lotus/conformance/driver.go

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package conformance
import (
"context"
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gobig "math/big"
"os"
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"github.com/filecoin-project/lotus/chain/state"
"github.com/filecoin-project/lotus/chain/stmgr"
"github.com/filecoin-project/lotus/chain/store"
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"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/chain/vm"
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"github.com/filecoin-project/lotus/conformance/chaos"
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"github.com/filecoin-project/lotus/extern/sector-storage/ffiwrapper"
"github.com/filecoin-project/lotus/lib/blockstore"
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_ "github.com/filecoin-project/lotus/lib/sigs/bls" // enable bls signatures
_ "github.com/filecoin-project/lotus/lib/sigs/secp" // enable secp signatures
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"github.com/filecoin-project/go-state-types/abi"
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"github.com/filecoin-project/go-state-types/big"
"github.com/filecoin-project/go-state-types/crypto"
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"github.com/filecoin-project/test-vectors/schema"
"github.com/filecoin-project/go-address"
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"github.com/ipfs/go-cid"
ds "github.com/ipfs/go-datastore"
)
var (
// DefaultCirculatingSupply is the fallback circulating supply returned by
// the driver's CircSupplyCalculator function, used if the vector specifies
// no circulating supply.
DefaultCirculatingSupply = types.TotalFilecoinInt
// DefaultBaseFee to use in the VM, if one is not supplied in the vector.
DefaultBaseFee = abi.NewTokenAmount(100)
)
type Driver struct {
ctx context.Context
selector schema.Selector
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vmFlush bool
}
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type DriverOpts struct {
// DisableVMFlush, when true, avoids calling VM.Flush(), forces a blockstore
// recursive copy, from the temporary buffer blockstore, to the real
// system's blockstore. Disabling VM flushing is useful when extracting test
// vectors and trimming state, as we don't want to force an accidental
// deep copy of the state tree.
//
// Disabling VM flushing almost always should go hand-in-hand with
// LOTUS_DISABLE_VM_BUF=iknowitsabadidea. That way, state tree writes are
// immediately committed to the blockstore.
DisableVMFlush bool
}
func NewDriver(ctx context.Context, selector schema.Selector, opts DriverOpts) *Driver {
return &Driver{ctx: ctx, selector: selector, vmFlush: !opts.DisableVMFlush}
}
type ExecuteTipsetResult struct {
ReceiptsRoot cid.Cid
PostStateRoot cid.Cid
// AppliedMessages stores the messages that were applied, in the order they
// were applied. It includes implicit messages (cron, rewards).
AppliedMessages []*types.Message
// AppliedResults stores the results of AppliedMessages, in the same order.
AppliedResults []*vm.ApplyRet
}
// ExecuteTipset executes the supplied tipset on top of the state represented
// by the preroot CID.
//
// parentEpoch is the last epoch in which an actual tipset was processed. This
// is used by Lotus for null block counting and cron firing.
//
// This method returns the the receipts root, the poststate root, and the VM
// message results. The latter _include_ implicit messages, such as cron ticks
// and reward withdrawal per miner.
func (d *Driver) ExecuteTipset(bs blockstore.Blockstore, ds ds.Batching, preroot cid.Cid, parentEpoch abi.ChainEpoch, tipset *schema.Tipset, execEpoch abi.ChainEpoch) (*ExecuteTipsetResult, error) {
var (
syscalls = vm.Syscalls(ffiwrapper.ProofVerifier)
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vmRand = NewFixedRand()
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cs = store.NewChainStore(context.Background(), bs, bs, ds, syscalls, nil)
sm = stmgr.NewStateManager(cs)
)
blocks := make([]store.BlockMessages, 0, len(tipset.Blocks))
for _, b := range tipset.Blocks {
sb := store.BlockMessages{
Miner: b.MinerAddr,
WinCount: b.WinCount,
}
for _, m := range b.Messages {
msg, err := types.DecodeMessage(m)
if err != nil {
return nil, err
}
switch msg.From.Protocol() {
case address.SECP256K1:
sb.SecpkMessages = append(sb.SecpkMessages, toChainMsg(msg))
case address.BLS:
sb.BlsMessages = append(sb.BlsMessages, toChainMsg(msg))
default:
// sneak in messages originating from other addresses as both kinds.
