Index - Java Websocket

Summary report generated on 2012-02-04T14:47:30Z (UTC) by Autobahn WebSockets v0.4.10.

| Pass | Test case was executed and passed successfully. | | Non-Strict | Test case was executed and passed non-strictly. A non-strict behavior is one that does not adhere to a SHOULD-behavior as described in the protocol specification or a well-defined, canonical behavior that appears to be desirable but left open in the protocol specification. An implementation with non-strict behavior is still conformant to the protocol specification. | | Fail | Test case was executed and failed. An implementation which fails a test case - other than a performance/limits related one - is non-conforming to a MUST-behavior as described in the protocol specification. | | Info | Informational test case which detects certain implementation behavior left unspecified by the spec but nevertheless potentially interesting to implementors. | | Missing | Test case is missing, either because it was skipped via the test suite configuration or deactivated, i.e. because the implementation does not implement the tested feature or breaks during running the test case. |

Case 1.1.1

Case Description

Send text message with payload 0.

Case Expectation

Receive echo'ed text message (with empty payload). Clean close with normal code.

Case 1.1.2

Case Description

Send text message message with payload of length 125.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.3

Case Description

Send text message message with payload of length 126.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.4

Case Description

Send text message message with payload of length 127.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.5

Case Description

Send text message message with payload of length 128.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.6

Case Description

Send text message message with payload of length 65535.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.7

Case Description

Send text message message with payload of length 65536.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.1.8

Case Description

Send text message message with payload of length 65536. Sent out data in chops of 997 octets.

Case Expectation

Receive echo'ed text message (with payload as sent). Clean close with normal code.

Case 1.2.1

Case Description

Send binary message with payload 0.

Case Expectation

Receive echo'ed binary message (with empty payload). Clean close with normal code.

Case 1.2.2

Case Description

Send binary message message with payload of length 125.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.3

Case Description

Send binary message message with payload of length 126.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.4

Case Description

Send binary message message with payload of length 127.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.5

Case Description

Send binary message message with payload of length 128.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.6

Case Description

Send binary message message with payload of length 65535.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.7

Case Description

Send binary message message with payload of length 65536.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 1.2.8

Case Description

Send binary message message with payload of length 65536. Sent out data in chops of 997 octets.

Case Expectation

Receive echo'ed binary message (with payload as sent). Clean close with normal code.

Case 2.1

Case Description

Send ping without payload.

Case Expectation

Pong (with empty payload) is sent in reply to Ping. Clean close with normal code.

Case 2.2

Case Description

Send ping with small text payload.

Case Expectation

Pong with payload echo'ed is sent in reply to Ping. Clean close with normal code.

Case 2.3

Case Description

Send ping with small binary (non UTF-8) payload.

Case Expectation

Pong with payload echo'ed is sent in reply to Ping. Clean close with normal code.

Case 2.4

Case Description

Send ping with binary payload of 125 octets.

Case Expectation

Pong with payload echo'ed is sent in reply to Ping. Clean close with normal code.

Case 2.5

Case Description

Send ping with binary payload of 126 octets.

Case Expectation

Connection is failed immediately (1002/Protocol Error), since control frames are only allowed to have payload up to and including 125 octets..

Case 2.6

Case Description

Send ping with binary payload of 125 octets, send in octet-wise chops.

Case Expectation

Pong with payload echo'ed is sent in reply to Ping. Implementations must be TCP clean. Clean close with normal code.

Case 2.7

Case Description

Send unsolicited pong without payload. Verify nothing is received. Clean close with normal code.

Case Expectation

Nothing.

Case 2.8

Case Description

Send unsolicited pong with payload. Verify nothing is received. Clean close with normal code.

Case Expectation

Nothing.

Case 2.9

Case Description

Send unsolicited pong with payload. Send ping with payload. Verify pong for ping is received.

Case Expectation

Nothing in reply to own Pong, but Pong with payload echo'ed in reply to Ping. Clean close with normal code.

Case 2.10

Case Description

Send 10 Pings with payload.

