remove support of old SS db formats (#10757)

This commit is contained in:
Svyatoslav Nikolsky 2019-06-18 13:49:59 +03:00 committed by GitHub
parent 2d693be735
commit 1786b6eedd
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23

View File

@ -19,7 +19,7 @@ use std::sync::Arc;
use serde_json; use serde_json;
use tiny_keccak::Keccak; use tiny_keccak::Keccak;
use ethereum_types::{H256, Address}; use ethereum_types::{H256, Address};
use ethkey::{Secret, Public, public_to_address}; use ethkey::{Secret, Public};
use kvdb::KeyValueDB; use kvdb::KeyValueDB;
use types::{Error, ServerKeyId, NodeId}; use types::{Error, ServerKeyId, NodeId};
use serialization::{SerializablePublic, SerializableSecret, SerializableH256, SerializableAddress}; use serialization::{SerializablePublic, SerializableSecret, SerializableH256, SerializableAddress};
@ -28,10 +28,6 @@ use serialization::{SerializablePublic, SerializableSecret, SerializableH256, Se
const DB_META_KEY_VERSION: &'static [u8; 7] = b"version"; const DB_META_KEY_VERSION: &'static [u8; 7] = b"version";
/// Current db version. /// Current db version.
const CURRENT_VERSION: u8 = 3; const CURRENT_VERSION: u8 = 3;
/// Current type of serialized key shares.
type CurrentSerializableDocumentKeyShare = SerializableDocumentKeyShareV3;
/// Current type of serialized key shares versions.
type CurrentSerializableDocumentKeyVersion = SerializableDocumentKeyShareVersionV3;
/// Encrypted key share, stored by key storage on the single key server. /// Encrypted key share, stored by key storage on the single key server.
#[derive(Debug, Default, Clone, PartialEq)] #[derive(Debug, Default, Clone, PartialEq)]
@ -89,66 +85,6 @@ pub struct PersistentKeyStorageIterator<'a> {
iter: Box<Iterator<Item=(Box<[u8]>, Box<[u8]>)> + 'a>, iter: Box<Iterator<Item=(Box<[u8]>, Box<[u8]>)> + 'a>,
} }
/// V0 of encrypted key share, as it is stored by key storage on the single key server.
#[derive(Serialize, Deserialize)]
pub struct SerializableDocumentKeyShareV0 {
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
pub threshold: usize,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<SerializablePublic, SerializableSecret>,
/// Node secret share.
pub secret_share: SerializableSecret,
/// Common (shared) encryption point.
pub common_point: SerializablePublic,
/// Encrypted point.
pub encrypted_point: SerializablePublic,
}
/// V1 of encrypted key share, as it is stored by key storage on the single key server.
#[derive(Serialize, Deserialize)]
struct SerializableDocumentKeyShareV1 {
/// Author of the entry.
pub author: SerializablePublic,
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
pub threshold: usize,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<SerializablePublic, SerializableSecret>,
/// Node secret share.
pub secret_share: SerializableSecret,
/// Common (shared) encryption point.
pub common_point: Option<SerializablePublic>,
/// Encrypted point.
pub encrypted_point: Option<SerializablePublic>,
}
/// V2 of encrypted key share, as it is stored by key storage on the single key server.
#[derive(Serialize, Deserialize)]
struct SerializableDocumentKeyShareV2 {
/// Author of the entry.
pub author: SerializablePublic,
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
pub threshold: usize,
/// Server public.
pub public: SerializablePublic,
/// Common (shared) encryption point.
pub common_point: Option<SerializablePublic>,
/// Encrypted point.
pub encrypted_point: Option<SerializablePublic>,
/// Versions.
pub versions: Vec<SerializableDocumentKeyShareVersionV2>
}
/// V2 of encrypted key share version, as it is stored by key storage on the single key server.
