zolfa
/
tendermint


								// Package psql implements an event sink backed by a PostgreSQL database.

								package psql


								import (

									"context"

									"database/sql"

									"errors"

									"fmt"

									"strings"

									"time"


									"github.com/gogo/protobuf/proto"


									abci "github.com/tendermint/tendermint/abci/types"

									"github.com/tendermint/tendermint/internal/pubsub/query"

									"github.com/tendermint/tendermint/internal/state/indexer"

									"github.com/tendermint/tendermint/types"

								)


								const (

									tableBlocks     = "blocks"

									tableTxResults  = "tx_results"

									tableEvents     = "events"

									tableAttributes = "attributes"

									driverName      = "postgres"

								)


								// EventSink is an indexer backend providing the tx/block index services.  This

								// implementation stores records in a PostgreSQL database using the schema

								// defined in state/indexer/sink/psql/schema.sql.

								type EventSink struct {

									store   *sql.DB

									chainID string

								}


								// NewEventSink constructs an event sink associated with the PostgreSQL

								// database specified by connStr. Events written to the sink are attributed to

								// the specified chainID.

								func NewEventSink(connStr, chainID string) (*EventSink, error) {

									db, err := sql.Open(driverName, connStr)

									if err != nil {

										return nil, err

									} else if err := db.Ping(); err != nil {

										return nil, err

									}


									return &EventSink{

										store:   db,

										chainID: chainID,

									}, nil

								}


								// DB returns the underlying Postgres connection used by the sink.

								// This is exported to support testing.

								func (es *EventSink) DB() *sql.DB { return es.store }


								// Type returns the structure type for this sink, which is Postgres.

								func (es *EventSink) Type() indexer.EventSinkType { return indexer.PSQL }


								// runInTransaction executes query in a fresh database transaction.

								// If query reports an error, the transaction is rolled back and the

								// error from query is reported to the caller.

								// Otherwise, the result of committing the transaction is returned.

								func runInTransaction(db *sql.DB, query func(*sql.Tx) error) error {

									dbtx, err := db.Begin()

									if err != nil {

										return err

									}

									if err := query(dbtx); err != nil {

										_ = dbtx.Rollback() // report the initial error, not the rollback

										return err

									}

									return dbtx.Commit()

								}


								// queryWithID executes the specified SQL query with the given arguments,

								// expecting a single-row, single-column result containing an ID. If the query

								// succeeds, the ID from the result is returned.

								func queryWithID(tx *sql.Tx, query string, args ...interface{}) (uint32, error) {

									var id uint32

									if err := tx.QueryRow(query, args...).Scan(&id); err != nil {

										return 0, err

									}

									return id, nil

								}


								// insertEvents inserts a slice of events and any indexed attributes of those

								// events into the database associated with dbtx.

								//

								// If txID > 0, the event is attributed to the Tendermint transaction with that

								// ID; otherwise it is recorded as a block event.

								func insertEvents(dbtx *sql.Tx, blockID, txID uint32, evts []abci.Event) error {

									// Populate the transaction ID field iff one is defined (> 0).

									var txIDArg interface{}

									if txID > 0 {

										txIDArg = txID

									}


									// Add each event to the events table, and retrieve its row ID to use when

									// adding any attributes the event provides.

									for _, evt := range evts {

										// Skip events with an empty type.

										if evt.Type == "" {

											continue

										}


										eid, err := queryWithID(dbtx, `

								INSERT INTO `+tableEvents+` (block_id, tx_id, type) VALUES ($1, $2, $3)

								  RETURNING rowid;

								`, blockID, txIDArg, evt.Type)

										if err != nil {

											return err

										}


										// Add any attributes flagged for indexing.

										for _, attr := range evt.Attributes {

											if !attr.Index {

												continue

											}

											compositeKey := evt.Type + "." + attr.Key

											if _, err := dbtx.Exec(`

								INSERT INTO `+tableAttributes+` (event_id, key, composite_key, value)

								  VALUES ($1, $2, $3, $4);

								`, eid, attr.Key, compositeKey, attr.Value); err != nil {

												return err

											}

										}

									}

									return nil

								}


								// makeIndexedEvent constructs an event from the specified composite key and

								// value. If the key has the form "type.name", the event will have a single

								// attribute with that name and the value; otherwise the event will have only

								// a type and no attributes.

								func makeIndexedEvent(compositeKey, value string) abci.Event {

									i := strings.Index(compositeKey, ".")

									if i < 0 {

										return abci.Event{Type: compositeKey}

									}

									return abci.Event{Type: compositeKey[:i], Attributes: []abci.EventAttribute{

										{Key: compositeKey[i+1:], Value: value, Index: true},

									}}

								}


								// IndexBlockEvents indexes the specified block header, part of the

								// indexer.EventSink interface.

