neoneo-go/cli/smartcontract/smart_contract.go

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package smartcontract
import (
"encoding/hex"
"encoding/json"
"errors"
"fmt"
"io/ioutil"
"os"
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"path"
"path/filepath"
"strings"
"github.com/nspcc-dev/neo-go/cli/flags"
"github.com/nspcc-dev/neo-go/cli/input"
"github.com/nspcc-dev/neo-go/cli/options"
"github.com/nspcc-dev/neo-go/cli/paramcontext"
"github.com/nspcc-dev/neo-go/pkg/compiler"
"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/encoding/address"
"github.com/nspcc-dev/neo-go/pkg/encoding/fixedn"
"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/rpc/response/result"
"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"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/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/wallet"
"github.com/urfave/cli"
"gopkg.in/yaml.v2"
)
var (
errNoInput = errors.New("no input file was found, specify an input file with the '--in or -i' flag")
errNoConfFile = errors.New("no config file was found, specify a config file with the '--config' or '-c' flag")
errNoManifestFile = errors.New("no manifest file was found, specify manifest file with '--manifest' or '-m' flag")
errNoMethod = errors.New("no method specified for function invocation command")
errNoWallet = errors.New("no wallet parameter found, specify it with the '--wallet or -w' flag")
errNoScriptHash = errors.New("no smart contract hash was provided, specify one as the first argument")
errNoSmartContractName = errors.New("no name was provided, specify the '--name or -n' flag")
errFileExist = errors.New("A file with given smart-contract name already exists")
walletFlag = cli.StringFlag{
Name: "wallet, w",
Usage: "wallet to use to get the key for transaction signing",
}
addressFlag = flags.AddressFlag{
Name: "address, a",
Usage: "address to use as transaction signee (and gas source)",
}
gasFlag = flags.Fixed8Flag{
Name: "gas, g",
Usage: "gas to add to the transaction",
}
outFlag = cli.StringFlag{
Name: "out",
Usage: "file to put JSON transaction to",
}
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forceFlag = cli.BoolFlag{
Name: "force",
Usage: "force-push the transaction in case of bad VM state after test script invocation",
}
)
const (
// smartContractTmpl is written to a file when used with `init` command.
// %s is parsed to be the smartContractName
smartContractTmpl = `package %s
import "github.com/nspcc-dev/neo-go/pkg/interop/runtime"
var notificationName string
// init initializes notificationName before calling any other smart-contract method
func init() {
notificationName = "Hello world!"
}
// RuntimeNotify sends runtime notification with "Hello world!" name
func RuntimeNotify(args []interface{}) {
runtime.Notify(notificationName, args)
}`
// cosignersSeparator is a special value which is used to distinguish
// parameters and cosigners for invoke* commands
cosignersSeparator = "--"
arrayStartSeparator = "["
arrayEndSeparator = "]"
)
// NewCommands returns 'contract' command.
func NewCommands() []cli.Command {
testInvokeScriptFlags := []cli.Flag{
cli.StringFlag{
Name: "in, i",
Usage: "Input location of the .nef file that needs to be invoked",
},
}
testInvokeScriptFlags = append(testInvokeScriptFlags, options.RPC...)
deployFlags := []cli.Flag{
cli.StringFlag{
Name: "in, i",
Usage: "Input file for the smart contract (*.nef)",
},
cli.StringFlag{
Name: "manifest, m",
Usage: "Manifest input file (*.manifest.json)",
},
walletFlag,
addressFlag,
gasFlag,
}
deployFlags = append(deployFlags, options.RPC...)
invokeFunctionFlags := []cli.Flag{
walletFlag,
addressFlag,
gasFlag,
outFlag,
forceFlag,
}
invokeFunctionFlags = append(invokeFunctionFlags, options.RPC...)
