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mirror of https://github.com/cwinfo/yggdrasil-go.git synced 2024-11-23 00:51:35 +00:00

use a more elaborate precomputed lookup table from the switch

This commit is contained in:
Arceliar 2020-05-25 11:49:25 -05:00
parent 28d6e3e605
commit f9bc0b7aee

View File

@ -93,6 +93,20 @@ func (l *switchLocator) dist(dest []byte) int {
return dist return dist
} }
func (l *switchLocator) ldist(sl *switchLocator) int {
lca := -1
for idx := 0; idx < len(l.coords); idx++ {
if idx >= len(sl.coords) {
break
}
if l.coords[idx] != sl.coords[idx] {
break
}
lca = idx
}
return len(l.coords) + len(sl.coords) - 2*(lca+1)
}
// Gets coords in wire encoded format, with *no* length prefix. // Gets coords in wire encoded format, with *no* length prefix.
func (l *switchLocator) getCoords() []byte { func (l *switchLocator) getCoords() []byte {
bs := make([]byte, 0, len(l.coords)) bs := make([]byte, 0, len(l.coords))
@ -140,12 +154,14 @@ type tableElem struct {
port switchPort port switchPort
locator switchLocator locator switchLocator
time time.Time time time.Time
next map[switchPort]*tableElem
} }
// This is the subset of the information about all peers needed to make routing decisions, and it stored separately in an atomically accessed table, which gets hammered in the "hot loop" of the routing logic (see: peer.handleTraffic in peers.go). // This is the subset of the information about all peers needed to make routing decisions, and it stored separately in an atomically accessed table, which gets hammered in the "hot loop" of the routing logic (see: peer.handleTraffic in peers.go).
type lookupTable struct { type lookupTable struct {
self switchLocator self switchLocator
elems map[switchPort]tableElem elems map[switchPort]tableElem // all switch peers, just for sanity checks + API/debugging
_start tableElem // used for lookups
_msg switchMsg _msg switchMsg
} }
@ -517,10 +533,83 @@ func (t *switchTable) _handleMsg(msg *switchMsg, fromPort switchPort, reprocessi
//////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////
// The rest of these are related to the switch worker // The rest of these are related to the switch lookup table
func (t *switchTable) _updateTable() {
newTable := lookupTable{
self: t.data.locator.clone(),
elems: make(map[switchPort]tableElem, len(t.data.peers)),
_msg: *t._getMsg(),
}
newTable._init()
for _, pinfo := range t.data.peers {
if pinfo.locator.root != newTable.self.root {
continue
}
loc := pinfo.locator.clone()
loc.coords = loc.coords[:len(loc.coords)-1] // Remove the them->self link
elem := tableElem{
locator: loc,
port: pinfo.port,
time: pinfo.time,
}
newTable._insert(&elem)
newTable.elems[pinfo.port] = elem
}
t.core.peers.updateTables(t, &newTable)
t.core.router.updateTable(t, &newTable)
}
func (t *lookupTable) _init() {
// WARNING: this relies on the convention that the self port is 0
self := tableElem{locator: t.self} // create self elem
t._start = self // initialize _start to self
t._insert(&self) // insert self into table
}
func (t *lookupTable) _insert(elem *tableElem) {
// This is a helper that should only be run during _updateTable
here := &t._start
for idx := 0; idx <= len(elem.locator.coords); idx++ {
refLoc := here.locator
refLoc.coords = refLoc.coords[:idx] // Note that this is length idx (starts at length 0)
oldDist := refLoc.ldist(&here.locator)
newDist := refLoc.ldist(&elem.locator)
var update bool
switch {
case newDist < oldDist: // new elem is closer to this point in the tree
update = true
case newDist > oldDist: // new elem is too far
case elem.locator.tstamp > refLoc.tstamp: // new elem has a closer timestamp
update = true
case elem.locator.tstamp < refLoc.tstamp: // new elem's timestamp is too old
case elem.time.Before(here.time): // same dist+timestamp, but new elem delivered it faster
update = true
}
if update {
here.port = elem.port
here.locator = elem.locator
here.time = elem.time
// Problem: here is a value, so this doesn't actually update anything...
}
if idx < len(elem.locator.coords) {
if here.next == nil {
here.next = make(map[switchPort]*tableElem)
}
var next *tableElem
var ok bool
if next, ok = here.next[elem.locator.coords[idx]]; !ok {
nextVal := *elem
next = &nextVal
here.next[next.locator.coords[idx]] = next
}
here = next
}
}
}
// This is called via a sync.Once to update the atomically readable subset of switch information that gets used for routing decisions. // This is called via a sync.Once to update the atomically readable subset of switch information that gets used for routing decisions.
func (t *switchTable) _updateTable() { func (t *switchTable) old_updateTable() {
// WARNING this should only be called from within t.data.updater.Do() // WARNING this should only be called from within t.data.updater.Do()
// It relies on the sync.Once for synchronization with messages and lookups // It relies on the sync.Once for synchronization with messages and lookups
// TODO use a pre-computed faster lookup table // TODO use a pre-computed faster lookup table
@ -558,8 +647,23 @@ func (t *switchTable) start() error {
return nil return nil
} }
// Find the best port to forward to for a given set of coords
func (t *lookupTable) lookup(coords []byte) switchPort { func (t *lookupTable) lookup(coords []byte) switchPort {
var offset int
here := &t._start
for offset < len(coords) {
port, l := wire_decode_uint64(coords[offset:])
offset += l
if next, ok := here.next[switchPort(port)]; ok {
here = next
} else {
break
}
}
return here.port
}
// Find the best port to forward to for a given set of coords
func (t *lookupTable) old_lookup(coords []byte) switchPort {
var bestPort switchPort var bestPort switchPort
myDist := t.self.dist(coords) myDist := t.self.dist(coords)
bestDist := myDist bestDist := myDist