// Blocks, blocks will have transactions. // Transactions/contracts are updated in goroutines // Each contract should send a message on a channel with usage statistics // The statics can be used for fee calculation within the block update method // Statistics{transaction, /* integers */ normal_ops, store_load, extro_balance, crypto, steps} // The block updater will wait for all goroutines to be finished and update the block accordingly // in one go and should use minimal IO overhead. // The actual block updating will happen within a goroutine as well so normal operation may continue package main import ( _"fmt" ) type BlockManager struct { vm *Vm } func NewBlockManager() *BlockManager { bm := &BlockManager{vm: NewVm()} return bm } // Process a block. func (bm *BlockManager) ProcessBlock(block *Block) error { txCount := len(block.transactions) lockChan := make(chan bool, txCount) for _, tx := range block.transactions { go bm.ProcessTransaction(tx, lockChan) } // Wait for all Tx to finish processing for i := 0; i < txCount; i++ { <- lockChan } return nil } func (bm *BlockManager) ProcessTransaction(tx *Transaction, lockChan chan bool) { if tx.recipient == "\x00" { bm.vm.RunTransaction(tx, func(opType OpType) bool { // TODO calculate fees return true // Continue }) } // Broadcast we're done lockChan <- true }