crypto2/src/commonTest/kotlin/ContainerTest.kt

import com.ionspin.kotlin.crypto.util.encodeToUByteArray
import kotlinx.coroutines.test.runTest
import kotlinx.serialization.encodeToString
import kotlinx.serialization.json.Json
import net.sergeych.crypto2.*
import kotlin.test.*

class ContainerTest {
    @Test
    fun testSingle() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val data = "sergeych, ohm many.".encodeToUByteArray()

        val c = Container.createWith(data, syk1)
        assertTrue { c.isDecrypted }
        val c1 = Container.decode(c.encoded)
        assertFalse { c1.isDecrypted }
        assertIs<Container.Single>(c)

        assertNull(c1.decryptWith(syk2))
        val d = c1.decryptWith(syk2, syk1)
        assertNotNull(d)
        assertContentEquals(data, d)
        assertTrue { c1.isDecrypted }

        val data2 = "To push unpushinable".encodeToUByteArray()
        val c2 = Container.decode(c.updateData(data2).encoded)
        assertFalse { c2.isDecrypted }
        assertContentEquals(data2, c2.decryptWith(syk1))
    }

    @Test
    fun testSinglePair() = runTest {
        initCrypto()
        val p1 = Asymmetric.generateKeys()
        val p2 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val data = "sergeych, ohm many.".encodeToUByteArray()

        val c = Container.createWith(data, p1.secretKey to p2.publicKey)
        assertTrue { c.isDecrypted }
        val c1 = Container.decode(c.encoded)
        assertFalse { c1.isDecrypted }
        assertIs<Container.Single>(c)

        assertNull(c1.decryptWith(p3.secretKey))
        val d = c1.decryptWith(p3.secretKey, p2.secretKey)
        assertNotNull(d)
        assertContentEquals(data, d)
        assertTrue { c1.isDecrypted }

        val data2 = "To push unpushinable".encodeToUByteArray()
        val c2 = Container.decode(c.updateData(data2).encoded)
        assertFalse { c2.isDecrypted }
        assertContentEquals(data2, c2.decryptWith(p2.secretKey))
    }

    @Test
    fun testSingleAsymmetric() = runTest {
        initCrypto()
//        val p1 = Asymmetric.generateKeys()
        val p2 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val data = "sergeych, ohm many.".encodeToUByteArray()

        val c = Container.create(data) { key(p2.publicKey) }
        assertTrue { c.isDecrypted }
        val c1 = Container.decode(c.encoded)
        println(Json.encodeToString(c1))
        assertFalse { c1.isDecrypted }
        assertIs<Container.Single>(c)

        assertNull(c1.decryptWith(p3.secretKey))
        val d = c1.decryptWith(p3.secretKey, p2.secretKey)
        assertNotNull(d)
        assertContentEquals(data, d)
        assertTrue { c1.isDecrypted }

        val data2 = "To push unpushinable".encodeToUByteArray()
        val c2 = Container.decode(c.updateData(data2).encoded)
        assertFalse { c2.isDecrypted }
        assertContentEquals(data2, c2.decryptWith(p2.secretKey))
    }

    @Test
    fun testMultipleSymmetric() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val syk3 = SymmetricKey.new()
        val p1 = Asymmetric.generateKeys()
        val p2 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val p4 = Asymmetric.generateKeys()
        val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"
            .encodeToUByteArray()

        val c = Container.createWith(data, syk1, syk2) {
            key(p1.secretKey to p3.publicKey)
            key(p4.publicKey)
        }
        assertTrue { c.isDecrypted }
        var c1 = Container.decode(c.encoded)
        assertFalse { c1.isDecrypted }

        assertNull(c1.decryptWith(syk3))
        assertFalse { c1.isDecrypted }

        assertContentEquals(data, c1.decryptWith(syk3, syk1))
        assertTrue { c1.isDecrypted }

        c1 = Container.decode(c.encoded)
        assertFalse { c1.isDecrypted }
        assertNull(c1.decryptWith(p2.secretKey, p1.secretKey))
        assertContentEquals(data, c1.decryptWith(syk3, p3.secretKey))

        c1 = Container.decode(c.encoded)
        assertFalse { c1.isDecrypted }
        assertContentEquals(data, c1.decryptWith(syk3, p4.secretKey))

        val data2 = "To push unpushinable".encodeToUByteArray()
        assertTrue { c.isDecrypted }
        val c2 = Container.decode(c.updateData(data2).encoded)
        assertFalse { c2.isDecrypted }
        assertContentEquals(data2, c2.decryptWith(syk2))

