neo-go/pkg/rpcclient/policy/policy.go

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/*
Package policy allows to work with the native PolicyContract contract via RPC.
Safe methods are encapsulated into ContractReader structure while Contract provides
various methods to perform PolicyContract state-changing calls.
*/
package policy
import (
"github.com/nspcc-dev/neo-go/pkg/core/native/nativenames"
"github.com/nspcc-dev/neo-go/pkg/core/state"
"github.com/nspcc-dev/neo-go/pkg/core/transaction"
"github.com/nspcc-dev/neo-go/pkg/neorpc/result"
"github.com/nspcc-dev/neo-go/pkg/rpcclient/unwrap"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"github.com/nspcc-dev/neo-go/pkg/util"
)
// Invoker is used by ContractReader to call various methods.
type Invoker interface {
Call(contract util.Uint160, operation string, params ...any) (*result.Invoke, error)
}
// Actor is used by Contract to create and send transactions.
type Actor interface {
Invoker
MakeCall(contract util.Uint160, method string, params ...any) (*transaction.Transaction, error)
MakeRun(script []byte) (*transaction.Transaction, error)
MakeUnsignedCall(contract util.Uint160, method string, attrs []transaction.Attribute, params ...any) (*transaction.Transaction, error)
MakeUnsignedRun(script []byte, attrs []transaction.Attribute) (*transaction.Transaction, error)
SendCall(contract util.Uint160, method string, params ...any) (util.Uint256, uint32, error)
SendRun(script []byte) (util.Uint256, uint32, error)
}
// Hash stores the hash of the native PolicyContract contract.
var Hash = state.CreateNativeContractHash(nativenames.Policy)
const (
execFeeSetter = "setExecFeeFactor"
feePerByteSetter = "setFeePerByte"
storagePriceSetter = "setStoragePrice"
)
// ContractReader provides an interface to call read-only PolicyContract
// contract's methods.
type ContractReader struct {
invoker Invoker
}
// Contract represents a PolicyContract contract client that can be used to
// invoke all of its methods.
type Contract struct {
ContractReader
actor Actor
}
// NewReader creates an instance of ContractReader that can be used to read
// data from the contract.
func NewReader(invoker Invoker) *ContractReader {
return &ContractReader{invoker}
}
// New creates an instance of Contract to perform actions using
// the given Actor. Notice that PolicyContract's state can be changed
// only by the network's committee, so the Actor provided must be a committee
// actor for all methods to work properly.
func New(actor Actor) *Contract {
return &Contract{*NewReader(actor), actor}
}
// GetExecFeeFactor returns current execution fee factor used by the network.
// This setting affects all executions of all transactions.
func (c *ContractReader) GetExecFeeFactor() (int64, error) {
return unwrap.Int64(c.invoker.Call(Hash, "getExecFeeFactor"))
}
// GetFeePerByte returns current minimal per-byte network fee value which
// affects all transactions on the network.
func (c *ContractReader) GetFeePerByte() (int64, error) {
return unwrap.Int64(c.invoker.Call(Hash, "getFeePerByte"))
}
// GetStoragePrice returns current per-byte storage price. Any contract saving
// data to the storage pays for it according to this value.
func (c *ContractReader) GetStoragePrice() (int64, error) {
return unwrap.Int64(c.invoker.Call(Hash, "getStoragePrice"))
}
// IsBlocked checks if the given account is blocked in the PolicyContract.
func (c *ContractReader) IsBlocked(account util.Uint160) (bool, error) {
return unwrap.Bool(c.invoker.Call(Hash, "isBlocked", account))
}
// SetExecFeeFactor creates and sends a transaction that sets the new
// execution fee factor for the network to use. The action is successful when
// transaction ends in HALT state. The returned values are transaction hash, its
// ValidUntilBlock value and an error if any.
func (c *Contract) SetExecFeeFactor(value int64) (util.Uint256, uint32, error) {
return c.actor.SendCall(Hash, execFeeSetter, value)
}
// SetExecFeeFactorTransaction creates a transaction that sets the new execution
// fee factor. This transaction is signed, but not sent to the network,
// instead it's returned to the caller.
func (c *Contract) SetExecFeeFactorTransaction(value int64) (*transaction.Transaction, error) {
return c.actor.MakeCall(Hash, execFeeSetter, value)
}
// SetExecFeeFactorUnsigned creates a transaction that sets the new execution
// fee factor. This transaction is not signed and just returned to the caller.
func (c *Contract) SetExecFeeFactorUnsigned(value int64) (*transaction.Transaction, error) {
return c.actor.MakeUnsignedCall(Hash, execFeeSetter, nil, value)
}
// SetFeePerByte creates and sends a transaction that sets the new minimal
// per-byte network fee value. The action is successful when transaction ends in
// HALT state. The returned values are transaction hash, its ValidUntilBlock
// value and an error if any.
