651 lines
22 KiB
Go
651 lines
22 KiB
Go
package auth
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import (
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"fmt"
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"testing"
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codec "github.com/cosmos/cosmos-sdk/codec"
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sdk "github.com/cosmos/cosmos-sdk/types"
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"github.com/stretchr/testify/require"
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abci "github.com/tendermint/tendermint/abci/types"
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"github.com/tendermint/tendermint/crypto"
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"github.com/tendermint/tendermint/crypto/ed25519"
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"github.com/tendermint/tendermint/crypto/secp256k1"
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"github.com/tendermint/tendermint/libs/log"
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)
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func newTestMsg(addrs ...sdk.AccAddress) *sdk.TestMsg {
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return sdk.NewTestMsg(addrs...)
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}
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func newStdFee() StdFee {
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return NewStdFee(5000,
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sdk.NewInt64Coin("atom", 150),
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)
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}
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// coins to more than cover the fee
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func newCoins() sdk.Coins {
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return sdk.Coins{
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sdk.NewInt64Coin("atom", 10000000),
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}
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}
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// generate a priv key and return it with its address
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func privAndAddr() (crypto.PrivKey, sdk.AccAddress) {
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priv := ed25519.GenPrivKey()
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addr := sdk.AccAddress(priv.PubKey().Address())
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return priv, addr
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}
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// run the tx through the anteHandler and ensure its valid
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func checkValidTx(t *testing.T, anteHandler sdk.AnteHandler, ctx sdk.Context, tx sdk.Tx, simulate bool) {
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_, result, abort := anteHandler(ctx, tx, simulate)
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require.False(t, abort)
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require.Equal(t, sdk.ABCICodeOK, result.Code)
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require.True(t, result.IsOK())
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}
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// run the tx through the anteHandler and ensure it fails with the given code
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func checkInvalidTx(t *testing.T, anteHandler sdk.AnteHandler, ctx sdk.Context, tx sdk.Tx, simulate bool, code sdk.CodeType) {
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newCtx, result, abort := anteHandler(ctx, tx, simulate)
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require.True(t, abort)
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require.Equal(t, sdk.ToABCICode(sdk.CodespaceRoot, code), result.Code,
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fmt.Sprintf("Expected %v, got %v", sdk.ToABCICode(sdk.CodespaceRoot, code), result))
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if code == sdk.CodeOutOfGas {
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stdTx, ok := tx.(StdTx)
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require.True(t, ok, "tx must be in form auth.StdTx")
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// GasWanted set correctly
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require.Equal(t, stdTx.Fee.Gas, result.GasWanted, "Gas wanted not set correctly")
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require.True(t, result.GasUsed > result.GasWanted, "GasUsed not greated than GasWanted")
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// Check that context is set correctly
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require.Equal(t, result.GasUsed, newCtx.GasMeter().GasConsumed(), "Context not updated correctly")
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}
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}
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func newTestTx(ctx sdk.Context, msgs []sdk.Msg, privs []crypto.PrivKey, accNums []int64, seqs []int64, fee StdFee) sdk.Tx {
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sigs := make([]StdSignature, len(privs))
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for i, priv := range privs {
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signBytes := StdSignBytes(ctx.ChainID(), accNums[i], seqs[i], fee, msgs, "")
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sig, err := priv.Sign(signBytes)
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if err != nil {
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panic(err)
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}
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sigs[i] = StdSignature{PubKey: priv.PubKey(), Signature: sig, AccountNumber: accNums[i], Sequence: seqs[i]}
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}
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tx := NewStdTx(msgs, fee, sigs, "")
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return tx
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}
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func newTestTxWithMemo(ctx sdk.Context, msgs []sdk.Msg, privs []crypto.PrivKey, accNums []int64, seqs []int64, fee StdFee, memo string) sdk.Tx {
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sigs := make([]StdSignature, len(privs))
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for i, priv := range privs {
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signBytes := StdSignBytes(ctx.ChainID(), accNums[i], seqs[i], fee, msgs, memo)
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sig, err := priv.Sign(signBytes)
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if err != nil {
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panic(err)
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}
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sigs[i] = StdSignature{PubKey: priv.PubKey(), Signature: sig, AccountNumber: accNums[i], Sequence: seqs[i]}
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}
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tx := NewStdTx(msgs, fee, sigs, memo)
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return tx
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}
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// All signers sign over the same StdSignDoc. Should always create invalid signatures
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func newTestTxWithSignBytes(msgs []sdk.Msg, privs []crypto.PrivKey, accNums []int64, seqs []int64, fee StdFee, signBytes []byte, memo string) sdk.Tx {
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sigs := make([]StdSignature, len(privs))
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for i, priv := range privs {
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sig, err := priv.Sign(signBytes)
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if err != nil {
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panic(err)
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}
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sigs[i] = StdSignature{PubKey: priv.PubKey(), Signature: sig, AccountNumber: accNums[i], Sequence: seqs[i]}
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}
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tx := NewStdTx(msgs, fee, sigs, memo)
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return tx
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}
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// Test various error cases in the AnteHandler control flow.
