lotus/conformance/runner.go

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Go
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package conformance
import (
"bytes"
"compress/gzip"
"context"
"encoding/base64"
"fmt"
"math"
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"os"
"os/exec"
"strconv"
"github.com/fatih/color"
"github.com/hashicorp/go-multierror"
chore: migrate to boxo This migrates everything except the `go-car` librairy: https://github.com/ipfs/boxo/issues/218#issuecomment-1529922103 I didn't migrated everything in the previous release because all the boxo code wasn't compatible with the go-ipld-prime one due to a an in flight (/ aftermath) revert of github.com/ipfs/go-block-format. go-block-format has been unmigrated since slight bellow absolutely everything depends on it that would have required everything to be moved on boxo or everything to optin into using boxo which were all deal breakers for different groups. This worked fine because lotus's codebase could live hapely on the first multirepo setup however boost is now trying to use boxo's code with lotus's (still on multirepo) setup: https://filecoinproject.slack.com/archives/C03AQ3QAUG1/p1685022344779649 The alternative would be for boost to write shim types which just forward calls and return with the different interface definitions. Btw why is that an issue in the first place is because unlike what go's duck typing model suggest interfaces are not transparent https://github.com/golang/go/issues/58112, interfaces are strongly typed but they have implicit narrowing. The issue is if you return an interface from an interface Go does not have a function definition to insert the implicit conversion thus instead the type checker complains you are not returning the right type. Stubbing types were reverted https://github.com/ipfs/boxo/issues/218#issuecomment-1478650351 Last time I only migrated `go-bitswap` to `boxo/bitswap` because of the security issues and because we never had the interface return an interface problem (we had concrete wrappers where the implicit conversion took place).
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"github.com/ipfs/boxo/blockservice"
offline "github.com/ipfs/boxo/exchange/offline"
"github.com/ipfs/boxo/ipld/merkledag"
blocks "github.com/ipfs/go-block-format"
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"github.com/ipfs/go-cid"
ds "github.com/ipfs/go-datastore"
format "github.com/ipfs/go-ipld-format"
"github.com/ipld/go-car"
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"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/go-state-types/exitcode"
"github.com/filecoin-project/go-state-types/network"
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"github.com/filecoin-project/test-vectors/schema"
"github.com/filecoin-project/lotus/blockstore"
"github.com/filecoin-project/lotus/chain/consensus/filcns"
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"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/chain/vm"
)
// FallbackBlockstoreGetter is a fallback blockstore to use for resolving CIDs
// unknown to the test vector. This is rarely used, usually only needed
// when transplanting vectors across versions. This is an interface tighter
// than ChainModuleAPI. It can be backed by a FullAPI client.
var FallbackBlockstoreGetter interface {
ChainReadObj(context.Context, cid.Cid) ([]byte, error)
}
var TipsetVectorOpts struct {
// PipelineBaseFee pipelines the basefee in multi-tipset vectors from one
// tipset to another. Basefees in the vector are ignored, except for that of
// the first tipset. UNUSED.
PipelineBaseFee bool
// OnTipsetApplied contains callback functions called after a tipset has been
// applied.
OnTipsetApplied []func(bs blockstore.Blockstore, params *ExecuteTipsetParams, res *ExecuteTipsetResult)
}
type GasPricingRestoreFn func()
// adjustGasPricing adjusts the global gas price mapping to make sure that the
// gas pricelist for vector's network version is used at the vector's epoch.
// Because it manipulates a global, it returns a function that reverts the
// change. The caller MUST invoke this function or the test vector runner will
// become invalid.
func adjustGasPricing(vectorEpoch abi.ChainEpoch, vectorNv network.Version) GasPricingRestoreFn {
// Stash the current pricing mapping.
