ledgerbackend

package
v1.11.1 Latest Latest
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 Go to latest Published: Jun 10, 2024 License: Apache-2.0, Apache-2.0 Imports: 42 Imported by: 0

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Index

Constants

View Source 
const MinimalBucketListDBCoreSupportVersionMajor = 19
View Source 
const MinimalBucketListDBCoreSupportVersionMinor = 6
View Source 
const MinimalSorobanProtocolSupport = 20

Variables

View Source 
var (
	//go:embed configs/captive-core-pubnet.cfg
	PubnetDefaultConfig []byte

	//go:embed configs/captive-core-testnet.cfg
	TestnetDefaultConfig []byte
)
View Source 
var ErrCannotStartFromGenesis = errors.New("CaptiveCore is unable to start from ledger 1, start from ledger 2")

ErrCannotStartFromGenesis is returned when attempting to prepare a range from ledger 1

Functions

This section is empty.

Types

type AuroraDBLedgerHashStore 

type AuroraDBLedgerHashStore struct {
	// contains filtered or unexported fields
}

AuroraDBLedgerHashStore is a TrustedLedgerHashStore which uses aurora's db to look up ledger hashes

func (AuroraDBLedgerHashStore) Close 

func (h AuroraDBLedgerHashStore) Close() error

func (AuroraDBLedgerHashStore) GetLedgerHash 

func (h AuroraDBLedgerHashStore) GetLedgerHash(ctx context.Context, seq uint32) (string, bool, error)

GetLedgerHash returns the ledger hash for the given sequence number

type BufferedStorageBackend 

type BufferedStorageBackend struct {
	// contains filtered or unexported fields
}

BufferedStorageBackend is a ledger backend that reads from a storage service. The storage service contains files generated from the ledgerExporter.

func NewBufferedStorageBackend 

func NewBufferedStorageBackend(ctx context.Context, config BufferedStorageBackendConfig) (*BufferedStorageBackend, error)

NewBufferedStorageBackend returns a new BufferedStorageBackend instance.

func (*BufferedStorageBackend) Close 

func (bsb *BufferedStorageBackend) Close() error

Close closes existing BufferedStorageBackend processes. Note, once a BufferedStorageBackend instance is closed it can no longer be used and all subsequent calls to PrepareRange(), GetLedger(), etc will fail. Close is thread-safe and can be called from another go routine.

func (*BufferedStorageBackend) GetLatestLedgerSequence 

func (bsb *BufferedStorageBackend) GetLatestLedgerSequence(ctx context.Context) (uint32, error)

GetLatestLedgerSequence returns the most recent ledger sequence number available in the buffer.

func (*BufferedStorageBackend) GetLedger 

func (bsb *BufferedStorageBackend) GetLedger(ctx context.Context, sequence uint32) (xdr.LedgerCloseMeta, error)

GetLedger returns the LedgerCloseMeta for the specified ledger sequence number

func (*BufferedStorageBackend) IsPrepared 

func (bsb *BufferedStorageBackend) IsPrepared(ctx context.Context, ledgerRange Range) (bool, error)

IsPrepared returns true if a given ledgerRange is prepared.

func (*BufferedStorageBackend) PrepareRange 

func (bsb *BufferedStorageBackend) PrepareRange(ctx context.Context, ledgerRange Range) error

PrepareRange checks if the starting and ending (if bounded) ledgers exist.

type BufferedStorageBackendConfig 

type BufferedStorageBackendConfig struct {
	LedgerBatchConfig datastore.LedgerBatchConfig
	CompressionType   string
	DataStore         datastore.DataStore
	BufferSize        uint32
	NumWorkers        uint32
	RetryLimit        uint32
	RetryWait         time.Duration
}

type CaptiveCoreConfig 

type CaptiveCoreConfig struct {
	// BinaryPath is the file path to the Hcnet Core binary
	BinaryPath string
	// NetworkPassphrase is the Hcnet network passphrase used by captive core when connecting to the Hcnet network
	NetworkPassphrase string
	// HistoryArchiveURLs are a list of history archive urls
	HistoryArchiveURLs []string
	// UserAgent is the value of `User-Agent` header that will be send along http archive requests.
	UserAgent string
	Toml      *CaptiveCoreToml

