nimbus-eth1/wrappers/libnimbus.nim

381 lines
12 KiB
Nim

#
# Nimbus
# (c) Copyright 2018
# Status Research & Development GmbH
#
# Licensed under either of
# Apache License, version 2.0, (LICENSE-APACHEv2)
# MIT license (LICENSE-MIT)
import
chronos, chronicles, nimcrypto/[utils, hmac, pbkdf2, hash], tables,
stew/ranges/ptr_arith, eth/[keys, rlp, p2p, async_utils],
eth/p2p/rlpx_protocols/whisper_protocol,
eth/p2p/[enode, peer_pool, bootnodes, whispernodes]
# TODO: If we really want/need this type of API for the keys, put it somewhere
# seperate as it is the same code for Whisper RPC
type
WhisperKeys* = ref object
asymKeys*: Table[string, KeyPair]
symKeys*: Table[string, SymKey]
proc newWhisperKeys*(): WhisperKeys =
new(result)
result.asymKeys = initTable[string, KeyPair]()
result.symKeys = initTable[string, SymKey]()
# TODO: again, lots of overlap with Nimbus whisper RPC here, however not all
# the same due to type conversion (no use of Option and such)
type
CReceivedMessage* = object
decoded*: ptr byte
decodedLen*: csize
source*: PublicKey
recipientPublicKey*: PublicKey
timestamp*: uint32
ttl*: uint32
topic*: Topic
pow*: float64
hash*: Hash
CFilterOptions* = object
symKeyID*: cstring
privateKeyID*: cstring
source*: ptr PublicKey
minPow*: float64
topic*: Topic # lets go with one topic for now
allowP2P*: bool
CPostMessage* = object
symKeyID*: cstring
pubKey*: ptr PublicKey
sourceID*: cstring
ttl*: uint32
topic*: Topic
payload*: ptr byte
payloadLen*: csize
padding*: ptr byte
paddingLen*: csize
powTime*: float64
powTarget*: float64
CTopic* = object
topic*: Topic
proc `$`*(digest: SymKey): string =
for c in digest: result &= hexChar(c.byte)
# Don't do this at home, you'll never get rid of ugly globals like this!
var
node: EthereumNode
# You will only add more instead!
let whisperKeys = newWhisperKeys()
# TODO: Return filter ID if we ever want to unsubscribe
proc subscribeChannel(
channel: string, handler: proc (msg: ReceivedMessage) {.gcsafe.}) =
var ctx: HMAC[sha256]
var symKey: SymKey
discard ctx.pbkdf2(channel, "", 65356, symKey)
let channelHash = digest(keccak256, channel)
var topic: array[4, byte]
for i in 0..<4:
topic[i] = channelHash.data[i]
info "Subscribing to channel", channel, topic, symKey
discard node.subscribeFilter(newFilter(symKey = some(symKey),
topics = @[topic]),
handler)
# proc handler(msg: ReceivedMessage) {.gcsafe.} =
# try:
# # ["~#c4",["dcasdc","text/plain","~:public-group-user-message",
# # 154604971756901,1546049717568,[
# # "^ ","~:chat-id","nimbus-test","~:text","dcasdc"]]]
# let
# src =
# if msg.decoded.src.isSome(): $msg.decoded.src.get()
# else: ""
# payload = cast[string](msg.decoded.payload)
# data = parseJson(cast[string](msg.decoded.payload))
# channel = data.elems[1].elems[5].elems[2].str
# time = $fromUnix(data.elems[1].elems[4].num div 1000)
# message = data.elems[1].elems[0].str
# info "adding", full=(cast[string](msg.decoded.payload))
# except:
# notice "no luck parsing", message=getCurrentExceptionMsg()
proc nimbus_start(port: uint16 = 30303) {.exportc.} =
let address = Address(
udpPort: port.Port, tcpPort: port.Port, ip: parseIpAddress("0.0.0.0"))
let keys = newKeyPair()
node = newEthereumNode(keys, address, 1, nil, addAllCapabilities = false)