Case Expectation

Pongs for our Pings with all the payloads. Note: This is not required by the Spec .. but we check for this behaviour anyway. Clean close with normal code.

Case 2.11

Case Description

Send 10 Pings with payload. Send out octets in octet-wise chops.

Case Expectation

Pongs for our Pings with all the payloads. Note: This is not required by the Spec .. but we check for this behaviour anyway. Clean close with normal code.

Case 3.1

Case Description

Send small text message with RSV = 1.

Case Expectation

The connection is failed immediately (1002/protocol error), since RSV must be 0, when no extension defining RSV meaning has been negoiated.

Case 3.2

Case Description

Send small text message, then send again with RSV = 2 , then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since RSV must be 0, when no extension defining RSV meaning has been negoiated. The Pong is not received.

Case 3.3

Case Description

Send small text message, then send again with RSV = 3 , then send Ping. Octets are sent in frame-wise chops. Octets are sent in octet-wise chops.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since RSV must be 0, when no extension defining RSV meaning has been negoiated. The Pong is not received.

Case 3.4

Case Description

Send small text message, then send again with RSV = 4 , then send Ping. Octets are sent in octet-wise chops.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since RSV must be 0, when no extension defining RSV meaning has been negoiated. The Pong is not received.

Case 3.5

Case Description

Send small binary message with RSV = 5.

Case Expectation

The connection is failed immediately, since RSV must be 0.

Case 3.6

Case Description

Send Ping with RSV = 6.

Case Expectation

The connection is failed immediately, since RSV must be 0.

Case 3.7

Case Description

Send Close with RSV = 7.

Case Expectation

The connection is failed immediately, since RSV must be 0.

Case 4.1.1

Case Description

Send frame with reserved non-control Opcode = 3.

Case Expectation

The connection is failed immediately.

Case 4.1.2

Case Description

Send frame with reserved non-control Opcode = 4 and non-empty payload.

Case Expectation

The connection is failed immediately.

Case 4.1.3

Case Description

Send small text message, then send frame with reserved non-control Opcode = 5 , then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 4.1.4

Case Description

Send small text message, then send frame with reserved non-control Opcode = 6 and non-empty payload, then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 4.1.5

Case Description

Send small text message, then send frame with reserved non-control Opcode = 7 and non-empty payload, then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 4.2.1

Case Description

Send frame with reserved control Opcode = 11.

Case Expectation

The connection is failed immediately.

Case 4.2.2

Case Description

Send frame with reserved control Opcode = 12 and non-empty payload.

Case Expectation

The connection is failed immediately.

Case 4.2.3

Case Description

Send small text message, then send frame with reserved control Opcode = 13 , then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 4.2.4

Case Description

Send small text message, then send frame with reserved control Opcode = 14 and non-empty payload, then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 4.2.5

Case Description

Send small text message, then send frame with reserved control Opcode = 15 and non-empty payload, then send Ping.

Case Expectation

Echo for first message is received, but then connection is failed immediately, since reserved opcode frame is used. A Pong is not received.

Case 5.1

Case Description

Send Ping fragmented into 2 fragments.

Case Expectation

Connection is failed immediately, since control message MUST NOT be fragmented.

Case 5.2

Case Description

Send Pong fragmented into 2 fragments.

Case Expectation

Connection is failed immediately, since control message MUST NOT be fragmented.

Case 5.3

Case Description

Send text Message fragmented into 2 fragments.

Case Expectation

Message is processed and echo'ed back to us.

Case 5.4

Case Description

Send text Message fragmented into 2 fragments, octets are sent in frame-wise chops.

Case Expectation

Message is processed and echo'ed back to us.

Case 5.5

Case Description

Send text Message fragmented into 2 fragments, octets are sent in octet-wise chops.

Case Expectation

Message is processed and echo'ed back to us.

Case 5.6

Case Description

Send text Message fragmented into 2 fragments, one ping with payload in-between.

Case Expectation

A pong is received, then the message is echo'ed back to us.