	// CheckpointFrequency is the number of ledgers between checkpoints
	// if unset, DefaultCheckpointFrequency will be used
	CheckpointFrequency uint32
	// LedgerHashStore is an optional store used to obtain hashes for ledger sequences from a trusted source
	LedgerHashStore TrustedLedgerHashStore
	// Log is an (optional) custom logger which will capture any output from the Hcnet Core process.
	// If Log is omitted then all output will be printed to stdout.
	Log *log.Entry
	// Context is the (optional) context which controls the lifetime of a CaptiveHcnetCore instance. Once the context is done
	// the CaptiveHcnetCore instance will not be able to stream ledgers from Hcnet Core or spawn new
	// instances of Hcnet Core. If Context is omitted CaptiveHcnetCore will default to using context.Background.
	Context context.Context
	// StoragePath is the (optional) base path passed along to Core's
	// BUCKET_DIR_PATH which specifies where various bucket data should be
	// stored. We always append /captive-core to this directory, since we clean
	// it up entirely on shutdown.
	StoragePath string

	// UseDB, when true, instructs the core invocation to use an external db url
	// for ledger states rather than in memory(RAM). The external db url is determined by the presence
	// of DATABASE parameter in the captive-core-config-path or if absent, the db will default to sqlite
	// and the db file will be stored at location derived from StoragePath parameter.
	UseDB bool
}

CaptiveCoreConfig contains all the parameters required to create a CaptiveHcnetCore instance

type CaptiveCoreToml 

type CaptiveCoreToml struct {
	// contains filtered or unexported fields
}

CaptiveCoreToml represents a parsed captive core configuration.

func NewCaptiveCoreToml 

func NewCaptiveCoreToml(params CaptiveCoreTomlParams) (*CaptiveCoreToml, error)

NewCaptiveCoreToml constructs a new CaptiveCoreToml instance based off the configuration in `params`.

func NewCaptiveCoreTomlFromData 

func NewCaptiveCoreTomlFromData(data []byte, params CaptiveCoreTomlParams) (*CaptiveCoreToml, error)

NewCaptiveCoreTomlFromData constructs a new CaptiveCoreToml instance by merging configuration from the toml data and the configuration provided by `params`.

func NewCaptiveCoreTomlFromFile 

func NewCaptiveCoreTomlFromFile(configPath string, params CaptiveCoreTomlParams) (*CaptiveCoreToml, error)

NewCaptiveCoreTomlFromFile constructs a new CaptiveCoreToml instance by merging configuration from the toml file located at `configPath` and the configuration provided by `params`.

func (*CaptiveCoreToml) AddExamplePubnetValidators 

func (c *CaptiveCoreToml) AddExamplePubnetValidators()

AddExamplePubnetQuorum adds example pubnet validators to toml file

func (*CaptiveCoreToml) CatchupToml 

func (c *CaptiveCoreToml) CatchupToml() (*CaptiveCoreToml, error)

CatchupToml returns a new CaptiveCoreToml instance based off the existing instance with some modifications which are suitable for running the catchup command on captive core.

func (*CaptiveCoreToml) HistoryIsConfigured 

func (c *CaptiveCoreToml) HistoryIsConfigured() bool

HistoryIsConfigured returns true if the history archive locations are configured.

func (*CaptiveCoreToml) Marshal 

func (c *CaptiveCoreToml) Marshal() ([]byte, error)

Marshal serializes the CaptiveCoreToml into a toml document.

func (*CaptiveCoreToml) QuorumSetIsConfigured 

func (c *CaptiveCoreToml) QuorumSetIsConfigured() bool

QuorumSetIsConfigured returns true if there is a quorum set defined in the configuration.

