storj/satellite/satellitedb/coinpaymentstxs.go
Fadila Khadar ffcd54719a satellite/satellitedb: use tx instead of db.db in transactions
Change-Id: Icee8871af76233651f007e03173660905eafc0e3
2022-06-14 17:35:44 +00:00

387 lines
12 KiB
Go

// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package satellitedb
import (
"context"
"time"
"github.com/shopspring/decimal"
"github.com/zeebo/errs"
"storj.io/common/uuid"
"storj.io/storj/satellite/payments/coinpayments"
"storj.io/storj/satellite/payments/monetary"
"storj.io/storj/satellite/payments/stripecoinpayments"
"storj.io/storj/satellite/satellitedb/dbx"
)
// ensure that coinpaymentsTransactions implements stripecoinpayments.TransactionsDB.
var _ stripecoinpayments.TransactionsDB = (*coinPaymentsTransactions)(nil)
// applyBalanceIntentState defines states of the apply balance intents.
type applyBalanceIntentState int
const (
// apply balance intent waits to be applied.
applyBalanceIntentStateUnapplied applyBalanceIntentState = 0
// transaction which balance intent points to has been consumed.
applyBalanceIntentStateConsumed applyBalanceIntentState = 1
)
// Int returns intent state as int.
func (intent applyBalanceIntentState) Int() int {
return int(intent)
}
// coinPaymentsTransactions is CoinPayments transactions DB.
//
// architecture: Database
type coinPaymentsTransactions struct {
db *satelliteDB
}
// Insert inserts new coinpayments transaction into DB.
func (db *coinPaymentsTransactions) Insert(ctx context.Context, tx stripecoinpayments.Transaction) (createTime time.Time, err error) {
defer mon.Task()(&ctx)(&err)
dbxCPTX, err := db.db.Create_CoinpaymentsTransaction(ctx,
dbx.CoinpaymentsTransaction_Id(tx.ID.String()),
dbx.CoinpaymentsTransaction_UserId(tx.AccountID[:]),
dbx.CoinpaymentsTransaction_Address(tx.Address),
dbx.CoinpaymentsTransaction_AmountNumeric(tx.Amount.BaseUnits()),
dbx.CoinpaymentsTransaction_ReceivedNumeric(tx.Received.BaseUnits()),
dbx.CoinpaymentsTransaction_Status(tx.Status.Int()),
dbx.CoinpaymentsTransaction_Key(tx.Key),
dbx.CoinpaymentsTransaction_Timeout(int(tx.Timeout.Seconds())),
)
if err != nil {
return time.Time{}, err
}
return dbxCPTX.CreatedAt, nil
}
// Update updates status and received for set of transactions.
func (db *coinPaymentsTransactions) Update(ctx context.Context, updates []stripecoinpayments.TransactionUpdate, applies coinpayments.TransactionIDList) (err error) {
defer mon.Task()(&ctx)(&err)
if len(updates) == 0 {
return nil
}
err = db.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) error {
for _, update := range updates {
_, err = tx.Update_CoinpaymentsTransaction_By_Id(ctx,
dbx.CoinpaymentsTransaction_Id(update.TransactionID.String()),
dbx.CoinpaymentsTransaction_Update_Fields{
ReceivedNumeric: dbx.CoinpaymentsTransaction_ReceivedNumeric(update.Received.BaseUnits()),
Status: dbx.CoinpaymentsTransaction_Status(update.Status.Int()),
},
)
if err != nil {
return err
}
}
for _, txID := range applies {
query := tx.Rebind(`INSERT INTO stripecoinpayments_apply_balance_intents ( tx_id, state, created_at )
VALUES ( ?, ?, ? ) ON CONFLICT DO NOTHING`)
_, err = tx.Tx.ExecContext(ctx, query, txID.String(), applyBalanceIntentStateUnapplied.Int(), db.db.Hooks.Now().UTC())
if err != nil {
return err
}
}
return nil
})
return err
}
// Consume marks transaction as consumed, so it won't participate in apply account balance loop.
func (db *coinPaymentsTransactions) Consume(ctx context.Context, id coinpayments.TransactionID) (err error) {
defer mon.Task()(&ctx)(&err)
query := db.db.Rebind(`
WITH intent AS (
SELECT tx_id, state FROM stripecoinpayments_apply_balance_intents WHERE tx_id = ?
), updated AS (
UPDATE stripecoinpayments_apply_balance_intents AS ints
SET
state = ?
FROM intent
WHERE intent.tx_id = ints.tx_id AND ints.state = ?
