mirror of
https://gitlab.com/pulsechaincom/go-pulse.git
synced 2024-12-22 11:31:02 +00:00
2f5b6cb442
* cmd/swarm, p2p, swarm: Enable ENR in binary/execadapter * cmd/p2p/swarm: Remove comments + config.Enode nomarshal * p2p/simulations: Remove superfluous error check * p2p/simulation: Move init enode comment * swarm, p2p/simulations, cmd/swarm: Use nodekey in binary record sign * swarm/network, swarm/pss: Dervice bzzkey * swarm/pss: Remove unused function * swarm/network: Store swarm private key in simulation bucket * swarm/pss: Shorten TextProxNetwork shortrunning test timeout * swarm/pss: Increase prox test timeout * swarm/pss: Increase timeout slightly on shortrunning proxtest * swarm/network: Simplify bucket instantiation in servicectx func * p2p/simulations: Tcpport -> udpport * swarm/network, swarm/pss: Simplify + correct lock in servicefunc sim * swarm/network: Cleanup after rebase on extract swarm enode new * p2p/simulations, swarm/network: Make exec disc test pass * swarm/network: Prune ye olde comment * swarm/pss: Correct revised bzzkey method call * swarm/network: Clarify comment about privatekey generation data * swarm/pss: Fix syntax errors after rebase * swarm/network: Rename misleadingly named method (amend commit to trigger ci - attempt 5)
474 lines
16 KiB
Go
474 lines
16 KiB
Go
package pss
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import (
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"context"
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"crypto/ecdsa"
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"encoding/binary"
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"errors"
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"fmt"
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"strconv"
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"strings"
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"sync"
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"testing"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/node"
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"github.com/ethereum/go-ethereum/p2p"
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"github.com/ethereum/go-ethereum/p2p/enode"
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"github.com/ethereum/go-ethereum/p2p/simulations/adapters"
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"github.com/ethereum/go-ethereum/rpc"
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"github.com/ethereum/go-ethereum/swarm/network"
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"github.com/ethereum/go-ethereum/swarm/network/simulation"
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"github.com/ethereum/go-ethereum/swarm/pot"
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"github.com/ethereum/go-ethereum/swarm/state"
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)
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// needed to make the enode id of the receiving node available to the handler for triggers
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type handlerContextFunc func(*testData, *adapters.NodeConfig) *handler
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// struct to notify reception of messages to simulation driver
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// TODO To make code cleaner:
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// - consider a separate pss unwrap to message event in sim framework (this will make eventual message propagation analysis with pss easier/possible in the future)
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// - consider also test api calls to inspect handling results of messages
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type handlerNotification struct {
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id enode.ID
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serial uint64
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}
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type testData struct {
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mu sync.Mutex
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sim *simulation.Simulation
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handlerDone bool // set to true on termination of the simulation run
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requiredMessages int
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allowedMessages int
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messageCount int
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kademlias map[enode.ID]*network.Kademlia
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nodeAddrs map[enode.ID][]byte // make predictable overlay addresses from the generated random enode ids
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recipients map[int][]enode.ID // for logging output only
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allowed map[int][]enode.ID // allowed recipients
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expectedMsgs map[enode.ID][]uint64 // message serials we expect respective nodes to receive
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allowedMsgs map[enode.ID][]uint64 // message serials we expect respective nodes to receive
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senders map[int]enode.ID // originating nodes of the messages (intention is to choose as far as possible from the receiving neighborhood)
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handlerC chan handlerNotification // passes message from pss message handler to simulation driver
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doneC chan struct{} // terminates the handler channel listener
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errC chan error // error to pass to main sim thread
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msgC chan handlerNotification // message receipt notification to main sim thread
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msgs [][]byte // recipient addresses of messages
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}
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var (
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pof = pot.DefaultPof(256) // generate messages and index them
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topic = BytesToTopic([]byte{0xf3, 0x9e, 0x06, 0x82})
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)
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func (d *testData) getMsgCount() int {
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d.mu.Lock()
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defer d.mu.Unlock()
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return d.messageCount
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}
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func (d *testData) incrementMsgCount() int {
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d.mu.Lock()
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defer d.mu.Unlock()
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d.messageCount++
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return d.messageCount
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}
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func (d *testData) isDone() bool {
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d.mu.Lock()
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defer d.mu.Unlock()
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return d.handlerDone
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}
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func (d *testData) setDone() {
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d.mu.Lock()
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defer d.mu.Unlock()
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d.handlerDone = true
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}
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func getCmdParams(t *testing.T) (int, int, time.Duration) {