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func TestAnteHandlerSigErrors(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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priv2, addr2 := privAndAddr()
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priv3, addr3 := privAndAddr()
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// msg and signatures
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var tx sdk.Tx
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msg1 := newTestMsg(addr1, addr2)
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msg2 := newTestMsg(addr1, addr3)
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fee := newStdFee()
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msgs := []sdk.Msg{msg1, msg2}
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// test no signatures
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privs, accNums, seqs := []crypto.PrivKey{}, []int64{}, []int64{}
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tx = newTestTx(ctx, msgs, privs, accNums, seqs, fee)
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// tx.GetSigners returns addresses in correct order: addr1, addr2, addr3
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expectedSigners := []sdk.AccAddress{addr1, addr2, addr3}
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stdTx := tx.(StdTx)
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require.Equal(t, expectedSigners, stdTx.GetSigners())
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// Check no signatures fails
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeUnauthorized)
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// test num sigs dont match GetSigners
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privs, accNums, seqs = []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
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tx = newTestTx(ctx, msgs, privs, accNums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeUnauthorized)
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// test an unrecognized account
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privs, accNums, seqs = []crypto.PrivKey{priv1, priv2, priv3}, []int64{0, 1, 2}, []int64{0, 0, 0}
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tx = newTestTx(ctx, msgs, privs, accNums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeUnknownAddress)
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// save the first account, but second is still unrecognized
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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acc1.SetCoins(fee.Amount)
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mapper.SetAccount(ctx, acc1)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeUnknownAddress)
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}
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// Test logic around account number checking with one signer and many signers.
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func TestAnteHandlerAccountNumbers(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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priv2, addr2 := privAndAddr()
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// set the accounts
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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acc1.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc1)
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acc2 := mapper.NewAccountWithAddress(ctx, addr2)
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acc2.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc2)
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// msg and signatures
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var tx sdk.Tx
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msg := newTestMsg(addr1)
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fee := newStdFee()
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msgs := []sdk.Msg{msg}
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// test good tx from one signer
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privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// new tx from wrong account number
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seqs = []int64{1}
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tx = newTestTx(ctx, msgs, privs, []int64{1}, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidSequence)
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// from correct account number
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seqs = []int64{1}
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tx = newTestTx(ctx, msgs, privs, []int64{0}, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// new tx with another signer and incorrect account numbers
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msg1 := newTestMsg(addr1, addr2)
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msg2 := newTestMsg(addr2, addr1)
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msgs = []sdk.Msg{msg1, msg2}
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privs, accnums, seqs = []crypto.PrivKey{priv1, priv2}, []int64{1, 0}, []int64{2, 0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidSequence)
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// correct account numbers
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privs, accnums, seqs = []crypto.PrivKey{priv1, priv2}, []int64{0, 1}, []int64{2, 0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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}
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// Test logic around sequence checking with one signer and many signers.
