docs(tvix): Add components doc

Change-Id: I53856bf98c5c2057f95e9c9af5f07c16ced55e0f
Reviewed-on: https://cl.tvl.fyi/c/depot/+/2712
Reviewed-by: tazjin <mail@tazj.in>
Reviewed-by: flokli <flokli@flokli.de>
Tested-by: BuildkiteCI
This commit is contained in:
adisbladis 2021-03-31 20:49:24 +02:00
parent 99148c9b8f
commit 5fa2d39dde
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@startuml
title Tvix build flow
actor User
participant CLI
participant "Coordinator" as Coord
participant "Evaluator" as Eval
database Store
participant "Builder" as Build
note over CLI,Eval
Typically runs locally on the invoking machine
end note
/ note over Store, Build
Can be either local or remote
end note
User-->CLI: User initiates build of `hello` (analogous to `nix-build -f '<nixpkgs>' -A hello`)
CLI-->Coord: CLI invokes coordinator
Coord-->Eval: Sends message to start evaluation of `<nixpkgs>` (path lookup) with attribute `hello`
note right: The paths to the evaluator are local file system paths
Coord<--Eval: Yields derivations to be built
note right
Immediately starts streaming derivations as they are instantiated across
the dependency graph so they can be built while the evaluation is still running.
There are two types of build requests: One for regular "fire and forget" builds
and another for IFD (import from derivation).
These are distinct because IFD needs to be fed back into the evaluator for
further processing while a regular build does not.
end note
loop while has more derivations
Coord-->Store: Check if desired paths are in store
alt Store has path
Coord<--Store: Success response
else Store does not have path
Coord-->Build: Request derivation to be built
note left
The build request optionally includes a desired store.
If a builder is aware of how to push to the store it will do so
directly when the build is finished.
If the store is not known by the builder results will be streamed
back to the coordinator for store addition.
end note
alt Build failure
Coord<--Build: Fail response
note left: It's up to the coordinator whether to exit on build failure
else Build success
alt Known store
Build-->Store: Push outputs to store
Build<--Coord: Send success & pushed response
else Unknown store
Build<--Coord: Send success & not pushed response
Coord<--Build: Stream build outputs
Coord-->Store: Push outputs to store
end
end
end
end
CLI<--Coord: Respond success/fail
User<--CLI: Exit success/fail
@enduml

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tvix/doc/components.md Normal file
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---
title: "Tvix - Architecture & data flow"
numbersections: true
author:
- adisbladis
- flokli
- tazjin
email:
- adis@blad.is
lang: en-GB
classoption:
- twocolumn
header-includes:
- \usepackage{caption, graphicx, tikz, aeguill, pdflscape}
---
# Background
We intend for Tvix tooling to be more decoupled than the existing, monolithic Nix implementation. In practice we expect to gain several benefits from this, such as:
- Ability to use different builders
- Ability to use different store implementations
- No monopolisation of the implementation, allowing users to replace components that they are unhappy with (up to and including the language evaluator)
- Less hidden intra-dependencies between tools due to explicit RPC/IPC boundaries
Communication between different components of the system will use gRPC. The rest of this document outlines the components.
# Components
## Coordinator
*Purpose:* The coordinator (in the simplest case, the Tvix CLI tool) oversees the flow of a build process and delegates tasks to the right subcomponents. For example, if a user runs the equivalent of nix-build in a folder containing a default.nix file the coordinator will invoke the evaluator, pass the resulting derivations to the builder and coordinate any necessary store interactions (for substitution and other purposes).
While many users are likely to use the CLI tool as their main method of interacting with Tvix, it is not unlikely that alternative coordinators (e.g. for a distributed, “Nix-native” CI system) would be implemented. To facilitate this, we are considering to implement the coordinator on top of a state-machine model that would make it possible to reuse the FSM logic without tying it to any particular kind of application.
## Evaluator
*Purpose:* Eval takes care of evaluating Nix code. In a typical build flow, it would be responsible for producing derivations. It can however also be used as a standalone tool, for example in use-cases where Nix is used to generate configuration without any build or store involvement.
*Requirements:* As of now, it will run on the machine invoking the build command itself. For now, we give it filesystem access, so things like imports, `builtins.readFile` etc. can be handled.
In the future, we might be able to abstract away raw filesystem access, by allowing the Evaluator to request files from the coordinator (which will query the Store for it). This might get messy, and the benefits are questionable. We might be fine with running the evaluator with filesystem access for now, and can extend the interface if the need arises.
## Builder
*Purpose:* A builder receives derivations from the coordinator and builds them.
By making builder a standardised interface it's possible to make the sandboxing mechanism used by the build process pluggable.
Nix is currently using a hard-coded [libseccomp](https://github.com/seccomp/libseccomp) based sandboxing mechanism and another one based on [sandboxd](https://www.unix.com/man-page/mojave/8/sandboxd/) on MacOS.
These are only separated by [compiler preprocessor macros](https://gcc.gnu.org/onlinedocs/cpp/Ifdef.html) within the same source files despite having very little in common with each other.
This makes experimentation with alternative backends difficult and porting Nix to other platforms harder than it has to be.
We want to switch the Linux build sandbox to use [OCI](https://github.com/opencontainers/runtime-spec), the current dominant Linux containerisation technology, by default.
With a well-defined builder abstraction it's also easy to imagine other backends such as a Kubernetes-based one in the future.
## Store
*Purpose:* Store takes care of storing build results. It provides a unified interface to get file paths, and upload new ones.
Most likely we will end up with multiple implementations of Store, a few possible ones that comes to mind are:
- Local
- SSH
- GCP
- S3
- Ceph
# Figures
![component flow](./component-flow.svg)