LBRYCommunity/lbcwallet
1
0
Fork 0
Code Issues 5 Pull requests Packages Projects Releases 14 Wiki Activity
lbcwallet/wallet/txauthor/author_test.go

222 lines
6.8 KiB
Go
Raw Normal View History

Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
// Copyright (c) 2016 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package txauthor_test
import (
"testing"
multi: switch import paths back to upstream
2018-05-15 07:11:11 +02:00
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
. "github.com/btcsuite/btcwallet/wallet/txauthor"
"github.com/btcsuite/btcwallet/wallet/txrules"
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
multi: switch import paths back to upstream
2018-05-15 07:11:11 +02:00
"github.com/btcsuite/btcwallet/wallet/internal/txsizes"
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
)
func p2pkhOutputs(amounts ...btcutil.Amount) []*wire.TxOut {
v := make([]*wire.TxOut, 0, len(amounts))
for _, a := range amounts {
outScript := make([]byte, txsizes.P2PKHOutputSize)
v = append(v, wire.NewTxOut(int64(a), outScript))
}
return v
}
func makeInputSource(unspents []*wire.TxOut) InputSource {
// Return outputs in order.
currentTotal := btcutil.Amount(0)
currentInputs := make([]*wire.TxIn, 0, len(unspents))
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
currentInputValues := make([]btcutil.Amount, 0, len(unspents))
f := func(target btcutil.Amount) (btcutil.Amount, []*wire.TxIn, []btcutil.Amount, [][]byte, error) {
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
for currentTotal < target && len(unspents) != 0 {
u := unspents[0]
unspents = unspents[1:]
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
nextInput := wire.NewTxIn(&wire.OutPoint{}, nil, nil)
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
currentTotal += btcutil.Amount(u.Value)
currentInputs = append(currentInputs, nextInput)
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
currentInputValues = append(currentInputValues, btcutil.Amount(u.Value))
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
}
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
return currentTotal, currentInputs, currentInputValues, make([][]byte, len(currentInputs)), nil
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
}
return InputSource(f)
}
func TestNewUnsignedTransaction(t *testing.T) {
tests := []struct {
UnspentOutputs []*wire.TxOut
Outputs []*wire.TxOut
RelayFee btcutil.Amount
ChangeAmount btcutil.Amount
InputSourceError bool
InputCount int
}{
0: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8),
RelayFee: 1e3,
InputSourceError: true,
},
1: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e6),
RelayFee: 1e3,
ChangeAmount: 1e8 - 1e6 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(1e6), true)),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
2: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e6),
RelayFee: 1e4,
ChangeAmount: 1e8 - 1e6 - txrules.FeeForSerializeSize(1e4,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(1e6), true)),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
3: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e6, 1e6, 1e6),
RelayFee: 1e4,
ChangeAmount: 1e8 - 3e6 - txrules.FeeForSerializeSize(1e4,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(1e6, 1e6, 1e6), true)),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
4: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e6, 1e6, 1e6),
RelayFee: 2.55e3,
ChangeAmount: 1e8 - 3e6 - txrules.FeeForSerializeSize(2.55e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(1e6, 1e6, 1e6), true)),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
// Test dust thresholds (546 for a 1e3 relay fee).
5: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8 - 545 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
ChangeAmount: 545,
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
6: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8 - 546 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 1e3,
ChangeAmount: 546,
InputCount: 1,
},
// Test dust thresholds (1392.3 for a 2.55e3 relay fee).
7: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8 - 1392 - txrules.FeeForSerializeSize(2.55e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 2.55e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
ChangeAmount: 1392,
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
8: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8 - 1393 - txrules.FeeForSerializeSize(2.55e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 2.55e3,
ChangeAmount: 1393,
InputCount: 1,
},
// Test two unspent outputs available but only one needed
// (tested fee only includes one input rather than using a
// serialize size for each).
9: {
UnspentOutputs: p2pkhOutputs(1e8, 1e8),
Outputs: p2pkhOutputs(1e8 - 546 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 1e3,
ChangeAmount: 546,
InputCount: 1,
},
// Test that second output is not included to make the change
// output not dust and be included in the transaction.
//
// It's debatable whether or not this is a good idea, but it's
// how the function was written, so test it anyways.
10: {
UnspentOutputs: p2pkhOutputs(1e8, 1e8),
Outputs: p2pkhOutputs(1e8 - 545 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(1, 0, 0, p2pkhOutputs(0), true))),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
RelayFee: 1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
ChangeAmount: 545,
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 1,
},
// Test two unspent outputs available where both are needed.