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func TestAnteHandlerSequences(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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priv2, addr2 := privAndAddr()
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priv3, addr3 := privAndAddr()
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// set the accounts
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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acc1.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc1)
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acc2 := mapper.NewAccountWithAddress(ctx, addr2)
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acc2.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc2)
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acc3 := mapper.NewAccountWithAddress(ctx, addr3)
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acc3.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc3)
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// msg and signatures
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var tx sdk.Tx
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msg := newTestMsg(addr1)
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fee := newStdFee()
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msgs := []sdk.Msg{msg}
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// test good tx from one signer
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privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// test sending it again fails (replay protection)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidSequence)
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// fix sequence, should pass
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seqs = []int64{1}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// new tx with another signer and correct sequences
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msg1 := newTestMsg(addr1, addr2)
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msg2 := newTestMsg(addr3, addr1)
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msgs = []sdk.Msg{msg1, msg2}
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privs, accnums, seqs = []crypto.PrivKey{priv1, priv2, priv3}, []int64{0, 1, 2}, []int64{2, 0, 0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// replay fails
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidSequence)
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// tx from just second signer with incorrect sequence fails
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msg = newTestMsg(addr2)
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msgs = []sdk.Msg{msg}
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privs, accnums, seqs = []crypto.PrivKey{priv2}, []int64{1}, []int64{0}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidSequence)
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// fix the sequence and it passes
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tx = newTestTx(ctx, msgs, []crypto.PrivKey{priv2}, []int64{1}, []int64{1}, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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// another tx from both of them that passes
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msg = newTestMsg(addr1, addr2)
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msgs = []sdk.Msg{msg}
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privs, accnums, seqs = []crypto.PrivKey{priv1, priv2}, []int64{0, 1}, []int64{3, 2}
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkValidTx(t, anteHandler, ctx, tx, false)
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}
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// Test logic around fee deduction.
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func TestAnteHandlerFees(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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// set the accounts
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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mapper.SetAccount(ctx, acc1)
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// msg and signatures
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var tx sdk.Tx
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msg := newTestMsg(addr1)
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privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
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fee := newStdFee()
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msgs := []sdk.Msg{msg}
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// signer does not have enough funds to pay the fee