#[derive(Serialize, Deserialize)]
struct SerializableDocumentKeyShareVersionV2 {
/// Version hash.
pub hash: SerializableH256,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<SerializablePublic, SerializableSecret>,
/// Node secret share.
pub secret_share: SerializableSecret,
}
/// V3 of encrypted key share, as it is stored by key storage on the single key server. /// V3 of encrypted key share, as it is stored by key storage on the single key server.
#[derive(Serialize, Deserialize)] #[derive(Serialize, Deserialize)]
struct SerializableDocumentKeyShareV3 { struct SerializableDocumentKeyShareV3 {
@ -167,7 +103,15 @@ struct SerializableDocumentKeyShareV3 {
} }
/// V3 of encrypted key share version, as it is stored by key storage on the single key server. /// V3 of encrypted key share version, as it is stored by key storage on the single key server.
type SerializableDocumentKeyShareVersionV3 = SerializableDocumentKeyShareVersionV2; #[derive(Serialize, Deserialize)]
struct SerializableDocumentKeyShareVersionV3 {
/// Version hash.
pub hash: SerializableH256,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<SerializablePublic, SerializableSecret>,
/// Node secret share.
pub secret_share: SerializableSecret,
}
impl PersistentKeyStorage { impl PersistentKeyStorage {
/// Create new persistent document encryption keys storage /// Create new persistent document encryption keys storage
@ -182,83 +126,22 @@ impl PersistentKeyStorage {
fn upgrade_db(db: Arc<KeyValueDB>) -> Result<Arc<KeyValueDB>, Error> { fn upgrade_db(db: Arc<KeyValueDB>) -> Result<Arc<KeyValueDB>, Error> {
let version = db.get(None, DB_META_KEY_VERSION)?; let version = db.get(None, DB_META_KEY_VERSION)?;
let version = version.and_then(|v| v.get(0).cloned()).unwrap_or(0); let version = version.and_then(|v| v.get(0).cloned());
match version { match version {
0 => { None => {
let mut batch = db.transaction(); let mut batch = db.transaction();
batch.put(None, DB_META_KEY_VERSION, &[CURRENT_VERSION]); batch.put(None, DB_META_KEY_VERSION, &[CURRENT_VERSION]);
for (db_key, db_value) in db.iter(None).into_iter().filter(|&(ref k, _)| **k != *DB_META_KEY_VERSION) {
let v0_key = serde_json::from_slice::<SerializableDocumentKeyShareV0>(&db_value).map_err(|e| Error::Database(e.to_string()))?;
let current_key = CurrentSerializableDocumentKeyShare {
// author is used in separate generation + encrypt sessions.
// in v0 there have been only simultaneous GenEnc sessions.
author: Address::zero().into(), // added in v1
threshold: v0_key.threshold,
public: Public::default().into(), // addded in v2
common_point: Some(v0_key.common_point),
encrypted_point: Some(v0_key.encrypted_point),
versions: vec![CurrentSerializableDocumentKeyVersion {
hash: DocumentKeyShareVersion::data_hash(v0_key.id_numbers.iter().map(|(k, v)| (k.as_bytes(), v.as_bytes()))).into(),
id_numbers: v0_key.id_numbers,
secret_share: v0_key.secret_share,
}],
};
let db_value = serde_json::to_vec(&current_key).map_err(|e| Error::Database(e.to_string()))?;
batch.put(None, &*db_key, &*db_value);
}
db.write(batch)?; db.write(batch)?;
Ok(db) Ok(db)
}, },
1 => { Some(CURRENT_VERSION) => Ok(db),
let mut batch = db.transaction(); _ => Err(Error::Database(format!("unsupported SecretStore database version: {:?}", version))),
batch.put(None, DB_META_KEY_VERSION, &[CURRENT_VERSION]);
for (db_key, db_value) in db.iter(None).into_iter().filter(|&(ref k, _)| **k != *DB_META_KEY_VERSION) {
let v1_key = serde_json::from_slice::<SerializableDocumentKeyShareV1>(&db_value).map_err(|e| Error::Database(e.to_string()))?;
let current_key = CurrentSerializableDocumentKeyShare {
author: public_to_address(&v1_key.author).into(), // added in v1 + changed in v3
