From c74ec0e32f58c9a4b6755bdedc894085b5bbb0df Mon Sep 17 00:00:00 2001 From: Arceliar Date: Mon, 5 Mar 2018 22:06:32 -0600 Subject: [PATCH] cleanup of misc files --- misc/run-conf2-netns | 23 - misc/run-conf3-netns | 29 - misc/run-conf4-netns | 28 - misc/sim/merge-skitter.py | 60 -- misc/sim/merge.py | 61 -- misc/sim/{test => run-sim} | 0 misc/sim/treesim-basic.go | 197 ------ misc/sim/treesim-forward.py | 903 --------------------------- misc/sim/treesim-source-degree.py | 907 ---------------------------- misc/sim/treesim-source.py | 907 ---------------------------- misc/sim/treesim.go | 4 +- misc/sim/walk2map.py | 35 -- misc/tests/atomic-toy.go | 22 - misc/tests/bandwidth.go | 53 -- misc/tests/channelbenchmark.go | 36 -- misc/tests/gob-test.go | 56 -- misc/tests/goroutine-test.go | 22 - misc/tests/multicast.go | 57 -- misc/tests/packetbenchmark.go | 92 --- misc/tests/pool.go | 89 --- misc/tests/quic.go | 95 --- misc/tests/socktest.go | 74 --- misc/tests/socktest2.go | 84 --- misc/tests/socktest_linklocal.go | 116 ---- misc/tests/socktest_tcp.go | 103 ---- misc/tests/socktest_udp.go | 77 --- misc/tests/socktest_udp2.go | 79 --- misc/tests/socktest_udp_nodial.go | 92 --- misc/tests/socktest_udp_sendmmsg.go | 124 ---- misc/tests/tcptest.go | 105 ---- misc/tests/tunbench-client.go | 83 --- misc/tests/tunbench-server.go | 126 ---- misc/tests/tunbench.go | 128 ---- misc/tests/tuntest.go | 45 -- misc/tests/wire-test.go | 40 -- 35 files changed, 2 insertions(+), 4950 deletions(-) delete mode 100755 misc/run-conf2-netns delete mode 100755 misc/run-conf3-netns delete mode 100755 misc/run-conf4-netns delete mode 100644 misc/sim/merge-skitter.py delete mode 100644 misc/sim/merge.py rename misc/sim/{test => run-sim} (100%) delete mode 100644 misc/sim/treesim-basic.go delete mode 100644 misc/sim/treesim-forward.py delete mode 100644 misc/sim/treesim-source-degree.py delete mode 100644 misc/sim/treesim-source.py delete mode 100644 misc/sim/walk2map.py delete mode 100644 misc/tests/atomic-toy.go delete mode 100644 misc/tests/bandwidth.go delete mode 100644 misc/tests/channelbenchmark.go delete mode 100644 misc/tests/gob-test.go delete mode 100644 misc/tests/goroutine-test.go delete mode 100644 misc/tests/multicast.go delete mode 100644 misc/tests/packetbenchmark.go delete mode 100644 misc/tests/pool.go delete mode 100644 misc/tests/quic.go delete mode 100644 misc/tests/socktest.go delete mode 100644 misc/tests/socktest2.go delete mode 100644 misc/tests/socktest_linklocal.go delete mode 100644 misc/tests/socktest_tcp.go delete mode 100644 misc/tests/socktest_udp.go delete mode 100644 misc/tests/socktest_udp2.go delete mode 100644 misc/tests/socktest_udp_nodial.go delete mode 100644 misc/tests/socktest_udp_sendmmsg.go delete mode 100644 misc/tests/tcptest.go delete mode 100644 misc/tests/tunbench-client.go delete mode 100644 misc/tests/tunbench-server.go delete mode 100644 misc/tests/tunbench.go delete mode 100644 misc/tests/tuntest.go delete mode 100644 misc/tests/wire-test.go diff --git a/misc/run-conf2-netns b/misc/run-conf2-netns deleted file mode 100755 index cedbb4d5..00000000 --- a/misc/run-conf2-netns +++ /dev/null @@ -1,23 +0,0 @@ -#!/bin/sh - -ip netns add peerns -ip link add veth0 type veth peer name veth1 -ifconfig veth0 192.168.2.1/24 up -echo "1" -#tc qdisc add dev veth0 root tbf rate 8mbit burst 8192 latency 1ms -#tc qdisc add dev veth0 root netem delay 50ms 5ms distribution normal -echo "2" -ip link set veth1 netns peerns -ip netns exec peerns ifconfig veth1 192.168.2.2/24 up -echo "3" -#ip netns exec peerns tc qdisc add dev veth1 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns tc qdisc add dev veth1 root netem delay 50ms 5ms distribution normal -echo "4" -ip netns exec peerns ip addr list -#ip netns exec peerns ./run -useconf=conf2.json -ip netns exec peerns ip link set dev lo up -ip netns exec peerns ./run -autoconf -pprof -#GODEBUG=gctrace=1 ip netns exec peerns ./run -autoconf -#ip netns exec peerns ./run -useconf=conf2.json -cpuprofile=cpu2.prof -memprofile=mem2.prof -#ip netns delete peerns - diff --git a/misc/run-conf3-netns b/misc/run-conf3-netns deleted file mode 100755 index 852c7777..00000000 --- a/misc/run-conf3-netns +++ /dev/null @@ -1,29 +0,0 @@ -#!/bin/sh - -ip netns add peerns3 -ip link add veth23 type veth peer name veth32 -ip link set veth23 netns peerns -ip netns exec peerns ifconfig veth23 192.168.3.1/24 up -#ip netns exec peerns tc qdisc add dev veth23 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns tc qdisc add dev veth23 root netem delay 50ms 5ms distribution normal -ip link set veth32 netns peerns3 -ip netns exec peerns3 ifconfig veth32 192.168.3.2/24 up -#ip netns exec peerns3 tc qdisc add dev veth32 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns3 tc qdisc add dev veth32 root netem delay 50ms 5ms distribution normal -ip netns exec peerns3 ip route add 192.168.2.0/24 via 192.168.3.1 - -#ip link add veth13 type veth peer name veth31 -#ifconfig veth13 192.168.4.1/24 up -#ip netns exec peerns tc qdisc add dev veth23 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns tc qdisc add dev veth23 root netem delay 50ms 5ms distribution normal -#ip link set veth31 netns peerns3 -#ip netns exec peerns3 ifconfig veth32 192.168.4.3/24 up -#ip netns exec peerns3 tc qdisc add dev veth32 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns3 tc qdisc add dev veth32 root netem delay 50ms 5ms distribution normal -#ip netns exec peerns3 ip route add 192.168.2.0/24 via 192.168.3.1 - -ip netns exec peerns3 ip addr list -#ip netns exec peerns3 ./run -useconf=conf3.json -ip netns exec peerns3 ifconfig lo up -ip netns exec peerns3 ./run -autoconf -#ip netns delete peerns3 diff --git a/misc/run-conf4-netns b/misc/run-conf4-netns deleted file mode 100755 index 77b9f858..00000000 --- a/misc/run-conf4-netns +++ /dev/null @@ -1,28 +0,0 @@ -#!/bin/sh - -ip netns add peerns4 -ip link add veth34 type veth peer name veth43 -ip link set veth34 netns peerns3 -ip netns exec peerns3 ifconfig veth34 192.168.4.3/24 up -#ip netns exec peerns tc qdisc add dev veth23 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns tc qdisc add dev veth23 root netem delay 50ms 5ms distribution normal -ip link set veth43 netns peerns4 -ip netns exec peerns4 ifconfig veth43 192.168.4.4/24 up -#ip netns exec peerns3 tc qdisc add dev veth32 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns3 tc qdisc add dev veth32 root netem delay 50ms 5ms distribution normal -#ip netns exec peerns4 ip route add 192.168.3.0/24 via 192.168.4.3 - -#ip link add veth13 type veth peer name veth31 -#ifconfig veth13 192.168.4.1/24 up -#ip netns exec peerns tc qdisc add dev veth23 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns tc qdisc add dev veth23 root netem delay 50ms 5ms distribution normal -#ip link set veth31 netns peerns3 -#ip netns exec peerns3 ifconfig veth32 192.168.4.3/24 up -#ip netns exec peerns3 tc qdisc add dev veth32 root tbf rate 8mbit burst 8192 latency 1ms -#ip netns exec peerns3 tc qdisc add dev veth32 root netem delay 50ms 5ms distribution normal -#ip netns exec peerns3 ip route add 192.168.2.0/24 via 192.168.3.1 - -ip netns exec peerns4 ip addr list -#ip netns exec peerns3 ./run -useconf=conf3.json -ip netns exec peerns4 ./run -autoconf -#ip netns delete peerns3 diff --git a/misc/sim/merge-skitter.py b/misc/sim/merge-skitter.py deleted file mode 100644 index 0a98f56e..00000000 --- a/misc/sim/merge-skitter.py +++ /dev/null @@ -1,60 +0,0 @@ -import glob -inputDirPath = "out-skitter" - -inputFilePaths = glob.glob(inputDirPath+"/*") -inputFilePaths.sort() - -merged = dict() - -stretches = [] - -total = 0 -for inputFilePath in inputFilePaths: - print "Processing file {}".format(inputFilePath) - with open(inputFilePath, 'r') as f: - inData = f.readlines() - pathsChecked = 0. - avgStretch = 0. - for line in inData: - dat = line.rstrip('\n').split(' ') - eHops = int(dat[0]) - nHops = int(dat[1]) - count = int(dat[2]) - if eHops not in merged: merged[eHops] = dict() - if nHops not in merged[eHops]: merged[eHops][nHops] = 0 - merged[eHops][nHops] += count - total += count - pathsChecked += count - stretch = float(nHops)/eHops - avgStretch += stretch*count - finStretch = avgStretch / max(1, pathsChecked) - stretches.append(str(finStretch)) - -hopsUsed = 0. -hopsNeeded = 0. -avgStretch = 0. -results = [] -for eHops in sorted(merged.keys()): - for nHops in sorted(merged[eHops].keys()): - count = merged[eHops][nHops] - result = "{} {} {}".format(eHops, nHops, count) - results.append(result) - hopsUsed += nHops*count - hopsNeeded += eHops*count - stretch = float(nHops)/eHops - avgStretch += stretch*count - print result -bandwidthUsage = hopsUsed/max(1, hopsNeeded) -avgStretch /= max(1, total) - -with open("results.txt", "w") as f: - f.write('\n'.join(results)) - -with open("stretches.txt", "w") as f: - f.write('\n'.join(stretches)) - -print "Total files processed: {}".format(len(inputFilePaths)) -print "Total paths found: {}".format(total) -print "Bandwidth usage: {}".format(bandwidthUsage) -print "Average stretch: {}".format(avgStretch) - diff --git a/misc/sim/merge.py b/misc/sim/merge.py deleted file mode 100644 index 4929c99a..00000000 --- a/misc/sim/merge.py +++ /dev/null @@ -1,61 +0,0 @@ -import glob -import sys -inputDirPath = sys.argv[1] - -inputFilePaths = glob.glob(inputDirPath+"/*") -inputFilePaths.sort() - -merged = dict() - -stretches = [] - -total = 0 -for inputFilePath in inputFilePaths: - print "Processing file {}".format(inputFilePath) - with open(inputFilePath, 'r') as f: - inData = f.readlines() - pathsChecked = 0. - avgStretch = 0. - for line in inData: - dat = line.rstrip('\n').split(' ') - eHops = int(dat[0]) - nHops = int(dat[1]) - count = int(dat[2]) - if eHops not in merged: merged[eHops] = dict() - if nHops not in merged[eHops]: merged[eHops][nHops] = 0 - merged[eHops][nHops] += count - total += count - pathsChecked += count - stretch = float(nHops)/eHops - avgStretch += stretch*count - finStretch = avgStretch / max(1, pathsChecked) - stretches.append(str(finStretch)) - -hopsUsed = 0. -hopsNeeded = 0. -avgStretch = 0. -results = [] -for eHops in sorted(merged.keys()): - for nHops in sorted(merged[eHops].keys()): - count = merged[eHops][nHops] - result = "{} {} {}".format(eHops, nHops, count) - results.append(result) - hopsUsed += nHops*count - hopsNeeded += eHops*count - stretch = float(nHops)/eHops - avgStretch += stretch*count - print result -bandwidthUsage = hopsUsed/max(1, hopsNeeded) -avgStretch /= max(1, total) - -with open("results.txt", "w") as f: - f.write('\n'.join(results)) - -with open("stretches.txt", "w") as f: - f.write('\n'.join(stretches)) - -print "Total files processed: {}".format(len(inputFilePaths)) -print "Total paths found: {}".format(total) -print "Bandwidth usage: {}".format(bandwidthUsage) -print "Average stretch: {}".format(avgStretch) - diff --git a/misc/sim/test b/misc/sim/run-sim similarity index 100% rename from misc/sim/test rename to misc/sim/run-sim diff --git a/misc/sim/treesim-basic.go b/misc/sim/treesim-basic.go deleted file mode 100644 index 8534c9a6..00000000 --- a/misc/sim/treesim-basic.go +++ /dev/null @@ -1,197 +0,0 @@ -package main - -import "fmt" -import "bufio" -import "os" -import "strings" -import "strconv" -import "time" - -import "runtime/pprof" -import "flag" - -import "router" - -//////////////////////////////////////////////////////////////////////////////// - -type Node struct { - nodeID router.NodeID - table router.Table - links []*Node -} - -func (n *Node) init(nodeID router.NodeID) { - n.nodeID = nodeID - n.table.Init(nodeID) - n.links = append(n.links, n) -} - -func linkNodes(m, n *Node) { - for _, o := range m.links { - if o.nodeID == n.nodeID { - // Don't allow duplicates - return - } - } - m.links = append(m.links, n) - n.links = append(n.links, m) -} - -func makeStoreSquareGrid(sideLength int) map[router.NodeID]*Node { - store := make(map[router.NodeID]*Node) - nNodes := sideLength * sideLength - nodeIDs := make([]router.NodeID, 0, nNodes) - // TODO shuffle nodeIDs - for nodeID := 1; nodeID <= nNodes; nodeID++ { - nodeIDs = append(nodeIDs, router.NodeID(nodeID)) - } - for _, nodeID := range nodeIDs { - node := &Node{} - node.init(nodeID) - store[nodeID] = node - } - for idx := 0; idx < nNodes; idx++ { - if (idx % sideLength) != 0 { - linkNodes(store[nodeIDs[idx]], store[nodeIDs[idx-1]]) - } - if idx >= sideLength { - linkNodes(store[nodeIDs[idx]], store[nodeIDs[idx-sideLength]]) - } - } - return store -} - -func loadGraph(path string) map[router.NodeID]*Node { - f, err := os.Open(path) - if err != nil { - panic(err) - } - defer f.Close() - store := make(map[router.NodeID]*Node) - s := bufio.NewScanner(f) - for s.Scan() { - line := s.Text() - nodeIDstrs := strings.Split(line, " ") - nodeIDi0, _ := strconv.Atoi(nodeIDstrs[0]) - nodeIDi1, _ := strconv.Atoi(nodeIDstrs[1]) - nodeID0 := router.NodeID(nodeIDi0) - nodeID1 := router.NodeID(nodeIDi1) - if store[nodeID0] == nil { - node := &Node{} - node.init(nodeID0) - store[nodeID0] = node - } - if store[nodeID1] == nil { - node := &Node{} - node.init(nodeID1) - store[nodeID1] = node - } - linkNodes(store[nodeID0], store[nodeID1]) - } - return store -} - -//////////////////////////////////////////////////////////////////////////////// - -func idleUntilConverged(store map[router.NodeID]*Node) { - timeOfLastChange := 0 - step := 0 - // Idle untl the network has converged - for step-timeOfLastChange < 4*router.TIMEOUT { - step++ - fmt.Println("Step:", step, "--", "last change:", timeOfLastChange) - for _, node := range store { - node.table.Tick() - for idx, link := range node.links[1:] { - msg := node.table.CreateMessage(router.Iface(idx)) - for idx, fromNode := range link.links { - if fromNode == node { - //fmt.Println("Sending from node", node.nodeID, "to", link.nodeID) - link.table.HandleMessage(msg, router.Iface(idx)) - break - } - } - } - } - //for _, node := range store { - // if node.table.DEBUG_isDirty() { timeOfLastChange = step } - //} - //time.Sleep(10*time.Millisecond) - } -} - -func testPaths(store map[router.NodeID]*Node) { - nNodes := len(store) - nodeIDs := make([]router.NodeID, 0, nNodes) - for nodeID := range store { - nodeIDs = append(nodeIDs, nodeID) - } - lookups := 0 - count := 0 - start := time.Now() - for _, source := range store { - count++ - fmt.Printf("Testing paths from node %d / %d (%d)\n", count, nNodes, source.nodeID) - for _, dest := range store { - //if source == dest { continue } - destLoc := dest.table.GetLocator() - temp := 0 - for here := source; here != dest; { - temp++ - if temp > 16 { - panic("Loop?") - } - next := here.links[here.table.Lookup(destLoc)] - if next == here { - //for idx, link := range here.links { - // fmt.Println("DUMP:", idx, link.nodeID) - //} - panic(fmt.Sprintln("Routing Loop:", - source.nodeID, - here.nodeID, - dest.nodeID)) - } - //fmt.Println("DEBUG:", source.nodeID, here.nodeID, dest.nodeID) - here = next - lookups++ - } - } - } - timed := time.Since(start) - fmt.Printf("%f lookups per second\n", float64(lookups)/timed.Seconds()) -} - -func dumpStore(store map[router.NodeID]*Node) { - for _, node := range store { - fmt.Println("DUMPSTORE:", node.nodeID, node.table.GetLocator()) - node.table.DEBUG_dumpTable() - } -} - -//////////////////////////////////////////////////////////////////////////////// - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - fmt.Println("Test") - store := makeStoreSquareGrid(4) - idleUntilConverged(store) - dumpStore(store) - testPaths(store) - //panic("DYING") - store = loadGraph("hype-2016-09-19.list") - idleUntilConverged(store) - dumpStore(store) - testPaths(store) -} diff --git a/misc/sim/treesim-forward.py b/misc/sim/treesim-forward.py deleted file mode 100644 index ae382399..00000000 --- a/misc/sim/treesim-forward.py +++ /dev/null @@ -1,903 +0,0 @@ -# Tree routing scheme (named Yggdrasil, after the world tree from Norse mythology) -# Steps: -# 1: Pick any node, here I'm using highest nodeID -# 2: Build spanning tree, each node stores path back to root -# Optionally with weights for each hop -# Ties broken by preferring a parent with higher degree -# 3: Distance metric: self->peer + (via tree) peer->dest -# 4: Perform (modified) greedy lookup