Skip to main content

Contract Chain API

info

Ethereum has its own notion of networkID and chainID. These have no relationship to Avalanche’s view of networkID and chainID and are purely internal to the C-Chain. On Mainnet, the C-Chain uses 1 and 43114 for these values. On the Fuji Testnet, it uses 1 and 43113 for these values. networkID and chainID can also be obtained using the net_version and eth_chainId methods.

Ethereum APIs​

Endpoints​

JSON-RPC Endpoints​

To interact with C-Chain via the JSON-RPC endpoint:

/ext/bc/C/rpc

To interact with other instances of the EVM via the JSON-RPC endpoint:

/ext/bc/blockchainID/rpc

where blockchainID is the ID of the blockchain running the EVM.

WebSocket Endpoints​

info

On the public API node, it only supports C-Chain websocket API calls for API methods that don't exist on the C-Chain's HTTP API

To interact with C-Chain via the websocket endpoint:

/ext/bc/C/ws

For example, to interact with the C-Chain's Ethereum APIs via websocket on localhost you can use:

ws://127.0.0.1:9650/ext/bc/C/ws
tip

On localhost, use ws://. When using the Public API or another host that supports encryption, use wss://.

To interact with other instances of the EVM via the websocket endpoint:

/ext/bc/blockchainID/ws

where blockchainID is the ID of the blockchain running the EVM.

Standard Ethereum APIs​

Avalanche offers an API interface identical to Geth's API except that it only supports the following services:

  • web3_
  • net_
  • eth_
  • personal_
  • txpool_
  • debug_ (note: this is turned off on the public API node.)

You can interact with these services the same exact way you’d interact with Geth. See the Ethereum Wiki’s JSON-RPC Documentation and Geth’s JSON-RPC Documentation for a full description of this API.

info

For batched requests on the public API node , the maximum number of items is 40. We are working on to support a larger batch size.

Avalanche - Ethereum APIs​

In addition to the standard Ethereum APIs, Avalanche offers eth_getAssetBalance, eth_baseFee, eth_maxPriorityFeePerGas, and eth_getChainConfig.

They use the same endpoint as standard Ethereum APIs:

/ext/bc/C/rpc

eth_getAssetBalance​

Retrieves the balance of first class Avalanche Native Tokens on the C-Chain (excluding AVAX, which must be fetched with eth_getBalance).

note

The AssetID for AVAX differs depending on the network you are on.

Mainnet: FvwEAhmxKfeiG8SnEvq42hc6whRyY3EFYAvebMqDNDGCgxN5Z

Testnet: U8iRqJoiJm8xZHAacmvYyZVwqQx6uDNtQeP3CQ6fcgQk3JqnK

For finding the assetID of other assets, please note that avax.getUTXOs and avax.getAtomicTx return the assetID in their output.

Signature:

eth_getAssetBalance({
address: string,
blk: BlkNrOrHash,
assetID: string,
}) -> {balance: int}
  • address owner of the asset
  • blk is the block number or hash at which to retrieve the balance
  • assetID id of the asset for which the balance is requested

Example Call:

curl -X POST --data '{
"jsonrpc": "2.0",
"method": "eth_getAssetBalance",
"params": [
"0x8723e5773847A4Eb5FeEDabD9320802c5c812F46",
"latest",
"3RvKBAmQnfYionFXMfW5P8TDZgZiogKbHjM8cjpu16LKAgF5T"
],
"id": 1
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/rpc

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": "0x1388"
}

eth_baseFee​

Get the base fee for the next block.

Signature:

eth_baseFee() -> {}

result is the hex value of the base fee for the next block.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"eth_baseFee",
"params" :[]
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/rpc

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": "0x34630b8a00"
}

eth_maxPriorityFeePerGas​

Get the priority fee needed to be included in a block.

Signature:

eth_maxPriorityFeePerGas() -> {}

result is hex value of the priority fee needed to be included in a block.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"eth_maxPriorityFeePerGas",
"params" :[]
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/rpc

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": "0x2540be400"
}

For more information on dynamic fees see the C-Chain section of the transaction fee documentation.

eth_getChainConfig​

eth_getChainConfig returns chain config. This API is enabled by default with internal-eth namespace.

