mirror of https://github.com/waku-org/nwaku.git
feature/mount-filter-node-api (#181)
* started working on filter mount * fixes * fix indentation * fixes * save * change * rm * Update waku_types.nim * Update waku_filter.nim * fixes * fix * using new filter * did some testing stuff * rm * fix * updated * update doc * fix * fix * unasynced * fix * w -> node * rename * move to content filter * fix * method * rename * renamed contentFilter -> contentFilters * readded * moved * first test fix * readded * no more need * fixes * fix * fix * fixes * todo * removes mother fuck * Update waku_types.nim
This commit is contained in:
parent
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a975bf6d70
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@ -25,14 +25,11 @@ method subscribe*(w: WakuNode, topic: Topic, handler: TopicHandler)
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## NOTE The data field SHOULD be decoded as a WakuMessage.
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## Status: Implemented.
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method subscribe*(w: WakuNode, contentFilter: ContentFilter, handler: ContentFilterHandler)
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## Subscribes to a ContentFilter. Triggers handler when receiving messages on
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## this content filter. ContentFilter is a method that takes some content
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## filter, specifically with `ContentTopic`, and a `Message`. The `Message`
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## has to match the `ContentTopic`.
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## Status: Not yet implemented.
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## TODO Implement as wrapper around `waku_filter` and `subscribe` above.
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method subscribe*(w: WakuNode, filter: FilterRequest, handler: ContentFilterHandler)
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## Registers for messages that match a specific filter. Triggers the handler whenever a message is received.
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## FilterHandler is a method that takes a MessagePush.
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##
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## Status: Implemented.
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method unsubscribe*(w: WakuNode, topic: Topic)
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## Unsubscribe from a topic.
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@ -29,20 +29,21 @@ procSuite "Waku Filter":
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var listenSwitch = newStandardSwitch(some(key))
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discard await listenSwitch.start()
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var completionFut = newFuture[bool]()
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proc handle(msg: MessagePush) {.async, gcsafe, closure.} =
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var responseRequestIdFuture = newFuture[string]()
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proc handle(requestId: string, msg: MessagePush) {.gcsafe, closure.} =
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check:
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msg.messages.len() == 1
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msg.messages[0] == post
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completionFut.complete(true)
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responseRequestIdFuture.complete(requestId)
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let
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proto = WakuFilter.init(dialSwitch, crypto.newRng(), handle)
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rpc = FilterRequest(contentFilter: @[ContentFilter(topics: @["pew", "pew2"])], topic: "topic")
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rpc = FilterRequest(contentFilters: @[ContentFilter(topics: @["pew", "pew2"])], topic: "topic")
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dialSwitch.mount(proto)
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proto.setPeer(listenSwitch.peerInfo)
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proc emptyHandle(msg: MessagePush) {.async, gcsafe, closure.} =
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proc emptyHandle(requestId: string, msg: MessagePush) {.gcsafe, closure.} =
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discard
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let
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@ -53,11 +54,11 @@ procSuite "Waku Filter":
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subscriptions["test"] = subscription
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listenSwitch.mount(proto2)
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await proto.subscribe(listenSwitch.peerInfo, rpc)
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let id = await proto.subscribe(rpc)
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await sleepAsync(2.seconds)
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await subscriptions.notify("topic", post)
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check:
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(await completionFut.withTimeout(5.seconds)) == true
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(await responseRequestIdFuture) == id
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@ -7,7 +7,7 @@ import
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libp2p/crypto/secp,
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libp2p/switch,
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eth/keys,
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../../waku/protocol/v2/[waku_relay, waku_store, message_notifier],
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../../waku/protocol/v2/[waku_relay, waku_store, waku_filter, message_notifier],
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../../waku/node/v2/[wakunode2, waku_types],
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../test_helpers
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@ -20,7 +20,7 @@ procSuite "WakuNode":
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Port(60000))
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pubSubTopic = "chat"
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contentTopic = "foobar"
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contentFilter = ContentFilter(topics: @[contentTopic])
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filterRequest = FilterRequest(topic: pubSubTopic, contentFilters: @[ContentFilter(topics: @[contentTopic])])
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message = WakuMessage(payload: "hello world".toBytes(),
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contentTopic: contentTopic)
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@ -31,24 +31,28 @@ procSuite "WakuNode":
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if msg.isOk():
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check:
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topic == "chat"
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node.filters.notify(msg[])
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node.filters.notify(msg.value(), topic)
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var completionFut = newFuture[bool]()
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# This would be the actual application handler
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proc contentHandler(message: seq[byte]) {.gcsafe, closure.} =
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let msg = string.fromBytes(message)
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proc contentHandler(msg: WakuMessage) {.gcsafe, closure.} =
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let message = string.fromBytes(msg.payload)
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check:
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msg == "hello world"
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message == "hello world"
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completionFut.complete(true)
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await node.start()
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# Subscribe our node to the pubSubTopic where all chat data go onto.