type CaptiveCoreTomlParams 

type CaptiveCoreTomlParams struct {
	// NetworkPassphrase is the Hcnet network passphrase used by captive core when connecting to the Hcnet network.
	NetworkPassphrase string
	// HistoryArchiveURLs are a list of history archive urls.
	HistoryArchiveURLs []string
	// HTTPPort is the TCP port to listen for requests (defaults to 0, which disables the HTTP server).
	HTTPPort *uint
	// PeerPort is the TCP port to bind to for connecting to the Hcnet network
	// (defaults to 11625). It may be useful for example when there's >1 Hcnet-Core
	// instance running on a machine.
	PeerPort *uint
	// LogPath is the (optional) path in which to store Core logs, passed along
	// to Hcnet Core's LOG_FILE_PATH.
	LogPath *string
	// Strict is a flag which, if enabled, rejects Hcnet Core toml fields which are not supported by captive core.
	Strict bool
	// If true, specifies that captive core should be invoked with on-disk rather than in-memory option for ledger state
	UseDB bool
	// the path to the core binary, used to introspect core at runtime, determine some toml capabilities
	CoreBinaryPath string
	// Enforce EnableSorobanDiagnosticEvents when not disabled explicitly
	EnforceSorobanDiagnosticEvents bool
}

CaptiveCoreTomlParams defines captive core configuration provided by Aurora flags.

type CaptiveHcnetCore 

type CaptiveHcnetCore struct {
	// contains filtered or unexported fields
}

CaptiveHcnetCore is a ledger backend that starts internal Hcnet-Core subprocess responsible for streaming ledger data. It provides better decoupling than DatabaseBackend but requires some extra init time.

It operates in two modes:

  • When a BoundedRange is prepared it starts Hcnet-Core in catchup mode that replays ledgers in memory. This is very fast but requires Hcnet-Core to keep ledger state in RAM. It requires around 3GB of RAM as of August 2020.
  • When a UnboundedRange is prepared it runs Hcnet-Core catchup mode to sync with the first ledger and then runs it in a normal mode. This requires the configAppendPath to be provided because a quorum set needs to be selected.

When running CaptiveHcnetCore will create a temporary folder to store bucket files and other temporary files. The folder is removed when Close is called.

The communication is performed via filesystem pipe which is created in a temporary folder.

Currently BoundedRange requires a full-trust on history archive. This issue is being fixed in Hcnet-Core.

While using BoundedRanges is straightforward there are a few gotchas connected to UnboundedRanges:

  • PrepareRange takes more time because all ledger entries must be stored on disk instead of RAM.
  • If GetLedger is not called frequently (every 5 sec. on average) the Hcnet-Core process can go out of sync with the network. This happens because there is no buffering of communication pipe and CaptiveHcnetCore has a very small internal buffer and Hcnet-Core will not close the new ledger if it's not read.

Except for the Close function, CaptiveHcnetCore is not thread-safe and should not be accessed by multiple go routines. Close is thread-safe and can be called from another go routine. Once Close is called it will interrupt and cancel any pending operations.

Requires Hcnet-Core v13.2.0+.

func NewCaptive 

func NewCaptive(config CaptiveCoreConfig) (*CaptiveHcnetCore, error)

NewCaptive returns a new CaptiveHcnetCore instance.

func (*CaptiveHcnetCore) Close 

func (c *CaptiveHcnetCore) Close() error

Close closes existing Hcnet-Core process, streaming sessions and removes all temporary files. Note, once a CaptiveHcnetCore instance is closed it can no longer be used and all subsequent calls to PrepareRange(), GetLedger(), etc will fail. Close is thread-safe and can be called from another go routine.

func (*CaptiveHcnetCore) GetLatestLedgerSequence 

func (c *CaptiveHcnetCore) GetLatestLedgerSequence(ctx context.Context) (uint32, error)

GetLatestLedgerSequence returns the sequence of the latest ledger available in the backend. This method returns an error if not in a session (start with PrepareRange).

Note that for UnboundedRange the returned sequence number is not necessarily the latest sequence closed by the network. It's always the last value available in the backend.

func (*CaptiveHcnetCore) GetLedger 

func (c *CaptiveHcnetCore) GetLedger(ctx context.Context, sequence uint32) (xdr.LedgerCloseMeta, error)

GetLedger will block until the ledger is available in the backend (even for UnboundedRange), then return it's LedgerCloseMeta.

