package light import ( "bytes" "context" "errors" "fmt" "sort" "time" "github.com/tendermint/tendermint/light/provider" "github.com/tendermint/tendermint/types" ) // The detector component of the light client detect and handles attacks on the light client. // More info here: // tendermint/docs/architecture/adr-047-handling-evidence-from-light-client.md // detectDivergence is a second wall of defense for the light client. // // It takes the target verified header and compares it with the headers of a set of // witness providers that the light client is connected to. If a conflicting header // is returned it verifies and examines the conflicting header against the verified // trace that was produced from the primary. If successful it produces two sets of evidence // and sends them to the opposite provider before halting. // // If there are no conflictinge headers, the light client deems the verified target header // trusted and saves it to the trusted store. func (c *Client) detectDivergence(ctx context.Context, primaryTrace []*types.LightBlock, now time.Time) error { if primaryTrace == nil || len(primaryTrace) < 2 { return errors.New("nil or single block primary trace") } var ( headerMatched bool lastVerifiedHeader = primaryTrace[len(primaryTrace)-1].SignedHeader witnessesToRemove = make([]int, 0) ) c.logger.Debug("Running detector against trace", "endBlockHeight", lastVerifiedHeader.Height, "endBlockHash", lastVerifiedHeader.Hash, "length", len(primaryTrace)) c.providerMutex.Lock() defer c.providerMutex.Unlock() if len(c.witnesses) == 0 { return ErrNoWitnesses } // launch one goroutine per witness to retrieve the light block of the target height // and compare it with the header from the primary errc := make(chan error, len(c.witnesses)) for i, witness := range c.witnesses { go c.compareNewHeaderWithWitness(ctx, errc, lastVerifiedHeader, witness, i) } // handle errors from the header comparisons as they come in for i := 0; i < cap(errc); i++ { err := <-errc switch e := err.(type) { case nil: // at least one header matched headerMatched = true case errConflictingHeaders: // We have conflicting headers. This could possibly imply an attack on the light client. // First we need to verify the witness's header using the same skipping verification and then we // need to find the point that the headers diverge and examine this for any evidence of an attack. // // We combine these actions together, verifying the witnesses headers and outputting the trace // which captures the bifurcation point and if successful provides the information to create supportingWitness := c.witnesses[e.WitnessIndex] witnessTrace, primaryBlock, err := c.examineConflictingHeaderAgainstTrace( ctx, primaryTrace, e.Block.SignedHeader, supportingWitness, now, ) if err != nil { c.logger.Info("Error validating witness's divergent header", "witness", supportingWitness, "err", err) witnessesToRemove = append(witnessesToRemove, e.WitnessIndex) continue } // We are suspecting that the primary is faulty, hence we hold the witness as the source of truth // and generate evidence against the primary that we can send to the witness primaryEv := newLightClientAttackEvidence(primaryBlock, witnessTrace[len(witnessTrace)-1], witnessTrace[0]) c.logger.Error("Attempted attack detected. Sending evidence againt primary by witness", "ev", primaryEv, "primary", c.primary, "witness", supportingWitness) c.sendEvidence(ctx, primaryEv, supportingWitness) if primaryBlock.Commit.Round != witnessTrace[len(witnessTrace)-1].Commit.Round { c.logger.Info("The light client has detected, and prevented, an attempted amnesia attack." + " We think this attack is pretty unlikely, so if you see it, that's interesting to us." + " Can you let us know by opening an issue through https://github.com/tendermint/tendermint/issues/new?") } // This may not be valid because the witness itself is at fault. So now we reverse it, examining the // trace provided by the witness and holding the primary as the source of truth. Note: primary may not // respond but this is okay as we will halt anyway. primaryTrace, witnessBlock, err := c.examineConflictingHeaderAgainstTrace( ctx, witnessTrace, primaryBlock.SignedHeader, c.primary, now, ) if err != nil { c.logger.Info("Error validating primary's divergent header", "primary", c.primary, "err", err) return ErrLightClientAttack } // We now use the primary trace to create evidence against the witness and send it to the primary witnessEv := newLightClientAttackEvidence(witnessBlock, primaryTrace[len(primaryTrace)-1], primaryTrace[0]) c.logger.Error("Sending evidence against witness by primary", "ev", witnessEv, "primary", c.primary, "witness", supportingWitness) c.sendEvidence(ctx, witnessEv, c.primary) // We return the error and don't process anymore witnesses return ErrLightClientAttack case errBadWitness: c.logger.Info("Witness returned an error during header comparison", "witness", c.witnesses[e.WitnessIndex], "err", err) // if witness sent us an invalid header, then remove it. If it didn't respond or couldn't find the block, then we // ignore it and move on to the next witness if _, ok := e.Reason.(provider.ErrBadLightBlock); ok { c.logger.Info("Witness sent us invalid header / vals -> removing it", "witness", c.witnesses[e.WitnessIndex]) witnessesToRemove = append(witnessesToRemove, e.WitnessIndex) } } } // we need to make sure that we remove witnesses by index in the reverse // order so as to not affect the indexes themselves sort.Ints(witnessesToRemove) for i := len(witnessesToRemove) - 1; i >= 0; i-- { c.removeWitness(witnessesToRemove[i]) } // 1. If we had at least one witness that returned the same header then we // conclude that we can trust the header if headerMatched { return nil } // 2. ELse all witnesses have either not responded, don't have the block or sent invalid blocks. return ErrFailedHeaderCrossReferencing } // compareNewHeaderWithWitness takes the verified header from the primary and compares it with a // header from a specified witness. The function can return one of three errors: // // 1: errConflictingHeaders -> there may have been an attack on this light client // 2: errBadWitness -> the witness has either not responded, doesn't have the header or has given us an invalid one // Note: In the case of an invalid header we remove the witness // 3: nil -> the hashes of the two headers match func (c *Client) compareNewHeaderWithWitness(ctx context.Context, errc chan error, h *types.SignedHeader, witness provider.Provider, witnessIndex int) { lightBlock, err := witness.LightBlock(ctx, h.Height) if err != nil { errc <- errBadWitness{Reason: err, WitnessIndex: witnessIndex} return } if !bytes.Equal(h.Hash(), lightBlock.Hash()) { errc <- errConflictingHeaders{Block: lightBlock, WitnessIndex: witnessIndex} } c.logger.Debug("Matching header received by witness", "height", h.Height, "witness", witnessIndex) errc <- nil } // sendEvidence sends evidence to a provider on a best effort basis. func (c *Client) sendEvidence(ctx context.Context, ev *types.LightClientAttackEvidence, receiver provider.Provider) { err := receiver.ReportEvidence(ctx, ev) if err != nil { c.logger.Error("Failed to report evidence to provider", "ev", ev, "provider", receiver) } } // examineConflictingHeaderAgainstTrace takes a trace from one provider and a divergent header that // it has received from another and preforms verifySkipping at the heights of each of the intermediate // headers in the trace until it reaches the divergentHeader. 1 of 2 things can happen. // // 1. The light client verifies a header that is different to the intermediate header in the trace. This // is the bifurcation point and the light client can create evidence from it // 2. The source stops responding, doesn't have the block or sends an invalid header in which case we // return the error and remove the witness func (c *Client) examineConflictingHeaderAgainstTrace( ctx context.Context, trace []*types.LightBlock, divergentHeader *types.SignedHeader, source provider.Provider, now time.Time) ([]*types.LightBlock, *types.LightBlock, error) { var previouslyVerifiedBlock *types.LightBlock for idx, traceBlock := range trace { // The first block in the trace MUST be the same to the light block that the source produces // else we cannot continue with verification. sourceBlock, err := source.LightBlock(ctx, traceBlock.Height) if err != nil { return nil, nil, err } if idx == 0 { if shash, thash := sourceBlock.Hash(), traceBlock.Hash(); !bytes.Equal(shash, thash) { return nil, nil, fmt.Errorf("trusted block is different to the source's first block (%X = %X)", thash, shash) } previouslyVerifiedBlock = sourceBlock continue } // we check that the source provider can verify a block at the same height of the // intermediate height trace, err := c.verifySkipping(ctx, source, previouslyVerifiedBlock, sourceBlock, now) if err != nil { return nil, nil, fmt.Errorf("verifySkipping of conflicting header failed: %w", err) } // check if the headers verified by the source has diverged from the trace if shash, thash := sourceBlock.Hash(), traceBlock.Hash(); !bytes.Equal(shash, thash) { // Bifurcation point found! return trace, traceBlock, nil } // headers are still the same. update the previouslyVerifiedBlock previouslyVerifiedBlock = sourceBlock } // We have reached the end of the trace without observing a divergence. The last header is thus different // from the divergent header that the source originally sent us, then we return an error. return nil, nil, fmt.Errorf("source provided different header to the original header it provided (%X != %X)", previouslyVerifiedBlock.Hash(), divergentHeader.Hash()) } // newLightClientAttackEvidence determines the type of attack and then forms the evidence filling out // all the fields such that it is ready to be sent to a full node. func newLightClientAttackEvidence(conflicted, trusted, common *types.LightBlock) *types.LightClientAttackEvidence { ev := &types.LightClientAttackEvidence{ConflictingBlock: conflicted} // if this is an equivocation or amnesia attack, i.e. the validator sets are the same, then we // return the height of the conflicting block else if it is a lunatic attack and the validator sets // are not the same then we send the height of the common header. if ev.ConflictingHeaderIsInvalid(trusted.Header) { ev.CommonHeight = common.Height ev.Timestamp = common.Time ev.TotalVotingPower = common.ValidatorSet.TotalVotingPower() } else { ev.CommonHeight = trusted.Height ev.Timestamp = trusted.Time ev.TotalVotingPower = trusted.ValidatorSet.TotalVotingPower() } ev.ByzantineValidators = ev.GetByzantineValidators(common.ValidatorSet, trusted.SignedHeader) return ev }