neoneo-go/pkg/core/interop/context.go

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package interop
import (
"context"
"encoding/binary"
"errors"
"fmt"
"sort"
"strings"
"github.com/nspcc-dev/neo-go/pkg/config"
"github.com/nspcc-dev/neo-go/pkg/core/block"
"github.com/nspcc-dev/neo-go/pkg/core/dao"
"github.com/nspcc-dev/neo-go/pkg/core/interop/interopnames"
"github.com/nspcc-dev/neo-go/pkg/core/state"
"github.com/nspcc-dev/neo-go/pkg/core/storage"
"github.com/nspcc-dev/neo-go/pkg/core/transaction"
"github.com/nspcc-dev/neo-go/pkg/crypto/hash"
"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/manifest"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/nef"
"github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger"
"github.com/nspcc-dev/neo-go/pkg/util"
"github.com/nspcc-dev/neo-go/pkg/vm"
"github.com/nspcc-dev/neo-go/pkg/vm/emit"
"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
"go.uber.org/zap"
)
const (
// DefaultBaseExecFee specifies the default multiplier for opcode and syscall prices.
DefaultBaseExecFee = 30
)
// Ledger is the interface to Blockchain required for Context functionality.
type Ledger interface {
BlockHeight() uint32
CurrentBlockHash() util.Uint256
GetBlock(hash util.Uint256) (*block.Block, error)
GetConfig() config.Blockchain
GetHeaderHash(uint32) util.Uint256
}
// Context represents context in which interops are executed.
type Context struct {
Chain Ledger
Container hash.Hashable
Network uint32
Hardforks map[string]uint32
Natives []Contract
Trigger trigger.Type
Block *block.Block
NonceData [16]byte
Tx *transaction.Transaction
DAO *dao.Simple
Notifications []state.NotificationEvent
Log *zap.Logger
VM *vm.VM
Functions []Function
Invocations map[util.Uint160]int
cancelFuncs []context.CancelFunc
getContract func(*dao.Simple, util.Uint160) (*state.Contract, error)
baseExecFee int64
baseStorageFee int64
loadToken func(ic *Context, id int32) error
GetRandomCounter uint32
signers []transaction.Signer
}
// NewContext returns new interop context.
func NewContext(trigger trigger.Type, bc Ledger, d *dao.Simple, baseExecFee, baseStorageFee int64,
getContract func(*dao.Simple, util.Uint160) (*state.Contract, error), natives []Contract,
loadTokenFunc func(ic *Context, id int32) error,
block *block.Block, tx *transaction.Transaction, log *zap.Logger) *Context {
dao := d.GetPrivate()
cfg := bc.GetConfig().ProtocolConfiguration
return &Context{
Chain: bc,
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Network: uint32(cfg.Magic),
Hardforks: cfg.Hardforks,
Natives: natives,
Trigger: trigger,
Block: block,
Tx: tx,
DAO: dao,
Log: log,
Invocations: make(map[util.Uint160]int),
getContract: getContract,
baseExecFee: baseExecFee,
baseStorageFee: baseStorageFee,
loadToken: loadTokenFunc,
}
}
// InitNonceData initializes nonce to be used in `GetRandom` calculations.
func (ic *Context) InitNonceData() {
if tx, ok := ic.Container.(*transaction.Transaction); ok {
copy(ic.NonceData[:], tx.Hash().BytesBE())
}
if ic.Block != nil {
nonce := ic.Block.Nonce
nonce ^= binary.LittleEndian.Uint64(ic.NonceData[:])
binary.LittleEndian.PutUint64(ic.NonceData[:], nonce)
}
}
// UseSigners allows overriding signers used in this context.
func (ic *Context) UseSigners(s []transaction.Signer) {
ic.signers = s
}
// Signers returns signers witnessing the current execution context.
func (ic *Context) Signers() []transaction.Signer {
if ic.signers != nil {
return ic.signers
}
if ic.Tx != nil {
return ic.Tx.Signers
}
return nil
}
// Function binds function name, id with the function itself and the price,
// it's supposed to be inited once for all interopContexts, so it doesn't use
// vm.InteropFuncPrice directly.
type Function struct {
ID uint32
Name string
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Func func(*Context) error
// ParamCount is a number of function parameters.