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args := strings.Split(t.Name(), "/")
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msgCount, err := strconv.ParseInt(args[2], 10, 16)
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if err != nil {
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t.Fatal(err)
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}
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nodeCount, err := strconv.ParseInt(args[1], 10, 16)
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if err != nil {
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t.Fatal(err)
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}
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timeoutStr := fmt.Sprintf("%ss", args[3])
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timeoutDur, err := time.ParseDuration(timeoutStr)
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if err != nil {
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t.Fatal(err)
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}
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return int(msgCount), int(nodeCount), timeoutDur
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}
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func newTestData() *testData {
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return &testData{
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kademlias: make(map[enode.ID]*network.Kademlia),
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nodeAddrs: make(map[enode.ID][]byte),
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recipients: make(map[int][]enode.ID),
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allowed: make(map[int][]enode.ID),
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expectedMsgs: make(map[enode.ID][]uint64),
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allowedMsgs: make(map[enode.ID][]uint64),
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senders: make(map[int]enode.ID),
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handlerC: make(chan handlerNotification),
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doneC: make(chan struct{}),
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errC: make(chan error),
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msgC: make(chan handlerNotification),
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}
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}
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func (d *testData) getKademlia(nodeId *enode.ID) (*network.Kademlia, error) {
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kadif, ok := d.sim.NodeItem(*nodeId, simulation.BucketKeyKademlia)
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if !ok {
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return nil, fmt.Errorf("no kademlia entry for %v", nodeId)
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}
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kad, ok := kadif.(*network.Kademlia)
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if !ok {
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return nil, fmt.Errorf("invalid kademlia entry for %v", nodeId)
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}
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return kad, nil
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}
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func (d *testData) init(msgCount int) error {
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log.Debug("TestProxNetwork start")
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for _, nodeId := range d.sim.NodeIDs() {
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kad, err := d.getKademlia(&nodeId)
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if err != nil {
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return err
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}
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d.nodeAddrs[nodeId] = kad.BaseAddr()
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}
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for i := 0; i < int(msgCount); i++ {
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msgAddr := pot.RandomAddress() // we choose message addresses randomly
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d.msgs = append(d.msgs, msgAddr.Bytes())
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smallestPo := 256
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var targets []enode.ID
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var closestPO int
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// loop through all nodes and find the required and allowed recipients of each message
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// (for more information, please see the comment to the main test function)
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for _, nod := range d.sim.Net.GetNodes() {
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po, _ := pof(d.msgs[i], d.nodeAddrs[nod.ID()], 0)
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depth := d.kademlias[nod.ID()].NeighbourhoodDepth()
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// only nodes with closest IDs (wrt the msg address) will be required recipients
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if po > closestPO {
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closestPO = po
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targets = nil
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targets = append(targets, nod.ID())
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} else if po == closestPO {
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targets = append(targets, nod.ID())
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}
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if po >= depth {
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d.allowedMessages++
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d.allowed[i] = append(d.allowed[i], nod.ID())
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d.allowedMsgs[nod.ID()] = append(d.allowedMsgs[nod.ID()], uint64(i))
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}
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// a node with the smallest PO (wrt msg) will be the sender,
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// in order to increase the distance the msg must travel
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if po < smallestPo {
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smallestPo = po
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d.senders[i] = nod.ID()
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}
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}
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d.requiredMessages += len(targets)
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for _, id := range targets {
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d.recipients[i] = append(d.recipients[i], id)
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d.expectedMsgs[id] = append(d.expectedMsgs[id], uint64(i))
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}
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log.Debug("nn for msg", "targets", len(d.recipients[i]), "msgidx", i, "msg", common.Bytes2Hex(msgAddr[:8]), "sender", d.senders[i], "senderpo", smallestPo)
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}
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log.Debug("msgs to receive", "count", d.requiredMessages)
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return nil
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}
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// Here we test specific functionality of the pss, setting the prox property of
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// the handler. The tests generate a number of messages with random addresses.