								func (es *EventSink) IndexBlockEvents(h types.EventDataNewBlockHeader) error {

									ts := time.Now().UTC()


									return runInTransaction(es.store, func(dbtx *sql.Tx) error {

										// Add the block to the blocks table and report back its row ID for use

										// in indexing the events for the block.

										blockID, err := queryWithID(dbtx, `

								INSERT INTO `+tableBlocks+` (height, chain_id, created_at)

								  VALUES ($1, $2, $3)

								  ON CONFLICT DO NOTHING

								  RETURNING rowid;

								`, h.Header.Height, es.chainID, ts)

										if err == sql.ErrNoRows {

											return nil // we already saw this block; quietly succeed

										} else if err != nil {

											return fmt.Errorf("indexing block header: %w", err)

										}


										// Insert the special block meta-event for height.

										if err := insertEvents(dbtx, blockID, 0, []abci.Event{

											makeIndexedEvent(types.BlockHeightKey, fmt.Sprint(h.Header.Height)),

										}); err != nil {

											return fmt.Errorf("block meta-events: %w", err)

										}

										// Insert all the block events. Order is important here,

										if err := insertEvents(dbtx, blockID, 0, h.ResultFinalizeBlock.Events); err != nil {

											return fmt.Errorf("finalize-block events: %w", err)

										}

										return nil

									})

								}


								func (es *EventSink) IndexTxEvents(txrs []*abci.TxResult) error {

									ts := time.Now().UTC()


									for _, txr := range txrs {

										// Encode the result message in protobuf wire format for indexing.

										resultData, err := proto.Marshal(txr)

										if err != nil {

											return fmt.Errorf("marshaling tx_result: %w", err)

										}


										// Index the hash of the underlying transaction as a hex string.

										txHash := fmt.Sprintf("%X", types.Tx(txr.Tx).Hash())


										if err := runInTransaction(es.store, func(dbtx *sql.Tx) error {

											// Find the block associated with this transaction. The block header

											// must have been indexed prior to the transactions belonging to it.

											blockID, err := queryWithID(dbtx, `

								SELECT rowid FROM `+tableBlocks+` WHERE height = $1 AND chain_id = $2;

								`, txr.Height, es.chainID)

											if err != nil {

												return fmt.Errorf("finding block ID: %w", err)

											}


											// Insert a record for this tx_result and capture its ID for indexing events.

											txID, err := queryWithID(dbtx, `

								INSERT INTO `+tableTxResults+` (block_id, index, created_at, tx_hash, tx_result)

								  VALUES ($1, $2, $3, $4, $5)

								  ON CONFLICT DO NOTHING

								  RETURNING rowid;

								`, blockID, txr.Index, ts, txHash, resultData)

											if err == sql.ErrNoRows {

												return nil // we already saw this transaction; quietly succeed

											} else if err != nil {

												return fmt.Errorf("indexing tx_result: %w", err)

											}


											// Insert the special transaction meta-events for hash and height.

											if err := insertEvents(dbtx, blockID, txID, []abci.Event{

												makeIndexedEvent(types.TxHashKey, txHash),

												makeIndexedEvent(types.TxHeightKey, fmt.Sprint(txr.Height)),

											}); err != nil {

												return fmt.Errorf("indexing transaction meta-events: %w", err)

											}

											// Index any events packaged with the transaction.

											if err := insertEvents(dbtx, blockID, txID, txr.Result.Events); err != nil {

												return fmt.Errorf("indexing transaction events: %w", err)

											}

											return nil


										}); err != nil {

											return err

										}

									}

									return nil

								}


								// SearchBlockEvents is not implemented by this sink, and reports an error for all queries.

								func (es *EventSink) SearchBlockEvents(ctx context.Context, q *query.Query) ([]int64, error) {

									return nil, errors.New("block search is not supported via the postgres event sink")

								}


								// SearchTxEvents is not implemented by this sink, and reports an error for all queries.

								func (es *EventSink) SearchTxEvents(ctx context.Context, q *query.Query) ([]*abci.TxResult, error) {

									return nil, errors.New("tx search is not supported via the postgres event sink")

								}


								// GetTxByHash is not implemented by this sink, and reports an error for all queries.

								func (es *EventSink) GetTxByHash(hash []byte) (*abci.TxResult, error) {

									return nil, errors.New("getTxByHash is not supported via the postgres event sink")

								}


								// HasBlock is not implemented by this sink, and reports an error for all queries.

								func (es *EventSink) HasBlock(h int64) (bool, error) {

									return false, errors.New("hasBlock is not supported via the postgres event sink")

								}


								// Stop closes the underlying PostgreSQL database.

								func (es *EventSink) Stop() error { return es.store.Close() }