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package blockpool
import (
"bytes"
"fmt"
"math/big"
"sync"
"time"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/errs"
ethlogger "github.com/ethereum/go-ethereum/logger"
"github.com/ethereum/go-ethereum/pow"
)
var plog = ethlogger . NewLogger ( "Blockpool" )
var (
// max number of block hashes sent in one request
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blockHashesBatchSize = 256
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// max number of blocks sent in one request
blockBatchSize = 64
// interval between two consecutive block checks (and requests)
blocksRequestInterval = 3 * time . Second
// level of redundancy in block requests sent
blocksRequestRepetition = 1
// interval between two consecutive block hash checks (and requests)
blockHashesRequestInterval = 3 * time . Second
// max number of idle iterations, ie., check through a section without new blocks coming in
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blocksRequestMaxIdleRounds = 20
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// timeout interval: max time allowed for peer without sending a block hash
blockHashesTimeout = 60 * time . Second
// timeout interval: max time allowed for peer without sending a block
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blocksTimeout = 60 * time . Second
//
idleBestPeerTimeout = 60 * time . Second
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)
// config embedded in components, by default fall back to constants
// by default all resolved to local
type Config struct {
BlockHashesBatchSize int
BlockBatchSize int
BlocksRequestRepetition int
BlocksRequestMaxIdleRounds int
BlockHashesRequestInterval time . Duration
BlocksRequestInterval time . Duration
BlockHashesTimeout time . Duration
BlocksTimeout time . Duration
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IdleBestPeerTimeout time . Duration
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}
// blockpool errors
const (
ErrInvalidBlock = iota
ErrInvalidPoW
ErrUnrequestedBlock
ErrInsufficientChainInfo
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ErrIdleTooLong
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)
var errorToString = map [ int ] string {
ErrInvalidBlock : "Invalid block" ,
ErrInvalidPoW : "Invalid PoW" ,
ErrUnrequestedBlock : "Unrequested block" ,
ErrInsufficientChainInfo : "Insufficient chain info" ,
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ErrIdleTooLong : "Idle too long" ,
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}
// init initialises all your laundry
func ( self * Config ) init ( ) {
if self . BlockHashesBatchSize == 0 {
self . BlockHashesBatchSize = blockHashesBatchSize
}
if self . BlockBatchSize == 0 {
self . BlockBatchSize = blockBatchSize
}
if self . BlocksRequestRepetition == 0 {
self . BlocksRequestRepetition = blocksRequestRepetition
}
if self . BlocksRequestMaxIdleRounds == 0 {
self . BlocksRequestMaxIdleRounds = blocksRequestMaxIdleRounds
}
if self . BlockHashesRequestInterval == 0 {
self . BlockHashesRequestInterval = blockHashesRequestInterval
}
if self . BlocksRequestInterval == 0 {
self . BlocksRequestInterval = blocksRequestInterval
}
if self . BlockHashesTimeout == 0 {
self . BlockHashesTimeout = blockHashesTimeout
}
if self . BlocksTimeout == 0 {
self . BlocksTimeout = blocksTimeout
}
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if self . IdleBestPeerTimeout == 0 {
self . IdleBestPeerTimeout = idleBestPeerTimeout
}
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}
// node is the basic unit of the internal model of block chain/tree in the blockpool
type node struct {
lock sync . RWMutex
hash [ ] byte
block * types . Block
hashBy string
blockBy string
td * big . Int
}
type index struct {
int
}
// entry is the struct kept and indexed in the pool
type entry struct {
node * node
section * section
index * index
}
type BlockPool struct {
Config * Config
// the minimal interface with blockchain
hasBlock func ( hash [ ] byte ) bool
insertChain func ( types . Blocks ) error
