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Autobahn WebSockets Testsuite Report
Autobahn WebSockets

Summary report generated on 2013-03-03T15:48:26Z (UTC) by Autobahn WebSockets Testsuite v0.5.2/v0.5.9.

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.
1 Framing AutobahnServer sgcWebSockets
1.1 Text Messages
Case 1.1.1 Pass1000 Pass1000
Case 1.1.2 Pass1000 Pass1000
Case 1.1.3 Pass1000 Pass1000
Case 1.1.4 Pass1000 Pass1000
Case 1.1.5 Pass1000 Pass1000
Case 1.1.6 Pass1000 Pass1000
Case 1.1.7 Pass1000 Pass1000
Case 1.1.8 Pass1000 Pass1000
1 Framing AutobahnServer sgcWebSockets
1.2 Binary Messages
Case 1.2.1 Pass1000 Pass1000
Case 1.2.2 Pass1000 Pass1000
Case 1.2.3 Pass1000 Pass1000
Case 1.2.4 Pass1000 Pass1000
Case 1.2.5 Pass1000 Pass1000
Case 1.2.6 Pass1000 Pass1000
Case 1.2.7 Pass1000 Pass1000
Case 1.2.8 Pass1000 Pass1000
2 Pings/Pongs AutobahnServer sgcWebSockets
Case 2.1 Pass1000 Pass1000
Case 2.2 Pass1000 Pass1000
Case 2.3 Pass1000 Pass1000
Case 2.4 Pass1000 Pass1000
Case 2.5 PassNone Pass1002
Case 2.6 Pass1000 Pass1000
Case 2.7 Pass1000 Pass1000
Case 2.8 Pass1000 Pass1000
Case 2.9 Pass1000 Pass1000
Case 2.10 Pass1000 Pass1000
Case 2.11 Pass1000 Pass1000
3 Reserved Bits AutobahnServer sgcWebSockets
Case 3.1 PassNone Pass1002
Case 3.2 Non-StrictNone Pass1002
Case 3.3 PassNone Pass1002
Case 3.4 PassNone Pass1002
Case 3.5 PassNone Pass1002
Case 3.6 PassNone Pass1002
Case 3.7 PassNone Pass1002
4 Opcodes AutobahnServer sgcWebSockets
4.1 Non-control Opcodes
Case 4.1.1 PassNone Pass1002
Case 4.1.2 PassNone Pass1002
Case 4.1.3 Non-StrictNone Pass1002
Case 4.1.4 Non-StrictNone Pass1002
Case 4.1.5 PassNone Pass1002
4 Opcodes AutobahnServer sgcWebSockets
4.2 Control Opcodes
Case 4.2.1 PassNone Pass1002
Case 4.2.2 PassNone Pass1002
Case 4.2.3 Non-StrictNone Pass1002
Case 4.2.4 Non-StrictNone Pass1002
Case 4.2.5 PassNone Pass1002
5 Fragmentation AutobahnServer sgcWebSockets
Case 5.1 PassNone Pass1002
Case 5.2 PassNone Pass1002
Case 5.3 Pass1000 Pass1000
Case 5.4 Pass1000 Pass1000
Case 5.5 Pass1000 Pass1000
Case 5.6 Pass1000 Pass1000
Case 5.7 Pass1000 Pass1000
Case 5.8 Pass1000 Pass1000
Case 5.9 PassNone Pass1002
Case 5.10 PassNone Pass1002
Case 5.11 PassNone Pass1002
Case 5.12 PassNone Pass1002
Case 5.13 PassNone Pass1002
Case 5.14 PassNone Pass1002
Case 5.15 Non-StrictNone Pass1002
Case 5.16 PassNone Pass1002
Case 5.17 PassNone Pass1002
Case 5.18 PassNone Pass1002
Case 5.19 Pass1000 Pass1000
Case 5.20 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.1 Valid UTF-8 with zero payload fragments
Case 6.1.1 Pass1000 Pass1000
Case 6.1.2 Pass1000 Pass1000
Case 6.1.3 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.2 Valid UTF-8 unfragmented, fragmented on code-points and within code-points
Case 6.2.1 Pass1000 Pass1000
Case 6.2.2 Pass1000 Pass1000
Case 6.2.3 Pass1000 Pass1000
Case 6.2.4 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.3 Invalid UTF-8 differently fragmented
Case 6.3.1 PassNone Pass1007
Case 6.3.2 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.4 Fail-fast on invalid UTF-8
Case 6.4.1 PassNone Non-Strict1007
Case 6.4.2 PassNone Non-Strict1007
Case 6.4.3 PassNone Non-Strict1007
Case 6.4.4 PassNone Non-Strict1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.5 Some valid UTF-8 sequences
Case 6.5.1 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.6 All prefixes of a valid UTF-8 string that contains multi-byte code points