return []cli.Command{{
Name: "contract",
Usage: "compile - debug - deploy smart contracts",
Subcommands: []cli.Command{
{
Name: "compile",
Usage: "compile a smart contract to a .nef file",
Action: contractCompile,
Flags: []cli.Flag{
cli.StringFlag{
Name: "in, i",
Usage: "Input file for the smart contract to be compiled",
},
cli.StringFlag{
Name: "out, o",
Usage: "Output of the compiled contract",
},
cli.BoolFlag{
Name: "verbose, v",
Usage: "Print out additional information after a compiling",
},
cli.StringFlag{
Name: "debug, d",
Usage: "Emit debug info in a separate file",
},
cli.StringFlag{
Name: "manifest, m",
Usage: "Emit contract manifest (*.manifest.json) file into separate file using configuration input file (*.yml)",
},
cli.StringFlag{
Name: "config, c",
Usage: "Configuration input file (*.yml)",
},
cli.BoolFlag{
Name: "no-standards",
Usage: "do not check compliance with supported standards",
},
cli.BoolFlag{
Name: "no-events",
Usage: "do not check emitted events with the manifest",
},
},
},
{
Name: "deploy",
Usage: "deploy a smart contract (.nef with description)",
Description: `Deploys given contract into the chain. The gas parameter is for additional
gas to be added as a network fee to prioritize the transaction.
`,
Action: contractDeploy,
Flags: deployFlags,
},
{
Name: "invokefunction",
Usage: "invoke deployed contract on the blockchain",
UsageText: "neo-go contract invokefunction -r endpoint -w wallet [-a address] [-g gas] [--out file] scripthash [method] [arguments...] [--] [signers...]",
Description: `Executes given (as a script hash) deployed script with the given method,
arguments and signers. Sender is included in the list of signers by default
with None witness scope. If you'd like to change default sender's scope,
specify it via signers parameter. See testinvokefunction documentation for
the details about parameters. It differs from testinvokefunction in that this
command sends an invocation transaction to the network.
`,
Action: invokeFunction,
Flags: invokeFunctionFlags,
},
{
Name: "testinvokefunction",
Usage: "invoke deployed contract on the blockchain (test mode)",
UsageText: "neo-go contract testinvokefunction -r endpoint scripthash [method] [arguments...] [--] [signers...]",
Description: `Executes given (as a script hash) deployed script with the given method,
arguments and signers (sender is not included by default). If no method is given
"" is passed to the script, if no arguments are given, an empty array is
passed, if no signers are given no array is passed. If signers are specified,
the first one of them is treated as a sender. All of the given arguments are
encapsulated into array before invoking the script. The script thus should
follow the regular convention of smart contract arguments (method string and
an array of other arguments).
Arguments always do have regular Neo smart contract parameter types, either
specified explicitly or being inferred from the value. To specify the type
manually use "type:value" syntax where the type is one of the following:
'signature', 'bool', 'int', 'hash160', 'hash256', 'bytes', 'key' or 'string'.
Array types are also supported: use special space-separated '[' and ']'
symbols around array values to denote array bounds. Nested arrays are also
supported.
Given values are type-checked against given types with the following
restrictions applied:
* 'signature' type values should be hex-encoded and have a (decoded)
length of 64 bytes.
* 'bool' type values are 'true' and 'false'.
* 'int' values are decimal integers that can be successfully converted
from the string.
* 'hash160' values are Neo addresses and hex-encoded 20-bytes long (after
decoding) strings.
* 'hash256' type values should be hex-encoded and have a (decoded)
length of 32 bytes.
* 'bytes' type values are any hex-encoded things.
* 'key' type values are hex-encoded marshalled public keys.
* 'string' type values are any valid UTF-8 strings. In the value's part of
the string the colon looses it's special meaning as a separator between
type and value and is taken literally.
If no type is explicitly specified, it is inferred from the value using the
following logic:
- anything that can be interpreted as a decimal integer gets
an 'int' type
- 'true' and 'false' strings get 'bool' type
- valid Neo addresses and 20 bytes long hex-encoded strings get 'hash160'
type
- valid hex-encoded public keys get 'key' type
- 32 bytes long hex-encoded values get 'hash256' type
- 64 bytes long hex-encoded values get 'signature' type
- any other valid hex-encoded values get 'bytes' type
- anything else is a 'string'
Backslash character is used as an escape character and allows to use colon in
an implicitly typed string. For any other characters it has no special
meaning, to get a literal backslash in the string use the '\\' sequence.
