Documentation ¶
Index ¶
- Variables
- func NewSeededRand(seed int64) *rand.Rand
- func RandLocalTCPAddress() ma.Multiaddr
- func RandPeerID() (peer.ID, error)
- func RandPeerIDFatal(t testing.TB) peer.ID
- func RandTestKeyPair(bits int) (ci.PrivKey, ci.PubKey, error)
- func SeededTestKeyPair(seed int64) (ci.PrivKey, ci.PubKey, error)
- type Identity
- type LatencyConfig
- func (c LatencyConfig) AllInstantaneous() LatencyConfig
- func (c LatencyConfig) Blockstore7200RPM() LatencyConfig
- func (c LatencyConfig) BlockstoreFastSSD2014() LatencyConfig
- func (c LatencyConfig) BlockstoreSlowSSD2014() LatencyConfig
- func (c LatencyConfig) NetworkIntraDatacenter2014() LatencyConfig
- func (c LatencyConfig) NetworkNYtoSF() LatencyConfig
- func (c LatencyConfig) RoutingSlow() LatencyConfig
- type LockedRandSource
- type PeerNetParams
Constants ¶
This section is empty.
Variables ¶
var SeededRand *rand.Rand
var ZeroLocalTCPAddress ma.Multiaddr
ZeroLocalTCPAddress is the "zero" tcp local multiaddr. This means:
/ip4/127.0.0.1/tcp/0
Functions ¶
func NewSeededRand ¶
func RandLocalTCPAddress ¶
RandLocalTCPAddress returns a random multiaddr. it suppresses errors for nice composability-- do check the address isn't nil.
Note: for real network tests, use ZeroLocalTCPAddress so the kernel assigns an unused TCP port. otherwise you may get clashes. This function remains here so that p2p/net/mock (which does not touch the real network) can assign different addresses to peers.
func RandPeerID ¶
RandPeerID generates random "valid" peer IDs. it does not NEED to generate keys because it is as if we lost the key right away. fine to read randomness and hash it. to generate proper keys and corresponding PeerID, use:
sk, pk, _ := testutil.RandKeyPair() id, _ := peer.IDFromPublicKey(pk)
Types ¶
type Identity ¶
type Identity interface { Address() ma.Multiaddr ID() peer.ID PrivateKey() ci.PrivKey PublicKey() ci.PubKey }
func RandIdentity ¶
func RandIdentityOrFatal ¶
type LatencyConfig ¶
type LatencyConfig struct { BlockstoreLatency time.Duration NetworkLatency time.Duration RoutingLatency time.Duration }
func (LatencyConfig) AllInstantaneous ¶
func (c LatencyConfig) AllInstantaneous() LatencyConfig
func (LatencyConfig) Blockstore7200RPM ¶
func (c LatencyConfig) Blockstore7200RPM() LatencyConfig
func (LatencyConfig) BlockstoreFastSSD2014 ¶
func (c LatencyConfig) BlockstoreFastSSD2014() LatencyConfig
func (LatencyConfig) BlockstoreSlowSSD2014 ¶
func (c LatencyConfig) BlockstoreSlowSSD2014() LatencyConfig
func (LatencyConfig) NetworkIntraDatacenter2014 ¶
func (c LatencyConfig) NetworkIntraDatacenter2014() LatencyConfig
func (LatencyConfig) NetworkNYtoSF ¶
func (c LatencyConfig) NetworkNYtoSF() LatencyConfig
func (LatencyConfig) RoutingSlow ¶
func (c LatencyConfig) RoutingSlow() LatencyConfig
type LockedRandSource ¶
type LockedRandSource struct {
// contains filtered or unexported fields
}
func (*LockedRandSource) Int63 ¶
func (r *LockedRandSource) Int63() (n int64)
func (*LockedRandSource) Seed ¶
func (r *LockedRandSource) Seed(seed int64)
type PeerNetParams ¶
PeerNetParams is a struct to bundle together the four things you need to run a connection with a peer: id, 2keys, and addr.
func RandPeerNetParams ¶
func RandPeerNetParams() (*PeerNetParams, error)
func RandPeerNetParamsOrFatal ¶
func RandPeerNetParamsOrFatal(t *testing.T) PeerNetParams
Directories ¶
Path | Synopsis |
---|---|
Package ci implements some helper functions to use during tests.
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Package ci implements some helper functions to use during tests. |
jenkins
Package jenkins implements some helper functions to use during tests.
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Package jenkins implements some helper functions to use during tests. |
travis
Package travis implements some helper functions to use during tests.
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Package travis implements some helper functions to use during tests. |