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darwincereska:main darwincereska:go-rewrite
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compare: darwincereska:89e45128b61a96a6521c99530d59f1e89a4aedd0
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2 Commits
35a73c340c ... 89e45128b6

Author SHA1 Message Date
darwincereska
89e45128b6 feat: added mining routes 2025-12-18 09:40:05 -05:00
darwincereska
3c097af03d feat: added transaction routes 2025-12-18 09:37:43 -05:00
2 changed files with 439 additions and 0 deletions
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229
server/src/main/kotlin/org/ccoin/routes/MiningRoutes.kt
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package org.ccoin.routes
import io.ktor.http.*
import io.ktor.server.application.*
import io.ktor.server.request.*
import io.ktor.server.response.*
import io.ktor.server.routing.*
import org.ccoin.models.StartMiningRequest
import org.ccoin.models.SubmitMiningRequest
import org.ccoin.services.MiningService
import org.ccoin.services.ValidationService
fun Route.miningRoutes() {
route("/mining") {
/** Start a mining job */
post("/start") {
try {
val request = call.receive<StartMiningRequest>()
// Validate miner address
if (!ValidationService.validateWalletAddress(request.minerAddress)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid miner address format"))
return@post
}
// Validate difficulty if provided
if (request.difficulty != null && !ValidationService.validateMiningDifficulty(request.difficulty)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid mining difficulty"))
return@post
}
val job = MiningService.startMining(request.minerAddress, request.difficulty)
call.respond(HttpStatusCode.Created, job)
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to start mining job")))
}
}
/** Sumit mining result */
post("/submit") {
try {
val request = call.receive<SubmitMiningRequest>()
// Validate miner address
if (!ValidationService.validateWalletAddress(request.minerAddress)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid miner address format"))
return@post
}
// Validate hash format
if (!ValidationService.validateBlockHash(request.hash)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid hash format"))
return@post
}
// Validate previous hash format
if (!ValidationService.validateBlockHash(request.previousHash)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid previous hash format"))
return@post
}
// Validate nonce
if (!ValidationService.validateMiningNonce(request.nonce)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid nonce"))
return@post
}
// Validate timestamp
if (!ValidationService.validateTimestamp(request.timestamp)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid timestamp"))
return@post
}
val block = MiningService.submitMiningResult(
request.minerAddress,
request.nonce,
request.hash,
request.previousHash,
request.timestamp
)
call.respond(HttpStatusCode.Created, block)
} catch (e: Exception) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to (e.message ?: "Mining submission failed")))
}
}
/** Get current mining difficulty */
get("/difficulty") {
try {
val difficulty = MiningService.getCurrentDifficulty()
call.respond(mapOf("difficulty" to difficulty))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get difficulty")))
}
}
/** Get mining statistics for a miner */
get("/stats/{address}") {
try {
val address = call.parameters["address"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Address parameter required"))
return@get
}
// Validate address format
if (!ValidationService.validateWalletAddress(address)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid address format"))
return@get
}
val stats = MiningService.getMinerStats(address)
call.respond(stats)
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get miner statistics")))
}
}
/** Get network mining statistics */
get("/network") {
try {
val hashRate = MiningService.getNetworkHashRate()
val averageBlockTime = MiningService.getAverageBlockTime()
val activeMiners = MiningService.getActiveMinersCount()
val difficulty = MiningService.getCurrentDifficulty()
call.respond(mapOf(
"networkHashRate" to hashRate,
"averageBlockTime" to averageBlockTime,
"activeMiners" to activeMiners,
"currentDifficulty" to difficulty
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get network statistics")))
}
}
/** Get pending transactions available for mining */
get("/pending-transactions") {
try {
val limit = call.request.queryParameters["limit"]?.toIntOrNull() ?: 100
if (limit in 0..1000) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Limit must be between 1 and 1000"))
return@get
}
val transactions = MiningService.getPendingTransactionsForMining(limit)
call.respond(mapOf(
"transactions" to transactions,
"count" to transactions.size
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get pending transactions")))
}
}
/** Validate mining job */
post("/validate") {
try {
val jobId = call.request.queryParameters["jobId"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Job ID parameter required"))
return@post
}
val hash = call.request.queryParameters["hash"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Hash parameter required"))
return@post
}
val nonce = call.request.queryParameters["nonce"]?.toLongOrNull() ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Valid nonce parameter required"))
return@post
}
// Validate hash format
if (!ValidationService.validateBlockHash(hash)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid hash format"))
return@post
}
// Validate nonce
if (!ValidationService.validateMiningNonce(nonce)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid nonce"))
return@post
}
val isValid = MiningService.validateMiningJob(jobId, hash, nonce)
call.respond(mapOf(
"jobId" to jobId,
"hash" to hash,
"nonce" to nonce,
"isValid" to isValid
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to validate mining job")))
}
}
/** Get mining leaderboard */
get("/leaderboard") {
try {
val limit = call.request.queryParameters["limit"]?.toIntOrNull() ?: 10
if (limit in 0..100) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Limit must be between 1 and 100"))
return@get
}
// This would need a new service method to get top miners
// For now, return a placeholder response
call.respond(mapOf(
"message" to "Leaderboard endpoint - implementation needed",
"limit" to limit
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get mining leaderboard")))
}
}
}
}

210
server/src/main/kotlin/org/ccoin/routes/TransactionRoutes.kt
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package org.ccoin.routes
import io.ktor.http.*
import io.ktor.server.application.*
import io.ktor.server.request.*
import io.ktor.server.response.*
import io.ktor.server.routing.*
import org.ccoin.models.SendTransactionRequest
import org.ccoin.services.TransactionService
import org.ccoin.services.ValidationService
fun Route.transactionRoutes() {
route("/transaction") {
/** Send a transaction */
post("/send") {
try {
val request = call.receive<SendTransactionRequest>()
// Validate transaction data
val validation = ValidationService.validateTransaction(
request.fromAddress,
request.toAddress,
request.amount,
request.fee,
request.memo
)
if (!validation.isValid) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to validation.getErrorMessage()))
return@post
}
val transaction = TransactionService.sendTransaction(
request.fromAddress,
request.toAddress,
request.amount,
request.fee,
request.memo
)
call.respond(HttpStatusCode.Created, transaction)
} catch (e: Exception) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to (e.message ?: "Transaction failed")))
}
}
/** Get transaction by hash */
get("/{hash}") {
try {
val hash = call.parameters["hash"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Transaction hash parameter required"))
return@get
}
// Validate hash format
if (!ValidationService.validateTransactionHash(hash)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid transaction hash format"))
return@get
}
val transaction = TransactionService.getTransaction(hash)
if (transaction != null) {
call.respond(transaction)
} else {
call.respond(HttpStatusCode.NotFound, mapOf("error" to "Transaction not found"))
}
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get transaction")))
}
}
/** Get transaction history for an address */
get("/history/{address}") {
try {
val address = call.parameters["address"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Address parameter required"))
return@get
}
val page = call.request.queryParameters["page"]?.toIntOrNull() ?: 1
val pageSize = call.request.queryParameters["pageSize"]?.toIntOrNull() ?: 50
// Validate address format
if (!ValidationService.validateWalletAddress(address)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid address format"))
return@get
}
// Validate pagination
val validation = ValidationService.validatePagination(page, pageSize)
if (!validation.isValid) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to validation.getErrorMessage()))
return@get
}
val offset = (page - 1) * pageSize
val transactions = TransactionService.getTransactionHistory(address, pageSize, offset)
val totalCount = TransactionService.getTransactionCountForAddress(address)
call.respond(mapOf(
"transactions" to transactions,
"address" to address,
"pagination" to mapOf(
"currentPage" to page,
"pageSize" to pageSize,
"totalItems" to totalCount,
"totalPages" to ((totalCount + pageSize - 1) / pageSize),
"hasNext" to (offset + pageSize < totalCount),
"hasPrevious" to (page > 1)
)
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get transaction history")))
}
}
/** Get pending transactions */
get("/pending") {
try {
val transactions = TransactionService.getPendingTransactions()
call.respond(mapOf(
"transactions" to transactions,
"count" to transactions.size
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get pending transactions")))
}
}
/** Get transaction count for address */
get("/count/{address}") {
try {
val address = call.parameters["address"] ?: run {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Address parameter required"))
return@get
}
// Validate address format
if (!ValidationService.validateWalletAddress(address)) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to "Invalid address format"))
return@get
}
val count = TransactionService.getTransactionCountForAddress(address)
call.respond(mapOf(
"address" to address,
"transactionCount" to count
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get transaction count")))
}
}
/** Get all transactions with pagination */
get("/list") {
try {
val page = call.request.queryParameters["page"]?.toIntOrNull() ?: 1
val pageSize = call.request.queryParameters["pageSize"]?.toIntOrNull() ?: 50
val status = call.request.queryParameters["status"] // Optional filter
// Validate pagination
val validation = ValidationService.validatePagination(page, pageSize)
if (!validation.isValid) {
call.respond(HttpStatusCode.BadRequest, mapOf("error" to validation.getErrorMessage()))
return@get
}
// For now, just get pending transactions as an example
// You could extend this to support status filtering
val transactions = if (status == "pending") {
TransactionService.getPendingTransactions()
} else {
// This would need a new service method for all transactions
TransactionService.getPendingTransactions() // Placeholder
}
call.respond(mapOf(
"transactions" to transactions,
"count" to transactions.size,
"status" to status
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get transactions")))
}
}
/** Get network transaction statistics */
get("/stats") {
try {
val totalCount = TransactionService.getTotalTransactionCount()
val pendingCount = TransactionService.getPendingTransactions().size
call.respond(mapOf(
"totalTransactions" to totalCount,
"pendingTransactions" to pendingCount,
"confirmedTransactions" to (totalCount - pendingCount)
))
} catch (e: Exception) {
call.respond(HttpStatusCode.InternalServerError, mapOf("error" to (e.message ?: "Failed to get transaction statistics")))
}
}
}
}