// Ok to take a reference instead of a copy, because we override the map
// with a new one below.
var old = vm.Prices
// Resolve the epoch at which the vector network version kicks in.
var epoch abi.ChainEpoch = math.MaxInt64
if vectorNv == network.Version0 {
// genesis is not an upgrade.
epoch = 0
} else {
for _, u := range filcns.DefaultUpgradeSchedule() {
if u.Network == vectorNv {
epoch = u.Height
break
}
}
}
if epoch == math.MaxInt64 {
panic(fmt.Sprintf("could not resolve network version %d to height", vectorNv))
}
// Find the right pricelist for this network version.
pricelist := vm.PricelistByEpoch(epoch)
// Override the pricing mapping by setting the relevant pricelist for the
// network version at the epoch where the vector runs.
vm.Prices = map[abi.ChainEpoch]vm.Pricelist{
vectorEpoch: pricelist,
}
// Return a function to restore the original mapping.
return func() {
vm.Prices = old
}
}
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// ExecuteMessageVector executes a message-class test vector.
func ExecuteMessageVector(r Reporter, vector *schema.TestVector, variant *schema.Variant) (diffs []string, err error) {
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var (
ctx = context.Background()
baseEpoch = abi.ChainEpoch(variant.Epoch)
nv = network.Version(variant.NetworkVersion)
root = vector.Pre.StateTree.RootCID
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)
// Load the CAR into a new temporary Blockstore.
bs, err := LoadBlockstore(vector.CAR)
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if err != nil {
r.Fatalf("failed to load the vector CAR: %w", err)
}
// Create a new Driver.
driver := NewDriver(ctx, vector.Selector, DriverOpts{DisableVMFlush: true})
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// Monkey patch the gas pricing.
revertFn := adjustGasPricing(baseEpoch, nv)
defer revertFn()
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// Apply every message.
for i, m := range vector.ApplyMessages {
msg, err := types.DecodeMessage(m.Bytes)
if err != nil {
r.Fatalf("failed to deserialize message: %s", err)
}
// add the epoch offset if one is set.
if m.EpochOffset != nil {
baseEpoch += abi.ChainEpoch(*m.EpochOffset)
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}
// Execute the message.
var ret *vm.ApplyRet
ret, root, err = driver.ExecuteMessage(bs, ExecuteMessageParams{
Preroot: root,
Epoch: baseEpoch,
Message: msg,
BaseFee: BaseFeeOrDefault(vector.Pre.BaseFee),
CircSupply: CircSupplyOrDefault(vector.Pre.CircSupply),
Rand: NewReplayingRand(r, vector.Randomness),
NetworkVersion: nv,
})
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if err != nil {
r.Fatalf("fatal failure when executing message: %s", err)
}
// Assert that the receipt matches what the test vector expects.
AssertMsgResult(r, vector.Post.Receipts[i], ret, strconv.Itoa(i))
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}
// Once all messages are applied, assert that the final state root matches
// the expected postcondition root.
if expected, actual := vector.Post.StateTree.RootCID, root; expected != actual {
ierr := fmt.Errorf("wrong post root cid; expected %v, but got %v", expected, actual)
r.Errorf(ierr.Error())
err = multierror.Append(err, ierr)
diffs = dumpThreeWayStateDiff(r, vector, bs, root)
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}
return diffs, err
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}
// ExecuteTipsetVector executes a tipset-class test vector.
func ExecuteTipsetVector(r Reporter, vector *schema.TestVector, variant *schema.Variant) (diffs []string, err error) {
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var (
ctx = context.Background()
baseEpoch = abi.ChainEpoch(variant.Epoch)
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root = vector.Pre.StateTree.RootCID
tmpds = ds.NewMapDatastore()
)
// Load the vector CAR into a new temporary Blockstore.
bs, err := LoadBlockstore(vector.CAR)
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if err != nil {
r.Fatalf("failed to load the vector CAR: %w", err)
return nil, err
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}
// Create a new Driver.