node.addCapability Whisper
node.protocolState(Whisper).config.powRequirement = 0.000001
# TODO: should we start the node with an empty bloomfilter?
# var bloom: Bloom
# node.protocolState(Whisper).config.bloom = bloom
var bootnodes: seq[ENode] = @[]
for nodeId in MainnetBootnodes:
var bootnode: ENode
discard initENode(nodeId, bootnode)
bootnodes.add(bootnode)
asyncCheck node.connectToNetwork(bootnodes, true, true)
# main network has mostly non SHH nodes, so we connect directly to SHH nodes
for nodeId in WhisperNodes:
var whisperENode: ENode
discard initENode(nodeId, whisperENode)
var whisperNode = newNode(whisperENode)
asyncCheck node.peerPool.connectToNode(whisperNode)
proc nimbus_poll() {.exportc.} =
poll()
proc nimbus_join_public_chat(channel: cstring,
handler: proc (msg: ptr CReceivedMessage)
{.gcsafe, cdecl.}) {.exportc.} =
if handler.isNil:
subscribeChannel($channel, nil)
else:
proc c_handler(msg: ReceivedMessage) =
var cmsg = CReceivedMessage(
decoded: unsafeAddr msg.decoded.payload[0],
decodedLen: csize msg.decoded.payload.len(),
timestamp: msg.timestamp,
ttl: msg.ttl,
topic: msg.topic,
pow: msg.pow,
hash: msg.hash
)
handler(addr cmsg)
subscribeChannel($channel, c_handler)
# TODO: Add signing key as parameter
# TODO: How would we do key management? In nimbus (like in rpc) or in status go?
proc nimbus_post_public(channel: cstring, payload: cstring) {.exportc.} =
let encPrivateKey = initPrivateKey("5dc5381cae54ba3174dc0d46040fe11614d0cc94d41185922585198b4fcef9d3")
var ctx: HMAC[sha256]
var symKey: SymKey
var npayload = cast[Bytes]($payload)
discard ctx.pbkdf2($channel, "", 65356, symKey)
let channelHash = digest(keccak256, $channel)
var topic: array[4, byte]
for i in 0..<4:
topic[i] = channelHash.data[i]
# TODO: Handle error case
discard node.postMessage(symKey = some(symKey),
src = some(encPrivateKey),
ttl = 20,
topic = topic,
payload = npayload,
powTarget = 0.002)
proc nimbus_add_peer(nodeId: cstring) {.exportc.} =
var whisperENode: ENode
discard initENode($nodeId, whisperENode)
var whisperNode = newNode(whisperENode)
asyncCheck node.peerPool.connectToNode(whisperNode)
# Whisper API (Similar to Whisper RPC API)
# Mostly an example for now, lots of things to fix if continued like this.
proc nimbus_channel_to_topic(channel: cstring): CTopic {.exportc.} =
let hash = digest(keccak256, $channel)
for i in 0..<4:
result.topic[i] = hash.data[i]
# Asymmetric Keys API
proc nimbus_new_keypair(): cstring {.exportc.} =
## It is important that the caller makes a copy of the returned cstring before
## doing any other API calls. This might not hold for all types of GC.
result = generateRandomID()
whisperKeys.asymKeys.add($result, newKeyPair())
proc nimbus_add_keypair(key: ptr PrivateKey):
cstring {.exportc.} =
## It is important that the caller makes a copy of the returned cstring before
## doing any other API calls. This might not hold for all types of GC.
result = generateRandomID()
# Creating a KeyPair here does a copy of the key and so does the add
whisperKeys.asymKeys.add($result, KeyPair(seckey: key[],
pubkey: key[].getPublicKey()))
proc nimbus_delete_keypair(id: cstring): bool {.exportc.} =
var unneeded: KeyPair
result = whisperKeys.asymKeys.take($id, unneeded)
proc nimbus_get_private_key(id: cstring, privateKey: ptr PrivateKey):
bool {.exportc.} =
try:
privateKey[] = whisperKeys.asymkeys[$id].seckey
result = true
except KeyError:
result = false
# Symmetric Keys API
proc nimbus_add_symkey(key: ptr SymKey): cstring {.exportc.} =
## It is important that the caller makes a copy of the returned cstring before
## doing any other API calls. This might not hold for all types of GC.
result = generateRandomID().cstring
# Copy of key happens at add
whisperKeys.symKeys.add($result, key[])
proc nimbus_add_symkey_from_password(password: cstring):
cstring {.exportc.} =
## It is important that the caller makes a copy of the returned cstring before
## doing any other API calls. This might not hold for all types of GC.
var ctx: HMAC[sha256]
var symKey: SymKey
if pbkdf2(ctx, $password, "", 65356, symKey) != sizeof(SymKey):
return nil # TODO: Something else than nil? And, can this practically occur?
