Rename syntax checker enums to screaming snake case

pgpainless-core/src/main/java/org/pgpainless/decryption_verification/OpenPgpMessageInputStream.java

@@ -342,7 +342,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
 
     private void processLiteralData() throws IOException {
         LOGGER.debug("Literal Data Packet at depth " + metadata.depth + " encountered");
-        syntaxVerifier.next(InputSymbol.LiteralData);
+        syntaxVerifier.next(InputSymbol.LITERAL_DATA);
         PGPLiteralData literalData = packetInputStream.readLiteralData();
         // Extract Metadata
         this.metadata.setChild(new MessageMetadata.LiteralData(
@@ -354,7 +354,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
     }
 
     private void processCompressedData() throws IOException, PGPException {
-        syntaxVerifier.next(InputSymbol.CompressedData);
+        syntaxVerifier.next(InputSymbol.COMPRESSED_DATA);
         signatures.enterNesting();
         PGPCompressedData compressedData = packetInputStream.readCompressedData();
         // Extract Metadata
@@ -368,7 +368,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
     }
 
     private void processOnePassSignature() throws PGPException, IOException {
-        syntaxVerifier.next(InputSymbol.OnePassSignature);
+        syntaxVerifier.next(InputSymbol.ONE_PASS_SIGNATURE);
         PGPOnePassSignature onePassSignature = packetInputStream.readOnePassSignature();
         LOGGER.debug("One-Pass-Signature Packet by key " + KeyIdUtil.formatKeyId(onePassSignature.getKeyID()) +
                 " at depth " + metadata.depth + " encountered");
@@ -377,8 +377,8 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
 
     private void processSignature() throws PGPException, IOException {
         // true if Signature corresponds to OnePassSignature
-        boolean isSigForOPS = syntaxVerifier.peekStack() == StackSymbol.ops;
-        syntaxVerifier.next(InputSymbol.Signature);
+        boolean isSigForOPS = syntaxVerifier.peekStack() == StackSymbol.OPS;
+        syntaxVerifier.next(InputSymbol.SIGNATURE);
         PGPSignature signature;
         try {
             signature = packetInputStream.readSignature();
@@ -404,7 +404,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
 
     private boolean processEncryptedData() throws IOException, PGPException {
         LOGGER.debug("Symmetrically Encrypted Data Packet at depth " + metadata.depth + " encountered");
-        syntaxVerifier.next(InputSymbol.EncryptedData);
+        syntaxVerifier.next(InputSymbol.ENCRYPTED_DATA);
         PGPEncryptedDataList encDataList = packetInputStream.readEncryptedDataList();
 
         if (!encDataList.isIntegrityProtected()) {
@@ -749,7 +749,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
             throws IOException {
         if (nestedInputStream == null) {
             if (packetInputStream != null) {
-                syntaxVerifier.next(InputSymbol.EndOfSequence);
+                syntaxVerifier.next(InputSymbol.END_OF_SEQUENCE);
                 syntaxVerifier.assertValid();
             }
             return -1;
@@ -780,7 +780,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
         super.close();
         if (closed) {
             if (packetInputStream != null) {
-                syntaxVerifier.next(InputSymbol.EndOfSequence);
+                syntaxVerifier.next(InputSymbol.END_OF_SEQUENCE);
                 syntaxVerifier.assertValid();
             }
             return;
@@ -799,7 +799,7 @@ public class OpenPgpMessageInputStream extends DecryptionStream {
         }
 
         if (packetInputStream != null) {
-            syntaxVerifier.next(InputSymbol.EndOfSequence);
+            syntaxVerifier.next(InputSymbol.END_OF_SEQUENCE);
             syntaxVerifier.assertValid();
             packetInputStream.close();
         }

pgpainless-core/src/main/kotlin/org/pgpainless/decryption_verification/syntax_check/InputSymbol.kt

@@ -8,32 +8,32 @@ enum class InputSymbol {
     /**
      * A [PGPLiteralData] packet.
      */
-    LiteralData,
+    LITERAL_DATA,
     /**
      * A [PGPSignatureList] object.
      */
-    Signature,
+    SIGNATURE,
     /**
      * A [PGPOnePassSignatureList] object.
      */
-    OnePassSignature,
+    ONE_PASS_SIGNATURE,
     /**
      * A [PGPCompressedData] packet.
      * The contents of this packet MUST form a valid OpenPGP message, so a nested PDA is opened to verify
      * its nested packet sequence.
      */
-    CompressedData,
+    COMPRESSED_DATA,
     /**
      * A [PGPEncryptedDataList] object.
      * This object combines multiple ESKs and the corresponding Symmetrically Encrypted
      * (possibly Integrity Protected) Data packet.
      */
-    EncryptedData,
+    ENCRYPTED_DATA,
     /**
      * Marks the end of a (sub-) sequence.
      * This input is given if the end of an OpenPGP message is reached.
      * This might be the case for the end of the whole ciphertext, or the end of a packet with nested contents
      * (e.g. the end of a Compressed Data packet).
      */
-    EndOfSequence
+    END_OF_SEQUENCE
 }

pgpainless-core/src/main/kotlin/org/pgpainless/decryption_verification/syntax_check/OpenPgpMessageSyntax.kt

@@ -17,72 +17,72 @@ class OpenPgpMessageSyntax : Syntax {
 
     override fun transition(from: State, input: InputSymbol, stackItem: StackSymbol?): Transition {
         return when (from) {
-            State.OpenPgpMessage -> fromOpenPgpMessage(input, stackItem)
-            State.LiteralMessage -> fromLiteralMessage(input, stackItem)
-            State.CompressedMessage -> fromCompressedMessage(input, stackItem)
-            State.EncryptedMessage -> fromEncryptedMessage(input, stackItem)
-            State.Valid -> fromValid(input, stackItem)
+            State.OPENPGP_MESSAGE -> fromOpenPgpMessage(input, stackItem)
+            State.LITERAL_MESSAGE -> fromLiteralMessage(input, stackItem)
+            State.COMPRESSED_MESSAGE -> fromCompressedMessage(input, stackItem)
+            State.ENCRYPTED_MESSAGE -> fromEncryptedMessage(input, stackItem)
+            State.VALID -> fromValid(input, stackItem)
             else -> throw MalformedOpenPgpMessageException(from, input, stackItem)
         }
     }
 
     fun fromOpenPgpMessage(input: InputSymbol, stackItem: StackSymbol?): Transition {
-        if (stackItem !== StackSymbol.msg) {
-            throw MalformedOpenPgpMessageException(State.OpenPgpMessage, input, stackItem)
+        if (stackItem !== StackSymbol.MSG) {
+            throw MalformedOpenPgpMessageException(State.OPENPGP_MESSAGE, input, stackItem)
         }
         return when (input) {
-            InputSymbol.LiteralData -> Transition(State.LiteralMessage)
-            InputSymbol.Signature -> Transition(State.OpenPgpMessage, StackSymbol.msg)
-            InputSymbol.OnePassSignature -> Transition(State.OpenPgpMessage, StackSymbol.ops, StackSymbol.msg)
-            InputSymbol.CompressedData -> Transition(State.CompressedMessage)
-            InputSymbol.EncryptedData -> Transition(State.EncryptedMessage)
-            InputSymbol.EndOfSequence -> throw MalformedOpenPgpMessageException(State.OpenPgpMessage, input, stackItem)
-            else -> throw MalformedOpenPgpMessageException(State.OpenPgpMessage, input, stackItem)
+            InputSymbol.LITERAL_DATA -> Transition(State.LITERAL_MESSAGE)
+            InputSymbol.SIGNATURE -> Transition(State.OPENPGP_MESSAGE, StackSymbol.MSG)
+            InputSymbol.ONE_PASS_SIGNATURE -> Transition(State.OPENPGP_MESSAGE, StackSymbol.OPS, StackSymbol.MSG)
+            InputSymbol.COMPRESSED_DATA -> Transition(State.COMPRESSED_MESSAGE)
+            InputSymbol.ENCRYPTED_DATA -> Transition(State.ENCRYPTED_MESSAGE)
+            InputSymbol.END_OF_SEQUENCE -> throw MalformedOpenPgpMessageException(State.OPENPGP_MESSAGE, input, stackItem)
+            else -> throw MalformedOpenPgpMessageException(State.OPENPGP_MESSAGE, input, stackItem)
         }
     }
 
     @Throws(MalformedOpenPgpMessageException::class)
     fun fromLiteralMessage(input: InputSymbol, stackItem: StackSymbol?): Transition {
-        if (input == InputSymbol.Signature && stackItem == StackSymbol.ops) {
-            return Transition(State.LiteralMessage)
+        if (input == InputSymbol.SIGNATURE && stackItem == StackSymbol.OPS) {
+            return Transition(State.LITERAL_MESSAGE)
         }
-        if (input == InputSymbol.EndOfSequence && stackItem == StackSymbol.terminus) {
-            return Transition(State.Valid)
+        if (input == InputSymbol.END_OF_SEQUENCE && stackItem == StackSymbol.TERMINUS) {
+            return Transition(State.VALID)
         }
 
-        throw MalformedOpenPgpMessageException(State.LiteralMessage, input, stackItem)
+        throw MalformedOpenPgpMessageException(State.LITERAL_MESSAGE, input, stackItem)
     }
 
     @Throws(MalformedOpenPgpMessageException::class)
     fun fromCompressedMessage(input: InputSymbol, stackItem: StackSymbol?): Transition {
-        if (input == InputSymbol.Signature && stackItem == StackSymbol.ops) {
-            return Transition(State.CompressedMessage)
+        if (input == InputSymbol.SIGNATURE && stackItem == StackSymbol.OPS) {
+            return Transition(State.COMPRESSED_MESSAGE)
         }
-        if (input == InputSymbol.EndOfSequence && stackItem == StackSymbol.terminus) {
-            return Transition(State.Valid)
+        if (input == InputSymbol.END_OF_SEQUENCE && stackItem == StackSymbol.TERMINUS) {
+            return Transition(State.VALID)
         }
 
-        throw MalformedOpenPgpMessageException(State.CompressedMessage, input, stackItem)
+        throw MalformedOpenPgpMessageException(State.COMPRESSED_MESSAGE, input, stackItem)
     }
 
     @Throws(MalformedOpenPgpMessageException::class)
     fun fromEncryptedMessage(input: InputSymbol, stackItem: StackSymbol?): Transition {
-        if (input == InputSymbol.Signature && stackItem == StackSymbol.ops) {
-            return Transition(State.EncryptedMessage)
+        if (input == InputSymbol.SIGNATURE && stackItem == StackSymbol.OPS) {
+            return Transition(State.ENCRYPTED_MESSAGE)
         }
-        if (input == InputSymbol.EndOfSequence && stackItem == StackSymbol.terminus) {
-            return Transition(State.Valid)
+        if (input == InputSymbol.END_OF_SEQUENCE && stackItem == StackSymbol.TERMINUS) {
+            return Transition(State.VALID)
         }
 
-        throw MalformedOpenPgpMessageException(State.EncryptedMessage, input, stackItem)
+        throw MalformedOpenPgpMessageException(State.ENCRYPTED_MESSAGE, input, stackItem)
     }
 
     @Throws(MalformedOpenPgpMessageException::class)
     fun fromValid(input: InputSymbol, stackItem: StackSymbol?): Transition {
-        if (input == InputSymbol.EndOfSequence) {
+        if (input == InputSymbol.END_OF_SEQUENCE) {
             // allow subsequent read() calls.
-            return Transition(State.Valid)
+            return Transition(State.VALID)
         }
-        throw MalformedOpenPgpMessageException(State.Valid, input, stackItem)
+        throw MalformedOpenPgpMessageException(State.VALID, input, stackItem)
     }
 }

pgpainless-core/src/main/kotlin/org/pgpainless/decryption_verification/syntax_check/PDA.kt

@@ -33,7 +33,7 @@ class PDA constructor(
     /**
      * Default constructor which initializes the PDA to work with the [OpenPgpMessageSyntax].
      */
-    constructor(): this(OpenPgpMessageSyntax(), State.OpenPgpMessage, StackSymbol.terminus, StackSymbol.msg)
+    constructor(): this(OpenPgpMessageSyntax(), State.OPENPGP_MESSAGE, StackSymbol.TERMINUS, StackSymbol.MSG)
 
     /**
      * Process the next [InputSymbol].
@@ -78,7 +78,7 @@ class PDA constructor(
      *
      * @return true if valid, false otherwise
      */
-    fun isValid(): Boolean = state == State.Valid && stack.isEmpty()
+    fun isValid(): Boolean = state == State.VALID && stack.isEmpty()
 
     /**
      * Throw a [MalformedOpenPgpMessageException] if the pda is not in a valid state right now.

pgpainless-core/src/main/kotlin/org/pgpainless/decryption_verification/syntax_check/StackSymbol.kt

@@ -8,13 +8,13 @@ enum class StackSymbol {
     /**
      * OpenPGP Message.
      */
-    msg,
+    MSG,
     /**
      * OnePassSignature (in case of BC this represents a OnePassSignatureList).
      */
-    ops,
+    OPS,
     /**
      * Special symbol representing the end of the message.
      */
-    terminus
+    TERMINUS
 }

pgpainless-core/src/main/kotlin/org/pgpainless/decryption_verification/syntax_check/State.kt