Case 6.6.1 PassNone Pass1007
Case 6.6.2 Pass1000 Pass1000
Case 6.6.3 PassNone Pass1007
Case 6.6.4 PassNone Pass1007
Case 6.6.5 Pass1000 Pass1000
Case 6.6.6 PassNone Pass1007
Case 6.6.7 Pass1000 Pass1000
Case 6.6.8 PassNone Pass1007
Case 6.6.9 Pass1000 Pass1000
Case 6.6.10 PassNone Pass1007
Case 6.6.11 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.7 First possible sequence of a certain length
Case 6.7.1 Pass1000 Pass1000
Case 6.7.2 Pass1000 Pass1000
Case 6.7.3 Pass1000 Pass1000
Case 6.7.4 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.8 First possible sequence length 5/6 (invalid codepoints)
Case 6.8.1 PassNone Pass1007
Case 6.8.2 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.9 Last possible sequence of a certain length
Case 6.9.1 Pass1000 Pass1000
Case 6.9.2 Pass1000 Pass1000
Case 6.9.3 Pass1000 Pass1000
Case 6.9.4 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.10 Last possible sequence length 4/5/6 (invalid codepoints)
Case 6.10.1 PassNone Pass1007
Case 6.10.2 PassNone Pass1007
Case 6.10.3 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.11 Other boundary conditions
Case 6.11.1 Pass1000 Pass1000
Case 6.11.2 Pass1000 Pass1000
Case 6.11.3 Pass1000 Pass1000
Case 6.11.4 Pass1000 Pass1000
Case 6.11.5 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.12 Unexpected continuation bytes
Case 6.12.1 PassNone Pass1007
Case 6.12.2 PassNone Pass1007
Case 6.12.3 PassNone Pass1007
Case 6.12.4 PassNone Pass1007
Case 6.12.5 PassNone Pass1007
Case 6.12.6 PassNone Pass1007
Case 6.12.7 PassNone Pass1007
Case 6.12.8 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.13 Lonely start characters
Case 6.13.1 PassNone Pass1007
Case 6.13.2 PassNone Pass1007
Case 6.13.3 PassNone Pass1007
Case 6.13.4 PassNone Pass1007
Case 6.13.5 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.14 Sequences with last continuation byte missing
Case 6.14.1 PassNone Pass1007
Case 6.14.2 PassNone Pass1007
Case 6.14.3 PassNone Pass1007
Case 6.14.4 PassNone Pass1007
Case 6.14.5 PassNone Pass1007
Case 6.14.6 PassNone Pass1007
Case 6.14.7 PassNone Pass1007
Case 6.14.8 PassNone Pass1007
Case 6.14.9 PassNone Pass1007
Case 6.14.10 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.15 Concatenation of incomplete sequences
Case 6.15.1 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.16 Impossible bytes
Case 6.16.1 PassNone Pass1007
Case 6.16.2 PassNone Pass1007
Case 6.16.3 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.17 Examples of an overlong ASCII character
Case 6.17.1 PassNone Pass1007
Case 6.17.2 PassNone Pass1007
Case 6.17.3 PassNone Pass1007
Case 6.17.4 PassNone Pass1007
Case 6.17.5 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.18 Maximum overlong sequences
Case 6.18.1 PassNone Pass1007
Case 6.18.2 PassNone Pass1007
Case 6.18.3 PassNone Pass1007
Case 6.18.4 PassNone Pass1007
Case 6.18.5 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.19 Overlong representation of the NUL character
Case 6.19.1 PassNone Pass1007
Case 6.19.2 PassNone Pass1007
Case 6.19.3 PassNone Pass1007
Case 6.19.4 PassNone Pass1007
Case 6.19.5 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.20 Single UTF-16 surrogates
Case 6.20.1 PassNone Pass1007
Case 6.20.2 PassNone Pass1007
Case 6.20.3 PassNone Pass1007
Case 6.20.4 PassNone Pass1007
Case 6.20.5 PassNone Pass1007
Case 6.20.6 PassNone Pass1007