via this metric for each direction (A->B and B->A) -# 5: Source-route traffic using the better of those two paths - -# Note: This makes no attempt to simulate a dynamic network -# E.g. A node's peers cannot be disconnected - -# TODO: -# Make better use of drop? -# In particular, we should be ignoring *all* recently dropped *paths* to the root -# To minimize route flapping -# Not really an issue in the sim, but probably needed for a real network - -import array -import gc -import glob -import gzip -import heapq -import os -import random -import time - -############# -# Constants # -############# - -# Reminder of where link cost comes in -LINK_COST = 1 - -# Timeout before dropping something, in simulated seconds -TIMEOUT = 60 - -########### -# Classes # -########### - -class PathInfo: - def __init__(self, nodeID): - self.nodeID = nodeID # e.g. IP - self.coords = [] # Position in tree - self.tstamp = 0 # Timestamp from sender, to keep track of old vs new info - self.degree = 0 # Number of peers the sender has, used to break ties - # The above should be signed - self.path = [nodeID] # Path to node (in path-vector route) - self.time = 0 # Time info was updated, to keep track of e.g. timeouts - self.treeID = nodeID # Hack, let tree use different ID than IP, used so we can dijkstra once and test many roots - def clone(self): - # Return a deep-enough copy of the path - clone = PathInfo(None) - clone.nodeID = self.nodeID - clone.coords = self.coords[:] - clone.tstamp = self.tstamp - clone.degree = self.degree - clone.path = self.path[:] - clone.time = self.time - clone.treeID = self.treeID - return clone -# End class PathInfo - -class Node: - def __init__(self, nodeID): - self.info = PathInfo(nodeID) # Self NodeInfo - self.root = None # PathInfo to node at root of tree - self.drop = dict() # PathInfo to nodes from clus that have timed out - self.peers = dict() # PathInfo to peers - self.links = dict() # Links to peers (to pass messages) - self.msgs = [] # Said messages - self.table = dict() # Pre-computed lookup table of peer info - - def tick(self): - # Do periodic maintenance stuff, including push updates - self.info.time += 1 - if self.info.time > self.info.tstamp + TIMEOUT/4: - # Update timestamp at least once every 1/4 timeout period - # This should probably be randomized in a real implementation - self.info.tstamp = self.info.time - self.info.degree = 0# TODO decide if degree should be used, len(self.peers) - changed = False # Used to track when the network has converged - changed |= self.cleanRoot() - self.cleanDropped() - # Should probably send messages infrequently if there's nothing new to report - if self.info.tstamp == self.info.time: - msg = self.createMessage() - self.sendMessage(msg) - return changed - - def cleanRoot(self): - changed = False - if self.root and self.info.time - self.root.time > TIMEOUT: - print "DEBUG: clean root,", self.root.path - self.drop[self.root.treeID] = self.root - self.root = None - changed = True - if not self.root or self.root.treeID < self.info.treeID: - # No need to drop someone who'se worse than us - self.info.coords = [self.info.nodeID] - self.root = self.info.clone() - changed = True - elif self.root.treeID == self.info.treeID: - self.root = self.info.clone() - return changed - - def cleanDropped(self): - # May actually be a treeID... better to iterate over keys explicitly - nodeIDs = sorted(self.drop.keys()) - for nodeID in nodeIDs: - node = self.drop[nodeID] - if self.info.time - node.time > 4*TIMEOUT: - del self.drop[nodeID] - return None - - def createMessage(self): - # Message is just a tuple - # First element is the sender - # Second element is the root - # We will .clone() everything during the send operation - msg = (self.info, self.root) - return msg - - def sendMessage(self, msg): - for link in self.links.values(): - newMsg = (msg[0].clone(), msg[1].clone()) - link.msgs.append(newMsg) - return None - - def handleMessages(self): - changed = False - while self.msgs: - changed |= self.handleMessage(self.msgs.pop()) - return changed - - def handleMessage(self, msg): - changed = False - for node in msg: - # Update the path and timestamp for the sender and root info - node.path.append(self.info.nodeID) - node.time = self.info.time - # Update the sender's info in our list of peers - sender = msg[0] - self.peers[sender.nodeID] = sender - # Decide if we want to update the root - root = msg[1] - updateRoot = False - isSameParent = False - isBetterParent = False - if len(self.root.path) > 1 and len(root.path) > 1: - parent = self.peers[self.root.path[-2]] - if parent.nodeID == sender.nodeID: isSameParent = True - if sender.degree > parent.degree: - # This would also be where you check path uptime/reliability/whatever - # All else being equal, we prefer parents with high degree - # We are trusting peers to report degree correctly in this case - # So expect some performance reduction if your peers aren't trustworthy - # (Lies can increase average stretch by a few %) - isBetterParent = True - if self.info.nodeID in root.path[:-1]: pass # No loopy routes allowed - elif root.treeID in self.drop and self.drop[root.treeID].tstamp >= root.tstamp: pass - elif not self.root: updateRoot = True - elif self.root.treeID < root.treeID: updateRoot = True - elif self.root.treeID != root.treeID: pass - elif self.root.tstamp > root.tstamp: pass - elif len(root.path) < len(self.root.path): updateRoot = True - elif isBetterParent and len(root.path) == len(self.root.path): updateRoot = True - elif isSameParent and self.root.tstamp < root.tstamp: updateRoot = True - if updateRoot: - if not self.root or self.root.path != root.path: changed = True - self.root = root - self.info.coords = self.root.path - return changed - - def lookup(self, dest): - # Note: Can loop in an unconverged network - # The person looking up the route is responsible for checking for loops - best = None - bestDist = 0 - for node in self.peers.itervalues(): - # dist = distance to node + dist (on tree) from node to dest - dist = len(node.path)-1 + treeDist(node.coords, dest.coords) - if not best or dist < bestDist: - best = node - bestDist = dist - if best: - next = best.path[-2] - assert next in self.peers - return next - else: - # We failed to look something up - # TODO some way to signal this which doesn't crash - assert False - - def initTable(self): - # Pre-computes a lookup table for destination coords - # Insert parent first so you prefer them as a next-hop - self.table.clear() - parent = self.info.nodeID - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - for peer in self.peers.itervalues(): - current = self.table - for coord in peer.coords: - if coord not in current: current[coord] = (peer.nodeID, dict()) - old = current[coord] - next = old[1] - oldPeer = self.peers[old[0]] - oldDist = len(oldPeer.coords) - oldDeg = oldPeer.degree - newDist = len(peer.coords) - newDeg = peer.degree - # Prefer parent - # Else prefer short distance from root - # If equal distance, prefer high degree - if peer.nodeID == parent: current[coord] = (peer.nodeID, next) - elif newDist < oldDist: current[coord] = (peer.nodeID, next) - elif newDist == oldDist and newDeg > oldDeg: current[coord] = (peer.nodeID, next) - current = next - return None - - def lookup_new(self, dest): - # Use pre-computed lookup table to look up next hop for dest coords - assert self.table - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - else: parent = None - current = (parent, self.table) - c = None - for coord in dest.coords: - c = coord - if coord not in current[1]: break - current = current[1][coord] - next = current[0] - if c in self.peers: next = c - if next not in self.peers: - assert next == None - # You're the root of a different connected component - # You'd drop the packet in this case - # To make the path cache not die, need to return a valid next hop... - # Returning self for that reason - next = self.info.nodeID - return next -# End class Node - -#################### -# Helper Functions # -#################### - -def getIndexOfLCA(source, dest): - # Return index of last common ancestor in source/dest coords - # -1 if no common ancestor (e.g. different roots) - lcaIdx = -1 - minLen = min(len(source), len(dest)) - for idx in xrange(minLen): - if source[idx] == dest[idx]: lcaIdx = idx - else: break - return lcaIdx - -def treePath(source, dest): - # Return path with source at head and dest at tail - lastMatch = getIndexOfLCA(source, dest) - path = dest[-1:lastMatch:-1] + source[lastMatch:] - assert path[0] == dest[-1] - assert path[-1] == source[-1] - return path - -def treeDist(source, dest): - dist = len(source) + len(dest) - lcaIdx = getIndexOfLCA(source, dest) - dist -= 2*(lcaIdx+1) - return dist - -def dijkstra(nodestore, startingNodeID): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes) - queue = [(0, startingNodeID)] - while queue: - dist, nodeID = heapq.heappop(queue) - idx = idxs[nodeID] - if not dists[idx]: # Unvisited, otherwise we skip it - dists[idx] = dist - for peer in nodestore[nodeID].links: - if not dists[idxs[peer]]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, peer)) - return dists - -def dijkstrall(nodestore): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes*nNodes) # use GetCacheIndex(nNodes, start, end) - for sourceIdx in xrange(nNodes): - print "Finding shortest paths for node {} / {} ({})".format(sourceIdx+1, nNodes, nodeIDs[sourceIdx]) - queue = [(0, sourceIdx)] - while queue: - dist, nodeIdx = heapq.heappop(queue) - distIdx = getCacheIndex(nNodes, sourceIdx, nodeIdx) - if not dists[distIdx]: # Unvisited, otherwise we skip it - dists[distIdx] = dist - for peer in nodestore[nodeIDs[nodeIdx]].links: - pIdx = idxs[peer] - pdIdx = getCacheIndex(nNodes, sourceIdx, pIdx) - if not dists[pdIdx]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, pIdx)) - return dists - -def linkNodes(node1, node2): - node1.links[node2.info.nodeID] = node2 - node2.links[node1.info.nodeID] = node1 - -############################ -# Store topology functions # -############################ - -def makeStoreSquareGrid(sideLength, randomize=True): - # Simple grid in a sideLength*sideLength square - # Just used to validate that the code runs - store = dict() - nodeIDs = list(range(sideLength*sideLength)) - if randomize: random.shuffle(nodeIDs) - for nodeID in nodeIDs: - store[nodeID] = Node(nodeID) - for index in xrange(len(nodeIDs)): - if (index % sideLength != 0): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-1]]) - if (index >= sideLength): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-sideLength]]) - print "Grid store created, size {}".format(len(store)) - return store - -def makeStoreASRelGraph(pathToGraph): - #Existing network graphs, in caida.org's asrel format (ASx|ASy|z per line, z denotes relationship type) - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: store[nodes[0]] = Node(nodes[0]) - if nodes[1] not in store: store[nodes[1]] = Node(nodes[1]) - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreASRelGraphMaxDeg(pathToGraph, degIdx=0): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - nodeDeg = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in nodeDeg: nodeDeg[nodes[0]] = 0 - if nodes[1] not in nodeDeg: nodeDeg[nodes[1]] = 0 - nodeDeg[nodes[0]] += 1 - nodeDeg[nodes[1]] += 1 - sortedNodes = sorted(nodeDeg.keys(), \ - key=lambda x: (nodeDeg[x], x), \ - reverse=True) - maxDegNodeID = sortedNodes[degIdx] - return makeStoreASRelGraphFixedRoot(pathToGraph, maxDegNodeID) - -def makeStoreASRelGraphFixedRoot(pathToGraph, rootNodeID): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: - store[nodes[0]] = Node(nodes[0]) - if nodes[0] == rootNodeID: store[nodes[0]].info.treeID += 1000000000 - if nodes[1] not in store: - store[nodes[1]] = Node(nodes[1]) - if nodes[1] == rootNodeID: store[nodes[1]].info.treeID += 1000000000 - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreDimesEdges(pathToGraph, rootNodeID=None): - # Read from a DIMES csv-formatted graph from a gzip file - store = dict() - with gzip.open(pathToGraph, "r") as f: - inData = f.readlines() - size = len(inData) - index = 0 - for edge in inData: - if not index % 1000: - pct = 100.0*index/size - print "Processing edge {}, {:.2f}%".format(index, pct) - index += 1 - dat = edge.rstrip().split(',') - node1 = "N" + str(dat[0].strip()) - node2 = "N" + str(dat[1].strip()) - if '?' in node1 or '?' in node2: continue #Unknown node - if node1 == rootNodeID: node1 = "R" + str(dat[0].strip()) - if node2 == rootNodeID: node2 = "R" + str(dat[1].strip()) - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - if node1 != node2: linkNodes(store[node1], store[node2]) - print "DIMES graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreGeneratedGraph(pathToGraph, root=None): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - nodes = map(int, line.strip().split(' ')[0:2]) - node1 = nodes[0] - node2 = nodes[1] - if node1 == root: node1 += 1000000 - if node2 == root: node2 += 1000000 - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - linkNodes(store[node1], store[node2]) - print "Generated graph successfully imported, size {}".format(len(store)) - return store - - -############################################ -# Functions used as parts of network tests # -############################################ - -def idleUntilConverged(store): - nodeIDs = sorted(store.keys()) - timeOfLastChange = 0 - step = 0 - # Idle until the network has converged - while step - timeOfLastChange < 4*TIMEOUT: - step += 1 - print "Step: {}, last change: {}".format(step, timeOfLastChange) - changed = False - for nodeID in nodeIDs: - # Update node status, send messages - changed |= store[nodeID].tick() - for nodeID in nodeIDs: - # Process messages - changed |= store[nodeID].handleMessages() - if changed: timeOfLastChange = step - initTables(store) - return store - -def getCacheIndex(nodes, sourceIndex, destIndex): - return sourceIndex*nodes + destIndex - -def initTables(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - print "Initializing routing tables for {} nodes".format(nNodes) - for idx in xrange(nNodes): - nodeID = nodeIDs[idx] - store[nodeID].initTable() - print "Routing tables initialized" - return None - -def getCache(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - nodeIdxs = dict() - for nodeIdx in xrange(nNodes): - nodeIdxs[nodeIDs[nodeIdx]] = nodeIdx - cache = array.array("H", [0]*nNodes*nNodes) - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Building fast lookup table for node {} / {} ({})".format(sourceIdx+1, nNodes, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if sourceID == destID: nextHop = destID # lookup would fail - else: nextHop = store[sourceID].lookup(store[destID].info) - nextHopIdx = nodeIdxs[nextHop] - cache[getCacheIndex(nNodes, sourceIdx, destIdx)] = nextHopIdx - return cache - -def testPaths(store, dists): - cache = getCache(store) - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - results = dict() - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Testing paths from node {} / {} ({})".format(sourceIdx+1, len(nodeIDs), sourceID) - #dists = dijkstra(store, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if destID == sourceID: continue # Skip self - distIdx = getCacheIndex(nNodes, sourceIdx, destIdx) - eHops = dists[distIdx] - if not eHops: continue # The network is split, no path exists - hops = 0 - for pair in ((sourceIdx, destIdx),): - nHops = 0 - locIdx = pair[0] - dIdx = pair[1] - while locIdx != dIdx: - locIdx = cache[getCacheIndex(nNodes, locIdx, dIdx)] - nHops += 1 - if not hops or nHops < hops: hops = nHops - if eHops not in results: results[eHops] = dict() - if hops not in results[eHops]: results[eHops][hops] = 0 - results[eHops][hops] += 1 - return results - -def getAvgStretch(pathMatrix): - avgStretch = 0. - checked = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - stretch = float(nHops)/float(max(1, eHops)) - avgStretch += stretch*count - checked += count - avgStretch /= max(1, checked) - return avgStretch - -def getMaxStretch(pathMatrix): - maxStretch = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - stretch = float(nHops)/float(max(1, eHops)) - maxStretch = max(maxStretch, stretch) - return maxStretch - -def getCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - sizes = dict() - for node in store.values(): - certs = set() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - certs.add(cert) - size = len(certs) - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getMinLinkCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - # Based on the minimum number of certs that must be traded through a particular link - # Handled per link - sizes = dict() - for node in store.values(): - peerCerts = dict() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - pCerts.add(cert) - peerCerts[peer.nodeID] = pCerts - for peer in peerCerts: - size = 0 - pCerts = peerCerts[peer] - for cert in pCerts: - required = True - for p2 in peerCerts: - if p2 == peer: continue - p2Certs = peerCerts[p2] - if cert in p2Certs: required = False - if required: size += 1 - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPathSizes(store): - # Returns frequency distribution of the total number of hops the routing table - # I.e. a node with 3 peers, each with 5 hop coord+path, would count as 3x5=15 - sizes = dict() - for node in store.values(): - size = 0 - for peer in node.peers.values(): - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - peerSize = len(peer.coords) + len(peer.path) - 1 # double-counts peer, -1 - size += peerSize - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPeerSizes(store): - # Returns frequency distribution of the number of peers each node has - sizes = dict() - for node in store.values(): - nPeers = len(node.peers) - if nPeers not in sizes: sizes[nPeers] = 0 - sizes[nPeers] += 1 - return sizes - -def getAvgSize(sizes): - sumSizes = 0 - nNodes = 0 - for size in sizes: - count = sizes[size] - sumSizes += size*count - nNodes += count - avgSize = float(sumSizes)/max(1, nNodes) - return avgSize - -def getMaxSize(sizes): - return max(sizes.keys()) - -def getMinSize(sizes): - return min(sizes.keys()) - -def getResults(pathMatrix): - results = [] - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - results.append("{} {} {}".format(eHops, nHops, count)) - return '\n'.join(results) - -#################################### -# Functions to run different tests # -#################################### - -def runTest(store): - # Runs the usual set of tests on the store - # Does not save results, so only meant for quick tests - # To e.g. check the code works, maybe warm up the pypy jit - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Begin testing network" - dists = None - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - peers = getPeerSizes(store) - certs = getCertSizes(store) - paths = getPathSizes(store) - linkCerts = getMinLinkCertSizes(store) - avgPeerSize = getAvgSize(peers) - maxPeerSize = getMaxSize(peers) - avgCertSize = getAvgSize(certs) - maxCertSize = getMaxSize(certs) - avgPathSize = getAvgSize(paths) - maxPathSize = getMaxSize(paths) - avgLinkCert = getAvgSize(linkCerts) - maxLinkCert = getMaxSize(linkCerts) - totalCerts = sum(map(lambda x: x*certs[x], certs.keys())) - totalLinks = sum(map(lambda x: x*peers[x], peers.keys())) # one-way links - avgCertsPerLink = float(totalCerts)/max(1, totalLinks) - print "Finished testing network" - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - print "Avg / Max nPeers size: {} / {}".format(avgPeerSize, maxPeerSize) - print "Avg / Max nCerts size: {} / {}".format(avgCertSize, maxCertSize) - print "Avg / Max total hops in any node's routing table: {} / {}".format(avgPathSize, maxPathSize) - print "Avg / Max lower bound cert requests per link (one-way): {} / {}".format(avgLinkCert, maxLinkCert) - print "Avg certs per link (one-way): {}".format(avgCertsPerLink) - return # End of function - -def rootNodeASTest(path, outDir="output-treesim-AS", dists=None, proc = 1): - # Checks performance for every possible choice of root node - # Saves output for each root node to a separate file on disk - # path = input path to some caida.org formatted AS-relationship graph - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - store = makeStoreASRelGraph(path) - nodes = sorted(store.keys()) - for nodeIdx in xrange(len(nodes)): - if nodeIdx % proc != 0: continue # Work belongs to someone else - rootNodeID = nodes[nodeIdx] - outpath = outDir+"/{}".format(rootNodeID) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(rootNodeID) - continue - store = makeStoreASRelGraphFixedRoot(path, rootNodeID) - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(nodeIdx, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished test for root AS {} ({} / {})".format(rootNodeID, nodeIdx+1, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineASTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-AS" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("asrel/datasets/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(date) - continue - store = makeStoreASRelGraphMaxDeg(path) - dists = None - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineDimesTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-dimes" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - # Input files are named ASEdgesX_Y where X = month (no leading 0), Y = year - paths = sorted(glob.glob("DIMES/ASEdges/*.gz")) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if outpath in exists: - print "Skipping {}, already processed".format(date) - continue - store = makeStoreDimesEdges(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys()) - bestRoot = "" - bestDeg = 0 - for nodeID in nodeIDs: - node = store[nodeID] - if len(node.links) > bestDeg: - bestRoot = nodeID - bestDeg = len(node.links) - assert bestRoot - store = makeStoreDimesEdges(path, bestRoot) - rootID = "R" + bestRoot[1:] - assert rootID in store - # Don't forget to set random seed before setitng times - # To make results reproducible - nodeIDs = sorted(store.keys()) - random.seed(12345) - for nodeID in nodeIDs: - node = store[nodeID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - break # Stop after 1, because they can take forever - return # End of function - -def scalingTest(maxTests=None, inputDir="graphs"): - # Meant to study the performance of the network as a function of network size - # Loops over a set of nodes in a previously generated graph - # Runs a test on each graph, testing each node as the root - # if maxTests is set, tests only that number of roots (highest degree first) - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-{}".format(inputDir) - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("{}/*".format(inputDir))) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - gc.collect() # pypy waits for gc to close files - graph = os.path.basename(path).split(".")[0] - store = makeStoreGeneratedGraph(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys(), key=lambda x: len(store[x].links), reverse=True) - dists = None - if maxTests: nodeIDs = nodeIDs[:maxTests] - for nodeID in nodeIDs: - nodeIDStr = str(nodeID).zfill(len(str(len(store)-1))) - outpath = outDir+"/{}-{}".format(graph, nodeIDStr) - if outpath in exists: - print "Skipping {}-{}, already processed".format(graph, nodeIDStr) - continue - store = makeStoreGeneratedGraph(path, nodeID) - # Don't forget to set random seed before setting times - random.seed(12345) # To make results reproducible - nIDs = sorted(store.keys()) - for nID in nIDs: - node = store[nID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(graph, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes for root {}".format(graph, len(store), nodeID) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - return # End of function - -################## -# Main Execution # -################## - -if __name__ == "__main__": - if True: # Run a quick test - random.seed(12345) # DEBUG - store = makeStoreSquareGrid(4) - runTest(store) # Quick test - store = None - # Do some real work - #runTest(makeStoreDimesEdges("DIMES/ASEdges/ASEdges1_2007.csv.gz")) - #timelineDimesTest() - #rootNodeASTest("asrel/datasets/19980101.as-rel.txt") - #timelineASTest() - #rootNodeASTest("hype-2016-09-19.list", "output-treesim-hype") - #scalingTest(None, "graphs-20") # First argument 1 to only test 1 root per graph - #store = makeStoreGeneratedGraph("bgp_tables") - #store = makeStoreGeneratedGraph("skitter") - #store = makeStoreASRelGraphMaxDeg("hype-2016-09-19.list") #http://hia.cjdns.ca/watchlist/c/walk.peers.20160919 - #store = makeStoreGeneratedGraph("fc00-2017-08-12.txt") - if store: runTest(store) - #rootNodeASTest("skitter", "output-treesim-skitter", None, 0, 1) - #scalingTest(1, "graphs-20") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-21") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-22") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-23") # First argument 1 to only test 1 root per graph - if not store: - import sys - args = sys.argv - if len(args) == 2: - job_number = int(sys.argv[1]) - #rootNodeASTest("fc00-2017-08-12.txt", "fc00", None, job_number) - #rootNodeASTest("skitter", "out-skitter", None, job_number) - rootNodeASTest("walk-1517414401.txt.map", "out-walk", None, job_number) - else: - print "Usage: {} job_number".format(args[0]) - print "job_number = which job set to run on this node (1-indexed)" - diff --git a/misc/sim/treesim-source-degree.py b/misc/sim/treesim-source-degree.py deleted file mode 100644 index d6a3bfec..00000000 --- a/misc/sim/treesim-source-degree.py +++ /dev/null @@ -1,907 +0,0 @@ -# Tree routing scheme (named Yggdrasil, after the world tree from Norse mythology) -# Steps: -# 1: Pick any node, here I'm using highest nodeID -# 2: Build spanning tree, each node stores path back to root -# Optionally with weights for each hop -# Ties broken by preferring a parent with higher degree -# 3: Distance metric: self->peer + (via tree) peer->dest -# 4: Perform (modified) greedy lookup via this metric for each direction (A->B and B->A) -# 5: Source-route traffic using the better of those two paths - -# Note: This makes no attempt to simulate a dynamic network -# E.g. A node's peers cannot be disconnected - -# TODO: -# Make better use of drop? -# In particular, we should be ignoring *all* recently dropped *paths* to the root -# To minimize route flapping -# Not really an issue in the sim, but probably needed for a real network - -import array -import gc -import glob -import gzip -import heapq -import os -import random -import time - -############# -# Constants # -############# - -# Reminder of where link cost comes in -LINK_COST = 1 - -# Timeout before dropping something, in simulated seconds -TIMEOUT = 60 - -########### -# Classes # -########### - -class PathInfo: - def __init__(self, nodeID): - self.nodeID = nodeID # e.g. IP - self.coords = [] # Position in tree - self.tstamp = 0 # Timestamp from sender, to keep track of old vs new info - self.degree = 0 # Number of peers the sender has, used to break ties - # The above should be signed - self.path = [nodeID] # Path to node (in path-vector route) - self.time = 0 # Time info was updated, to keep track of e.g. timeouts - self.treeID = nodeID # Hack, let tree use different ID than IP, used so we can dijkstra once and test many roots - def clone(self): - # Return a deep-enough copy of the path - clone = PathInfo(None) - clone.nodeID = self.nodeID - clone.coords = self.coords[:] - clone.tstamp = self.tstamp - clone.degree = self.degree - clone.path = self.path[:] - clone.time = self.time - clone.treeID = self.treeID - return clone -# End class PathInfo - -class Node: - def __init__(self, nodeID): - self.info = PathInfo(nodeID) # Self NodeInfo - self.root = None # PathInfo to node at root of tree - self.drop = dict() # PathInfo to nodes from clus that have timed out - self.peers = dict() # PathInfo to peers - self.links = dict() # Links to peers (to pass messages) - self.msgs = [] # Said messages - self.table = dict() # Pre-computed lookup table of peer info - - def tick(self): - # Do periodic maintenance stuff, including push updates - self.info.time += 1 - if self.info.time > self.info.tstamp + TIMEOUT/4: - # Update timestamp at least once every 1/4 timeout period - # This should probably be randomized in a real implementation - self.info.tstamp = self.info.time - self.info.degree = len(self.peers) - #self.info.degree = 0# TODO decide if degree should be used - changed = False # Used to track when the network has converged - changed |= self.cleanRoot() - self.cleanDropped() - # Should probably send messages infrequently if there's nothing new to report - if self.info.tstamp == self.info.time: - msg = self.createMessage() - self.sendMessage(msg) - return changed - - def cleanRoot(self): - changed = False - if self.root and self.info.time - self.root.time > TIMEOUT: - print "DEBUG: clean root,", self.root.path - self.drop[self.root.treeID] = self.root - self.root = None - changed = True - if not self.root or self.root.treeID < self.info.treeID: - # No need to drop someone who'se worse than us - self.info.coords = [self.info.nodeID] - self.root = self.info.clone() - changed = True - elif self.root.treeID == self.info.treeID: - self.root = self.info.clone() - return changed - - def cleanDropped(self): - # May actually be a treeID... better to iterate over keys explicitly - nodeIDs = sorted(self.drop.keys()) - for nodeID in nodeIDs: - node = self.drop[nodeID] - if self.info.time - node.time > 4*TIMEOUT: - del self.drop[nodeID] - return None - - def createMessage(self): - # Message is just a tuple - # First element is the sender - # Second element is the root - # We will .clone() everything during the send operation - msg = (self.info, self.root) - return msg - - def sendMessage(self, msg): - for link in self.links.values(): - newMsg = (msg[0].clone(), msg[1].clone()) - link.msgs.append(newMsg) - return None - - def handleMessages(self): - changed = False - while self.msgs: - changed |= self.handleMessage(self.msgs.pop()) - return changed - - def handleMessage(self, msg): - changed = False - for node in msg: - # Update the path and timestamp for the sender and root info - node.path.append(self.info.nodeID) - node.time = self.info.time - # Update the sender's info in our list of peers - sender = msg[0] - self.peers[sender.nodeID] = sender - # Decide if we want to update the root - root = msg[1] - updateRoot = False - isSameParent = False - isBetterParent = False - if len(self.root.path) > 1 and len(root.path) > 1: - parent = self.peers[self.root.path[-2]] - if parent.nodeID == sender.nodeID: isSameParent = True - if sender.degree > parent.degree: - # This would also be where you check path uptime/reliability/whatever - # All else being equal, we prefer parents with high degree - # We are trusting peers to report degree correctly in this case - # So expect some performance reduction if your peers aren't trustworthy - # (Lies can increase average stretch by a few %) - isBetterParent = True - if self.info.nodeID in root.path[:-1]: pass # No loopy routes allowed - elif root.treeID in self.drop and self.drop[root.treeID].tstamp >= root.tstamp: pass - elif not self.root: updateRoot = True - elif self.root.treeID < root.treeID: updateRoot = True - elif self.root.treeID != root.treeID: pass - elif self.root.tstamp > root.tstamp: pass - elif len(root.path) < len(self.root.path): updateRoot = True - elif isBetterParent and len(root.path) == len(self.root.path): updateRoot = True - elif isSameParent and self.root.tstamp < root.tstamp: updateRoot = True - if updateRoot: - if not self.root or self.root.path != root.path: changed = True - self.root = root - self.info.coords = self.root.path - return changed - - def lookup(self, dest): - # Note: Can loop in an unconverged network - # The person looking up the route is responsible for checking for loops - best = None - bestDist = 0 - bestDeg = 0 - for node in self.peers.itervalues(): - # dist = distance to node + dist (on tree) from node to dest - dist = len(node.path)-1 + treeDist(node.coords, dest.coords) - deg = node.degree - if not best or dist < bestDist or (best == bestDist and deg > bestDeg): - best = node - bestDist = dist - bestDeg = deg - if best: - next = best.path[-2] - assert next in self.peers - return next - else: - # We failed to look something up - # TODO some way to signal this which doesn't crash - assert False - - def initTable(self): - # Pre-computes