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driver := NewDriver(ctx, vector.Selector, DriverOpts{})
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// Apply every tipset.
var receiptsIdx int
var prevEpoch = baseEpoch
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for i, ts := range vector.ApplyTipsets {
ts := ts // capture
execEpoch := baseEpoch + abi.ChainEpoch(ts.EpochOffset)
params := ExecuteTipsetParams{
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Preroot: root,
ParentEpoch: prevEpoch,
Tipset: &ts,
ExecEpoch: execEpoch,
Rand: NewReplayingRand(r, vector.Randomness),
}
ret, err := driver.ExecuteTipset(bs, tmpds, params)
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if err != nil {
r.Fatalf("failed to apply tipset %d: %s", i, err)
return nil, err
}
// invoke callbacks.
for _, cb := range TipsetVectorOpts.OnTipsetApplied {
cb(bs, &params, ret)
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}
for j, v := range ret.AppliedResults {
AssertMsgResult(r, vector.Post.Receipts[receiptsIdx], v, fmt.Sprintf("%d of tipset %d", j, i))
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receiptsIdx++
}
// Compare the receipts root.
if expected, actual := vector.Post.ReceiptsRoots[i], ret.ReceiptsRoot; expected != actual {
ierr := fmt.Errorf("post receipts root doesn't match; expected: %s, was: %s", expected, actual)
r.Errorf(ierr.Error())
err = multierror.Append(err, ierr)
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}
prevEpoch = execEpoch
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root = ret.PostStateRoot
}
// Once all messages are applied, assert that the final state root matches
// the expected postcondition root.
if expected, actual := vector.Post.StateTree.RootCID, root; expected != actual {
ierr := fmt.Errorf("wrong post root cid; expected %v, but got %v", expected, actual)
r.Errorf(ierr.Error())
err = multierror.Append(err, ierr)
diffs = dumpThreeWayStateDiff(r, vector, bs, root)
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}
return diffs, err
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}
// AssertMsgResult compares a message result. It takes the expected receipt
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// encoded in the vector, the actual receipt returned by Lotus, and a message
// label to log in the assertion failure message to facilitate debugging.
func AssertMsgResult(r Reporter, expected *schema.Receipt, actual *vm.ApplyRet, label string) {
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r.Helper()
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applyret := actual
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if expected, actual := exitcode.ExitCode(expected.ExitCode), actual.ExitCode; expected != actual {
r.Errorf("exit code of msg %s did not match; expected: %s, got: %s", label, expected, actual)
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r.Errorf("\t\\==> actor error: %s", applyret.ActorErr)
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}
if expected, actual := expected.GasUsed, actual.GasUsed; expected != actual {
r.Errorf("gas used of msg %s did not match; expected: %d, got: %d", label, expected, actual)
}
if expected, actual := []byte(expected.ReturnValue), actual.Return; !bytes.Equal(expected, actual) {
r.Errorf("return value of msg %s did not match; expected: %s, got: %s", label, base64.StdEncoding.EncodeToString(expected), base64.StdEncoding.EncodeToString(actual))
}
}
func dumpThreeWayStateDiff(r Reporter, vector *schema.TestVector, bs blockstore.Blockstore, actual cid.Cid) []string {
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// check if statediff exists; if not, skip.
if err := exec.Command("statediff", "--help").Run(); err != nil {
r.Log("could not dump 3-way state tree diff upon test failure: statediff command not found")
r.Log("install statediff with:")
r.Log("$ git clone https://github.com/filecoin-project/statediff.git")
r.Log("$ cd statediff")
r.Log("$ go generate ./...")
r.Log("$ go install ./cmd/statediff")
return nil
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}
tmpCar, err := writeStateToTempCAR(bs,
vector.Pre.StateTree.RootCID,
vector.Post.StateTree.RootCID,
actual,
)
if err != nil {
r.Fatalf("failed to write temporary state CAR: %s", err)
return nil
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}
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defer os.RemoveAll(tmpCar) //nolint:errcheck
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color.NoColor = false // enable colouring.
var (
a = color.New(color.FgMagenta, color.Bold).Sprint("(A) expected final state")
b = color.New(color.FgYellow, color.Bold).Sprint("(B) actual final state")
c = color.New(color.FgCyan, color.Bold).Sprint("(C) initial state")
d1 = color.New(color.FgGreen, color.Bold).Sprint("[Δ1]")
d2 = color.New(color.FgGreen, color.Bold).Sprint("[Δ2]")
d3 = color.New(color.FgGreen, color.Bold).Sprint("[Δ3]")
)
diff := func(left, right cid.Cid) string {
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cmd := exec.Command("statediff", "car", "--file", tmpCar, left.String(), right.String())
b, err := cmd.CombinedOutput()
if err != nil {
r.Fatalf("statediff failed: %s", err)
}
return string(b)
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}
bold := color.New(color.Bold).SprintfFunc()
r.Log(bold("-----BEGIN STATEDIFF-----"))
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// run state diffs.
