package main import ( "bytes" "compress/gzip" "context" "encoding/json" "fmt" "io" "log" "os" "path/filepath" "github.com/fatih/color" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/chain/actors/builtin" init_ "github.com/filecoin-project/lotus/chain/actors/builtin/init" "github.com/filecoin-project/lotus/chain/actors/builtin/reward" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/chain/vm" lcli "github.com/filecoin-project/lotus/cli" "github.com/filecoin-project/lotus/conformance" "github.com/filecoin-project/test-vectors/schema" "github.com/ipfs/go-cid" "github.com/urfave/cli/v2" ) const ( PrecursorSelectAll = "all" PrecursorSelectSender = "sender" ) type extractOpts struct { id string block string class string cid string file string retain string precursor string } var extractFlags extractOpts var extractCmd = &cli.Command{ Name: "extract", Description: "generate a test vector by extracting it from a live chain", Action: runExtract, Flags: []cli.Flag{ &repoFlag, &cli.StringFlag{ Name: "class", Usage: "class of vector to extract; other required flags depend on the; values: 'message'", Value: "message", Destination: &extractFlags.class, }, &cli.StringFlag{ Name: "id", Usage: "identifier to name this test vector with", Value: "(undefined)", Destination: &extractFlags.id, }, &cli.StringFlag{ Name: "block", Usage: "optionally, the block CID the message was included in, to avoid expensive chain scanning", Destination: &extractFlags.block, }, &cli.StringFlag{ Name: "cid", Usage: "message CID to generate test vector from", Required: true, Destination: &extractFlags.cid, }, &cli.StringFlag{ Name: "out", Aliases: []string{"o"}, Usage: "file to write test vector to", Destination: &extractFlags.file, }, &cli.StringFlag{ Name: "state-retain", Usage: "state retention policy; values: 'accessed-cids', 'accessed-actors'", Value: "accessed-cids", Destination: &extractFlags.retain, }, &cli.StringFlag{ Name: "precursor-select", Usage: "precursors to apply; values: 'all', 'sender'; 'all' selects all preceding" + "messages in the canonicalised tipset, 'sender' selects only preceding messages from the same" + "sender. Usually, 'sender' is a good tradeoff and gives you sufficient accuracy. If the receipt sanity" + "check fails due to gas reasons, switch to 'all', as previous messages in the tipset may have" + "affected state in a disruptive way", Value: "sender", Destination: &extractFlags.precursor, }, }, } func runExtract(c *cli.Context) error { // LOTUS_DISABLE_VM_BUF disables what's called "VM state tree buffering", // which stashes write operations in a BufferedBlockstore // (https://github.com/filecoin-project/lotus/blob/b7a4dbb07fd8332b4492313a617e3458f8003b2a/lib/bufbstore/buf_bstore.go#L21) // such that they're not written until the VM is actually flushed. // // For some reason, the standard behaviour was not working for me (raulk), // and disabling it (such that the state transformations are written immediately // to the blockstore) worked. _ = os.Setenv("LOTUS_DISABLE_VM_BUF", "iknowitsabadidea") ctx := context.Background() // Make the API client. fapi, closer, err := lcli.GetFullNodeAPI(c) if err != nil { return err } defer closer() return doExtract(ctx, fapi, extractFlags) } func doExtract(ctx context.Context, fapi api.FullNode, opts extractOpts) error { mcid, err := cid.Decode(opts.cid) if err != nil { return err } msg, execTs, incTs, err := resolveFromChain(ctx, fapi, mcid, opts.block) if err != nil { return fmt.Errorf("failed to resolve message and tipsets from chain: %w", err) } // get the circulating supply before the message was executed. circSupplyDetail, err := fapi.StateVMCirculatingSupplyInternal(ctx, incTs.Key()) if err != nil { return fmt.Errorf("failed while fetching circulating supply: %w", err) } circSupply := circSupplyDetail.FilCirculating log.Printf("message was executed in tipset: %s", execTs.Key()) log.Printf("message was included in tipset: %s", incTs.Key()) log.Printf("circulating supply at inclusion tipset: %d", circSupply) log.Printf("finding precursor messages using mode: %s", opts.precursor) // Fetch messages in canonical order from inclusion tipset. msgs, err := fapi.ChainGetParentMessages(ctx, execTs.Blocks()[0].Cid()) if err != nil { return fmt.Errorf("failed to fetch messages in canonical order from inclusion tipset: %w", err) } related, found, err := findMsgAndPrecursors(opts.precursor, msg, msgs) if err != nil { return fmt.Errorf("failed while finding message and precursors: %w", err) } if !found { return fmt.Errorf("message not found; precursors found: %d", len(related)) } var ( precursors = related[:len(related)-1] precursorsCids []cid.Cid ) for _, p := range precursors { precursorsCids = append(precursorsCids, p.Cid()) } log.Println(color.GreenString("found message; precursors (count: %d): %v", len(precursors), precursorsCids)) var ( // create a read-through store that uses ChainGetObject to fetch unknown CIDs. pst = NewProxyingStores(ctx, fapi) g = NewSurgeon(ctx, fapi, pst) ) driver := conformance.NewDriver(ctx, schema.Selector{}, conformance.DriverOpts{ DisableVMFlush: true, }) // this is the root of the state tree we start with. root := incTs.ParentState() log.Printf("base state tree root CID: %s", root) basefee := incTs.Blocks()[0].ParentBaseFee log.Printf("basefee: %s", basefee) // on top of that state tree, we apply all precursors. log.Printf("number of precursors to apply: %d", len(precursors)) for i, m := range precursors { log.Printf("applying precursor %d, cid: %s", i, m.Cid()) _, root, err = driver.ExecuteMessage(pst.Blockstore, conformance.ExecuteMessageParams{ Preroot: root, Epoch: execTs.Height(), Message: m, CircSupply: circSupplyDetail.FilCirculating, BaseFee: basefee, // recorded randomness will be discarded. Rand: conformance.NewRecordingRand(new(conformance.LogReporter), fapi), }) if err != nil { return fmt.Errorf("failed to execute precursor message: %w", err) } } var ( preroot cid.Cid postroot cid.Cid applyret *vm.ApplyRet carWriter func(w io.Writer) error retention = opts.retain // recordingRand will record randomness so we can embed it in the test vector. recordingRand = conformance.NewRecordingRand(new(conformance.LogReporter), fapi) ) log.Printf("using state retention strategy: %s", retention) switch retention { case "accessed-cids": tbs, ok := pst.Blockstore.(TracingBlockstore) if !ok { return fmt.Errorf("requested 'accessed-cids' state retention, but no tracing blockstore was present") } tbs.StartTracing() preroot = root applyret, postroot, err = driver.ExecuteMessage(pst.Blockstore, conformance.ExecuteMessageParams{ Preroot: preroot, Epoch: execTs.Height(), Message: msg, CircSupply: circSupplyDetail.FilCirculating, BaseFee: basefee, Rand: recordingRand, }) if err != nil { return fmt.Errorf("failed to execute message: %w", err) } accessed := tbs.FinishTracing() carWriter = func(w io.Writer) error { return g.WriteCARIncluding(w, accessed, preroot, postroot) } case "accessed-actors": log.Printf("calculating accessed actors") // get actors accessed by message. retain, err := g.GetAccessedActors(ctx, fapi, mcid) if err != nil { return fmt.Errorf("failed to calculate accessed actors: %w", err) } // also append the reward actor and the burnt funds actor. retain = append(retain, reward.Address, builtin.BurntFundsActorAddr, init_.Address) log.Printf("calculated accessed actors: %v", retain) // get the masked state tree from the root, preroot, err = g.GetMaskedStateTree(root, retain) if err != nil { return err } applyret, postroot, err = driver.ExecuteMessage(pst.Blockstore, conformance.ExecuteMessageParams{ Preroot: preroot, Epoch: execTs.Height(), Message: msg, CircSupply: circSupplyDetail.FilCirculating, BaseFee: basefee, Rand: recordingRand, }) if err != nil { return fmt.Errorf("failed to execute message: %w", err) } carWriter = func(w io.Writer) error { return g.WriteCAR(w, preroot, postroot) } default: return fmt.Errorf("unknown state retention option: %s", retention) } log.Printf("message applied; preroot: %s, postroot: %s", preroot, postroot) log.Println("performing sanity check on receipt") // TODO sometimes this returns a nil receipt and no error ¯\_(ツ)_/¯ // ex: https://filfox.info/en/message/bafy2bzacebpxw3yiaxzy2bako62akig46x3imji7fewszen6fryiz6nymu2b2 // This code is lenient and skips receipt comparison in case of a nil receipt. rec, err := fapi.StateGetReceipt(ctx, mcid, execTs.Key()) if err != nil { return fmt.Errorf("failed to find receipt on chain: %w", err) } log.Printf("found receipt: %+v", rec) // generate the schema receipt; if we got var receipt *schema.Receipt if rec != nil { receipt = &schema.Receipt{ ExitCode: int64(rec.ExitCode), ReturnValue: rec.Return, GasUsed: rec.GasUsed, } reporter := new(conformance.LogReporter) conformance.AssertMsgResult(reporter, receipt, applyret, "as locally executed") if reporter.Failed() { log.Println(color.RedString("receipt sanity check failed; aborting")) return fmt.Errorf("vector generation aborted") } log.Println(color.GreenString("receipt sanity check succeeded")) } else { receipt = &schema.Receipt{ ExitCode: int64(applyret.ExitCode), ReturnValue: applyret.Return, GasUsed: applyret.GasUsed, } log.Println(color.YellowString("skipping receipts comparison; we got back a nil receipt from lotus")) } log.Println("generating vector") msgBytes, err := msg.Serialize() if err != nil { return err } var ( out = new(bytes.Buffer) gw = gzip.NewWriter(out) ) if err := carWriter(gw); err != nil { return err } if err = gw.Flush(); err != nil { return err } if err = gw.Close(); err != nil { return err } version, err := fapi.Version(ctx) if err != nil { return err } ntwkName, err := fapi.StateNetworkName(ctx) if err != nil { return err } nv, err := fapi.StateNetworkVersion(ctx, execTs.Key()) if err != nil { return err } codename := GetProtocolCodename(execTs.Height()) // Write out the test vector. vector := schema.TestVector{ Class: schema.ClassMessage, Meta: &schema.Metadata{ ID: opts.id, // TODO need to replace schema.GenerationData with a more flexible // data structure that makes no assumption about the traceability // data that's being recorded; a flexible map[string]string // would do. Gen: []schema.GenerationData{ {Source: fmt.Sprintf("network:%s", ntwkName)}, {Source: fmt.Sprintf("message:%s", msg.Cid().String())}, {Source: fmt.Sprintf("inclusion_tipset:%s", incTs.Key().String())}, {Source: fmt.Sprintf("execution_tipset:%s", execTs.Key().String())}, {Source: "github.com/filecoin-project/lotus", Version: version.String()}}, }, Selector: schema.Selector{ schema.SelectorMinProtocolVersion: codename, }, Randomness: recordingRand.Recorded(), CAR: out.Bytes(), Pre: &schema.Preconditions{ Variants: []schema.Variant{ {ID: codename, Epoch: int64(execTs.Height()), NetworkVersion: uint(nv)}, }, CircSupply: circSupply.Int, BaseFee: basefee.Int, StateTree: &schema.StateTree{ RootCID: preroot, }, }, ApplyMessages: []schema.Message{{Bytes: msgBytes}}, Post: &schema.Postconditions{ StateTree: &schema.StateTree{ RootCID: postroot, }, Receipts: []*schema.Receipt{ { ExitCode: int64(applyret.ExitCode), ReturnValue: applyret.Return, GasUsed: applyret.GasUsed, }, }, }, } output := io.WriteCloser(os.Stdout) if file := opts.file; file != "" { dir := filepath.Dir(file) if err := os.MkdirAll(dir, 0755); err != nil { return fmt.Errorf("unable to create directory %s: %w", dir, err) } output, err = os.Create(file) if err != nil { return err } defer output.Close() //nolint:errcheck defer log.Printf("wrote test vector to file: %s", file) } enc := json.NewEncoder(output) enc.SetIndent("", " ") if err := enc.Encode(&vector); err != nil { return err } return nil } // resolveFromChain queries the chain for the provided message, using the block CID to // speed up the query, if provided func resolveFromChain(ctx context.Context, api api.FullNode, mcid cid.Cid, block string) (msg *types.Message, execTs *types.TipSet, incTs *types.TipSet, err error) { // Extract the full message. msg, err = api.ChainGetMessage(ctx, mcid) if err != nil { return nil, nil, nil, err } log.Printf("found message with CID %s: %+v", mcid, msg) if block == "" { log.Printf("locating message in blockchain") // Locate the message. msgInfo, err := api.StateSearchMsg(ctx, mcid) if err != nil { return nil, nil, nil, fmt.Errorf("failed to locate message: %w", err) } log.Printf("located message at tipset %s (height: %d) with exit code: %s", msgInfo.TipSet, msgInfo.Height, msgInfo.Receipt.ExitCode) execTs, incTs, err = fetchThisAndPrevTipset(ctx, api, msgInfo.TipSet) return msg, execTs, incTs, err } bcid, err := cid.Decode(block) if err != nil { return nil, nil, nil, err } log.Printf("message inclusion block CID was provided; scanning around it: %s", bcid) blk, err := api.ChainGetBlock(ctx, bcid) if err != nil { return nil, nil, nil, fmt.Errorf("failed to get block: %w", err) } // types.EmptyTSK hints to use the HEAD. execTs, err = api.ChainGetTipSetByHeight(ctx, blk.Height+1, types.EmptyTSK) if err != nil { return nil, nil, nil, fmt.Errorf("failed to get message execution tipset: %w", err) } // walk back from the execTs instead of HEAD, to save time. incTs, err = api.ChainGetTipSetByHeight(ctx, blk.Height, execTs.Key()) if err != nil { return nil, nil, nil, fmt.Errorf("failed to get message inclusion tipset: %w", err) } return msg, execTs, incTs, nil } // fetchThisAndPrevTipset returns the full tipset identified by the key, as well // as the previous tipset. In the context of vector generation, the target // tipset is the one where a message was executed, and the previous tipset is // the one where the message was included. func fetchThisAndPrevTipset(ctx context.Context, api api.FullNode, target types.TipSetKey) (targetTs *types.TipSet, prevTs *types.TipSet, err error) { // get the tipset on which this message was "executed" on. // https://github.com/filecoin-project/lotus/issues/2847 targetTs, err = api.ChainGetTipSet(ctx, target) if err != nil { return nil, nil, err } // get the previous tipset, on which this message was mined, // i.e. included on-chain. prevTs, err = api.ChainGetTipSet(ctx, targetTs.Parents()) if err != nil { return nil, nil, err } return targetTs, prevTs, nil } // findMsgAndPrecursors ranges through the canonical messages slice, locating // the target message and returning precursors in accordance to the supplied // mode. func findMsgAndPrecursors(mode string, target *types.Message, msgs []api.Message) (related []*types.Message, found bool, err error) { // Range through canonicalised messages, selecting only the precursors based // on selection mode. for _, other := range msgs { switch { case mode == PrecursorSelectAll: fallthrough case mode == PrecursorSelectSender && other.Message.From == target.From: related = append(related, other.Message) } // this message is the target; we're done. if other.Cid == target.Cid() { return related, true, nil } } // this could happen because a block contained related messages, but not // the target (that is, messages with a lower nonce, but ultimately not the // target). return related, false, nil }