RETURNING 1
)
SELECT EXISTS(SELECT 1 FROM intent) AS intent_exists, EXISTS(SELECT 1 FROM updated) AS intent_consumed;
`)
row := db.db.QueryRowContext(ctx, query, id, applyBalanceIntentStateConsumed, applyBalanceIntentStateUnapplied)
var exists, consumed bool
if err = row.Scan(&exists, &consumed); err != nil {
return err
}
if !exists {
return errs.New("can not consume transaction without apply balance intent")
}
if !consumed {
return stripecoinpayments.ErrTransactionConsumed
}
return err
}
// LockRate locks conversion rate for transaction.
func (db *coinPaymentsTransactions) LockRate(ctx context.Context, id coinpayments.TransactionID, rate decimal.Decimal) (err error) {
defer mon.Task()(&ctx)(&err)
rateFloat, exact := rate.Float64()
if !exact {
// It's not clear at the time of writing whether this
// inexactness will ever be something we need to worry about.
// According to the example in the API docs for
// coinpayments.net, exchange rates are given to 24 decimal
// places (!!), which is several digits more precision than we
// can represent exactly in IEEE754 double-precision floating
// point. However, that might not matter, since an exchange rate
// that is correct to ~15 decimal places multiplied by a precise
// monetary.Amount should give results that are correct to
// around 15 decimal places still. At current exchange rates,
// for example, a USD transaction would need to have a value of
// more than $1,000,000,000,000 USD before a calculation using
// this "inexact" rate would get the equivalent number of BTC
// wrong by a single satoshi (10^-8 BTC).
//
// We could avoid all of this by preserving the exact rates as
// given by our provider, but this would involve either (a)
// abuse of the SQL schema (e.g. storing rates as decimal values
// in VARCHAR), (b) storing rates in a way that is opaque to the
// db engine (e.g. gob-encoding, decimal coefficient with
// separate exponents), or (c) adding support for parameterized
// types like NUMERIC to dbx. None of those are very ideal
// either.
delta, _ := rate.Sub(decimal.NewFromFloat(rateFloat)).Float64()
mon.FloatVal("inexact-float64-exchange-rate-delta").Observe(delta)
}
_, err = db.db.Create_StripecoinpaymentsTxConversionRate(ctx,
dbx.StripecoinpaymentsTxConversionRate_TxId(id.String()),
dbx.StripecoinpaymentsTxConversionRate_RateNumeric(rateFloat),
)
return Error.Wrap(err)
}
// GetLockedRate returns locked conversion rate for transaction or error if non exists.
func (db *coinPaymentsTransactions) GetLockedRate(ctx context.Context, id coinpayments.TransactionID) (rate decimal.Decimal, err error) {
defer mon.Task()(&ctx)(&err)
dbxRate, err := db.db.Get_StripecoinpaymentsTxConversionRate_By_TxId(ctx,
dbx.StripecoinpaymentsTxConversionRate_TxId(id.String()),
)
if err != nil {
return decimal.Decimal{}, err
}
rate = decimal.NewFromFloat(dbxRate.RateNumeric)
return rate, nil
}
// ListAccount returns all transaction for specific user.
func (db *coinPaymentsTransactions) ListAccount(ctx context.Context, userID uuid.UUID) (_ []stripecoinpayments.Transaction, err error) {
defer mon.Task()(&ctx)(&err)
dbxTXs, err := db.db.All_CoinpaymentsTransaction_By_UserId_OrderBy_Desc_CreatedAt(ctx,
dbx.CoinpaymentsTransaction_UserId(userID[:]),
)
if err != nil {
return nil, err
}
var txs []stripecoinpayments.Transaction
for _, dbxTX := range dbxTXs {
tx, err := fromDBXCoinpaymentsTransaction(dbxTX)
if err != nil {
return nil, errs.Wrap(err)
}
txs = append(txs, *tx)
}
return txs, nil
}
// ListPending returns paginated list of pending transactions.
func (db *coinPaymentsTransactions) ListPending(ctx context.Context, offset int64, limit int, before time.Time) (_ stripecoinpayments.TransactionsPage, err error) {
defer mon.Task()(&ctx)(&err)
query := db.db.Rebind(`SELECT
id,
user_id,
address,
amount_numeric,
received_numeric,
status,
key,
created_at
FROM coinpayments_transactions
WHERE status IN (?,?)
AND created_at <= ?