verifyPoW func ( pow . Block ) bool
pool map [ string ] * entry
peers * peers
lock sync . RWMutex
chainLock sync . RWMutex
// alloc-easy pool of hash slices
hashSlicePool chan [ ] [ ] byte
status * status
quit chan bool
wg sync . WaitGroup
running bool
}
// public constructor
func New (
hasBlock func ( hash [ ] byte ) bool ,
insertChain func ( types . Blocks ) error ,
verifyPoW func ( pow . Block ) bool ,
) * BlockPool {
return & BlockPool {
Config : & Config { } ,
hasBlock : hasBlock ,
insertChain : insertChain ,
verifyPoW : verifyPoW ,
}
}
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func severity ( code int ) ethlogger . LogLevel {
switch code {
case ErrUnrequestedBlock :
return ethlogger . WarnLevel
default :
return ethlogger . ErrorLevel
}
}
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// allows restart
func ( self * BlockPool ) Start ( ) {
self . lock . Lock ( )
defer self . lock . Unlock ( )
if self . running {
return
}
self . Config . init ( )
self . hashSlicePool = make ( chan [ ] [ ] byte , 150 )
self . status = newStatus ( )
self . quit = make ( chan bool )
self . pool = make ( map [ string ] * entry )
self . running = true
self . peers = & peers {
errors : & errs . Errors {
Package : "Blockpool" ,
Errors : errorToString ,
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Level : severity ,
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} ,
peers : make ( map [ string ] * peer ) ,
status : self . status ,
bp : self ,
}
timer := time . NewTicker ( 3 * time . Second )
go func ( ) {
for {
select {
case <- self . quit :
return
case <- timer . C :
plog . Debugf ( "status:\n%v" , self . Status ( ) )
}
}
} ( )
plog . Infoln ( "Started" )
}
func ( self * BlockPool ) Stop ( ) {
self . lock . Lock ( )
if ! self . running {
self . lock . Unlock ( )
return
}
self . running = false
self . lock . Unlock ( )
plog . Infoln ( "Stopping..." )
close ( self . quit )
self . lock . Lock ( )
self . peers = nil
self . pool = nil
self . lock . Unlock ( )
plog . Infoln ( "Stopped" )
}
// Wait blocks until active processes finish
func ( self * BlockPool ) Wait ( t time . Duration ) {
self . lock . Lock ( )
if ! self . running {
self . lock . Unlock ( )
return
}
self . lock . Unlock ( )
plog . Infoln ( "Waiting for processes to complete..." )
w := make ( chan bool )
go func ( ) {
self . wg . Wait ( )
close ( w )
} ( )
select {
case <- w :
plog . Infoln ( "Processes complete" )
case <- time . After ( t ) :
plog . Warnf ( "Timeout" )
}
}
/ *
AddPeer is called by the eth protocol instance running on the peer after
the status message has been received with total difficulty and current block hash
Called a second time with the same peer id , it is used to update chain info for a peer . This is used when a new ( mined ) block message is received .
RemovePeer needs to be called when the peer disconnects .
Peer info is currently not persisted across disconnects ( or sessions )
* /
func ( self * BlockPool ) AddPeer (
td * big . Int , currentBlockHash [ ] byte ,
peerId string ,
requestBlockHashes func ( [ ] byte ) error ,
requestBlocks func ( [ ] [ ] byte ) error ,
peerError func ( * errs . Error ) ,
) ( best bool ) {
return self . peers . addPeer ( td , currentBlockHash , peerId , requestBlockHashes , requestBlocks , peerError )
}
// RemovePeer needs to be called when the peer disconnects
func ( self * BlockPool ) RemovePeer ( peerId string ) {
self . peers . removePeer ( peerId )
}
/ *
AddBlockHashes
Entry point for eth protocol to add block hashes received via BlockHashesMsg
only hashes from the best peer are handled
initiates further hash requests until a known parent is reached ( unless cancelled by a peerSwitch event , i . e . , when a better peer becomes best peer )
launches all block request processes on each chain section
the first argument is an iterator function . Using this block hashes are decoded from the rlp message payload on demand . As a result , AddBlockHashes needs to run synchronously for one peer since the message is discarded if the caller thread returns .
