clean up peerid (#470)

* fix dangling cstring on error return
* remove some useless inlines
* less mallocs in shortlog
* proc -> func
* rename test
This commit is contained in:
Jacek Sieka 2020-12-03 20:53:16 +01:00 committed by GitHub
parent e9d4679059
commit 1befeb8c2e
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GPG Key ID: 4AEE18F83AFDEB23
4 changed files with 56 additions and 62 deletions

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@ -11,20 +11,19 @@
{.push raises: [Defect].}
import std/hashes
import chronicles
import nimcrypto/utils, stew/base58
import crypto/crypto, multicodec, multihash, vbuffer
import protobuf/minprotobuf
import stew/results
import
std/[hashes, strutils],
stew/[base58, results],
chronicles,
nimcrypto/utils,
./crypto/crypto, ./multicodec, ./multihash, ./vbuffer,
./protobuf/minprotobuf
export results
const
maxInlineKeyLength* = 42
# TODO: add proper on disc serialization
# using peer-id protobuf format
type
PeerID* = object
data*: seq[byte]
@ -36,19 +35,15 @@ func `$`*(pid: PeerID): string =
func shortLog*(pid: PeerId): string =
## Returns compact string representation of ``pid``.
var spid = $pid
if len(spid) <= 10:
result = spid
else:
result = newStringOfCap(10)
for i in 0..<2:
result.add(spid[i])
result.add("*")
for i in (len(spid) - 6)..spid.high:
result.add(spid[i])
if len(spid) > 10:
spid[3] = '*'
spid.delete(4, spid.high - 6)
spid
chronicles.formatIt(PeerID): shortLog(it)
proc toBytes*(pid: PeerID, data: var openarray[byte]): int =
func toBytes*(pid: PeerID, data: var openarray[byte]): int =
## Store PeerID ``pid`` to array of bytes ``data``.
##
## Returns number of bytes needed to store ``pid``.
@ -56,20 +51,19 @@ proc toBytes*(pid: PeerID, data: var openarray[byte]): int =
if len(data) >= result and result > 0:
copyMem(addr data[0], unsafeAddr pid.data[0], result)
proc getBytes*(pid: PeerID): seq[byte] {.inline.} =
template getBytes*(pid: PeerID): seq[byte] =
## Return PeerID ``pid`` as array of bytes.
result = pid.data
pid.data
proc hex*(pid: PeerID): string {.inline.} =
func hex*(pid: PeerID): string =
## Returns hexadecimal string representation of ``pid``.
if len(pid.data) > 0:
result = toHex(pid.data)
toHex(pid.data)
proc len*(pid: PeerID): int {.inline.} =
template len*(pid: PeerID): int =
## Returns length of ``pid`` binary representation.
result = len(pid.data)
len(pid.data)
proc cmp*(a, b: PeerID): int =
func cmp*(a, b: PeerID): int =
## Compares two peer ids ``a`` and ``b``.
## Returns:
##
@ -84,30 +78,29 @@ proc cmp*(a, b: PeerID): int =
inc(i)
result = len(a.data) - len(b.data)
proc `<=`*(a, b: PeerID): bool {.inline.} =
template `<=`*(a, b: PeerID): bool =
(cmp(a, b) <= 0)
proc `<`*(a, b: PeerID): bool {.inline.} =
template `<`*(a, b: PeerID): bool =
(cmp(a, b) < 0)
proc `>=`*(a, b: PeerID): bool {.inline.} =
template `>=`*(a, b: PeerID): bool =
(cmp(a, b) >= 0)
proc `>`*(a, b: PeerID): bool {.inline.} =
template `>`*(a, b: PeerID): bool =
(cmp(a, b) > 0)
proc `==`*(a, b: PeerID): bool {.inline.} =
template `==`*(a, b: PeerID): bool =
(cmp(a, b) == 0)
proc hash*(pid: PeerID): Hash {.inline.} =
result = hash(pid.data)
template hash*(pid: PeerID): Hash =
hash(pid.data)
proc validate*(pid: PeerID): bool =
func validate*(pid: PeerID): bool =
## Validate check if ``pid`` is empty or not.
if len(pid.data) > 0:
result = MultiHash.validate(pid.data)
len(pid.data) > 0 and MultiHash.validate(pid.data)
proc hasPublicKey*(pid: PeerID): bool =
func hasPublicKey*(pid: PeerID): bool =
## Returns ``true`` if ``pid`` is small enough to hold public key inside.
if len(pid.data) > 0:
var mh: MultiHash
@ -115,19 +108,19 @@ proc hasPublicKey*(pid: PeerID): bool =
if mh.mcodec == multiCodec("identity"):
result = true
proc extractPublicKey*(pid: PeerID, pubkey: var PublicKey): bool =
func extractPublicKey*(pid: PeerID, pubkey: var PublicKey): bool =
## Returns ``true`` if public key was successfully decoded from PeerID
## ``pid``and stored to ``pubkey``.
##
## Returns ``false`` otherwise.
var mh: MultiHash
if len(pid.data) > 0:
var mh: MultiHash
if MultiHash.decode(pid.data, mh).isOk:
if mh.mcodec == multiCodec("identity"):
let length = len(mh.data.buffer)
result = pubkey.init(mh.data.buffer.toOpenArray(mh.dpos, length - 1))
proc init*(pid: var PeerID, data: openarray[byte]): bool =