@@ -8,9 +8,9 @@ package org.pgpainless.decryption_verification.syntax_check
  * Set of states of the automaton.
  */
 enum class State {
-    OpenPgpMessage,
-    LiteralMessage,
-    CompressedMessage,
-    EncryptedMessage,
-    Valid
+    OPENPGP_MESSAGE,
+    LITERAL_MESSAGE,
+    COMPRESSED_MESSAGE,
+    ENCRYPTED_MESSAGE,
+    VALID
 }

pgpainless-core/src/test/java/org/pgpainless/decryption_verification/syntax_check/PDATest.java

@@ -21,8 +21,8 @@ public class PDATest {
     @Test
     public void testSimpleLiteralMessageIsValid() throws MalformedOpenPgpMessageException {
         PDA check = new PDA();
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }
@@ -35,10 +35,10 @@ public class PDATest {
     @Test
     public void testSimpleOpsSignedMesssageIsValid() throws MalformedOpenPgpMessageException {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }
@@ -52,9 +52,9 @@ public class PDATest {
     @Test
     public void testSimplePrependSignedMessageIsValid() throws MalformedOpenPgpMessageException {
         PDA check = new PDA();
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }
@@ -68,11 +68,11 @@ public class PDATest {
     @Test
     public void testOPSSignedCompressedMessageIsValid() throws MalformedOpenPgpMessageException {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.CompressedData);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.COMPRESSED_DATA);
         // Here would be a nested PDA for the LiteralData packet
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }
@@ -80,105 +80,105 @@ public class PDATest {
     @Test
     public void testOPSSignedEncryptedMessageIsValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.EncryptedData);
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.ENCRYPTED_DATA);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.END_OF_SEQUENCE);
         assertTrue(check.isValid());
     }
 
     @Test
     public void anyInputAfterEOSIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.END_OF_SEQUENCE);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.Signature));
+                () -> check.next(InputSymbol.SIGNATURE));
     }
 
     @Test
     public void testEncryptedMessageWithAppendedStandaloneSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.EncryptedData);
+        check.next(InputSymbol.ENCRYPTED_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.Signature));
+                () -> check.next(InputSymbol.SIGNATURE));
     }
 
     @Test
     public void testOPSSignedEncryptedMessageWithMissingSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.EncryptedData);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.ENCRYPTED_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.EndOfSequence));
+                () -> check.next(InputSymbol.END_OF_SEQUENCE));
     }
 
     @Test
     public void testTwoLiteralDataIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.LiteralData);
+        check.next(InputSymbol.LITERAL_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.LiteralData));
+                () -> check.next(InputSymbol.LITERAL_DATA));
     }
 
     @Test
     public void testTrailingSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.LiteralData);
+        check.next(InputSymbol.LITERAL_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.Signature));
+                () -> check.next(InputSymbol.SIGNATURE));
     }
 
     @Test
     public void testOPSAloneIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.EndOfSequence));
+                () -> check.next(InputSymbol.END_OF_SEQUENCE));
     }
 
     @Test
     public void testOPSLitWithMissingSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.LiteralData);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.LITERAL_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.EndOfSequence));
+                () -> check.next(InputSymbol.END_OF_SEQUENCE));
     }
 
     @Test
     public void testCompressedMessageWithStandalongAppendedSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.CompressedData);
+        check.next(InputSymbol.COMPRESSED_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.Signature));
+                () -> check.next(InputSymbol.SIGNATURE));
     }
 
     @Test
     public void testOPSCompressedDataWithMissingSigIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.CompressedData);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.COMPRESSED_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.EndOfSequence));
+                () -> check.next(InputSymbol.END_OF_SEQUENCE));
     }
 
     @Test
     public void testCompressedMessageFollowedByTrailingLiteralDataIsNotValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.CompressedData);
+        check.next(InputSymbol.COMPRESSED_DATA);
         assertThrows(MalformedOpenPgpMessageException.class,
-                () -> check.next(InputSymbol.LiteralData));
+                () -> check.next(InputSymbol.LITERAL_DATA));
     }
 
     @Test
     public void testOPSWithPrependedSigIsValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }
@@ -186,11 +186,11 @@ public class PDATest {
     @Test
     public void testPrependedSigInsideOPSSignedMessageIsValid() {
         PDA check = new PDA();
-        check.next(InputSymbol.OnePassSignature);
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.LiteralData);
-        check.next(InputSymbol.Signature);
-        check.next(InputSymbol.EndOfSequence);
+        check.next(InputSymbol.ONE_PASS_SIGNATURE);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.LITERAL_DATA);
+        check.next(InputSymbol.SIGNATURE);
+        check.next(InputSymbol.END_OF_SEQUENCE);
 
         assertTrue(check.isValid());
     }