other packages which are not used downstream (e.g.
plutus-playground-server
,plutus-playground-client
,quickcheck-dynamic
, etc.) can remain unversioned.
In principle we could just have a single major version, but using two makes it easier to avoid mistakes and clearly expresses the state of the repository.
There are two protected branches in plutus-apps
:
-
main
branch-
Most development should be done in this branch
-
Should always target a stable version of
cardano-node
which is compatible with the current Cardano mainnet. -
The version of transitive dependencies (
plutus
,cardano-ledger
,ouroboros-network
, etc.) should be pinned to the ones fromcardano-node
(or better,cardano-wallet
) -
Changes will be backported form
main
tonext-node
-
-
next-node
branch: should always target the next node release.-
This branch will eventually be merged in
main
after the Cardano mainnet HF.
-
The dependency update policy is dependent on the protected branch.
For cardano-node
, we define major-version-bound the range of versions which are compatible with a specific era.
For example, for the Alonzo era, that would be >= 1.29 && < 1.35
. For the Vasil era, that would be >= 1.35 && < 1.36
.
Independently of the protected branch:
-
It should always use the same first-major-version of
plutus
as the one used by theplutus
dependency ofcardano-node
-
It should always be safe to upgrade to a new second-major-version of
plutus
: at worst this will lead to some code breakage. -
It should, unless specified otherwise, use the same version for transitive dependencies (
cardano-ledger
,ouroboros-network
, etc.) withcardano-node
-
It should pin the major version of
cardano-node
for all packages -
It should pin the first and second-major version of
plutus
for all packages
main
branch:
-
It should not update
cardano-node
to a new major-version. In other words, it should use acardano-node
version which is compatible with the current Cardano mainnet -
It should use a
cardano-wallet
version which is compatible with the currentcardano-node
version
next-node
branch:
-
It may update the
cardano-node
to a new major-version. In other words, it may use acardano-node
version which is incompatible with the current Cardano mainnet -
It may use a
cardano-wallet
version which is incompatible with the currentcardano-node
version
Packages which depend on plutus-apps
packages should use version ranges to control which version of those packages they build against.
-
Packages in
plutus-apps
which are used downstream should pin the major-version of each other (e.g.plutus-pab-1.0.1
should depend onplutus-contract ^>= 1.0
). -
Downstream packages should pin at least the first-major-version of
plutus-apps
packages.-
Upgrading to a new second-major-version should always be safe for working on the current mainnet, with at most code breakage (following the PVP). Users may of course want to pin this version as well to avoid such breakage.
-
-
Downstream packages pulling in
plutus-apps
packages viasource-repository-package
stanzas should always take tagged commits.
Issues can be filed in the GitHub Issue tracker.
However, note that this is pre-release software, so we will not usually be providing support.
See CONTRIBUTING, which describes our processes in more detail including development environments; and ARCHITECTURE, which describes the structure of the repository.
None of our libraries are on Hackage, unfortunately (many of our dependencies aren’t either). So for the time being, you need to:
-
Add
plutus-apps
as asource-repository-package
to yourcabal.project
. -
Copy the
source-repository-package
stanzas from ourcabal.project
to yours. -
Copy additional stanzas from our
cabal.project
as you need, e.g. you may need some of theallow-newer
stanzas.
The plutus-starter project provides an example.
This section contains information about how to build the project’s artifacts for independent usage. For development work see How to develop and contribute to the project for more information.
The Haskell libraries in the Plutus Platform are built with cabal
and Nix.
The other artifacts (docs etc.) are also most easily built with Nix.
Install Nix (recommended). following the instructions on the Nix website.
Make sure you have read and understood the cache warning. DO NOT IGNORE THIS.
See Nix for further advice on using Nix.
You can build some of the Haskell packages without Nix, but this is not recommended and we don’t guarantee that these prerequisites are sufficient.
For instance, you would have to build and install this fork of libsodium
from source.
If you use Nix, these tools are provided for you via shell.nix
, and you do not need to install them yourself.
Run nix build -f default.nix plutus-apps.haskell.packages.plutus-pab.components.library
from the root to build the Plutus PAB library.
See Which attributes to use to build different artifacts to find out what other attributes you can build.
The Haskell packages can be built directly with cabal
.
We do this during development (see How to develop and contribute to the project).
The best way is to do this is inside a nix-shell
.
Note
|
For fresh development setups, you also need to run |
Run cabal build plutus-pab
from the root to build the Plutus PAB library.
See the cabal project file to see the other packages that you can build with cabal
.
The Plutus Playground is automatically deployed upon certain pushes to GitHub
-
Staging is deployed from every commit pushed to
main
(this URL subject to change) -
Production is deployed from every release tag (matching
vYYYY-MM-DD
)
For more details, including instructions for setting up ad hoc testing deployments, see the plutus-ops repo.
Adding the IOHK binary cache to your Nix configuration will speed up builds a lot, since many things will have been built already by our CI.
If you find you are building packages that are not defined in this repository, or if the build seems to take a very long time then you may not have this set up properly.
To set up the cache:
-
On non-NixOS, edit
/etc/nix/nix.conf
and add the following lines:substituters = https://hydra.iohk.io https://iohk.cachix.org https://cache.nixos.org/ trusted-public-keys = hydra.iohk.io:f/Ea+s+dFdN+3Y/G+FDgSq+a5NEWhJGzdjvKNGv0/EQ= iohk.cachix.org-1:DpRUyj7h7V830dp/i6Nti+NEO2/nhblbov/8MW7Rqoo= cache.nixos.org-1:6NCHdD59X431o0gWypbMrAURkbJ16ZPMQFGspcDShjY=
NoteIf you don’t have an
/etc/nix/nix.conf
or don’t want to edit it, you may add thenix.conf
lines to~/.config/nix/nix.conf
instead. You must be a trusted user to do this. -
On NixOS, set the following NixOS options:
nix = { binaryCaches = [ "https://hydra.iohk.io" "https://iohk.cachix.org" ]; binaryCachePublicKeys = [ "hydra.iohk.io:f/Ea+s+dFdN+3Y/G+FDgSq+a5NEWhJGzdjvKNGv0/EQ=" "iohk.cachix.org-1:DpRUyj7h7V830dp/i6Nti+NEO2/nhblbov/8MW7Rqoo=" ]; };
default.nix
defines a package set with attributes for all the artifacts you can build from this repository.
These can be built using nix build
.
For example:
nix build -f default.nix docs.site
-
Project packages: defined inside
plutus-apps.haskell.packages
-
e.g.
plutus-apps.haskell.packages.plutus-pab.components.library
-
There are other attributes defined in default.nix
.