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tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInsufficientFunds)
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acc1.SetCoins(sdk.Coins{sdk.NewInt64Coin("atom", 149)})
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mapper.SetAccount(ctx, acc1)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInsufficientFunds)
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require.True(t, feeCollector.GetCollectedFees(ctx).IsEqual(emptyCoins))
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acc1.SetCoins(sdk.Coins{sdk.NewInt64Coin("atom", 150)})
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mapper.SetAccount(ctx, acc1)
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checkValidTx(t, anteHandler, ctx, tx, false)
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require.True(t, feeCollector.GetCollectedFees(ctx).IsEqual(sdk.Coins{sdk.NewInt64Coin("atom", 150)}))
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}
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// Test logic around memo gas consumption.
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func TestAnteHandlerMemoGas(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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// set the accounts
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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mapper.SetAccount(ctx, acc1)
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// msg and signatures
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var tx sdk.Tx
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msg := newTestMsg(addr1)
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privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
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fee := NewStdFee(0, sdk.NewInt64Coin("atom", 0))
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// tx does not have enough gas
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tx = newTestTx(ctx, []sdk.Msg{msg}, privs, accnums, seqs, fee)
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeOutOfGas)
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// tx with memo doesn't have enough gas
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fee = NewStdFee(801, sdk.NewInt64Coin("atom", 0))
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tx = newTestTxWithMemo(ctx, []sdk.Msg{msg}, privs, accnums, seqs, fee, "abcininasidniandsinasindiansdiansdinaisndiasndiadninsd")
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeOutOfGas)
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// memo too large
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fee = NewStdFee(2001, sdk.NewInt64Coin("atom", 0))
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tx = newTestTxWithMemo(ctx, []sdk.Msg{msg}, privs, accnums, seqs, fee, "abcininasidniandsinasindiansdiansdinaisndiasndiadninsdabcininasidniandsinasindiansdiansdinaisndiasndiadninsdabcininasidniandsinasindiansdiansdinaisndiasndiadninsd")
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checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeMemoTooLarge)
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// tx with memo has enough gas
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fee = NewStdFee(1100, sdk.NewInt64Coin("atom", 0))
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tx = newTestTxWithMemo(ctx, []sdk.Msg{msg}, privs, accnums, seqs, fee, "abcininasidniandsinasindiansdiansdinaisndiasndiadninsd")
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checkValidTx(t, anteHandler, ctx, tx, false)
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}
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func TestAnteHandlerMultiSigner(t *testing.T) {
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// setup
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ms, capKey, capKey2 := setupMultiStore()
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cdc := codec.New()
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RegisterBaseAccount(cdc)
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mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
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feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
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anteHandler := NewAnteHandler(mapper, feeCollector)
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ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
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// keys and addresses
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priv1, addr1 := privAndAddr()
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priv2, addr2 := privAndAddr()
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priv3, addr3 := privAndAddr()
