corda/tests/contracts/CashTests.kt

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Kotlin
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import contracts.Cash
import contracts.InsufficientBalanceException
import core.*
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import org.junit.Test
import kotlin.test.assertEquals
import kotlin.test.assertFailsWith
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// TODO: Some basic invariants should be enforced by the platform before contract execution:
// 1. No duplicate input states
// 2. There must be at least one input state (note: not "one of the type the contract wants")
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class CashTests {
val inState = Cash.State(
deposit = InstitutionReference(MEGA_CORP, OpaqueBytes.of(1)),
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amount = 1000.DOLLARS,
owner = DUMMY_PUBKEY_1
)
val outState = inState.copy(owner = DUMMY_PUBKEY_2)
val contract = Cash
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fun Cash.State.editInstitution(institution: Institution) = copy(deposit = deposit.copy(institution = institution))
fun Cash.State.editDepositRef(ref: Byte) = copy(deposit = deposit.copy(reference = OpaqueBytes.of(ref)))
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@Test
fun trivial() {
transaction {
contract `fails requirement` "there is at least one cash input"
input { inState }
contract `fails requirement` "the amounts balance"
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transaction {
output { outState.copy(amount = 2000.DOLLARS )}
contract `fails requirement` "the amounts balance"
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}
transaction {
output { outState }
// No command arguments
contract `fails requirement` "the owning keys are the same as the signing keys"
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}
transaction {
output { outState }
arg(DUMMY_PUBKEY_2) { Cash.Commands.Move() }
contract `fails requirement` "the owning keys are the same as the signing keys"
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}
transaction {
output { outState }
output { outState.editInstitution(MINI_CORP) }
contract `fails requirement` "no output states are unaccounted for"
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}
// Simple reallocation works.
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transaction {
output { outState }
arg(DUMMY_PUBKEY_1) { Cash.Commands.Move() }
contract.accepts()
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}
}
}
@Test
fun testMergeSplit() {
// Splitting value works.
transaction {
arg(DUMMY_PUBKEY_1) { Cash.Commands.Move() }
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transaction {
input { inState }
for (i in 1..4) output { inState.copy(amount = inState.amount / 4) }
contract.accepts()
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}
// Merging 4 inputs into 2 outputs works.
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transaction {
for (i in 1..4) input { inState.copy(amount = inState.amount / 4) }
output { inState.copy(amount = inState.amount / 2) }
output { inState.copy(amount = inState.amount / 2) }
contract.accepts()
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}
// Merging 2 inputs into 1 works.
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transaction {
input { inState.copy(amount = inState.amount / 2) }
input { inState.copy(amount = inState.amount / 2) }
output { inState }
contract.accepts()
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}
}
}
@Test
fun zeroSizedInputs() {
transaction {
input { inState }
input { inState.copy(amount = 0.DOLLARS) }
contract `fails requirement` "zero sized inputs"
}
}
@Test
fun trivialMismatches() {
// Can't change issuer.
transaction {
input { inState }
output { outState.editInstitution(MINI_CORP) }
contract `fails requirement` "at issuer MegaCorp the amounts balance"
}
// Can't change deposit reference when splitting.
transaction {
input { inState }
output { outState.editDepositRef(0).copy(amount = inState.amount / 2) }
output { outState.editDepositRef(1).copy(amount = inState.amount / 2) }
contract `fails requirement` "for deposit [01] at issuer MegaCorp the amounts balance"
}
// Can't mix currencies.
transaction {
input { inState }
output { outState.copy(amount = 800.DOLLARS) }
output { outState.copy(amount = 200.POUNDS) }
contract `fails requirement` "all outputs use the currency of the inputs"
}
transaction {
input { inState }
input {
inState.copy(
amount = 150.POUNDS,
owner = DUMMY_PUBKEY_2
)
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}
output { outState.copy(amount = 1150.DOLLARS) }
contract `fails requirement` "all inputs use the same currency"
}
// Can't have superfluous input states from different issuers.
transaction {
input { inState }
input { inState.editInstitution(MINI_CORP) }
output { outState }
contract `fails requirement` "at issuer MiniCorp the amounts balance"
}
// Can't combine two different deposits at the same issuer.
transaction {
input { inState }
input { inState.editDepositRef(3) }
output { outState.copy(amount = inState.amount * 2).editDepositRef(3) }
contract `fails requirement` "for deposit [01]"
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}
}
@Test
fun exitLedger() {
// Single input/output straightforward case.
transaction {
input { inState }
output { outState.copy(amount = inState.amount - 200.DOLLARS) }
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transaction {
arg(MEGA_CORP_KEY) { Cash.Commands.Exit(100.DOLLARS) }
contract `fails requirement` "the amounts balance"
}
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transaction {
arg(MEGA_CORP_KEY) { Cash.Commands.Exit(200.DOLLARS) }
contract `fails requirement` "the owning keys are the same as the signing keys" // No move command.
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transaction {
arg(DUMMY_PUBKEY_1) { Cash.Commands.Move() }
contract.accepts()
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}
}
}
// Multi-issuer case.
transaction {
input { inState }
input { inState.editInstitution(MINI_CORP) }
output { inState.copy(amount = inState.amount - 200.DOLLARS).editInstitution(MINI_CORP) }
output { inState.copy(amount = inState.amount - 200.DOLLARS) }
arg(DUMMY_PUBKEY_1) { Cash.Commands.Move() }
contract `fails requirement` "at issuer MegaCorp the amounts balance"
arg(MEGA_CORP_KEY) { Cash.Commands.Exit(200.DOLLARS) }
contract `fails requirement` "at issuer MiniCorp the amounts balance"
arg(MINI_CORP_KEY) { Cash.Commands.Exit(200.DOLLARS) }
contract.accepts()
}
}
@Test
fun multiIssuer() {
transaction {
// Gather 2000 dollars from two different issuers.
input { inState }
input { inState.editInstitution(MINI_CORP) }
// Can't merge them together.
transaction {
output { inState.copy(owner = DUMMY_PUBKEY_2, amount = 2000.DOLLARS) }
contract `fails requirement` "at issuer MegaCorp the amounts balance"
}
// Missing MiniCorp deposit
transaction {
output { inState.copy(owner = DUMMY_PUBKEY_2) }
output { inState.copy(owner = DUMMY_PUBKEY_2) }
contract `fails requirement` "at issuer MegaCorp the amounts balance"
}
// This works.
output { inState.copy(owner = DUMMY_PUBKEY_2) }
output { inState.copy(owner = DUMMY_PUBKEY_2).editInstitution(MINI_CORP) }
arg(DUMMY_PUBKEY_1) { Cash.Commands.Move() }
contract.accepts()
}
transaction {
input { inState }
input { inState }
}
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}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//
// Spend crafting
val OUR_PUBKEY_1 = DUMMY_PUBKEY_1
val THEIR_PUBKEY_1 = DUMMY_PUBKEY_2
val WALLET = listOf(
Cash.State(InstitutionReference(MEGA_CORP, OpaqueBytes.of(1)), 100.DOLLARS, OUR_PUBKEY_1),
Cash.State(InstitutionReference(MEGA_CORP, OpaqueBytes.of(1)), 400.DOLLARS, OUR_PUBKEY_1),
Cash.State(InstitutionReference(MINI_CORP, OpaqueBytes.of(1)), 80.DOLLARS, OUR_PUBKEY_1),
Cash.State(InstitutionReference(MINI_CORP, OpaqueBytes.of(2)), 80.SWISS_FRANCS, OUR_PUBKEY_1)
)
@Test
fun craftSimpleDirectSpend() {
assertEquals(
transaction {
input { WALLET[0] }
output { WALLET[0].copy(owner = THEIR_PUBKEY_1) }
arg(OUR_PUBKEY_1) { Cash.Commands.Move() }
},
contract.craftSpend(100.DOLLARS, THEIR_PUBKEY_1, WALLET)
)
}
@Test
fun craftSimpleSpendWithChange() {
assertEquals(
transaction {
input { WALLET[0] }
output { WALLET[0].copy(owner = THEIR_PUBKEY_1, amount = 10.DOLLARS) }
output { WALLET[0].copy(owner = OUR_PUBKEY_1, amount = 90.DOLLARS) }
arg(OUR_PUBKEY_1) { Cash.Commands.Move() }
},
contract.craftSpend(10.DOLLARS, THEIR_PUBKEY_1, WALLET)
)
}
@Test
fun craftSpendWithTwoInputs() {
assertEquals(
transaction {
input { WALLET[0] }
input { WALLET[1] }
output { WALLET[0].copy(owner = THEIR_PUBKEY_1, amount = 500.DOLLARS) }
arg(OUR_PUBKEY_1) { Cash.Commands.Move() }
},
contract.craftSpend(500.DOLLARS, THEIR_PUBKEY_1, WALLET)
)
}
@Test
fun craftSpendMixedDeposits() {
assertEquals(
transaction {
input { WALLET[0] }
input { WALLET[1] }
input { WALLET[2] }
output { WALLET[0].copy(owner = THEIR_PUBKEY_1, amount = 500.DOLLARS) }
output { WALLET[2].copy(owner = THEIR_PUBKEY_1) }
arg(OUR_PUBKEY_1) { Cash.Commands.Move() }
},
contract.craftSpend(580.DOLLARS, THEIR_PUBKEY_1, WALLET)
)
}
@Test
fun craftSpendInsufficientBalance() {
assertFailsWith(InsufficientBalanceException::class) {
contract.craftSpend(1000.DOLLARS, THEIR_PUBKEY_1, WALLET)
}
assertFailsWith(InsufficientBalanceException::class) {
contract.craftSpend(81.SWISS_FRANCS, THEIR_PUBKEY_1, WALLET)
}
}
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}