    }

    @Test
    fun testSingleGrowSymmetric() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val syk3 = SymmetricKey.new()
        val p1 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val p4 = Asymmetric.generateKeys()
        val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"
            .encodeToUByteArray()

        var c = Container.createWith(data, syk1)
        assertTrue { c.isDecrypted }

        fun expectOpen(k: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            assertContentEquals(data, c1.decryptWith(k))
        }

        fun expectNotOpen(k: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            assertNull(c1.decryptWith(k))
        }

        expectOpen(syk1)
        expectNotOpen(syk2)
        expectNotOpen(p3.secretKey)

        c.decryptWith(syk1)
        assertTrue { c.isDecrypted }
        assertNotNull(c.decryptedData)
        c += syk2
        expectOpen(syk1)
        expectOpen(syk2)
        expectNotOpen(syk3)
        expectNotOpen(p3.secretKey)

        c.decryptWith(syk1)
        c += p3.publicKey
        expectOpen(syk1)
        expectOpen(syk2)
        expectOpen(p3.secretKey)
        expectNotOpen(syk3)
        expectNotOpen(p4.secretKey)

        c.decryptWith(syk1)
        c += p1.secretKey to p4.publicKey
        expectOpen(syk1)
        expectOpen(syk2)
        expectOpen(p3.secretKey)
        expectNotOpen(syk3)
        expectOpen(p4.secretKey)

        val data2 = "To push unpushinable".encodeToUByteArray()
        assertTrue { c.isDecrypted }
        val c2 = Container.decode(c.updateData(data2).encoded)
        assertFalse { c2.isDecrypted }
        assertContentEquals(data2, c2.decryptWith(p4.secretKey))

    }

    @Test
    fun testSingleGrowAsymmetric() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val p1 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"
            .encodeToUByteArray()

        var c = Container.createWith(data, p1.secretKey to p3.publicKey)

        fun expectOpen(k: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            assertContentEquals(data, c1.decryptWith(k))
        }

        fun expectNotOpen(k: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            assertNull(c1.decryptWith(k))
        }

        expectNotOpen(syk1)
        expectOpen(p3.secretKey)

        c.decryptWith(p3.secretKey)

        c += syk1
        expectOpen(syk1)
        expectNotOpen(syk2)
        expectOpen(p3.secretKey)
    }

    @Test
    fun testMixedOps1() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val syk3 = SymmetricKey.new()
        val p1 = Asymmetric.generateKeys()
        val p2 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val p4 = Asymmetric.generateKeys()
        val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"
            .encodeToUByteArray()

        var c = Container.createWith(data, p1.secretKey to p3.publicKey)

        fun expectOpen(testData: UByteArray,vararg keys: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            for( k in keys)
                assertContentEquals(testData, c1.decryptWith(k))
        }

        fun expectNotOpen(vararg keys: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            for(k in keys) assertNull(c1.decryptWith(k))
        }

        expectNotOpen(syk1)
        expectOpen(data, p3.secretKey)

//        c = Container.decode(c.encoded)

        val data2 = "Cocktails have a delicious, complex taste".encodeToUByteArray()
        c = (c + syk3 + (p1.secretKey to p4.publicKey)).updateData(data2)
        expectNotOpen(syk2, syk1, p1.secretKey, p2.secretKey )
        expectOpen(data2, syk3, p3.secretKey, p4.secretKey)
    }

    @Test
    fun testMixedOps2() = runTest {
        initCrypto()
        val syk1 = SymmetricKey.new()
        val syk2 = SymmetricKey.new()
        val syk3 = SymmetricKey.new()
        val p1 = Asymmetric.generateKeys()
        val p2 = Asymmetric.generateKeys()
        val p3 = Asymmetric.generateKeys()
        val p4 = Asymmetric.generateKeys()
        val p5 = Asymmetric.generateKeys()
        val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"
            .encodeToUByteArray()

        var c = Container.createWith(data, p1.secretKey to p3.publicKey)

        fun expectOpen(testData: UByteArray,vararg keys: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            for( k in keys)
                assertContentEquals(testData, c1.decryptWith(k))
        }

