github.com/theQRL/go-zond@v0.1.1/p2p/dnsdisc/sync.go (about) 1 // Copyright 2019 The go-ethereum Authors 2 // This file is part of the go-ethereum library. 3 // 4 // The go-ethereum library is free software: you can redistribute it and/or modify 5 // it under the terms of the GNU Lesser General Public License as published by 6 // the Free Software Foundation, either version 3 of the License, or 7 // (at your option) any later version. 8 // 9 // The go-ethereum library is distributed in the hope that it will be useful, 10 // but WITHOUT ANY WARRANTY; without even the implied warranty of 11 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 12 // GNU Lesser General Public License for more details. 13 // 14 // You should have received a copy of the GNU Lesser General Public License 15 // along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>. 16 17 package dnsdisc 18 19 import ( 20 "context" 21 "math/rand" 22 "time" 23 24 "github.com/theQRL/go-zond/common/mclock" 25 "github.com/theQRL/go-zond/p2p/enode" 26 ) 27 28 // This is the number of consecutive leaf requests that may fail before 29 // we consider re-resolving the tree root. 30 const rootRecheckFailCount = 5 31 32 // clientTree is a full tree being synced. 33 type clientTree struct { 34 c *Client 35 loc *linkEntry // link to this tree 36 37 lastRootCheck mclock.AbsTime // last revalidation of root 38 leafFailCount int 39 rootFailCount int 40 41 root *rootEntry 42 enrs *subtreeSync 43 links *subtreeSync 44 45 lc *linkCache // tracks all links between all trees 46 curLinks map[string]struct{} // links contained in this tree 47 linkGCRoot string // root on which last link GC has run 48 } 49 50 func newClientTree(c *Client, lc *linkCache, loc *linkEntry) *clientTree { 51 return &clientTree{c: c, lc: lc, loc: loc} 52 } 53 54 // syncAll retrieves all entries of the tree. 55 func (ct *clientTree) syncAll(dest map[string]entry) error { 56 if err := ct.updateRoot(context.Background()); err != nil { 57 return err 58 } 59 if err := ct.links.resolveAll(dest); err != nil { 60 return err 61 } 62 if err := ct.enrs.resolveAll(dest); err != nil { 63 return err 64 } 65 return nil 66 } 67 68 // syncRandom retrieves a single entry of the tree. The Node return value 69 // is non-nil if the entry was a node. 70 func (ct *clientTree) syncRandom(ctx context.Context) (n *enode.Node, err error) { 71 if ct.rootUpdateDue() { 72 if err := ct.updateRoot(ctx); err != nil { 73 return nil, err 74 } 75 } 76 77 // Update fail counter for leaf request errors. 78 defer func() { 79 if err != nil { 80 ct.leafFailCount++ 81 } 82 }() 83 84 // Link tree sync has priority, run it to completion before syncing ENRs. 85 if !ct.links.done() { 86 err := ct.syncNextLink(ctx) 87 return nil, err 88 } 89 ct.gcLinks() 90 91 // Sync next random entry in ENR tree. Once every node has been visited, we simply 92 // start over. This is fine because entries are cached internally by the client LRU 93 // also by DNS resolvers. 94 if ct.enrs.done() { 95 ct.enrs = newSubtreeSync(ct.c, ct.loc, ct.root.eroot, false) 96 } 97 return ct.syncNextRandomENR(ctx) 98 } 99 100 // canSyncRandom checks if any meaningful action can be performed by syncRandom. 101 func (ct *clientTree) canSyncRandom() bool { 102 // Note: the check for non-zero leaf count is very important here. 103 // If we're done syncing all nodes, and no leaves were found, the tree 104 // is empty and we can't use it for sync. 105 return ct.rootUpdateDue() || !ct.links.done() || !ct.enrs.done() || ct.enrs.leaves != 0 106 } 107 108 // gcLinks removes outdated links from the global link cache. GC runs once 109 // when the link sync finishes. 110 func (ct *clientTree) gcLinks() { 111 if !ct.links.done() || ct.root.lroot == ct.linkGCRoot { 112 return 113 } 114 ct.lc.resetLinks(ct.loc.str, ct.curLinks) 115 ct.linkGCRoot = ct.root.lroot 116 } 117 118 func (ct *clientTree) syncNextLink(ctx context.Context) error { 119 hash := ct.links.missing[0] 120 e, err := ct.links.resolveNext(ctx, hash) 121 if err != nil { 122 return err 123 } 124 ct.links.missing = ct.links.missing[1:] 125 126 if dest, ok := e.(*linkEntry); ok { 127 ct.lc.addLink(ct.loc.str, dest.str) 128 ct.curLinks[dest.str] = struct{}{} 129 } 130 return nil 131 } 132 133 func (ct *clientTree) syncNextRandomENR(ctx context.Context) (*enode.Node, error) { 134 index := rand.Intn(len(ct.enrs.missing)) 135 hash := ct.enrs.missing[index] 136 e, err := ct.enrs.resolveNext(ctx, hash) 137 if err != nil { 138 return nil, err 139 } 140 ct.enrs.missing = removeHash(ct.enrs.missing, index) 141 if ee, ok := e.