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Diffstat (limited to 'tools/nixery/docs/src')
-rw-r--r-- | tools/nixery/docs/src/under-the-hood.md | 79 |
1 files changed, 51 insertions, 28 deletions
diff --git a/tools/nixery/docs/src/under-the-hood.md b/tools/nixery/docs/src/under-the-hood.md index b58a21d0d4ec..4b798300100b 100644 --- a/tools/nixery/docs/src/under-the-hood.md +++ b/tools/nixery/docs/src/under-the-hood.md @@ -6,9 +6,9 @@ image is requested from Nixery. <!-- markdown-toc start - Don't edit this section. Run M-x markdown-toc-refresh-toc --> - [1. The image manifest is requested](#1-the-image-manifest-is-requested) -- [2. Nix builds the image](#2-nix-builds-the-image) -- [3. Layers are uploaded to Nixery's storage](#3-layers-are-uploaded-to-nixerys-storage) -- [4. The image manifest is sent back](#4-the-image-manifest-is-sent-back) +- [2. Nix fetches and prepares image content](#2-nix-fetches-and-prepares-image-content) +- [3. Layers are grouped, created, hashed, and persisted](#3-layers-are-grouped-created-hashed-and-persisted) +- [4. The manifest is assembled and returned to the client](#4-the-manifest-is-assembled-and-returned-to-the-client) - [5. Image layers are requested](#5-image-layers-are-requested) <!-- markdown-toc end --> @@ -40,7 +40,7 @@ It then invokes Nix with three parameters: 2. image tag 3. configured package set source -## 2. Nix builds the image +## 2. Nix fetches and prepares image content Using the parameters above, Nix imports the package set and begins by mapping the image names to attributes in the package set. @@ -50,12 +50,31 @@ their name, for example anything under `haskellPackages`. The registry protocol does not allow uppercase characters, so the Nix code will translate something like `haskellpackages` (lowercased) to the correct attribute name. -After identifying all contents, Nix determines the contents of each layer while -optimising for the best possible cache efficiency (see the [layering design -doc][] for details). +After identifying all contents, Nix uses the `symlinkJoin` function to +create a special layer with the "symlink farm" required to let the +image function like a normal disk image. -Finally it builds each layer, assembles the image manifest as JSON structure, -and yields this manifest back to the web server. +Nix then returns information about the image contents as well as the +location of the special layer to Nixery. + +## 3. Layers are grouped, created, hashed, and persisted + +With the information received from Nix, Nixery determines the contents +of each layer while optimising for the best possible cache efficiency +(see the [layering design doc][] for details). + +With the grouped layers, Nixery then begins to create compressed +tarballs with all required contents for each layer. As these tarballs +are being created, they are simultaneously being hashed (as the image +manifest must contain the content-hashes of all layers) and persisted +to storage. + +Storage can be either a remote [Google Cloud Storage][gcs] bucket, or +a local filesystem path. + +During this step, Nixery checks its build cache (see [Caching][]) to +determine whether a layer needs to be built or is already cached from +a previous build. *Note:* While this step is running (which can take some time in the case of large first-time image builds), the registry client is left hanging waiting for @@ -63,39 +82,43 @@ an HTTP response. Unfortunately the registry protocol does not allow for any feedback back to the user at this point, so from the user's perspective things just ... hang, for a moment. -## 3. Layers are uploaded to Nixery's storage - -Nixery inspects the returned manifest and uploads each layer to the configured -[Google Cloud Storage][gcs] bucket. To avoid unnecessary uploading, it will -check whether layers are already present in the bucket. +## 4. The manifest is assembled and returned to the client -## 4. The image manifest is sent back +Once armed with the hashes of all required layers, Nixery assembles +the OCI Container Image manifest which describes the structure of the +built image and names all of its layers by their content hash. -If everything went well at this point, Nixery responds to the registry client -with the image manifest. - -The client now inspects the manifest and basically sees a list of SHA256-hashes, -each corresponding to one layer of the image. Most clients will now consult -their local layer storage and determine which layers they are missing. - -Each of the missing layers is then requested from Nixery. +This manifest is returned to the client. ## 5. Image layers are requested -For each image layer that it needs to retrieve, the registry client assembles a -request that looks like this: +The client now inspects the manifest and determines which of the +layers it is currently missing based on their content hashes. Note +that different container runtimes will handle this differently, and in +the case of certain engine and storage driver combinations (e.g. +Docker with OverlayFS) layers might be downloaded again even if they +are already present. + +For each of the missing layers, the client now issues a request to +Nixery that looks like this: `GET /v2/${imageName}/blob/sha256:${layerHash}` -Nixery receives these requests and *rewrites* them to Google Cloud Storage URLs, -responding with an `HTTP 303 See Other` status code and the actual download URL -of the layer. +Nixery receives these requests and handles them based on the +configured storage backend. + +If the storage backend is GCS, it *redirects* them to Google Cloud +Storage URLs, responding with an `HTTP 303 See Other` status code and +the actual download URL of the layer. Nixery supports using private buckets which are not generally world-readable, in which case [signed URLs][] are constructed using a private key. These allow the registry client to download each layer without needing to care about how the underlying authentication works. +If the storage backend is the local filesystem, Nixery will attempt to +serve the layer back to the client from disk. + --------- That's it. After these five steps the registry client has retrieved all it needs |