ParamCount int
Price int64
// RequiredFlags is a set of flags which must be set during script invocations.
// Default value is NoneFlag i.e. no flags are required.
RequiredFlags callflag.CallFlag
}
// Method is a signature for a native method.
type Method = func(ic *Context, args []stackitem.Item) stackitem.Item
// MethodAndPrice is a generic hardfork-independent native contract method descriptor.
type MethodAndPrice struct {
HFSpecificMethodAndPrice
ActiveFrom *config.Hardfork
ActiveTill *config.Hardfork
}
// HFSpecificMethodAndPrice is a hardfork-specific native contract method descriptor.
type HFSpecificMethodAndPrice struct {
Func Method
MD *manifest.Method
CPUFee int64
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StorageFee int64
SyscallOffset int
RequiredFlags callflag.CallFlag
}
// Event is a generic hardfork-independent native contract event descriptor.
type Event struct {
HFSpecificEvent
ActiveFrom *config.Hardfork
ActiveTill *config.Hardfork
}
// HFSpecificEvent is a hardfork-specific native contract event descriptor.
type HFSpecificEvent struct {
MD *manifest.Event
}
// Contract is an interface for all native contracts.
type Contract interface {
// Initialize performs native contract initialization on contract deploy or update.
// Active hardfork is passed as the second argument.
Initialize(*Context, *config.Hardfork, *HFSpecificContractMD) error
// ActiveIn returns the hardfork native contract is active starting from or nil in case
// it's always active.
ActiveIn() *config.Hardfork
// InitializeCache aimed to initialize contract's cache when the contract has
// been deployed, but in-memory cached data were lost due to the node reset.
// It should be called each time after node restart iff the contract was
// deployed and no Initialize method was called.
InitializeCache(blockHeight uint32, d *dao.Simple) error
// Metadata returns generic native contract metadata.
Metadata() *ContractMD
OnPersist(*Context) error
PostPersist(*Context) error
}
// ContractMD represents a generic hardfork-independent native contract instance.
type ContractMD struct {
ID int32
Hash util.Uint160
Name string
// methods is a generic set of contract methods with activation hardforks. Any HF-dependent part of included methods
// (offsets, in particular) must not be used, there's a mdCache field for that.
methods []MethodAndPrice
// events is a generic set of contract events with activation hardforks. Any HF-dependent part of events must not be
// used, there's a mdCache field for that.
events []Event
// ActiveHFs is a map of hardforks that contract should react to. Contract update should be called for active
// hardforks. Note, that unlike the C# implementation, this map doesn't include contract's activation hardfork.
// This map is being initialized on contract creation and used as a read-only, hence, not protected
// by mutex.
ActiveHFs map[config.Hardfork]struct{}
// mdCache contains hardfork-specific ready-to-use contract descriptors. This cache is initialized in the native
// contracts constructors, and acts as read-only during the whole node lifetime, thus not protected by mutex.
mdCache map[config.Hardfork]*HFSpecificContractMD
// onManifestConstruction is a callback for manifest finalization.
onManifestConstruction func(*manifest.Manifest)
}
// HFSpecificContractMD is a hardfork-specific native contract descriptor.
type HFSpecificContractMD struct {
state.ContractBase
Methods []HFSpecificMethodAndPrice
Events []HFSpecificEvent
}
// NewContractMD returns Contract with the specified fields set. onManifestConstruction callback every time
// after hardfork-specific manifest creation and aimed to finalize the manifest.