        fun expectNotOpen(vararg keys: DecryptingKey) {
            val c1 = Container.decode(c.encoded)
            for(k in keys) assertNull(c1.decryptWith(k))
        }

        expectNotOpen(syk1)
        expectOpen(data, p3.secretKey)

        c = Container.decode(c.encoded)
        c.decryptWith(p3.secretKey)

        val data2 = "Cocktails have a delicious, complex taste".encodeToUByteArray()
        c = (c + syk3 + p5.publicKey + (p1.secretKey to p4.publicKey)).updateData(data2)
        expectNotOpen(syk2, syk1, p1.secretKey, p2.secretKey )
        expectOpen(data2, syk3, p3.secretKey, p4.secretKey)
    }

}
Container started 2024-06-19 16:46:32 +07:00			`import com.ionspin.kotlin.crypto.util.encodeToUByteArray`
			`import kotlinx.coroutines.test.runTest`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`import kotlinx.serialization.encodeToString`
			`import kotlinx.serialization.json.Json`
working container with adding keys 2024-06-19 20:17:39 +07:00			`import net.sergeych.crypto2.*`
Container started 2024-06-19 16:46:32 +07:00			`import kotlin.test.*`

			`class ContainerTest {`
			`@Test`
			`fun testSingle() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
Container started 2024-06-19 16:46:32 +07:00			`val data = "sergeych, ohm many.".encodeToUByteArray()`

working container with adding keys 2024-06-19 20:17:39 +07:00			`val c = Container.createWith(data, syk1)`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`assertTrue { c.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`val c1 = Container.decode(c.encoded)`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`assertFalse { c1.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`assertIs<Container.Single>(c)`

			`assertNull(c1.decryptWith(syk2))`
			`val d = c1.decryptWith(syk2, syk1)`
			`assertNotNull(d)`
			`assertContentEquals(data, d)`
			`assertTrue { c1.isDecrypted }`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`val data2 = "To push unpushinable".encodeToUByteArray()`
			`val c2 = Container.decode(c.updateData(data2).encoded)`
			`assertFalse { c2.isDecrypted }`
			`assertContentEquals(data2, c2.decryptWith(syk1))`
Container started 2024-06-19 16:46:32 +07:00			`}`

			`@Test`
			`fun testSinglePair() = runTest {`
			`initCrypto()`
			`val p1 = Asymmetric.generateKeys()`
			`val p2 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val data = "sergeych, ohm many.".encodeToUByteArray()`

working container with adding keys 2024-06-19 20:17:39 +07:00			`val c = Container.createWith(data, p1.secretKey to p2.publicKey)`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`assertTrue { c.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`val c1 = Container.decode(c.encoded)`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`assertFalse { c1.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`assertIs<Container.Single>(c)`

			`assertNull(c1.decryptWith(p3.secretKey))`
			`val d = c1.decryptWith(p3.secretKey, p2.secretKey)`
			`assertNotNull(d)`
			`assertContentEquals(data, d)`
			`assertTrue { c1.isDecrypted }`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`val data2 = "To push unpushinable".encodeToUByteArray()`
			`val c2 = Container.decode(c.updateData(data2).encoded)`
			`assertFalse { c2.isDecrypted }`
			`assertContentEquals(data2, c2.decryptWith(p2.secretKey))`
Container started 2024-06-19 16:46:32 +07:00			`}`

			`@Test`
			`fun testSingleAsymmetric() = runTest {`
			`initCrypto()`
			`// val p1 = Asymmetric.generateKeys()`
			`val p2 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val data = "sergeych, ohm many.".encodeToUByteArray()`

			`val c = Container.create(data) { key(p2.publicKey) }`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`assertTrue { c.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`val c1 = Container.decode(c.encoded)`
fix #5 Just created container is decrypted and can be used to add keys, etc. 2024-06-20 09:27:10 +07:00			`println(Json.encodeToString(c1))`
			`assertFalse { c1.isDecrypted }`
Container started 2024-06-19 16:46:32 +07:00			`assertIs<Container.Single>(c)`