Case 6.20.7 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.21 Paired UTF-16 surrogates
Case 6.21.1 PassNone Pass1007
Case 6.21.2 PassNone Pass1007
Case 6.21.3 PassNone Pass1007
Case 6.21.4 PassNone Pass1007
Case 6.21.5 PassNone Pass1007
Case 6.21.6 PassNone Pass1007
Case 6.21.7 PassNone Pass1007
Case 6.21.8 PassNone Pass1007
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.22 Non-character code points (valid UTF-8)
Case 6.22.1 Pass1000 Pass1000
Case 6.22.2 Pass1000 Pass1000
Case 6.22.3 Pass1000 Pass1000
Case 6.22.4 Pass1000 Pass1000
Case 6.22.5 Pass1000 Pass1000
Case 6.22.6 Pass1000 Pass1000
Case 6.22.7 Pass1000 Pass1000
Case 6.22.8 Pass1000 Pass1000
Case 6.22.9 Pass1000 Pass1000
Case 6.22.10 Pass1000 Pass1000
Case 6.22.11 Pass1000 Pass1000
Case 6.22.12 Pass1000 Pass1000
Case 6.22.13 Pass1000 Pass1000
Case 6.22.14 Pass1000 Pass1000
Case 6.22.15 Pass1000 Pass1000
Case 6.22.16 Pass1000 Pass1000
Case 6.22.17 Pass1000 Pass1000
Case 6.22.18 Pass1000 Pass1000
Case 6.22.19 Pass1000 Pass1000
Case 6.22.20 Pass1000 Pass1000
Case 6.22.21 Pass1000 Pass1000
Case 6.22.22 Pass1000 Pass1000
Case 6.22.23 Pass1000 Pass1000
Case 6.22.24 Pass1000 Pass1000
Case 6.22.25 Pass1000 Pass1000
Case 6.22.26 Pass1000 Pass1000
Case 6.22.27 Pass1000 Pass1000
Case 6.22.28 Pass1000 Pass1000
Case 6.22.29 Pass1000 Pass1000
Case 6.22.30 Pass1000 Pass1000
Case 6.22.31 Pass1000 Pass1000
Case 6.22.32 Pass1000 Pass1000
Case 6.22.33 Pass1000 Pass1000
Case 6.22.34 Pass1000 Pass1000
6 UTF-8 Handling AutobahnServer sgcWebSockets
6.23 Unicode replacement character
Case 6.23.1 Pass1000 Pass1000
7 Close Handling AutobahnServer sgcWebSockets
7.1 Basic close behavior (fuzzer initiated)
Case 7.1.1 Pass1000 Pass1000
Case 7.1.2 Pass1000 Pass1000
Case 7.1.3 Pass1000 Pass1000
Case 7.1.4 Pass1000 Pass1000
Case 7.1.5 Pass1000 Pass1000
Case 7.1.6 Info1000 Info1000
7 Close Handling AutobahnServer sgcWebSockets
7.3 Close frame structure: payload length (fuzzer initiated)
Case 7.3.1 Pass1000 Pass1000
Case 7.3.2 PassNone Pass1002
Case 7.3.3 Pass1000 Pass1000
Case 7.3.4 Pass1000 Pass1000
Case 7.3.5 Pass1000 Pass1000
Case 7.3.6 PassNone Pass1002
7 Close Handling AutobahnServer sgcWebSockets
7.5 Close frame structure: payload value (fuzzer initiated)
Case 7.5.1 PassNone Pass1007
7 Close Handling AutobahnServer sgcWebSockets
7.7 Close frame structure: valid close codes (fuzzer initiated)
Case 7.7.1 Pass1000 Pass1000
Case 7.7.2 Pass1000 Pass1000
Case 7.7.3 Pass1000 Pass1000
Case 7.7.4 Pass1000 Pass1000
Case 7.7.5 Pass1000 Pass1000
Case 7.7.6 Pass1000 Pass1000
Case 7.7.7 Pass1000 Pass1000
Case 7.7.8 Pass1000 Pass1000
Case 7.7.9 Pass1000 Pass1000
Case 7.7.10 Pass1000 Pass1000
Case 7.7.11 Pass1000 Pass1000
Case 7.7.12 Pass1000 Pass1000
Case 7.7.13 Pass1000 Pass1000
7 Close Handling AutobahnServer sgcWebSockets
7.9 Close frame structure: invalid close codes (fuzzer initiated)
Case 7.9.1 PassNone Pass1002
Case 7.9.2 PassNone Pass1002
Case 7.9.3 PassNone Pass1002
Case 7.9.4 PassNone Pass1002
Case 7.9.5 PassNone Pass1002
Case 7.9.6 PassNone Pass1002
Case 7.9.7 PassNone Pass1002
Case 7.9.8 PassNone Pass1002
Case 7.9.9 PassNone Pass1002
Case 7.9.10 PassNone Pass1002
Case 7.9.11 PassNone Pass1002
Case 7.9.12 PassNone Pass1002
Case 7.9.13 PassNone Pass1002
7 Close Handling AutobahnServer sgcWebSockets
7.13 Informational close information (fuzzer initiated)
Case 7.13.1 InfoNone Info1002
Case 7.13.2 InfoNone Info1002
9 Limits/Performance AutobahnServer sgcWebSockets
