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package conformance
import (
"bytes"
"compress/gzip"
"context"
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"encoding/base64"
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"encoding/json"
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"fmt"
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"io/ioutil"
"os"
"path/filepath"
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"strconv"
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"strings"
"testing"
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"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/go-state-types/exitcode"
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"github.com/ipfs/go-cid"
ds "github.com/ipfs/go-datastore"
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"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/chain/vm"
"github.com/filecoin-project/lotus/lib/blockstore"
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"github.com/filecoin-project/statediff"
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"github.com/filecoin-project/test-vectors/schema"
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"github.com/fatih/color"
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"github.com/ipld/go-car"
)
const (
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// EnvSkipConformance, if 1, skips the conformance test suite.
EnvSkipConformance = "SKIP_CONFORMANCE"
// EnvCorpusRootDir is the name of the environment variable where the path
// to an alternative corpus location can be provided.
//
// The default is defaultCorpusRoot.
EnvCorpusRootDir = "CORPUS_DIR"
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// defaultCorpusRoot is the directory where the test vector corpus is hosted.
// It is mounted on the Lotus repo as a git submodule.
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//
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// When running this test, the corpus root can be overridden through the
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// -conformance.corpus CLI flag to run an alternate corpus.
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defaultCorpusRoot = "../extern/test-vectors/corpus"
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)
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// ignore is a set of paths relative to root to skip.
var ignore = map [ string ] struct { } {
".git" : { } ,
"schema.json" : { } ,
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}
// TestConformance is the entrypoint test that runs all test vectors found
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// in the corpus root directory.
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//
// It locates all json files via a recursive walk, skipping over the ignore set,
// as well as files beginning with _. It parses each file as a test vector, and
// runs it via the Driver.
func TestConformance ( t * testing . T ) {
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if skip := strings . TrimSpace ( os . Getenv ( EnvSkipConformance ) ) ; skip == "1" {
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t . SkipNow ( )
}
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// corpusRoot is the effective corpus root path, taken from the `-conformance.corpus` CLI flag,
// falling back to defaultCorpusRoot if not provided.
corpusRoot := defaultCorpusRoot
if dir := strings . TrimSpace ( os . Getenv ( EnvCorpusRootDir ) ) ; dir != "" {
corpusRoot = dir
}
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var vectors [ ] string
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err := filepath . Walk ( corpusRoot + "/" , func ( path string , info os . FileInfo , err error ) error {
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if err != nil {
t . Fatal ( err )
}
filename := filepath . Base ( path )
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rel , err := filepath . Rel ( corpusRoot , path )
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if err != nil {
t . Fatal ( err )
}
if _ , ok := ignore [ rel ] ; ok {
// skip over using the right error.
if info . IsDir ( ) {
return filepath . SkipDir
}
return nil
}
if info . IsDir ( ) {
// dive into directories.
return nil
}
if filepath . Ext ( path ) != ".json" {
// skip if not .json.
return nil
}
if ignored := strings . HasPrefix ( filename , "_" ) ; ignored {
// ignore files starting with _.
t . Logf ( "ignoring: %s" , rel )
return nil
}
vectors = append ( vectors , rel )
return nil
} )
if err != nil {
t . Fatal ( err )
}
if len ( vectors ) == 0 {
t . Fatalf ( "no test vectors found" )
}
// Run a test for each vector.
for _ , v := range vectors {
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path := filepath . Join ( corpusRoot , v )
raw , err := ioutil . ReadFile ( path )
if err != nil {
t . Fatalf ( "failed to read test raw file: %s" , path )
}
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var vector schema . TestVector
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err = json . Unmarshal ( raw , & vector )
if err != nil {
t . Errorf ( "failed to parse test vector %s: %s; skipping" , path , err )
continue
}
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t . Run ( v , func ( t * testing . T ) {
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for _ , h := range vector . Hints {
if h == schema . HintIncorrect {
t . Logf ( "skipping vector marked as incorrect: %s" , vector . Meta . ID )
t . SkipNow ( )
}
}
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// dispatch the execution depending on the vector class.
switch vector . Class {
case "message" :
executeMessageVector ( t , & vector )
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case "tipset" :
executeTipsetVector ( t , & vector )
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default :
t . Fatalf ( "test vector class not supported: %s" , vector . Class )
}
} )
}
}
// executeMessageVector executes a message-class test vector.
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func executeMessageVector ( t * testing . T , vector * schema . TestVector ) {
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var (
ctx = context . Background ( )
epoch = vector . Pre . Epoch
root = vector . Pre . StateTree . RootCID
)
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// Load the CAR into a new temporary Blockstore.
bs := loadCAR ( t , vector . CAR )
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// Create a new Driver.
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driver := NewDriver ( ctx , vector . Selector )
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// Apply every message.
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for i , m := range vector . ApplyMessages {
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msg , err := types . DecodeMessage ( m . Bytes )
if err != nil {
t . Fatalf ( "failed to deserialize message: %s" , err )
}
// add an epoch if one's set.
if m . Epoch != nil {
epoch = * m . Epoch
}
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// Execute the message.