(*enrEntry); ok { 142 return ee.node, nil 143 } 144 return nil, nil 145 } 146 147 func (ct *clientTree) String() string { 148 return ct.loc.String() 149 } 150 151 // removeHash removes the element at index from h. 152 func removeHash(h []string, index int) []string { 153 if len(h) == 1 { 154 return nil 155 } 156 last := len(h) - 1 157 if index < last { 158 h[index] = h[last] 159 h[last] = "" 160 } 161 return h[:last] 162 } 163 164 // updateRoot ensures that the given tree has an up-to-date root. 165 func (ct *clientTree) updateRoot(ctx context.Context) error { 166 if !ct.slowdownRootUpdate(ctx) { 167 return ctx.Err() 168 } 169 170 ct.lastRootCheck = ct.c.clock.Now() 171 ctx, cancel := context.WithTimeout(ctx, ct.c.cfg.Timeout) 172 defer cancel() 173 root, err := ct.c.resolveRoot(ctx, ct.loc) 174 if err != nil { 175 ct.rootFailCount++ 176 return err 177 } 178 ct.root = &root 179 ct.rootFailCount = 0 180 ct.leafFailCount = 0 181 182 // Invalidate subtrees if changed. 183 if ct.links == nil || root.lroot != ct.links.root { 184 ct.links = newSubtreeSync(ct.c, ct.loc, root.lroot, true) 185 ct.curLinks = make(map[string]struct{}) 186 } 187 if ct.enrs == nil || root.eroot != ct.enrs.root { 188 ct.enrs = newSubtreeSync(ct.c, ct.loc, root.eroot, false) 189 } 190 return nil 191 } 192 193 // rootUpdateDue returns true when a root update is needed. 194 func (ct *clientTree) rootUpdateDue() bool { 195 tooManyFailures := ct.leafFailCount > rootRecheckFailCount 196 scheduledCheck := ct.c.clock.Now() >= ct.nextScheduledRootCheck() 197 return ct.root == nil || tooManyFailures || scheduledCheck 198 } 199 200 func (ct *clientTree) nextScheduledRootCheck() mclock.AbsTime { 201 return ct.lastRootCheck.Add(ct.c.cfg.RecheckInterval) 202 } 203 204 // slowdownRootUpdate applies a delay to root resolution if is tried 205 // too frequently. This avoids busy polling when the client is offline. 206 // Returns true if the timeout passed, false if sync was canceled. 207 func (ct *clientTree) slowdownRootUpdate(ctx context.Context) bool { 208 var delay time.Duration 209 switch { 210 case ct.rootFailCount > 20: 211 delay = 10 * time.Second 212 case ct.rootFailCount > 5: 213 delay = 5 * time.Second 214 default: 215 return true 216 } 217 timeout := ct.c.clock.NewTimer(delay) 218 defer timeout.Stop() 219 select { 220 case <-timeout.C(): 221 return true 222 case <-ctx.Done(): 223 return false 224 } 225 } 226 227 // subtreeSync is the sync of an ENR or link subtree. 228 type subtreeSync struct { 229 c *Client 230 loc *linkEntry 231 root string 232 missing []string // missing tree node hashes 233 link bool // true if this sync is for the link tree 234 leaves int // counter of synced leaves 235 } 236 237 func newSubtreeSync(c *Client, loc *linkEntry, root string, link bool) *subtreeSync { 238 return &subtreeSync{c, loc, root, []string{root}, link, 0} 239 } 240 241 func (ts *subtreeSync) done() bool { 242 return len(ts.missing) == 0 243 } 244 245 func (ts *subtreeSync) resolveAll(dest map[string]entry) error { 246 for !ts.done() { 247 hash := ts.missing[0] 248 ctx, cancel := context.WithTimeout(context.Background(), ts.c.cfg.Timeout) 249 e, err := ts.resolveNext(ctx, hash) 250 cancel() 251 if err != nil { 252 return err 253 } 254 dest[hash] = e 255 ts.missing = ts.missing[1:] 256 } 257 return nil 258 } 259 260 func (ts *subtreeSync) resolveNext(ctx context.Context, hash string) (entry, error) { 261 e, err := ts.c.resolveEntry(ctx, ts.loc.domain, hash) 262 if err != nil { 263 return nil, err 264 } 265 switch e := e.(type) { 266 case *enrEntry: 267 if ts.link { 268 return nil, errENRInLinkTree 269 } 270 ts.leaves++ 271 case *linkEntry: 272 if !ts.link { 273 return nil, errLinkInENRTree 274 } 275 ts.leaves++ 276 case *branchEntry: 277 ts.missing = append(ts.missing, e.children...) 278 } 279 return e, nil 280 } 281 282 // linkCache tracks links between trees. 283 type linkCache struct { 284 backrefs map[string]map[string]struct{} 285 changed bool 286 } 287 288 func (lc *linkCache) isReferenced(r string) bool { 289 return len(lc.backrefs[r]) != 0 290 } 291 292 func (lc *linkCache) addLink(from, to string) { 293 if _, ok := lc.backrefs[to][from]; ok { 294 return 295 } 296 297 if lc.backrefs == nil { 298 lc.backrefs = make(map[string]map[string]struct{}) 299 } 300 if _, ok := lc.backrefs[to]; !ok { 301 lc.backrefs[to] = make(map[string]struct{}) 302 } 303 lc.backrefs[to][from] = struct{}{} 304 lc.changed = true 305 } 306 307 // resetLinks clears all links of the given tree. 308 func (lc *linkCache) resetLinks(from string, keep map[string]struct{}) { 309 stk := []string{from} 310 for len(stk) > 0 { 311 item := stk[len(stk)-1] 312 stk = stk[:len(stk)-1] 313 314 for r, refs := range lc.backrefs { 315 if _, ok := keep[r]; ok { 316 continue 317 } 318 if _, ok := refs[item]; !ok { 319 continue 320 } 321 lc.changed = true 322 delete(refs, item) 323 if len(refs) == 0 { 324 delete(lc.backrefs, r) 325 stk = append(stk, r) 326 } 327 } 328 } 329 }