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// set the accounts
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acc1 := mapper.NewAccountWithAddress(ctx, addr1)
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acc1.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc1)
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acc2 := mapper.NewAccountWithAddress(ctx, addr2)
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acc2.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc2)
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acc3 := mapper.NewAccountWithAddress(ctx, addr3)
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acc3.SetCoins(newCoins())
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mapper.SetAccount(ctx, acc3)
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// set up msgs and fee
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var tx sdk.Tx
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msg1 := newTestMsg(addr1, addr2)
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msg2 := newTestMsg(addr3, addr1)
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msg3 := newTestMsg(addr2, addr3)
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msgs := []sdk.Msg{msg1, msg2, msg3}
|
|
fee := newStdFee()
|
|
|
|
// signers in order
|
|
privs, accnums, seqs := []crypto.PrivKey{priv1, priv2, priv3}, []int64{0, 1, 2}, []int64{0, 0, 0}
|
|
tx = newTestTxWithMemo(ctx, msgs, privs, accnums, seqs, fee, "Check signers are in expected order and different account numbers works")
|
|
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
|
|
// change sequence numbers
|
|
tx = newTestTx(ctx, []sdk.Msg{msg1}, []crypto.PrivKey{priv1, priv2}, []int64{0, 1}, []int64{1, 1}, fee)
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
tx = newTestTx(ctx, []sdk.Msg{msg2}, []crypto.PrivKey{priv3, priv1}, []int64{2, 0}, []int64{1, 2}, fee)
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
|
|
// expected seqs = [3, 2, 2]
|
|
tx = newTestTxWithMemo(ctx, msgs, privs, accnums, []int64{3, 2, 2}, fee, "Check signers are in expected order and different account numbers and sequence numbers works")
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
}
|
|
|
|
func TestAnteHandlerBadSignBytes(t *testing.T) {
|
|
// setup
|
|
ms, capKey, capKey2 := setupMultiStore()
|
|
cdc := codec.New()
|
|
RegisterBaseAccount(cdc)
|
|
mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
|
|
feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
|
|
anteHandler := NewAnteHandler(mapper, feeCollector)
|
|
ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
|
|
|
|
// keys and addresses
|
|
priv1, addr1 := privAndAddr()
|
|
priv2, addr2 := privAndAddr()
|
|
|
|
// set the accounts
|
|
acc1 := mapper.NewAccountWithAddress(ctx, addr1)
|
|
acc1.SetCoins(newCoins())
|
|
mapper.SetAccount(ctx, acc1)
|
|
acc2 := mapper.NewAccountWithAddress(ctx, addr2)
|
|
acc2.SetCoins(newCoins())
|
|
mapper.SetAccount(ctx, acc2)
|
|
|
|
var tx sdk.Tx
|
|
msg := newTestMsg(addr1)
|
|
msgs := []sdk.Msg{msg}
|
|
fee := newStdFee()
|
|
fee2 := newStdFee()
|
|
fee2.Gas += 100
|
|
fee3 := newStdFee()
|
|
fee3.Amount[0].Amount = fee3.Amount[0].Amount.AddRaw(100)
|
|
|
|
// test good tx and signBytes
|
|
privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
|
|
tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
|
|
chainID := ctx.ChainID()
|
|
chainID2 := chainID + "somemorestuff"
|
|
codeUnauth := sdk.CodeUnauthorized
|
|
|
|
cases := []struct {
|
|
chainID string
|
|
accnum int64
|
|
seq int64
|
|
fee StdFee
|
|
msgs []sdk.Msg
|
|
code sdk.CodeType
|
|
}{
|
|
{chainID2, 0, 1, fee, msgs, codeUnauth}, // test wrong chain_id
|
|
{chainID, 0, 2, fee, msgs, codeUnauth}, // test wrong seqs
|
|
{chainID, 1, 1, fee, msgs, codeUnauth}, // test wrong accnum
|
|
{chainID, 0, 1, fee, []sdk.Msg{newTestMsg(addr2)}, codeUnauth}, // test wrong msg
|
|
{chainID, 0, 1, fee2, msgs, codeUnauth}, // test wrong fee
|
|
{chainID, 0, 1, fee3, msgs, codeUnauth}, // test wrong fee
|
|
}
|
|
|
|
privs, seqs = []crypto.PrivKey{priv1}, []int64{1}
|
|
for _, cs := range cases {
|
|
tx := newTestTxWithSignBytes(
|
|
|
|
msgs, privs, accnums, seqs, fee,
|
|
StdSignBytes(cs.chainID, cs.accnum, cs.seq, cs.fee, cs.msgs, ""),
|
|
"",
|
|
)
|
|
checkInvalidTx(t, anteHandler, ctx, tx, false, cs.code)
|
|
}
|
|
|
|
// test wrong signer if public key exist
|
|
privs, accnums, seqs = []crypto.PrivKey{priv2}, []int64{0}, []int64{1}
|
|
tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
|
|
checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeUnauthorized)
|
|
|
|
// test wrong signer if public doesn't exist
|
|
msg = newTestMsg(addr2)
|
|
msgs = []sdk.Msg{msg}
|
|
privs, accnums, seqs = []crypto.PrivKey{priv1}, []int64{1}, []int64{0}