func (c *Contract) SetFeePerByte(value int64) (util.Uint256, uint32, error) {
return c.actor.SendCall(Hash, feePerByteSetter, value)
}
// SetFeePerByteTransaction creates a transaction that sets the new minimal
// per-byte network fee value. This transaction is signed, but not sent to the
// network, instead it's returned to the caller.
func (c *Contract) SetFeePerByteTransaction(value int64) (*transaction.Transaction, error) {
return c.actor.MakeCall(Hash, feePerByteSetter, value)
}
// SetFeePerByteUnsigned creates a transaction that sets the new minimal per-byte
// network fee value. This transaction is not signed and just returned to the
// caller.
func (c *Contract) SetFeePerByteUnsigned(value int64) (*transaction.Transaction, error) {
return c.actor.MakeUnsignedCall(Hash, feePerByteSetter, nil, value)
}
// SetStoragePrice creates and sends a transaction that sets the storage price
// for contracts. The action is successful when transaction ends in HALT
// state. The returned values are transaction hash, its ValidUntilBlock value
// and an error if any.
func (c *Contract) SetStoragePrice(value int64) (util.Uint256, uint32, error) {
return c.actor.SendCall(Hash, storagePriceSetter, value)
}
// SetStoragePriceTransaction creates a transaction that sets the storage price
// for contracts. This transaction is signed, but not sent to the network,
// instead it's returned to the caller.
func (c *Contract) SetStoragePriceTransaction(value int64) (*transaction.Transaction, error) {
return c.actor.MakeCall(Hash, storagePriceSetter, value)
}
// SetStoragePriceUnsigned creates a transaction that sets the storage price
// for contracts. This transaction is not signed and just returned to the
// caller.
func (c *Contract) SetStoragePriceUnsigned(value int64) (*transaction.Transaction, error) {
return c.actor.MakeUnsignedCall(Hash, storagePriceSetter, nil, value)
}
// BlockAccount creates and sends a transaction that blocks an account on the
// network (via `blockAccount` method), it fails (with FAULT state) if it's not
// successful. The returned values are transaction hash, its
// ValidUntilBlock value and an error if any.
func (c *Contract) BlockAccount(account util.Uint160) (util.Uint256, uint32, error) {
return c.actor.SendRun(blockScript(account))
}
// BlockAccountTransaction creates a transaction that blocks an account on the
// network and checks for the result of the appropriate call, failing the
// transaction if it's not true. This transaction is signed, but not sent to the
// network, instead it's returned to the caller.
func (c *Contract) BlockAccountTransaction(account util.Uint160) (*transaction.Transaction, error) {
return c.actor.MakeRun(blockScript(account))
}
// BlockAccountUnsigned creates a transaction that blocks an account on the
// network and checks for the result of the appropriate call, failing the
// transaction if it's not true. This transaction is not signed and just returned
// to the caller.
func (c *Contract) BlockAccountUnsigned(account util.Uint160) (*transaction.Transaction, error) {
return c.actor.MakeUnsignedRun(blockScript(account), nil)
}
func blockScript(account util.Uint160) []byte {
// We know parameters exactly (unlike with nep17.Transfer), so this can't fail.
script, _ := smartcontract.CreateCallWithAssertScript(Hash, "blockAccount", account)
return script
}
// UnblockAccount creates and sends a transaction that removes previously blocked
// account from the stop list. It uses `unblockAccount` method and checks for the
// result returned, failing the transaction if it's not true. The returned values
// are transaction hash, its ValidUntilBlock value and an error if any.
func (c *Contract) UnblockAccount(account util.Uint160) (util.Uint256, uint32, error) {
return c.actor.SendRun(unblockScript(account))
}
// UnblockAccountTransaction creates a transaction that unblocks previously
// blocked account via `unblockAccount` method and checks for the result returned,
// failing the transaction if it's not true. This transaction is signed, but not
// sent to the network, instead it's returned to the caller.
func (c *Contract) UnblockAccountTransaction(account util.Uint160) (*transaction.Transaction, error) {
return c.actor.MakeRun(unblockScript(account))
}
// UnblockAccountUnsigned creates a transaction that unblocks the given account
// if it was blocked previously. It uses `unblockAccount` method and checks for
// its return value, failing the transaction if it's not true. This transaction
// is not signed and just returned to the caller.
func (c *Contract) UnblockAccountUnsigned(account util.Uint160) (*transaction.Transaction, error) {
return c.actor.MakeUnsignedRun(unblockScript(account), nil)
}
func unblockScript(account util.Uint160) []byte {
// We know parameters exactly (unlike with nep17.Transfer), so this can't fail.
script, _ := smartcontract.CreateCallWithAssertScript(Hash, "unblockAccount", account)
return script
}