diff options
author | Vincent Ambo <tazjin@google.com> | 2019-09-29T22·57+0100 |
---|---|---|
committer | Vincent Ambo <github@tazj.in> | 2019-10-03T12·21+0100 |
commit | 9c3c622403cec6e1bf7e4b9aecfbc8bea1e1f6fd (patch) | |
tree | b5eff6072ba76fa9d59c0429e0fe11e5e113c074 /tools/nixery | |
parent | 8c79d085ae7596b81f3e19e7a49443075ebccbb6 (diff) |
refactor(server): Expose layer grouping logic via a function
Refactors the layer grouping package (which previously compiled to a separate binary) to expose the layer grouping logic via a function instead. This is the next step towards creating layers inside of the server component instead of in Nix. Relates to #50.
Diffstat (limited to 'tools/nixery')
-rw-r--r-- | tools/nixery/server/layers/grouping.go | 79 |
1 files changed, 24 insertions, 55 deletions
diff --git a/tools/nixery/server/layers/grouping.go b/tools/nixery/server/layers/grouping.go index a75046e0fa3e..e8666bf4dd0e 100644 --- a/tools/nixery/server/layers/grouping.go +++ b/tools/nixery/server/layers/grouping.go @@ -1,6 +1,6 @@ -// This program reads an export reference graph (i.e. a graph representing the -// runtime dependencies of a set of derivations) created by Nix and groups them -// in a way that is likely to match the grouping for other derivation sets with +// This package reads an export reference graph (i.e. a graph representing the +// runtime dependencies of a set of derivations) created by Nix and groups it in +// a way that is likely to match the grouping for other derivation sets with // overlapping dependencies. // // This is used to determine which derivations to include in which layers of a @@ -9,8 +9,8 @@ // # Inputs // // * a graph of Nix runtime dependencies, generated via exportReferenceGraph -// * a file containing absolute popularity values of packages in the -// Nix package set (in the form of a direct reference count) +// * popularity values of each package in the Nix package set (in the form of a +// direct reference count) // * a maximum number of layers to allocate for the image (the "layer budget") // // # Algorithm @@ -103,9 +103,6 @@ package layers import ( - "encoding/json" - "flag" - "io/ioutil" "log" "regexp" "sort" @@ -114,9 +111,11 @@ import ( "gonum.org/v1/gonum/graph/simple" ) -// closureGraph represents the structured attributes Nix outputs when asking it -// for the exportReferencesGraph of a list of derivations. -type exportReferences struct { +// RuntimeGraph represents structured information from Nix about the runtime +// dependencies of a derivation. +// +// This is generated in Nix by using the exportReferencesGraph feature. +type RuntimeGraph struct { References struct { Graph []string `json:"graph"` } `json:"exportReferencesGraph"` @@ -135,14 +134,14 @@ type exportReferences struct { // of the nixpkgs tree. type Popularity = map[string]int -// layer represents the data returned for each layer that Nix should +// Layer represents the data returned for each layer that Nix should // build for the container image. -type layer struct { +type Layer struct { Contents []string `json:"contents"` mergeRating uint64 } -func (a layer) merge(b layer) layer { +func (a Layer) merge(b Layer) Layer { a.Contents = append(a.Contents, b.Contents...) a.mergeRating += b.mergeRating return a @@ -209,7 +208,7 @@ func insertEdges(graph *simple.DirectedGraph, cmap *map[string]*closure, node *c } // Create a graph structure from the references supplied by Nix. -func buildGraph(refs *exportReferences, pop *Popularity) *simple.DirectedGraph { +func buildGraph(refs *RuntimeGraph, pop *Popularity) *simple.DirectedGraph { cmap := make(map[string]*closure) graph := simple.NewDirectedGraph() @@ -259,7 +258,7 @@ func buildGraph(refs *exportReferences, pop *Popularity) *simple.DirectedGraph { // Extracts a subgraph starting at the specified root from the // dominator tree. The subgraph is converted into a flat list of // layers, each containing the store paths and merge rating. -func groupLayer(dt *flow.DominatorTree, root *closure) layer { +func groupLayer(dt *flow.DominatorTree, root *closure) Layer { size := root.Size contents := []string{root.Path} children := dt.DominatedBy(root.ID()) @@ -273,7 +272,7 @@ func groupLayer(dt *flow.DominatorTree, root *closure) layer { children = append(children, dt.DominatedBy(child.ID())...) } - return layer{ + return Layer{ Contents: contents, // TODO(tazjin): The point of this is to factor in // both the size and the popularity when making merge @@ -288,10 +287,10 @@ func groupLayer(dt *flow.DominatorTree, root *closure) layer { // // Layers are merged together until they fit into the layer budget, // based on their merge rating. -func dominate(budget int, graph *simple.DirectedGraph) []layer { +func dominate(budget int, graph *simple.DirectedGraph) []Layer { dt := flow.Dominators(graph.Node(0), graph) - var layers []layer + var layers []Layer for _, n := range dt.DominatedBy(dt.Root().ID()) { layers = append(layers, groupLayer(&dt, n.(*closure))) } @@ -313,40 +312,10 @@ func dominate(budget int, graph *simple.DirectedGraph) []layer { return layers } -func main() { - graphFile := flag.String("graph", ".attrs.json", "Input file containing graph") - popFile := flag.String("pop", "popularity.json", "Package popularity data") - outFile := flag.String("out", "layers.json", "File to write layers to") - layerBudget := flag.Int("budget", 94, "Total layer budget available") - flag.Parse() - - // Parse graph data - file, err := ioutil.ReadFile(*graphFile) - if err != nil { - log.Fatalf("Failed to load input: %s\n", err) - } - - var refs exportReferences - err = json.Unmarshal(file, &refs) - if err != nil { - log.Fatalf("Failed to deserialise input: %s\n", err) - } - - // Parse popularity data - popBytes, err := ioutil.ReadFile(*popFile) - if err != nil { - log.Fatalf("Failed to load input: %s\n", err) - } - - var pop Popularity - err = json.Unmarshal(popBytes, &pop) - if err != nil { - log.Fatalf("Failed to deserialise input: %s\n", err) - } - - graph := buildGraph(&refs, &pop) - layers := dominate(*layerBudget, graph) - - j, _ := json.Marshal(layers) - ioutil.WriteFile(*outFile, j, 0644) +// GroupLayers applies the algorithm described above the its input and returns a +// list of layers, each consisting of a list of Nix store paths that it should +// contain. +func GroupLayers(refs *RuntimeGraph, pop *Popularity, budget int) []Layer { + graph := buildGraph(refs, pop) + return dominate(budget, graph) } |