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await node.subscribe(pubSubTopic, relayHandler)
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# Subscribe a contentFilter to trigger a specific application handler when
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# WakuMessages with that content are received
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await node.subscribe(contentFilter, contentHandler)
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# node2.wakuFilter.setPeer(node1.peerInfo)
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await node.subscribe(filterRequest, contentHandler)
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await sleepAsync(2000.millis)
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node.publish(pubSubTopic, message)
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@ -67,7 +71,7 @@ procSuite "WakuNode":
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Port(60002))
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pubSubTopic = "chat"
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contentTopic = "foobar"
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contentFilter = ContentFilter(topics: @[contentTopic])
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filterRequest = FilterRequest(topic: pubSubTopic, contentFilters: @[ContentFilter(topics: @[contentTopic])])
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message = WakuMessage(payload: "hello world".toBytes(),
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contentTopic: contentTopic)
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@ -80,13 +84,13 @@ procSuite "WakuNode":
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if msg.isOk():
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check:
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topic == "chat"
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node1.filters.notify(msg[])
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node1.filters.notify(msg.value(), topic)
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# This would be the actual application handler
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proc contentHandler1(message: seq[byte]) {.gcsafe, closure.} =
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let msg = string.fromBytes(message)
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proc contentHandler(msg: WakuMessage) {.gcsafe, closure.} =
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let message = string.fromBytes(msg.payload)
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check:
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msg == "hello world"
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message == "hello world"
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completionFut.complete(true)
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await allFutures([node1.start(), node2.start()])
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@ -95,10 +99,13 @@ procSuite "WakuNode":
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await node1.subscribe(pubSubTopic, relayHandler)
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# Subscribe a contentFilter to trigger a specific application handler when
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# WakuMessages with that content are received
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await node1.subscribe(contentFilter, contentHandler1)
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node1.wakuFilter.setPeer(node2.peerInfo)
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await node1.subscribe(filterRequest, contentHandler)
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await sleepAsync(2000.millis)
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# Connect peers by dialing from node2 to node1
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let conn = await node2.switch.dial(node1.peerInfo, WakuRelayCodec)
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#
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# We need to sleep to allow the subscription to go through
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info "Going to sleep to allow subscribe to go through"
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await sleepAsync(2000.millis)
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@ -144,3 +151,39 @@ procSuite "WakuNode":
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(await completionFut.withTimeout(5.seconds)) == true
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await node1.stop()
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await node2.stop()
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asyncTest "Filter protocol returns expected message":
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let
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nodeKey1 = crypto.PrivateKey.random(Secp256k1, rng[])[]
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node1 = WakuNode.init(nodeKey1, ValidIpAddress.init("0.0.0.0"),
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Port(60000))
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nodeKey2 = crypto.PrivateKey.random(Secp256k1, rng[])[]
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node2 = WakuNode.init(nodeKey2, ValidIpAddress.init("0.0.0.0"),
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Port(60002))
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contentTopic = "foobar"
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message = WakuMessage(payload: "hello world".toBytes(), contentTopic: contentTopic)
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var completionFut = newFuture[bool]()
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await node1.start()
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await node2.start()
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node1.wakuFilter.setPeer(node2.peerInfo)
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proc handler(msg: WakuMessage) {.gcsafe, closure.} =
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check:
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msg == message
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completionFut.complete(true)
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await node1.subscribe(FilterRequest(topic: "waku", contentFilters: @[ContentFilter(topics: @[contentTopic])]), handler)
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await sleepAsync(2000.millis)
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await node2.subscriptions.notify("waku", message)
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await sleepAsync(2000.millis)
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check:
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(await completionFut.withTimeout(5.seconds)) == true
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await node1.stop()
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await node2.stop()
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@ -6,6 +6,7 @@ proc waku_publish(topic: string, message: seq[byte]): bool
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proc waku_publish2(topic: string, message: seq[byte]): bool
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proc waku_subscribe(topic: string): bool