a lookup table for destination coords - # Insert parent first so you prefer them as a next-hop - self.table.clear() - parent = self.info.nodeID - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - for peer in self.peers.itervalues(): - current = self.table - for coord in peer.coords: - if coord not in current: current[coord] = (peer.nodeID, dict()) - old = current[coord] - next = old[1] - oldPeer = self.peers[old[0]] - oldDist = len(oldPeer.coords) - oldDeg = oldPeer.degree - newDist = len(peer.coords) - newDeg = peer.degree - # Prefer parent - # Else prefer short distance from root - # If equal distance, prefer high degree - if peer.nodeID == parent: current[coord] = (peer.nodeID, next) - elif newDist < oldDist: current[coord] = (peer.nodeID, next) - elif newDist == oldDist and newDeg > oldDeg: current[coord] = (peer.nodeID, next) - current = next - return None - - def lookup_new(self, dest): - # Use pre-computed lookup table to look up next hop for dest coords - assert self.table - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - else: parent = None - current = (parent, self.table) - c = None - for coord in dest.coords: - c = coord - if coord not in current[1]: break - current = current[1][coord] - next = current[0] - if c in self.peers: next = c - if next not in self.peers: - assert next == None - # You're the root of a different connected component - # You'd drop the packet in this case - # To make the path cache not die, need to return a valid next hop... - # Returning self for that reason - next = self.info.nodeID - return next -# End class Node - -#################### -# Helper Functions # -#################### - -def getIndexOfLCA(source, dest): - # Return index of last common ancestor in source/dest coords - # -1 if no common ancestor (e.g. different roots) - lcaIdx = -1 - minLen = min(len(source), len(dest)) - for idx in xrange(minLen): - if source[idx] == dest[idx]: lcaIdx = idx - else: break - return lcaIdx - -def treePath(source, dest): - # Return path with source at head and dest at tail - lastMatch = getIndexOfLCA(source, dest) - path = dest[-1:lastMatch:-1] + source[lastMatch:] - assert path[0] == dest[-1] - assert path[-1] == source[-1] - return path - -def treeDist(source, dest): - dist = len(source) + len(dest) - lcaIdx = getIndexOfLCA(source, dest) - dist -= 2*(lcaIdx+1) - return dist - -def dijkstra(nodestore, startingNodeID): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes) - queue = [(0, startingNodeID)] - while queue: - dist, nodeID = heapq.heappop(queue) - idx = idxs[nodeID] - if not dists[idx]: # Unvisited, otherwise we skip it - dists[idx] = dist - for peer in nodestore[nodeID].links: - if not dists[idxs[peer]]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, peer)) - return dists - -def dijkstrall(nodestore): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes*nNodes) # use GetCacheIndex(nNodes, start, end) - for sourceIdx in xrange(nNodes): - print "Finding shortest paths for node {} / {} ({})".format(sourceIdx+1, nNodes, nodeIDs[sourceIdx]) - queue = [(0, sourceIdx)] - while queue: - dist, nodeIdx = heapq.heappop(queue) - distIdx = getCacheIndex(nNodes, sourceIdx, nodeIdx) - if not dists[distIdx]: # Unvisited, otherwise we skip it - dists[distIdx] = dist - for peer in nodestore[nodeIDs[nodeIdx]].links: - pIdx = idxs[peer] - pdIdx = getCacheIndex(nNodes, sourceIdx, pIdx) - if not dists[pdIdx]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, pIdx)) - return dists - -def linkNodes(node1, node2): - node1.links[node2.info.nodeID] = node2 - node2.links[node1.info.nodeID] = node1 - -############################ -# Store topology functions # -############################ - -def makeStoreSquareGrid(sideLength, randomize=True): - # Simple grid in a sideLength*sideLength square - # Just used to validate that the code runs - store = dict() - nodeIDs = list(range(sideLength*sideLength)) - if randomize: random.shuffle(nodeIDs) - for nodeID in nodeIDs: - store[nodeID] = Node(nodeID) - for index in xrange(len(nodeIDs)): - if (index % sideLength != 0): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-1]]) - if (index >= sideLength): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-sideLength]]) - print "Grid store created, size {}".format(len(store)) - return store - -def makeStoreASRelGraph(pathToGraph): - #Existing network graphs, in caida.org's asrel format (ASx|ASy|z per line, z denotes relationship type) - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: store[nodes[0]] = Node(nodes[0]) - if nodes[1] not in store: store[nodes[1]] = Node(nodes[1]) - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreASRelGraphMaxDeg(pathToGraph, degIdx=0): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - nodeDeg = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in nodeDeg: nodeDeg[nodes[0]] = 0 - if nodes[1] not in nodeDeg: nodeDeg[nodes[1]] = 0 - nodeDeg[nodes[0]] += 1 - nodeDeg[nodes[1]] += 1 - sortedNodes = sorted(nodeDeg.keys(), \ - key=lambda x: (nodeDeg[x], x), \ - reverse=True) - maxDegNodeID = sortedNodes[degIdx] - return makeStoreASRelGraphFixedRoot(pathToGraph, maxDegNodeID) - -def makeStoreASRelGraphFixedRoot(pathToGraph, rootNodeID): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: - store[nodes[0]] = Node(nodes[0]) - if nodes[0] == rootNodeID: store[nodes[0]].info.treeID += 1000000000 - if nodes[1] not in store: - store[nodes[1]] = Node(nodes[1]) - if nodes[1] == rootNodeID: store[nodes[1]].info.treeID += 1000000000 - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreDimesEdges(pathToGraph, rootNodeID=None): - # Read from a DIMES csv-formatted graph from a gzip file - store = dict() - with gzip.open(pathToGraph, "r") as f: - inData = f.readlines() - size = len(inData) - index = 0 - for edge in inData: - if not index % 1000: - pct = 100.0*index/size - print "Processing edge {}, {:.2f}%".format(index, pct) - index += 1 - dat = edge.rstrip().split(',') - node1 = "N" + str(dat[0].strip()) - node2 = "N" + str(dat[1].strip()) - if '?' in node1 or '?' in node2: continue #Unknown node - if node1 == rootNodeID: node1 = "R" + str(dat[0].strip()) - if node2 == rootNodeID: node2 = "R" + str(dat[1].strip()) - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - if node1 != node2: linkNodes(store[node1], store[node2]) - print "DIMES graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreGeneratedGraph(pathToGraph, root=None): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - nodes = map(int, line.strip().split(' ')[0:2]) - node1 = nodes[0] - node2 = nodes[1] - if node1 == root: node1 += 1000000 - if node2 == root: node2 += 1000000 - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - linkNodes(store[node1], store[node2]) - print "Generated graph successfully imported, size {}".format(len(store)) - return store - - -############################################ -# Functions used as parts of network tests # -############################################ - -def idleUntilConverged(store): - nodeIDs = sorted(store.keys()) - timeOfLastChange = 0 - step = 0 - # Idle until the network has converged - while step - timeOfLastChange < 4*TIMEOUT: - step += 1 - print "Step: {}, last change: {}".format(step, timeOfLastChange) - changed = False - for nodeID in nodeIDs: - # Update node status, send messages - changed |= store[nodeID].tick() - for nodeID in nodeIDs: - # Process messages - changed |= store[nodeID].handleMessages() - if changed: timeOfLastChange = step - initTables(store) - return store - -def getCacheIndex(nodes, sourceIndex, destIndex): - return sourceIndex*nodes + destIndex - -def initTables(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - print "Initializing routing tables for {} nodes".format(nNodes) - for idx in xrange(nNodes): - nodeID = nodeIDs[idx] - store[nodeID].initTable() - print "Routing tables initialized" - return None - -def getCache(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - nodeIdxs = dict() - for nodeIdx in xrange(nNodes): - nodeIdxs[nodeIDs[nodeIdx]] = nodeIdx - cache = array.array("H", [0]*nNodes*nNodes) - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Building fast lookup table for node {} / {} ({})".format(sourceIdx+1, nNodes, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if sourceID == destID: nextHop = destID # lookup would fail - else: nextHop = store[sourceID].lookup(store[destID].info) - nextHopIdx = nodeIdxs[nextHop] - cache[getCacheIndex(nNodes, sourceIdx, destIdx)] = nextHopIdx - return cache - -def testPaths(store, dists): - cache = getCache(store) - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - results = dict() - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Testing paths from node {} / {} ({})".format(sourceIdx+1, len(nodeIDs), sourceID) - #dists = dijkstra(store, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if destID == sourceID: continue # Skip self - distIdx = getCacheIndex(nNodes, sourceIdx, destIdx) - eHops = dists[distIdx] - if not eHops: continue # The network is split, no path exists - hops = 0 - for pair in ((sourceIdx, destIdx), (destIdx, sourceIdx)): # Either direction because source routing - nHops = 0 - locIdx = pair[0] - dIdx = pair[1] - while locIdx != dIdx: - locIdx = cache[getCacheIndex(nNodes, locIdx, dIdx)] - nHops += 1 - if not hops or nHops < hops: hops = nHops - if eHops not in results: results[eHops] = dict() - if hops not in results[eHops]: results[eHops][hops] = 0 - results[eHops][hops] += 1 - return results - -def getAvgStretch(pathMatrix): - avgStretch = 0. - checked = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - stretch = float(nHops)/float(max(1, eHops)) - avgStretch += stretch*count - checked += count - avgStretch /= max(1, checked) - return avgStretch - -def getMaxStretch(pathMatrix): - maxStretch = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - stretch = float(nHops)/float(max(1, eHops)) - maxStretch = max(maxStretch, stretch) - return maxStretch - -def getCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - sizes = dict() - for node in store.values(): - certs = set() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - certs.add(cert) - size = len(certs) - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getMinLinkCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - # Based on the minimum number of certs that must be traded through a particular link - # Handled per link - sizes = dict() - for node in store.values(): - peerCerts = dict() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - pCerts.add(cert) - peerCerts[peer.nodeID] = pCerts - for peer in peerCerts: - size = 0 - pCerts = peerCerts[peer] - for cert in pCerts: - required = True - for p2 in peerCerts: - if p2 == peer: continue - p2Certs = peerCerts[p2] - if cert in p2Certs: required = False - if required: size += 1 - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPathSizes(store): - # Returns frequency distribution of the total number of hops the routing table - # I.e. a node with 3 peers, each with 5 hop coord+path, would count as 3x5=15 - sizes = dict() - for node in store.values(): - size = 0 - for peer in node.peers.values(): - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - peerSize = len(peer.coords) + len(peer.path) - 1 # double-counts peer, -1 - size += peerSize - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPeerSizes(store): - # Returns frequency distribution of the number of peers each node has - sizes = dict() - for node in store.values(): - nPeers = len(node.peers) - if nPeers not in sizes: sizes[nPeers] = 0 - sizes[nPeers] += 1 - return sizes - -def getAvgSize(sizes): - sumSizes = 0 - nNodes = 0 - for size in sizes: - count = sizes[size] - sumSizes += size*count - nNodes += count - avgSize = float(sumSizes)/max(1, nNodes) - return avgSize - -def getMaxSize(sizes): - return max(sizes.keys()) - -def getMinSize(sizes): - return min(sizes.keys()) - -def getResults(pathMatrix): - results = [] - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - results.append("{} {} {}".format(eHops, nHops, count)) - return '\n'.join(results) - -#################################### -# Functions to run different tests # -#################################### - -def runTest(store): - # Runs the usual set of tests on the store - # Does not save results, so only meant for quick tests - # To e.g. check the code works, maybe warm up the pypy jit - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Begin testing network" - dists = None - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - peers = getPeerSizes(store) - certs = getCertSizes(store) - paths = getPathSizes(store) - linkCerts = getMinLinkCertSizes(store) - avgPeerSize = getAvgSize(peers) - maxPeerSize = getMaxSize(peers) - avgCertSize = getAvgSize(certs) - maxCertSize = getMaxSize(certs) - avgPathSize = getAvgSize(paths) - maxPathSize = getMaxSize(paths) - avgLinkCert = getAvgSize(linkCerts) - maxLinkCert = getMaxSize(linkCerts) - totalCerts = sum(map(lambda x: x*certs[x], certs.keys())) - totalLinks = sum(map(lambda x: x*peers[x], peers.keys())) # one-way links - avgCertsPerLink = float(totalCerts)/max(1, totalLinks) - print "Finished testing network" - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - print "Avg / Max nPeers size: {} / {}".format(avgPeerSize, maxPeerSize) - print "Avg / Max nCerts size: {} / {}".format(avgCertSize, maxCertSize) - print "Avg / Max total hops in any node's routing table: {} / {}".format(avgPathSize, maxPathSize) - print "Avg / Max lower bound cert requests per link (one-way): {} / {}".format(avgLinkCert, maxLinkCert) - print "Avg certs per link (one-way): {}".format(avgCertsPerLink) - return # End of function - -def rootNodeASTest(path, outDir="output-treesim-AS", dists=None, proc = 1): - # Checks performance for every possible choice of root node - # Saves output for each root node to a separate file on disk - # path = input path to some caida.org formatted AS-relationship graph - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - store = makeStoreASRelGraph(path) - nodes = sorted(store.keys()) - for nodeIdx in xrange(len(nodes)): - if nodeIdx % proc != 0: continue # Work belongs to someone else - rootNodeID = nodes[nodeIdx] - outpath = outDir+"/{}".format(rootNodeID) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(rootNodeID) - continue - store = makeStoreASRelGraphFixedRoot(path, rootNodeID) - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(nodeIdx, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished test for root AS {} ({} / {})".format(rootNodeID, nodeIdx+1, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineASTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-AS" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("asrel/datasets/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(date) - continue - store = makeStoreASRelGraphMaxDeg(path) - dists = None - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineDimesTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-dimes" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - # Input files are named ASEdgesX_Y where X = month (no leading 0), Y = year - paths = sorted(glob.glob("DIMES/ASEdges/*.gz")) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if outpath in exists: - print "Skipping {}, already processed".format(date) - continue - store = makeStoreDimesEdges(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys()) - bestRoot = "" - bestDeg = 0 - for nodeID in nodeIDs: - node = store[nodeID] - if len(node.links) > bestDeg: - bestRoot = nodeID - bestDeg = len(node.links) - assert bestRoot - store = makeStoreDimesEdges(path, bestRoot) - rootID = "R" + bestRoot[1:] - assert rootID in store - # Don't forget to set random seed before setitng times - # To make results reproducible - nodeIDs = sorted(store.keys()) - random.seed(12345) - for nodeID in nodeIDs: - node = store[nodeID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - break # Stop after 1, because they can take forever - return # End of function - -def scalingTest(maxTests=None, inputDir="graphs"): - # Meant to study the performance of the network as a function of network size - # Loops over a set of nodes in a previously generated graph - # Runs a test on each graph, testing each node as the root - # if maxTests is set, tests only that number of roots (highest degree first) - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-{}".format(inputDir) - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("{}/*".format(inputDir))) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - gc.collect() # pypy waits for gc to close files - graph = os.path.basename(path).split(".")