9.1 Text Message (increasing size)
Case 9.1.1 Pass
184 ms
1000 Pass
101 ms
1000
Case 9.1.2 Pass
729 ms
1000 Pass
384 ms
1000
Case 9.1.3 Pass
2926 ms
1000 Pass
1518 ms
1000
Case 9.1.4 Pass
11633 ms
1000 Pass
6007 ms
1000
Case 9.1.5 Pass
23343 ms
1000 Pass
11979 ms
1000
Case 9.1.6 Pass
46638 ms
1000 Pass
24124 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.2 Binary Message (increasing size)
Case 9.2.1 Pass
70 ms
1000 Pass
44 ms
1000
Case 9.2.2 Pass
278 ms
1000 Pass
156 ms
1000
Case 9.2.3 Pass
1114 ms
1000 Pass
608 ms
1000
Case 9.2.4 Pass
4464 ms
1000 Pass
2435 ms
1000
Case 9.2.5 Pass
8929 ms
1000 Pass
4875 ms
1000
Case 9.2.6 Pass
17864 ms
1000 Pass
9750 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.3 Fragmented Text Message (fixed size, increasing fragment size)
Case 9.3.1 Pass
19468 ms
1000 Pass
9327 ms
1000
Case 9.3.2 Pass
13734 ms
1000 Pass
6877 ms
1000
Case 9.3.3 Pass
12204 ms
1000 Pass
6159 ms
1000
Case 9.3.4 Pass
11739 ms
1000 Pass
6002 ms
1000
Case 9.3.5 Pass
11707 ms
1000 Pass
5998 ms
1000
Case 9.3.6 Pass
11616 ms
1000 Pass
5947 ms
1000
Case 9.3.7 Pass
11650 ms
1000 Pass
5950 ms
1000
Case 9.3.8 Pass
11608 ms
1000 Pass
5962 ms
1000
Case 9.3.9 Pass
11649 ms
1000 Pass
5928 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.4 Fragmented Binary Message (fixed size, increasing fragment size)
Case 9.4.1 Pass
11616 ms
1000 Pass
5637 ms
1000
Case 9.4.2 Pass
6185 ms
1000 Pass
3200 ms
1000
Case 9.4.3 Pass
4835 ms
1000 Pass
2538 ms
1000
Case 9.4.4 Pass
4480 ms
1000 Pass
2365 ms
1000
Case 9.4.5 Pass
4372 ms
1000 Pass
2319 ms
1000
Case 9.4.6 Pass
4341 ms
1000 Pass
2307 ms
1000
Case 9.4.7 Pass
4343 ms
1000 Pass
2310 ms
1000
Case 9.4.8 Pass
4341 ms
1000 Pass
2318 ms
1000
Case 9.4.9 Pass
4350 ms
1000 Pass
2304 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.5 Text Message (fixed size, increasing chop size)
Case 9.5.1 Pass
17880 ms
1000 Pass
17894 ms
1000
Case 9.5.2 Pass
9670 ms
1000 Pass
9689 ms
1000
Case 9.5.3 Pass
5566 ms
1000 Pass
5587 ms
1000
Case 9.5.4 Pass
3517 ms
1000 Pass
3537 ms
1000
Case 9.5.5 Pass
2908 ms
1000 Pass
2513 ms
1000
Case 9.5.6 Pass
2903 ms
1000 Pass
2000 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.6 Binary Text Message (fixed size, increasing chop size)
Case 9.6.1 Pass
17011 ms
1000 Pass
17000 ms
1000
Case 9.6.2 Pass
8778 ms
1000 Pass
8801 ms
1000
Case 9.6.3 Pass
4678 ms
1000 Pass
4702 ms
1000
Case 9.6.4 Pass
2626 ms
1000 Pass
2649 ms
1000
Case 9.6.5 Pass
1604 ms
1000 Pass
1626 ms
1000
Case 9.6.6 Pass
1114 ms
1000 Pass
1111 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.7 Text Message Roundtrip Time (fixed number, increasing size)
Case 9.7.1 Pass
428 ms
1000 Pass
298 ms
1000
Case 9.7.2 Pass
533 ms
1000 Pass
358 ms
1000
Case 9.7.3 Pass
713 ms
1000 Pass
453 ms
1000
Case 9.7.4 Pass
1289 ms
1000 Pass
762 ms
1000
Case 9.7.5 Pass
3507 ms
1000 Pass
1926 ms
1000
Case 9.7.6 Pass
12327 ms
1000 Pass
6611 ms
1000
9 Limits/Performance AutobahnServer sgcWebSockets
9.8 Binary Message Roundtrip Time (fixed number, increasing size)
Case 9.8.1 Pass
423 ms
1000 Pass
293 ms
1000
Case 9.8.2 Pass
491 ms
1000 Pass
331 ms
1000
Case 9.8.3 Pass
581 ms
1000 Pass
382 ms
1000
Case 9.8.4 Pass
812 ms
1000 Pass
517 ms
1000
Case 9.8.5 Pass
1675 ms
1000 Pass
1018 ms
1000
Case 9.8.6 Pass
5190 ms
1000 Pass
3040 ms
1000
10 Misc AutobahnServer sgcWebSockets
10.1 Auto-Fragmentation
Case 10.1.1 Pass1000 Pass1000