ORDER by created_at DESC
LIMIT ? OFFSET ?`)
rows, err := db.db.QueryContext(ctx, query, coinpayments.StatusPending, coinpayments.StatusReceived, before, limit+1, offset)
if err != nil {
return stripecoinpayments.TransactionsPage{}, Error.Wrap(err)
}
defer func() {
err = errs.Combine(err, rows.Close())
}()
var page stripecoinpayments.TransactionsPage
for rows.Next() {
var id, address string
var userID uuid.UUID
var amount, received *int64
var status int
var key string
var createdAt time.Time
err := rows.Scan(&id, &userID, &address, &amount, &received, &status, &key, &createdAt)
if err != nil {
return stripecoinpayments.TransactionsPage{}, Error.Wrap(err)
}
// TODO: the currency here should be passed in to this function or stored
// in the database.
currency := monetary.StorjToken
page.Transactions = append(page.Transactions,
stripecoinpayments.Transaction{
ID: coinpayments.TransactionID(id),
AccountID: userID,
Address: address,
Amount: monetary.AmountFromBaseUnits(*amount, currency),
Received: monetary.AmountFromBaseUnits(*received, currency),
Status: coinpayments.Status(status),
Key: key,
CreatedAt: createdAt,
},
)
}
if err = rows.Err(); err != nil {
return stripecoinpayments.TransactionsPage{}, err
}
if len(page.Transactions) == limit+1 {
page.Next = true
page.NextOffset = offset + int64(limit)
page.Transactions = page.Transactions[:len(page.Transactions)-1]
}
return page, nil
}
// ListUnapplied returns TransactionsPage with a pending or completed status, that should be applied to account balance.
func (db *coinPaymentsTransactions) ListUnapplied(ctx context.Context, offset int64, limit int, before time.Time) (_ stripecoinpayments.TransactionsPage, err error) {
defer mon.Task()(&ctx)(&err)
query := db.db.Rebind(`SELECT
txs.id,
txs.user_id,
txs.address,
txs.amount_numeric,
txs.received_numeric,
txs.status,
txs.key,
txs.created_at
FROM coinpayments_transactions as txs
INNER JOIN stripecoinpayments_apply_balance_intents as ints
ON txs.id = ints.tx_id
WHERE txs.status >= ?
AND txs.created_at <= ?
AND ints.state = ?
ORDER by txs.created_at DESC
LIMIT ? OFFSET ?`)
rows, err := db.db.QueryContext(ctx, query, coinpayments.StatusReceived, before, applyBalanceIntentStateUnapplied, limit+1, offset)
if err != nil {
return stripecoinpayments.TransactionsPage{}, err
}
defer func() { err = errs.Combine(err, rows.Close()) }()
var page stripecoinpayments.TransactionsPage
for rows.Next() {
var id, address string
var userID uuid.UUID
var amountNumeric, receivedNumeric *int64
var status int
var key string
var createdAt time.Time
err := rows.Scan(&id, &userID, &address, &amountNumeric, &receivedNumeric, &status, &key, &createdAt)
if err != nil {
return stripecoinpayments.TransactionsPage{}, err
}
// TODO: the currency here should be passed in to this function or stored
// in the database.
currency := monetary.StorjToken
page.Transactions = append(page.Transactions,
stripecoinpayments.Transaction{
ID: coinpayments.TransactionID(id),
AccountID: userID,
Address: address,
Amount: monetary.AmountFromBaseUnits(*amountNumeric, currency),
Received: monetary.AmountFromBaseUnits(*receivedNumeric, currency),
Status: coinpayments.Status(status),
Key: key,
CreatedAt: createdAt,
},
)
}
if err = rows.Err(); err != nil {
return stripecoinpayments.TransactionsPage{}, err
}
if len(page.Transactions) == limit+1 {
page.Next = true
page.NextOffset = offset + int64(limit)
page.Transactions = page.Transactions[:len(page.Transactions)-1]
}
return page, nil
}
// fromDBXCoinpaymentsTransaction converts *dbx.CoinpaymentsTransaction to *stripecoinpayments.Transaction.
func fromDBXCoinpaymentsTransaction(dbxCPTX *dbx.CoinpaymentsTransaction) (*stripecoinpayments.Transaction, error) {
userID, err := uuid.FromBytes(dbxCPTX.UserId)
if err != nil {
return nil, errs.Wrap(err)
}
// TODO: the currency here should be passed in to this function or stored
// in the database.
currency := monetary.StorjToken
return &stripecoinpayments.Transaction{
ID: coinpayments.TransactionID(dbxCPTX.Id),
AccountID: userID,
Address: dbxCPTX.Address,
Amount: monetary.AmountFromBaseUnits(dbxCPTX.AmountNumeric, currency),
Received: monetary.AmountFromBaseUnits(dbxCPTX.ReceivedNumeric, currency),
Status: coinpayments.Status(dbxCPTX.Status),
Key: dbxCPTX.Key,
Timeout: time.Second * time.Duration(dbxCPTX.Timeout),
CreatedAt: dbxCPTX.CreatedAt,
}, nil
}