func init*(pid: var PeerID, data: openarray[byte]): bool =
## Initialize peer id from raw binary representation ``data``.
##
## Returns ``true`` if peer was successfully initialiazed.
@ -136,7 +129,7 @@ proc init*(pid: var PeerID, data: openarray[byte]): bool =
pid = p
result = true
proc init*(pid: var PeerID, data: string): bool =
func init*(pid: var PeerID, data: string): bool =
## Initialize peer id from base58 encoded string representation.
##
## Returns ``true`` if peer was successfully initialiazed.
@ -150,7 +143,7 @@ proc init*(pid: var PeerID, data: string): bool =
pid = opid
result = true
proc init*(t: typedesc[PeerID], data: openarray[byte]): Result[PeerID, cstring] {.inline.} =
func init*(t: typedesc[PeerID], data: openarray[byte]): Result[PeerID, cstring] =
## Create new peer id from raw binary representation ``data``.
var res: PeerID
if not init(res, data):
@ -158,7 +151,7 @@ proc init*(t: typedesc[PeerID], data: openarray[byte]): Result[PeerID, cstring]
else:
ok(res)
proc init*(t: typedesc[PeerID], data: string): Result[PeerID, cstring] {.inline.} =
func init*(t: typedesc[PeerID], data: string): Result[PeerID, cstring] =
## Create new peer id from base58 encoded string representation ``data``.
var res: PeerID
if not init(res, data):
@ -166,9 +159,10 @@ proc init*(t: typedesc[PeerID], data: string): Result[PeerID, cstring] {.inline.
else:
ok(res)
proc init*(t: typedesc[PeerID], pubkey: PublicKey): Result[PeerID, cstring] =
func init*(t: typedesc[PeerID], pubkey: PublicKey): Result[PeerID, cstring] =
## Create new peer id from public key ``pubkey``.
var pubraw = ? pubkey.getBytes().orError("peerid: failed to get bytes from given key")
var pubraw = ? pubkey.getBytes().orError(
cstring("peerid: failed to get bytes from given key"))
var mh: MultiHash
if len(pubraw) <= maxInlineKeyLength:
mh = ? MultiHash.digest("identity", pubraw)
@ -176,11 +170,11 @@ proc init*(t: typedesc[PeerID], pubkey: PublicKey): Result[PeerID, cstring] =
mh = ? MultiHash.digest("sha2-256", pubraw)
ok(PeerID(data: mh.data.buffer))
proc init*(t: typedesc[PeerID], seckey: PrivateKey): Result[PeerID, cstring] {.inline.} =
func init*(t: typedesc[PeerID], seckey: PrivateKey): Result[PeerID, cstring] =
## Create new peer id from private key ``seckey``.
PeerID.init(? seckey.getKey().orError("invalid private key"))
PeerID.init(? seckey.getKey().orError(cstring("invalid private key")))
proc match*(pid: PeerID, pubkey: PublicKey): bool {.inline.} =
func match*(pid: PeerID, pubkey: PublicKey): bool =
## Returns ``true`` if ``pid`` matches public key ``pubkey``.
let p = PeerID.init(pubkey)
if p.isErr:
@ -188,7 +182,7 @@ proc match*(pid: PeerID, pubkey: PublicKey): bool {.inline.} =
else:
pid == p.get()
proc match*(pid: PeerID, seckey: PrivateKey): bool {.inline.} =
func match*(pid: PeerID, seckey: PrivateKey): bool =
## Returns ``true`` if ``pid`` matches private key ``seckey``.
let p = PeerID.init(seckey)
if p.isErr:
@ -198,15 +192,15 @@ proc match*(pid: PeerID, seckey: PrivateKey): bool {.inline.} =
## Serialization/Deserialization helpers
proc write*(vb: var VBuffer, pid: PeerID) {.inline.} =
func write*(vb: var VBuffer, pid: PeerID) =
## Write PeerID value ``peerid`` to buffer ``vb``.
vb.writeSeq(pid.data)
proc initProtoField*(index: int, pid: PeerID): ProtoField {.deprecated.} =
func initProtoField*(index: int, pid: PeerID): ProtoField {.deprecated.} =
## Initialize ProtoField with PeerID ``value``.
result = initProtoField(index, pid.data)
initProtoField(index, pid.data)
proc getValue*(data: var ProtoBuffer, field: int, value: var PeerID): int {.
func getValue*(data: var ProtoBuffer, field: int, value: var PeerID): int {.
deprecated.} =
## Read ``PeerID`` from ProtoBuf's message and validate it.
var pid: PeerID
@ -217,11 +211,11 @@ proc getValue*(data: var ProtoBuffer, field: int, value: var PeerID): int {.
else:
value = pid
proc write*(pb: var ProtoBuffer, field: int, pid: PeerID) =
func write*(pb: var ProtoBuffer, field: int, pid: PeerID) =
## Write PeerID value ``peerid`` to object ``pb`` using ProtoBuf's encoding.
write(pb, field, pid.data)
proc getField*(pb: ProtoBuffer, field: int,
func getField*(pb: ProtoBuffer, field: int,
pid: var PeerID): ProtoResult[bool] {.inline.} =
## Read ``PeerID`` from ProtoBuf's message and validate it
var buffer: seq[byte]

