// VulcanizeDB // Copyright © 2019 Vulcanize // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package repository import ( "errors" "fmt" "strings" "github.com/hashicorp/golang-lru" "github.com/vulcanize/vulcanizedb/pkg/contract_watcher/light/repository" "github.com/vulcanize/vulcanizedb/pkg/contract_watcher/shared/types" "github.com/vulcanize/vulcanizedb/pkg/datastore/postgres" ) const ( // Number of contract address and method ids to keep in cache contractCacheSize = 100 eventChacheSize = 1000 ) // Event repository is used to persist event data into custom tables type EventRepository interface { PersistLogs(logs []types.Log, eventInfo types.Event, contractAddr, contractName string) error CreateEventTable(contractAddr string, event types.Event) (bool, error) CreateContractSchema(contractName string) (bool, error) CheckSchemaCache(key string) (interface{}, bool) CheckTableCache(key string) (interface{}, bool) } type eventRepository struct { db *postgres.DB mode types.Mode schemas *lru.Cache // Cache names of recently used schemas to minimize db connections tables *lru.Cache // Cache names of recently used tables to minimize db connections } func NewEventRepository(db *postgres.DB, mode types.Mode) *eventRepository { ccs, _ := lru.New(contractCacheSize) ecs, _ := lru.New(eventChacheSize) return &eventRepository{ db: db, mode: mode, schemas: ccs, tables: ecs, } } // Creates a schema for the contract if needed // Creates table for the watched contract event if needed // Persists converted event log data into this custom table func (r *eventRepository) PersistLogs(logs []types.Log, eventInfo types.Event, contractAddr, contractName string) error { if len(logs) == 0 { return errors.New("event repository error: passed empty logs slice") } _, err := r.CreateContractSchema(contractAddr) if err != nil { return err } _, err = r.CreateEventTable(contractAddr, eventInfo) if err != nil { return err } return r.persistLogs(logs, eventInfo, contractAddr, contractName) } func (r *eventRepository) persistLogs(logs []types.Log, eventInfo types.Event, contractAddr, contractName string) error { var err error switch r.mode { case types.LightSync: err = r.persistLightSyncLogs(logs, eventInfo, contractAddr, contractName) case types.FullSync: err = r.persistFullSyncLogs(logs, eventInfo, contractAddr, contractName) default: return errors.New("event repository error: unhandled mode") } return err } // Creates a custom postgres command to persist logs for the given event (compatible with light synced vDB) func (r *eventRepository) persistLightSyncLogs(logs []types.Log, eventInfo types.Event, contractAddr, contractName string) error { tx, err := r.db.Begin() if err != nil { return err } for _, event := range logs { // Begin pg query string pgStr := fmt.Sprintf("INSERT INTO %s_%s.%s_event ", r.mode.String(), strings.ToLower(contractAddr), strings.ToLower(eventInfo.Name)) pgStr = pgStr + "(header_id, token_name, raw_log, log_idx, tx_idx" el := len(event.Values) // Preallocate slice of needed capacity and proceed to pack variables into it in same order they appear in string data := make([]interface{}, 0, 5+el) data = append(data, event.Id, contractName, event.Raw, event.LogIndex, event.TransactionIndex) // Iterate over inputs and append name to query string and value to input data for inputName, input := range event.Values { pgStr = pgStr + fmt.Sprintf(", %s_", strings.ToLower(inputName)) // Add underscore after to avoid any collisions with reserved pg words data = append(data, input) } // For each input entry we created we add its postgres command variable to the string pgStr = pgStr + ") VALUES ($1, $2, $3, $4, $5" for i := 0; i < el; i++ { pgStr = pgStr + fmt.Sprintf(", $%d", i+6) } pgStr = pgStr + ")" // Add this query to the transaction _, err = tx.Exec(pgStr, data...) if err != nil { tx.Rollback() return err } } // Mark header as checked for this eventId eventId := strings.ToLower(eventInfo.Name + "_" + contractAddr) err = repository.MarkHeaderCheckedInTransaction(logs[0].Id, tx, eventId) // This assumes all logs are from same block if err != nil { tx.Rollback() return err } return tx.Commit() } // Creates a custom postgres command to persist logs for the given event (compatible with fully synced vDB) func (r *eventRepository) persistFullSyncLogs(logs []types.Log, eventInfo types.Event, contractAddr, contractName string) error { tx, err := r.db.Begin() if err != nil { return err } for _, event := range logs { pgStr := fmt.Sprintf("INSERT INTO %s_%s.