threshold: v1_key.threshold,
public: Public::default().into(), // addded in v2
common_point: v1_key.common_point,
encrypted_point: v1_key.encrypted_point,
versions: vec![CurrentSerializableDocumentKeyVersion {
hash: DocumentKeyShareVersion::data_hash(v1_key.id_numbers.iter().map(|(k, v)| (k.as_bytes(), v.as_bytes()))).into(),
id_numbers: v1_key.id_numbers,
secret_share: v1_key.secret_share,
}],
};
let db_value = serde_json::to_vec(&current_key).map_err(|e| Error::Database(e.to_string()))?;
batch.put(None, &*db_key, &*db_value);
}
db.write(batch)?;
Ok(db)
}
2 => {
let mut batch = db.transaction();
batch.put(None, DB_META_KEY_VERSION, &[CURRENT_VERSION]);
for (db_key, db_value) in db.iter(None).into_iter().filter(|&(ref k, _)| **k != *DB_META_KEY_VERSION) {
let v2_key = serde_json::from_slice::<SerializableDocumentKeyShareV2>(&db_value).map_err(|e| Error::Database(e.to_string()))?;
let current_key = CurrentSerializableDocumentKeyShare {
author: public_to_address(&v2_key.author).into(), // changed in v3
threshold: v2_key.threshold,
public: v2_key.public,
common_point: v2_key.common_point,
encrypted_point: v2_key.encrypted_point,
versions: v2_key.versions,
};
let db_value = serde_json::to_vec(&current_key).map_err(|e| Error::Database(e.to_string()))?;
batch.put(None, &*db_key, &*db_value);
}
db.write(batch)?;
Ok(db)
},
3 => Ok(db),
_ => Err(Error::Database(format!("unsupported SecretStore database version: {}", version))),
} }
} }
impl KeyStorage for PersistentKeyStorage { impl KeyStorage for PersistentKeyStorage {
fn insert(&self, document: ServerKeyId, key: DocumentKeyShare) -> Result<(), Error> { fn insert(&self, document: ServerKeyId, key: DocumentKeyShare) -> Result<(), Error> {
let key: CurrentSerializableDocumentKeyShare = key.into(); let key: SerializableDocumentKeyShareV3 = key.into();
let key = serde_json::to_vec(&key).map_err(|e| Error::Database(e.to_string()))?; let key = serde_json::to_vec(&key).map_err(|e| Error::Database(e.to_string()))?;
let mut batch = self.db.transaction(); let mut batch = self.db.transaction();
batch.put(None, document.as_bytes(), &key); batch.put(None, document.as_bytes(), &key);
@ -274,7 +157,7 @@ impl KeyStorage for PersistentKeyStorage {
.map_err(|e| Error::Database(e.to_string())) .map_err(|e| Error::Database(e.to_string()))
.and_then(|key| match key { .and_then(|key| match key {
None => Ok(None), None => Ok(None),
Some(key) => serde_json::from_slice::<CurrentSerializableDocumentKeyShare>(&key) Some(key) => serde_json::from_slice::<SerializableDocumentKeyShareV3>(&key)
.map_err(|e| Error::Database(e.to_string())) .map_err(|e| Error::Database(e.to_string()))
.map(Into::into) .map(Into::into)
.map(Some), .map(Some),
@ -314,7 +197,7 @@ impl<'a> Iterator for PersistentKeyStorageIterator<'a> {
fn next(&mut self) -> Option<(ServerKeyId, DocumentKeyShare)> { fn next(&mut self) -> Option<(ServerKeyId, DocumentKeyShare)> {
self.iter.as_mut().next() self.iter.as_mut().next()
.and_then(|(db_key, db_val)| serde_json::from_slice::<CurrentSerializableDocumentKeyShare>(&db_val) .and_then(|(db_key, db_val)| serde_json::from_slice::<SerializableDocumentKeyShareV3>(&db_val)
.ok() .ok()
.map(|key| (ServerKeyId::from_slice(&*db_key), key.into()))) .map(|key| (ServerKeyId::from_slice(&*db_key), key.into())))
} }
@ -411,17 +294,12 @@ pub mod tests {
use std::collections::HashMap; use std::collections::HashMap;
use std::sync::Arc; use std::sync::Arc;
use std::str::FromStr;
use parking_lot::RwLock; use parking_lot::RwLock;
use serde_json;
use self::tempdir::TempDir; use self::tempdir::TempDir;
use ethereum_types::{Address, H256, H512}; use ethkey::{Random, Generator, Public};
