Filecoin是由区块链以及上层协议构成的存储系统，主要基础概念Actor，Message，Block，TipSet，Ticket，GAS。Filecoin的状态由多个Actor的状态组成。区块链的区块数据以及Actor的状态数据通过IPFS/IPLD进行存储。代码还在迭代中，有很多TODO未实现。

Actor可以类比以太坊网络中的账户（一般账户或者智能合约账户）。每个Actor有自己的地址，余额，也可以维护自己的状态，同时Actor提供一些函数调用（也正是这些函数调用触发Actor的状态变化）。Actor不是在VM上运行的字节码，而是用go实现。每个actor实例都存在于状态树中的一个地址中。地址是actor的公钥的哈希值。

type Actor struct {#
   // Code is a CID of the VM code for this actor's implementation (or a constant for actors implemented in Go code).
   // Code may be nil for an uninitialized actor (which exists because it has received a balance).
   Code cid.Cid `refmt:",omitempty"`
   // Head is the CID of the root of the actor's state tree.
   Head cid.Cid `refmt:",omitempty"`
   // Nonce is the nonce expected on the next message from this actor.
   // Messages are processed in strict, contiguous nonce order.
   Nonce types.Uint64
   // Balance is the amount of FIL in the actor's account.
   Balance *types.AttoFIL
}

创建新的Actor

// NewActor constructs a new actor.
func NewActor(code cid.Cid, balance *types.AttoFIL) *Actor {
   return &Actor{
      Code:    code,
      Head:    cid.Undef,
      Nonce:   0,
      Balance: balance,
   }
}

初始化

func init() {
   AccountActorCodeObj = dag.NewRawNode([]byte("accountactor"))
   AccountActorCodeCid = AccountActorCodeObj.Cid()
   StorageMarketActorCodeObj = dag.NewRawNode([]byte("storagemarket"))
   StorageMarketActorCodeCid = StorageMarketActorCodeObj.Cid()
   PaymentBrokerActorCodeObj = dag.NewRawNode([]byte("paymentbroker"))
   PaymentBrokerActorCodeCid = PaymentBrokerActorCodeObj.Cid()
   MinerActorCodeObj = dag.NewRawNode([]byte("mineractor"))
   MinerActorCodeCid = MinerActorCodeObj.Cid()
   BootstrapMinerActorCodeObj = dag.NewRawNode([]byte("bootstrapmineractor"))
   BootstrapMinerActorCodeCid = BootstrapMinerActorCodeObj.Cid()

   // New Actors need to be added here.
   // TODO: Make this work with reflection -- but note that nasty import cycles lie on that path.
   // This is good enough for now.
   ActorCodeCidTypeNames[AccountActorCodeCid] = "AccountActor"
   ActorCodeCidTypeNames[StorageMarketActorCodeCid] = "StorageMarketActor"
   ActorCodeCidTypeNames[PaymentBrokerActorCodeCid] = "PaymentBrokerActor"
   ActorCodeCidTypeNames[MinerActorCodeCid] = "MinerActor"
   ActorCodeCidTypeNames[BootstrapMinerActorCodeCid] = "MinerActor"
}

Message类似以太坊的交易，区块是由一个个的Message组成。一个Message由发起地址，目标地址，金额，调用的函数以及参数组成。所有Message的执行的结果就是状态机的全局状态。网络的全局状态就是映射表：Actor的地址和Actor的状态/信息。全局状态使用IPLD HAMT(Hash-Array Mapped Trie) 存储。

// Message is an exchange of information between two actors modeled
// as a function call.
// Messages are the equivalent of transactions in Ethereum.
type Message struct {
   To   address.Address `json:"to"`
   From address.Address `json:"from"`
   // When receiving a message from a user account the nonce in
   // the message must match the expected nonce in the from actor.
   // This prevents replay attacks.
   Nonce Uint64 `json:"nonce"`

   Value *AttoFIL `json:"value"`

   Method string `json:"method"`
   Params []byte `json:"params"`
   // Pay attention to Equals() if updating this struct.
}

区块（Block & TipSet）:
Block是一个区块，定义在types/block.go文件中：一个区块的信息主要包括：
打包者的地址信息
区块的高度/权重信息
区块中包括的交易信息/更新后新的Root信息
Ticket信息以及Ticket的PoSt的证明信息

