logos-delivery/waku/node/kernel_api/ping.nim

{.push raises: [].}

import
  std/[options],
  chronos,
  chronicles,
  metrics,
  results,
  libp2p/protocols/ping,
  libp2p/builders,
  libp2p/transports/tcptransport,
  libp2p/utility

import ../waku_node, ../peer_manager
import libp2p/crypto/rng as libp2p_rng

logScope:
  topics = "waku node ping api"

proc mountLibp2pPing*(node: WakuNode) {.async: (raises: []).} =
  info "mounting libp2p ping protocol"

  try:
    # libp2p 1.15.3: Ping.new now expects libp2p's `Rng` (ref object
    # wrapping a ref HmacDrbgContext).  Wrap the node's BearSSL rng.
    node.libp2pPing = Ping.new(rng = libp2p_rng.newBearSslRng(node.rng))
  except Exception as e:
    error "failed to create ping", error = getCurrentExceptionMsg()

  if node.started:
    # Node has started already. Let's start ping too.
    try:
      await node.libp2pPing.start()
    except CatchableError:
      error "failed to start libp2pPing", error = getCurrentExceptionMsg()

  try:
    node.switch.mount(node.libp2pPing)
  except LPError:
    error "failed to mount libp2pPing", error = getCurrentExceptionMsg()

proc pingPeer(node: WakuNode, peerId: PeerId): Future[Result[void, string]] {.async.} =
  ## Ping a single peer and return the result

  try:
    # Establish a stream
    let stream = (await node.peerManager.dialPeer(peerId, PingCodec)).valueOr:
      error "pingPeer: failed dialing peer", peerId = peerId
      return err("pingPeer failed dialing peer peerId: " & $peerId)
    defer:
      # Always close the stream
      try:
        await stream.close()
      except CatchableError as e:
        info "Error closing ping connection", peerId = peerId, error = e.msg

    # Perform ping
    let pingDuration = await node.libp2pPing.ping(stream)

    trace "Ping successful", peerId = peerId, duration = pingDuration
    return ok()
  except CatchableError as e:
    error "pingPeer: exception raised pinging peer", peerId = peerId, error = e.msg
    return err("pingPeer: exception raised pinging peer: " & e.msg)

# Returns the number of succesful pings performed
proc parallelPings*(node: WakuNode, peerIds: seq[PeerId]): Future[int] {.async.} =
  if len(peerIds) == 0:
    return 0

  var pingFuts: seq[Future[Result[void, string]]]

  # Create ping futures for each peer
  for i, peerId in peerIds:
    let fut = pingPeer(node, peerId)
    pingFuts.add(fut)

  # Wait for all pings to complete
  discard await allFutures(pingFuts).withTimeout(5.seconds)

  var successCount = 0
  for fut in pingFuts:
    if not fut.completed() or fut.failed():
      continue

    let res = fut.read()
    if res.isOk():
      successCount.inc()

  return successCount
chore: an attempt to move node API's to separate files (#3614) * chore: move node API's to separate files 2025-10-08 20:06:46 +05:30			`{.push raises: [].}`

			`import`
			`std/[options],`
			`chronos,`
			`chronicles,`
			`metrics,`
			`results,`
			`libp2p/protocols/ping,`
			`libp2p/builders,`
			`libp2p/transports/tcptransport,`
			`libp2p/utility`

			`import ../waku_node, ../peer_manager`
feat(mix): bump libp2p stack to v2.0.0 + adopt stateless RLN spam protection Combines five dep-and-build changes that all flow from the libp2p v2.0.0 upgrade and the move to the extracted libp2p_mix / mix-rln plugin stack: waku.nimble: * libp2p: ff8d51857 -> c43199378 (release/v2.0.0 tip; sha-pinned until vacp2p cuts a v2.0.0 tag). * Drop the bare `zlib < 0.2` cap — no longer needed by the upgraded libp2p. * websock: bare ">= 0.4.0" — replaces the d4cd68b URL+SHA workaround that pinned through a libp2p commit-specific websock SHA. * nim-json-rpc: switch to chaitanyaprem/nim-json-rpc#f05fad25 — relaxes websock cap to allow >=0.4.0. TODO: revert to status-im/nim-json-rpc once status-im/nim-json-rpc#277 merges and a tag is cut. * lsquic: bare ">= 0.4.1" (drops URL form). * Add mix-rln-spam-protection-plugin pin (23b278b4) and nim-libp2p-mix pin (50c4ab4f — PR #14 HEAD); the plugin pins the same libp2p_mix SHA so the diamond dep collapses to a single source. waku/factory/waku.nim: * Explicit HPService.setup(switch) / AutonatService.setup(switch) calls. libp2p v2.0.0's Service lifecycle refactor (libp2p#2462) removed switch.start's auto-setup loop, so any caller that assigns directly to switch.services (we do) is responsible for calling setup() themselves. Without it, AutonatService.addressMapper stays nil and peerInfo.expandAddrs SIGSEGVs during start(). Wrapped in try/except for ServiceSetupError so a setup failure surfaces as a logged error rather than a crash. Build / scripts: * scripts/build_rln_mix.sh removed and Makefile simplified — librln is now a single shared archive built from zerokit's `stateless` features (no separate librln_mix archive). * simulations/mixnet/build_setup.sh + setup_credentials.nim updated to use librln_v2.0.2.a directly and run RLN keystore setup before nodes start. Validated: * Cold local-cache nimble setup --localdeps -y. * wakunode2 and chat2mix link cleanly. * Mixnet roundtrip sim: [PASS] bob received message from alice. * RLN proof generation + verification on every in-path mix node: 5 gen_called == 5 verified, 0 SPAM_PROOF_* errors. 2026-06-04 16:54:44 +05:30			`import libp2p/crypto/rng as libp2p_rng`
chore: an attempt to move node API's to separate files (#3614) * chore: move node API's to separate files 2025-10-08 20:06:46 +05:30
			`logScope:`
			`topics = "waku node ping api"`

			`proc mountLibp2pPing*(node: WakuNode) {.async: (raises: []).} =`
			`info "mounting libp2p ping protocol"`

			`try:`
feat(mix): bump libp2p stack to v2.0.0 + adopt stateless RLN spam protection Combines five dep-and-build changes that all flow from the libp2p v2.0.0 upgrade and the move to the extracted libp2p_mix / mix-rln plugin stack: waku.nimble: * libp2p: ff8d51857 -> c43199378 (release/v2.0.0 tip; sha-pinned until vacp2p cuts a v2.0.0 tag). * Drop the bare `zlib < 0.2` cap — no longer needed by the upgraded libp2p. * websock: bare ">= 0.4.0" — replaces the d4cd68b URL+SHA workaround that pinned through a libp2p commit-specific websock SHA. * nim-json-rpc: switch to chaitanyaprem/nim-json-rpc#f05fad25 — relaxes websock cap to allow >=0.4.0. TODO: revert to status-im/nim-json-rpc once status-im/nim-json-rpc#277 merges and a tag is cut. * lsquic: bare ">= 0.4.1" (drops URL form). * Add mix-rln-spam-protection-plugin pin (23b278b4) and nim-libp2p-mix pin (50c4ab4f — PR #14 HEAD); the plugin pins the same libp2p_mix SHA so the diamond dep collapses to a single source. waku/factory/waku.nim: * Explicit HPService.setup(switch) / AutonatService.setup(switch) calls. libp2p v2.0.0's Service lifecycle refactor (libp2p#2462) removed switch.start's auto-setup loop, so any caller that assigns directly to switch.services (we do) is responsible for calling setup() themselves. Without it, AutonatService.addressMapper stays nil and peerInfo.expandAddrs SIGSEGVs during start(). Wrapped in try/except for ServiceSetupError so a setup failure surfaces as a logged error rather than a crash. Build / scripts: * scripts/build_rln_mix.sh removed and Makefile simplified — librln is now a single shared archive built from zerokit's `stateless` features (no separate librln_mix archive). * simulations/mixnet/build_setup.sh + setup_credentials.nim updated to use librln_v2.0.2.a directly and run RLN keystore setup before nodes start. Validated: * Cold local-cache nimble setup --localdeps -y. * wakunode2 and chat2mix link cleanly. * Mixnet roundtrip sim: [PASS] bob received message from alice. * RLN proof generation + verification on every in-path mix node: 5 gen_called == 5 verified, 0 SPAM_PROOF_* errors. 2026-06-04 16:54:44 +05:30			# libp2p 1.15.3: Ping.new now expects libp2p's `Rng` (ref object
			`# wrapping a ref HmacDrbgContext). Wrap the node's BearSSL rng.`
			`node.libp2pPing = Ping.new(rng = libp2p_rng.newBearSslRng(node.rng))`
chore: an attempt to move node API's to separate files (#3614) * chore: move node API's to separate files 2025-10-08 20:06:46 +05:30			`except Exception as e:`
			`error "failed to create ping", error = getCurrentExceptionMsg()`

			`if node.started:`
			`# Node has started already. Let's start ping too.`
			`try:`
			`await node.libp2pPing.start()`
			`except CatchableError:`
			`error "failed to start libp2pPing", error = getCurrentExceptionMsg()`

			`try:`
			`node.switch.mount(node.libp2pPing)`
			`except LPError:`
			`error "failed to mount libp2pPing", error = getCurrentExceptionMsg()`

			`proc pingPeer(node: WakuNode, peerId: PeerId): Future[Result[void, string]] {.async.} =`
			`## Ping a single peer and return the result`

			`try:`
			`# Establish a stream`
			`let stream = (await node.peerManager.dialPeer(peerId, PingCodec)).valueOr:`
			`error "pingPeer: failed dialing peer", peerId = peerId`
			`return err("pingPeer failed dialing peer peerId: " & $peerId)`
			`defer:`
			`# Always close the stream`
			`try:`
			`await stream.close()`
			`except CatchableError as e:`
Move log level from debug to info (#3622) * convert all debug logs to info log level * waku_relay protocol mv notice spammy logs to debug 2025-10-15 10:49:36 +02:00			`info "Error closing ping connection", peerId = peerId, error = e.msg`
chore: an attempt to move node API's to separate files (#3614) * chore: move node API's to separate files 2025-10-08 20:06:46 +05:30
			`# Perform ping`
			`let pingDuration = await node.libp2pPing.ping(stream)`

			`trace "Ping successful", peerId = peerId, duration = pingDuration`
			`return ok()`
			`except CatchableError as e:`
			`error "pingPeer: exception raised pinging peer", peerId = peerId, error = e.msg`
			`return err("pingPeer: exception raised pinging peer: " & e.msg)`

			`# Returns the number of succesful pings performed`
			`proc parallelPings*(node: WakuNode, peerIds: seq[PeerId]): Future[int] {.async.} =`
			`if len(peerIds) == 0:`
			`return 0`

			`var pingFuts: seq[Future[Result[void, string]]]`

			`# Create ping futures for each peer`
			`for i, peerId in peerIds:`
			`let fut = pingPeer(node, peerId)`
			`pingFuts.add(fut)`

			`# Wait for all pings to complete`
			`discard await allFutures(pingFuts).withTimeout(5.seconds)`

			`var successCount = 0`
			`for fut in pingFuts:`
			`if not fut.completed() or fut.failed():`
			`continue`

			`let res = fut.read()`
			`if res.isOk():`
			`successCount.inc()`

			`return successCount`