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var ret * vm . ApplyRet
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ret , root , err = driver . ExecuteMessage ( bs , root , abi . ChainEpoch ( epoch ) , msg )
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if err != nil {
t . Fatalf ( "fatal failure when executing message: %s" , err )
}
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// Assert that the receipt matches what the test vector expects.
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assertMsgResult ( t , vector . Post . Receipts [ i ] , ret , strconv . Itoa ( i ) )
}
// Once all messages are applied, assert that the final state root matches
// the expected postcondition root.
if root != vector . Post . StateTree . RootCID {
dumpThreeWayStateDiff ( t , vector , bs , root )
}
}
// executeTipsetVector executes a tipset-class test vector.
func executeTipsetVector ( t * testing . T , vector * schema . TestVector ) {
var (
ctx = context . Background ( )
prevEpoch = vector . Pre . Epoch
root = vector . Pre . StateTree . RootCID
tmpds = ds . NewMapDatastore ( )
)
// Load the CAR into a new temporary Blockstore.
bs := loadCAR ( t , vector . CAR )
// Create a new Driver.
driver := NewDriver ( ctx , vector . Selector )
// Apply every tipset.
var receiptsIdx int
for i , ts := range vector . ApplyTipsets {
ts := ts // capture
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ret , err := driver . ExecuteTipset ( bs , tmpds , root , abi . ChainEpoch ( prevEpoch ) , & ts )
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if err != nil {
t . Fatalf ( "failed to apply tipset %d message: %s" , i , err )
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}
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for j , v := range ret . AppliedResults {
assertMsgResult ( t , vector . Post . Receipts [ receiptsIdx ] , v , fmt . Sprintf ( "%d of tipset %d" , j , i ) )
receiptsIdx ++
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}
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// Compare the receipts root.
if expected , actual := vector . Post . ReceiptsRoots [ i ] , ret . ReceiptsRoot ; expected != actual {
t . Errorf ( "post receipts root doesn't match; expected: %s, was: %s" , expected , actual )
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}
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prevEpoch = ts . Epoch
root = ret . PostStateRoot
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}
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// Once all messages are applied, assert that the final state root matches
// the expected postcondition root.
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if root != vector . Post . StateTree . RootCID {
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dumpThreeWayStateDiff ( t , vector , bs , root )
}
}
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// assertMsgResult compares a message result. It takes the expected receipt
// 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 ( t * testing . T , expected * schema . Receipt , actual * vm . ApplyRet , label string ) {
t . Helper ( )
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if expected , actual := exitcode . ExitCode ( expected . ExitCode ) , actual . ExitCode ; expected != actual {
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t . Errorf ( "exit code of msg %s did not match; expected: %s, got: %s" , label , expected , actual )
}
if expected , actual := expected . GasUsed , actual . GasUsed ; expected != actual {
t . 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 ) {
t . Errorf ( "return value of msg %s did not match; expected: %s, got: %s" , label , base64 . StdEncoding . EncodeToString ( expected ) , base64 . StdEncoding . EncodeToString ( actual ) )
}
}
func dumpThreeWayStateDiff ( t * testing . T , vector * schema . TestVector , bs blockstore . Blockstore , actual cid . Cid ) {
color . NoColor = false // enable colouring.
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t . Errorf ( "wrong post root cid; expected %v, but got %v" , vector . Post . StateTree . RootCID , actual )
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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]" )
)
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bold := color . New ( color . Bold ) . SprintfFunc ( )
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// run state diffs.
t . Log ( bold ( "=== dumping 3-way diffs between %s, %s, %s ===" , a , b , c ) )
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t . Log ( bold ( "--- %s left: %s; right: %s ---" , d1 , a , b ) )
t . Log ( statediff . Diff ( context . Background ( ) , bs , vector . Post . StateTree . RootCID , actual ) )
t . Log ( bold ( "--- %s left: %s; right: %s ---" , d2 , c , b ) )
t . Log ( statediff . Diff ( context . Background ( ) , bs , vector . Pre . StateTree . RootCID , actual ) )
t . Log ( bold ( "--- %s left: %s; right: %s ---" , d3 , c , a ) )
t . Log ( statediff . Diff ( context . Background ( ) , bs , vector . Pre . StateTree . RootCID , vector . Post . StateTree . RootCID ) )
}
func loadCAR ( t * testing . T , vectorCAR schema . Base64EncodedBytes ) blockstore . Blockstore {
bs := blockstore . NewTemporary ( )
// Read the base64-encoded CAR from the vector, and inflate the gzip.
buf := bytes . NewReader ( vectorCAR )
r , err := gzip . NewReader ( buf )
if err != nil {
t . Fatalf ( "failed to inflate gzipped CAR: %s" , err )
}
defer r . Close ( ) // nolint
// Load the CAR embedded in the test vector into the Blockstore.
_ , err = car . LoadCar ( bs , r )
if err != nil {
t . Fatalf ( "failed to load state tree car from test vector: %s" , err )
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}
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return bs
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}