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Convert store path "grammar" to EBNF
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@ -5,66 +5,69 @@ This is the complete specification for how store paths are calculated.
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Regular users do *not* need to know this information --- store paths can be treated as black boxes computed from the properties of the store objects they refer to.
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But for those interested in exactly how Nix works, e.g. if they are reimplementing it, this information can be useful.
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```bnf
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<realized-path> ::= <store-dir>/<digest>-<name>
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```ebnf
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store-path = store-dir "/" digest "-" name
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```
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where
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- `<digest>` = base-32 representation of the first 160 bits of a [SHA-256] hash of `<pre>`
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- `digest` = base-32 representation of the first 160 bits of a [SHA-256] hash of `pre`
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Th is :the hash part of the store name
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- `<pre>` = the string `<type>:sha256:<inner-digest>:<store>:<name>`;
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- `pre` = the string
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```ebnf
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type ":" sha256 ":" inner-digest ":" store ":" name
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```
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Note that it includes the location of the store as well as the name to make sure that changes to either of those are reflected in the hash
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(e.g. you won't get `/nix/store/<digest>-name1` and `/nix/store/<digest>-name2`, or `/gnu/store/<digest>-name1`, with equal hash parts).
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- `<name>` = the name of the store object.
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- `name` = the name of the store object.
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- `<store>` = the [store directory](@docroot@/store/store-path.md#store-directory)
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- `store` = the [store directory](@docroot@/store/store-path.md#store-directory)
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- `<type>` = one of:
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- `type` = one of:
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- ```bnf
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text:<r1>:<r2>:...<rN>
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- ```ebnf
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"text" ( ":" store-path )*
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```
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for encoded derivations written to the store.
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`<r1> ... <rN>` are the store paths referenced by this path.
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Those are encoded in the form described by `<realized-path>`.
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The optional trailing store paths are the references of the store object.
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- ```bnf
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source:<r1>:<r2>:...:<rN>:self
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- ```ebnf
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"source" ( ":" store-path )*
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```
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For paths copied to the store and hashed via a [Nix Archive (NAR)] and [SHA-256][sha-256].
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Just like in the text case, we can have the store objects referenced by their paths.
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Additionally, we can have an optional `:self` label to denote self reference.
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- ```bnf
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output:<id>
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- ```ebnf
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"output:" id
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```
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For either the outputs built from derivations,
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paths copied to the store hashed that area single file hashed directly, or the via a hash algorithm other than [SHA-256][sha-256].
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(in that case "source" is used; this is only necessary for compatibility).
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`<id>` is the name of the output (usually, "out").
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For content-addressed store objects, `<id>`, is always "out".
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`id` is the name of the output (usually, "out").
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For content-addressed store objects, `id`, is always "out".
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- `<inner-digest>` = base-16 representation of a SHA-256 hash of `<inner-pre>`
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- `inner-digest` = base-16 representation of a SHA-256 hash of `inner-pre`
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- `<inner-pre>` = one of the following based on `<type>`:
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- `inner-pre` = one of the following based on `type`:
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- if `<type>` = `text:...`:
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- if `type` = `"text:" ...`:
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the string written to the resulting store path.
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- if `<type>` = `source:...`:
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- if `type` = `"source:" ...`:
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the the hash of the [Nix Archive (NAR)] serialization of the [file system object](@docroot@/store/file-system-object.md) of the store object.
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- if `<type>` = `output:<id>`:
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- if `type` = `"output:" id`:
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- For input-addressed derivation outputs:
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@ -72,31 +75,38 @@ where
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- For content-addressed store paths:
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the string `fixed:out:<rec><algo>:<hash>:`, where
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the string
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- `<rec>` = one of:
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```ebnf
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"fixed:out:" rec algo ":" hash ":"
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```
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where
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- `rec` = one of:
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- `r:` hashes of the for [Nix Archive (NAR)] (arbitrary file system object) serialization
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- `` (empty string) for hashes of the flat (single file) serialization
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- `<algo>` = `md5`, `sha1` or `sha256`
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- `algo` = `md5`, `sha1` or `sha256`
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- `<hash>` = base-16 representation of the path or flat hash of the contents of the path (or expected contents of the path for fixed-output derivations).
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- `hash` = base-16 representation of the path or flat hash of the contents of the path (or expected contents of the path for fixed-output derivations).
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Note that `<id>` = `out`, regardless of the name part of the store path.
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Also note that NAR + SHA-256 must not use this case, and instead must use the `<type>` = `source:...` case.
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Note that `id` = `out`, regardless of the name part of the store path.
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Also note that NAR + SHA-256 must not use this case, and instead must use the `type` = `"source:" ...` case.
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[Nix Archive (NAR)]: @docroot@/glossary.md#gloss-NAR
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[sha-256]: https://en.m.wikipedia.org/wiki/SHA-256
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## Historical Note
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The `<type>` = `source:...` and `<type>` = `output:out` grammars technically overlap, in that both can represent data hashed by its SHA-256 NAR serialization.
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The `type` = `"source:" ...` and `type` = `"output:out"` grammars technically overlap in purpose,
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in that both can represent data hashed by its SHA-256 NAR serialization.
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The original reason for this way of computing names was to prevent name collisions (for security).
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For instance, the thinking was that it shouldn't be feasible to come up with a derivation whose output path collides with the path for a copied source.
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The former would have an `<inner-pre>` starting with `output:out:`, while the latter would have an `<inner-pre>` starting with `source:`.
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The former would have an `inner-pre` starting with `output:out:`, while the latter would have an `inner-pre` starting with `source:`.
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Since `64519cfd657d024ae6e2bb74cb21ad21b886fd2a` (2008), however, it was decided that separting derivation-produced vs manually-hashed content-addressed data like this was not useful.
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Now, data this is to be SHA-256 + NAR-serialization content-addressed always uses the `source:...` construction, regardless of how it was produced (manually or by derivation).
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