github.com/aquanetwork/aquachain@v1.7.8/trie/sync.go (about)

     1  // Copyright 2015 The aquachain Authors
     2  // This file is part of the aquachain library.
     3  //
     4  // The aquachain 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 aquachain 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 aquachain library. If not, see <http://www.gnu.org/licenses/>.
    16  
    17  package trie
    18  
    19  import (
    20  	"errors"
    21  	"fmt"
    22  
    23  	"gitlab.com/aquachain/aquachain/aquadb"
    24  	"gitlab.com/aquachain/aquachain/common"
    25  	"gitlab.com/aquachain/aquachain/common/prque"
    26  )
    27  
    28  // ErrNotRequested is returned by the trie sync when it's requested to process a
    29  // node it did not request.
    30  var ErrNotRequested = errors.New("not requested")
    31  
    32  // ErrAlreadyProcessed is returned by the trie sync when it's requested to process a
    33  // node it already processed previously.
    34  var ErrAlreadyProcessed = errors.New("already processed")
    35  
    36  // request represents a scheduled or already in-flight state retrieval request.
    37  type request struct {
    38  	hash common.Hash // Hash of the node data content to retrieve
    39  	data []byte      // Data content of the node, cached until all subtrees complete
    40  	raw  bool        // Whether this is a raw entry (code) or a trie node
    41  
    42  	parents []*request // Parent state nodes referencing this entry (notify all upon completion)
    43  	depth   int        // Depth level within the trie the node is located to prioritise DFS
    44  	deps    int        // Number of dependencies before allowed to commit this node
    45  
    46  	callback LeafCallback // Callback to invoke if a leaf node it reached on this branch
    47  }
    48  
    49  // SyncResult is a simple list to return missing nodes along with their request
    50  // hashes.
    51  type SyncResult struct {
    52  	Hash common.Hash // Hash of the originally unknown trie node
    53  	Data []byte      // Data content of the retrieved node
    54  }
    55  
    56  // syncMemBatch is an in-memory buffer of successfully downloaded but not yet
    57  // persisted data items.
    58  type syncMemBatch struct {
    59  	batch map[common.Hash][]byte // In-memory membatch of recently completed items
    60  	order []common.Hash          // Order of completion to prevent out-of-order data loss
    61  }
    62  
    63  // newSyncMemBatch allocates a new memory-buffer for not-yet persisted trie nodes.
    64  func newSyncMemBatch() *syncMemBatch {
    65  	return &syncMemBatch{
    66  		batch: make(map[common.Hash][]byte),
    67  		order: make([]common.Hash, 0, 256),
    68  	}
    69  }
    70  
    71  // TrieSync is the main state trie synchronisation scheduler, which provides yet
    72  // unknown trie hashes to retrieve, accepts node data associated with said hashes
    73  // and reconstructs the trie step by step until all is done.
    74  type TrieSync struct {
    75  	database DatabaseReader           // Persistent database to check for existing entries
    76  	membatch *syncMemBatch            // Memory buffer to avoid frequest database writes
    77  	requests map[common.Hash]*request // Pending requests pertaining to a key hash
    78  	queue    *prque.Prque             // Priority queue with the pending requests
    79  }
    80  
    81  // NewTrieSync creates a new trie data download scheduler.
    82  func NewTrieSync(root common.Hash, database DatabaseReader, callback LeafCallback) *TrieSync {
    83  	ts := &TrieSync{
    84  		database: database,
    85  		membatch: newSyncMemBatch(),
    86  		requests: make(map[common.Hash]*request),
    87  		queue:    prque.New(nil),
    88  	}
    89  	ts.AddSubTrie(root, 0, common.Hash{}, callback)
    90  	return ts
    91  }
    92  
    93  // AddSubTrie registers a new trie to the sync code, rooted at the designated parent.