* /
func ( self * BlockPool ) AddBlockHashes ( next func ( ) ( [ ] byte , bool ) , peerId string ) {
bestpeer , best := self . peers . getPeer ( peerId )
if ! best {
return
}
// bestpeer is still the best peer
self . wg . Add ( 1 )
defer func ( ) { self . wg . Done ( ) } ( )
self . status . lock . Lock ( )
self . status . activePeers [ bestpeer . id ] ++
self . status . lock . Unlock ( )
var n int
var hash [ ] byte
var ok , headSection , peerswitch bool
var sec , child , parent * section
var entry * entry
var nodes [ ] * node
hash , ok = next ( )
bestpeer . lock . Lock ( )
plog . Debugf ( "AddBlockHashes: peer <%s> starting from [%s] (peer head: %s)" , peerId , hex ( bestpeer . parentHash ) , hex ( bestpeer . currentBlockHash ) )
// first check if we are building the head section of a peer's chain
if bytes . Equal ( bestpeer . parentHash , hash ) {
if self . hasBlock ( bestpeer . currentBlockHash ) {
return
}
/ *
when peer is promoted in switchPeer , a new header section process is launched
as the head section skeleton is actually created here , it is signaled to the process
so that it can quit
in the special case that the node for parent of the head block is found in the blockpool
( with or without fetched block )
* /
headSection = true
if entry := self . get ( bestpeer . currentBlockHash ) ; entry == nil {
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) head section starting from [%s] " , peerId , hex ( bestpeer . currentBlockHash ) , hex ( bestpeer . parentHash ) )
// if head block is not yet in the pool, create entry and start node list for section
node := & node {
hash : bestpeer . currentBlockHash ,
block : bestpeer . currentBlock ,
hashBy : peerId ,
blockBy : peerId ,
}
// nodes is a list of nodes in one section ordered top-bottom (old to young)
nodes = append ( nodes , node )
n ++
} else {
// otherwise set child section iff found node is the root of a section
// this is a possible scenario when a singleton head section was created
// on an earlier occasion this peer or another with the same block was best peer
if entry . node == entry . section . bottom {
child = entry . section
plog . DebugDetailf ( "AddBlockHashes: peer <%s>: connects to child section root %s" , peerId , hex ( bestpeer . currentBlockHash ) )
}
}
} else {
// otherwise : we are not building the head section of the peer
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) section starting from [%s] " , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
}
// the switch channel signals peerswitch event
switchC := bestpeer . switchC
bestpeer . lock . Unlock ( )
// iterate over hashes coming from peer (first round we have hash set above)
LOOP :
for ; ok ; hash , ok = next ( ) {
select {
case <- self . quit :
// global quit for blockpool
return
case <- switchC :
// if the peer is demoted, no more hashes read
plog . DebugDetailf ( "AddBlockHashes: demoted peer <%s> (head: %s)" , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
peerswitch = true
break LOOP
default :
}
// if we reach the blockchain we stop reading more
if self . hasBlock ( hash ) {
// check if known block connecting the downloaded chain to our blockchain
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) found block %s in the blockchain" , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
if len ( nodes ) == 1 {
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plog . DebugDetailf ( "AddBlockHashes: singleton section pushed to blockchain peer <%s> (head: %s) found block %s in the blockchain" , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
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// create new section if needed and push it to the blockchain
sec = self . newSection ( nodes )
sec . addSectionToBlockChain ( bestpeer )
} else {
/ *
not added hash yet but according to peer child section built
earlier chain connects with blockchain
this maybe a potential vulnarability
the root block arrives ( or already there but its parenthash was not pointing to known block in the blockchain )
we start inserting - > error - > remove the entire chain
instead of punishing this peer
solution : when switching peers always make sure best peers own head block
and td together with blockBy are recorded on the node
* /
if len ( nodes ) == 0 && child != nil {
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plog . DebugDetailf ( "AddBlockHashes: child section [%s] pushed to blockchain peer <%s> (head: %s) found block %s in the blockchain" , sectionhex ( child ) , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
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child . addSectionToBlockChain ( bestpeer )
}
}
break LOOP
}
// look up node in the pool
entry = self . get ( hash )
if entry != nil {
// reached a known chain in the pool
if entry . node == entry . section . bottom && n == 1 {
/ *
the first block hash received is an orphan in the pool
