zolfa
/
tendermint


								package proxy


								import (

									cmn "github.com/tendermint/tendermint/libs/common"


									"github.com/tendermint/tendermint/lite"

									rpcclient "github.com/tendermint/tendermint/rpc/client"

									ctypes "github.com/tendermint/tendermint/rpc/core/types"

								)


								var _ rpcclient.Client = Wrapper{}


								// Wrapper wraps a rpcclient with a Verifier and double-checks any input that is

								// provable before passing it along. Allows you to make any rpcclient fully secure.

								type Wrapper struct {

									rpcclient.Client

									cert *lite.DynamicVerifier

								}


								// SecureClient uses a given Verifier to wrap an connection to an untrusted

								// host and return a cryptographically secure rpc client.

								//

								// If it is wrapping an HTTP rpcclient, it will also wrap the websocket interface

								func SecureClient(c rpcclient.Client, cert *lite.DynamicVerifier) Wrapper {

									wrap := Wrapper{c, cert}

									// TODO: no longer possible as no more such interface exposed....

									// if we wrap http client, then we can swap out the event switch to filter

									// if hc, ok := c.(*rpcclient.HTTP); ok {

									// 	evt := hc.WSEvents.EventSwitch

									// 	hc.WSEvents.EventSwitch = WrappedSwitch{evt, wrap}

									// }

									return wrap

								}


								// ABCIQueryWithOptions exposes all options for the ABCI query and verifies the returned proof

								func (w Wrapper) ABCIQueryWithOptions(path string, data cmn.HexBytes,

									opts rpcclient.ABCIQueryOptions) (*ctypes.ResultABCIQuery, error) {


									res, _, err := GetWithProofOptions(path, data, opts, w.Client, w.cert)

									return res, err

								}


								// ABCIQuery uses default options for the ABCI query and verifies the returned proof

								func (w Wrapper) ABCIQuery(path string, data cmn.HexBytes) (*ctypes.ResultABCIQuery, error) {

									return w.ABCIQueryWithOptions(path, data, rpcclient.DefaultABCIQueryOptions)

								}


								// Tx queries for a given tx and verifies the proof if it was requested

								func (w Wrapper) Tx(hash []byte, prove bool) (*ctypes.ResultTx, error) {

									res, err := w.Client.Tx(hash, prove)

									if !prove || err != nil {

										return res, err

									}

									h := int64(res.Height)

									sh, err := GetCertifiedCommit(h, w.Client, w.cert)

									if err != nil {

										return res, err

									}

									err = res.Proof.Validate(sh.DataHash)

									return res, err

								}


								// BlockchainInfo requests a list of headers and verifies them all...

								// Rather expensive.

								//

								// TODO: optimize this if used for anything needing performance

								func (w Wrapper) BlockchainInfo(minHeight, maxHeight int64) (*ctypes.ResultBlockchainInfo, error) {

									r, err := w.Client.BlockchainInfo(minHeight, maxHeight)

									if err != nil {

										return nil, err

									}


									// go and verify every blockmeta in the result....

									for _, meta := range r.BlockMetas {

										// get a checkpoint to verify from

										res, err := w.Commit(&meta.Header.Height)

										if err != nil {

											return nil, err

										}

										sh := res.SignedHeader

										err = ValidateBlockMeta(meta, sh)

										if err != nil {

											return nil, err

										}

									}


									return r, nil

								}


								// Block returns an entire block and verifies all signatures

								func (w Wrapper) Block(height *int64) (*ctypes.ResultBlock, error) {

									resBlock, err := w.Client.Block(height)

									if err != nil {

										return nil, err

									}

									// get a checkpoint to verify from

									resCommit, err := w.Commit(height)

									if err != nil {

										return nil, err

									}

									sh := resCommit.SignedHeader


									// now verify

									err = ValidateBlockMeta(resBlock.BlockMeta, sh)

									if err != nil {

										return nil, err

									}

									err = ValidateBlock(resBlock.Block, sh)

									if err != nil {

										return nil, err

									}

									return resBlock, nil

								}


								// Commit downloads the Commit and certifies it with the lite.

								//

								// This is the foundation for all other verification in this module

								func (w Wrapper) Commit(height *int64) (*ctypes.ResultCommit, error) {

									if height == nil {

										resStatus, err := w.Client.Status()

										if err != nil {

											return nil, err

										}

										// NOTE: If resStatus.CatchingUp, there is a race

										// condition where the validator set for the next height

										// isn't available until some time after the blockstore

										// has height h on the remote node.  This isn't an issue

										// once the node has caught up, and a syncing node likely

										// won't have this issue esp with the implementation we

										// have here, but we may have to address this at some

										// point.

										height = new(int64)

										*height = resStatus.SyncInfo.LatestBlockHeight

									}

									rpcclient.WaitForHeight(w.Client, *height, nil)

									res, err := w.Client.Commit(height)

									// if we got it, then certify it

									if err == nil {

										sh := res.SignedHeader

										err = w.cert.Certify(sh)

									}

									return res, err

								}


								// // WrappedSwitch creates a websocket connection that auto-verifies any info

								// // coming through before passing it along.

								// //

								// // Since the verification takes 1-2 rpc calls, this is obviously only for

								// // relatively low-throughput situations that can tolerate a bit extra latency

								// type WrappedSwitch struct {

								// 	types.EventSwitch

								// 	client rpcclient.Client

								// }


								// // FireEvent verifies any block or header returned from the eventswitch

								// func (s WrappedSwitch) FireEvent(event string, data events.EventData) {

								// 	tm, ok := data.(types.TMEventData)

								// 	if !ok {

								// 		fmt.Printf("bad type %#v\n", data)

								// 		return

								// 	}


								// 	// check to validate it if possible, and drop if not valid

								// 	switch t := tm.(type) {

								// 	case types.EventDataNewBlockHeader:

								// 		err := verifyHeader(s.client, t.Header)

								// 		if err != nil {

								// 			fmt.Printf("Invalid header: %#v\n", err)

								// 			return

								// 		}

								// 	case types.EventDataNewBlock:

								// 		err := verifyBlock(s.client, t.Block)

								// 		if err != nil {

								// 			fmt.Printf("Invalid block: %#v\n", err)

								// 			return

								// 		}

								// 		// TODO: can we verify tx as well? anything else

								// 	}


								// 	// looks good, we fire it

								// 	s.EventSwitch.FireEvent(event, data)

								// }


								// func verifyHeader(c rpcclient.Client, head *types.Header) error {

								// 	// get a checkpoint to verify from

								// 	commit, err := c.Commit(&head.Height)

								// 	if err != nil {

								// 		return err

								// 	}

								// 	check := certclient.CommitFromResult(commit)

								// 	return ValidateHeader(head, check)

								// }

								//

								// func verifyBlock(c rpcclient.Client, block *types.Block) error {

								// 	// get a checkpoint to verify from

								// 	commit, err := c.Commit(&block.Height)

								// 	if err != nil {

								// 		return err

								// 	}

								// 	check := certclient.CommitFromResult(commit)

								// 	return ValidateBlock(block, check)

								// }