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proc waku_query(topics: seq[string]): bool
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proc waku_subscribe_filter(topic: string, contentFilters: seq[seq[string]]): bool
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#proc waku_subscribe(topic: string, handler: Topichandler): bool
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# NYI
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@ -75,3 +75,17 @@ proc setupWakuRPC*(node: WakuNode, rpcsrv: RpcServer) =
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await node.query(HistoryQuery(topics: topics), handler)
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return true
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rpcsrv.rpc("waku_subscribe_filter") do(topic: string, contentFilters: seq[seq[string]]) -> bool:
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debug "waku_subscribe_filter"
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# XXX: Hacky in-line handler
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proc handler(msg: WakuMessage) {.gcsafe, closure.} =
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info "Hit subscribe response", message=msg
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var filters = newSeq[ContentFilter]()
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for topics in contentFilters:
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filters.add(ContentFilter(topics: topics))
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await node.subscribe(FilterRequest(topic: topic, contentFilters: filters), handler)
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return true
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@ -18,20 +18,6 @@ type
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Topic* = string
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Message* = seq[byte]
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# TODO: these filter structures can be simplified but like this for now to
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# match Node API
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# Also, should reuse in filter/wakufilter code, but cyclic imports right now.
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ContentFilter* = object
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topics*: seq[string]
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ContentFilterHandler* = proc(message: seq[byte]) {.gcsafe, closure.}
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Filter* = object
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contentFilter*: ContentFilter
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handler*: ContentFilterHandler
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Filters* = Table[string, Filter]
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WakuMessage* = object
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payload*: seq[byte]
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contentTopic*: string
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@ -67,7 +53,7 @@ type
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messages*: seq[WakuMessage]
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FilterRequest* = object
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contentFilter*: seq[ContentFilter]
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contentFilters*: seq[ContentFilter]
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topic*: string
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MessagePush* = object
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@ -83,14 +69,30 @@ type
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requestId*: string
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filter*: FilterRequest # @TODO MAKE THIS A SEQUENCE AGAIN?
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MessagePushHandler* = proc(msg: MessagePush): Future[void] {.gcsafe, closure.}
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MessagePushHandler* = proc(requestId: string, msg: MessagePush) {.gcsafe, closure.}
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FilterPeer* = object
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peerInfo*: PeerInfo
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WakuFilter* = ref object of LPProtocol
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rng*: ref BrHmacDrbgContext
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switch*: Switch
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peers*: seq[FilterPeer]
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subscribers*: seq[Subscriber]
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pushHandler*: MessagePushHandler
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ContentFilter* = object
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topics*: seq[string]
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ContentFilterHandler* = proc(msg: WakuMessage) {.gcsafe, closure.}
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Filter* = object
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contentFilters*: seq[ContentFilter]
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handler*: ContentFilterHandler
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# @TODO MAYBE MORE INFO?
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Filters* = Table[string, Filter]
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# NOTE based on Eth2Node in NBC eth2_network.nim
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WakuNode* = ref object of RootObj
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switch*: Switch
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@ -125,13 +127,23 @@ proc encode*(message: WakuMessage): ProtoBuffer =
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result.write(1, message.payload)
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result.write(2, message.contentTopic)
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proc notify*(filters: Filters, msg: WakuMessage) =
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for filter in filters.values:
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proc notify*(filters: Filters, msg: WakuMessage, requestId: string = "") =
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for key in filters.keys:
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let filter = filters[key]
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# We do this because the key for the filter is set to the requestId received from the filter protocol.
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# This means we do not need to check the content filter explicitly as all MessagePushs already contain
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# the requestId of the coresponding filter.
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if requestId != "" and requestId == key:
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filter.handler(msg)
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continue
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# TODO: In case of no topics we should either trigger here for all messages,
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# or we should not allow such filter to exist in the first place.