    94  func (s *TrieSync) AddSubTrie(root common.Hash, depth int, parent common.Hash, callback LeafCallback) {
    95  	// Short circuit if the trie is empty or already known
    96  	if root == emptyRoot {
    97  		return
    98  	}
    99  	if _, ok := s.membatch.batch[root]; ok {
   100  		return
   101  	}
   102  	key := root.Bytes()
   103  	blob, _ := s.database.Get(key)
   104  	if local, err := decodeNode(key, blob, 0); local != nil && err == nil {
   105  		return
   106  	}
   107  	// Assemble the new sub-trie sync request
   108  	req := &request{
   109  		hash:     root,
   110  		depth:    depth,
   111  		callback: callback,
   112  	}
   113  	// If this sub-trie has a designated parent, link them together
   114  	if parent != (common.Hash{}) {
   115  		ancestor := s.requests[parent]
   116  		if ancestor == nil {
   117  			panic(fmt.Sprintf("sub-trie ancestor not found: %x", parent))
   118  		}
   119  		ancestor.deps++
   120  		req.parents = append(req.parents, ancestor)
   121  	}
   122  	s.schedule(req)
   123  }
   124  
   125  // AddRawEntry schedules the direct retrieval of a state entry that should not be
   126  // interpreted as a trie node, but rather accepted and stored into the database
   127  // as is. This method's goal is to support misc state metadata retrievals (e.g.
   128  // contract code).
   129  func (s *TrieSync) AddRawEntry(hash common.Hash, depth int, parent common.Hash) {
   130  	// Short circuit if the entry is empty or already known
   131  	if hash == emptyState {
   132  		return
   133  	}
   134  	if _, ok := s.membatch.batch[hash]; ok {
   135  		return
   136  	}
   137  	if ok, _ := s.database.Has(hash.Bytes()); ok {
   138  		return
   139  	}
   140  	// Assemble the new sub-trie sync request
   141  	req := &request{
   142  		hash:  hash,
   143  		raw:   true,
   144  		depth: depth,
   145  	}
   146  	// If this sub-trie has a designated parent, link them together
   147  	if parent != (common.Hash{}) {
   148  		ancestor := s.requests[parent]
   149  		if ancestor == nil {
   150  			panic(fmt.Sprintf("raw-entry ancestor not found: %x", parent))
   151  		}
   152  		ancestor.deps++
   153  		req.parents = append(req.parents, ancestor)
   154  	}
   155  	s.schedule(req)
   156  }
   157  
   158  // Missing retrieves the known missing nodes from the trie for retrieval.
   159  func (s *TrieSync) Missing(max int) []common.Hash {
   160  	requests := []common.Hash{}
   161  	for !s.queue.Empty() && (max == 0 || len(requests) < max) {
   162  		requests = append(requests, s.queue.PopItem().(common.Hash))
   163  	}
   164  	return requests
   165  }
   166  
   167  // Process injects a batch of retrieved trie nodes data, returning if something
   168  // was committed to the database and also the index of an entry if processing of
   169  // it failed.
   170  func (s *TrieSync) Process(results []SyncResult) (bool, int, error) {
   171  	committed := false
   172  
   173  	for i, item := range results {
   174  		// If the item was not requested, bail out
   175  		request := s.requests[item.Hash]
   176  		if request == nil {
   177  			return committed, i, ErrNotRequested
   178  		}
   179  		if request.data != nil {
   180  			return committed, i, ErrAlreadyProcessed
   181  		}
   182  		// If the item is a raw entry request, commit directly
   183  		if request.raw {
   184  			request.data = item.Data
   185  			s.commit(request)
   186  			committed = true
   187  			continue
   188  		}
   189  		// Decode the node data content and update the request
   190  		node, err := decodeNode(item.Hash[:], item.Data, 0)
   191  		if err != nil {
   192  			return committed, i, err
   193  		}
   194  		request.data = item.Data
   195  
   196  		// Create and schedule a request for all the children nodes
   197  		requests, err := s.children(request, node)
   198  		if err != nil {
   199  			return committed, i, err
   200  		}
   201  		if len(requests) == 0 && request.deps == 0 {
   202  			s.commit(request)
   203  			committed = true
   204  			continue
   205  		}
   206  		request.deps += len(requests)
   207  		for _, child := range requests {
   208  			s.schedule(child)
   209  		}
   210  	}
   211  	return committed, 0, nil
   212  }
   213  
   214  // Commit flushes the data stored in the internal membatch out to persistent
   215  // storage, returning th enumber of items written and any occurred error.