			`assertNull(c1.decryptWith(p3.secretKey))`
			`val d = c1.decryptWith(p3.secretKey, p2.secretKey)`
			`assertNotNull(d)`
			`assertContentEquals(data, d)`
			`assertTrue { c1.isDecrypted }`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`val data2 = "To push unpushinable".encodeToUByteArray()`
			`val c2 = Container.decode(c.updateData(data2).encoded)`
			`assertFalse { c2.isDecrypted }`
			`assertContentEquals(data2, c2.decryptWith(p2.secretKey))`
Container started 2024-06-19 16:46:32 +07:00			`}`

			`@Test`
			`fun testMultipleSymmetric() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
			`val syk3 = SymmetricKey.new()`
working container with adding keys 2024-06-19 20:17:39 +07:00			`val p1 = Asymmetric.generateKeys()`
			`val p2 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val p4 = Asymmetric.generateKeys()`
Container started 2024-06-19 16:46:32 +07:00			`val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"`
			`.encodeToUByteArray()`

working container with adding keys 2024-06-19 20:17:39 +07:00			`val c = Container.createWith(data, syk1, syk2) {`
			`key(p1.secretKey to p3.publicKey)`
			`key(p4.publicKey)`
			`}`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`assertTrue { c.isDecrypted }`
working container with adding keys 2024-06-19 20:17:39 +07:00			`var c1 = Container.decode(c.encoded)`
			`assertFalse { c1.isDecrypted }`

			`assertNull(c1.decryptWith(syk3))`
			`assertFalse { c1.isDecrypted }`

			`assertContentEquals(data, c1.decryptWith(syk3, syk1))`
			`assertTrue { c1.isDecrypted }`

			`c1 = Container.decode(c.encoded)`
			`assertFalse { c1.isDecrypted }`
			`assertNull(c1.decryptWith(p2.secretKey, p1.secretKey))`
			`assertContentEquals(data, c1.decryptWith(syk3, p3.secretKey))`

			`c1 = Container.decode(c.encoded)`
Container started 2024-06-19 16:46:32 +07:00			`assertFalse { c1.isDecrypted }`
working container with adding keys 2024-06-19 20:17:39 +07:00			`assertContentEquals(data, c1.decryptWith(syk3, p4.secretKey))`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`val data2 = "To push unpushinable".encodeToUByteArray()`
			`assertTrue { c.isDecrypted }`
			`val c2 = Container.decode(c.updateData(data2).encoded)`
			`assertFalse { c2.isDecrypted }`
			`assertContentEquals(data2, c2.decryptWith(syk2))`

working container with adding keys 2024-06-19 20:17:39 +07:00			`}`

			`@Test`
			`fun testSingleGrowSymmetric() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
			`val syk3 = SymmetricKey.new()`
working container with adding keys 2024-06-19 20:17:39 +07:00			`val p1 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val p4 = Asymmetric.generateKeys()`
			`val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"`
			`.encodeToUByteArray()`

			`var c = Container.createWith(data, syk1)`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`assertTrue { c.isDecrypted }`
working container with adding keys 2024-06-19 20:17:39 +07:00
			`fun expectOpen(k: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`assertContentEquals(data, c1.decryptWith(k))`
			`}`

			`fun expectNotOpen(k: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`assertNull(c1.decryptWith(k))`
			`}`

			`expectOpen(syk1)`
			`expectNotOpen(syk2)`
			`expectNotOpen(p3.secretKey)`

			`c.decryptWith(syk1)`
			`assertTrue { c.isDecrypted }`
			`assertNotNull(c.decryptedData)`
			`c += syk2`
			`expectOpen(syk1)`
			`expectOpen(syk2)`
			`expectNotOpen(syk3)`
			`expectNotOpen(p3.secretKey)`

			`c.decryptWith(syk1)`
			`c += p3.publicKey`
			`expectOpen(syk1)`
			`expectOpen(syk2)`
			`expectOpen(p3.secretKey)`
			`expectNotOpen(syk3)`
			`expectNotOpen(p4.secretKey)`

			`c.decryptWith(syk1)`
			`c += p1.secretKey to p4.publicKey`
			`expectOpen(syk1)`
			`expectOpen(syk2)`
			`expectOpen(p3.secretKey)`
			`expectNotOpen(syk3)`
			`expectOpen(p4.secretKey)`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`val data2 = "To push unpushinable".encodeToUByteArray()`
			`assertTrue { c.isDecrypted }`
			`val c2 = Container.decode(c.updateData(data2).encoded)`
			`assertFalse { c2.isDecrypted }`
			`assertContentEquals(data2, c2.decryptWith(p4.secretKey))`

working container with adding keys 2024-06-19 20:17:39 +07:00			`}`

			`@Test`
			`fun testSingleGrowAsymmetric() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
working container with adding keys 2024-06-19 20:17:39 +07:00			`val p1 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"`
			`.encodeToUByteArray()`