this also supports clients that ( despite the spec ) include < from > hash in their
response to hashes request . Note that by providing < from > we can link sections
without having to wait for the root block of the child section to arrive , so it allows for superior performance
* /
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) found head block [%s] as root of connecting child section [%s] skipping" , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) , sectionhex ( entry . section ) )
// record the entry's chain section as child section
child = entry . section
continue LOOP
}
// otherwise record entry's chain section as parent connecting it to the pool
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) found block [%s] in section [%s]. Connected to pool." , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) , sectionhex ( entry . section ) )
parent = entry . section
break LOOP
}
// finally if node for block hash does not exist, create it and append node to section nodes
node := & node {
hash : hash ,
hashBy : peerId ,
}
nodes = append ( nodes , node )
} //for
/ *
we got here if
- run out of hashes ( parent = nil ) sent by our best peer
- our peer is demoted ( peerswitch = true )
- reached blockchain or blockpool
- quitting
* /
self . chainLock . Lock ( )
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s): %v nodes in new section" , peerId , hex ( bestpeer . currentBlockHash ) , len ( nodes ) )
/ *
handle forks where connecting node is mid - section
by splitting section at fork
no splitting needed if connecting node is head of a section
* /
if parent != nil && entry != nil && entry . node != parent . top && len ( nodes ) > 0 {
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s): fork after %s" , peerId , hex ( bestpeer . currentBlockHash ) , hex ( hash ) )
self . splitSection ( parent , entry )
self . status . lock . Lock ( )
self . status . values . Forks ++
self . status . lock . Unlock ( )
}
/ *
if new section is created , link it to parent / child sections
and launch section process fetching blocks and further hashes
* /
sec = self . linkSections ( nodes , parent , child )
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if sec != nil {
self . status . lock . Lock ( )
self . status . values . BlockHashes += len ( nodes )
self . status . lock . Unlock ( )
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s): section [%s] created" , peerId , hex ( bestpeer . currentBlockHash ) , sectionhex ( sec ) )
}
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self . chainLock . Unlock ( )
/ *
if a blockpool node is reached ( parent section is not nil ) ,
activate section ( unless our peer is demoted by now ) .
this can be the bottom half of a newly split section in case of a fork .
bestPeer is nil if we got here after our peer got demoted while processing .
in this case no activation should happen
* /
if parent != nil && ! peerswitch {
self . activateChain ( parent , bestpeer , nil )
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s): parent section [%s]" , peerId , hex ( bestpeer . currentBlockHash ) , sectionhex ( parent ) )
}
/ *
if a new section was created ,
register section iff head section or no child known
activate it with this peer
* /
if sec != nil {
// switch on section process (it is paused by switchC)
if ! peerswitch {
if headSection || child == nil {
bestpeer . lock . Lock ( )
bestpeer . sections = append ( bestpeer . sections , sec . top . hash )
bestpeer . lock . Unlock ( )
}
/ *
request next block hashes for parent section here .
but only once , repeating only when bottom block arrives ,
otherwise no way to check if it arrived
* /
bestpeer . requestBlockHashes ( sec . bottom . hash )
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s): start requesting blocks for section [%s]" , peerId , hex ( bestpeer . currentBlockHash ) , sectionhex ( sec ) )
sec . activate ( bestpeer )
} else {
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) no longer best: delay requesting blocks for section [%s]" , peerId , hex ( bestpeer . currentBlockHash ) , sectionhex ( sec ) )
sec . deactivate ( )
}
}
// if we are processing peer's head section, signal it to headSection process that it is created
if headSection {
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) head section registered on head section process" , peerId , hex ( bestpeer . currentBlockHash ) )
var headSec * section
switch {
case sec != nil :
headSec = sec
case child != nil :
headSec = child
default :
headSec = parent
}
if ! peerswitch {
plog . DebugDetailf ( "AddBlockHashes: peer <%s> (head: %s) head section [%s] created signalled to head section process" , peerId , hex ( bestpeer . currentBlockHash ) , sectionhex ( headSec ) )
bestpeer . headSectionC <- headSec
}
}
}
/ *
AddBlock is the entry point for the eth protocol to call when blockMsg is received .