   216  func (s *TrieSync) Commit(dbw aquadb.Putter) (int, error) {
   217  	// Dump the membatch into a database dbw
   218  	for i, key := range s.membatch.order {
   219  		if err := dbw.Put(key[:], s.membatch.batch[key]); err != nil {
   220  			return i, err
   221  		}
   222  	}
   223  	written := len(s.membatch.order)
   224  
   225  	// Drop the membatch data and return
   226  	s.membatch = newSyncMemBatch()
   227  	return written, nil
   228  }
   229  
   230  // Pending returns the number of state entries currently pending for download.
   231  func (s *TrieSync) Pending() int {
   232  	return len(s.requests)
   233  }
   234  
   235  // schedule inserts a new state retrieval request into the fetch queue. If there
   236  // is already a pending request for this node, the new request will be discarded
   237  // and only a parent reference added to the old one.
   238  func (s *TrieSync) schedule(req *request) {
   239  	// If we're already requesting this node, add a new reference and stop
   240  	if old, ok := s.requests[req.hash]; ok {
   241  		old.parents = append(old.parents, req.parents...)
   242  		return
   243  	}
   244  	// Schedule the request for future retrieval
   245  	s.queue.Push(req.hash, int64(req.depth))
   246  	s.requests[req.hash] = req
   247  }
   248  
   249  // children retrieves all the missing children of a state trie entry for future
   250  // retrieval scheduling.
   251  func (s *TrieSync) children(req *request, object node) ([]*request, error) {
   252  	// Gather all the children of the node, irrelevant whether known or not
   253  	type child struct {
   254  		node  node
   255  		depth int
   256  	}
   257  	children := []child{}
   258  
   259  	switch node := (object).(type) {
   260  	case *shortNode:
   261  		children = []child{{
   262  			node:  node.Val,
   263  			depth: req.depth + len(node.Key),
   264  		}}
   265  	case *fullNode:
   266  		for i := 0; i < 17; i++ {
   267  			if node.Children[i] != nil {
   268  				children = append(children, child{
   269  					node:  node.Children[i],
   270  					depth: req.depth + 1,
   271  				})
   272  			}
   273  		}
   274  	default:
   275  		panic(fmt.Sprintf("unknown node: %+v", node))
   276  	}
   277  	// Iterate over the children, and request all unknown ones
   278  	requests := make([]*request, 0, len(children))
   279  	for _, child := range children {
   280  		// Notify any external watcher of a new key/value node
   281  		if req.callback != nil {
   282  			if node, ok := (child.node).(valueNode); ok {
   283  				if err := req.callback(node, req.hash); err != nil {
   284  					return nil, err
   285  				}
   286  			}
   287  		}
   288  		// If the child references another node, resolve or schedule
   289  		if node, ok := (child.node).(hashNode); ok {
   290  			// Try to resolve the node from the local database
   291  			hash := common.BytesToHash(node)
   292  			if _, ok := s.membatch.batch[hash]; ok {
   293  				continue
   294  			}
   295  			if ok, _ := s.database.Has(node); ok {
   296  				continue
   297  			}
   298  			// Locally unknown node, schedule for retrieval
   299  			requests = append(requests, &request{
   300  				hash:     hash,
   301  				parents:  []*request{req},
   302  				depth:    child.depth,
   303  				callback: req.callback,
   304  			})
   305  		}
   306  	}
   307  	return requests, nil
   308  }
   309  
   310  // commit finalizes a retrieval request and stores it into the membatch. If any
   311  // of the referencing parent requests complete due to this commit, they are also
   312  // committed themselves.
   313  func (s *TrieSync) commit(req *request) (err error) {
   314  	// Write the node content to the membatch
   315  	s.membatch.batch[req.hash] = req.data
   316  	s.membatch.order = append(s.membatch.order, req.hash)
   317  
   318  	delete(s.requests, req.hash)
   319  
   320  	// Check all parents for completion
   321  	for _, parent := range req.parents {
   322  		parent.deps--
   323  		if parent.deps == 0 {
   324  			if err := s.commit(parent); err != nil {
   325  				return err
   326  			}
   327  		}
   328  	}
   329  	return nil
   330  }