func NewContractMD(name string, id int32, onManifestConstruction ...func(*manifest.Manifest)) *ContractMD {
c := &ContractMD{Name: name}
if len(onManifestConstruction) != 0 {
c.onManifestConstruction = onManifestConstruction[0]
}
c.ID = id
c.Hash = state.CreateNativeContractHash(c.Name)
c.ActiveHFs = make(map[config.Hardfork]struct{})
c.mdCache = make(map[config.Hardfork]*HFSpecificContractMD)
return c
}
// HFSpecificContractMD returns hardfork-specific native contract metadata, i.e. with methods, events and script
// corresponding to the specified hardfork. If hardfork is not specified, then default metadata will be returned
// (methods, events and script that are always active). Calling this method for hardforks older than the contract
// activation hardfork is a no-op.
func (c *ContractMD) HFSpecificContractMD(hf *config.Hardfork) *HFSpecificContractMD {
var key config.Hardfork
if hf != nil {
key = *hf
}
md, ok := c.mdCache[key]
if !ok {
panic(fmt.Errorf("native contract descriptor cache is not initialized: contract %s, hardfork %s", c.Hash.StringLE(), key))
}
if md == nil {
panic(fmt.Errorf("native contract descriptor cache is nil: contract %s, hardfork %s", c.Hash.StringLE(), key))
}
return md
}
// BuildHFSpecificMD generates and caches contract's descriptor for every known hardfork.
func (c *ContractMD) BuildHFSpecificMD(activeIn *config.Hardfork) {
var start config.Hardfork
if activeIn != nil {
start = *activeIn
}
for _, hf := range append([]config.Hardfork{config.HFDefault}, config.Hardforks...) {
switch {
case hf.Cmp(start) < 0:
continue
case hf.Cmp(start) == 0:
c.buildHFSpecificMD(hf)
default:
if _, ok := c.ActiveHFs[hf]; !ok {
// Intentionally omit HFSpecificContractMD structure copying since mdCache is read-only.
c.mdCache[hf] = c.mdCache[hf.Prev()]
continue
}
c.buildHFSpecificMD(hf)
}
}
}
// buildHFSpecificMD builds hardfork-specific contract descriptor that includes methods and events active starting from
// the specified hardfork or older. It also updates cache with the received value.
func (c *ContractMD) buildHFSpecificMD(hf config.Hardfork) {
var (
abiMethods = make([]manifest.Method, 0, len(c.methods))
methods = make([]HFSpecificMethodAndPrice, 0, len(c.methods))
abiEvents = make([]manifest.Event, 0, len(c.events))
events = make([]HFSpecificEvent, 0, len(c.events))
)
w := io.NewBufBinWriter()
for i := range c.methods {
m := c.methods[i]
if !(m.ActiveFrom == nil || (hf != config.HFDefault && (*m.ActiveFrom).Cmp(hf) >= 0)) ||
(m.ActiveTill != nil && (*m.ActiveTill).Cmp(hf) <= 0) {
continue
}
// Perform method descriptor copy to support independent HF-based offset update.
md := *m.MD
m.MD = &md
m.MD.Offset = w.Len()
emit.Int(w.BinWriter, 0)
m.SyscallOffset = w.Len()
emit.Syscall(w.BinWriter, interopnames.SystemContractCallNative)
emit.Opcodes(w.BinWriter, opcode.RET)
abiMethods = append(abiMethods, *m.MD)
methods = append(methods, m.HFSpecificMethodAndPrice)
}
if w.Err != nil {
panic(fmt.Errorf("can't create native contract script: %w", w.Err))
}
for i := range c.events {
e := c.events[i]
if !(e.ActiveFrom == nil || (hf != config.HFDefault && (*e.ActiveFrom).Cmp(hf) >= 0)) ||
(e.ActiveTill != nil && (*e.ActiveTill).Cmp(hf) <= 0) {
continue
}
abiEvents = append(abiEvents, *e.MD)
events = append(events, e.HFSpecificEvent)
}
// NEF is now stored in the contract state and affects state dump.