// these should fail, as they are actually invalid senders.
sb.SecpkMessages = append(sb.SecpkMessages, msg)
sb.BlsMessages = append(sb.BlsMessages, msg)
}
}
blocks = append(blocks, sb)
}
var (
messages []*types.Message
results []*vm.ApplyRet
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basefee = abi.NewTokenAmount(tipset.BaseFee.Int64())
)
postcid, receiptsroot, err := sm.ApplyBlocks(context.Background(), parentEpoch, preroot, blocks, execEpoch, vmRand, func(_ cid.Cid, msg *types.Message, ret *vm.ApplyRet) error {
messages = append(messages, msg)
results = append(results, ret)
return nil
}, basefee, nil)
if err != nil {
return nil, err
}
ret := &ExecuteTipsetResult{
ReceiptsRoot: receiptsroot,
PostStateRoot: postcid,
AppliedMessages: messages,
AppliedResults: results,
}
return ret, nil
}
type ExecuteMessageParams struct {
Preroot cid.Cid
Epoch abi.ChainEpoch
Message *types.Message
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CircSupply abi.TokenAmount
BaseFee abi.TokenAmount
// Rand is an optional vm.Rand implementation to use. If nil, the driver
// will use a vm.Rand that returns a fixed value for all calls.
Rand vm.Rand
}
// ExecuteMessage executes a conformance test vector message in a temporary VM.
func (d *Driver) ExecuteMessage(bs blockstore.Blockstore, params ExecuteMessageParams) (*vm.ApplyRet, cid.Cid, error) {
if !d.vmFlush {
// do not flush the VM, just the state tree; this should be used with
// LOTUS_DISABLE_VM_BUF enabled, so writes will anyway be visible.
_ = os.Setenv("LOTUS_DISABLE_VM_BUF", "iknowitsabadidea")
}
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if params.Rand == nil {
params.Rand = NewFixedRand()
}
// dummy state manager; only to reference the GetNetworkVersion method,
// which does not depend on state.
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sm := stmgr.NewStateManager(nil)
vmOpts := &vm.VMOpts{
StateBase: params.Preroot,
Epoch: params.Epoch,
Bstore: bs,
Syscalls: vm.Syscalls(ffiwrapper.ProofVerifier),
CircSupplyCalc: func(_ context.Context, _ abi.ChainEpoch, _ *state.StateTree) (abi.TokenAmount, error) {
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return params.CircSupply, nil
},
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Rand: params.Rand,
BaseFee: params.BaseFee,
NtwkVersion: sm.GetNtwkVersion,
}
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lvm, err := vm.NewVM(context.TODO(), vmOpts)
if err != nil {
return nil, cid.Undef, err
}
invoker := vm.NewActorRegistry()
// register the chaos actor if required by the vector.
if chaosOn, ok := d.selector["chaos_actor"]; ok && chaosOn == "true" {
invoker.Register(nil, chaos.Actor{})
}
lvm.SetInvoker(invoker)
ret, err := lvm.ApplyMessage(d.ctx, toChainMsg(params.Message))
if err != nil {
return nil, cid.Undef, err
}
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var root cid.Cid
if d.vmFlush {
// flush the VM, committing the state tree changes and forcing a
// recursive copoy from the temporary blcokstore to the real blockstore.
root, err = lvm.Flush(d.ctx)
} else {
root, err = lvm.StateTree().(*state.StateTree).Flush(d.ctx)
}
return ret, root, err
}
// toChainMsg injects a synthetic 0-filled signature of the right length to
// messages that originate from secp256k senders, leaving all
// others untouched.
// TODO: generate a signature in the DSL so that it's encoded in
// the test vector.
func toChainMsg(msg *types.Message) (ret types.ChainMsg) {
ret = msg
if msg.From.Protocol() == address.SECP256K1 {
ret = &types.SignedMessage{
Message: *msg,
Signature: crypto.Signature{
Type: crypto.SigTypeSecp256k1,
Data: make([]byte, 65),
},
}
}
return ret
}
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// BaseFeeOrDefault converts a basefee as passed in a test vector (go *big.Int
// type) to an abi.TokenAmount, or if nil it returns the DefaultBaseFee.
func BaseFeeOrDefault(basefee *gobig.Int) abi.TokenAmount {
if basefee == nil {
return DefaultBaseFee
}
return big.NewFromGo(basefee)
}
// CircSupplyOrDefault converts a circulating supply as passed in a test vector
// (go *big.Int type) to an abi.TokenAmount, or if nil it returns the
// DefaultCirculatingSupply.
func CircSupplyOrDefault(circSupply *gobig.Int) abi.TokenAmount {
if circSupply == nil {
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return DefaultCirculatingSupply
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}
return big.NewFromGo(circSupply)
}