[0] - store = makeStoreGeneratedGraph(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys(), key=lambda x: len(store[x].links), reverse=True) - dists = None - if maxTests: nodeIDs = nodeIDs[:maxTests] - for nodeID in nodeIDs: - nodeIDStr = str(nodeID).zfill(len(str(len(store)-1))) - outpath = outDir+"/{}-{}".format(graph, nodeIDStr) - if outpath in exists: - print "Skipping {}-{}, already processed".format(graph, nodeIDStr) - continue - store = makeStoreGeneratedGraph(path, nodeID) - # Don't forget to set random seed before setting times - random.seed(12345) # To make results reproducible - nIDs = sorted(store.keys()) - for nID in nIDs: - node = store[nID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(graph, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes for root {}".format(graph, len(store), nodeID) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - return # End of function - -################## -# Main Execution # -################## - -if __name__ == "__main__": - if True: # Run a quick test - random.seed(12345) # DEBUG - store = makeStoreSquareGrid(4) - runTest(store) # Quick test - store = None - # Do some real work - #runTest(makeStoreDimesEdges("DIMES/ASEdges/ASEdges1_2007.csv.gz")) - #timelineDimesTest() - #rootNodeASTest("asrel/datasets/19980101.as-rel.txt") - #timelineASTest() - #rootNodeASTest("hype-2016-09-19.list", "output-treesim-hype") - #scalingTest(None, "graphs-20") # First argument 1 to only test 1 root per graph - #store = makeStoreGeneratedGraph("bgp_tables") - #store = makeStoreGeneratedGraph("skitter") - #store = makeStoreASRelGraphMaxDeg("hype-2016-09-19.list") #http://hia.cjdns.ca/watchlist/c/walk.peers.20160919 - #store = makeStoreGeneratedGraph("fc00-2017-08-12.txt") - if store: runTest(store) - #rootNodeASTest("skitter", "output-treesim-skitter", None, 0, 1) - #scalingTest(1, "graphs-20") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-21") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-22") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-23") # First argument 1 to only test 1 root per graph - if not store: - import sys - args = sys.argv - if len(args) == 2: - job_number = int(sys.argv[1]) - #rootNodeASTest("fc00-2017-08-12.txt", "fc00", None, job_number) - #rootNodeASTest("skitter", "out-skitter", None, job_number) - rootNodeASTest("walk-1517414401.txt.map", "out-walk", None, job_number) - else: - print "Usage: {} job_number".format(args[0]) - print "job_number = which job set to run on this node (1-indexed)" - diff --git a/misc/sim/treesim-source.py b/misc/sim/treesim-source.py deleted file mode 100644 index 14cd46c5..00000000 --- a/misc/sim/treesim-source.py +++ /dev/null @@ -1,907 +0,0 @@ -# Tree routing scheme (named Yggdrasil, after the world tree from Norse mythology) -# Steps: -# 1: Pick any node, here I'm using highest nodeID -# 2: Build spanning tree, each node stores path back to root -# Optionally with weights for each hop -# Ties broken by preferring a parent with higher degree -# 3: Distance metric: self->peer + (via tree) peer->dest -# 4: Perform (modified) greedy lookup via this metric for each direction (A->B and B->A) -# 5: Source-route traffic using the better of those two paths - -# Note: This makes no attempt to simulate a dynamic network -# E.g. A node's peers cannot be disconnected - -# TODO: -# Make better use of drop? -# In particular, we should be ignoring *all* recently dropped *paths* to the root -# To minimize route flapping -# Not really an issue in the sim, but probably needed for a real network - -import array -import gc -import glob -import gzip -import heapq -import os -import random -import time - -############# -# Constants # -############# - -# Reminder of where link cost comes in -LINK_COST = 1 - -# Timeout before dropping something, in simulated seconds -TIMEOUT = 60 - -########### -# Classes # -########### - -class PathInfo: - def __init__(self, nodeID): - self.nodeID = nodeID # e.g. IP - self.coords = [] # Position in tree - self.tstamp = 0 # Timestamp from sender, to keep track of old vs new info - self.degree = 0 # Number of peers the sender has, used to break ties - # The above should be signed - self.path = [nodeID] # Path to node (in path-vector route) - self.time = 0 # Time info was updated, to keep track of e.g. timeouts - self.treeID = nodeID # Hack, let tree use different ID than IP, used so we can dijkstra once and test many roots - def clone(self): - # Return a deep-enough copy of the path - clone = PathInfo(None) - clone.nodeID = self.nodeID - clone.coords = self.coords[:] - clone.tstamp = self.tstamp - clone.degree = self.degree - clone.path = self.path[:] - clone.time = self.time - clone.treeID = self.treeID - return clone -# End class PathInfo - -class Node: - def __init__(self, nodeID): - self.info = PathInfo(nodeID) # Self NodeInfo - self.root = None # PathInfo to node at root of tree - self.drop = dict() # PathInfo to nodes from clus that have timed out - self.peers = dict() # PathInfo to peers - self.links = dict() # Links to peers (to pass messages) - self.msgs = [] # Said messages - self.table = dict() # Pre-computed lookup table of peer info - - def tick(self): - # Do periodic maintenance stuff, including push updates - self.info.time += 1 - if self.info.time > self.info.tstamp + TIMEOUT/4: - # Update timestamp at least once every 1/4 timeout period - # This should probably be randomized in a real implementation - self.info.tstamp = self.info.time - self.info.degree = len(self.peers) - self.info.degree = 0# TODO decide if degree should be used - changed = False # Used to track when the network has converged - changed |= self.cleanRoot() - self.cleanDropped() - # Should probably send messages infrequently if there's nothing new to report - if self.info.tstamp == self.info.time: - msg = self.createMessage() - self.sendMessage(msg) - return changed - - def cleanRoot(self): - changed = False - if self.root and self.info.time - self.root.time > TIMEOUT: - print "DEBUG: clean root,", self.root.path - self.drop[self.root.treeID] = self.root - self.root = None - changed = True - if not self.root or self.root.treeID < self.info.treeID: - # No need to drop someone who'se worse than us - self.info.coords = [self.info.nodeID] - self.root = self.info.clone() - changed = True - elif self.root.treeID == self.info.treeID: - self.root = self.info.clone() - return changed - - def cleanDropped(self): - # May actually be a treeID... better to iterate over keys explicitly - nodeIDs = sorted(self.drop.keys()) - for nodeID in nodeIDs: - node = self.drop[nodeID] - if self.info.time - node.time > 4*TIMEOUT: - del self.drop[nodeID] - return None - - def createMessage(self): - # Message is just a tuple - # First element is the sender - # Second element is the root - # We will .clone() everything during the send operation - msg = (self.info, self.root) - return msg - - def sendMessage(self, msg): - for link in self.links.values(): - newMsg = (msg[0].clone(), msg[1].clone()) - link.msgs.append(newMsg) - return None - - def handleMessages(self): - changed = False - while self.msgs: - changed |= self.handleMessage(self.msgs.pop()) - return changed - - def handleMessage(self, msg): - changed = False - for node in msg: - # Update the path and timestamp for the sender and root info - node.path.append(self.info.nodeID) - node.time = self.info.time - # Update the sender's info in our list of peers - sender = msg[0] - self.peers[sender.nodeID] = sender - # Decide if we want to update the root - root = msg[1] - updateRoot = False - isSameParent = False - isBetterParent = False - if len(self.root.path) > 1 and len(root.path) > 1: - parent = self.peers[self.root.path[-2]] - if parent.nodeID == sender.nodeID: isSameParent = True - if sender.degree > parent.degree: - # This would also be where you check path uptime/reliability/whatever - # All else being equal, we prefer parents with high degree - # We are trusting peers to report degree correctly in this case - # So expect some performance reduction if your peers aren't trustworthy - # (Lies can increase average stretch by a few %) - isBetterParent = True - if self.info.nodeID in root.path[:-1]: pass # No loopy routes allowed - elif root.treeID in self.drop and self.drop[root.treeID].tstamp >= root.tstamp: pass - elif not self.root: updateRoot = True - elif self.root.treeID < root.treeID: updateRoot = True - elif self.root.treeID != root.treeID: pass - elif self.root.tstamp > root.tstamp: pass - elif len(root.path) < len(self.root.path): updateRoot = True - elif isBetterParent and len(root.path) == len(self.root.path): updateRoot = True - elif isSameParent and self.root.tstamp < root.tstamp: updateRoot = True - if updateRoot: - if not self.root or self.root.path != root.path: changed = True - self.root = root - self.info.coords = self.root.path - return changed - - def lookup(self, dest): - # Note: Can loop in an unconverged network - # The person looking up the route is responsible for checking for loops - best = None - bestDist = 0 - bestDeg = 0 - for node in self.peers.itervalues(): - # dist = distance to node + dist (on tree) from node to dest - dist = len(node.path)-1 + treeDist(node.coords, dest.coords) - deg = node.degree - if not best or dist < bestDist or (best == bestDist and deg > bestDeg): - best = node - bestDist = dist - bestDeg = deg - if best: - next = best.path[-2] - assert next in self.peers - return next - else: - # We failed to look something up - # TODO some way to signal this which doesn't crash - assert False - - def initTable(self): - # Pre-computes a lookup table for destination coords - # Insert parent first so you prefer them as a next-hop - self.table.clear() - parent = self.info.nodeID - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - for peer in self.peers.itervalues(): - current = self.table - for coord in peer.coords: - if coord not in current: current[coord] = (peer.nodeID, dict()) - old = current[coord] - next = old[1] - oldPeer = self.peers[old[0]] - oldDist = len(oldPeer.coords) - oldDeg = oldPeer.degree - newDist = len(peer.coords) - newDeg = peer.degree - # Prefer parent - # Else prefer short distance from root - # If equal distance, prefer high degree - if peer.nodeID == parent: current[coord] = (peer.nodeID, next) - elif newDist < oldDist: current[coord] = (peer.nodeID, next) - elif newDist == oldDist and newDeg > oldDeg: current[coord] = (peer.nodeID, next) - current = next - return None - - def lookup_new(self, dest): - # Use pre-computed lookup table to look up next hop for dest coords - assert self.table - if len(self.info.coords) >= 2: parent = self.info.coords[-2] - else: parent = None - current = (parent, self.table) - c = None - for coord in dest.coords: - c = coord - if coord not in current[1]: break - current = current[1][coord] - next = current[0] - if c in self.peers: next = c - if next not in self.peers: - assert next == None - # You're the root of a different connected component - # You'd drop the packet in this case - # To make the path cache not die, need to return a valid next hop... - # Returning self for that reason - next = self.info.nodeID - return next -# End class Node - -#################### -# Helper Functions # -#################### - -def getIndexOfLCA(source, dest): - # Return index of last common ancestor in source/dest coords - # -1 if no common ancestor (e.g. different roots) - lcaIdx = -1 - minLen = min(len(source), len(dest)) - for idx in xrange(minLen): - if source[idx] == dest[idx]: lcaIdx = idx - else: break - return lcaIdx - -def treePath(source, dest): - # Return path with source at head and dest at tail - lastMatch = getIndexOfLCA(source, dest) - path = dest[-1:lastMatch:-1] + source[lastMatch:] - assert path[0] == dest[-1] - assert path[-1] == source[-1] - return path - -def treeDist(source, dest): - dist = len(source) + len(dest) - lcaIdx = getIndexOfLCA(source, dest) - dist -= 2*(lcaIdx+1) - return dist - -def dijkstra(nodestore, startingNodeID): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes) - queue = [(0, startingNodeID)] - while queue: - dist, nodeID = heapq.heappop(queue) - idx = idxs[nodeID] - if not dists[idx]: # Unvisited, otherwise we skip it - dists[idx] = dist - for peer in nodestore[nodeID].links: - if not dists[idxs[peer]]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, peer)) - return dists - -def dijkstrall(nodestore): - # Idea to use heapq and basic implementation taken from stackexchange post - # http://codereview.stackexchange.com/questions/79025/dijkstras-algorithm-in-python - nodeIDs = sorted(nodestore.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - dists = array.array("H", [0]*nNodes*nNodes) # use GetCacheIndex(nNodes, start, end) - for sourceIdx in xrange(nNodes): - print "Finding shortest paths for node {} / {} ({})".format(sourceIdx+1, nNodes, nodeIDs[sourceIdx]) - queue = [(0, sourceIdx)] - while queue: - dist, nodeIdx = heapq.heappop(queue) - distIdx = getCacheIndex(nNodes, sourceIdx, nodeIdx) - if not dists[distIdx]: # Unvisited, otherwise we skip it - dists[distIdx] = dist - for peer in nodestore[nodeIDs[nodeIdx]].links: - pIdx = idxs[peer] - pdIdx = getCacheIndex(nNodes, sourceIdx, pIdx) - if not dists[pdIdx]: - # Peer is also unvisited, so add to queue - heapq.heappush(queue, (dist+LINK_COST, pIdx)) - return dists - -def linkNodes(node1, node2): - node1.links[node2.info.nodeID] = node2 - node2.links[node1.info.nodeID] = node1 - -############################ -# Store topology functions # -############################ - -def makeStoreSquareGrid(sideLength, randomize=True): - # Simple grid in a sideLength*sideLength square - # Just used to validate that the code runs - store = dict() - nodeIDs = list(range(sideLength*sideLength)) - if randomize: random.shuffle(nodeIDs) - for nodeID in nodeIDs: - store[nodeID] = Node(nodeID) - for index in xrange(len(nodeIDs)): - if (index % sideLength != 0): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-1]]) - if (index >= sideLength): linkNodes(store[nodeIDs[index]], store[nodeIDs[index-sideLength]]) - print "Grid store created, size {}".format(len(store)) - return store - -def makeStoreASRelGraph(pathToGraph): - #Existing network graphs, in caida.org's asrel format (ASx|ASy|z per line, z denotes relationship type) - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: store[nodes[0]] = Node(nodes[0]) - if nodes[1] not in store: store[nodes[1]] = Node(nodes[1]) - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreASRelGraphMaxDeg(pathToGraph, degIdx=0): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - nodeDeg = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in nodeDeg: nodeDeg[nodes[0]] = 0 - if nodes[1] not in nodeDeg: nodeDeg[nodes[1]] = 0 - nodeDeg[nodes[0]] += 1 - nodeDeg[nodes[1]] += 1 - sortedNodes = sorted(nodeDeg.keys(), \ - key=lambda x: (nodeDeg[x], x), \ - reverse=True) - maxDegNodeID = sortedNodes[degIdx] - return makeStoreASRelGraphFixedRoot(pathToGraph, maxDegNodeID) - -def makeStoreASRelGraphFixedRoot(pathToGraph, rootNodeID): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - line = line.replace('|'," ") - nodes = map(int, line.split()[0:2]) - if nodes[0] not in store: - store[nodes[0]] = Node(nodes[0]) - if nodes[0] == rootNodeID: store[nodes[0]].info.treeID += 1000000000 - if nodes[1] not in store: - store[nodes[1]] = Node(nodes[1]) - if nodes[1] == rootNodeID: store[nodes[1]].info.treeID += 1000000000 - linkNodes(store[nodes[0]], store[nodes[1]]) - print "CAIDA AS-relation graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreDimesEdges(pathToGraph, rootNodeID=None): - # Read from a DIMES csv-formatted graph from a gzip file - store = dict() - with gzip.open(pathToGraph, "r") as f: - inData = f.readlines() - size = len(inData) - index = 0 - for edge in inData: - if not index % 1000: - pct = 100.0*index/size - print "Processing edge {}, {:.2f}%".format(index, pct) - index += 1 - dat = edge.rstrip().split(',') - node1 = "N" + str(dat[0].strip()) - node2 = "N" + str(dat[1].strip()) - if '?' in node1 or '?' in node2: continue #Unknown node - if node1 == rootNodeID: node1 = "R" + str(dat[0].strip()) - if node2 == rootNodeID: node2 = "R" + str(dat[1].strip()) - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - if node1 != node2: linkNodes(store[node1], store[node2]) - print "DIMES graph successfully imported, size {}".format(len(store)) - return store - -def makeStoreGeneratedGraph(pathToGraph, root=None): - with open(pathToGraph, "r") as f: - inData = f.readlines() - store = dict() - for line in inData: - if line.strip()[0] == "#": continue # Skip comment lines - nodes = map(int, line.strip().split(' ')[0:2]) - node1 = nodes[0] - node2 = nodes[1] - if node1 == root: node1 += 1000000 - if node2 == root: node2 += 1000000 - if node1 not in store: store[node1] = Node(node1) - if node2 not in store: store[node2] = Node(node2) - linkNodes(store[node1], store[node2]) - print "Generated graph successfully imported, size {}".format(len(store)) - return store - - -############################################ -# Functions used as parts of network tests # -############################################ - -def idleUntilConverged(store): - nodeIDs = sorted(store.keys()) - timeOfLastChange = 0 - step = 0 - # Idle until the network has converged - while step - timeOfLastChange < 4*TIMEOUT: - step += 1 - print "Step: {}, last change: {}".format(step, timeOfLastChange) - changed = False - for nodeID in nodeIDs: - # Update node status, send messages - changed |= store[nodeID].tick() - for nodeID in nodeIDs: - # Process messages - changed |= store[nodeID].handleMessages() - if changed: timeOfLastChange = step - initTables(store) - return store - -def getCacheIndex(nodes, sourceIndex, destIndex): - return sourceIndex*nodes + destIndex - -def initTables(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - print "Initializing routing tables for {} nodes".format(nNodes) - for idx in xrange(nNodes): - nodeID = nodeIDs[idx] - store[nodeID].initTable() - print "Routing tables initialized" - return None - -def getCache(store): - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - nodeIdxs = dict() - for nodeIdx in xrange(nNodes): - nodeIdxs[nodeIDs[nodeIdx]] = nodeIdx - cache = array.array("H", [0]*nNodes*nNodes) - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Building fast lookup table for node {} / {} ({})".format(sourceIdx+1, nNodes, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if sourceID == destID: nextHop = destID # lookup would fail - else: nextHop = store[sourceID].lookup(store[destID].info) - nextHopIdx = nodeIdxs[nextHop] - cache[getCacheIndex(nNodes, sourceIdx, destIdx)] = nextHopIdx - return cache - -def testPaths(store, dists): - cache = getCache(store) - nodeIDs = sorted(store.keys()) - nNodes = len(nodeIDs) - idxs = dict() - for nodeIdx in xrange(nNodes): - nodeID = nodeIDs[nodeIdx] - idxs[nodeID] = nodeIdx - results = dict() - for sourceIdx in xrange(nNodes): - sourceID = nodeIDs[sourceIdx] - print "Testing paths from node {} / {} ({})".format(sourceIdx+1, len(nodeIDs), sourceID) - #dists = dijkstra(store, sourceID) - for destIdx in xrange(nNodes): - destID = nodeIDs[destIdx] - if destID == sourceID: continue # Skip self - distIdx = getCacheIndex(nNodes, sourceIdx, destIdx) - eHops = dists[distIdx] - if not eHops: continue # The network is split, no path exists - hops = 0 - for pair in ((sourceIdx, destIdx), (destIdx, sourceIdx)): # Either direction because source routing - nHops = 0 - locIdx = pair[0] - dIdx = pair[1] - while locIdx != dIdx: - locIdx = cache[getCacheIndex(nNodes, locIdx, dIdx)] - nHops += 1 - if not hops or nHops < hops: hops = nHops - if eHops not in results: results[eHops] = dict() - if hops not in results[eHops]: results[eHops][hops] = 0 - results[eHops][hops] += 1 - return results - -def getAvgStretch(pathMatrix): - avgStretch = 0. - checked = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - stretch = float(nHops)/float(max(1, eHops)) - avgStretch += stretch*count - checked += count - avgStretch /= max(1, checked) - return avgStretch - -def getMaxStretch(pathMatrix): - maxStretch = 0. - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - stretch = float(nHops)/float(max(1, eHops)) - maxStretch = max(maxStretch, stretch) - return maxStretch - -def getCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - sizes = dict() - for node in store.values(): - certs = set() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - certs.add(cert) - size = len(certs) - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getMinLinkCertSizes(store): - # Returns nCerts frequency distribution - # De-duplicates common certs (for shared prefixes in the path) - # Based on the minimum number of certs that must be traded through a particular link - # Handled per link - sizes = dict() - for node in store.values(): - peerCerts = dict() - for peer in node.peers.values(): - pCerts = set() - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - hops = peer.coords + peer.path[1:] - for hopIdx in xrange(len(hops)-1): - send = hops[hopIdx] - if send == node.info.nodeID: continue # We created it, already have it - path = hops[0:hopIdx+2] - # Each cert is signed by the sender - # Includes information about the path from the sender to the next hop - # Next hop is at hopIdx+1, so the path to next hop is hops[0:hopIdx+2] - cert = "{}:{}".format(send, path) - pCerts.add(cert) - peerCerts[peer.nodeID] = pCerts - for peer in peerCerts: - size = 0 - pCerts = peerCerts[peer] - for cert in pCerts: - required = True - for p2 in peerCerts: - if p2 == peer: continue - p2Certs = peerCerts[p2] - if cert in p2Certs: required = False - if required: size += 1 - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPathSizes(store): - # Returns frequency distribution of the total number of hops the routing table - # I.e. a node with 3 peers, each with 5 hop coord+path, would count as 3x5=15 - sizes = dict() - for node in store.values(): - size = 0 - for peer in node.peers.values(): - assert len(peer.path) == 2 - assert peer.coords[-1] == peer.path[0] - peerSize = len(peer.coords) + len(peer.path) - 1 # double-counts peer, -1 - size += peerSize - if size not in sizes: sizes[size] = 0 - sizes[size] += 1 - return sizes - -def getPeerSizes(store): - # Returns frequency distribution of the number of peers each node has - sizes = dict() - for node in store.values(): - nPeers = len(node.peers) - if nPeers not in sizes: sizes[nPeers] = 0 - sizes[nPeers] += 1 - return sizes - -def getAvgSize(sizes): - sumSizes = 0 - nNodes = 0 - for size in sizes: - count = sizes[size] - sumSizes += size*count - nNodes += count - avgSize = float(sumSizes)/max(1, nNodes) - return avgSize - -def getMaxSize(sizes): - return max(sizes.keys()) - -def getMinSize(sizes): - return min(sizes.keys()) - -def getResults(pathMatrix): - results = [] - for eHops in sorted(pathMatrix.keys()): - for nHops in sorted(pathMatrix[eHops].keys()): - count = pathMatrix[eHops][nHops] - results.append("{} {} {}".format(eHops, nHops, count)) - return '\n'.join(results) - -#################################### -# Functions to run different tests # -#################################### - -def runTest(store): - # Runs the usual set of tests on the store - # Does not save results, so only meant for quick tests - # To e.g. check the code works, maybe warm up the pypy jit - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Begin testing network" - dists = None - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - peers = getPeerSizes(store) - certs = getCertSizes(store) - paths = getPathSizes(store) - linkCerts = getMinLinkCertSizes(store) - avgPeerSize = getAvgSize(peers) - maxPeerSize = getMaxSize(peers) - avgCertSize = getAvgSize(certs) - maxCertSize = getMaxSize(certs) - avgPathSize = getAvgSize(paths) - maxPathSize = getMaxSize(paths) - avgLinkCert = getAvgSize(linkCerts) - maxLinkCert = getMaxSize(linkCerts) - totalCerts = sum(map(lambda x: x*certs[x], certs.keys())) - totalLinks = sum(map(lambda x: x*peers[x], peers.keys())) # one-way links - avgCertsPerLink = float(totalCerts)/max(1, totalLinks) - print "Finished testing network" - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - print "Avg / Max nPeers size: {} / {}".format(avgPeerSize, maxPeerSize) - print "Avg / Max nCerts size: {} / {}".format(avgCertSize, maxCertSize) - print "Avg / Max total hops in any node's routing table: {} / {}".format(avgPathSize, maxPathSize) - print "Avg / Max lower bound cert requests per link (one-way): {} / {}".format(avgLinkCert, maxLinkCert) - print "Avg certs per link (one-way): {}".format(avgCertsPerLink) - return # End of function - -def rootNodeASTest(path, outDir="output-treesim-AS", dists=None, proc = 1): - # Checks performance for every possible choice of root node - # Saves output for each root node to a separate file on disk - # path = input path to some caida.org formatted AS-relationship graph - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - store = makeStoreASRelGraph(path) - nodes = sorted(store.keys()) - for nodeIdx in xrange(len(nodes)): - if nodeIdx % proc != 0: continue # Work belongs to someone else - rootNodeID = nodes[nodeIdx] - outpath = outDir+"/{}".format(rootNodeID) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(rootNodeID) - continue - store = makeStoreASRelGraphFixedRoot(path, rootNodeID) - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(nodeIdx, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished test for root AS {} ({} / {})".format(rootNodeID, nodeIdx+1, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineASTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-AS" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("asrel/datasets/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if os.path.exists(outpath): - print "Skipping {}, already processed".format(date) - continue - store = makeStoreASRelGraphMaxDeg(path) - dists = None - for node in store.values(): - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - #break # Stop after 1, because they can take forever - return # End of function - -def timelineDimesTest(): - # Meant to study the performance of the network as a function of network size - # Loops over a set of AS-relationship graphs - # Runs a test on each graph, selecting highest-degree node as the root - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-timeline-dimes" - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - # Input files are named ASEdgesX_Y where X = month (no leading 0), Y = year - paths = sorted(glob.glob("DIMES/ASEdges/*.gz")) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - date = os.path.basename(path).split(".")[0] - outpath = outDir+"/{}".format(date) - if outpath in exists: - print "Skipping {}, already processed".format(date) - continue - store = makeStoreDimesEdges(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys()) - bestRoot = "" - bestDeg = 0 - for nodeID in nodeIDs: - node = store[nodeID] - if len(node.links) > bestDeg: - bestRoot = nodeID - bestDeg = len(node.links) - assert bestRoot - store = makeStoreDimesEdges(path, bestRoot) - rootID = "R" + bestRoot[1:] - assert rootID in store - # Don't forget to set random seed before setitng times - # To make results reproducible - nodeIDs = sorted(store.keys()) - random.seed(12345) - for nodeID in nodeIDs: - node = store[nodeID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(date, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes".format(date, len(store)) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - break # Stop after 1, because they can take forever - return # End of function - -def scalingTest(maxTests=None, inputDir="graphs"): - # Meant to study the performance of the network as a function of network size - # Loops over a set of nodes in a previously generated graph - # Runs a test on each graph, testing each node as the root - # if maxTests is set, tests only that number of roots (highest degree first) - # Saves results for each graph to a separate file on disk - outDir = "output-treesim-{}".format(inputDir) - if not os.path.exists(outDir): os.makedirs(outDir) - assert os.path.exists(outDir) - paths = sorted(glob.glob("{}/*".format(inputDir))) - exists = set(glob.glob(outDir+"/*")) - for path in paths: - gc.collect() # pypy waits for gc to close files - graph = os.path.basename(path).split(".")[0] - store = makeStoreGeneratedGraph(path) - # Get the highest degree node and make it root - # Sorted by nodeID just to make it stable in the event of a tie - nodeIDs = sorted(store.keys(), key=lambda x: len(store[x].links), reverse=True) - dists = None - if maxTests: nodeIDs = nodeIDs[:maxTests] - for nodeID in nodeIDs: - nodeIDStr = str(nodeID).zfill(len(str(len(store)-1))) - outpath = outDir+"/{}-{}".format(graph, nodeIDStr) - if outpath in exists: - print "Skipping {}-{}, already processed".format(graph, nodeIDStr) - continue - store = makeStoreGeneratedGraph(path, nodeID) - # Don't forget to set random seed before setting times - random.seed(12345) # To make results reproducible - nIDs = sorted(store.keys()) - for nID in nIDs: - node = store[nID] - node.info.time = random.randint(0, TIMEOUT) - node.info.tstamp = TIMEOUT - print "Beginning {}, size {}".format(graph, len(store)) - if not dists: dists = dijkstrall(store) - idleUntilConverged(store) - pathMatrix = testPaths(store, dists) - avgStretch = getAvgStretch(pathMatrix) - maxStretch = getMaxStretch(pathMatrix) - results = getResults(pathMatrix) - with open(outpath, "w") as f: - f.write(results) - print "Finished {} with {} nodes for root {}".format(graph, len(store), nodeID) - print "Avg / Max stretch: {} / {}".format(avgStretch, maxStretch) - return # End of function - -################## -# Main Execution # -################## - -if __name__ == "__main__": - if True: # Run a quick test - random.seed(12345) # DEBUG - store = makeStoreSquareGrid(4) - runTest(store) # Quick test - store = None - # Do some real work - #runTest(makeStoreDimesEdges("DIMES/ASEdges/ASEdges1_2007.csv.gz")) - #timelineDimesTest() - #rootNodeASTest("asrel/datasets/19980101.as-rel.txt") - #timelineASTest() - #rootNodeASTest("hype-2016-09-19.list", "output-treesim-hype") - #scalingTest(None, "graphs-20") # First argument 1 to only test 1 root per graph - #store = makeStoreGeneratedGraph("bgp_tables") - #store = makeStoreGeneratedGraph("skitter") - #store = makeStoreASRelGraphMaxDeg("hype-2016-09-19.list") #http://hia.cjdns.ca/watchlist/c/walk.peers.20160919 - #store = makeStoreGeneratedGraph("fc00-2017-08-12.txt") - if store: runTest(store) - #rootNodeASTest("skitter", "output-treesim-skitter", None, 0, 1) - #scalingTest(1, "graphs-20") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-21") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-22") # First argument 1 to only test 1 root per graph - #scalingTest(1, "graphs-23") # First argument 1 to only test 1 root per graph - if not store: - import sys - args = sys.argv - if len(args) == 2: - job_number = int(sys.argv[1]) - #rootNodeASTest("fc00-2017-08-12.txt", "fc00", None, job_number) - #rootNodeASTest("skitter", "out-skitter", None, job_number) - rootNodeASTest("walk-1517414401.txt.map", "out-walk", None, job_number) - else: - print "Usage: {} job_number".format(args[0]) - print "job_number = which job set to run on this node (1-indexed)" - diff --git a/misc/sim/treesim.go b/misc/sim/treesim.go index 9f1802b5..f2b2d0e1 100644 --- a/misc/sim/treesim.go +++ b/misc/sim/treesim.go @@ -412,10 +412,10 @@ func main() { } fmt.Println("Test") Util_testAddrIDMask() - idxstore := makeStoreSquareGrid(4) + //idxstore := makeStoreSquareGrid(4) //idxstore := makeStoreStar(256) //idxstore := loadGraph("misc/sim/hype-2016-09-19.list") - //idxstore := loadGraph("misc/sim/fc00-2017-08-12.txt") + idxstore := loadGraph("misc/sim/fc00-2017-08-12.txt") //idxstore := loadGraph("skitter") kstore := getKeyedStore(idxstore) /* diff --git a/misc/sim/walk2map.py b/misc/sim/walk2map.py deleted file mode 100644 index 5614d157..00000000 --- a/misc/sim/walk2map.py +++ /dev/null @@ -1,35 +0,0 @@ -#!