r.Log(bold("=== dumping 3-way diffs between %s, %s, %s ===", a, b, c))
r.Log(bold("--- %s left: %s; right: %s ---", d1, a, b))
diffA := diff(vector.Post.StateTree.RootCID, actual)
r.Log(bold("----------BEGIN STATEDIFF A----------"))
r.Log(diffA)
r.Log(bold("----------END STATEDIFF A----------"))
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r.Log(bold("--- %s left: %s; right: %s ---", d2, c, b))
diffB := diff(vector.Pre.StateTree.RootCID, actual)
r.Log(bold("----------BEGIN STATEDIFF B----------"))
r.Log(diffB)
r.Log(bold("----------END STATEDIFF B----------"))
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r.Log(bold("--- %s left: %s; right: %s ---", d3, c, a))
diffC := diff(vector.Pre.StateTree.RootCID, vector.Post.StateTree.RootCID)
r.Log(bold("----------BEGIN STATEDIFF C----------"))
r.Log(diffC)
r.Log(bold("----------END STATEDIFF C----------"))
r.Log(bold("-----END STATEDIFF-----"))
return []string{diffA, diffB, diffC}
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}
// writeStateToTempCAR writes the provided roots to a temporary CAR that'll be
// cleaned up via t.Cleanup(). It returns the full path of the temp file.
func writeStateToTempCAR(bs blockstore.Blockstore, roots ...cid.Cid) (string, error) {
tmp, err := os.CreateTemp("", "lotus-tests-*.car")
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if err != nil {
return "", fmt.Errorf("failed to create temp file to dump CAR for diffing: %w", err)
}
carWalkFn := func(nd format.Node) (out []*format.Link, err error) {
for _, link := range nd.Links() {
if link.Cid.Prefix().Codec == cid.FilCommitmentSealed || link.Cid.Prefix().Codec == cid.FilCommitmentUnsealed {
continue
}
// ignore things we don't have, the state tree is incomplete.
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if has, err := bs.Has(context.TODO(), link.Cid); err != nil {
return nil, err
} else if has {
out = append(out, link)
}
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}
return out, nil
}
var (
offl = offline.Exchange(bs)
blkserv = blockservice.New(bs, offl)
dserv = merkledag.NewDAGService(blkserv)
)
err = car.WriteCarWithWalker(context.Background(), dserv, roots, tmp, carWalkFn)
if err != nil {
return "", fmt.Errorf("failed to dump CAR for diffing: %w", err)
}
_ = tmp.Close()
return tmp.Name(), nil
}
func LoadBlockstore(vectorCAR schema.Base64EncodedBytes) (blockstore.Blockstore, error) {
bs := blockstore.Blockstore(blockstore.NewMemory())
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// Read the base64-encoded CAR from the vector, and inflate the gzip.
buf := bytes.NewReader(vectorCAR)
r, err := gzip.NewReader(buf)
if err != nil {
return nil, fmt.Errorf("failed to inflate gzipped CAR: %s", err)
}
defer r.Close() // nolint
// Load the CAR embedded in the test vector into the Blockstore.
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_, err = car.LoadCar(context.TODO(), bs, r)
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if err != nil {
return nil, fmt.Errorf("failed to load state tree car from test vector: %s", err)
}
if FallbackBlockstoreGetter != nil {
fbs := &blockstore.FallbackStore{Blockstore: bs}
fbs.SetFallback(func(ctx context.Context, c cid.Cid) (blocks.Block, error) {
b, err := FallbackBlockstoreGetter.ChainReadObj(ctx, c)
if err != nil {
return nil, err
}
return blocks.NewBlockWithCid(b, c)
})
bs = fbs
}
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return bs, nil
}