It has a strict interpretation of the protocol in that if the block received has not been requested , it results in an error
At the same time it is opportunistic in that if a requested block may be provided by any peer .
The received block is checked for PoW . Only the first PoW - valid block for a hash is considered legit .
* /
func ( self * BlockPool ) AddBlock ( block * types . Block , peerId string ) {
hash := block . Hash ( )
sender , _ := self . peers . getPeer ( peerId )
if sender == nil {
return
}
self . status . lock . Lock ( )
self . status . activePeers [ peerId ] ++
self . status . lock . Unlock ( )
entry := self . get ( hash )
// a peer's current head block is appearing the first time
if bytes . Equal ( hash , sender . currentBlockHash ) {
if sender . currentBlock == nil {
plog . Debugf ( "AddBlock: add head block %s for peer <%s> (head: %s)" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
sender . setChainInfoFromBlock ( block )
// sender.currentBlockC <- block
self . status . lock . Lock ( )
self . status . values . Blocks ++
self . status . values . BlocksInPool ++
self . status . lock . Unlock ( )
} else {
plog . DebugDetailf ( "AddBlock: head block %s for peer <%s> (head: %s) already known" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
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sender . currentBlockC <- block
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}
} else {
plog . DebugDetailf ( "AddBlock: block %s received from peer <%s> (head: %s)" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
sender . lock . Lock ( )
// update peer chain info if more recent than what we registered
if block . Td != nil && block . Td . Cmp ( sender . td ) > 0 {
sender . td = block . Td
sender . currentBlockHash = block . Hash ( )
sender . parentHash = block . ParentHash ( )
sender . currentBlock = block
sender . headSection = nil
}
sender . lock . Unlock ( )
if entry == nil {
// penalise peer for sending what we have not asked
plog . DebugDetailf ( "AddBlock: unrequested block %s received from peer <%s> (head: %s)" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
sender . addError ( ErrUnrequestedBlock , "%x" , hash )
self . status . lock . Lock ( )
self . status . badPeers [ peerId ] ++
self . status . lock . Unlock ( )
return
}
}
if entry == nil {
return
}
node := entry . node
node . lock . Lock ( )
defer node . lock . Unlock ( )
// check if block already present
if node . block != nil {
plog . DebugDetailf ( "AddBlock: block %s from peer <%s> (head: %s) already sent by <%s> " , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) , node . blockBy )
return
}
// check if block is already inserted in the blockchain
if self . hasBlock ( hash ) {
plog . DebugDetailf ( "AddBlock: block %s from peer <%s> (head: %s) already in the blockchain" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
return
}
// validate block for PoW
if ! self . verifyPoW ( block ) {
plog . Warnf ( "AddBlock: invalid PoW on block %s from peer <%s> (head: %s)" , hex ( hash ) , peerId , hex ( sender . currentBlockHash ) )
sender . addError ( ErrInvalidPoW , "%x" , hash )
self . status . lock . Lock ( )
self . status . badPeers [ peerId ] ++
self . status . lock . Unlock ( )
return
}
node . block = block
node . blockBy = peerId
node . td = block . Td // optional field
self . status . lock . Lock ( )
self . status . values . Blocks ++
self . status . values . BlocksInPool ++
self . status . lock . Unlock ( )
}
/ *
iterates down a chain section by section
activating section process on incomplete sections with peer
relinking orphaned sections with their parent if root block ( and its parent hash ) is known )
* /
func ( self * BlockPool ) activateChain ( sec * section , p * peer , connected map [ string ] * section ) {
p . lock . RLock ( )
switchC := p . switchC
p . lock . RUnlock ( )
var i int
LOOP :
for sec != nil {
parent := self . getParent ( sec )
plog . DebugDetailf ( "activateChain: section [%s] activated by peer <%s>" , sectionhex ( sec ) , p . id )
sec . activate ( p )
if i > 0 && connected != nil {
connected [ string ( sec . top . hash ) ] = sec
}
/ *
we need to relink both complete and incomplete sections
the latter could have been blockHashesRequestsComplete before being delinked from its parent
* /
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if parent == nil {
if sec . bottom . block != nil {
if entry := self . get ( sec . bottom . block . ParentHash ( ) ) ; entry != nil {
parent = entry . section
plog . DebugDetailf ( "activateChain: [%s]-[%s] link" , sectionhex ( parent ) , sectionhex ( sec ) )
link ( parent , sec )
}
} else {
plog . DebugDetailf ( "activateChain: section [%s] activated by peer <%s> has missing root block" , sectionhex ( sec ) , p . id )
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}
}
sec = parent
// stop if peer got demoted
select {
case <- switchC :
break LOOP
case <- self . quit :
break LOOP
default :
}
}
}
// must run in separate go routine, otherwise
// switchpeer -> activateChain -> activate deadlocks on section process select and peers.lock
func ( self * BlockPool ) requestBlocks ( attempts int , hashes [ ] [ ] byte ) {
self . wg . Add ( 1 )
go func ( ) {
self . peers . requestBlocks ( attempts , hashes )
self . wg . Done ( )
} ( )
}
// convenience methods to access adjacent sections
func ( self * BlockPool ) getParent ( sec * section ) * section {
self . chainLock . RLock ( )
defer self . chainLock . RUnlock ( )
return sec . parent
}
func ( self * BlockPool ) getChild ( sec * section ) * section {
self . chainLock . RLock ( )
defer self . chainLock . RUnlock ( )
return sec . child
}
// accessor and setter for entries in the pool
func ( self * BlockPool ) get ( hash [ ] byte ) * entry {
self . lock . RLock ( )
defer self . lock . RUnlock ( )
return self . pool [ string ( hash ) ]
}
func ( self * BlockPool ) set ( hash [ ] byte , e * entry ) {
self . lock . Lock ( )
defer self . lock . Unlock ( )
self . pool [ string ( hash ) ] = e
}
func ( self * BlockPool ) remove ( sec * section ) {
// delete node entries from pool index under pool lock
self . lock . Lock ( )
defer self . lock . Unlock ( )
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for _ , node := range sec . nodes {
delete ( self . pool , string ( node . hash ) )
}
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if sec . initialised && sec . poolRootIndex != 0 {
self . status . lock . Lock ( )
self . status . values . BlocksInPool -= len ( sec . nodes ) - sec . missing
self . status . lock . Unlock ( )
}
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}
func ( self * BlockPool ) getHashSlice ( ) ( s [ ] [ ] byte ) {
select {
case s = <- self . hashSlicePool :
default :
s = make ( [ ] [ ] byte , self . Config . BlockBatchSize )
}
return
}
// Return returns a Client to the pool.
func ( self * BlockPool ) putHashSlice ( s [ ] [ ] byte ) {
if len ( s ) == self . Config . BlockBatchSize {
select {
case self . hashSlicePool <- s :
default :
}
}
}
// pretty prints hash (byte array) with first 4 bytes in hex
func hex ( hash [ ] byte ) ( name string ) {
if hash == nil {
name = ""
} else {
name = fmt . Sprintf ( "%x" , hash [ : 4 ] )
}
return
}
// pretty prints a section using first 4 bytes in hex of bottom and top blockhash of the section
func sectionhex ( section * section ) ( name string ) {
if section == nil {
name = ""
} else {
name = fmt . Sprintf ( "%x-%x" , section . bottom . hash [ : 4 ] , section . top . hash [ : 4 ] )
}
return
}