Client is provided as a Go package, so please refer to the relevant godocs page.
The server is written to support as much of the JSON-RPC 2.0 Spec as possible. The server is run as part of the node currently.
An example would be viewing the version of the node:
$ curl -X POST -d '{"jsonrpc": "2.0", "method": "getversion", "params": [], "id": 1}' http://localhost:20332
which would yield the response:
{
"result" : {
"useragent" : "/NEO-GO:0.97.2/",
"tcpport" : 10333,
"network" : 860833102,
"nonce" : 105745208
},
"jsonrpc" : "2.0",
"id" : 1
}
Method |
---|
calculatenetworkfee |
findstates |
getapplicationlog |
getbestblockhash |
getblock |
getblockcount |
getblockhash |
getblockheader |
getblockheadercount |
getcandidates |
getcommittee |
getconnectioncount |
getcontractstate |
getnativecontracts |
getnep11balances |
getnep11properties |
getnep11transfers |
getnep17balances |
getnep17transfers |
getnextblockvalidators |
getpeers |
getproof |
getrawmempool |
getrawtransaction |
getstate |
getstateheight |
getstateroot |
getstorage |
gettransactionheight |
getunclaimedgas |
getversion |
invokecontractverify |
invokefunction |
invokescript |
sendrawtransaction |
submitblock |
submitoracleresponse |
terminatesession |
traverseiterator |
validateaddress |
verifyproof |
C# implementation contains a number of enumerations and while it outputs them into JSON as comma-separated strings (or just strings if only one value is allowed for this type) it accepts pure numbers for input (see #2563 for example). NeoGo currently doesn't support this behavior. This affects the following data types:
- transaction attribute type
- oracle response code
- transaction witness scope
- rule witness action
- condition rule witness type
- function call flag
- function call parameter type
- execution trigger type
- stack item type
Any call that takes any of these types for input in JSON format is affected.
NeoGo tries to cover more cases with its calculatenetworkfee implementation,
whereas C# node support only standard signature contracts and deployed
contracts that can execute verify
successfully on incomplete (not yet signed
properly) transaction, NeoGo also works with deployed contracts that fail at
this stage and executes non-standard contracts (that can fail
too). It's ignoring the result of any verification script (since the method
calculates fee and doesn't care about transaction validity). Invocation script
is used as is when provided, but absent it the system will try to infer one
based on the verify
method signature (pushing dummy signatures or
hashes). If signature has some types which contents can't be adequately
guessed (arrays, maps, interop, void) they're ignored. See
neo-project/neo#2805 as well.
neo-go implementation of invokefunction
does not return tx
field in the answer because that requires signing the transaction with some
key in the server, which doesn't fit the model of our node-client interactions.
If this signature is lacking, the transaction is almost useless, so there is no point
in returning it.
It's possible to use invokefunction
not only with a contract scripthash, but also
with a contract name (for native contracts) or a contract ID (for all contracts). This
feature is not supported by the C# node.
If iterator is present on stack after function or script invocation then, depending
on SessionEnable
RPC-server setting, iterator either will be marshalled as iterator
ID (corresponds to SessionEnabled: true
) or as a set of traversed iterator values
up to DefaultMaxIteratorResultItems
packed into array (corresponds to
SessionEnabled: false
).
It's possible to get non-native contract state by its ID, unlike with C# node where it only works for native contracts.
VM state is included into verbose response along with other transaction fields if the transaction is already on chain.
This method is able to accept state root hash instead of index, unlike the C# node where only index is accepted.
This method doesn't work for the Ledger contract, you can get data via regular
getblock
and getrawtransaction
calls. This method is able to get storage of
a native contract by its name (case-insensitive), unlike the C# node where
it only possible for index or hash.
neo-go implementation of getnep11balances
and getnep17balances
does not
perform tracking of NEP-11 and NEP-17 balances for each account as it is done
in the C# node. Instead, a neo-go node maintains a list of standard-compliant
contracts, i.e. those contracts that have NEP-11
or NEP-17
declared in the
supported standards section of the manifest. Each time balances are queried,
the neo-go node asks every NEP-11/NEP-17 contract for the account balance by
invoking balanceOf
method with the corresponding args. Invocation GAS limit
is set to be 3 GAS. All non-zero balances are included in the RPC call result.
Thus, if a token contract doesn't have proper standard declared in the list of
supported standards but emits compliant NEP-11/NEP-17 Transfer
notifications, the token balance won't be shown in the list of balances
returned by the neo-go node (unlike the C# node behavior). However, transfer
logs of such tokens are still available via respective getnepXXtransfers
RPC
calls.
The behavior of the LastUpdatedBlock
tracking for archival nodes as far as for
governing token balances matches the C# node's one. For non-archival nodes and
other NEP-11/NEP-17 tokens, if transfer's LastUpdatedBlock
is lower than the
latest state synchronization point P the node working against,
LastUpdatedBlock
equals P. For NEP-11 NFTs LastUpdatedBlock
is equal for
all tokens of the same asset.
NeoGo can return additional fields in the protocol
object depending on the
extensions enabled. Specifically that's p2psigextensions
and
staterootinheader
booleans and committeehistory
and validatorshistory
objects (that are effectively maps from stringified integers to other
integers. These fields are only returned when corresponding settings are
enabled in the server's protocol configuration.
transfernotifyindex
is not tracked by NeoGo, thus this field is always zero.
Methods listed below are not going to be supported for various reasons and we're not accepting issues related to them.
Method | Reason |
---|---|
closewallet |
Doesn't fit neo-go wallet model |
dumpprivkey |
Shouldn't exist for security reasons, see closewallet comment also |
getnewaddress |
See closewallet comment, use CLI to do that |
getwalletbalance |
See closewallet comment, use getnep17balances for that |
getwalletunclaimedgas |
See closewallet comment, use getunclaimedgas for that |
importprivkey |
Not applicable to neo-go, see closewallet comment |
listaddress |
Not applicable to neo-go, see closewallet comment |
listplugins |
neo-go doesn't have any plugins, so it makes no sense |
openwallet |
Doesn't fit neo-go wallet model |
sendfrom |
Not applicable to neo-go, see openwallet comment |
sendmany |
Not applicable to neo-go, see openwallet comment |
sendtoaddress |
Not applicable to neo-go, see claimgas comment |
Some additional extensions are implemented as a part of this RPC server.
This method returns cumulative system fee for all transactions included in a block. It can be removed in future versions, but at the moment you can use it to see how much GAS is burned with a particular block (because system fees are burned).
These methods provide the ability of historical calls and accept block hash or
block index or stateroot hash as the first parameter and the list of parameters
that is the same as of invokecontractverify
, invokefunction
and
invokescript
correspondingly. The historical call assumes that the contracts'
storage state has all its values got from MPT with the specified stateroot (or,
which is the same, with the stateroot of the block of the specified height) and
the transaction will be invoked using interop context with block which is next to
the block with the specified height. This allows to perform test invocation using
the specified past chain state. These methods may be useful for debugging
purposes.
Behavior note: any historical RPC call need the historical chain state to be
presented in the node storage, thus if the node keeps only latest MPT state
the historical call can not be handled properly.The historical calls only
guaranteed to correctly work on archival node that stores all MPT data. If a
node keeps the number of latest states and has the GC on (this setting
corresponds to the RemoveUntraceableBlocks
set to true
), then the behaviour
of historical RPC call is undefined. GC can always kick some data out of the
storage while the historical call is executing, thus keep in mind that the call
can be processed with RemoveUntraceableBlocks
only with limitations on
available data.
This method can be used on P2P Notary enabled networks to submit new notary payloads to be relayed from RPC to P2P.
getnep11transfers
and getnep17transfers
RPC calls never return more than
1000 results for one request (within the specified time frame). You can pass your
own limit via an additional parameter and then use paging to request the next
batch of transfers.
An example of requesting 10 events for address NbTiM6h8r99kpRtb428XcsUk1TzKed2gTc within 0-1600094189000 timestamps:
{ "jsonrpc": "2.0", "id": 5, "method": "getnep17transfers", "params":
["NbTiM6h8r99kpRtb428XcsUk1TzKed2gTc", 0, 1600094189000, 10] }
Get the next 10 transfers for the same account within the same time frame:
{ "jsonrpc": "2.0", "id": 5, "method": "getnep17transfers", "params":
["NbTiM6h8r99kpRtb428XcsUk1TzKed2gTc", 0, 1600094189000, 10, 1] }
This server accepts websocket connections on ws://$BASE_URL/ws
address. You
can use it to perform regular RPC calls over websockets (it's supposed to be a
little faster than going regular HTTP route) and you can also use it for
additional functionality provided only via websockets (like notifications).
Notification subsystem consists of two additional RPC methods (subscribe
and
unsubscribe
working only over websocket connection) that allow to subscribe
to various blockchain events (with simple event filtering) and receive them on
the client as JSON-RPC notifications. More details on that are written in the
notifications specification.