result = generateRandomID()
whisperKeys.symKeys.add($result, symKey)
proc nimbus_delete_symkey(id: cstring): bool {.exportc.} =
var unneeded: SymKey
result = whisperKeys.symKeys.take($id, unneeded)
proc nimbus_get_symkey(id: cstring, symKey: ptr SymKey):
bool {.exportc.} =
try:
symKey[] = whisperKeys.symkeys[$id]
result = true
except KeyError:
result = false
# Whisper message posting and receiving API
proc nimbus_post(message: ptr CPostMessage): bool {.exportc.} =
## Encryption is mandatory.
## A symmetric key or an asymmetric key can be provided. Both is not allowed.
## Providing a payload is mandatory, it cannot be nil, but can be of length 0.
var
sigPrivKey: Option[PrivateKey]
asymKey: Option[PublicKey]
symKey: Option[SymKey]
padding: Option[Bytes]
payload: Bytes
if not message.pubKey.isNil() and not message.symKeyID.isNil():
warn "Both symmetric and asymmetric keys are provided, choose one."
return false
if message.pubKey.isNil() and message.symKeyID.isNil():
warn "Both symmetric and asymmetric keys are nil, provide one."
return false
if not message.pubKey.isNil():
asymKey = some(message.pubKey[])
try:
if not message.symKeyID.isNil():
symKey = some(whisperKeys.symKeys[$message.symKeyID])
if not message.sourceID.isNil():
sigPrivKey = some(whisperKeys.asymKeys[$message.sourceID].seckey)
except KeyError:
warn "No key found with provided key ID."
return false
if not message.payload.isNil():
# This will make a copy
payload = @(makeOpenArray(message.payload, message.payloadLen))
else:
warn "Message payload was nil, post aborted."
return false
if not message.padding.isNil():
# This will make a copy
padding = some(@(makeOpenArray(message.padding, message.paddingLen)))
result = node.postMessage(asymKey,
symKey,
sigPrivKey,
ttl = message.ttl,
topic = message.topic,
payload = payload,
padding = padding,
powTime = message.powTime,
powTarget = message.powTarget)
proc nimbus_subscribe_filter(options: ptr CFilterOptions,
handler: proc (msg: ptr CReceivedMessage, udata: pointer) {.gcsafe, cdecl.},
udata: pointer = nil): cstring {.exportc.} =
## In case of a passed handler, the received msg needs to be copied before the
## handler ends.
var
src: Option[PublicKey]
symKey: Option[SymKey]
privateKey: Option[PrivateKey]
if not options.source.isNil():
src = some(options.source[])
try:
if not options.symKeyID.isNil():
symKey = some(whisperKeys.symKeys[$options.symKeyID])
if not options.privateKeyID.isNil():
privateKey = some(whisperKeys.asymKeys[$options.privateKeyID].seckey)
except KeyError:
return nil
let filter = newFilter(src, privateKey, symKey, @[options.topic],
options.minPow, options.allowP2P)
if handler.isNil:
result = node.subscribeFilter(filter, nil)
else:
proc c_handler(msg: ReceivedMessage) {.gcsafe.} =
var cmsg = CReceivedMessage(
decoded: unsafeAddr msg.decoded.payload[0],
decodedLen: csize msg.decoded.payload.len(),
timestamp: msg.timestamp,
ttl: msg.ttl,
topic: msg.topic,
pow: msg.pow,
hash: msg.hash
)
# TODO: change this to ptr, so that C/go code can check on nil?
if msg.decoded.src.isSome():
cmsg.source = msg.decoded.src.get()
if msg.dst.isSome():
cmsg.recipientPublicKey = msg.dst.get()
handler(addr cmsg, udata)
result = node.subscribeFilter(filter, c_handler)
# Bloom filter has to follow only the subscribed topics
# TODO: better to have an "adding" proc here
traceAsyncErrors node.setBloomFilter(node.filtersToBloom())
proc nimbus_unsubscribe_filter(id: cstring): bool {.exportc.} =
result = node.unsubscribeFilter($id)
proc nimbus_get_min_pow(): float64 {.exportc.} =
result = node.protocolState(Whisper).config.powRequirement
proc nimbus_get_bloom_filter(bloom: ptr Bloom) {.exportc.} =
bloom[] = node.protocolState(Whisper).config.bloom