/usr/bin/env python2 - -def main(): - import sys - args = sys.argv - if len(args) != 2: - print "Usage:", args[0], "path/to/walk.txt" - return - import glob - files = glob.glob(args[1]) - if len(files) == 0: - print "File not found:", args[1] - return - for inFile in files: - with open(inFile, 'r') as f: lines = f.readlines() - out = [] - nodes = dict() - for line in lines: - words = line.strip().strip('[').strip(']').split(',') - if len(words) < 5: continue - if words[0].strip('"') != "link": continue - first, second = words[3], words[4] - if first not in nodes: nodes[first] = len(nodes) - if second not in nodes: nodes[second] = len(nodes) - for line in lines: - words = line.strip().strip('[').strip(']').split(',') - if len(words) < 5: continue - if words[0].strip('"') != "link": continue - first, second = nodes[words[3]], nodes[words[4]] - out.append("{0} {1}".format(first, second)) - with open(inFile+".map", "w") as f: f.write("\n".join(out)) - # End loop over files -# End main - -if __name__ == "__main__": main() diff --git a/misc/tests/atomic-toy.go b/misc/tests/atomic-toy.go deleted file mode 100644 index 19526c0c..00000000 --- a/misc/tests/atomic-toy.go +++ /dev/null @@ -1,22 +0,0 @@ -package main - -import "fmt" -import "time" -import "sync/atomic" -import "runtime" - -func main() { - - var ops uint64 = 0 - for i := 0; i < 4; i++ { - go func() { - for { - atomic.AddUint64(&ops, 1) - runtime.Gosched() - } - }() - } - time.Sleep(1 * time.Second) - opsFinal := atomic.LoadUint64(&ops) - fmt.Println("ops:", opsFinal) -} diff --git a/misc/tests/bandwidth.go b/misc/tests/bandwidth.go deleted file mode 100644 index 5e1d200b..00000000 --- a/misc/tests/bandwidth.go +++ /dev/null @@ -1,53 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" - -func main() { - addr, err := net.ResolveTCPAddr("tcp", "[::1]:9001") - if err != nil { - panic(err) - } - listener, err := net.ListenTCP("tcp", addr) - if err != nil { - panic(err) - } - defer listener.Close() - - packetSize := 65535 - numPackets := 65535 - - go func() { - send, err := net.DialTCP("tcp", nil, addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, packetSize) - for idx := 0; idx < numPackets; idx++ { - send.Write(msg) - } - }() - - start := time.Now() - //msg := make([]byte, 1280) - sock, err := listener.AcceptTCP() - if err != nil { - panic(err) - } - defer sock.Close() - read := 0 - buf := make([]byte, packetSize) - for { - n, err := sock.Read(buf) - read += n - if err != nil { - break - } - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - fmt.Printf("%f bits/sec\n", 8*float64(read)/timed.Seconds()) -} diff --git a/misc/tests/channelbenchmark.go b/misc/tests/channelbenchmark.go deleted file mode 100644 index 33c22c2a..00000000 --- a/misc/tests/channelbenchmark.go +++ /dev/null @@ -1,36 +0,0 @@ -package main - -import "time" -import "fmt" -import "sync" - -func main() { - fmt.Println("Testing speed of recv+send loop") - const count = 10000000 - c := make(chan []byte, 1) - c <- []byte{} - var wg sync.WaitGroup - worker := func() { - for idx := 0; idx < count; idx++ { - p := <-c - select { - case c <- p: - default: - } - } - wg.Done() - } - nIter := 0 - start := time.Now() - for idx := 0; idx < 1; idx++ { - go worker() - nIter += count - wg.Add(1) - } - wg.Wait() - stop := time.Now() - timed := stop.Sub(start) - fmt.Printf("%d iterations in %s\n", nIter, timed) - fmt.Printf("%f iterations per second\n", float64(nIter)/timed.Seconds()) - fmt.Printf("%s per iteration\n", timed/time.Duration(nIter)) -} diff --git a/misc/tests/gob-test.go b/misc/tests/gob-test.go deleted file mode 100644 index 97177af0..00000000 --- a/misc/tests/gob-test.go +++ /dev/null @@ -1,56 +0,0 @@ -package main - -import "bytes" -import "encoding/gob" -import "time" -import "fmt" - -type testStruct struct { - First uint64 - Second float64 - Third []byte -} - -func testFunc(tickerDuration time.Duration) { - chn := make(chan []byte) - ticker := time.NewTicker(tickerDuration) - defer ticker.Stop() - send := testStruct{First: 1, Second: 2, Third: []byte{3, 4, 5}} - buf := bytes.NewBuffer(nil) - enc := gob.NewEncoder(buf) - dec := gob.NewDecoder(buf) - sendCall := func() { - err := enc.EncodeValue(&send) - if err != nil { - panic(err) - } - bs := make([]byte, buf.Len()) - buf.Read(bs) - fmt.Println("send:", bs) - go func() { chn <- bs }() - } - recvCall := func(bs []byte) { - buf.Write(bs) - recv := testStruct{} - err := dec.DecodeValue(&recv) - fmt.Println("recv:", bs) - if err != nil { - panic(err) - } - } - for { - select { - case bs := <-chn: - recvCall(bs) - case <-ticker.C: - sendCall() - } - } -} - -func main() { - go testFunc(100 * time.Millisecond) // Does not crash - time.Sleep(time.Second) - go testFunc(time.Nanosecond) // Does crash - time.Sleep(time.Second) -} diff --git a/misc/tests/goroutine-test.go b/misc/tests/goroutine-test.go deleted file mode 100644 index 699c4d60..00000000 --- a/misc/tests/goroutine-test.go +++ /dev/null @@ -1,22 +0,0 @@ -package main - -import "sync" -import "time" -import "fmt" - -func main() { - const reqs = 1000000 - var wg sync.WaitGroup - start := time.Now() - for idx := 0; idx < reqs; idx++ { - wg.Add(1) - go func() { wg.Done() }() - } - wg.Wait() - stop := time.Now() - timed := stop.Sub(start) - fmt.Printf("%d goroutines in %s (%f per second)\n", - reqs, - timed, - reqs/timed.Seconds()) -} diff --git a/misc/tests/multicast.go b/misc/tests/multicast.go deleted file mode 100644 index dfe03be2..00000000 --- a/misc/tests/multicast.go +++ /dev/null @@ -1,57 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - //addr, err := net.ResolveUDPAddr("udp", "[ff02::1%veth0]:9001") - addr, err := net.ResolveUDPAddr("udp", "[ff02::1]:9001") - if err != nil { - panic(err) - } - sock, err := net.ListenMulticastUDP("udp", nil, addr) - if err != nil { - panic(err) - } - defer sock.Close() - - go func() { - saddr, err := net.ResolveUDPAddr("udp", "[::]:0") - if err != nil { - panic(err) - } - send, err := net.ListenUDP("udp", saddr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - for { - //fmt.Println("Sending...") - send.WriteTo(msg, addr) - } - }() - - numPackets := 1000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - //fmt.Println("Reading:", i) - sock.ReadFromUDP(msg) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -func main() { - - basic_test() - -} diff --git a/misc/tests/packetbenchmark.go b/misc/tests/packetbenchmark.go deleted file mode 100644 index 86754ffa..00000000 --- a/misc/tests/packetbenchmark.go +++ /dev/null @@ -1,92 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - var ip *net.IP - ifaces, err := net.Interfaces() - if err != nil { - panic(err) - } - var zone string - for _, iface := range ifaces { - addrs, err := iface.Addrs() - if err != nil { - panic(err) - } - for _, addr := range addrs { - addrIP, _, _ := net.ParseCIDR(addr.String()) - if addrIP.To4() != nil { - continue - } // IPv6 only - if !addrIP.IsLinkLocalUnicast() { - continue - } - zone = iface.Name - ip = &addrIP - } - addrs, err = iface.MulticastAddrs() - if err != nil { - panic(err) - } - for _, addr := range addrs { - fmt.Println(addr.String()) - } - } - if ip == nil { - panic("No link-local IPv6 found") - } - fmt.Println("Using address:", *ip) - - addr := net.UDPAddr{IP: *ip, Port: 9001, Zone: zone} - - saddr := net.UDPAddr{IP: *ip, Port: 9002, Zone: zone} - send, err := net.ListenUDP("udp", &saddr) - defer send.Close() - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", &addr) - defer sock.Close() - if err != nil { - panic(err) - } - - const buffSize = 1048576 * 100 - - send.SetWriteBuffer(buffSize) - sock.SetReadBuffer(buffSize) - sock.SetWriteBuffer(buffSize) - - go func() { - msg := make([]byte, 1280) - for { - send.WriteTo(msg, &addr) - } - }() - - numPackets := 100000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - _, addr, _ := sock.ReadFrom(msg) - sock.WriteTo(msg, addr) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -func main() { - - basic_test() - -} diff --git a/misc/tests/pool.go b/misc/tests/pool.go deleted file mode 100644 index d087ab30..00000000 --- a/misc/tests/pool.go +++ /dev/null @@ -1,89 +0,0 @@ -package main - -import "fmt" - -//import "net" -import "time" -import "runtime" -import "sync/atomic" - -func poolbench() { - nWorkers := runtime.GOMAXPROCS(0) - work := make(chan func(), 1) - workers := make(chan chan<- func(), nWorkers) - makeWorker := func() chan<- func() { - ch := make(chan func()) - go func() { - for { - f := <-ch - f() - select { - case workers <- (ch): - default: - return - } - } - }() - return ch - } - getWorker := func() chan<- func() { - select { - case ch := <-workers: - return ch - default: - return makeWorker() - } - } - dispatcher := func() { - for { - w := <-work - ch := getWorker() - ch <- w - } - } - go dispatcher() - var count uint64 - const nCounts = 1000000 - for idx := 0; idx < nCounts; idx++ { - f := func() { atomic.AddUint64(&count, 1) } - work <- f - } - for atomic.LoadUint64(&count) < nCounts { - } -} - -func normalbench() { - var count uint64 - const nCounts = 1000000 - ch := make(chan struct{}, 1) - ch <- struct{}{} - for idx := 0; idx < nCounts; idx++ { - f := func() { atomic.AddUint64(&count, 1) } - f() - <-ch - ch <- struct{}{} - } -} - -func gobench() { - var count uint64 - const nCounts = 1000000 - for idx := 0; idx < nCounts; idx++ { - f := func() { atomic.AddUint64(&count, 1) } - go f() - } - for atomic.LoadUint64(&count) < nCounts { - } -} - -func main() { - start := time.Now() - poolbench() - fmt.Println(time.Since(start)) - start = time.Now() - normalbench() - fmt.Println(time.Since(start)) - start = time.Now() - gobench() - fmt.Println(time.Since(start)) -} diff --git a/misc/tests/quic.go b/misc/tests/quic.go deleted file mode 100644 index eb2d51b7..00000000 --- a/misc/tests/quic.go +++ /dev/null @@ -1,95 +0,0 @@ -package main - -import ( - "bytes" - "crypto/rand" - "crypto/rsa" - "crypto/tls" - "crypto/x509" - "encoding/pem" - "fmt" - quic "github.com/lucas-clemente/quic-go" - "math/big" - "sync" - "time" -) - -const addr = "[::1]:9001" - -func main() { - go run_server() - run_client() -} - -func run_server() { - listener, err := quic.ListenAddr(addr, generateTLSConfig(), nil) - if err != nil { - panic(err) - } - ses, err := listener.Accept() - if err != nil { - panic(err) - } - for { - stream, err := ses.AcceptStream() - if err != nil { - panic(err) - } - go func() { - defer stream.Close() - bs := bytes.Buffer{} - _, err := bs.ReadFrom(stream) - if err != nil { - panic(err) - } //<-- TooManyOpenStreams - }() - } -} - -func run_client() { - msgSize := 1048576 - msgCount := 128 - ses, err := quic.DialAddr(addr, &tls.Config{InsecureSkipVerify: true}, nil) - if err != nil { - panic(err) - } - bs := make([]byte, msgSize) - wg := sync.WaitGroup{} - start := time.Now() - for idx := 0; idx < msgCount; idx++ { - wg.Add(1) - go func() { - defer wg.Done() - stream, err := ses.OpenStreamSync() - if err != nil { - panic(err) - } - defer stream.Close() - stream.Write(bs) - }() // "go" this later - } - wg.Wait() - timed := time.Since(start) - fmt.Println("Client finished", timed, fmt.Sprintf("%f Bits/sec", 8*float64(msgSize*msgCount)/timed.Seconds())) -} - -// Setup a bare-bones TLS config for the server -func generateTLSConfig() *tls.Config { - key, err := rsa.GenerateKey(rand.Reader, 1024) - if err != nil { - panic(err) - } - template := x509.Certificate{SerialNumber: big.NewInt(1)} - certDER, err := x509.CreateCertificate(rand.Reader, &template, &template, &key.PublicKey, key) - if err != nil { - panic(err) - } - keyPEM := pem.EncodeToMemory(&pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(key)}) - certPEM := pem.EncodeToMemory(&pem.Block{Type: "CERTIFICATE", Bytes: certDER}) - - tlsCert, err := tls.X509KeyPair(certPEM, keyPEM) - if err != nil { - panic(err) - } - return &tls.Config{Certificates: []tls.Certificate{tlsCert}} -} diff --git a/misc/tests/socktest.go b/misc/tests/socktest.go deleted file mode 100644 index 6d9dd916..00000000 --- a/misc/tests/socktest.go +++ /dev/null @@ -1,74 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - addr, err := net.ResolveUDPAddr("udp", "[::1]:9001") - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", addr) - if err != nil { - panic(err) - } - defer sock.Close() - - go func() { - send, err := net.DialUDP("udp", nil, addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - for { - send.Write(msg) - } - }() - - numPackets := 1000000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - sock.ReadFrom(msg) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest2.go b/misc/tests/socktest2.go deleted file mode 100644 index 92adbfd4..00000000 --- a/misc/tests/socktest2.go +++ /dev/null @@ -1,84 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - addr, err := net.ResolveUDPAddr("udp", "[::1]:9001") - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", addr) - if err != nil { - panic(err) - } - defer sock.Close() - - go func() { - send, err := net.DialUDP("udp", nil, addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - bss := make(net.Buffers, 0, 1024) - for { - for len(bss) < 1024 { - bss = append(bss, msg) - } - bss.WriteTo(send) - //bss = bss[:0] - //send.Write(msg) - } - }() - - numPackets := 1000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - n, err := sock.Read(msg) - if err != nil { - panic(err) - } - fmt.Println(n) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_linklocal.go b/misc/tests/socktest_linklocal.go deleted file mode 100644 index 59493696..00000000 --- a/misc/tests/socktest_linklocal.go +++ /dev/null @@ -1,116 +0,0 @@ -package main - -import "flag" -import "fmt" -import "net" -import "os" -import "runtime/pprof" -import "time" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - var ip *net.IP - ifaces, err := net.Interfaces() - if err != nil { - panic(err) - } - var zone string - for _, iface := range ifaces { - addrs, err := iface.Addrs() - if err != nil { - panic(err) - } - for _, addr := range addrs { - addrIP, _, _ := net.ParseCIDR(addr.String()) - if addrIP.To4() != nil { - continue - } // IPv6 only - if !addrIP.IsLinkLocalUnicast() { - continue - } - fmt.Println(iface.Name, addrIP) - zone = iface.Name - ip = &addrIP - } - if ip != nil { - break - } - /* - addrs, err = iface.MulticastAddrs() - if err != nil { panic(err) } - for _, addr := range addrs { - fmt.Println(addr.String()) - } - */ - } - if ip == nil { - panic("No link-local IPv6 found") - } - fmt.Println("Using address:", *ip) - addr := net.UDPAddr{IP: *ip, Port: 9001, Zone: zone} - - laddr, err := net.ResolveUDPAddr("udp", "[::]:9001") - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", laddr) - if err != nil { - panic(err) - } - defer sock.Close() - - go func() { - send, err := net.DialUDP("udp", nil, &addr) - //send, err := net.ListenUDP("udp", nil) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - for { - send.Write(msg) - //send.WriteToUDP(msg, &addr) - } - }() - - numPackets := 1000000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - sock.ReadFromUDP(msg) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_tcp.go b/misc/tests/socktest_tcp.go deleted file mode 100644 index d98fa120..00000000 --- a/misc/tests/socktest_tcp.go +++ /dev/null @@ -1,103 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible? - -const buffSize = 32 - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - addr, err := net.ResolveTCPAddr("tcp", "[::1]:9001") - if err != nil { - panic(err) - } - listener, err := net.ListenTCP("tcp", addr) - if err != nil { - panic(err) - } - defer listener.Close() - - go func() { - send, err := net.DialTCP("tcp", nil, addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - bss := make(net.Buffers, 0, 1024) - for { - for len(bss) < 1 { //buffSize { - bss = append(bss, msg) - } - bss := net.Buffers{[]byte{0, 1, 2, 3}, []byte{0, 1}, msg} - bss.WriteTo(send) - //send.Write(msg) - } - }() - - numPackets := 1000000 - start := time.Now() - //msg := make([]byte, 1280) - sock, err := listener.AcceptTCP() - if err != nil { - panic(err) - } - defer sock.Close() - for i := 0; i < numPackets; i++ { - msg := make([]byte, 1280*buffSize) - n, err := sock.Read(msg) - if err != nil { - panic(err) - } - msg = msg[:n] - for len(msg) > 1286 { - // handle message - i++ - msg = msg[1286:] - } - // handle remaining fragment of message - //fmt.Println(n) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - - _ = func(in chan<- int) { - close(in) - } - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_udp.go b/misc/tests/socktest_udp.go deleted file mode 100644 index 9f605152..00000000 --- a/misc/tests/socktest_udp.go +++ /dev/null @@ -1,77 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - addr, err := net.ResolveUDPAddr("udp", "[::1]:0") - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", addr) - if err != nil { - panic(err) - } - defer sock.Close() - - go func() { - raddr := sock.LocalAddr().