use crate::nixbase32;
use crate::nixhash::{self, HashAlgo, NixHash};
use serde::de::Unexpected;
use serde::ser::SerializeMap;
use serde::{Deserialize, Deserializer, Serialize, Serializer};
use serde_json::{Map, Value};
use super::algos::SUPPORTED_ALGOS;
use super::from_algo_and_digest;
pub enum NixHashMode {
Flat,
Recursive,
}
impl NixHashMode {
pub fn prefix(self) -> &'static str {
match self {
Self::Flat => "",
Self::Recursive => "r:",
}
}
}
/// A Nix Hash can either be flat or recursive.
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum NixHashWithMode {
Flat(NixHash),
Recursive(NixHash),
}
impl NixHashWithMode {
pub fn mode(&self) -> NixHashMode {
match self {
Self::Flat(_) => NixHashMode::Flat,
Self::Recursive(_) => NixHashMode::Recursive,
}
}
pub fn digest(&self) -> &NixHash {
match self {
Self::Flat(ref h) => h,
Self::Recursive(ref h) => h,
}
}
/// Formats a [NixHashWithMode] in the Nix default hash format,
/// which is the algo, followed by a colon, then the lower hex encoded digest.
/// In case the hash itself is recursive, a `r:` is added as prefix
pub fn to_nix_hash_string(&self) -> String {
String::from(self.mode().prefix()) + &self.digest().to_nix_hash_string()
}
/// This takes a serde_json::Map and turns it into this structure. This is necessary to do such
/// shenigans because we have external consumers, like the Derivation parser, who would like to
/// know whether we have a invalid or a missing NixHashWithMode structure in another structure,
/// e.g. Output.
/// This means we have this combinatorial situation:
/// - no hash, no hashAlgo: no NixHashWithMode so we return Ok(None).
/// - present hash, missing hashAlgo: invalid, we will return missing_field
/// - missing hash, present hashAlgo: same
/// - present hash, present hashAlgo: either we return ourselves or a type/value validation
/// error.
/// This function is for internal consumption regarding those needs until we have a better
/// solution. Now this is said, let's explain how this works.
///
/// We want to map the serde data model into a NixHashWithMode.
///
/// The serde data model has a `hash` field (containing a digest in nixbase32),
/// and a `hashAlgo` field, containing the stringified hash algo.
/// In case the hash is recursive, hashAlgo also has a `r:` prefix.
///
/// This is to match how `nix show-derivation` command shows them in JSON
/// representation.
pub(crate) fn from_map<'de, D>(map: &Map<String, Value>) -> Result<Option<Self>, D::Error>
where
D: Deserializer<'de>,
{
// If we don't have hash neither hashAlgo, let's just return None.
if !map.contains_key("hash") && !map.contains_key("hashAlgo") {
return Ok(None);
}
let digest: Vec<u8> = {
if let Some(v) = map.get("hash") {
if let Some(s) = v.as_str() {
data_encoding::HEXLOWER
.decode(s.as_bytes())
.map_err(|e| serde::de::Error::custom(e.to_string()))?
} else {
return Err(serde::de::Error::invalid_type(
Unexpected::Other(&v.to_string()),
&"a string",
));
}
} else {
return Err(serde::de::Error::missing_field(
"couldn't extract `hash` key but `hashAlgo` key present",
));
}
};
if let Some(v) = map.get("hashAlgo") {
if let Some(s) = v.as_str() {
match s.strip_prefix("r:") {
Some(rest) => Ok(Some(Self::Recursive(
from_algo_and_digest(
HashAlgo::try_from(rest).map_err(|e| {
serde::de::Error::invalid_value(
Unexpected::Other(&e.to_string()),
&format!("one of {}", SUPPORTED_ALGOS.join(",")).as_str(),
)
})?,
&digest,
)
.map_err(|e: nixhash::Error| {
serde::de::Error::invalid_value(
Unexpected::Other(&e.to_string()),
&"a digest with right length",
)
})?,
))),
None => Ok(Some(Self::Flat(
from_algo_and_digest(
HashAlgo::try_from(s).map_err(|e| {
serde::de::Error::invalid_value(
Unexpected::Other(&e.to_string()),
&format!("one of {}", SUPPORTED_ALGOS.join(",")).as_str(),
)
})?,
&digest,
)
.map_err(|e: nixhash::Error| {
serde::de::Error::invalid_value(
Unexpected::Other(&e.to_string()),
&"a digest with right length",
)
})?,
))),
}
} else {
Err(serde::de::Error::invalid_type(
Unexpected::Other(&v.to_string()),
&"a string",
))
}
} else {
Err(serde::de::Error::missing_field(
"couldn't extract `hashAlgo` key, but `hash` key present",
))
}
}
}
impl Serialize for NixHashWithMode {
/// map a NixHashWithMode into the serde data model.
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let mut map = serializer.serialize_map(Some(2))?;
match self {
NixHashWithMode::Flat(h) => {
map.serialize_entry("hash", &nixbase32::encode(h.digest_as_bytes()))?;
map.serialize_entry("hashAlgo", &h.algo())?;
}
NixHashWithMode::Recursive(h) => {
map.serialize_entry("hash", &nixbase32::encode(h.digest_as_bytes()))?;
map.serialize_entry("hashAlgo", &format!("r:{}", &h.algo()))?;
}
};
map.end()
}
}
impl<'de> Deserialize<'de> for NixHashWithMode {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let value = Self::from_map::<D>(&Map::deserialize(deserializer)?)?;
match value {
None => Err(serde::de::Error::custom("couldn't parse as map")),
Some(v) => Ok(v),
}
}
}