%s_event ", r.mode.String(), strings.ToLower(contractAddr), strings.ToLower(eventInfo.Name)) pgStr = pgStr + "(vulcanize_log_id, token_name, block, tx" el := len(event.Values) data := make([]interface{}, 0, 4+el) data = append(data, event.Id, contractName, event.Block, event.Tx) for inputName, input := range event.Values { pgStr = pgStr + fmt.Sprintf(", %s_", strings.ToLower(inputName)) data = append(data, input) } pgStr = pgStr + ") VALUES ($1, $2, $3, $4" for i := 0; i < el; i++ { pgStr = pgStr + fmt.Sprintf(", $%d", i+5) } pgStr = pgStr + ") ON CONFLICT (vulcanize_log_id) DO NOTHING" _, err = tx.Exec(pgStr, data...) if err != nil { tx.Rollback() return err } } return tx.Commit() } // Checks for event table and creates it if it does not already exist // Returns true if it created a new table; returns false if table already existed func (r *eventRepository) CreateEventTable(contractAddr string, event types.Event) (bool, error) { tableID := fmt.Sprintf("%s_%s.%s_event", r.mode.String(), strings.ToLower(contractAddr), strings.ToLower(event.Name)) // Check cache before querying pq to see if table exists _, ok := r.tables.Get(tableID) if ok { return false, nil } tableExists, err := r.checkForTable(contractAddr, event.Name) if err != nil { return false, err } if !tableExists { err = r.newEventTable(tableID, event) if err != nil { return false, err } } // Add table id to cache r.tables.Add(tableID, true) return !tableExists, nil } // Creates a table for the given contract and event func (r *eventRepository) newEventTable(tableID string, event types.Event) error { // Begin pg string var pgStr = fmt.Sprintf("CREATE TABLE IF NOT EXISTS %s ", tableID) var err error // Handle different modes switch r.mode { case types.FullSync: pgStr = pgStr + "(id SERIAL, vulcanize_log_id INTEGER NOT NULL UNIQUE, token_name CHARACTER VARYING(66) NOT NULL, block INTEGER NOT NULL, tx CHARACTER VARYING(66) NOT NULL," // Iterate over event fields, using their name and pgType to grow the string for _, field := range event.Fields { pgStr = pgStr + fmt.Sprintf(" %s_ %s NOT NULL,", strings.ToLower(field.Name), field.PgType) } pgStr = pgStr + " CONSTRAINT log_index_fk FOREIGN KEY (vulcanize_log_id) REFERENCES logs (id) ON DELETE CASCADE)" case types.LightSync: pgStr = pgStr + "(id SERIAL, header_id INTEGER NOT NULL REFERENCES headers (id) ON DELETE CASCADE, token_name CHARACTER VARYING(66) NOT NULL, raw_log JSONB, log_idx INTEGER NOT NULL, tx_idx INTEGER NOT NULL," for _, field := range event.Fields { pgStr = pgStr + fmt.Sprintf(" %s_ %s NOT NULL,", strings.ToLower(field.Name), field.PgType) } pgStr = pgStr + " UNIQUE (header_id, tx_idx, log_idx))" default: return errors.New("unhandled repository mode") } _, err = r.db.Exec(pgStr) return err } // Checks if a table already exists for the given contract and event func (r *eventRepository) checkForTable(contractAddr string, eventName string) (bool, error) { pgStr := fmt.Sprintf("SELECT EXISTS (SELECT 1 FROM information_schema.tables WHERE table_schema = '%s_%s' AND table_name = '%s_event')", r.mode.String(), strings.ToLower(contractAddr), strings.ToLower(eventName)) var exists bool err := r.db.Get(&exists, pgStr) return exists, err } // Checks for contract schema and creates it if it does not already exist // Returns true if it created a new schema; returns false if schema already existed func (r *eventRepository) CreateContractSchema(contractAddr string) (bool, error) { if contractAddr == "" { return false, errors.New("error: no contract address specified") } // Check cache before querying pq to see if schema exists _, ok := r.schemas.Get(contractAddr) if ok { return false, nil } schemaExists, err := r.checkForSchema(contractAddr) if err != nil { return false, err } if !schemaExists { err = r.newContractSchema(contractAddr) if err != nil { return false, err } } // Add schema name to cache r.schemas.Add(contractAddr, true) return !schemaExists, nil } // Creates a schema for the given contract func (r *eventRepository) newContractSchema(contractAddr string) error { _, err := r.db.Exec("CREATE SCHEMA IF NOT EXISTS " + r.mode.String() + "_" + strings.ToLower(contractAddr)) return err } // Checks if a schema already exists for the given contract func (r *eventRepository) checkForSchema(contractAddr string) (bool, error) { pgStr := fmt.Sprintf("SELECT EXISTS (SELECT schema_name FROM information_schema.schemata WHERE schema_name = '%s_%s')", r.mode.String(), strings.ToLower(contractAddr)) var exists bool err := r.db.QueryRow(pgStr).Scan(&exists) return exists, err } func (r *eventRepository) CheckSchemaCache(key string) (interface{}, bool) { return r.schemas.Get(key) } func (r *eventRepository) CheckTableCache(key string) (interface{}, bool) { return r.tables.Get(key) }