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// Then, for each message it calculates which nodes have the msg address
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// within its nearest neighborhood depth, and stores those nodes as possible
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// recipients. Those nodes that are the closest to the message address (nodes
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// belonging to the deepest PO wrt the msg address) are stored as required
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// recipients. The difference between allowed and required recipients results
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// from the fact that the nearest neighbours are not necessarily reciprocal.
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// Upon sending the messages, the test verifies that the respective message is
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// passed to the message handlers of these required recipients. The test fails
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// if a message is handled by recipient which is not listed among the allowed
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// recipients of this particular message. It also fails after timeout, if not
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// all the required recipients have received their respective messages.
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//
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// For example, if proximity order of certain msg address is 4, and node X
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// has PO=5 wrt the message address, and nodes Y and Z have PO=6, then:
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// nodes Y and Z will be considered required recipients of the msg,
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// whereas nodes X, Y and Z will be allowed recipients.
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func TestProxNetwork(t *testing.T) {
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t.Run("16/16/15", testProxNetwork)
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}
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// params in run name: nodes/msgs
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func TestProxNetworkLong(t *testing.T) {
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if !*longrunning {
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t.Skip("run with --longrunning flag to run extensive network tests")
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}
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t.Run("8/100/30", testProxNetwork)
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t.Run("16/100/30", testProxNetwork)
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t.Run("32/100/60", testProxNetwork)
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t.Run("64/100/60", testProxNetwork)
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t.Run("128/100/120", testProxNetwork)
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}
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func testProxNetwork(t *testing.T) {
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tstdata := newTestData()
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msgCount, nodeCount, timeout := getCmdParams(t)
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handlerContextFuncs := make(map[Topic]handlerContextFunc)
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handlerContextFuncs[topic] = nodeMsgHandler
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services := newProxServices(tstdata, true, handlerContextFuncs, tstdata.kademlias)
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tstdata.sim = simulation.New(services)
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defer tstdata.sim.Close()
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ctx, cancel := context.WithTimeout(context.Background(), timeout)
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defer cancel()
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filename := fmt.Sprintf("testdata/snapshot_%d.json", nodeCount)
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err := tstdata.sim.UploadSnapshot(ctx, filename)
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if err != nil {
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t.Fatal(err)
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}
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err = tstdata.init(msgCount) // initialize the test data
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if err != nil {
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t.Fatal(err)
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}
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wrapper := func(c context.Context, _ *simulation.Simulation) error {
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return testRoutine(tstdata, c)
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}
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result := tstdata.sim.Run(ctx, wrapper) // call the main test function
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if result.Error != nil {
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// context deadline exceeded
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// however, it might just mean that not all possible messages are received
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// now we must check if all required messages are received
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cnt := tstdata.getMsgCount()
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log.Debug("TestProxNetwork finished", "rcv", cnt)
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if cnt < tstdata.requiredMessages {
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t.Fatal(result.Error)
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}
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}
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t.Logf("completed %d", result.Duration)
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}
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func (tstdata *testData) sendAllMsgs() {
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for i, msg := range tstdata.msgs {
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log.Debug("sending msg", "idx", i, "from", tstdata.senders[i])
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nodeClient, err := tstdata.sim.Net.GetNode(tstdata.senders[i]).Client()
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if err != nil {
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tstdata.errC <- err
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}
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var uvarByte [8]byte
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binary.PutUvarint(uvarByte[:], uint64(i))
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nodeClient.Call(nil, "pss_sendRaw", hexutil.Encode(msg), hexutil.Encode(topic[:]), hexutil.Encode(uvarByte[:]))
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}
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log.Debug("all messages sent")
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}
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// testRoutine is the main test function, called by Simulation.Run()
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func testRoutine(tstdata *testData, ctx context.Context) error {
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go handlerChannelListener(tstdata, ctx)
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go tstdata.sendAllMsgs()
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received := 0
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// collect incoming messages and terminate with corresponding status when message handler listener ends
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for {
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select {
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case err := <-tstdata.errC:
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return err
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case hn := <-tstdata.msgC:
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received++