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@ -20,20 +20,20 @@ type
MCache* = object of RootObj
msgs*: Table[MessageID, Message]
history*: seq[seq[CacheEntry]]
historySize*: Natural
windowSize*: Natural
func get*(c: MCache, mid: MessageID): Option[Message] =
result = none(Message)
if mid in c.msgs:
result = some(c.msgs[mid])
some(c.msgs[mid])
else:
none(Message)
func contains*(c: MCache, mid: MessageID): bool =
c.get(mid).isSome
func put*(c: var MCache, msgId: MessageID, msg: Message) =
if msgId notin c.msgs:
c.msgs[msgId] = msg
if not c.msgs.hasKeyOrPut(msgId, msg):
# Only add cache entry if the message was not already in the cache
c.history[0].add(CacheEntry(mid: msgId, topicIDs: msg.topicIDs))
func window*(c: MCache, topic: string): HashSet[MessageID] =
@ -58,6 +58,5 @@ func shift*(c: var MCache) =
func init*(T: type MCache, window, history: Natural): T =
T(
history: newSeq[seq[CacheEntry]](history),
historySize: history,
windowSize: window
)

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@ -13,7 +13,7 @@ import testmultibase,
testmultihash,
testmultiaddress,
testcid,
testpeer
testpeerid
import testtransport,
testmultistream,

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@ -220,6 +220,7 @@ suite "Peer testing suite":
$p1 == $p2
$p1 == $p3
$p1 == $p4
len(shortLog(p1)) <= 10
if i in {3, 4, 5}:
var ekey1, ekey2, ekey3, ekey4: PublicKey
check: