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wanderer🌟 / js-primea-hypervisor



Tree: a2d4372bc21bc705e7d5c559b431d90588315e10

Files: a2d4372bc21bc705e7d5c559b431d90588315e10 / index.js

6806 bytesRaw
1/**
2 * This implements the Ethereum Kernel
3 * Kernels must implement two methods `codeHandler` and `callHandler` (and `linkHandler` for sharding)
4 * The Kernel Contract handles the following
5 * - Interprocess communications
6 * - Intializing the VM and exposes ROM to it (codeHandler)
7 * - Expose namespace which VM instance exists and Intializes the Environment (callHandler)
8 * - Provides some built in contract (runTx, runBlock)
9 * - Provides resource sharing and limiting via gas
10 *
11 *   All State should be stored in the Environment.
12 *
13 */
14
15// The Kernel Exposes this Interface to VM instances it makes
16const Interface = require('./interface.js')
17
18// The Kernel Stores all of its state in the Environment. The Interface is used
19// to by the VM to retrive infromation from the Environment.
20const Environment = require('./environment.js')
21const DebugInterface = require('./debugInterface.js')
22const Address = require('./address.js')
23const U256 = require('./u256.js')
24const Utils = require('./utils.js')
25const Transaction = require('./transaction.js')
26const Precompile = require('./precompile.js')
27
28const meteringContract = new Address('0x000000000000000000000000000000000000000A')
29const transcompilerContract = new Address('0x000000000000000000000000000000000000000B')
30
31module.exports = class Kernel {
32  // runs some code in the VM
33  constructor (environment = new Environment()) {
34    this.environment = environment
35  }
36
37  // handles running code.
38  // NOTE: it assumes that wasm will raise an exception if something went wrong,
39  //       otherwise execution succeeded
40  codeHandler (code, ethInterface = new Interface(new Environment())) {
41    const debugInterface = new DebugInterface(ethInterface.environment)
42
43    const instance = Wasm.instantiateModule(code, {
44      'ethereum': ethInterface.exportTable,
45      'debug': debugInterface.exportTable,
46
47      // export this for Rust
48      // FIXME: remove once Rust has proper imports, see https://github.com/ethereum/evm2.0-design/issues/15
49      'spectest': ethInterface.exportTable,
50
51      // export this for Binaryen
52      // FIXME: remove once C has proper imports, see https://github.com/ethereum/evm2.0-design/issues/16
53      'env': ethInterface.exportTable
54    })
55
56    ethInterface.setModule(instance)
57    debugInterface.setModule(instance)
58
59    if (instance.exports.main) {
60      instance.exports.main()
61    }
62    return instance
63  }
64
65  // loads code from the merkle trie and delegates the message
66  // Detects if code is EVM or WASM
67  // Detects if the code injection is needed
68  // Detects if transcompilation is needed
69  callHandler (call) {
70    // FIXME: this is here until these two contracts are compiled to WASM
71    // The two special contracts (precompiles now, but will be real ones later)
72    if (call.to.equals(meteringContract)) {
73      return Precompile.meteringInjector(call)
74    } else if (call.to.equals(transcompilerContract)) {
75      return Precompile.transcompiler(call)
76    }
77
78    let account = this.environment.state.get(call.to.toString())
79    if (!account) {
80      throw new Error('Account not found: ' + call.to.toString())
81    }
82
83    let code = Uint8Array.from(account.get('code'))
84    if (code.length === 0) {
85      throw new Error('Contract not found')
86    }
87
88    if (!Utils.isWASMCode(code)) {
89      // throw new Error('Not an eWASM contract')
90
91      // Transcompile code
92      code = this.callHandler({ to: transcompilerContract, data: code }).returnValue
93    }
94
95    // creats a new Kernel
96    const environment = new Environment()
97    environment.parent = this
98
99    // copy the transaction details
100    environment.code = code
101    environment.address = call.to
102    // FIXME: make distinction between origin and caller
103    environment.origin = call.from
104    environment.caller = call.from
105    environment.callData = call.data
106    environment.callValue = call.value
107    environment.gasLeft = call.gasLimit
108
109    // environment.setCallHandler(callHandler)
110
111    const kernel = new Kernel(this, environment)
112    kernel.codeHandler(code, new Interface(environment))
113
114    // generate new stateroot
115    // this.environment.state.set(address, { stateRoot: stateRoot })
116
117    return {
118      executionOutcome: 1, // success
119      gasLeft: new U256(environment.gasLeft),
120      gasRefund: new U256(environment.gasRefund),
121      returnValue: environment.returnValue,
122      selfDestructAddress: environment.selfDestructAddress,
123      logs: environment.logs
124    }
125  }
126
127  // run tx; the tx message handler
128  runTx (tx, environment = new Environment()) {
129    this.environment = environment
130
131    if (Buffer.isBuffer(tx) || typeof tx === 'string') {
132      tx = new Transaction(tx)
133      if (!tx.valid) {
134        throw new Error('Invalid transaction signature')
135      }
136    }
137
138    // look up sender
139    let fromAccount = this.environment.state.get(tx.from.toString())
140    if (!fromAccount) {
141      throw new Error('Sender account not found: ' + tx.from.toString())
142    }
143
144    if (fromAccount.get('nonce').gt(tx.nonce)) {
145      throw new Error(`Invalid nonce: ${fromAccount.get('nonce')} > ${tx.nonce}`)
146    }
147
148    fromAccount.set('nonce', fromAccount.get('nonce').add(new U256(1)))
149
150    // Special case: contract deployment
151    if (tx.to.isZero()) {
152      if (tx.data.length !== 0) {
153        console.log('This is a contract deployment transaction')
154
155        // Inject metering
156        const code = this.callHandler({ to: meteringContract, data: tx.data }).returnValue
157
158        let address = Utils.newAccountAddress(tx.from, code)
159
160        this.environment.addAccount(address.toString(), {
161          balance: tx.value,
162          code: code
163        })
164
165        // FIXME: deduct fees
166
167        return {
168          accountCreated: address
169        }
170      }
171    }
172
173    // deduct gasLimit * gasPrice from sender
174    if (fromAccount.get('balance').lt(tx.gasLimit.mul(tx.gasPrice))) {
175      throw new Error(`Insufficient account balance: ${fromAccount.get('balance').toString()} < ${tx.gasLimit.mul(tx.gasPrice).toString()}`)
176    }
177
178    fromAccount.set('balance', fromAccount.get('balance').sub(tx.gasLimit.mul(tx.gasPrice)))
179
180    let ret = this.callHandler({
181      to: tx.to,
182      from: tx.from,
183      gasLimit: tx.gasLimit,
184      value: tx.value,
185      data: tx.data
186    })
187
188    // refund gas
189    if (ret.executionOutcome === 1) {
190      fromAccount.set('balance', fromAccount.get('balance').add(tx.gasPrice.mul(ret.gasLeft.add(ret.gasRefund))))
191    }
192
193    // save new state?
194
195    return {
196      returnValue: ret.returnValue,
197      gasLeft: ret.gasLeft,
198      logs: ret.logs
199    }
200  }
201
202  // run block; the block message handler
203  runBlock (block, environment = new Environment()) {
204    // verify block then run each tx
205    block.tx.forEach((tx) => {
206      this.runTx(tx, environment)
207    })
208  }
209
210  // run blockchain
211  // runBlockchain () {}
212}
213

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