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Wireshark 1.6.3 (32-bit)Wireshark.org - 18.67MB (Open Source) |
# The following bugs have been fixed:
* Assertion failed when doing File->Quit->Save during live capture.
* Wrong PCEP XRO sub-object decoding.
* Wireshark window takes very long time to show up if invalid network file path is at recent file list
* Decoding [Status Records] Timestamp Sequence Field in Bundle Protocol fails if over 32 bits.
* ISUP party number dissection.
* wireshark-1.4.2 crashes when testing the example python dissector because of a dissector count assertion.
* Ethernet packets with both VLAN tag and LLC header no longer displayed correctly.
* SLL encapsuled 802.1Q VLAN is not dissected.
* Wireshark crashes when attempting to open a file via drag & drop when there's already a file open.
* Adding and removing custom HTTP headers requires a restart.
* Can't read full 64-bit SNMP values.
* Dissection fails for frames with Gigamon Header and VLAN.
* RTP Stream Analysis does not work for TURN-encapsulated RTP.
* packet-csn1.c doesn't process CSN_CHOICE entries properly.
* BACnet property time-synchronization-interval (204) name shown incorrectly as time-synchronization-recipients.
* GUI crash on invalid IEEE 802.11 GAS frame.
* [ASN.1 PER] Incorrect decoding of BIT STRING type.
* ICMPv6 router advertisement Prefix Information Flag R "Router Address" missing.
* Export -> Object -> HTTP -> save all: Error on saving files.
* Inner tag of 802.1ad frames not parsed properly.
* Added cursor type decoding to MySQL dissector.
* Incorrect identification of UDP-encapsulated NAT-keepalive packets.
* WPA IE pairwise cipher suite dissector uses incorrect value_string list.
* S1AP protocol can't decode IPv6 transportLayerAddress.
* RTPS2 dissector doesn't handle 0 in the octestToNextHeader field.
* packet-ajp13 fix, cleanup, and enhancement.
* Network Instruments Observer file format bugs.
* Wireshark crashes when using "Open Recent" 2 times in a row.
* Wireshark packet_gsm-sms, display bug: Filler bits in TP-User Data Header.
* wireshark unable to decode NetFlow options which have system scope size != 4 bytes.
* Display filter Expression Dialog Box Error.
* text_import_scanner.l missing.
# Updated Protocol Support
* AJP13, ASN.1 PER, BACnet, CSN.1, DTN, Ethernet, ICMPv6, IEEE 802.11, IEEE 802.1q, Infiniband, IPsec, MySQL, PCEP, PN-RT, RTP, S1AP, SSL
# New and Updated Capture File Support
* Endace ERF.
* Assertion failed when doing File->Quit->Save during live capture.
* Wrong PCEP XRO sub-object decoding.
* Wireshark window takes very long time to show up if invalid network file path is at recent file list
* Decoding [Status Records] Timestamp Sequence Field in Bundle Protocol fails if over 32 bits.
* ISUP party number dissection.
* wireshark-1.4.2 crashes when testing the example python dissector because of a dissector count assertion.
* Ethernet packets with both VLAN tag and LLC header no longer displayed correctly.
* SLL encapsuled 802.1Q VLAN is not dissected.
* Wireshark crashes when attempting to open a file via drag & drop when there's already a file open.
* Adding and removing custom HTTP headers requires a restart.
* Can't read full 64-bit SNMP values.
* Dissection fails for frames with Gigamon Header and VLAN.
* RTP Stream Analysis does not work for TURN-encapsulated RTP.
* packet-csn1.c doesn't process CSN_CHOICE entries properly.
* BACnet property time-synchronization-interval (204) name shown incorrectly as time-synchronization-recipients.
* GUI crash on invalid IEEE 802.11 GAS frame.
* [ASN.1 PER] Incorrect decoding of BIT STRING type.
* ICMPv6 router advertisement Prefix Information Flag R "Router Address" missing.
* Export -> Object -> HTTP -> save all: Error on saving files.
* Inner tag of 802.1ad frames not parsed properly.
* Added cursor type decoding to MySQL dissector.
* Incorrect identification of UDP-encapsulated NAT-keepalive packets.
* WPA IE pairwise cipher suite dissector uses incorrect value_string list.
* S1AP protocol can't decode IPv6 transportLayerAddress.
* RTPS2 dissector doesn't handle 0 in the octestToNextHeader field.
* packet-ajp13 fix, cleanup, and enhancement.
* Network Instruments Observer file format bugs.
* Wireshark crashes when using "Open Recent" 2 times in a row.
* Wireshark packet_gsm-sms, display bug: Filler bits in TP-User Data Header.
* wireshark unable to decode NetFlow options which have system scope size != 4 bytes.
* Display filter Expression Dialog Box Error.
* text_import_scanner.l missing.
# Updated Protocol Support
* AJP13, ASN.1 PER, BACnet, CSN.1, DTN, Ethernet, ICMPv6, IEEE 802.11, IEEE 802.1q, Infiniband, IPsec, MySQL, PCEP, PN-RT, RTP, S1AP, SSL
# New and Updated Capture File Support
* Endace ERF.
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![Scientists are getting very close to creating an actual invisibility cloak, as separate research teams over the past week have revealed significant advancements in the area. From an invisibility cloak scaled up to be able to hide a person to a quantum invisibility cloak that can hide objects in time, there is no better moment for fans of H.G. Wells and the Harry Potter franchise than this one. The invisibility cloak that uses time was designed by Purdue University scientists. Unlike the spatial cloak we all saw in Harry Potter, this device uses time cloaking, a relatively new concept based on the idea that in some places in time, the things that happen are not picked up. Since nobody can tell that these things occurred, it’s like they never happened. The concept still has a long way to go before it turns into reality, although scientists have been able to cloak small electrical signals so far. The technology may be difficult to grasp, yet researchers think that if successful , it will be a major breakthrough in making quantum information computing and storage very successful. Another research team, meanwhile, detailed how to make an invisibility cloak to hide large objects, including a person. The New York University of Rochester scientists used a conventional arrangement of lenses and mirrors to drive the light around the area they want to hide from view. The human-scale cloak also manages the impressive feat of hiding items across the entire optical range. But it still faces one major problem: that is only works in one direction, which means the hidden object becomes visible if the viewpoint changes. Nonetheless, this large-scale cloak could be successfully used to hide satellites in orbit and other huge objects. And a Shanghai-based team of researchers unveiled another invisibility cloak which they claim can be adjusted to make items invisible from any line of sight. The scientists demonstrated the cloak by making a pet goldfish and a cat disappear. According to the Chinese team, the device may have important applications in security, surveillance and entertainment. http://www.youtube.com/watch?v=YNO9-DYCi2U With all the new ideas and research, it seems we will see an actual invisibility cloak in use very soon. What do you think of this technology? What would you do if you had your very own invisibility cloak? [Image via Mental floss]](http://cdn.techbeat.com/wp-content/uploads/2013/06/invisibility-harry-120x80.jpg)