Examples:
* 'int:42' is an integer with a value of 42
* '42' is an integer with a value of 42
* 'bad' is a string with a value of 'bad'
* 'dead' is a byte array with a value of 'dead'
* 'string:dead' is a string with a value of 'dead'
* 'AK2nJJpJr6o664CWJKi1QRXjqeic2zRp8y' is a hash160 with a value
of '23ba2703c53263e8d6e522dc32203339dcd8eee9'
* '\4\2' is an integer with a value of 42
* '\\4\2' is a string with a value of '\42'
* 'string:string' is a string with a value of 'string'
* 'string\:string' is a string with a value of 'string:string'
* '03b209fd4f53a7170ea4444e0cb0a6bb6a53c2bd016926989cf85f9b0fba17a70c' is a
key with a value of '03b209fd4f53a7170ea4444e0cb0a6bb6a53c2bd016926989cf85f9b0fba17a70c'
* '[ a b c ]' is an array with strings values 'a', 'b' and 'c'
* '[ a b [ c d ] e ]' is an array with 4 values: string 'a', string 'b',
array of two strings 'c' and 'd', string 'e'
* '[ ]' is an empty array
Signers represent a set of Uint160 hashes with witness scopes and are used
to verify hashes in System.Runtime.CheckWitness syscall. First signer is treated
as a sender. To specify signers use signer[:scope] syntax where
* 'signer' is a signer's address (as Neo address or hex-encoded 160 bit (20 byte)
LE value with or without '0x' prefix).
* 'scope' is a comma-separated set of cosigner's scopes, which could be:
- 'None' - default witness scope which may be used for the sender
to only pay fee for the transaction.
- 'Global' - allows this witness in all contexts. This cannot be combined
with other flags.
- 'CalledByEntry' - means that this condition must hold: EntryScriptHash
== CallingScriptHash. The witness/permission/signature
given on first invocation will automatically expire if
entering deeper internal invokes. This can be default
safe choice for native NEO/GAS.
- 'CustomContracts' - define valid custom contract hashes for witness check.
- 'CustomGroups' - define custom pubkey for group members.
If no scopes were specified, 'Global' used as default. If no signers were
specified, no array is passed. Note that scopes are properly handled by
neo-go RPC server only. C# implementation does not support scopes capability.
Examples:
* 'NNQk4QXsxvsrr3GSozoWBUxEmfag7B6hz5'
* 'NVquyZHoPirw6zAEPvY1ZezxM493zMWQqs:Global'
* '0x0000000009070e030d0f0e020d0c06050e030c02'
* '0000000009070e030d0f0e020d0c06050e030c02:CalledByEntry,CustomGroups'
`,
Action: testInvokeFunction,
Flags: options.RPC,
},
{
Name: "testinvokescript",
Usage: "Invoke compiled AVM code in NEF format on the blockchain (test mode, not creating a transaction for it)",
UsageText: "neo-go contract testinvokescript -r endpoint -i input.nef [signers...]",
Description: `Executes given compiled AVM instructions in NEF format with the given set of
signers not included sender by default. See testinvokefunction documentation
for the details about parameters.
`,
Action: testInvokeScript,
Flags: testInvokeScriptFlags,
},
{
Name: "init",
Usage: "initialize a new smart-contract in a directory with boiler plate code",
Action: initSmartContract,
Flags: []cli.Flag{
cli.StringFlag{
Name: "name, n",
Usage: "name of the smart-contract to be initialized",
},
cli.BoolFlag{
Name: "skip-details, skip",
Usage: "skip filling in the projects and contract details",
},
},
},
{
Name: "inspect",
Usage: "creates a user readable dump of the program instructions",
Action: inspect,
Flags: []cli.Flag{
cli.BoolFlag{
Name: "compile, c",
Usage: "compile input file (it should be go code then)",
},
cli.StringFlag{
Name: "in, i",
Usage: "input file of the program (either .go or .nef)",
},
},
},
{
Name: "calc-hash",
Usage: "calculates hash of a contract after deployment",
Action: calcHash,
Flags: []cli.Flag{
cli.StringFlag{
Name: "sender, s",
Usage: "sender script hash or address",
},
cli.StringFlag{
Name: "in",
Usage: "path to NEF file",
},
cli.StringFlag{
Name: "manifest, m",
Usage: "path to manifest file",
},
},
},
},
}}
}
// initSmartContract initializes a given directory with some boiler plate code.