Case 1.1.1

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

Case Description

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

Case Expectation

Nothing.


Case 2.8

Up

Case Description

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

Case Expectation

Nothing.


Case 2.9

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

Case Description

Send small binary message with RSV = 5.

Case Expectation

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


Case 3.6

Up

Case Description

Send Ping with RSV = 6.

Case Expectation

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


Case 3.7

Up

Case Description

Send Close with RSV = 7.

Case Expectation

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


Case 4.1.1

Up

Case Description

Send frame with reserved non-control Opcode = 3.

Case Expectation

The connection is failed immediately.


Case 4.1.2

Up

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

Up

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

Up

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

Up

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

Up

Case Description

Send frame with reserved control Opcode = 11.

Case Expectation

The connection is failed immediately.


Case 4.2.2

Up

Case Description

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

Case Expectation

The connection is failed immediately.


Case 4.2.3

Up

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

Up

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

Up

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

Up

Case Description

Send Ping fragmented into 2 fragments.

Case Expectation

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


Case 5.2

Up

Case Description

Send Pong fragmented into 2 fragments.

Case Expectation

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


Case 5.3

Up

Case Description

Send text Message fragmented into 2 fragments.

Case Expectation

Message is processed and echo'ed back to us.


Case 5.4

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

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 6.4.3

Up

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

Up

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

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 6.5.1

Up

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

Up

Case Description

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

MESSAGE:

ce

Case Expectation

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


Case 6.6.2

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

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

Up

Case Description

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

MESSAGE:

00

Case Expectation

The message is echo'ed back to us.


Case 6.7.2

Up

Case Description

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

MESSAGE:
€
c280

Case Expectation

The message is echo'ed back to us.


Case 6.7.3

Up

Case Description

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

MESSAGE:

e0a080

Case Expectation

The message is echo'ed back to us.


Case 6.7.4

Up

Case Description

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

MESSAGE:
𐀀
f0908080

Case Expectation

The message is echo'ed back to us.


Case 6.8.1

Up

Case Description

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

MESSAGE:

f888808080

Case Expectation

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


Case 6.8.2

Up

Case Description

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

MESSAGE:

fc8480808080

Case Expectation

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


Case 6.9.1

Up

Case Description

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

MESSAGE:

7f

Case Expectation

The message is echo'ed back to us.


Case 6.9.2

Up

Case Description

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

MESSAGE:
߿
dfbf

Case Expectation

The message is echo'ed back to us.


Case 6.9.3

Up

Case Description

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

MESSAGE:
￿
efbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.9.4

Up

Case Description

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

MESSAGE:
􏿿
f48fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.10.1

Up

Case Description

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

MESSAGE:

f7bfbfbf

Case Expectation

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


Case 6.10.2

Up

Case Description

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

MESSAGE:

fbbfbfbfbf

Case Expectation

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


Case 6.10.3

Up

Case Description

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

MESSAGE:

fdbfbfbfbfbf

Case Expectation

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


Case 6.11.1

Up

Case Description

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

MESSAGE:

ed9fbf

Case Expectation

The message is echo'ed back to us.


Case 6.11.2

Up

Case Description

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

MESSAGE:

ee8080

Case Expectation

The message is echo'ed back to us.


Case 6.11.3

Up

Case Description

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

MESSAGE:

efbfbd

Case Expectation

The message is echo'ed back to us.


Case 6.11.4

Up

Case Description

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

MESSAGE:
􏿿
f48fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.11.5

Up

Case Description

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

MESSAGE:

f4908080

Case Expectation

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


Case 6.12.1

Up

Case Description

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

MESSAGE:

80

Case Expectation

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


Case 6.12.2

Up

Case Description

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

MESSAGE:

bf

Case Expectation

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


Case 6.12.3

Up

Case Description

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

MESSAGE:

80bf

Case Expectation

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


Case 6.12.4

Up

Case Description

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

MESSAGE:

80bf80

Case Expectation

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


Case 6.12.5

Up

Case Description

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

MESSAGE:

80bf80bf

Case Expectation

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


Case 6.12.6

Up

Case Description

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

MESSAGE:

80bf80bf80

Case Expectation

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


Case 6.12.7

Up

Case Description

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

MESSAGE:

80bf80bf80bf

Case Expectation

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


Case 6.12.8

Up

Case Description

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

MESSAGE:

808182838485868788898a8b8c8d8e8f909192939495969798999a9b9c9d9e9fa0a1a2a3a4a5a6a7a8a9aaabacadaeafb0b1b2b3b4b5b6b7b8b9babbbcbdbe

Case Expectation

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


Case 6.13.1

Up

Case Description

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

MESSAGE:

c020c120c220c320c420c520c620c720c820c920ca20cb20cc20cd20ce20cf20d020d120d220d320d420d520d620d720d820d920da20db20dc20dd20de20

Case Expectation

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


Case 6.13.2

Up

Case Description

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

MESSAGE:

e020e120e220e320e420e520e620e720e820e920ea20eb20ec20ed20ee20

Case Expectation

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


Case 6.13.3

Up

Case Description

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

MESSAGE:

f020f120f220f320f420f520f620

Case Expectation

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


Case 6.13.4

Up

Case Description

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

MESSAGE:

f820f920fa20

Case Expectation

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


Case 6.13.5

Up

Case Description

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

MESSAGE:

fc20

Case Expectation

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


Case 6.14.1

Up

Case Description

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

MESSAGE:

c0

Case Expectation

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


Case 6.14.2

Up

Case Description

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

MESSAGE:

e080

Case Expectation

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


Case 6.14.3

Up

Case Description

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

MESSAGE:

f08080

Case Expectation

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


Case 6.14.4

Up

Case Description

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

MESSAGE:

f8808080

Case Expectation

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


Case 6.14.5

Up

Case Description

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

MESSAGE:

fc80808080

Case Expectation

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


Case 6.14.6

Up

Case Description

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

MESSAGE:

df

Case Expectation

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


Case 6.14.7

Up

Case Description

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

MESSAGE:

efbf

Case Expectation

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


Case 6.14.8

Up

Case Description

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

MESSAGE:

f7bfbf

Case Expectation

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


Case 6.14.9

Up

Case Description

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

MESSAGE:

fbbfbfbf

Case Expectation

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


Case 6.14.10

Up

Case Description

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

MESSAGE:

fdbfbfbfbf

Case Expectation

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


Case 6.15.1

Up

Case Description

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

MESSAGE:

c0e080f08080f8808080fc80808080dfefbff7bfbffbbfbfbffdbfbfbfbf

Case Expectation

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


Case 6.16.1

Up

Case Description

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

MESSAGE:

fe

Case Expectation

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


Case 6.16.2

Up

Case Description

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

MESSAGE:

ff

Case Expectation

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


Case 6.16.3

Up

Case Description

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

MESSAGE:

fefeffff

Case Expectation

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


Case 6.17.1

Up

Case Description

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

MESSAGE:

c0af

Case Expectation

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


Case 6.17.2

Up

Case Description

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

MESSAGE:

e080af

Case Expectation

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


Case 6.17.3

Up

Case Description

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

MESSAGE:

f08080af

Case Expectation

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


Case 6.17.4

Up

Case Description

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

MESSAGE:

f8808080af

Case Expectation

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


Case 6.17.5

Up

Case Description

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

MESSAGE:

fc80808080af

Case Expectation

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


Case 6.18.1

Up

Case Description

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

MESSAGE:

c1bf

Case Expectation

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


Case 6.18.2

Up

Case Description

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

MESSAGE:

e09fbf

Case Expectation

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


Case 6.18.3

Up

Case Description

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

MESSAGE:

f08fbfbf

Case Expectation

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


Case 6.18.4

Up

Case Description

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

MESSAGE:

f887bfbfbf

Case Expectation

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


Case 6.18.5

Up

Case Description

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

MESSAGE:

fc83bfbfbfbf

Case Expectation

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


Case 6.19.1

Up

Case Description

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

MESSAGE:

c080

Case Expectation

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


Case 6.19.2

Up

Case Description

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

MESSAGE:

e08080

Case Expectation

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


Case 6.19.3

Up

Case Description

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

MESSAGE:

f0808080

Case Expectation

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


Case 6.19.4

Up

Case Description

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

MESSAGE:

f880808080

Case Expectation

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


Case 6.19.5

Up

Case Description

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

MESSAGE:

fc8080808080

Case Expectation

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


Case 6.20.1

Up

Case Description

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

MESSAGE:

eda080

Case Expectation

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


Case 6.20.2

Up

Case Description

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

MESSAGE:

edadbf

Case Expectation

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


Case 6.20.3

Up

Case Description

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

MESSAGE:

edae80

Case Expectation

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


Case 6.20.4

Up

Case Description

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

MESSAGE:

edafbf

Case Expectation

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


Case 6.20.5

Up

Case Description

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

MESSAGE:

edb080

Case Expectation

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


Case 6.20.6

Up

Case Description

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

MESSAGE:

edbe80

Case Expectation

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


Case 6.20.7

Up

Case Description

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

MESSAGE:

edbfbf

Case Expectation

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


Case 6.21.1

Up

Case Description

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

MESSAGE:

eda080edb080

Case Expectation

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


Case 6.21.2

Up

Case Description

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

MESSAGE:

eda080edbfbf

Case Expectation

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


Case 6.21.3

Up

Case Description

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

MESSAGE:

edadbfedb080

Case Expectation

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


Case 6.21.4

Up

Case Description

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

MESSAGE:

edadbfedbfbf

Case Expectation

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


Case 6.21.5

Up

Case Description

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

MESSAGE:

edae80edb080

Case Expectation

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


Case 6.21.6

Up

Case Description

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

MESSAGE:

edae80edbfbf

Case Expectation

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


Case 6.21.7

Up

Case Description

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

MESSAGE:

edafbfedb080

Case Expectation

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


Case 6.21.8

Up

Case Description

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

MESSAGE:

edafbfedbfbf

Case Expectation

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


Case 6.22.1

Up

Case Description

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

MESSAGE:

efbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.2

Up

Case Description

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

MESSAGE:
￿
efbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.3

Up

Case Description

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

MESSAGE:
🿾
f09fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.4

Up

Case Description

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

MESSAGE:
🿿
f09fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.5

Up

Case Description

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

MESSAGE:
𯿾
f0afbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.6

Up

Case Description

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

MESSAGE:
𯿿
f0afbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.7

Up

Case Description

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

MESSAGE:
𿿾
f0bfbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.8

Up

Case Description

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

MESSAGE:
𿿿
f0bfbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.9

Up

Case Description

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

MESSAGE:
񏿾
f18fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.10

Up

Case Description

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

MESSAGE:
񏿿
f18fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.11

Up

Case Description

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

MESSAGE:
񟿾
f19fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.12

Up

Case Description

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

MESSAGE:
񟿿
f19fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.13

Up

Case Description

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

MESSAGE:
񯿾
f1afbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.14

Up

Case Description

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

MESSAGE:
񯿿
f1afbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.15

Up

Case Description

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

MESSAGE:
񿿾
f1bfbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.16

Up

Case Description

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

MESSAGE:
񿿿
f1bfbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.17

Up

Case Description

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

MESSAGE:
򏿾
f28fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.18

Up

Case Description

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

MESSAGE:
򏿿
f28fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.19

Up

Case Description

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

MESSAGE:
򟿾
f29fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.20

Up

Case Description

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

MESSAGE:
򟿿
f29fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.21

Up

Case Description

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

MESSAGE:
򯿾
f2afbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.22

Up

Case Description

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

MESSAGE:
򯿿
f2afbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.23

Up

Case Description

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

MESSAGE:
򿿾
f2bfbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.24

Up

Case Description

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

MESSAGE:
򿿿
f2bfbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.25

Up

Case Description

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

MESSAGE:
󏿾
f38fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.26

Up

Case Description

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

MESSAGE:
󏿿
f38fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.27

Up

Case Description

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

MESSAGE:
󟿾
f39fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.28

Up

Case Description

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

MESSAGE:
󟿿
f39fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.29

Up

Case Description

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

MESSAGE:
󯿾
f3afbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.30

Up

Case Description

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

MESSAGE:
󯿿
f3afbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.31

Up

Case Description

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

MESSAGE:
󿿾
f3bfbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.32

Up

Case Description

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

MESSAGE:
󿿿
f3bfbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.22.33

Up

Case Description

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

MESSAGE:
􏿾
f48fbfbe

Case Expectation

The message is echo'ed back to us.


Case 6.22.34

Up

Case Description

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

MESSAGE:
􏿿
f48fbfbf

Case Expectation

The message is echo'ed back to us.


Case 6.23.1

Up

Case Description

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

MESSAGE:

efbfbd

Case Expectation

The message is echo'ed back to us.


Case 7.1.1

Up

Case Description

Send a message followed by a close frame

Case Expectation

Echoed message followed by clean close with normal code.


Case 7.1.2

Up

Case Description

Send two close frames

Case Expectation

Clean close with normal code. Second close frame ignored.


Case 7.1.3

Up

Case Description

Send a ping after close message

Case Expectation

Clean close with normal code, no pong.


Case 7.1.4

Up

Case Description

Send text message after sending a close frame.

Case Expectation

Clean close with normal code. Text message ignored.


Case 7.1.5

Up

Case Description

Send message fragment1 followed by close then fragment

Case Expectation

Clean close with normal code.


Case 7.1.6

Up

Case Description

Send 256K message followed by close then a ping

Case Expectation

Case outcome depends on implimentation defined close behavior. Message and close frame are sent back to back. If the close frame is processed before the text message write is complete (as can happen in asyncronous processing models) the close frame is processed first and the text message may not be recieved or may only be partially recieved.


Case 7.3.1

Up

Case Description

Send a close frame with payload length 0 (no close code, no close reason)

Case Expectation

Clean close with normal code.


Case 7.3.2

Up

Case Description

Send a close frame with payload length 1

Case Expectation

Clean close with protocol error or drop TCP.


Case 7.3.3

Up

Case Description

Send a close frame with payload length 2 (regular close with a code)

Case Expectation

Clean close with normal code.


Case 7.3.4

Up

Case Description

Send a close frame with close code and close reason

Case Expectation

Clean close with normal code.


Case 7.3.5

Up

Case Description

Send a close frame with close code and close reason of maximum length (123)

Case Expectation

Clean close with normal code.


Case 7.3.6

Up

Case Description

Send a close frame with close code and close reason which is too long (124) - total frame payload 126 octets

Case Expectation

Clean close with protocol error code or dropped TCP connection.


Case 7.5.1

Up

Case Description

Send a close frame with invalid UTF8 payload

Case Expectation

Clean close with protocol error or invalid utf8 code or dropped TCP.