Call PrepareRange first to instruct the backend which ledgers to fetch. CaptiveHcnetCore requires PrepareRange call first to initialize Hcnet-Core. Requesting a ledger on non-prepared backend will return an error.

Please note that requesting a ledger sequence far after current ledger will block the execution for a long time.

Because ledger data is streamed from Hcnet-Core sequentially, users should request sequences in a non-decreasing order. If the requested sequence number is less than the last requested sequence number, an error will be returned.

This function behaves differently for bounded and unbounded ranges:

  • BoundedRange: After getting the last ledger in a range this method will also Close() the backend.

func (*CaptiveHcnetCore) IsPrepared 

func (c *CaptiveHcnetCore) IsPrepared(ctx context.Context, ledgerRange Range) (bool, error)

IsPrepared returns true if a given ledgerRange is prepared.

func (*CaptiveHcnetCore) PrepareRange 

func (c *CaptiveHcnetCore) PrepareRange(ctx context.Context, ledgerRange Range) error

PrepareRange prepares the given range (including from and to) to be loaded. Captive hcnet-core backend needs to initialize Hcnet-Core state to be able to stream ledgers. Hcnet-Core mode depends on the provided ledgerRange:

  • For BoundedRange it will start Hcnet-Core in catchup mode.
  • For UnboundedRange it will first catchup to starting ledger and then run it normally (including connecting to the Hcnet network).

Please note that using a BoundedRange, currently, requires a full-trust on history archive. This issue is being fixed in Hcnet-Core.

type History 

type History struct {
	Get string `toml:"get"`
	// should we allow put and mkdir for captive core?
	Put   string `toml:"put,omitempty"`
	Mkdir string `toml:"mkdir,omitempty"`
}

History represents a [HISTORY] table in the captive core toml file.

type HistoryArchiveBackend 

type HistoryArchiveBackend struct {
	// contains filtered or unexported fields
}

func NewHistoryArchiveBackend 

func NewHistoryArchiveBackend(metaArchive metaarchive.MetaArchive) *HistoryArchiveBackend

func (*HistoryArchiveBackend) Close 

func (b *HistoryArchiveBackend) Close() error

func (*HistoryArchiveBackend) GetLatestLedgerSequence 

func (b *HistoryArchiveBackend) GetLatestLedgerSequence(ctx context.Context) (uint32, error)

func (*HistoryArchiveBackend) GetLedger 

func (b *HistoryArchiveBackend) GetLedger(ctx context.Context, sequence uint32) (xdr.LedgerCloseMeta, error)

func (*HistoryArchiveBackend) IsPrepared 

func (b *HistoryArchiveBackend) IsPrepared(ctx context.Context, ledgerRange Range) (bool, error)

func (*HistoryArchiveBackend) PrepareRange 

func (b *HistoryArchiveBackend) PrepareRange(ctx context.Context, ledgerRange Range) error

type HomeDomain 

type HomeDomain struct {
	HomeDomain string `toml:"HOME_DOMAIN"`
	Quality    string `toml:"QUALITY"`
}

HomeDomain represents a [[HOME_DOMAINS]] entry in the captive core toml file.

type LedgerBackend 

type LedgerBackend interface {
	// GetLatestLedgerSequence returns the sequence of the latest ledger available
	// in the backend.
	GetLatestLedgerSequence(ctx context.Context) (sequence uint32, err error)
	// GetLedger will block until the ledger is available.
	GetLedger(ctx context.Context, sequence uint32) (xdr.LedgerCloseMeta, error)
	// PrepareRange prepares the given range (including from and to) to be loaded.
	// Some backends (like captive hcnet-core) need to initalize data to be
	// able to stream ledgers. Blocks until the first ledger is available.
	PrepareRange(ctx context.Context, ledgerRange Range) error
	// IsPrepared returns true if a given ledgerRange is prepared.
	IsPrepared(ctx context.Context, ledgerRange Range) (bool, error)
	Close() error
}