func initSmartContract(ctx *cli.Context) error {
contractName := ctx.String("name")
if contractName == "" {
return cli.NewExitError(errNoSmartContractName, 1)
}
// Check if the file already exists, if yes, exit
if _, err := os.Stat(contractName); err == nil {
return cli.NewExitError(errFileExist, 1)
}
basePath := contractName
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contractName = path.Base(contractName)
fileName := "main.go"
// create base directory
if err := os.Mkdir(basePath, os.ModePerm); err != nil {
return cli.NewExitError(err, 1)
}
m := ProjectConfig{
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Name: contractName,
SupportedStandards: []string{},
SafeMethods: []string{},
Events: []manifest.Event{
{
Name: "Hello world!",
Parameters: []manifest.Parameter{
{
Name: "args",
Type: smartcontract.ArrayType,
},
},
},
},
}
b, err := yaml.Marshal(m)
if err != nil {
return cli.NewExitError(err, 1)
}
if err := ioutil.WriteFile(filepath.Join(basePath, "neo-go.yml"), b, 0644); err != nil {
return cli.NewExitError(err, 1)
}
data := []byte(fmt.Sprintf(smartContractTmpl, contractName))
if err := ioutil.WriteFile(filepath.Join(basePath, fileName), data, 0644); err != nil {
return cli.NewExitError(err, 1)
}
fmt.Fprintf(ctx.App.Writer, "Successfully initialized smart contract [%s]\n", contractName)
return nil
}
func contractCompile(ctx *cli.Context) error {
src := ctx.String("in")
if len(src) == 0 {
return cli.NewExitError(errNoInput, 1)
}
manifestFile := ctx.String("manifest")
confFile := ctx.String("config")
debugFile := ctx.String("debug")
if len(confFile) == 0 && (len(manifestFile) != 0 || len(debugFile) != 0) {
return cli.NewExitError(errNoConfFile, 1)
}
o := &compiler.Options{
Outfile: ctx.String("out"),
DebugInfo: debugFile,
ManifestFile: manifestFile,
NoStandardCheck: ctx.Bool("no-standards"),
NoEventsCheck: ctx.Bool("no-events"),
}
if len(confFile) != 0 {
conf, err := parseContractConfig(confFile)
if err != nil {
return err
}
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o.Name = conf.Name
o.ContractEvents = conf.Events
o.ContractSupportedStandards = conf.SupportedStandards
o.SafeMethods = conf.SafeMethods
}
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result, err := compiler.CompileAndSave(src, o)
if err != nil {
return cli.NewExitError(err, 1)
}
if ctx.Bool("verbose") {
fmt.Fprintln(ctx.App.Writer, hex.EncodeToString(result))
}
return nil
}
func calcHash(ctx *cli.Context) error {
s := ctx.String("sender")
u, err := address.StringToUint160(s)
if err != nil {
if strings.HasPrefix(s, "0x") {
s = s[2:]
}
u, err = util.Uint160DecodeStringLE(s)
if err != nil {
return cli.NewExitError(errors.New("invalid sender: must be either address or Uint160 in LE form"), 1)
}
}
p := ctx.String("in")
if p == "" {
return cli.NewExitError(errors.New("no .nef file was provided"), 1)
}
mpath := ctx.String("manifest")
if mpath == "" {
return cli.NewExitError(errors.New("no manifest file provided"), 1)
}
f, err := ioutil.ReadFile(p)
if err != nil {
return cli.NewExitError(fmt.Errorf("can't read .nef file: %w", err), 1)
}
nefFile, err := nef.FileFromBytes(f)
if err != nil {
return cli.NewExitError(fmt.Errorf("can't unmarshal .nef file: %w", err), 1)
}
manifestBytes, err := ioutil.ReadFile(mpath)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to read manifest file: %w", err), 1)
}
m := &manifest.Manifest{}
err = json.Unmarshal(manifestBytes, m)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to restore manifest file: %w", err), 1)
}
fmt.Fprintln(ctx.App.Writer, "Contract hash:", state.CreateContractHash(u, nefFile.Checksum, m.Name).StringLE())
return nil
}
func testInvokeFunction(ctx *cli.Context) error {
return invokeInternal(ctx, false)
}
func invokeFunction(ctx *cli.Context) error {
return invokeInternal(ctx, true)
}
func invokeInternal(ctx *cli.Context, signAndPush bool) error {
var (
err error
gas fixedn.Fixed8
operation string
params = make([]smartcontract.Parameter, 0)
paramsStart = 1
cosigners []transaction.Signer
cosignersOffset = 0
resp *result.Invoke
acc *wallet.Account
)
args := ctx.Args()
if !args.Present() {
return cli.NewExitError(errNoScriptHash, 1)
}
script, err := util.Uint160DecodeStringLE(args[0])
if err != nil {
return cli.NewExitError(fmt.Errorf("incorrect script hash: %w", err), 1)
}
if len(args) <= 1 {
return cli.NewExitError(errNoMethod, 1)
}
operation = args[1]
paramsStart++
if len(args) > paramsStart {
cosignersOffset, params, err = parseParams(args[paramsStart:], true)
if err != nil {
return cli.NewExitError(err, 1)
}
}
cosignersStart := paramsStart + cosignersOffset
if len(args) > cosignersStart {
for i, c := range args[cosignersStart:] {
cosigner, err := parseCosigner(c)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to parse cosigner #%d: %w", i+1, err), 1)
}
cosigners = append(cosigners, cosigner)
}
}
if signAndPush {
gas = flags.Fixed8FromContext(ctx, "gas")
acc, err = getAccFromContext(ctx)
if err != nil {
return err
}
}
gctx, cancel := options.GetTimeoutContext(ctx)
defer cancel()
c, err := options.GetRPCClient(gctx, ctx)
if err != nil {
return err
}
resp, err = c.InvokeFunction(script, operation, params, cosigners)
if err != nil {
return cli.NewExitError(err, 1)
}
if signAndPush && resp.State != "HALT" {
errText := fmt.Sprintf("Warning: %s VM state returned from the RPC node: %s\n", resp.State, resp.FaultException)
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if !ctx.Bool("force") {
return cli.NewExitError(errText+". Use --force flag to send the transaction anyway.", 1)
}
fmt.Fprintln(ctx.App.Writer, errText+". Sending transaction...")
}
if out := ctx.String("out"); out != "" {
tx, err := c.CreateTxFromScript(resp.Script, acc, resp.GasConsumed, int64(gas), cosigners...)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to create tx: %w", err), 1)
}
if err := paramcontext.InitAndSave(tx, acc, out); err != nil {
return cli.NewExitError(err, 1)
}
fmt.Fprintln(ctx.App.Writer, tx.Hash().StringLE())
return nil
}
if signAndPush {
if len(resp.Script) == 0 {
return cli.NewExitError(errors.New("no script returned from the RPC node"), 1)
}
txHash, err := c.SignAndPushInvocationTx(resp.Script, acc, resp.GasConsumed, gas, cosigners)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to push invocation tx: %w", err), 1)
}
fmt.Fprintf(ctx.App.Writer, "Sent invocation transaction %s\n", txHash.StringLE())
} else {
b, err := json.MarshalIndent(resp, "", " ")
if err != nil {
return cli.NewExitError(err, 1)
}
fmt.Fprintln(ctx.App.Writer, string(b))
}
return nil
}
// parseParams extracts array of smartcontract.Parameter from the given args and
// returns the number of handled words, the array itself and an error.
// `calledFromMain` denotes whether the method was called from the outside or
// recursively and used to check if cosignersSeparator and closing bracket are
// allowed to be in `args` sequence.
func parseParams(args []string, calledFromMain bool) (int, []smartcontract.Parameter, error) {
res := []smartcontract.Parameter{}
for k := 0; k < len(args); {
s := args[k]
switch s {
case cosignersSeparator:
if calledFromMain {
return k + 1, res, nil // `1` to convert index to numWordsRead
}
return 0, []smartcontract.Parameter{}, errors.New("invalid array syntax: missing closing bracket")
case arrayStartSeparator:
numWordsRead, array, err := parseParams(args[k+1:], false)
if err != nil {
return 0, nil, fmt.Errorf("failed to parse array: %w", err)
}
res = append(res, smartcontract.Parameter{
Type: smartcontract.ArrayType,
Value: array,
})
k += 1 + numWordsRead // `1` for opening bracket
case arrayEndSeparator:
if calledFromMain {
return 0, nil, errors.New("invalid array syntax: missing opening bracket")
}
return k + 1, res, nil // `1`to convert index to numWordsRead
default:
param, err := smartcontract.NewParameterFromString(s)
if err != nil {
return 0, nil, fmt.Errorf("failed to parse argument #%d: %w", k+1, err)
}
res = append(res, *param)
k++
}
}
if calledFromMain {
return len(args), res, nil
}
return 0, []smartcontract.Parameter{}, errors.New("invalid array syntax: missing closing bracket")
}
func testInvokeScript(ctx *cli.Context) error {
src := ctx.String("in")
if len(src) == 0 {
return cli.NewExitError(errNoInput, 1)
}
b, err := ioutil.ReadFile(src)
if err != nil {
return cli.NewExitError(err, 1)
}
nefFile, err := nef.FileFromBytes(b)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to restore .nef file: %w", err), 1)
}
args := ctx.Args()
var signers []transaction.Signer
if args.Present() {
for i, c := range args[:] {
cosigner, err := parseCosigner(c)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to parse signer #%d: %w", i+1, err), 1)
}
signers = append(signers, cosigner)
}
}
gctx, cancel := options.GetTimeoutContext(ctx)
defer cancel()
c, err := options.GetRPCClient(gctx, ctx)
if err != nil {
return err
}
resp, err := c.InvokeScript(nefFile.Script, signers)
if err != nil {
return cli.NewExitError(err, 1)
}
b, err = json.MarshalIndent(resp, "", " ")
if err != nil {
return cli.NewExitError(err, 1)
}
fmt.Fprintln(ctx.App.Writer, string(b))
return nil
}
// ProjectConfig contains project metadata.
type ProjectConfig struct {
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Name string
SafeMethods []string
SupportedStandards []string
Events []manifest.Event
}
func inspect(ctx *cli.Context) error {
in := ctx.String("in")
compile := ctx.Bool("compile")
if len(in) == 0 {
return cli.NewExitError(errNoInput, 1)
}
var (
b []byte
err error
)
if compile {
b, err = compiler.Compile(in, nil)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to compile: %w", err), 1)
}
} else {
f, err := ioutil.ReadFile(in)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to read .nef file: %w", err), 1)
}
nefFile, err := nef.FileFromBytes(f)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to restore .nef file: %w", err), 1)
}
b = nefFile.Script
}
v := vm.New()
v.LoadScript(b)
v.PrintOps(ctx.App.Writer)
return nil
}
func getAccFromContext(ctx *cli.Context) (*wallet.Account, error) {
var addr util.Uint160
wPath := ctx.String("wallet")
if len(wPath) == 0 {
return nil, cli.NewExitError(errNoWallet, 1)
}
wall, err := wallet.NewWalletFromFile(wPath)
if err != nil {
return nil, cli.NewExitError(err, 1)
}
addrFlag := ctx.Generic("address").(*flags.Address)
if addrFlag.IsSet {
addr = addrFlag.Uint160()
} else {
addr = wall.GetChangeAddress()
}
acc := wall.GetAccount(addr)
if acc == nil {
return nil, cli.NewExitError(fmt.Errorf("wallet contains no account for '%s'", address.Uint160ToString(addr)), 1)
}
rawPass, err := input.ReadPassword(ctx.App.Writer,
fmt.Sprintf("Enter account %s password > ", address.Uint160ToString(addr)))
if err != nil {
return nil, cli.NewExitError(err, 1)
}
pass := strings.TrimRight(string(rawPass), "\n")
err = acc.Decrypt(pass)
if err != nil {
return nil, cli.NewExitError(err, 1)
}
return acc, nil
}
// contractDeploy deploys contract.
func contractDeploy(ctx *cli.Context) error {
in := ctx.String("in")
if len(in) == 0 {
return cli.NewExitError(errNoInput, 1)
}
manifestFile := ctx.String("manifest")
if len(manifestFile) == 0 {
return cli.NewExitError(errNoManifestFile, 1)
}
gas := flags.Fixed8FromContext(ctx, "gas")
acc, err := getAccFromContext(ctx)
if err != nil {
return err
}
sender, err := address.StringToUint160(acc.Address)
if err != nil {
return cli.NewExitError(err, 1)
}
f, err := ioutil.ReadFile(in)
if err != nil {
return cli.NewExitError(err, 1)
}
// Check the file.
nefFile, err := nef.FileFromBytes(f)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to read .nef file: %w", err), 1)
}
manifestBytes, err := ioutil.ReadFile(manifestFile)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to read manifest file: %w", err), 1)
}
m := &manifest.Manifest{}
err = json.Unmarshal(manifestBytes, m)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to restore manifest file: %w", err), 1)
}
gctx, cancel := options.GetTimeoutContext(ctx)
defer cancel()
c, err := options.GetRPCClient(gctx, ctx)
if err != nil {
return err
}
mgmtHash, err := c.GetNativeContractHash(nativenames.Management)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to get management contract's hash: %w", err), 1)
}
buf := io.NewBufBinWriter()
emit.AppCall(buf.BinWriter, mgmtHash, "deploy",
callflag.ReadStates|callflag.WriteStates|callflag.AllowNotify,
f, manifestBytes)
if buf.Err != nil {
return cli.NewExitError(fmt.Errorf("failed to create deployment script: %w", buf.Err), 1)
}
txScript := buf.Bytes()
// It doesn't require any signers.
invRes, err := c.InvokeScript(txScript, nil)
if err == nil && invRes.FaultException != "" {
err = errors.New(invRes.FaultException)
}
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to test-invoke deployment script: %w", err), 1)
}
txHash, err := c.SignAndPushInvocationTx(txScript, acc, invRes.GasConsumed, gas, nil)
if err != nil {
return cli.NewExitError(fmt.Errorf("failed to push invocation tx: %w", err), 1)
}
hash := state.CreateContractHash(sender, nefFile.Checksum, m.Name)
fmt.Fprintf(ctx.App.Writer, "Contract: %s\n", hash.StringLE())
fmt.Fprintln(ctx.App.Writer, txHash.StringLE())
return nil
}
func parseContractConfig(confFile string) (ProjectConfig, error) {
conf := ProjectConfig{}
confBytes, err := ioutil.ReadFile(confFile)
if err != nil {
return conf, cli.NewExitError(err, 1)
}
err = yaml.Unmarshal(confBytes, &conf)
if err != nil {
return conf, cli.NewExitError(fmt.Errorf("bad config: %w", err), 1)
}
return conf, nil
}
func parseCosigner(c string) (transaction.Signer, error) {
var (
err error
res = transaction.Signer{
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Scopes: transaction.Global,
}
)
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data := strings.SplitN(c, ":", 2)
s := data[0]
if len(s) == 2*util.Uint160Size+2 && s[0:2] == "0x" {
s = s[2:]
}
if len(s) == util.Uint160Size*2 {
res.Account, err = util.Uint160DecodeStringLE(s)
} else {
res.Account, err = address.StringToUint160(s)
}
if err != nil {
return res, err
}
if len(data) > 1 {
res.Scopes, err = transaction.ScopesFromString(data[1])
if err != nil {
return transaction.Signer{}, err
}
}
return res, nil
}