Case 5.7

Case Description

Send text Message fragmented into 2 fragments, one ping with payload in-between. Octets are sent in frame-wise chops.

Case Expectation

A pong is received, then the message is echo'ed back to us.

Case 5.8

Case Description

Send text Message fragmented into 2 fragments, one ping with payload in-between. Octets are sent in octet-wise chops.

Case Expectation

A pong is received, then the message is echo'ed back to us.

Case 5.9

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = true, where there is nothing to continue, sent in one chop.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.10

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = true, where there is nothing to continue, sent in per-frame chops.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.11

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = true, where there is nothing to continue, sent in octet-wise chops.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.12

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = false, where there is nothing to continue, sent in one chop.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.13

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = false, where there is nothing to continue, sent in per-frame chops.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.14

Case Description

Send unfragmented Text Message after Continuation Frame with FIN = false, where there is nothing to continue, sent in octet-wise chops.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.15

Case Description

Send text Message fragmented into 2 fragments, then Continuation Frame with FIN = false where there is nothing to continue, then unfragmented Text Message, all sent in one chop.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.16

Case Description

Repeated 2x: Continuation Frame with FIN = false (where there is nothing to continue), then text Message fragmented into 2 fragments.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.17

Case Description

Repeated 2x: Continuation Frame with FIN = true (where there is nothing to continue), then text Message fragmented into 2 fragments.

Case Expectation

The connection is failed immediately, since there is no message to continue.

Case 5.18

Case Description

Send text Message fragmented into 2 fragments, with both frame opcodes set to text, sent in one chop.

Case Expectation

The connection is failed immediately, since all data frames after the initial data frame must have opcode 0.

Case 5.19

Case Description

A fragmented text message is sent in multiple frames. After sending the first 2 frames of the text message, a Ping is sent. Then we wait 1s, then we send 2 more text fragments, another Ping and then the final text fragment. Everything is legal.

Case Expectation

The peer immediately answers the first Ping before it has received the last text message fragment. The peer pong's back the Ping's payload exactly, and echo's the payload of the fragmented message back to us.

Case 5.20

Case Description

Same as Case 5.19, but send all frames with SYNC = True. Note, this does not change the octets sent in any way, only how the stream is chopped up on the wire.

Case Expectation

Same as Case 5.19. Implementations must be agnostic to how octet stream is chopped up on wire (must be TCP clean).

Case 6.1.1

Case Description

Send text message of length 0.

Case Expectation

A message is echo'ed back to us (with empty payload).

Case 6.1.2

Case Description

Send fragmented text message, 3 fragments each of length 0.

Case Expectation

A message is echo'ed back to us (with empty payload).

Case 6.1.3

Case Description

Send fragmented text message, 3 fragments, first and last of length 0, middle non-empty.

Case Expectation

A message is echo'ed back to us (with payload = payload of middle fragment).

Case 6.2.1

Case Description

Send a valid UTF-8 text message in one fragment.

MESSAGE:
Hello-µ@ßöäüàá-UTF-8!!
48656c6c6f2dc2b540c39fc3b6c3a4c3bcc3a0c3a12d5554462d382121

Case Expectation

The message is echo'ed back to us.

Case 6.2.2

Case Description

Send a valid UTF-8 text message in two fragments, fragmented on UTF-8 code point boundary.

MESSAGE FRAGMENT 1:
Hello-µ@ßöä
48656c6c6f2dc2b540c39fc3b6c3a4

MESSAGE FRAGMENT 2:
üàá-UTF-8!!
c3bcc3a0c3a12d5554462d382121

Case Expectation

The message is echo'ed back to us.

Case 6.2.3

Case Description

Send a valid UTF-8 text message in fragments of 1 octet, resulting in frames ending on positions which are not code point ends.

MESSAGE:
Hello-µ@ßöäüàá-UTF-8!!
48656c6c6f2dc2b540c39fc3b6c3a4c3bcc3a0c3a12d5554462d382121

Case Expectation

The message is echo'ed back to us.