			`var c = Container.createWith(data, p1.secretKey to p3.publicKey)`

			`fun expectOpen(k: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`assertContentEquals(data, c1.decryptWith(k))`
			`}`

			`fun expectNotOpen(k: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`assertNull(c1.decryptWith(k))`
			`}`

			`expectNotOpen(syk1)`
			`expectOpen(p3.secretKey)`

			`c.decryptWith(p3.secretKey)`

			`c += syk1`
			`expectOpen(syk1)`
			`expectNotOpen(syk2)`
			`expectOpen(p3.secretKey)`
Container started 2024-06-19 16:46:32 +07:00			`}`
fix #4 update data in container 2024-06-20 10:25:15 +07:00
			`@Test`
			`fun testMixedOps1() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
			`val syk3 = SymmetricKey.new()`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`val p1 = Asymmetric.generateKeys()`
			`val p2 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val p4 = Asymmetric.generateKeys()`
			`val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"`
			`.encodeToUByteArray()`

			`var c = Container.createWith(data, p1.secretKey to p3.publicKey)`

			`fun expectOpen(testData: UByteArray,vararg keys: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`for( k in keys)`
			`assertContentEquals(testData, c1.decryptWith(k))`
			`}`

			`fun expectNotOpen(vararg keys: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`for(k in keys) assertNull(c1.decryptWith(k))`
			`}`

			`expectNotOpen(syk1)`
			`expectOpen(data, p3.secretKey)`

			`// c = Container.decode(c.encoded)`

			`val data2 = "Cocktails have a delicious, complex taste".encodeToUByteArray()`
			`c = (c + syk3 + (p1.secretKey to p4.publicKey)).updateData(data2)`
			`expectNotOpen(syk2, syk1, p1.secretKey, p2.secretKey )`
			`expectOpen(data2, syk3, p3.secretKey, p4.secretKey)`
			`}`

			`@Test`
			`fun testMixedOps2() = runTest {`
			`initCrypto()`
refactored keys, unversal keys and ring 2024-06-22 18:18:14 +07:00			`val syk1 = SymmetricKey.new()`
			`val syk2 = SymmetricKey.new()`
			`val syk3 = SymmetricKey.new()`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`val p1 = Asymmetric.generateKeys()`
			`val p2 = Asymmetric.generateKeys()`
			`val p3 = Asymmetric.generateKeys()`
			`val p4 = Asymmetric.generateKeys()`
more docs 2024-06-20 18:37:16 +07:00			`val p5 = Asymmetric.generateKeys()`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`val data = "Translating the name 'Sergey Chernov' from Russian to archaic Sanskrit would be 'Ramo Krishna'"`
			`.encodeToUByteArray()`

			`var c = Container.createWith(data, p1.secretKey to p3.publicKey)`

			`fun expectOpen(testData: UByteArray,vararg keys: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`for( k in keys)`
			`assertContentEquals(testData, c1.decryptWith(k))`
			`}`

			`fun expectNotOpen(vararg keys: DecryptingKey) {`
			`val c1 = Container.decode(c.encoded)`
			`for(k in keys) assertNull(c1.decryptWith(k))`
			`}`

			`expectNotOpen(syk1)`
			`expectOpen(data, p3.secretKey)`

			`c = Container.decode(c.encoded)`
			`c.decryptWith(p3.secretKey)`

			`val data2 = "Cocktails have a delicious, complex taste".encodeToUByteArray()`
more docs 2024-06-20 18:37:16 +07:00			`c = (c + syk3 + p5.publicKey + (p1.secretKey to p4.publicKey)).updateData(data2)`
fix #4 update data in container 2024-06-20 10:25:15 +07:00			`expectNotOpen(syk2, syk1, p1.secretKey, p2.secretKey )`
			`expectOpen(data2, syk3, p3.secretKey, p4.secretKey)`
			`}`

Container started 2024-06-19 16:46:32 +07:00			`}`