// Block is a block in the blockchain.
type Block struct {
   // Miner is the address of the miner actor that mined this block.
   Miner address.Address `json:"miner"`

   // Ticket is the winning ticket that was submitted with this block.
   Ticket Signature `json:"ticket"`

   // Parents is the set of parents this block was based on. Typically one,
   // but can be several in the case where there were multiple winning ticket-
   // holders for an epoch.
   Parents SortedCidSet `json:"parents"`

   // ParentWeight is the aggregate chain weight of the parent set.
   ParentWeight Uint64 `json:"parentWeight"`

   // Height is the chain height of this block.
   Height Uint64 `json:"height"`

   // Nonce is a temporary field used to differentiate blocks for testing
   Nonce Uint64 `json:"nonce"`

   // Messages is the set of messages included in this block
   // TODO: should be a merkletree-ish thing
   Messages []*SignedMessage `json:"messages"`

   // StateRoot is a cid pointer to the state tree after application of the
   // transactions state transitions.
   StateRoot cid.Cid `json:"stateRoot,omitempty" refmt:",omitempty"`

   // MessageReceipts is a set of receipts matching to the sending of the `Messages`.
   MessageReceipts []*MessageReceipt `json:"messageReceipts"`

   // Proof is a proof of spacetime generated using the hash of the previous ticket as
   // a challenge
   Proof proofs.PoStProof `json:"proof"`

   cachedCid cid.Cid

   cachedBytes []byte
}

打包生成区块

// Generate returns a new block created from the messages in the pool.
func (w *DefaultWorker) Generate(ctx context.Context,
   baseTipSet types.TipSet,
   ticket types.Signature,
   proof proofs.PoStProof,
   nullBlockCount uint64) (*types.Block, error) {
       …………
   next := &types.Block{
      Miner:           w.minerAddr,
      Height:          types.Uint64(blockHeight),
      Messages:        res.SuccessfulMessages,
      MessageReceipts: receipts,
      Parents:         baseTipSet.ToSortedCidSet(),
      ParentWeight:    types.Uint64(weight),
      Proof:           proof,
      StateRoot:       newStateTreeCid,
      Ticket:          ticket,
   }

TipSet 一个Tip，就是一个block。一个TipSet，就是多个区块信息的集合，这些区块拥有同一个父TipSet。定义在types/tipset.go文件中：

// Tip is what expected consensus needs from a Block. For now it *is* a
// Block.
type Tip = Block
// TipSet is a set of Tips, blocks at the same height with the same parent set,
// keyed by Cid.
type TipSet map[cid.Cid]*Tip

矿工

// Miner represents a storage miner.
type Miner struct {
   minerAddr      address.Address
   minerOwnerAddr address.Address

   dealsAwaitingSealDs repo.Datastore

   postInProcessLk sync.Mutex
   postInProcess   *types.BlockHeight

   dealsAwaitingSeal *dealsAwaitingSealStruct

   porcelainAPI minerPorcelain
   node         node

   proposalAcceptor func(m *Miner, p *storagedeal.Proposal) (*storagedeal.Response, error)
   proposalRejector func(m *Miner, p *storagedeal.Proposal, reason string) (*storagedeal.Response, error)
}

创建矿工

// MinerCreate creates a miner
func (a *API) MinerCreate(
   ctx context.Context,
   accountAddr address.Address,
   gasPrice types.AttoFIL,
   gasLimit types.GasUnits,
   pledge uint64,
   pid peer.ID,
   collateral *types.AttoFIL,
) (_ *address.Address, err error) {
   return MinerCreate(ctx, a, accountAddr, gasPrice, gasLimit, pledge, pid, collateral)
}

FIL & AttoFIL:
FIL是Filecoin项目的代币。AttoFIL是FIL代币的最小单位，1 AttoFIL = 10^(-18) FIL。

// AttoFIL represents a signed multi-precision integer quantity of
// attofilecoin (atto is metric for 10**-18). The zero value for
// AttoFIL represents the value 0.
type AttoFIL struct{ val *big.Int }

Gas费用：
和以太坊网络类似，执行Actor的函数需要消耗Gas。Actor的函数调用有两种方式：1/用户发起签名后的Message（指定调用某个Actor的某个函数），并支付矿工Gas费用（类似以太坊的Gas费用）。2/ Actor之间调用。Actor之间调用也必须是用户发起。