11: {
UnspentOutputs: p2pkhOutputs(1e8, 1e8),
Outputs: p2pkhOutputs(1e8),
RelayFee: 1e3,
ChangeAmount: 1e8 - txrules.FeeForSerializeSize(1e3,
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
txsizes.EstimateVirtualSize(2, 0, 0, p2pkhOutputs(1e8), true)),
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
InputCount: 2,
},
Do not include zero value change outputs. Due to the way dust is calculated, if the transaction relay fee is zero, then a zero output amount is not considered dust. As the transaction authoring code used this dust check to determine whether a change output can be included or not, it could create unnecessary change outputs which return no value back to the wallet. Prevent this by including an explicit check for zero values.
2016-04-18 18:47:09 +02:00
// Test that zero change outputs are not included
// (ChangeAmount=0 means don't include any change output).
12: {
UnspentOutputs: p2pkhOutputs(1e8),
Outputs: p2pkhOutputs(1e8),
RelayFee: 0,
ChangeAmount: 0,
InputCount: 1,
},
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
}
changeSource := func() ([]byte, error) {
// Only length matters for these tests.
multi: update due to latest API changes
2018-05-24 03:59:31 +02:00
return make([]byte, txsizes.P2WPKHPkScriptSize), nil
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
}
for i, test := range tests {
inputSource := makeInputSource(test.UnspentOutputs)
tx, err := NewUnsignedTransaction(test.Outputs, test.RelayFee, inputSource, changeSource)
switch e := err.(type) {
case nil:
case InputSourceError:
if !test.InputSourceError {
t.Errorf("Test %d: Returned InputSourceError but expected "+
"change output with amount %v", i, test.ChangeAmount)
}
continue
default:
t.Errorf("Test %d: Unexpected error: %v", i, e)
continue
}
if tx.ChangeIndex < 0 {
if test.ChangeAmount != 0 {
t.Errorf("Test %d: No change output added but expected output with amount %v",
i, test.ChangeAmount)
continue
}
} else {
changeAmount := btcutil.Amount(tx.Tx.TxOut[tx.ChangeIndex].Value)
Do not include zero value change outputs. Due to the way dust is calculated, if the transaction relay fee is zero, then a zero output amount is not considered dust. As the transaction authoring code used this dust check to determine whether a change output can be included or not, it could create unnecessary change outputs which return no value back to the wallet. Prevent this by including an explicit check for zero values.
2016-04-18 18:47:09 +02:00
if test.ChangeAmount == 0 {
t.Errorf("Test %d: Included change output with value %v but expected no change",
i, changeAmount)
continue
}
Refactor wallet transaction creation code. This began as a change to improve the fee calculation code and evolved into a much larger refactor which improves the readability and modularity of all of the transaction creation code. Transaction fee calculations have been switched from full increments of the relay fee to a proportion based on the transaction size. This means that for a relay fee of 1e3 satoshis/kB, a 500 byte transaction is only required to pay a 5e2 satoshi fee and a 1500 byte transaction only need pay a 1.5e3 fee. The previous code would end up estimating these fees to be 1e3 and 2e3 respectively. Because the previous code would add more fee than needed in almost every case, the transaction size estimations were optimistic (best/smallest case) and signing was done in a loop where the fee was incremented by the relay fee again each time the actual size of the signed transaction rendered the fee too low. This has switched to using worst case transaction size estimates rather than best case, and signing is only performed once. Transaction input signature creation has switched from using txscript.SignatureScript to txscript.SignTxOutput. The new API is able to redeem outputs other than just P2PKH, so the previous restrictions about P2SH outputs being unspendable (except through the signrawtransaction RPC) no longer hold. Several new public packages have been added: wallet/txauthor - transaction authoring and signing wallet/txfees - fee estimations and change output inclusion wallet/txrules - simple consensus and mempool policy rule checks Along with some internal packages: wallet/internal/txsizes - transaction size estimation internal/helpers - context free convenience functions The txsizes package is internal as the estimations it provides are specific for the algorithms used by these new packages.
2016-02-28 05:30:56 +01:00
if changeAmount != test.ChangeAmount {
t.Errorf("Test %d: Got change amount %v, Expected %v",
i, changeAmount, test.ChangeAmount)
continue
}
}
if len(tx.Tx.TxIn) != test.InputCount {
t.Errorf("Test %d: Used %d outputs from input source, Expected %d",
i, len(tx.Tx.TxIn), test.InputCount)
}
}
}
Reference in a new issue Copy permalink