// Therefore, values are taken from C# node.
nf := nef.File{
Header: nef.Header{
Magic: nef.Magic,
Compiler: "neo-core-v3.0",
},
Tokens: []nef.MethodToken{}, // avoid `nil` result during JSON marshalling,
Script: w.Bytes(),
}
nf.Checksum = nf.CalculateChecksum()
m := manifest.DefaultManifest(c.Name)
m.ABI.Methods = abiMethods
m.ABI.Events = abiEvents
if c.onManifestConstruction != nil {
c.onManifestConstruction(m)
}
md := &HFSpecificContractMD{
ContractBase: state.ContractBase{
ID: c.ID,
Hash: c.Hash,
NEF: nf,
Manifest: *m,
},
Methods: methods,
Events: events,
}
c.mdCache[hf] = md
}
// AddMethod adds a new method to a native contract.
func (c *ContractMD) AddMethod(md *MethodAndPrice, desc *manifest.Method) {
md.MD = desc
desc.Safe = md.RequiredFlags&(callflag.All^callflag.ReadOnly) == 0
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index := sort.Search(len(c.methods), func(i int) bool {
md := c.methods[i].MD
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if md.Name != desc.Name {
return md.Name >= desc.Name
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}
return len(md.Parameters) > len(desc.Parameters)
})
c.methods = append(c.methods, MethodAndPrice{})
copy(c.methods[index+1:], c.methods[index:])
c.methods[index] = *md
if md.ActiveFrom != nil {
c.ActiveHFs[*md.ActiveFrom] = struct{}{}
}
if md.ActiveTill != nil {
c.ActiveHFs[*md.ActiveTill] = struct{}{}
}
}
// GetMethodByOffset returns method with the provided offset.
// Offset is offset of `System.Contract.CallNative` syscall.
func (c *HFSpecificContractMD) GetMethodByOffset(offset int) (HFSpecificMethodAndPrice, bool) {
for k := range c.Methods {
if c.Methods[k].SyscallOffset == offset {
return c.Methods[k], true
}
}
return HFSpecificMethodAndPrice{}, false
}
// GetMethod returns method `name` with the specified number of parameters.
func (c *HFSpecificContractMD) GetMethod(name string, paramCount int) (HFSpecificMethodAndPrice, bool) {
index := sort.Search(len(c.Methods), func(i int) bool {
md := c.Methods[i]
res := strings.Compare(name, md.MD.Name)
switch res {
case -1, 1:
return res == -1
default:
return paramCount <= len(md.MD.Parameters)
}
})
if index < len(c.Methods) {
md := c.Methods[index]
if md.MD.Name == name && (paramCount == -1 || len(md.MD.Parameters) == paramCount) {
return md, true
}
}
return HFSpecificMethodAndPrice{}, false
}
// AddEvent adds a new event to the native contract.
func (c *ContractMD) AddEvent(md Event) {
c.events = append(c.events, md)
if md.ActiveFrom != nil {
c.ActiveHFs[*md.ActiveFrom] = struct{}{}
}
if md.ActiveTill != nil {
c.ActiveHFs[*md.ActiveTill] = struct{}{}
}
}
// Sort sorts interop functions by id.
func Sort(fs []Function) {
sort.Slice(fs, func(i, j int) bool { return fs[i].ID < fs[j].ID })
}
// GetContract returns a contract by its hash in the current interop context.
func (ic *Context) GetContract(hash util.Uint160) (*state.Contract, error) {
return ic.getContract(ic.DAO, hash)
}
// GetFunction returns metadata for interop with the specified id.
func (ic *Context) GetFunction(id uint32) *Function {
n := sort.Search(len(ic.Functions), func(i int) bool {
return ic.Functions[i].ID >= id
})
if n < len(ic.Functions) && ic.Functions[n].ID == id {
return &ic.Functions[n]
}
return nil
}
// BaseExecFee represents factor to multiply syscall prices with.
func (ic *Context) BaseExecFee() int64 {
return ic.baseExecFee
}
// BaseStorageFee represents price for storing one byte of data in the contract storage.
func (ic *Context) BaseStorageFee() int64 {
return ic.baseStorageFee
}
// LoadToken wraps externally provided load-token loading function providing it with context,
// this function can then be easily used by VM.
func (ic *Context) LoadToken(id int32) error {
return ic.loadToken(ic, id)
}
// SyscallHandler handles syscall with id.
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func (ic *Context) SyscallHandler(_ *vm.VM, id uint32) error {
f := ic.GetFunction(id)
if f == nil {
return errors.New("syscall not found")
}
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cf := ic.VM.Context().GetCallFlags()
if !cf.Has(f.RequiredFlags) {
return fmt.Errorf("missing call flags: %05b vs %05b", cf, f.RequiredFlags)
}
if !ic.VM.AddGas(f.Price * ic.BaseExecFee()) {
return errors.New("insufficient amount of gas")
}
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return f.Func(ic)
}
// SpawnVM spawns a new VM with the specified gas limit and set context.VM field.
func (ic *Context) SpawnVM() *vm.VM {
v := vm.NewWithTrigger(ic.Trigger)
ic.initVM(v)
return v
}
func (ic *Context) initVM(v *vm.VM) {
v.LoadToken = ic.LoadToken
v.GasLimit = -1
v.SyscallHandler = ic.SyscallHandler
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v.SetPriceGetter(ic.GetPrice)
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ic.VM = v
}
// ReuseVM resets given VM and allows to reuse it in the current context.
func (ic *Context) ReuseVM(v *vm.VM) {
v.Reset(ic.Trigger)
ic.initVM(v)
}
// RegisterCancelFunc adds the given function to the list of functions to be called after the VM
// finishes script execution.
func (ic *Context) RegisterCancelFunc(f context.CancelFunc) {
if f != nil {
ic.cancelFuncs = append(ic.cancelFuncs, f)
}
}
// Finalize calls all registered cancel functions to release the occupied resources.
func (ic *Context) Finalize() {
for _, f := range ic.cancelFuncs {
f()
}
ic.cancelFuncs = nil
}
// Exec executes loaded VM script and calls registered finalizers to release the occupied resources.
func (ic *Context) Exec() error {
defer ic.Finalize()
return ic.VM.Run()
}
// BlockHeight returns the latest persisted and stored block height/index.
// Persisting block index is not taken into account. If Context's block is set,
// then BlockHeight calculations relies on persisting block index.
func (ic *Context) BlockHeight() uint32 {
if ic.Block != nil {
return ic.Block.Index - 1 // Persisting block is not yet stored.
}
return ic.Chain.BlockHeight()
}
// CurrentBlockHash returns current block hash got from Context's block if it's set.
func (ic *Context) CurrentBlockHash() util.Uint256 {
if ic.Block != nil {
return ic.Chain.GetHeaderHash(ic.Block.Index - 1) // Persisting block is not yet stored.
}
return ic.Chain.CurrentBlockHash()
}
// GetBlock returns block if it exists and available at the current Context's height.
func (ic *Context) GetBlock(hash util.Uint256) (*block.Block, error) {
block, err := ic.Chain.GetBlock(hash)
if err != nil {
return nil, err
}
if block.Index > ic.BlockHeight() { // persisting block is not reachable.
return nil, storage.ErrKeyNotFound
}
return block, nil
}
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// IsHardforkEnabled tells whether specified hard-fork enabled at the current context height.
func (ic *Context) IsHardforkEnabled(hf config.Hardfork) bool {
height, ok := ic.Hardforks[hf.String()]
if ok {
return (ic.BlockHeight() + 1) >= height // persisting block should be taken into account.
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}
// Completely rely on proper hardforks initialisation made by core.NewBlockchain.
return false
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}
// IsHardforkActivation denotes whether current block height is the height of
// specified hardfork activation.
func (ic *Context) IsHardforkActivation(hf config.Hardfork) bool {
// Completely rely on proper hardforks initialisation made by core.NewBlockchain.
height, ok := ic.Hardforks[hf.String()]
return ok && ic.Block.Index == height
}
// AddNotification creates notification event and appends it to the notification list.
func (ic *Context) AddNotification(hash util.Uint160, name string, item *stackitem.Array) {
ic.Notifications = append(ic.Notifications, state.NotificationEvent{
ScriptHash: hash,
Name: name,
Item: item,
})
}