NeoGo CLI provides all functionality from one binary. It's used to run a node, create/compile/deploy/invoke/debug smart contracts, run vm and operate with a wallet. Standard setup assumes that you run a node as a separate process, and it doesn't provide any CLI of its own. Instead, it just makes RPC interface available for you. To perform any actions, you invoke NeoGo as a client that connects to this RPC node and does things you want it to do (like transferring some NEP-17 asset).
All CLI commands have corresponding help messages, use --help
option to get
them, for example:
./bin/neo-go db --help
Use node
command to run a NeoGo node, it will be configured using a YAML
file that contains network parameters as well as node settings.
All config files are located in ./config
and they are differentiated according to the network type:
protocol.mainnet.yml
belongs to--mainnet
network mode (-m
short option)protocol.privnet.yml
belongs to--privnet
network mode (-p
short option) and is used by defaultprotocol.testnet.yml
belongs to--testnet
network mode (-t
short option)protocol.unit_testnet.yml
is used by unit tests
If you want to use some non-default configuration directory path, specify
--config-path
flag:
./bin/neo-go node --config-path /user/yourConfigPath
The file loaded is chosen automatically depending on network mode flag.
Or just provide path to the configuration file using --config-file
flag:
./bin/neo-go node --config-file /user/yourConfigPath/yourConfigFile.yml
Refer to the node configuration documentation for detailed configuration file description.
To start Neo node on private network, use:
./bin/neo-go node
Or specify a different network with an appropriate flag like this:
./bin/neo-go node --mainnet
By default, the node will run in the foreground using current standard output for logging.
Most of the services (state validation, oracle, consensus and RPC if
configured with StartWhenSynchronized
option) are only started after the
node is completely synchronized because running them before that is either
pointless or even dangerous. The node considers itself to be fully
synchronized with the network if it has more than MinPeers
neighbours and if
at least 2/3 of them are known to have a height less than or equal to the
current height of the node.
On Unix-like platforms HUP, USR1 and USR2 signals can be used to control node services. Upon receiving any of these signals node rereads the configuration file, checks for its compatibility (ProtocolConfiguration can't be changed and ApplicationConfiguration can only be changed for services) and then stops/starts services according to the old and new configurations. Services are broadly split into three main categories:
- client-oriented These provide some service to clients: RPC, Pprof and Prometheus servers. They're controlled with the HUP signal.
- network-oriented These provide some service to the network: Oracle, State validation and P2P Notary. They're controlled with the USR1 signal.
- consensus That's dBFT, it's a special one and it's controlled with USR2.
HUP signal also reconfigures logging level if it's changed in the configuration file (LogLevel option in ApplicationConfig).
Typical scenarios when this can be useful (without full node restart):
- enabling some service
- changing RPC configuration
- updating TLS certificates for the RPC server
- resolving operational issues
Node operates using some database as a backend to store blockchain data. NeoGo
allows to dump chain into a file from the database (when node is stopped) or to
import blocks from a file into the database (also when node is stopped). Use
db
command for that.
NeoGo allows to reset the node state to a particular point. It is possible for
those nodes that do store complete chain state or for nodes with RemoveUntraceableBlocks
setting on that are not yet reached MaxTraceableBlocks
number of blocks. Use
db reset
command with the target block specified to roll back all the changes
made since the target block (not including changes made by the specified block
acceptance). The set of changes to be removed includes blocks, transactions,
execution results, contract storage changes, MPT-related auxiliary data and NEP
transfers data. Some stale MPT nodes may be left in storage after reset.
Once DB reset is finished, the node can be started in a regular manner.
Use contract
command to create/compile/deploy/invoke/debug smart contracts,
see compiler documentation.
wallet
command provides interface for all operations requiring a wallet
(except contract deployment and invocations that are done via contract deploy
and contract invokefunction
). Wallet management (creating wallet,
adding addresses/keys to it) is available there as well as wallet-related
functions like NEP-17 transfers, NEO votes, multi-signature signing and other
things.
All commands (with few exceptions) accepting wallet via -w
(or --wallet
)
parameter (and providing an interactive password prompt if needed) can also
alternatively work with YAML configuration file passed via the
--wallet-config
parameter. This file uses a format similar to node's
wallet-related configuration sections:
Path: "/path/to/wallet.json"
Password: "pass"
For all commands requiring read-only wallet (like dump-keys
) a special -
path can be used to read the wallet from the standard input.
Use wallet init
command to create a new wallet:
./bin/neo-go wallet init -w wallet.nep6
{
"version": "1.0",
"accounts": [],
"scrypt": {
"n": 16384,
"r": 8,
"p": 8
},
"extra": {
"Tokens": null
}
}
wallet successfully created, file location is wallet.nep6
where "wallet.nep6" is a wallet file name. This wallet will be empty. To
generate a new key pair and add an account for it, use -a
option:
./bin/neo-go wallet init -w wallet.nep6 -a
Enter the name of the account > Name
Enter passphrase >
Confirm passphrase >
{
"version": "1.0",
"accounts": [
{
"address": "NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E",
"key": "6PYL2UrC11nWFJWSLiqsPKCNm9u4zr4ttX1ZbV9f2fLDqXsePioVxEsYdg",
"label": "Name",
"contract": {
"script": "DCEDzs1j19gSDDsZTDsogN1Kr+FHXFfkDIUoctcwVhUlgUBBdHR2qg==",
"parameters": [
{
"name": "parameter0",
"type": "Signature"
}
],
"deployed": false
},
"lock": false,
"isDefault": false
}
],
"scrypt": {
"n": 16384,
"r": 8,
"p": 8
},
"extra": {
"Tokens": null
}
}
wallet successfully created, file location is wallet.nep6
or use wallet create
command to create a new account in an existing wallet:
./bin/neo-go wallet create -w wallet.nep6
Enter the name of the account > Joe Random
Enter passphrase >
Confirm passphrase >
Use wallet convert
to update addresses in NEP-6 wallets used with Neo
Legacy. New wallet is specified in -o
option, it will have the same keys
with Neo N3 addresses (notice that it doesn't do anything to your assets, it
just allows to reuse the old key on N3 network).
./bin/neo-go wallet convert -w old.nep6 -o new.nep6
wallet dump
can be used to see wallet contents in a more user-friendly way,
its output is the same NEP-6 JSON, but better formatted. You can also decrypt
keys at the same time with -d
option (you'll be prompted for password):
./bin/neo-go wallet dump -w wallet.nep6 -d
Enter wallet password >
{
"version": "1.0",
"accounts": [
{
"address": "NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E",
"key": "6PYL2UrC11nWFJWSLiqsPKCNm9u4zr4ttX1ZbV9f2fLDqXsePioVxEsYdg",
"label": "Name",
"contract": {
"script": "DCEDzs1j19gSDDsZTDsogN1Kr+FHXFfkDIUoctcwVhUlgUBBdHR2qg==",
"parameters": [
{
"name": "parameter0",
"type": "Signature"
}
],
"deployed": false
},
"lock": false,
"isDefault": false
}
],
"scrypt": {
"n": 16384,
"r": 8,
"p": 8
},
"extra": {
"Tokens": null
}
}
You can also get public keys for addresses stored in your wallet with wallet dump-keys
command:
./bin/neo-go wallet dump-keys -w wallet.nep6
NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E (simple signature contract):
03cecd63d7d8120c3b194c3b2880dd4aafe1475c57e40c852872d7305615258140
wallet export
allows you to export a private key in NEP-2 encrypted or WIF
(unencrypted) form (-d
flag).
$ ./bin/neo-go wallet export -w wallet.nep6 -d NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E
Enter password >
KyswN8r48dhsvyQJVy97RWnZmKgYLrXv9mCL81Kb4vAagZiCsePv
You can import NEP-2 or WIF private key along with verification contract (if it's non-standard):
./bin/neo-go wallet import --wif KwYgW8gcxj1JWJXhPSu4Fqwzfhp5Yfi42mdYmMa4XqK7NJxXUSK7 -w wallet.nep6
Provided WIF was unencrypted. Wallet can contain only encrypted keys.
Enter the name of the account > New Account
Enter passphrase >
Confirm passphrase >
Multisignature accounts can be imported with wallet import-multisig
, you'll
need all public keys and one private key to do that. Then, you could sign
transactions for this multisignature account with the imported key.
wallet import-deployed
can be used to create wallet accounts for deployed
contracts. They also can have WIF keys associated with them (in case your
contract's verify
method needs some signature).
wallet strip-keys
allows you to remove private keys from the wallet, but let
it be used for other purposes (like creating transactions for subsequent
offline signing). Use with care, don't lose your keys with it.
wallet candidate
provides commands to register or unregister a committee
(and therefore validator) candidate key:
./bin/neo-go wallet candidate register -a NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E -w wallet.json -r http://localhost:20332
You can also vote for candidates if you own NEO:
./bin/neo-go wallet candidate vote -a NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E -w wallet.json -r http://localhost:20332 -c 03cecd63d7d8120c3b194c3b2880dd4aafe1475c57e40c852872d7305615258140
Do not provide candidate argument to perform unvoting:
./bin/neo-go wallet candidate vote -a NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E -w wallet.json -r http://localhost:20332
query height
returns the latest block and validated state height:
$ ./bin/neo-go query height -r http://localhost:20332
Latest block: 11926
Validated state: 11926
query tx
provides convenient wrapper over RPC calls to query transaction status.
./bin/neo-go query tx --rpc-endpoint http://localhost:20332 aaf87628851e0c03ee086ff88596bc24de87082e9e5c73d75bb1c740d1d68088
Hash: aaf87628851e0c03ee086ff88596bc24de87082e9e5c73d75bb1c740d1d68088
OnChain: true
BlockHash: fabcd46e93b8f4e1bc5689e3e0cc59704320494f7a0265b91ae78b4d747ee93b
Success: true
OnChain
is true if the transaction has been included in the block; and Success
is true
if it has been executed successfully.
query commitee
returns a list of current committee members:
$ ./bin/neo-go query committee -r http://localhost:20332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 candidates
returns all current candidates, number of votes for them
and their committee/consensus status:
$ ./bin/neo-go query candidates -r http://localhost:20332
Key Votes Committee Consensus
03009b7540e10f2562e5fd8fac9eaec25166a58b26e412348ff5a86927bfac22a2 2000000 true true
030205e9cefaea5a1dfc580af20c8d5aa2468bb0148f1a5e4605fc622c80e604ba 2000000 true true
0214baf0ceea3a66f17e7e1e839ea25fd8bed6cd82e6bb6e68250189065f44ff01 2000000 true true
023e9b32ea89b94d066e649b124fd50e396ee91369e8e2a6ae1b11c170d022256d 2000000 true true
03408dcd416396f64783ac587ea1e1593c57d9fea880c8a6a1920e92a259477806 2000000 true true
02a7834be9b32e2981d157cb5bbd3acb42cfd11ea5c3b10224d7a44e98c5910f1b 2000000 true true
02ba2c70f5996f357a43198705859fae2cfea13e1172962800772b3d588a9d4abd 2000000 true true
025664cef0abcba7787ad5fb12f3af31c5cdc7a479068aa2ad8ee78804768bffe9 1000000 false false
03650a684461a64bf46bee561d9981a4c57adc6ccbd3a9512b83701480b30218ab 1000000 false false
026a10aa2b4d7639c5deafa4ff081467db10b5d00432749a2a5ee1d2bfed23e1c0 1000000 false false
02d5786a9214a8a3f1757d7596fd10f5241205e2c0d68362f4766579bac6189249 1000000 false false
033d8e35f8cd9a33852280b6d93093c7292ed5ce90d90f149fa2da50ba6168dfce 100000 false false
0349c7ef0b4aaf181f0a3e1350c527b136cc5b42498cb83ab8880c05ed95167e1c 100000 false false
035b4f9be2b853e06eb5a09c167e038b96b4804235961510423252f2ee3dbba583 100000 false false
027e459b264b6f7e325ab4b0bb0fa641081fb68517fd613ebd7a94cb79d3081e4f 100000 false false
0288cad442a877960c76b4f688f4be30f768256d9a3da2492b0180b91243918b4f 100000 false false
02a40c552798f79636095817ec88924fc6cb7094e5a3cb059a9b3bc91ea3bf0d3d 100000 false false
02db79e69c518ae9254e314b6f5f4b63e914cdd4b2574dc2f9236c01c1fc1d8973 100000 false false
02ec143f00b88524caf36a0121c2de09eef0519ddbe1c710a00f0e2663201ee4c0 100000 false false
03d8d58d2257ca6cb14522b76513d4783f7d481801695893794c2186515c6de76f 0 false false
query voter
returns additional data about NEO holder: the amount of NEO he has,
the candidate it voted for (if any) and the block number of the last transactions
involving NEO on this account:
$ ./bin/neo-go query voter -r http://localhost:20332 Nj91C8TxQSxW1jCE1ytFre6mg5qxTypg1Y
Voted: 0214baf0ceea3a66f17e7e1e839ea25fd8bed6cd82e6bb6e68250189065f44ff01 (Nj91C8TxQSxW1jCE1ytFre6mg5qxTypg1Y)
Amount : 2000000
Block: 3970
wallet sign
command allows to sign arbitrary transactions stored in JSON
format (also known as ContractParametersContext). Usually it's used in one of
the two cases: multisignature signing (when you don't have all keys for an
account and need to share the context with others until enough signatures
collected) or offline signing (when the node with a key is completely offline
and can't interact with the RPC node directly).
For example, you have a four-node default network setup and want to set some key for the oracle role, you create transaction with:
$ neo-go contract invokefunction -w .docker/wallets/wallet1.json --out some.part.json -a NVTiAjNgagDkTr5HTzDmQP9kPwPHN5BgVq -r http://localhost:30333 0x49cf4e5378ffcd4dec034fd98a174c5491e395e2 designateAsRole 8 \[ 02b3622bf4017bdfe317c58aed5f4c753f206b7db896046fa7d774bbc4bf7f8dc2 \] -- NVTiAjNgagDkTr5HTzDmQP9kPwPHN5BgVq:CalledByEntry
And then sign it with two more keys:
$ neo-go wallet sign -w .docker/wallets/wallet2.json --in some.part.json --out some.part.json -a NVTiAjNgagDkTr5HTzDmQP9kPwPHN5BgVq
$ neo-go wallet sign -w .docker/wallets/wallet3.json --in some.part.json -r http://localhost:30333 -a NVTiAjNgagDkTr5HTzDmQP9kPwPHN5BgVq
Notice that the last command sends the transaction (which has a complete set of signatures for 3/4 multisignature account by that time) to the network.
You want to do a transfer from a single-key account, but the key is on a different (offline) machine. Create a stripped wallet first on the key-holding machine:
$ cp wallet.json wallet.stripped.json # don't lose the original wallet
$ neo-go wallet strip-keys --wallet wallet.stripped.json
This wallet has no keys inside (but has appropriate scripts/addresses), so it can be safely shared with anyone or transferred to network-enabled machine where you then can create a transfer transaction:
$ neo-go wallet nep17 transfer --rpc-endpoint http://localhost:20332 \
--wallet wallet.stripped.json --from NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp \
--to Nj91C8TxQSxW1jCE1ytFre6mg5qxTypg1Y --token NEO --amount 1 --out context.json
context.json
can now be transferred to the machine with the wallet.json
containing proper keys and signed:
$ neo-go wallet sign --wallet wallet.json \
-address NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp --in context.json --out context.json
Now context.json
contains a transaction with a complete set of signatures
(just one in this case, but of course you can do multisignature collection as
well). It can be transferred to network-enabled machine again and the
transaction can be sent to the network:
$ neo-go util sendtx --rpc-endpoint http://localhost:20332 context.json
wallet nep17
contains a set of commands to use for NEP-17 tokens.
NEP-17 commands are designed to work with any NEP-17 tokens, but NeoGo needs
some metadata for these tokens to function properly. Native NEO or GAS are
known to NeoGo by default, but other tokens are not. NeoGo can get this
metadata from the specified RPC server, but that's an additional request to
make. So, if you care about command processing delay, you can import token
metadata into the wallet with wallet nep17 import
command. It'll be stored
in the extra
section of the wallet.
./bin/neo-go wallet nep17 import -w wallet.nep6 -r http://localhost:20332 -t abcdefc189f30098b0ba6a2eb90b3a925800ffff
You can later see what token data you have in your wallet with wallet nep17 info
command and remove tokens you don't need with wallet nep17 remove
.
Getting balance is easy:
./bin/neo-go wallet nep17 balance -w /etc/neo-go/wallet.json -r http://localhost:20332
By default, you'll get data for all tokens that are owned by all accounts
stored in the given wallet. You can specify a particular address with -a
flag and/or select token with --token
flag (token hash, address, name or
symbol can be used as a parameter).
wallet nep17 transfer
creates a token transfer transaction and pushes it to
the RPC server (or saves to file if it needs to be signed by multiple
parties). For example, transferring 100 GAS looks like this:
./bin/neo-go wallet nep17 transfer -w wallet.nep6 -r http://localhost:20332 --to NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp --from NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E --token GAS --amount 100
You can omit --from
parameter (default wallet's address will be used in this
case), you can add --gas
for extra network fee (raising priority of your
transaction). And you can save the transaction to a file with --out
instead of
sending it to the network if it needs to be signed by multiple parties.
To add optional data
transfer parameter, specify data
positional argument
after all required flags. Refer to wallet nep17 transfer --help
command
description for details.
One transfer
invocation creates one transaction. In case you need to do
many transfers, you can save on network fees by doing multiple token moves with
one transaction by using wallet nep17 multitransfer
command. It can transfer
things from one account to many, its syntax differs from transfer
in that
you don't have --token
, --to
and --amount
options, but instead you can
specify multiple "token:addr:amount" sets after all other options. The same
transfer as above can be done with multitransfer
by doing this:
./bin/neo-go wallet nep17 multitransfer -w wallet.nep6 -r http://localhost:20332 --from NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E GAS:NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp:100
While Neo N3 doesn't have any notion of "claim transaction" and has GAS
automatically distributed with every NEO transfer for NEO owners, you still
won't get GAS if you don't do any actions. So the old wallet claim
command
was updated to be an easier way to do NEO "flipping" when you send a
transaction that transfers all of your NEO to yourself thereby triggering GAS
distribution.
wallet nep11
contains a set of commands to use for NEP-11 tokens. Token
metadata related commands (info
, import
and remove
) works the same way as
for NEP-17 tokens. The syntax of other commands is very similar to NEP-17
commands with the following adjustments.
Specify token ID via --id
flag to get data for a particular NFT:
./bin/neo-go wallet nep11 balance -w /etc/neo-go/wallet.json --token 67ecb7766dba4acf7c877392207984d1b4d15731 --id 7e244ffd6aa85fb1579d2ed22e9b761ab62e3486 -r http://localhost:20332
By default, no token ID specified, i.e all NFTs returned by the server are listed.
Specify token ID via --id
flag to transfer NEP-11 token. Specify the amount to
transfer divisible NEP-11 token:
./bin/neo-go wallet nep11 transfer -w wallet.nep6 -r http://localhost:20332 --to NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp --from NMe64G6j6nkPZby26JAgpaCNrn1Ee4wW6E --token 67ecb7766dba4acf7c877392207984d1b4d15731 --id R5OREI5BU+Uyd23/MuV/xzI3F+Q= --amount 5
By default, no amount is specified, i.e. the whole token is transferred for non-divisible tokens and 100% of the token is transferred if there is only one owner of this token for divisible tokens.
Unlike NEP-17 tokens functionality, multitransfer
command is currently not
supported on NEP-11 tokens.
To print token IDs owned by the specified owner, use tokensOf
command with
--token
and --address
flags:
./bin/neo-go wallet nep11 tokensOf -r http://localhost:20332 --token 67ecb7766dba4acf7c877392207984d1b4d15731 --address NbrUYaZgyhSkNoRo9ugRyEMdUZxrhkNaWB
For non-divisible NEP-11 tokens only. To print owner of non-divisible NEP-11 token
use ownerOf
method, specify token hash via --token
flag and token ID via
--id
flag:
./bin/neo-go wallet nep11 ownerOf -r http://localhost:20332 --token 67ecb7766dba4acf7c877392207984d1b4d15731 --id R5OREI5BU+Uyd23/MuV/xzI3F+Q=
If NEP-11 token supports optional properties
method, specify token hash via
--token
flag and token ID via --id
flag to print properties:
./bin/neo-go wallet nep11 properties -r http://localhost:20332 --token 67ecb7766dba4acf7c877392207984d1b4d15731 --id 7V5gjT2WwjP3pBCQMKGMfyZsp/w=
If NEP-11 token supports optional tokens
method, specify token hash via
--token
flag to print the list of token IDs minted by the specified NFT:
./bin/neo-go wallet nep11 tokens -r http://localhost:20332 --token 67ecb7766dba4acf7c877392207984d1b4d15731
NeoGo provides conversion utility command to reverse data, convert script
hashes to/from address, convert public keys to hashes/addresses, convert data to/from hexadecimal or base64
representation. All of this is done by a single util convert
command like
this:
$ ./bin/neo-go util convert deee79c189f30098b0ba6a2eb90b3a9258a6c7ff
BE ScriptHash to Address NgEisvCqr2h8wpRxQb7bVPWUZdbVCY8Uo6
LE ScriptHash to Address NjEQfanGEXihz85eTnacQuhqhNnA6LxpLp
Hex to String "\xde\xeey\xc1\x89\xf3\x00\x98\xb0\xbaj.\xb9\v:\x92X\xa6\xc7\xff"
Hex to Integer -1256651697634605895065630637163547727407485218
Swap Endianness ffc7a658923a0bb92e6abab09800f389c179eede
Base64 to String "u\xe7\x9e\xef\xd75\xf3\xd7\xf7\xd3O|oF\xda魞o\xdd\x1bݯv\xe7ƺs\xb7\xdf"
Base64 to BigInteger -222811771454869584930239486728381018152491835874567723544539443409000587
String to Hex 64656565373963313839663330303938623062613661326562393062336139323538613663376666
String to Base64 ZGVlZTc5YzE4OWYzMDA5OGIwYmE2YTJlYjkwYjNhOTI1OGE2YzdmZg==
If you have a transaction signing context saved in a file (and many commands
like wallet nep17 transfer
or contract invokefunction
can give you one
with the --out
parameter) you may want to check the contents before signing
it. This can be done with the util txdump
command:
$ ./bin/neo-go util txdump -r http://localhost:30333 some.part.json
Hash: f143059e0c03546db006608e0a0ad4b621b311a48d7fc62bb7062e405ab8e588
OnChain: false
ValidUntil: 6004
Signer: NVTiAjNgagDkTr5HTzDmQP9kPwPHN5BgVq (CalledByEntry)
SystemFee: 0.0208983 GAS
NetworkFee: 0.044159 GAS
Script: DCECs2Ir9AF73+MXxYrtX0x1PyBrfbiWBG+n13S7xL9/jcIRwBgSwB8MD2Rlc2lnbmF0ZUFzUm9sZQwU4pXjkVRMF4rZTwPsTc3/eFNOz0lBYn1bUg==
INDEX OPCODE PARAMETER
0 PUSHDATA1 02b3622bf4017bdfe317c58aed5f4c753f206b7db896046fa7d774bbc4bf7f8dc2 <<
35 PUSH1
36 PACK
37 PUSH8
38 PUSH2
39 PACK
40 PUSH15
41 PUSHDATA1 64657369676e6174654173526f6c65 ("designateAsRole")
58 PUSHDATA1 e295e391544c178ad94f03ec4dcdff78534ecf49
80 SYSCALL System.Contract.Call (627d5b52)
{
"state": "HALT",
"gasconsumed": "2089830",
"script": "DCECs2Ir9AF73+MXxYrtX0x1PyBrfbiWBG+n13S7xL9/jcIRwBgSwB8MD2Rlc2lnbmF0ZUFzUm9sZQwU4pXjkVRMF4rZTwPsTc3/eFNOz0lBYn1bUg==",
"stack": [
{
"type": "Any"
}
],
"exception": null,
"notifications": [
{
"contract": "0x49cf4e5378ffcd4dec034fd98a174c5491e395e2",
"eventname": "Designation",
"state": {
"type": "Array",
"value": [
{
"type": "Integer",
"value": "8"
},
{
"type": "Integer",
"value": "245"
}
]
}
}
]
}
It always outputs the basic data and also can perform test-invocation if an RPC endpoint is given to it.
If you have a completely finished (with all signatures collected) transaction
signing context saved in a file you can send it to the network (without any
wallet) using util sendtx
command:
$ ./bin/neo-go util sendtx -r http://localhost:30333 some.part.json
This is useful in offline signing scenario, where the signing party doesn't have any network access, so you can make a signature there, transfer the file to another machine that has network access and then push the transaction out to the network.
There is a VM CLI that you can use to load/analyze/run/step through some code:
./bin/neo-go vm
Some basic commands available there:
loadgo
-- loads smart contractNEO-GO-VM > loadgo TestContract/main.go
ops
-- show the opcodes of currently loaded contractrun
-- executes currently loaded contract
Use help
command to get more detailed information on all options and
particular commands. Note that this VM has a blockchain instance (an empty
private in-memory chain by default), with all appropriate interop functionality
available for smart contracts.