LedgerBackend represents the interface to a ledger data store.

func WithMetrics 

func WithMetrics(base LedgerBackend, registry *prometheus.Registry, namespace string) LedgerBackend

WithMetrics decorates the given LedgerBackend with metrics

type MockDatabaseBackend 

type MockDatabaseBackend struct {
	mock.Mock
}

func (*MockDatabaseBackend) Close 

func (m *MockDatabaseBackend) Close() error

func (*MockDatabaseBackend) GetLatestLedgerSequence 

func (m *MockDatabaseBackend) GetLatestLedgerSequence(ctx context.Context) (uint32, error)

func (*MockDatabaseBackend) GetLedger 

func (m *MockDatabaseBackend) GetLedger(ctx context.Context, sequence uint32) (xdr.LedgerCloseMeta, error)

func (*MockDatabaseBackend) IsPrepared 

func (m *MockDatabaseBackend) IsPrepared(ctx context.Context, ledgerRange Range) (bool, error)

func (*MockDatabaseBackend) PrepareRange 

func (m *MockDatabaseBackend) PrepareRange(ctx context.Context, ledgerRange Range) error

type MockLedgerHashStore 

type MockLedgerHashStore struct {
	mock.Mock
}

MockLedgerHashStore is a mock implementation of TrustedLedgerHashStore

func (*MockLedgerHashStore) Close 

func (m *MockLedgerHashStore) Close() error

func (*MockLedgerHashStore) GetLedgerHash 

func (m *MockLedgerHashStore) GetLedgerHash(ctx context.Context, seq uint32) (string, bool, error)

GetLedgerHash returns the ledger hash for the given sequence number

type QuorumSet 

type QuorumSet struct {
	ThresholdPercent int      `toml:"THRESHOLD_PERCENT"`
	Validators       []string `toml:"VALIDATORS"`
}

QuorumSet represents a [QUORUM_SET] table in the captive core toml file.

type Range 

type Range struct {
	// contains filtered or unexported fields
}

Range represents a range of ledger sequence numbers.

func BoundedRange 

func BoundedRange(from uint32, to uint32) Range

BoundedRange constructs a bounded range of ledgers with a fixed starting ledger and ending ledger.

func SingleLedgerRange 

func SingleLedgerRange(ledger uint32) Range

SingleLedgerRange constructs a bounded range containing a single ledger.

func UnboundedRange 

func UnboundedRange(from uint32) Range

BoundedRange constructs a unbounded range of ledgers with a fixed starting ledger.

func (Range) Contains 

func (r Range) Contains(other Range) bool

func (Range) MarshalJSON 

func (r Range) MarshalJSON() ([]byte, error)

func (Range) String 

func (r Range) String() string

func (*Range) UnmarshalJSON 

func (r *Range) UnmarshalJSON(b []byte) error

type TrustedLedgerHashStore 

type TrustedLedgerHashStore interface {
	// GetLedgerHash returns the ledger hash for the given sequence number
	GetLedgerHash(ctx context.Context, seq uint32) (string, bool, error)
	Close() error
}

TrustedLedgerHashStore is used to query ledger data from a trusted source. The store should contain ledgers verified by Hcnet-Core, do not use untrusted source like history archives.

func NewAuroraDBLedgerHashStore 

func NewAuroraDBLedgerHashStore(session db.SessionInterface) TrustedLedgerHashStore

NewAuroraDBLedgerHashStore constructs a new TrustedLedgerHashStore backed by the aurora db

type Validator 

type Validator struct {
	Name       string `toml:"NAME"`
	Quality    string `toml:"QUALITY,omitempty"`
	HomeDomain string `toml:"HOME_DOMAIN"`
	PublicKey  string `toml:"PUBLIC_KEY"`
	Address    string `toml:"ADDRESS,omitempty"`
	History    string `toml:"HISTORY,omitempty"`
}

Validator represents a [[VALIDATORS]] entry in the captive core toml file.

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