|
|
tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
|
|
checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidPubKey)
|
|
|
|
}
|
|
|
|
func TestAnteHandlerSetPubKey(t *testing.T) {
|
|
// setup
|
|
ms, capKey, capKey2 := setupMultiStore()
|
|
cdc := codec.New()
|
|
RegisterBaseAccount(cdc)
|
|
mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
|
|
feeCollector := NewFeeCollectionKeeper(cdc, capKey2)
|
|
anteHandler := NewAnteHandler(mapper, feeCollector)
|
|
ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
|
|
|
|
// keys and addresses
|
|
priv1, addr1 := privAndAddr()
|
|
_, addr2 := privAndAddr()
|
|
|
|
// set the accounts
|
|
acc1 := mapper.NewAccountWithAddress(ctx, addr1)
|
|
acc1.SetCoins(newCoins())
|
|
mapper.SetAccount(ctx, acc1)
|
|
acc2 := mapper.NewAccountWithAddress(ctx, addr2)
|
|
acc2.SetCoins(newCoins())
|
|
mapper.SetAccount(ctx, acc2)
|
|
|
|
var tx sdk.Tx
|
|
|
|
// test good tx and set public key
|
|
msg := newTestMsg(addr1)
|
|
msgs := []sdk.Msg{msg}
|
|
privs, accnums, seqs := []crypto.PrivKey{priv1}, []int64{0}, []int64{0}
|
|
fee := newStdFee()
|
|
tx = newTestTx(ctx, msgs, privs, accnums, seqs, fee)
|
|
checkValidTx(t, anteHandler, ctx, tx, false)
|
|
|
|
acc1 = mapper.GetAccount(ctx, addr1)
|
|
require.Equal(t, acc1.GetPubKey(), priv1.PubKey())
|
|
|
|
// test public key not found
|
|
msg = newTestMsg(addr2)
|
|
msgs = []sdk.Msg{msg}
|
|
tx = newTestTx(ctx, msgs, privs, []int64{1}, seqs, fee)
|
|
sigs := tx.(StdTx).GetSignatures()
|
|
sigs[0].PubKey = nil
|
|
checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidPubKey)
|
|
|
|
acc2 = mapper.GetAccount(ctx, addr2)
|
|
require.Nil(t, acc2.GetPubKey())
|
|
|
|
// test invalid signature and public key
|
|
tx = newTestTx(ctx, msgs, privs, []int64{1}, seqs, fee)
|
|
checkInvalidTx(t, anteHandler, ctx, tx, false, sdk.CodeInvalidPubKey)
|
|
|
|
acc2 = mapper.GetAccount(ctx, addr2)
|
|
require.Nil(t, acc2.GetPubKey())
|
|
}
|
|
|
|
func TestProcessPubKey(t *testing.T) {
|
|
ms, capKey, _ := setupMultiStore()
|
|
cdc := codec.New()
|
|
RegisterBaseAccount(cdc)
|
|
mapper := NewAccountMapper(cdc, capKey, ProtoBaseAccount)
|
|
ctx := sdk.NewContext(ms, abci.Header{ChainID: "mychainid"}, false, log.NewNopLogger())
|
|
// keys
|
|
_, addr1 := privAndAddr()
|
|
priv2, _ := privAndAddr()
|
|
acc1 := mapper.NewAccountWithAddress(ctx, addr1)
|
|
type args struct {
|
|
acc Account
|
|
sig StdSignature
|
|
simulate bool
|
|
}
|
|
tests := []struct {
|
|
name string
|
|
args args
|
|
wantErr bool
|
|
}{
|
|
{"no sigs, simulate off", args{acc1, StdSignature{}, false}, true},
|
|
{"no sigs, simulate on", args{acc1, StdSignature{}, true}, false},
|
|
{"pubkey doesn't match addr, simulate off", args{acc1, StdSignature{PubKey: priv2.PubKey()}, false}, true},
|
|
{"pubkey doesn't match addr, simulate on", args{acc1, StdSignature{PubKey: priv2.PubKey()}, true}, false},
|
|
}
|
|
for _, tt := range tests {
|
|
t.Run(tt.name, func(t *testing.T) {
|
|
_, err := processPubKey(tt.args.acc, tt.args.sig, tt.args.simulate)
|
|
require.Equal(t, tt.wantErr, !err.IsOK())
|
|
})
|
|
}
|
|
}
|
|
|
|
func TestConsumeSignatureVerificationGas(t *testing.T) {
|
|
type args struct {
|
|
meter sdk.GasMeter
|
|
pubkey crypto.PubKey
|
|
}
|
|
tests := []struct {
|
|
name string
|
|
args args
|
|
gasConsumed int64
|
|
wantPanic bool
|
|
}{
|
|
{"PubKeyEd25519", args{sdk.NewInfiniteGasMeter(), ed25519.GenPrivKey().PubKey()}, ed25519VerifyCost, false},
|
|
{"PubKeySecp256k1", args{sdk.NewInfiniteGasMeter(), secp256k1.GenPrivKey().PubKey()}, secp256k1VerifyCost, false},
|
|
{"unknown key", args{sdk.NewInfiniteGasMeter(), nil}, 0, true},
|
|
}
|
|
for _, tt := range tests {
|
|
t.Run(tt.name, func(t *testing.T) {
|
|
if tt.wantPanic {
|
|
require.Panics(t, func() { consumeSignatureVerificationGas(tt.args.meter, tt.args.pubkey) })
|
|
} else {
|
|
consumeSignatureVerificationGas(tt.args.meter, tt.args.pubkey)
|
|
require.Equal(t, tt.args.meter.GasConsumed(), tt.gasConsumed)
|
|
}
|
|
})
|
|
}
|
|
}
|
|
|
|
func TestAdjustFeesByGas(t *testing.T) {
|
|
type args struct {
|
|
fee sdk.Coins
|
|
gas int64
|
|
}
|
|
tests := []struct {
|
|
name string
|
|
args args
|
|
want sdk.Coins
|
|
}{
|
|
{"nil coins", args{sdk.Coins{}, 10000}, sdk.Coins{}},
|
|
{"nil coins", args{sdk.Coins{sdk.NewInt64Coin("A", 10), sdk.NewInt64Coin("B", 0)}, 10000}, sdk.Coins{sdk.NewInt64Coin("A", 20), sdk.NewInt64Coin("B", 10)}},
|
|
{"negative coins", args{sdk.Coins{sdk.NewInt64Coin("A", -10), sdk.NewInt64Coin("B", 10)}, 10000}, sdk.Coins{sdk.NewInt64Coin("B", 20)}},
|
|
}
|
|
for _, tt := range tests {
|
|
t.Run(tt.name, func(t *testing.T) {
|
|
require.True(t, tt.want.IsEqual(adjustFeesByGas(tt.args.fee, tt.args.gas)))
|
|
})
|
|
}
|
|
}
|