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log.Debug("msg received", "msgs_received", received, "total_expected", tstdata.requiredMessages, "id", hn.id, "serial", hn.serial)
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if received == tstdata.allowedMessages {
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close(tstdata.doneC)
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return nil
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}
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}
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}
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return nil
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}
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func handlerChannelListener(tstdata *testData, ctx context.Context) {
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for {
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select {
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case <-tstdata.doneC: // graceful exit
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tstdata.setDone()
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tstdata.errC <- nil
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return
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case <-ctx.Done(): // timeout or cancel
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tstdata.setDone()
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tstdata.errC <- ctx.Err()
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return
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// incoming message from pss message handler
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case handlerNotification := <-tstdata.handlerC:
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// check if recipient has already received all its messages and notify to fail the test if so
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aMsgs := tstdata.allowedMsgs[handlerNotification.id]
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if len(aMsgs) == 0 {
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tstdata.setDone()
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tstdata.errC <- fmt.Errorf("too many messages received by recipient %x", handlerNotification.id)
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return
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}
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// check if message serial is in expected messages for this recipient and notify to fail the test if not
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idx := -1
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for i, msg := range aMsgs {
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if handlerNotification.serial == msg {
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idx = i
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break
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}
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}
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if idx == -1 {
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tstdata.setDone()
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tstdata.errC <- fmt.Errorf("message %d received by wrong recipient %v", handlerNotification.serial, handlerNotification.id)
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return
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}
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// message is ok, so remove that message serial from the recipient expectation array and notify the main sim thread
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aMsgs[idx] = aMsgs[len(aMsgs)-1]
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aMsgs = aMsgs[:len(aMsgs)-1]
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tstdata.msgC <- handlerNotification
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}
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}
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}
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func nodeMsgHandler(tstdata *testData, config *adapters.NodeConfig) *handler {
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return &handler{
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f: func(msg []byte, p *p2p.Peer, asymmetric bool, keyid string) error {
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cnt := tstdata.incrementMsgCount()
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log.Debug("nodeMsgHandler rcv", "cnt", cnt)
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// using simple serial in message body, makes it easy to keep track of who's getting what
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serial, c := binary.Uvarint(msg)
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if c <= 0 {
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log.Crit(fmt.Sprintf("corrupt message received by %x (uvarint parse returned %d)", config.ID, c))
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}
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if tstdata.isDone() {
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return errors.New("handlers aborted") // terminate if simulation is over
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}
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// pass message context to the listener in the simulation
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tstdata.handlerC <- handlerNotification{
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id: config.ID,
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serial: serial,
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}
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return nil
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},
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caps: &handlerCaps{
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raw: true, // we use raw messages for simplicity
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prox: true,
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},
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}
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}
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// an adaptation of the same services setup as in pss_test.go
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// replaces pss_test.go when those tests are rewritten to the new swarm/network/simulation package
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func newProxServices(tstdata *testData, allowRaw bool, handlerContextFuncs map[Topic]handlerContextFunc, kademlias map[enode.ID]*network.Kademlia) map[string]simulation.ServiceFunc {
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stateStore := state.NewInmemoryStore()
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kademlia := func(id enode.ID, bzzkey []byte) *network.Kademlia {
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if k, ok := kademlias[id]; ok {
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return k
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}
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params := network.NewKadParams()
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params.MaxBinSize = 3
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params.MinBinSize = 1
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params.MaxRetries = 1000
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params.RetryExponent = 2
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params.RetryInterval = 1000000
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kademlias[id] = network.NewKademlia(bzzkey, params)
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return kademlias[id]
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}
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return map[string]simulation.ServiceFunc{
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"bzz": func(ctx *adapters.ServiceContext, b *sync.Map) (node.Service, func(), error) {
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var err error
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var bzzPrivateKey *ecdsa.PrivateKey
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// normally translation of enode id to swarm address is concealed by the network package
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// however, we need to keep track of it in the test driver as well.
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// if the translation in the network package changes, that can cause these tests to unpredictably fail
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// therefore we keep a local copy of the translation here
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addr := network.NewAddr(ctx.Config.Node())
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bzzPrivateKey, err = simulation.BzzPrivateKeyFromConfig(ctx.Config)
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if err != nil {
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return nil, nil, err
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}
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addr.OAddr = network.PrivateKeyToBzzKey(bzzPrivateKey)
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b.Store(simulation.BucketKeyBzzPrivateKey, bzzPrivateKey)
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hp := network.NewHiveParams()
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hp.Discovery = false
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config := &network.BzzConfig{
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OverlayAddr: addr.Over(),
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UnderlayAddr: addr.Under(),
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HiveParams: hp,
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}
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return network.NewBzz(config, kademlia(ctx.Config.ID, addr.OAddr), stateStore, nil, nil), nil, nil
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},
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"pss": func(ctx *adapters.ServiceContext, b *sync.Map) (node.Service, func(), error) {
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// execadapter does not exec init()
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initTest()
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// create keys in whisper and set up the pss object
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ctxlocal, cancel := context.WithTimeout(context.Background(), time.Second*3)
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defer cancel()
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keys, err := wapi.NewKeyPair(ctxlocal)
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privkey, err := w.GetPrivateKey(keys)
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pssp := NewPssParams().WithPrivateKey(privkey)
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pssp.AllowRaw = allowRaw
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bzzPrivateKey, err := simulation.BzzPrivateKeyFromConfig(ctx.Config)
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if err != nil {
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return nil, nil, err
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}
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bzzKey := network.PrivateKeyToBzzKey(bzzPrivateKey)
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pskad := kademlia(ctx.Config.ID, bzzKey)
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ps, err := NewPss(pskad, pssp)
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if err != nil {
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return nil, nil, err
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}
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// register the handlers we've been passed
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var deregisters []func()
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for tpc, hndlrFunc := range handlerContextFuncs {
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deregisters = append(deregisters, ps.Register(&tpc, hndlrFunc(tstdata, ctx.Config)))
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}
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// if handshake mode is set, add the controller
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// TODO: This should be hooked to the handshake test file
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if useHandshake {
|
|
SetHandshakeController(ps, NewHandshakeParams())
|
|
}
|
|
|
|
// we expose some api calls for cheating
|
|
ps.addAPI(rpc.API{
|
|
Namespace: "psstest",
|
|
Version: "0.3",
|
|
Service: NewAPITest(ps),
|
|
Public: false,
|
|
})
|
|
|
|
b.Store(simulation.BucketKeyKademlia, pskad)
|
|
|
|
// return Pss and cleanups
|
|
return ps, func() {
|
|
// run the handler deregister functions in reverse order
|
|
for i := len(deregisters); i > 0; i-- {
|
|
deregisters[i-1]()
|
|
}
|
|
}, nil
|
|
},
|
|
}
|
|
}
|