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if filter.contentFilter.topics.len > 0:
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if msg.contentTopic in filter.contentFilter.topics:
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filter.handler(msg.payload)
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for contentFilter in filter.contentFilters:
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if contentFilter.topics.len > 0:
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if msg.contentTopic in contentFilter.topics:
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filter.handler(msg)
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break
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proc generateRequestId*(rng: ref BrHmacDrbgContext): string =
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var bytes: array[10, byte]
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@ -88,7 +88,8 @@ proc init*(T: type WakuNode, nodeKey: crypto.PrivateKey,
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rng: crypto.newRng(),
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peerInfo: peerInfo,
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wakuRelay: wakuRelay,
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subscriptions: newTable[string, MessageNotificationSubscription]()
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subscriptions: newTable[string, MessageNotificationSubscription](),
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filters: initTable[string, Filter]()
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)
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for topic in topics:
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@ -108,17 +109,19 @@ proc start*(node: WakuNode) {.async.} =
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node.switch.mount(node.wakuStore)
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node.subscriptions.subscribe(WakuStoreCodec, node.wakuStore.subscription())
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proc pushHandler(msg: MessagePush) {.async, gcsafe.} =
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proc filterHandler(requestId: string, msg: MessagePush) {.gcsafe.} =
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info "push received"
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for message in msg.messages:
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node.filters.notify(message, requestId)
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node.wakuFilter = WakuFilter.init(node.switch, node.rng, pushHandler)
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node.wakuFilter = WakuFilter.init(node.switch, node.rng, filterHandler)
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node.switch.mount(node.wakuFilter)
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node.subscriptions.subscribe(WakuFilterCodec, node.wakuFilter.subscription())
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proc relayHandler(topic: string, data: seq[byte]) {.async, gcsafe.} =
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let msg = WakuMessage.init(data)
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if msg.isOk():
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await node.subscriptions.notify(topic, msg.value())
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node.filters.notify(msg.value(), "")
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await node.wakuRelay.subscribe("waku", relayHandler)
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@ -146,15 +149,16 @@ proc subscribe*(node: WakuNode, topic: Topic, handler: TopicHandler) {.async.} =
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let wakuRelay = node.wakuRelay
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await wakuRelay.subscribe(topic, handler)
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proc subscribe*(node: WakuNode, contentFilter: waku_types.ContentFilter, handler: ContentFilterHandler) {.async.} =
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## Subscribes to a ContentFilter. Triggers handler when receiving messages on
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## this content filter. ContentFilter is a method that takes some content
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## filter, specifically with `ContentTopic`, and a `Message`. The `Message`
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## has to match the `ContentTopic`.
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info "subscribe content", contentFilter=contentFilter
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proc subscribe*(node: WakuNode, request: FilterRequest, handler: ContentFilterHandler) {.async, gcsafe.} =
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## Registers for messages that match a specific filter. Triggers the handler whenever a message is received.
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## FilterHandler is a method that takes a MessagePush.
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##
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## Status: Implemented.
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info "subscribe content", filter=request
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# TODO: get some random id, or use the Filter directly as key
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node.filters.add("some random id", Filter(contentFilter: contentFilter, handler: handler))
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# @TODO: ERROR HANDLING
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let id = await node.wakuFilter.subscribe(request)
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node.filters[id] = Filter(contentFilters: request.contentFilters, handler: handler)
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proc unsubscribe*(w: WakuNode, topic: Topic) =
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echo "NYI"
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@ -32,7 +32,7 @@ proc encode*(filter: ContentFilter): ProtoBuffer =
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proc encode*(rpc: FilterRequest): ProtoBuffer =