Case 6.2.4

Case Description

Send a valid UTF-8 text message in fragments of 1 octet, resulting in frames ending on positions which are not code point ends.

MESSAGE:
κόσμε
cebae1bdb9cf83cebcceb5

Case Expectation

The message is echo'ed back to us.

Case 6.3.1

Case Description

Send invalid UTF-8 text message unfragmented.

MESSAGE:
κόσμεedited
cebae1bdb9cf83cebcceb5eda080656469746564

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.3.2

Case Description

Send invalid UTF-8 text message in fragments of 1 octet, resulting in frames ending on positions which are not code point ends.

MESSAGE:
κόσμεedited
cebae1bdb9cf83cebcceb5eda080656469746564

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.4.1

Case Description

Send invalid UTF-8 text message in 3 fragments (frames). First frame payload is valid, then wait, then 2nd frame which contains the payload making the sequence invalid, then wait, then 3rd frame with rest. Note that PART1 and PART3 are valid UTF-8 in themselves, PART2 is a 0x11000 encoded as in the UTF-8 integer encoding scheme, but the codepoint is invalid (out of range).

MESSAGE PARTS:
PART1 = κόσμε (cebae1bdb9cf83cebcceb5)
PART2 = (f4908080)
PART3 = edited (656469746564)

Case Expectation

The first frame is accepted, we expect to timeout on the first wait. The 2nd frame should be rejected immediately (fail fast on UTF-8). If we timeout, we expect the connection is failed at least then, since the complete message payload is not valid UTF-8.

Case 6.4.2

Case Description

Same as Case 6.4.1, but in 2nd frame, we send only up to and including the octet making the complete payload invalid.

MESSAGE PARTS:
PART1 = κόσμε (cebae1bdb9cf83cebcceb5f4)
PART2 = (90)
PART3 = edited (8080656469746564)

Case Expectation

Case 6.4.3

Case Description

Same as Case 6.4.1, but we send message not in 3 frames, but in 3 chops of the same message frame.

MESSAGE PARTS:
PART1 = κόσμε (cebae1bdb9cf83cebcceb5)
PART2 = (f4908080)
PART3 = edited (656469746564)

Case Expectation

The first chop is accepted, we expect to timeout on the first wait. The 2nd chop should be rejected immediately (fail fast on UTF-8). If we timeout, we expect the connection is failed at least then, since the complete message payload is not valid UTF-8.

Case 6.4.4

Case Description

Same as Case 6.4.2, but we send message not in 3 frames, but in 3 chops of the same message frame.

MESSAGE PARTS:
PART1 = κόσμε (cebae1bdb9cf83cebcceb5f4)
PART2 = (90)
PART3 = ()

Case Expectation

Case 6.5.1

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κόσμε
cebae1bdb9cf83cebcceb5

Case Expectation

The message is echo'ed back to us.

Case 6.6.1

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.2

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κ
ceba

Case Expectation

The message is echo'ed back to us.

Case 6.6.3

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:
κ
cebae1

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.4

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:
κ
cebae1bd

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.5

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κό
cebae1bdb9

Case Expectation

The message is echo'ed back to us.

Case 6.6.6

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:
κό
cebae1bdb9cf

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.7

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κόσ
cebae1bdb9cf83

Case Expectation

The message is echo'ed back to us.

Case 6.6.8

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:
κόσ
cebae1bdb9cf83ce

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.9

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κόσμ
cebae1bdb9cf83cebc

Case Expectation

The message is echo'ed back to us.

Case 6.6.10

Case Description

Send a text message with payload which is not valid UTF-8 in one fragment.

MESSAGE:
κόσμ
cebae1bdb9cf83cebcce

Case Expectation

The connection is failed immediately, since the payload is not valid UTF-8.

Case 6.6.11

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE:
κόσμε
cebae1bdb9cf83cebcceb5

Case Expectation

The message is echo'ed back to us.

Case 6.7.1

Case Description

Send a text message with payload which is valid UTF-8 in one fragment.

MESSAGE: