lnd/uspv/eight333.go

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package uspv
import (
"fmt"
"log"
"net"
"os"
"sync"
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"github.com/btcsuite/btcd/wire"
)
const (
keyFileName = "testseed.hex"
headerFileName = "headers.bin"
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// version hardcoded for now, probably ok...?
VERSION = 70011
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)
type SPVCon struct {
con net.Conn // the (probably tcp) connection to the node
// Enhanced SPV modes for users who have outgrown easy mode SPV
// but have not yet graduated to full nodes.
HardMode bool // hard mode doesn't use filters.
Ironman bool // ironman only gets blocks, never requests txs.
headerMutex sync.Mutex
headerFile *os.File // file for SPV headers
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//[doesn't work without fancy mutexes, nevermind, just use header file]
// localHeight int32 // block height we're on
remoteHeight int32 // block height they're on
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localVersion uint32 // version we report
remoteVersion uint32 // version remote node
// what's the point of the input queue? remove? leave for now...
inMsgQueue chan wire.Message // Messages coming in from remote node
outMsgQueue chan wire.Message // Messages going out to remote node
WBytes uint64 // total bytes written
RBytes uint64 // total bytes read
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TS *TxStore // transaction store to write to
// mBlockQueue is for keeping track of what height we've requested.
blockQueue chan HashAndHeight
// fPositives is a channel to keep track of bloom filter false positives.
fPositives chan int32
// waitState is a channel that is empty while in the header and block
// sync modes, but when in the idle state has a "true" in it.
inWaitState chan bool
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}
// AskForTx requests a tx we heard about from an inv message.
// It's one at a time but should be fast enough.
// I don't like this function because SPV shouldn't even ask...
func (s *SPVCon) AskForTx(txid wire.ShaHash) {
gdata := wire.NewMsgGetData()
inv := wire.NewInvVect(wire.InvTypeTx, &txid)
gdata.AddInvVect(inv)
s.outMsgQueue <- gdata
}
// HashAndHeight is needed instead of just height in case a fullnode
// responds abnormally (?) by sending out of order merkleblocks.
// we cache a merkleroot:height pair in the queue so we don't have to
// look them up from the disk.
// Also used when inv messages indicate blocks so we can add the header
// and parse the txs in one request instead of requesting headers first.
type HashAndHeight struct {
blockhash wire.ShaHash
height int32
final bool // indicates this is the last merkleblock requested
}
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// NewRootAndHeight saves like 2 lines.
func NewRootAndHeight(b wire.ShaHash, h int32) (hah HashAndHeight) {
hah.blockhash = b
hah.height = h
return
}
func (s *SPVCon) RemoveHeaders(r int32) error {
endPos, err := s.headerFile.Seek(0, os.SEEK_END)
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if err != nil {
return err
}
err = s.headerFile.Truncate(endPos - int64(r*80))
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if err != nil {
return fmt.Errorf("couldn't truncate header file")
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}
return nil
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}
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func (s *SPVCon) IngestMerkleBlock(m *wire.MsgMerkleBlock) {
txids, err := checkMBlock(m) // check self-consistency
if err != nil {
log.Printf("Merkle block error: %s\n", err.Error())
return
}
var hah HashAndHeight
select { // select here so we don't block on an unrequested mblock
case hah = <-s.blockQueue: // pop height off mblock queue
break
default:
log.Printf("Unrequested merkle block")
return
}
// this verifies order, and also that the returned header fits
// into our SPV header file
newMerkBlockSha := m.Header.BlockSha()
if !hah.blockhash.IsEqual(&newMerkBlockSha) {
log.Printf("merkle block out of order error")
return
}
for _, txid := range txids {
err := s.TS.AddTxid(txid, hah.height)
if err != nil {
log.Printf("Txid store error: %s\n", err.Error())
return
}
}
// write to db that we've sync'd to the height indicated in the
// merkle block. This isn't QUITE true since we haven't actually gotten
// the txs yet but if there are problems with the txs we should backtrack.
err = s.TS.SetDBSyncHeight(hah.height)
if err != nil {
log.Printf("Merkle block error: %s\n", err.Error())
return
}
if hah.final {
// don't set waitstate; instead, ask for headers again!
// this way the only thing that triggers waitstate is asking for headers,
// getting 0, calling AskForMerkBlocks(), and seeing you don't need any.
// that way you are pretty sure you're synced up.
err = s.AskForHeaders()
if err != nil {
log.Printf("Merkle block error: %s\n", err.Error())
return
}
}
return
}
// IngestHeaders takes in a bunch of headers and appends them to the
// local header file, checking that they fit. If there's no headers,
// it assumes we're done and returns false. If it worked it assumes there's
// more to request and returns true.
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func (s *SPVCon) IngestHeaders(m *wire.MsgHeaders) (bool, error) {
gotNum := int64(len(m.Headers))
if gotNum > 0 {
fmt.Printf("got %d headers. Range:\n%s - %s\n",
gotNum, m.Headers[0].BlockSha().String(),
m.Headers[len(m.Headers)-1].BlockSha().String())
} else {
log.Printf("got 0 headers, we're probably synced up")
return false, nil
}
s.headerMutex.Lock()
defer s.headerMutex.Unlock()
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var err error
// seek to last header
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_, err = s.headerFile.Seek(-80, os.SEEK_END)
if err != nil {
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return false, err
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}
var last wire.BlockHeader
err = last.Deserialize(s.headerFile)
if err != nil {
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return false, err
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}
prevHash := last.BlockSha()
endPos, err := s.headerFile.Seek(0, os.SEEK_END)
if err != nil {
return false, err
}
tip := int32(endPos/80) - 1 // move back 1 header length to read
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// check first header returned to make sure it fits on the end
// of our header file
if !m.Headers[0].PrevBlock.IsEqual(&prevHash) {
// delete 100 headers if this happens! Dumb reorg.
log.Printf("reorg? header msg doesn't fit. points to %s, expect %s",
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m.Headers[0].PrevBlock.String(), prevHash.String())
if endPos < 8080 {
// jeez I give up, back to genesis
s.headerFile.Truncate(80)
} else {
err = s.headerFile.Truncate(endPos - 8000)
if err != nil {
return false, fmt.Errorf("couldn't truncate header file")
}
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}
return true, fmt.Errorf("Truncated header file to try again")
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}
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for _, resphdr := range m.Headers {
// write to end of file
err = resphdr.Serialize(s.headerFile)
if err != nil {
return false, err
}
// advance chain tip
tip++
// check last header
worked := CheckHeader(s.headerFile, tip, s.TS.Param)
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if !worked {
if endPos < 8080 {
// jeez I give up, back to genesis
s.headerFile.Truncate(80)
} else {
err = s.headerFile.Truncate(endPos - 8000)
if err != nil {
return false, fmt.Errorf("couldn't truncate header file")
}
}
// probably should disconnect from spv node at this point,
// since they're giving us invalid headers.
return true, fmt.Errorf(
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"Header %d - %s doesn't fit, dropping 100 headers.",
resphdr.BlockSha().String(), tip)
}
}
log.Printf("Headers to height %d OK.", tip)
return true, nil
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}
func (s *SPVCon) AskForHeaders() error {
var hdr wire.BlockHeader
ghdr := wire.NewMsgGetHeaders()
ghdr.ProtocolVersion = s.localVersion
s.headerMutex.Lock() // start header file ops
info, err := s.headerFile.Stat()
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if err != nil {
return err
}
headerFileSize := info.Size()
if headerFileSize == 0 || headerFileSize%80 != 0 { // header file broken
return fmt.Errorf("Header file not a multiple of 80 bytes")
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}
// seek to 80 bytes from end of file
ns, err := s.headerFile.Seek(-80, os.SEEK_END)
if err != nil {
log.Printf("can't seek\n")
return err
}
log.Printf("suk to offset %d (should be near the end\n", ns)
// get header from last 80 bytes of file
err = hdr.Deserialize(s.headerFile)
if err != nil {
log.Printf("can't Deserialize")
return err
}
s.headerMutex.Unlock() // done with header file
cHash := hdr.BlockSha()
err = ghdr.AddBlockLocatorHash(&cHash)
if err != nil {
return err
}
fmt.Printf("get headers message has %d header hashes, first one is %s\n",
len(ghdr.BlockLocatorHashes), ghdr.BlockLocatorHashes[0].String())
s.outMsgQueue <- ghdr
return nil
}
// AskForMerkBlocks requests blocks from current to last
// right now this asks for 1 block per getData message.
// Maybe it's faster to ask for many in a each message?
func (s *SPVCon) AskForBlocks() error {
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var hdr wire.BlockHeader
s.headerMutex.Lock() // lock just to check filesize
stat, err := os.Stat(headerFileName)
s.headerMutex.Unlock() // checked, unlock
endPos := stat.Size()
headerTip := int32(endPos/80) - 1 // move back 1 header length to read
dbTip, err := s.TS.GetDBSyncHeight()
if err != nil {
return err
}
fmt.Printf("dbTip %d headerTip %d\n", dbTip, headerTip)
if dbTip > headerTip {
return fmt.Errorf("error- db longer than headers! shouldn't happen.")
}
if dbTip == headerTip {
// nothing to ask for; set wait state and return
fmt.Printf("no blocks to request, entering wait state\n")
fmt.Printf("%d bytes received\n", s.RBytes)
s.inWaitState <- true
// also advertise any unconfirmed txs here
s.Rebroadcast()
return nil
}
fmt.Printf("will request merkleblocks %d to %d\n", dbTip, headerTip)
if !s.HardMode { // don't send this in hardmode! that's the whole point
// create initial filter
filt, err := s.TS.GimmeFilter()
if err != nil {
return err
}
// send filter
s.SendFilter(filt)
fmt.Printf("sent filter %x\n", filt.MsgFilterLoad().Filter)
}
// loop through all heights where we want merkleblocks.
for dbTip <= headerTip {
// load header from file
s.headerMutex.Lock() // seek to header we need
_, err = s.headerFile.Seek(int64((dbTip-1)*80), os.SEEK_SET)
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if err != nil {
return err
}
err = hdr.Deserialize(s.headerFile) // read header, done w/ file for now
s.headerMutex.Unlock() // unlock after reading 1 header
if err != nil {
log.Printf("header deserialize error!\n")
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return err
}
bHash := hdr.BlockSha()
// create inventory we're asking for
iv1 := new(wire.InvVect)
// if hardmode, ask for legit blocks, none of this ralphy stuff
if s.HardMode {
iv1 = wire.NewInvVect(wire.InvTypeBlock, &bHash)
} else { // ah well
iv1 = wire.NewInvVect(wire.InvTypeFilteredBlock, &bHash)
}
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gdataMsg := wire.NewMsgGetData()
// add inventory
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err = gdataMsg.AddInvVect(iv1)
if err != nil {
return err
}
hah := NewRootAndHeight(hdr.BlockSha(), dbTip)
if dbTip == headerTip { // if this is the last block, indicate finality
hah.final = true
}
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s.outMsgQueue <- gdataMsg
// waits here most of the time for the queue to empty out
s.blockQueue <- hah // push height and mroot of requested block on queue
dbTip++
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}
return nil
}