use ethkey::{Random, Generator, Public, Secret, public_to_address};
use kvdb_rocksdb::Database; use kvdb_rocksdb::Database;
use types::{Error, ServerKeyId}; use types::{Error, ServerKeyId};
use super::{DB_META_KEY_VERSION, CURRENT_VERSION, KeyStorage, PersistentKeyStorage, DocumentKeyShare, use super::{KeyStorage, PersistentKeyStorage, DocumentKeyShare, DocumentKeyShareVersion};
DocumentKeyShareVersion, CurrentSerializableDocumentKeyShare, upgrade_db, SerializableDocumentKeyShareV0,
SerializableDocumentKeyShareV1, SerializableDocumentKeyShareV2, SerializableDocumentKeyShareVersionV2};
/// In-memory document encryption keys storage /// In-memory document encryption keys storage
#[derive(Default)] #[derive(Default)]
@ -515,137 +393,4 @@ pub mod tests {
assert_eq!(key_storage.get(&key2), Ok(Some(value2))); assert_eq!(key_storage.get(&key2), Ok(Some(value2)));
assert_eq!(key_storage.get(&key3), Ok(None)); assert_eq!(key_storage.get(&key3), Ok(None));
} }
#[test]
fn upgrade_db_from_0() {
let tempdir = TempDir::new("").unwrap();
let db = Database::open_default(&tempdir.path().display().to_string()).unwrap();
// prepare v0 database
{
let key = serde_json::to_vec(&SerializableDocumentKeyShareV0 {
threshold: 777,
id_numbers: vec![(
H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap().into(),
)].into_iter().collect(),
secret_share: "00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap().into(),
common_point: H512::from_str("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc").unwrap().into(),
encrypted_point: H512::from_str("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c").unwrap().into(),
}).unwrap();
let mut batch = db.transaction();
batch.put(None, &[7], &key);
db.write(batch).unwrap();
}
// upgrade database
let db = upgrade_db(Arc::new(db)).unwrap();
// check upgrade
assert_eq!(db.get(None, DB_META_KEY_VERSION).unwrap().unwrap()[0], CURRENT_VERSION);
let key = serde_json::from_slice::<CurrentSerializableDocumentKeyShare>(&db.get(None, &[7]).unwrap().map(|key| key.to_vec()).unwrap()).unwrap();
assert_eq!(Address::zero(), key.author.clone().into());
assert_eq!(777, key.threshold);
assert_eq!(Some("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc".parse::<Public>().unwrap()), key.common_point.clone().map(Into::into));
assert_eq!(Some("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c".parse::<Public>().unwrap()), key.encrypted_point.clone().map(Into::into));
assert_eq!(key.versions.len(), 1);
assert_eq!(vec![(
"b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8".parse::<Public>().unwrap(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap(),
)], key.versions[0].id_numbers.clone().into_iter().map(|(k, v)| (k.into(), v.into())).collect::<Vec<(Public, Secret)>>());
assert_eq!("00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap(), key.versions[0].secret_share.clone().into());
}
#[test]
fn upgrade_db_from_1() {
let tempdir = TempDir::new("").unwrap();
let db = Database::open_default(&tempdir.path().display().to_string()).unwrap();
// prepare v1 database
{
let key = serde_json::to_vec(&SerializableDocumentKeyShareV1 {
author: H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
threshold: 777,
id_numbers: vec![(
H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap().into(),
)].into_iter().collect(),
secret_share: "00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap().into(),
common_point: Some(H512::from_str("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc").unwrap().into()),
encrypted_point: Some(H512::from_str("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c").unwrap().into()),
}).unwrap();
let mut batch = db.transaction();
batch.put(None, DB_META_KEY_VERSION, &[1]);
