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Convert store path "grammar" to EBNF

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John Ericson 2024-02-12 11:16:53 -05:00
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70
doc/manual/src/protocols/store-path.md
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@ -5,66 +5,69 @@ This is the complete specification for how store paths are calculated.
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.
But for those interested in exactly how Nix works, e.g. if they are reimplementing it, this information can be useful.
```bnf
<realized-path> ::= <store-dir>/<digest>-<name>
```ebnf
store-path = store-dir "/" digest "-" name
```
where
- `<digest>` = base-32 representation of the first 160 bits of a [SHA-256] hash of `<pre>`
- `digest` = base-32 representation of the first 160 bits of a [SHA-256] hash of `pre`
Th is :the hash part of the store name
- `<pre>` = the string `<type>:sha256:<inner-digest>:<store>:<name>`;
- `pre` = the string
```ebnf
type ":" sha256 ":" inner-digest ":" store ":" name
```
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
(e.g. you won't get `/nix/store/<digest>-name1` and `/nix/store/<digest>-name2`, or `/gnu/store/<digest>-name1`, with equal hash parts).
- `<name>` = the name of the store object.
- `name` = the name of the store object.
- `<store>` = the [store directory](@docroot@/store/store-path.md#store-directory)
- `store` = the [store directory](@docroot@/store/store-path.md#store-directory)
- `<type>` = one of:
- `type` = one of:
- ```bnf
text:<r1>:<r2>:...<rN>
- ```ebnf
"text" ( ":" store-path )*
```
for encoded derivations written to the store.
`<r1> ... <rN>` are the store paths referenced by this path.
Those are encoded in the form described by `<realized-path>`.
The optional trailing store paths are the references of the store object.
- ```bnf
source:<r1>:<r2>:...:<rN>:self
- ```ebnf
"source" ( ":" store-path )*
```
For paths copied to the store and hashed via a [Nix Archive (NAR)] and [SHA-256][sha-256].
Just like in the text case, we can have the store objects referenced by their paths.
Additionally, we can have an optional `:self` label to denote self reference.
- ```bnf
output:<id>
- ```ebnf
"output:" id
```
For either the outputs built from derivations,
paths copied to the store hashed that area single file hashed directly, or the via a hash algorithm other than [SHA-256][sha-256].
(in that case "source" is used; this is only necessary for compatibility).
`<id>` is the name of the output (usually, "out").
For content-addressed store objects, `<id>`, is always "out".
`id` is the name of the output (usually, "out").
For content-addressed store objects, `id`, is always "out".
- `<inner-digest>` = base-16 representation of a SHA-256 hash of `<inner-pre>`
- `inner-digest` = base-16 representation of a SHA-256 hash of `inner-pre`
- `<inner-pre>` = one of the following based on `<type>`:
- `inner-pre` = one of the following based on `type`:
- if `<type>` = `text:...`:
- if `type` = `"text:" ...`:
the string written to the resulting store path.
- if `<type>` = `source:...`:
- if `type` = `"source:" ...`:
the the hash of the [Nix Archive (NAR)] serialization of the [file system object](@docroot@/store/file-system-object.md) of the store object.
- if `<type>` = `output:<id>`:
- if `type` = `"output:" id`:
- For input-addressed derivation outputs:
@ -72,31 +75,38 @@ where
- For content-addressed store paths:
the string `fixed:out:<rec><algo>:<hash>:`, where
the string
- `<rec>` = one of:
```ebnf
"fixed:out:" rec algo ":" hash ":"
```
where
- `rec` = one of:
- `r:` hashes of the for [Nix Archive (NAR)] (arbitrary file system object) serialization
- `` (empty string) for hashes of the flat (single file) serialization
- `<algo>` = `md5`, `sha1` or `sha256`
- `algo` = `md5`, `sha1` or `sha256`
- `<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).
- `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).
Note that `<id>` = `out`, regardless of the name part of the store path.
Also note that NAR + SHA-256 must not use this case, and instead must use the `<type>` = `source:...` case.
Note that `id` = `out`, regardless of the name part of the store path.
Also note that NAR + SHA-256 must not use this case, and instead must use the `type` = `"source:" ...` case.
[Nix Archive (NAR)]: @docroot@/glossary.md#gloss-NAR
[sha-256]: https://en.m.wikipedia.org/wiki/SHA-256
## Historical Note
The `<type>` = `source:...` and `<type>` = `output:out` grammars technically overlap, in that both can represent data hashed by its SHA-256 NAR serialization.
The `type` = `"source:" ...` and `type` = `"output:out"` grammars technically overlap in purpose,
in that both can represent data hashed by its SHA-256 NAR serialization.
The original reason for this way of computing names was to prevent name collisions (for security).
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.
The former would have an `<inner-pre>` starting with `output:out:`, while the latter would have an `<inner-pre>` starting with `source:`.
The former would have an `inner-pre` starting with `output:out:`, while the latter would have an `inner-pre` starting with `source:`.
Since `64519cfd657d024ae6e2bb74cb21ad21b886fd2a` (2008), however, it was decided that separting derivation-produced vs manually-hashed content-addressed data like this was not useful.
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).