Case 7.7.1

Up

Case Description

Send close with valid close code 1000

Case Expectation

Clean close with normal or echoed code


Case 7.7.2

Up

Case Description

Send close with valid close code 1001

Case Expectation

Clean close with normal or echoed code


Case 7.7.3

Up

Case Description

Send close with valid close code 1002

Case Expectation

Clean close with normal or echoed code


Case 7.7.4

Up

Case Description

Send close with valid close code 1003

Case Expectation

Clean close with normal or echoed code


Case 7.7.5

Up

Case Description

Send close with valid close code 1007

Case Expectation

Clean close with normal or echoed code


Case 7.7.6

Up

Case Description

Send close with valid close code 1008

Case Expectation

Clean close with normal or echoed code


Case 7.7.7

Up

Case Description

Send close with valid close code 1009

Case Expectation

Clean close with normal or echoed code


Case 7.7.8

Up

Case Description

Send close with valid close code 1010

Case Expectation

Clean close with normal or echoed code


Case 7.7.9

Up

Case Description

Send close with valid close code 1011

Case Expectation

Clean close with normal or echoed code


Case 7.7.10

Up

Case Description

Send close with valid close code 3000

Case Expectation

Clean close with normal or echoed code


Case 7.7.11

Up

Case Description

Send close with valid close code 3999

Case Expectation

Clean close with normal or echoed code


Case 7.7.12

Up

Case Description

Send close with valid close code 4000

Case Expectation

Clean close with normal or echoed code


Case 7.7.13

Up

Case Description

Send close with valid close code 4999

Case Expectation

Clean close with normal or echoed code


Case 7.9.1

Up

Case Description

Send close with invalid close code 0

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.2

Up

Case Description

Send close with invalid close code 999

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.3

Up

Case Description

Send close with invalid close code 1004

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.4

Up

Case Description

Send close with invalid close code 1005

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.5

Up

Case Description

Send close with invalid close code 1006

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.6

Up

Case Description

Send close with invalid close code 1012

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.7

Up

Case Description

Send close with invalid close code 1013

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.8

Up

Case Description

Send close with invalid close code 1014

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.9

Up

Case Description

Send close with invalid close code 1015

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.10

Up

Case Description

Send close with invalid close code 1016

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.11

Up

Case Description

Send close with invalid close code 1100

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.12

Up

Case Description

Send close with invalid close code 2000

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.9.13

Up

Case Description

Send close with invalid close code 2999

Case Expectation

Clean close with protocol error code or drop TCP


Case 7.13.1

Up

Case Description

Send close with close code 5000

Case Expectation

Actual events are undefined by the spec.


Case 7.13.2

Up

Case Description

Send close with close code 65536

Case Expectation

Actual events are undefined by the spec.


Case 9.1.1

Up

Case Description

Send text message message with payload of length 64 * 2**10 (64k).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.1.2

Up

Case Description

Send text message message with payload of length 256 * 2**10 (256k).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.1.3

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.1.4

Up

Case Description

Send text message message with payload of length 4 * 2**20 (4M).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.1.5

Up

Case Description

Send text message message with payload of length 8 * 2**20 (8M).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.1.6

Up

Case Description

Send text message message with payload of length 16 * 2**20 (16M).

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.2.1

Up

Case Description

Send binary message message with payload of length 64 * 2**10 (64k).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.2.2

Up

Case Description

Send binary message message with payload of length 256 * 2**10 (256k).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.2.3

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.2.4

Up

Case Description

Send binary message message with payload of length 4 * 2**20 (4M).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.2.5

Up

Case Description

Send binary message message with payload of length 8 * 2**20 (16M).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.2.6

Up

Case Description

Send binary message message with payload of length 16 * 2**20 (16M).

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.3.1

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 64.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.2

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 256.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.3

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 1k.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.4

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 4k.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.5

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 16k.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.6

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 64k.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.7

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 256k.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.8

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 1M.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.3.9

Up

Case Description

Send fragmented text message message with message payload of length 4 * 2**20 (8M). Sent out in fragments of 4M.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.4.1

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 64.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.2

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 256.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.3

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 1k.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.4

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 4k.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.5

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 16k.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.6

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 64k.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.7

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 256k.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.8

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 1M.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.4.9

Up

Case Description

Send fragmented binary message message with message payload of length 4 * 2**20 (4M). Sent out in fragments of 4M.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.5.1

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 64 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.5.2

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 128 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.5.3

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 256 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.5.4

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 512 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.5.5

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 1024 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.5.6

Up

Case Description

Send text message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 2048 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.6.1

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 64 octets.

Case Expectation

Receive echo'ed binary message (with payload as sent).


Case 9.6.2

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 128 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.6.3

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 256 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.6.4

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 512 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.6.5

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 1024 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.6.6

Up

Case Description

Send binary message message with payload of length 1 * 2**20 (1M). Sent out data in chops of 2048 octets.

Case Expectation

Receive echo'ed text message (with payload as sent).


Case 9.7.1

Up

Case Description

Send 1000 text messages of payload size 0 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 60 secs.


Case 9.7.2

Up

Case Description

Send 1000 text messages of payload size 16 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 60 secs.


Case 9.7.3

Up

Case Description

Send 1000 text messages of payload size 64 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 60 secs.


Case 9.7.4

Up

Case Description

Send 1000 text messages of payload size 256 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 120 secs.


Case 9.7.5

Up

Case Description

Send 1000 text messages of payload size 1024 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 240 secs.


Case 9.7.6

Up

Case Description

Send 1000 text messages of payload size 4096 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed text messages (with payload as sent). Timeout case after 480 secs.


Case 9.8.1

Up

Case Description

Send 1000 binary messages of payload size 0 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 60 secs.


Case 9.8.2

Up

Case Description

Send 1000 binary messages of payload size 16 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 60 secs.


Case 9.8.3

Up

Case Description

Send 1000 binary messages of payload size 64 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 60 secs.


Case 9.8.4

Up

Case Description

Send 1000 binary messages of payload size 256 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 120 secs.


Case 9.8.5

Up

Case Description

Send 1000 binary messages of payload size 1024 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 240 secs.


Case 9.8.6

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Case Description

Send 1000 binary messages of payload size 4096 to measure implementation/network RTT (round trip time) / latency.

Case Expectation

Receive echo'ed binary messages (with payload as sent). Timeout case after 480 secs.


Case 10.1.1

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Case Description

Send text message with payload of length 65536 auto-fragmented with autoFragmentSize = 1300.

Case Expectation

Receive echo'ed text message (with payload as sent and transmitted frame counts as expected). Clean close with normal code.