Signature:

eth_getChainConfig({}) -> {chainConfig: json}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"eth_getChainConfig",
"params" :[]
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/rpc

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {
"chainId": 43112,
"homesteadBlock": 0,
"daoForkBlock": 0,
"daoForkSupport": true,
"eip150Block": 0,
"eip150Hash": "0x2086799aeebeae135c246c65021c82b4e15a2c451340993aacfd2751886514f0",
"eip155Block": 0,
"eip158Block": 0,
"byzantiumBlock": 0,
"constantinopleBlock": 0,
"petersburgBlock": 0,
"istanbulBlock": 0,
"muirGlacierBlock": 0,
"apricotPhase1BlockTimestamp": 0,
"apricotPhase2BlockTimestamp": 0,
"apricotPhase3BlockTimestamp": 0,
"apricotPhase4BlockTimestamp": 0,
"apricotPhase5BlockTimestamp": 0
}
}

Avalanche Specific APIs​

To interact with the avax specific RPC calls on the C-Chain:

/ext/bc/C/avax

To interact with other instances of the EVM AVAX endpoints:

/ext/bc/blockchainID/avax

avax.export​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

Export an asset from the C-Chain to X-Chain or P-Chain. If exporting to the X-Chain, you must call the X-Chain's avm.import.

Signature:

avax.export({
to: string,
amount: int,
assetID: string,
baseFee: int,
username: string,
password:string,
}) -> {txID: string}
  • to is the X-Chain or P-Chain address the asset is sent to.
  • amount is the amount of the asset to send.
  • assetID is the ID of the asset. To export AVAX use "AVAX" as the assetID.
  • baseFee is the base fee that should be used when creating the transaction. If omitted, a suggested fee will be used.
  • username is the user that controls the address that transaction will be sent from.
  • password is usernameβ€˜s password.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.export",
"params" :{
"to":"X-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5",
"amount": 500,
"assetID": "2nzgmhZLuVq8jc7NNu2eahkKwoJcbFWXWJCxHBVWAJEZkhquoK",
"username":"myUsername",
"password":"myPassword"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"txID": "2W5JuFENitZKTpJsy9igBpTcEeBKxBHHGAUkgsSUnkjVVGQ9i8"
},
"id": 1
}

avax.exportAVAX​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

DEPRECATEDβ€”instead use avax.export.

Send AVAX from the C-Chain to X-Chain or P-Chain. If exporting to the X-Chain, you must call the X-Chain's avm.import with assetID AVAX on the X-Chain to complete the transfer.

Signature:

avax.exportAVAX({
to: string,
amount: int,
baseFee: int,
username: string,
password:string,
}) -> {txID: string}

Request:

  • to is X-Chain or P-Chain address the asset is sent to.
  • amount is the amount of the asset to send.
  • baseFee is the base fee that should be used when creating the transaction. If omitted, a suggested fee will be used.
  • username is the user that controls the address that transaction will be sent from.
  • password is usernameβ€˜s password.

Response:

  • txID is the TXID of the completed ExportTx.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.exportAVAX",
"params" :{
"from": ["0x8db97C7cEcE249c2b98bDC0226Cc4C2A57BF52FC"],
"to":"X-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5",
"amount": 500,
"changeAddr": "0x8db97C7cEcE249c2b98bDC0226Cc4C2A57BF52FC",
"username":"myUsername",
"password":"myPassword"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"txID": "2ffcxdkiKXXA4JdyRoS38dd7zoThkapNPeZuGPmmLBbiuBBHDa"
},
"id": 1
}

avax.exportKey​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

Get the private key that controls a given address. The returned private key can be added to a user with avax.importKey.

Signature:

avax.exportKey({
username: string,
password:string,
address:string
}) -> {privateKey: string}

Request:

  • username must control address.
  • address is the address for which you want to export the corresponding private key. It should be in hex format.

Response:

  • privateKey is the CB58 encoded string representation of the private key that controls address. It has a PrivateKey- prefix and can be used to import a key via avax.importKey.
  • privateKeyHex is the hex string representation of the private key that controls address. It can be used to import an account into Core or other wallets, like MetaMask.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.exportKey",
"params" :{
"username" :"myUsername",
"password":"myPassword",
"address": "0xc876DF0F099b3eb32cBB78820d39F5813f73E18C"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"privateKey": "PrivateKey-2o2uPgTSf3aR5nW6yLHjBEAiatAFKEhApvYzsjvAJKRXVWCYkE",
"privateKeyHex": "0xec381fb8d32168be4cf7f8d4ce9d8ca892d77ba574264f3665ad5edb89710157"
},
"id": 1
}

avax.getAtomicTx​

Gets a transaction by its ID. Optional encoding parameter to specify the format for the returned transaction. Can only be hex when a value is provided.

Signature:

avax.getAtomicTx({
txID: string,
encoding: string, //optional
}) -> {
tx: string,
encoding: string,
blockHeight: string
}

Request:

  • txID is the transaction ID. It should be in cb58 format.
  • encoding is the encoding format to use. Can only be hex when a value is provided.

Response:

  • tx is the transaction encoded to encoding.
  • encoding is the encoding.
  • blockHeight is the height of the block which the transaction was included in.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.getAtomicTx",
"params" :{
"txID":"2GD5SRYJQr2kw5jE73trBFiAgVQyrCaeg223TaTyJFYXf2kPty",
"encoding": "hex"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"tx": "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",
"encoding": "hex",
"blockHeight": "1"
},
"id": 1
}

avax.getAtomicTxStatus​

Get the status of an atomic transaction sent to the network.

Signature:

avax.getAtomicTxStatus({txID: string}) -> {
status: string,
blockHeight: string // returned when status is Accepted
}

status is one of:

  • Accepted: The transaction is (or will be) accepted by every node. Check the blockHeight property
  • Processing: The transaction is being voted on by this node
  • Dropped: The transaction was dropped by this node because it thought the transaction invalid
  • Unknown: The transaction hasn’t been seen by this node

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.getAtomicTxStatus",
"params" :{
"txID":"2QouvFWUbjuySRxeX5xMbNCuAaKWfbk5FeEa2JmoF85RKLk2dD"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {
"status": "Accepted",
"blockHeight": "1"
}
}

avax.getUTXOs​

Gets the UTXOs that reference a given address.

Signature:

avax.getUTXOs(
{
addresses: string,
limit: int, //optional
startIndex: { //optional
address: string,
utxo: string
},
sourceChain: string,
encoding: string, //optional
},
) ->
{
numFetched: int,
utxos: []string,
endIndex: {
address: string,
utxo: string
}
}
  • utxos is a list of UTXOs such that each UTXO references at least one address in addresses.
  • At most limit UTXOs are returned. If limit is omitted or greater than 1024, it is set to 1024.
  • This method supports pagination. endIndex denotes the last UTXO returned. To get the next set of UTXOs, use the value of endIndex as startIndex in the next call.
  • If startIndex is omitted, will fetch all UTXOs up to limit.
  • When using pagination (that is when startIndex is provided), UTXOs are not guaranteed to be unique across multiple calls. That is, a UTXO may appear in the result of the first call, and then again in the second call.
  • When using pagination, consistency is not guaranteed across multiple calls. That is, the UTXO set of the addresses may have changed between calls.
  • encoding sets the format for the returned UTXOs. Can only be hex when a value is provided.

Example​

Suppose we want all UTXOs that reference at least one of C-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5.

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.getUTXOs",
"params" :{
"addresses":["C-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5"],
"sourceChain": "X",
"startIndex": {
"address": "C-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5",
"utxo": "22RXW7SWjBrrxu2vzDkd8uza7fuEmNpgbj58CxBob9UbP37HSB"
},
"encoding": "hex"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

This gives response:

{
"jsonrpc": "2.0",
"result": {
"numFetched": "3",
"utxos": [
"0x0000a799e7448acf74ca9223159a04f93b948f99cf28509f908839532b2f85baffc300000001dbcf890f77f49b96857648b72b77f9f82937f28a68704af05da0dc12ba53f2db00000007000003a352a38240000000000000000000000001000000013cb7d3842e8cee6a0ebd09f1fe884f6861e1b29c22d23171",
"0x00006385c683d43bdbe754c224be36c5004ea7ce49c0849cadeaea6af93dae18cc7700000001dbcf890f77f49b96857648b72b77f9f82937f28a68704af05da0dc12ba53f2db00000007000003a352a38240000000000000000000000001000000013cb7d3842e8cee6a0ebd09f1fe884f6861e1b29cb81cc877",
"0x000038137283c94582351b86c3e90808312636769e3f5c14fbf1152d6634f770695c00000001dbcf890f77f49b96857648b72b77f9f82937f28a68704af05da0dc12ba53f2db00000007000003a352a38240000000000000000000000001000000013cb7d3842e8cee6a0ebd09f1fe884f6861e1b29c7412490e"
],
"endIndex": {
"address": "C-avax18jma8ppw3nhx5r4ap8clazz0dps7rv5ukulre5",
"utxo": "0x9333ef8a05f26acf2d8766f94723f749870fa2ca80c19c33cc945d79013d7c50fd023beb"
},
"encoding": "hex"
},
"id": 1
}

avax.import​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

Finalize the transfer of a non-AVAX or AVAX from X-Chain or P-Chain to the C-Chain.

Signature:

avax.import({
to: string,
sourceChain: string,
baseFee: int, // optional
username: string,
password:string,
}) -> {txID: string}

Request:

  • to is the address the asset is sent to. This must be the same as the to argument in the corresponding call to the X-Chain's or P-Chain's export.
  • sourceChain is the ID or alias of the chain the asset is being imported from. To import funds from the X-Chain, use "X"; for the P-Chain, use "P".
  • baseFee is the base fee that should be used when creating the transaction. If omitted, a suggested fee will be used.
  • username is the user that controls the address that transaction will be sent from.
  • password is usernameβ€˜s password.

Response:

  • txID is the ID of the completed ImportTx.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.import",
"params" :{
"to":"0x4b879aff6b3d24352Ac1985c1F45BA4c3493A398",
"sourceChain":"X",
"username":"myUsername",
"password":"myPassword"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"txID": "6bJq9dbqhiQvoshT3uSUbg9oB24n7Ei6MLnxvrdmao78oHR9t"
},
"id": 1
}

avax.importAVAX​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

DEPRECATEDβ€”instead use avax.import

Finalize a transfer of AVAX from the X-Chain or P-Chain to the C-Chain.

Signature:

avax.importAVAX({
to: string,
sourceChain: string,
baseFee: int, // optional
username: string,
password:string,
}) -> {txID: string}

Request:

  • to is the address the AVAX is sent to. It should be in hex format.
  • sourceChain is the ID or alias of the chain the AVAX is being imported from. To import funds from the X-Chain, use "X"; for the P-Chain, use "P".
  • baseFee is the base fee that should be used when creating the transaction. If omitted, a suggested fee will be used.
  • username is the user that controls the address that transaction will be sent from.
  • password is usernameβ€˜s password.

Response:

  • txID is the ID of the completed ImportTx.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.importAVAX",
"params" :{
"to":"0x4b879aff6b3d24352Ac1985c1F45BA4c3493A398",
"sourceChain":"X",
"username":"myUsername",
"password":"myPassword"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"txID": "LWTRsiKnEUJC58y8ezAk6hhzmSMUCtemLvm3LZFw8fxDQpns3"
},
"id": 1
}

avax.importKey​

warning

Not recommended for use on Mainnet. See warning notice in Keystore API.

Give a user control over an address by providing the private key that controls the address.

Signature:

avax.importKey({
username: string,
password:string,
privateKey:string
}) -> {address: string}

Request:

  • Add privateKey to username's set of private keys.

Response:

  • address is the address username now controls with the private key. It will be in hex format.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"avax.importKey",
"params" :{
"username" :"myUsername",
"password":"myPassword",
"privateKey":"PrivateKey-2o2uPgTSf3aR5nW6yLHjBEAiatAFKEhApvYzsjvAJKRXVWCYkE"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"result": {
"address": "0xc876DF0F099b3eb32cBB78820d39F5813f73E18C"
},
"id": 1
}

avax.issueTx​

Send a signed transaction to the network. encoding specifies the format of the signed transaction. Can only be hex when a value is provided.

Signature:

avax.issueTx({
tx: string,
encoding: string, //optional
}) -> {
txID: string
}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" : 1,
"method" :"avax.issueTx",
"params" :{
"tx":"0x00000009de31b4d8b22991d51aa6aa1fc733f23a851a8c9400000000000186a0000000005f041280000000005f9ca900000030390000000000000001fceda8f90fcb5d30614b99d79fc4baa29307762668f16eb0259a57c2d3b78c875c86ec2045792d4df2d926c40f829196e0bb97ee697af71f5b0a966dabff749634c8b729855e937715b0e44303fd1014daedc752006011b730",
"encoding": "hex"

}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/avax

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {
"txID": "NUPLwbt2hsYxpQg4H2o451hmTWQ4JZx2zMzM4SinwtHgAdX1JLPHXvWSXEnpecStLj"
}
}

Admin API​

This API can be used for debugging. Note that the Admin API is disabled by default. To run a node with the Admin API enabled, use C-Chain config flag--coreth-admin-api-enabled:true.

Endpoint​

/ext/bc/C/admin

admin.setLogLevel​

Sets the log level of the C-Chain.

Signature:

admin.setLogLevel({level:string}) -> {}
  • level is the log level to be set.

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"admin.setLogLevel",
"params": {
"level":"info"
}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/admin

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {}
}

admin.startCPUProfiler​

Starts a CPU profile.

Signature:

admin.startCPUProfiler() -> {}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"admin.startCPUProfiler",
"params": {}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/admin

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {}
}

admin.stopCPUProfiler​

Stops and writes a CPU profile.

Signature:

admin.stopCPUProfiler() -> {}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"admin.stopCPUProfiler",
"params": {}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/admin

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {}
}

admin.memoryProfile​

Runs and writes a memory profile.

Signature:

admin.memoryProfile() -> {}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"admin.memoryProfile",
"params": {}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/admin

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {}
}

admin.lockProfile​

Runs a mutex profile writing to the coreth_performance_c directory.

Signature:

admin.lockProfile() -> {}

Example Call:

curl -X POST --data '{
"jsonrpc":"2.0",
"id" :1,
"method" :"admin.lockProfile",
"params": {}
}' -H 'content-type:application/json;' 127.0.0.1:9650/ext/bc/C/admin

Example Response:

{
"jsonrpc": "2.0",
"id": 1,
"result": {}
}

Was this page helpful?