(*net.UDPAddr) - send, err := net.DialUDP("udp", nil, raddr) - //send, err := net.ListenUDP("udp", addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - for { - send.Write(msg) - //send.WriteToUDP(msg, raddr) - } - }() - - numPackets := 1000000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - sock.ReadFromUDP(msg) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_udp2.go b/misc/tests/socktest_udp2.go deleted file mode 100644 index 7bbaa9c2..00000000 --- a/misc/tests/socktest_udp2.go +++ /dev/null @@ -1,79 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - saddr, err := net.ResolveUDPAddr("udp", "[::1]:9001") - if err != nil { - panic(err) - } - raddr, err := net.ResolveUDPAddr("udp", "[::1]:9002") - if err != nil { - panic(err) - } - - send, err := net.DialUDP("udp", saddr, raddr) - if err != nil { - panic(err) - } - defer send.Close() - - recv, err := net.DialUDP("udp", raddr, saddr) - if err != nil { - panic(err) - } - defer recv.Close() - - go func() { - msg := make([]byte, 1280) - for { - send.Write(msg) - } - }() - - numPackets := 1000000 - start := time.Now() - msg := make([]byte, 2000) - for i := 0; i < numPackets; i++ { - recv.Read(msg) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_udp_nodial.go b/misc/tests/socktest_udp_nodial.go deleted file mode 100644 index 1e368816..00000000 --- a/misc/tests/socktest_udp_nodial.go +++ /dev/null @@ -1,92 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - sock, err := net.ListenUDP("udp", nil) - if err != nil { - panic(err) - } - defer sock.Close() - - ch := make(chan []byte, 1) - - writer := func() { - raddr := sock.LocalAddr().(*net.UDPAddr) - //send, err := net.ListenUDP("udp", nil) - //if err != nil { panic(err) } - //defer send.Close() - for { - select { - case <-ch: - default: - } - msg := make([]byte, 1280) - sock.WriteToUDP(msg, raddr) - //send.WriteToUDP(msg, raddr) - } - } - go writer() - //go writer() - //go writer() - //go writer() - - numPackets := 65536 - size := 0 - start := time.Now() - success := 0 - for i := 0; i < numPackets; i++ { - msg := make([]byte, 2048) - n, _, err := sock.ReadFromUDP(msg) - if err != nil { - panic(err) - } - size += n - select { - case ch <- msg: - success += 1 - default: - } - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - fmt.Printf("%f bits per second\n", 8*float64(size)/timed.Seconds()) - fmt.Println("Success:", success, "/", numPackets) -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/socktest_udp_sendmmsg.go b/misc/tests/socktest_udp_sendmmsg.go deleted file mode 100644 index f497c32b..00000000 --- a/misc/tests/socktest_udp_sendmmsg.go +++ /dev/null @@ -1,124 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -import "golang.org/x/net/ipv6" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - udpAddr, err := net.ResolveUDPAddr("udp", "127.0.0.1:0") - if err != nil { - panic(err) - } - sock, err := net.ListenUDP("udp", udpAddr) - if err != nil { - panic(err) - } - defer sock.Close() - - writer := func() { - raddr := sock.LocalAddr().(*net.UDPAddr) - send, err := net.ListenUDP("udp", nil) - if err != nil { - panic(err) - } - defer send.Close() - conn := ipv6.NewPacketConn(send) - defer conn.Close() - var msgs []ipv6.Message - for idx := 0; idx < 1024; idx++ { - msg := ipv6.Message{Addr: raddr, Buffers: [][]byte{make([]byte, 1280)}} - msgs = append(msgs, msg) - } - for { - /* - var msgs []ipv6.Message - for idx := 0 ; idx < 1024 ; idx++ { - msg := ipv6.Message{Addr: raddr, Buffers: [][]byte{make([]byte, 1280)}} - msgs = append(msgs, msg) - } - */ - conn.WriteBatch(msgs, 0) - } - - } - go writer() - //go writer() - //go writer() - //go writer() - - numPackets := 65536 - size := 0 - count := 0 - start := time.Now() - /* - conn := ipv6.NewPacketConn(sock) - defer conn.Close() - for ; count < numPackets ; count++ { - msgs := make([]ipv6.Message, 1024) - for _, msg := range msgs { - msg.Buffers = append(msg.Buffers, make([]byte, 2048)) - } - n, err := conn.ReadBatch(msgs, 0) - if err != nil { panic(err) } - fmt.Println("DEBUG: n", n) - for _, msg := range msgs[:n] { - fmt.Println("DEBUG: msg", msg) - size += msg.N - //for _, bs := range msg.Buffers { - // size += len(bs) - //} - count++ - } - } - //*/ - //* - for ; count < numPackets; count++ { - msg := make([]byte, 2048) - n, _, err := sock.ReadFromUDP(msg) - if err != nil { - panic(err) - } - size += n - } - //*/ - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(count)/timed.Seconds()) - fmt.Printf("%f bits/second\n", float64(8*size)/timed.Seconds()) -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/tcptest.go b/misc/tests/tcptest.go deleted file mode 100644 index 86dbd229..00000000 --- a/misc/tests/tcptest.go +++ /dev/null @@ -1,105 +0,0 @@ -package main - -import "fmt" -import "net" -import "time" -import "flag" -import "os" -import "runtime/pprof" - -// TODO look into netmap + libpcap to bypass the kernel as much as possible? - -const buffSize = 32 - -func basic_test() { - - // TODO need a way to look up who our link-local neighbors are for each iface! - - addr, err := net.ResolveTCPAddr("tcp", "[::1]:9001") - if err != nil { - panic(err) - } - listener, err := net.ListenTCP("tcp", addr) - if err != nil { - panic(err) - } - defer listener.Close() - - go func() { - send, err := net.DialTCP("tcp", nil, addr) - if err != nil { - panic(err) - } - defer send.Close() - msg := make([]byte, 1280) - bss := make(net.Buffers, 0, 1024) - count := 0 - for { - time.Sleep(100 * time.Millisecond) - for len(bss) < count { - bss = append(bss, msg) - } - bss.WriteTo(send) - count++ - //send.Write(msg) - } - }() - - numPackets := 1000000 - start := time.Now() - //msg := make([]byte, 1280) - sock, err := listener.AcceptTCP() - if err != nil { - panic(err) - } - defer sock.Close() - for { - msg := make([]byte, 1280*buffSize) - n, err := sock.Read(msg) - if err != nil { - panic(err) - } - msg = msg[:n] - fmt.Println("Read:", n) - for len(msg) > 1280 { - // handle message - msg = msg[1280:] - } - // handle remaining fragment of message - //fmt.Println(n) - } - timed := time.Since(start) - - fmt.Printf("%f packets per second\n", float64(numPackets)/timed.Seconds()) - - _ = func(in chan<- int) { - close(in) - } - -} - -var cpuprofile = flag.String("cpuprofile", "", "write cpu profile `file`") -var memprofile = flag.String("memprofile", "", "write memory profile to this file") - -func main() { - flag.Parse() - if *cpuprofile != "" { - f, err := os.Create(*cpuprofile) - if err != nil { - panic(fmt.Sprintf("could not create CPU profile: ", err)) - } - if err := pprof.StartCPUProfile(f); err != nil { - panic(fmt.Sprintf("could not start CPU profile: ", err)) - } - defer pprof.StopCPUProfile() - } - if *memprofile != "" { - f, err := os.Create(*memprofile) - if err != nil { - panic(fmt.Sprintf("could not create memory profile: ", err)) - } - defer func() { pprof.WriteHeapProfile(f); f.Close() }() - } - basic_test() - -} diff --git a/misc/tests/tunbench-client.go b/misc/tests/tunbench-client.go deleted file mode 100644 index 2358ae4a..00000000 --- a/misc/tests/tunbench-client.go +++ /dev/null @@ -1,83 +0,0 @@ -package main - -import ( - "fmt" - "log" - "net" - "os/exec" - "time" - - "github.com/yggdrasil-network/water" -) - -const mtu = 65535 - -func setup_dev() *water.Interface { - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - return ifce -} - -func setup_dev1() *water.Interface { - ifce := setup_dev() - cmd := exec.Command("ip", "-f", "inet6", - "addr", "add", "fc00::2/8", - "dev", ifce.Name()) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to assign address") - } - cmd = exec.Command("ip", "link", "set", - "dev", ifce.Name(), - "mtu", fmt.Sprintf("%d", mtu), - "up") - out, err = cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to bring up interface") - } - return ifce -} - -func connect(ifce *water.Interface) { - conn, err := net.DialTimeout("tcp", "192.168.2.2:9001", time.Second) - if err != nil { - panic(err) - } - sock := conn.(*net.TCPConn) - // TODO go a worker to move packets to/from the tun -} - -func bench() { -} - -func main() { - ifce := setup_dev1() - connect(ifce) - bench() - fmt.Println("Done?") - return - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - - log.Printf("Interface Name: %s\n", ifce.Name()) - - packet := make([]byte, 2000) - for { - n, err := ifce.Read(packet) - if err != nil { - panic(err) - log.Fatal(err) - } - log.Printf("Packet Received: % x\n", packet[:n]) - } -} diff --git a/misc/tests/tunbench-server.go b/misc/tests/tunbench-server.go deleted file mode 100644 index 53a9a31f..00000000 --- a/misc/tests/tunbench-server.go +++ /dev/null @@ -1,126 +0,0 @@ -package main - -import ( - "fmt" - "log" - "net" - "os/exec" - - "github.com/yggdrasil-network/water" -) - -const mtu = 65535 -const netnsName = "tunbenchns" - -func setup_dev() *water.Interface { - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - return ifce -} - -func setup_dev1() *water.Interface { - ifce := setup_dev() - cmd := exec.Command("ip", "-f", "inet6", - "addr", "add", "fc00::1/8", - "dev", ifce.Name()) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - fmt.Println(string(err)) - panic("Failed to assign address") - } - cmd = exec.Command("ip", "link", "set", - "dev", tun.name, - "mtu", fmt.Sprintf("%d", mtu), - "up") - out, err = cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to bring up interface") - } - return ifce -} - -func addNS(name string) { - cmd := exec.COmmand("ip", "netns", "add", name) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to setup netns") - } -} - -func delNS(name string) { - cmd := exec.COmmand("ip", "netns", "delete", name) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to setup netns") - } -} - -func doInNetNS(comm ...string) *exec.Cmd { - return exec.Command("ip", "netns", "exec", netnsName, comm...) -} - -func setup_dev2() *water.Interface { - ifce := setup_dev() - addNS(netnsName) - cmd := exec.Command("ip", "link", "set", ifce.Name(), "netns", netnsName) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to move tun to netns") - } - cmd = doInNetNS("ip", "-f", "inet6", - "addr", "add", "fc00::2/8", - "dev", ifce.Name()) - out, err = cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to assign address") - } - cmd = doInNetNS("ip", "link", "set", - "dev", tun.name, - "mtu", fmt.Sprintf("%d", mtu), - "up") - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - fmt.Println(string(err)) - panic("Failed to bring up interface") - } - return ifce -} - -func connect() { - -} - -func bench() { -} - -func main() { - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - - log.Printf("Interface Name: %s\n", ifce.Name()) - - packet := make([]byte, 2000) - for { - n, err := ifce.Read(packet) - if err != nil { - panic(err) - log.Fatal(err) - } - log.Printf("Packet Received: % x\n", packet[:n]) - } -} diff --git a/misc/tests/tunbench.go b/misc/tests/tunbench.go deleted file mode 100644 index dbd0a9d2..00000000 --- a/misc/tests/tunbench.go +++ /dev/null @@ -1,128 +0,0 @@ -package main - -import ( - "fmt" - "log" - "net" - "os/exec" - - "github.com/yggdrasil-network/water" -) - -const mtu = 65535 -const netnsName = "tunbenchns" - -func setup_dev() *water.Interface { - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - return ifce -} - -func setup_dev1() *water.Interface { - ifce := setup_dev() - cmd := exec.Command("ip", "-f", "inet6", - "addr", "add", "fc00::1/8", - "dev", ifce.Name()) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - fmt.Println(string(err)) - panic("Failed to assign address") - } - cmd = exec.Command("ip", "link", "set", - "dev", tun.name, - "mtu", fmt.Sprintf("%d", mtu), - "up") - out, err = cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to bring up interface") - } - return ifce -} - -func addNS(name string) { - cmd := exec.COmmand("ip", "netns", "add", name) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to setup netns") - } -} - -func delNS(name string) { - cmd := exec.COmmand("ip", "netns", "delete", name) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to setup netns") - } -} - -func doInNetNS(comm ...string) *exec.Cmd { - return exec.Command("ip", "netns", "exec", netnsName, comm...) -} - -func setup_dev2() *water.Interface { - ifce := setup_dev() - addNS(netnsName) - cmd := exec.Command("ip", "link", "set", ifce.Name(), "netns", netnsName) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to move tun to netns") - } - cmd = exec.Command( - "ip", "-f", "inet6", - "addr", "add", "fc00::2/8", - "dev", ifce.Name()) - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - panic("Failed to assign address") - } - cmd = exec.Command( - "ip", "link", "set", - "dev", tun.name, - "mtu", fmt.Sprintf("%d", mtu), - "up") - out, err := cmd.CombinedOutput() - if err != nil { - fmt.Println(string(out)) - fmt.Println(string(err)) - panic("Failed to bring up interface") - } - return ifce -} - -func connect() { - -} - -func bench() { -} - -func main() { - ifce, err := water.New(water.Config{ - DeviceType: water.TUN, - }) - if err != nil { - panic(err) - } - - log.Printf("Interface Name: %s\n", ifce.Name()) - - packet := make([]byte, 2000) - for { - n, err := ifce.Read(packet) - if err != nil { - panic(err) - log.Fatal(err) - } - log.Printf("Packet Received: % x\n", packet[:n]) - } -} diff --git a/misc/tests/tuntest.go b/misc/tests/tuntest.go deleted file mode 100644 index 8c4a187e..00000000 --- a/misc/tests/tuntest.go +++ /dev/null @@ -1,45 +0,0 @@ -package main - -import ( - "log" - "net" - "sync" - - "github.com/FlexibleBroadband/tun-go" -) - -// first start server tun server. -func main() { - wg := sync.WaitGroup{} - // local tun interface read and write channel. - rCh := make(chan []byte, 1024) - // read from local tun interface channel, and write into remote udp channel. - wg.Add(1) - go func() { - wg.Done() - for { - data := <-rCh - // if data[0]&0xf0 == 0x40 - // write into udp conn. - log.Println("tun->conn:", len(data)) - log.Println("read!!!!!!!!!!!!!!!!!!!!!!!!!!!!!") - log.Println("src:", net.IP(data[8:24]), "dst:", net.IP(data[24:40])) - } - }() - - address := net.ParseIP("fc00::1") - tuntap, err := tun.OpenTun(address) - if err != nil { - panic(err) - } - defer tuntap.Close() - // read data from tun into rCh channel. - wg.Add(1) - go func() { - if err := tuntap.Read(rCh); err != nil { - panic(err) - } - wg.Done() - }() - wg.Wait() -} diff --git a/misc/tests/wire-test.go b/misc/tests/wire-test.go deleted file mode 100644 index 3f476388..00000000 --- a/misc/tests/wire-test.go +++ /dev/null @@ -1,40 +0,0 @@ -package main - -import "wire" -import "fmt" - -import "time" - -func main() { - for idx := 0; idx < 64; idx++ { - num := uint64(1) << uint(idx) - encoded := make([]byte, 10) - length := wire.Encode_uint64(num, encoded) - decoded, _ := wire.Decode_uint64(encoded[:length]) - if decoded != num { - panic(fmt.Sprintf("%d != %d", decoded, num)) - } - } - const count = 1000000 - start := time.Now() - encoded := make([]byte, 10) - //num := ^uint64(0) // Longest possible value for full uint64 range - num := ^uint64(0) >> 1 // Largest positive int64 (real use case) - //num := uint64(0) // Shortest possible value, most will be of this length - length := wire.Encode_uint64(num, encoded) - for idx := 0; idx < count; idx++ { - wire.Encode_uint64(num, encoded) - } - timed := time.Since(start) - fmt.Println("Ops:", count/timed.Seconds()) - fmt.Println("Time:", timed.Nanoseconds()/count) - - encoded = encoded[:length] - start = time.Now() - for idx := 0; idx < count; idx++ { - wire.Decode_uint64(encoded) - } - timed = time.Since(start) - fmt.Println("Ops:", count/timed.Seconds()) - fmt.Println("Time:", timed.Nanoseconds()/count) -}