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shared_memory_server.go
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/
shared_memory_server.go
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// Copyright (C) 2019-2021, Ava Labs, Inc. All rights reserved.
// See the file LICENSE for licensing terms.
package gsharedmemory
import (
"context"
"sync"
"github.com/ava-labs/avalanchego/chains/atomic"
"github.com/ava-labs/avalanchego/chains/atomic/gsharedmemory/gsharedmemoryproto"
"github.com/ava-labs/avalanchego/database"
"github.com/ava-labs/avalanchego/ids"
)
var _ gsharedmemoryproto.SharedMemoryServer = &Server{}
// Server is shared memory that is managed over RPC.
type Server struct {
gsharedmemoryproto.UnimplementedSharedMemoryServer
sm atomic.SharedMemory
db database.Database
getsLock sync.Mutex
gets map[int64]*getRequest
indexedLock sync.Mutex
indexed map[int64]*indexedRequest
applyLock sync.Mutex
apply map[int64]*applyRequest
}
// NewServer returns shared memory connected to remote shared memory
func NewServer(sm atomic.SharedMemory, db database.Database) *Server {
return &Server{
sm: sm,
db: db,
gets: make(map[int64]*getRequest),
indexed: make(map[int64]*indexedRequest),
apply: make(map[int64]*applyRequest),
}
}
type getRequest struct {
peerChainID ids.ID
keys [][]byte
executed bool
remainingValues [][]byte
}
func (s *Server) Get(
_ context.Context,
req *gsharedmemoryproto.GetRequest,
) (*gsharedmemoryproto.GetResponse, error) {
s.getsLock.Lock()
defer s.getsLock.Unlock()
get, exists := s.gets[req.Id]
if !exists {
peerChainID, err := ids.ToID(req.PeerChainID)
if err != nil {
return nil, err
}
get = &getRequest{
peerChainID: peerChainID,
keys: make([][]byte, 0, len(req.Keys)),
}
}
get.keys = append(get.keys, req.Keys...)
if req.Continues {
s.gets[req.Id] = get
return &gsharedmemoryproto.GetResponse{}, nil
}
if !get.executed {
values, err := s.sm.Get(get.peerChainID, get.keys)
if err != nil {
delete(s.gets, req.Id)
return nil, err
}
get.executed = true
get.remainingValues = values
}
currentSize := 0
resp := &gsharedmemoryproto.GetResponse{}
for i, value := range get.remainingValues {
sizeChange := baseElementSize + len(value)
if newSize := currentSize + sizeChange; newSize > maxBatchSize && i > 0 {
break
}
currentSize += sizeChange
resp.Values = append(resp.Values, value)
}
get.remainingValues = get.remainingValues[len(resp.Values):]
resp.Continues = len(get.remainingValues) > 0
if resp.Continues {
s.gets[req.Id] = get
} else {
delete(s.gets, req.Id)
}
return resp, nil
}
type indexedRequest struct {
peerChainID ids.ID
traits [][]byte
startTrait []byte
startKey []byte
limit int
executed bool
remainingValues [][]byte
lastTrait []byte
lastKey []byte
}
func (s *Server) Indexed(
_ context.Context,
req *gsharedmemoryproto.IndexedRequest,
) (*gsharedmemoryproto.IndexedResponse, error) {
s.indexedLock.Lock()
defer s.indexedLock.Unlock()
indexed, exists := s.indexed[req.Id]
if !exists {
peerChainID, err := ids.ToID(req.PeerChainID)
if err != nil {
return nil, err
}
indexed = &indexedRequest{
peerChainID: peerChainID,
traits: make([][]byte, 0, len(req.Traits)),
startTrait: req.StartTrait,
startKey: req.StartKey,
limit: int(req.Limit),
}
}
indexed.traits = append(indexed.traits, req.Traits...)
if req.Continues {
s.indexed[req.Id] = indexed
return &gsharedmemoryproto.IndexedResponse{}, nil
}
if !indexed.executed {
values, lastTrait, lastKey, err := s.sm.Indexed(
indexed.peerChainID,
indexed.traits,
indexed.startTrait,
indexed.startKey,
indexed.limit,
)
if err != nil {
delete(s.indexed, req.Id)
return nil, err
}
indexed.executed = true
indexed.remainingValues = values
indexed.lastTrait = lastTrait
indexed.lastKey = lastKey
}
currentSize := 0
resp := &gsharedmemoryproto.IndexedResponse{
LastTrait: indexed.lastTrait,
LastKey: indexed.lastKey,
}
for i, value := range indexed.remainingValues {
sizeChange := baseElementSize + len(value)
if newSize := currentSize + sizeChange; newSize > maxBatchSize && i > 0 {
break
}
currentSize += sizeChange
resp.Values = append(resp.Values, value)
}
indexed.remainingValues = indexed.remainingValues[len(resp.Values):]
resp.Continues = len(indexed.remainingValues) > 0
if resp.Continues {
indexed.lastTrait = nil
indexed.lastKey = nil
s.indexed[req.Id] = indexed
} else {
delete(s.indexed, req.Id)
}
return resp, nil
}
type applyRequest struct {
requests map[ids.ID]*atomic.Requests
batches map[int64]database.Batch
}
func (s *Server) Apply(
_ context.Context,
req *gsharedmemoryproto.ApplyRequest,
) (*gsharedmemoryproto.ApplyResponse, error) {
s.applyLock.Lock()
defer s.applyLock.Unlock()
apply, exists := s.apply[req.Id]
if !exists {
apply = &applyRequest{
requests: make(map[ids.ID]*atomic.Requests),
batches: make(map[int64]database.Batch),
}
}
if err := s.parseRequests(apply.requests, req.Requests); err != nil {
delete(s.apply, req.Id)
return nil, err
}
if err := s.parseBatches(apply.batches, req.Batches); err != nil {
delete(s.apply, req.Id)
return nil, err
}
if req.Continues {
s.apply[req.Id] = apply
return &gsharedmemoryproto.ApplyResponse{}, nil
}
delete(s.apply, req.Id)
batches := make([]database.Batch, len(apply.batches))
i := 0
for _, batch := range apply.batches {
batches[i] = batch
i++
}
return &gsharedmemoryproto.ApplyResponse{}, s.sm.Apply(apply.requests, batches...)
}
func (s *Server) parseRequests(
requests map[ids.ID]*atomic.Requests,
rawRequests []*gsharedmemoryproto.AtomicRequest,
) error {
for _, value := range rawRequests {
peerChainID, err := ids.ToID(value.PeerChainID)
if err != nil {
return err
}
req, ok := requests[peerChainID]
if !ok {
req = &atomic.Requests{
PutRequests: make([]*atomic.Element, 0, len(value.PutRequests)),
}
requests[peerChainID] = req
}
req.RemoveRequests = append(req.RemoveRequests, value.RemoveRequests...)
for _, v := range value.PutRequests {
req.PutRequests = append(req.PutRequests, &atomic.Element{
Key: v.Key,
Value: v.Value,
Traits: v.Traits,
})
}
}
return nil
}
func (s *Server) parseBatches(
batches map[int64]database.Batch,
rawBatches []*gsharedmemoryproto.Batch,
) error {
for _, reqBatch := range rawBatches {
batch, exists := batches[reqBatch.Id]
if !exists {
batch = s.db.NewBatch()
batches[reqBatch.Id] = batch
}
for _, putReq := range reqBatch.Puts {
if err := batch.Put(putReq.Key, putReq.Value); err != nil {
return err
}
}
for _, deleteReq := range reqBatch.Deletes {
if err := batch.Delete(deleteReq.Key); err != nil {
return err
}
}
}
return nil
}