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result = initProtoBuffer()
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for filter in rpc.contentFilter:
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for filter in rpc.contentFilters:
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result.write(1, filter.encode())
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result.write(2, rpc.topic)
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@ -46,14 +46,14 @@ proc init*(T: type ContentFilter, buffer: seq[byte]): ProtoResult[T] =
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ok(ContentFilter(topics: topics))
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proc init*(T: type FilterRequest, buffer: seq[byte]): ProtoResult[T] =
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var rpc = FilterRequest(contentFilter: @[], topic: "")
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var rpc = FilterRequest(contentFilters: @[], topic: "")
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let pb = initProtoBuffer(buffer)
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var buffs: seq[seq[byte]]
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discard ? pb.getRepeatedField(1, buffs)
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for buf in buffs:
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rpc.contentFilter.add(? ContentFilter.init(buf))
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rpc.contentFilters.add(? ContentFilter.init(buf))
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discard ? pb.getField(2, rpc.topic)
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@ -81,13 +81,15 @@ proc init*(T: type FilterRPC, buffer: seq[byte]): ProtoResult[T] =
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var rpc = FilterRPC()
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let pb = initProtoBuffer(buffer)
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discard ? pb.getField(1, rpc.requestId)
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var requestBuffer: seq[byte]
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discard ? pb.getField(1, requestBuffer)
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discard ? pb.getField(2, requestBuffer)
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rpc.request = ? FilterRequest.init(requestBuffer)
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var pushBuffer: seq[byte]
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discard ? pb.getField(2, pushBuffer)
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discard ? pb.getField(3, pushBuffer)
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rpc.push = ? MessagePush.init(pushBuffer)
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|
@ -96,8 +98,9 @@ proc init*(T: type FilterRPC, buffer: seq[byte]): ProtoResult[T] =
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proc encode*(rpc: FilterRPC): ProtoBuffer =
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result = initProtoBuffer()
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result.write(1, rpc.request.encode())
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result.write(2, rpc.push.encode())
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result.write(1, rpc.requestId)
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result.write(2, rpc.request.encode())
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result.write(3, rpc.push.encode())
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method init*(wf: WakuFilter) =
|
||||
proc handle(conn: Connection, proto: string) {.async, gcsafe, closure.} =
|
||||
|
@ -107,9 +110,11 @@ method init*(wf: WakuFilter) =
|
|||
error "failed to decode rpc"
|
||||
return
|
||||
|
||||
info "filter message received"
|
||||
|
||||
let value = res.value
|
||||
if value.push != MessagePush():
|
||||
await wf.pushHandler(value.push)
|
||||
wf.pushHandler(value.requestId, value.push)
|
||||
if value.request != FilterRequest():
|
||||
wf.subscribers.add(Subscriber(peer: conn.peerInfo, requestId: value.requestId, filter: value.request))
|
||||
|
||||
|
@ -123,6 +128,10 @@ proc init*(T: type WakuFilter, switch: Switch, rng: ref BrHmacDrbgContext, handl
|
|||
result.pushHandler = handler
|
||||
result.init()
|
||||
|
||||
# @TODO THIS SHOULD PROBABLY BE AN ADD FUNCTION AND APPEND THE PEER TO AN ARRAY
|
||||
proc setPeer*(wf: WakuFilter, peer: PeerInfo) =
|
||||
wf.peers.add(FilterPeer(peerInfo: peer))
|
||||
|
||||
proc subscription*(proto: WakuFilter): MessageNotificationSubscription =
|
||||
## Returns a Filter for the specific protocol
|
||||
## This filter can then be used to send messages to subscribers that match conditions.
|
||||
|
@ -131,7 +140,7 @@ proc subscription*(proto: WakuFilter): MessageNotificationSubscription =
|
|||
if subscriber.filter.topic != topic:
|
||||
continue
|
||||
|
||||
for filter in subscriber.filter.contentFilter:
|
||||
for filter in subscriber.filter.contentFilters:
|
||||
if msg.contentTopic in filter.topics:
|
||||
let push = FilterRPC(requestId: subscriber.requestId, push: MessagePush(messages: @[msg]))
|
||||
let conn = await proto.switch.dial(subscriber.peer.peerId, subscriber.peer.addrs, WakuFilterCodec)
|
||||
|
@ -140,6 +149,11 @@ proc subscription*(proto: WakuFilter): MessageNotificationSubscription =
|
|||
|
||||
MessageNotificationSubscription.init(@[], handle)
|
||||
|
||||
proc subscribe*(wf: WakuFilter, peer: PeerInfo, request: FilterRequest) {.async, gcsafe.} =
|
||||
proc subscribe*(wf: WakuFilter, request: FilterRequest): Future[string] {.async, gcsafe.} =
|
||||
let id = generateRequestId(wf.rng)
|
||||
if wf.peers.len >= 1:
|
||||
let peer = wf.peers[0].peerInfo
|
||||
# @TODO: THERE SHOULD BE ERROR HANDLING HERE, WHAT IF A PEER IS GONE? WHAT IF THERE IS A TIMEOUT ETC.
|
||||
let conn = await wf.switch.dial(peer.peerId, peer.addrs, WakuFilterCodec)
|
||||
await conn.writeLP(FilterRPC(requestId: generateRequestId(wf.rng), request: request).encode().buffer)
|
||||
await conn.writeLP(FilterRPC(requestId: id, request: request).encode().buffer)
|
||||
result = id
|
||||
|
|
Loading…
Reference in New Issue