Andrew Miller
7d8e23768f
proof-measure is a separate, public, unauthenticated Dragonchain service. Adds: - client.UnauthenticatedClient: HMAC-free transport mirroring Client's marshal/decode/error handling. - proofmeasure.ProofMeasureClient: GetSecurity / Report / Health, default base URL https://proof-measure.dragonchain.com; standalone + a DragonchainSDK.ProofMeasure handle. - models for SecurityResult/RawMeasure/ReportRequest/TransactionReport/etc (decimals as strings, timestamps int64). - httptest unit tests.
5.7 KiB
Executable File
5.7 KiB
Executable File
Dragonchain Go SDK
A self-contained Go SDK for interacting with Dragonchain nodes.
Installation
go get git.dragonchain.com/dragonchain/prime-sdk-go
Usage
package main
import (
"context"
"fmt"
"log"
"time"
"git.dragonchain.com/dragonchain/prime-sdk-go"
"git.dragonchain.com/dragonchain/prime-sdk-go/models"
)
func main() {
// Initialize the SDK
client := sdk.NewDragonchainSDK(
"your-public-id",
"your-auth-key-id",
"your-auth-key",
"https://your-dragonchain-endpoint.com",
)
// Create a context with timeout
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
// Check system health
if err := client.System.Health(ctx); err != nil {
log.Fatal("Health check failed:", err)
}
// Get system status
status, err := client.System.Status(ctx)
if err != nil {
log.Fatal("Failed to get status:", err)
}
fmt.Printf("Chain ID: %s, Level: %d\n", status.ID, status.Level)
// Create a transaction
txn := &models.TransactionCreateRequest{
TxnType: "my-transaction-type",
Payload: map[string]interface{}{
"message": "Hello Dragonchain",
},
Tag: "example-tag",
}
resp, err := client.Transaction.Create(ctx, txn)
if err != nil {
log.Fatal("Failed to create transaction:", err)
}
fmt.Printf("Created transaction: %s\n", resp.TransactionID)
}
Transaction Modes
Create and CreateBulk return immediately with the assigned transaction ID(s). They do not wait for block inclusion. Blocks are assembled asynchronously on a ~5-second cycle.
Fire and Forget
Most use cases only need the transaction ID. No polling required.
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
resp, err := client.Transaction.Create(ctx, &models.TransactionCreateRequest{
TxnType: "my-transaction-type",
Payload: `{"message": "Hello Dragonchain"}`,
})
if err != nil {
log.Fatal(err)
}
fmt.Printf("Transaction ID: %s\n", resp.TransactionID)
// Done — no need to wait for a block.
Wait for Block
If you need the block ID (e.g. for interchain verification or Daria), poll Get until Header.BlockId is populated.
resp, err := client.Transaction.Create(ctx, &models.TransactionCreateRequest{
TxnType: "my-transaction-type",
Payload: `{"message": "Hello Dragonchain"}`,
})
if err != nil {
log.Fatal(err)
}
// Poll until the transaction is included in a block.
ticker := time.NewTicker(2 * time.Second)
defer ticker.Stop()
for range ticker.C {
txn, err := client.Transaction.Get(ctx, resp.TransactionID)
if err != nil {
log.Fatal(err)
}
if txn.Header.BlockId != "" {
fmt.Printf("Block ID: %s\n", txn.Header.BlockId)
break
}
}
Available Endpoints
All API methods accept a context.Context as their first parameter for timeout and cancellation control.
System
Health(ctx)- Check system healthStatus(ctx)- Get system status
Transaction
Create(ctx, req)- Create a new transactionCreateBulk(ctx, req)- Create multiple transactionsGet(ctx, transactionID)- Get transaction by IDList(ctx)- List all transactions
Transaction Type
Create(ctx, req)- Create a new transaction typeGet(ctx, txnType)- Get transaction type by nameList(ctx)- List all transaction typesDelete(ctx, txnType)- Delete a transaction type
Smart Contract
Create(ctx, req)- Create a new smart contractGet(ctx, contractID)- Get smart contract by IDList(ctx)- List all smart contractsUpdate(ctx, contractID, req)- Update a smart contractUpload(ctx, contractID, filepath)- Upload smart contract codeDelete(ctx, contractID)- Delete a smart contract
Block
Get(ctx, blockID)- Get block by ID
Proof Measure (public, unauthenticated)
GetSecurity(ctx, network, since)- A network's accumulated security sincesince(unix seconds;0= service default), as raw measure + USD valuation.network="BTC"or"ETH".Report(ctx, req)- Per-transaction "securedBy" report over interchain anchors.Health(ctx)- Service liveness.
Proof Measure
proof-measure is a separate, public, unauthenticated Dragonchain service
(the measured-immutability / "securedBy" metric) at
https://proof-measure.dragonchain.com. It needs no credentials. The SDK exposes
it two ways:
// 1. Via the main SDK (targets the default public endpoint):
sec, err := client.ProofMeasure.GetSecurity(ctx, "BTC", time.Now().Add(-time.Hour).Unix())
if err != nil {
log.Fatal(err)
}
fmt.Printf("BTC secured by %s (%s) since %d\n", sec.ValueUSDFormatted, sec.Raw.Value+" "+sec.Raw.Unit, sec.SinceUnix)
// 2. Standalone (no prime credentials needed; empty URL = public prod):
import "git.dragonchain.com/dragonchain/prime-sdk-go/proofmeasure"
pm := proofmeasure.NewProofMeasureClient("") // or a custom base URL
report, err := pm.Report(ctx, &models.ReportRequest{
TransactionID: "tx-123", PrimeID: "my-prime", BlockID: "42",
Anchors: []models.ReportAnchorInput{
{Network: "BTC", TxHash: "0x...", Timestamp: anchorUnix},
{Network: "ETH", TxHash: "0x...", Timestamp: anchorUnix},
},
})
if err != nil {
log.Fatal(err)
}
fmt.Printf("Secured by %s across %d anchors\n", report.TotalValueUSDFormatted, len(report.Anchors))
Authentication
The SDK uses HMAC-SHA256 authentication. You need to provide:
publicID- Your Dragonchain public IDauthKeyID- Your authentication key IDauthKey- Your authentication keybaseURL- The base URL of your Dragonchain node (e.g., "https://chains.dragonchain.com")