batch.put(None, &[7], &key);
db.write(batch).unwrap();
}
// upgrade database
let db = upgrade_db(Arc::new(db)).unwrap();
// check upgrade
assert_eq!(db.get(None, DB_META_KEY_VERSION).unwrap().unwrap()[0], CURRENT_VERSION);
let key = serde_json::from_slice::<CurrentSerializableDocumentKeyShare>(&db.get(None, &[7]).unwrap().map(|key| key.to_vec()).unwrap()).unwrap();
assert_eq!(777, key.threshold);
assert_eq!(Some("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc".parse::<Public>().unwrap()), key.common_point.clone().map(Into::into));
assert_eq!(Some("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c".parse::<Public>().unwrap()), key.encrypted_point.clone().map(Into::into));
assert_eq!(key.author.0, public_to_address(&H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap()));
assert_eq!(key.versions.len(), 1);
assert_eq!(vec![(
"b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8".parse::<Public>().unwrap(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap(),
)], key.versions[0].id_numbers.clone().into_iter().map(|(k, v)| (k.into(), v.into())).collect::<Vec<(Public, Secret)>>());
assert_eq!("00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap(), key.versions[0].secret_share.clone().into());
}
#[test]
fn upgrade_db_from_2() {
let tempdir = TempDir::new("").unwrap();
let db = Database::open_default(&tempdir.path().display().to_string()).unwrap();
// prepare v2 database
{
let key = serde_json::to_vec(&SerializableDocumentKeyShareV2 {
author: H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
threshold: 777,
common_point: Some(H512::from_str("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc").unwrap().into()),
encrypted_point: Some(H512::from_str("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c").unwrap().into()),
public: H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
versions: vec![SerializableDocumentKeyShareVersionV2 {
hash: "281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<H256>().unwrap().into(),
id_numbers: vec![(
H512::from_str("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8").unwrap().into(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap().into(),
)].into_iter().collect(),
secret_share: "00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap().into(),
}],
}).unwrap();
let mut batch = db.transaction();
batch.put(None, DB_META_KEY_VERSION, &[2]);
batch.put(None, &[7], &key);
db.write(batch).unwrap();
}
// upgrade database
let db = upgrade_db(Arc::new(db)).unwrap();
// check upgrade
assert_eq!(db.get(None, DB_META_KEY_VERSION).unwrap().unwrap()[0], CURRENT_VERSION);
let key = serde_json::from_slice::<CurrentSerializableDocumentKeyShare>(&db.get(None, &[7]).unwrap().map(|key| key.to_vec()).unwrap()).unwrap();
assert_eq!(777, key.threshold);
assert_eq!(Some("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc".parse::<Public>().unwrap()), key.common_point.clone().map(Into::into));
assert_eq!(Some("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c".parse::<Public>().unwrap()), key.encrypted_point.clone().map(Into::into));
assert_eq!(key.author.0, public_to_address(&"b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8".parse().unwrap()));
assert_eq!(key.versions.len(), 1);
assert_eq!(vec![(
"b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8".parse::<Public>().unwrap(),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse::<Secret>().unwrap(),
)], key.versions[0].id_numbers.clone().into_iter().map(|(k, v)| (k.into(), v.into())).collect::<Vec<(Public, Secret)>>());
assert_eq!("00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse::<Secret>().unwrap(), key.versions[0].secret_share.clone().into());
}
} }