Well known Ports numbers - Subnet. Online. com. PORT NUMBERSThe port numbers are divided into three ranges: the Well Known Ports,the Registered Ports, and the Dynamic and/or Private Ports. The Well Known Ports are those from 0 through 1. The Registered Ports are those from 1. The Dynamic and/or Private Ports are those from 4. WELL KNOWN PORT NUMBERSThe Well Known Ports are assigned by the IANA and on most systems canonly be used by system (or root) processes or by programs executed byprivileged users. Ports are used in the TCP [RFC7. For the purpose ofproviding services to unknown callers, a service contact port isdefined. This list specifies the port used by the server process asits contact port. Bt Home Hub 5 Ipv6 Header SizeThe contact port is sometimes called the"well- known port". To the extent possible, these same port assignments are used with the. UDP [RFC7. 68]. The range for assigned ports managed by the IANA is 0- 1. Port Assignments: Keyword Decimal Description Refrences- -- -- -- - -- -- -- - -- -- -- -- -- - -- -- -- -- -0/tcp Reserved. Reserved# Jon Postel & lt; postel@isi. TCP Port Service Multiplexertcpmux 1/udp TCP Port Service Multiplexer# Mark Lottor & lt; MKL@nisc. Management Utilitycompressnet 2/udp Management Utilitycompressnet 3/tcp Compression Processcompressnet 3/udp Compression Process# Bernie Volz & lt; VOLZ@PROCESS. COM& gt; # 4/tcp Unassigned# 4/udp Unassignedrje 5/tcp Remote Job Entryrje 5/udp Remote Job Entry# Jon Postel & lt; postel@isi. Unassigned# 6/udp Unassignedecho 7/tcp Echoecho 7/udp Echo# Jon Postel & lt; postel@isi. Unassigned# 8/udp Unassigneddiscard 9/tcp Discarddiscard 9/udp Discard# Jon Postel & lt; postel@isi. Unassigned# 1. ![]() Hello, I Have a Nas540 with PHP 5.5.22 and I installed the newest ownCloud on my nas but now I get the message This version of ownCloud requires at least PHP 5.6.0. Top VIdeos. Warning: Invalid argument supplied for foreach() in /srv/users/serverpilot/apps/jujaitaly/public/index.php on line 447. Statistical Techniques | Statistical Mechanics. Unassignedsystat 1. Active Userssystat 1. Active Users# Jon Postel & lt; postel@isi. Unassigned# 1. Unassigneddaytime 1. Daytime (RFC 8. 67)daytime 1. Daytime (RFC 8. 67)# Jon Postel & lt; postel@isi. Unassigned# 1. Bt Home Hub 5 Ipv6 Header RfcUnassigned# 1. Unassigned [was netstat]# 1. Unassigned# 1. Unassigned# 1. Unassignedqotd 1. Quote of the Dayqotd 1. Quote of the Day# Jon Postel & lt; postel@isi. Message Send Protocolmsp 1. Message Send Protocol# Rina Nethaniel & lt; -- -none- -- & gt; chargen 1. Character Generatorchargen 1. Character Generatorftp- data 2. File Transfer [Default Data]ftp- data 2. File Transfer [Default Data]ftp 2. File Transfer [Control]ftp 2. File Transfer [Control]# Jon Postel & lt; postel@isi. SSH Remote Login Protocolssh 2. SSH Remote Login Protocol# Tatu Ylonen & lt; ylo@cs. Telnettelnet 2. Telnet# Jon Postel & lt; postel@isi. Rick Adams & lt; rick@UUNET. UU. NET& gt; smtp 2. Simple Mail Transfersmtp 2. Simple Mail Transfer# Jon Postel & lt; postel@isi. Unassigned# 2. Unassignednsw- fe 2. NSW User System FEnsw- fe 2. NSW User System FE# Robert Thomas & lt; BThomas@F. BBN. COM& gt; # 2. Unassigned# 2. Unassignedmsg- icp 2. MSG ICPmsg- icp 2. MSG ICP# Robert Thomas & lt; BThomas@F. BBN. COM& gt; # 3. Unassigned# 3. Unassignedmsg- auth 3. MSG Authenticationmsg- auth 3. MSG Authentication# Robert Thomas & lt; BThomas@F. BBN. COM& gt; # 3. Unassigned# 3. Unassigneddsp 3. Display Support Protocoldsp 3. Display Support Protocol# Ed Cain & lt; cain@edn- unix. Unassigned# 3. Unassigned. 35/tcp any private printer server. Jon Postel & lt; postel@isi. Unassigned# 3. Unassignedtime 3. Timetime 3. Time# Jon Postel & lt; postel@isi. Route Access Protocolrap 3. Route Access Protocol# Robert Ullmann & lt; ariel@world. Resource Location Protocolrlp 3. Resource Location Protocol# Mike Accetta & lt; MIKE. ACCETTA@CMU- CS- A. EDU& gt; # 4. Unassigned# 4. Unassignedgraphics 4. Graphicsgraphics 4. Graphicsname 4. Host Name Servername 4. Host Name Servernameserver 4. Host Name Servernameserver 4. Host Name Servernicname 4. Who Isnicname 4. Who Ismpm- flags 4. MPM FLAGS Protocolmpm- flags 4. MPM FLAGS Protocolmpm 4. Message Processing Module [recv]mpm 4. Message Processing Module [recv]mpm- snd 4. MPM [default send]mpm- snd 4. MPM [default send]# Jon Postel & lt; postel@isi. NI FTPni- ftp 4. NI FTP# Steve Kille & lt; S. Kille@isode. com& gt; auditd 4. Digital Audit Daemonauditd 4. Digital Audit Daemon# Larry Scott & lt; scott@zk. Login Host Protocol (TACACS)tacacs 4. Login Host Protocol (TACACS)# Pieter Ditmars & lt; pditmars@BBN. COM& gt; re- mail- ck 5. Remote Mail Checking Protocolre- mail- ck 5. Remote Mail Checking Protocol# Steve Dorner & lt; s- dorner@UIUC. EDU& gt; la- maint 5. IMP Logical Address Maintenancela- maint 5. IMP Logical Address Maintenance# Andy Malis & lt; malis_a@timeplex. XNS Time Protocolxns- time 5. XNS Time Protocol# Susie Armstrong & lt; Armstrong. XEROX& gt; domain 5. Domain Name Serverdomain 5. Domain Name Server# Paul Mockapetris & lt; PVM@ISI. EDU& gt; xns- ch 5. XNS Clearinghousexns- ch 5. XNS Clearinghouse# Susie Armstrong & lt; Armstrong. XEROX& gt; isi- gl 5. ISI Graphics Languageisi- gl 5. ISI Graphics Languagexns- auth 5. XNS Authenticationxns- auth 5. XNS Authentication# Susie Armstrong & lt; Armstrong. XEROX& gt; 5. Jon Postel & lt; postel@isi. XNS Mailxns- mail 5. XNS Mail# Susie Armstrong & lt; Armstrong. XEROX& gt; 5. Jon Postel & lt; postel@isi. Unassigned. 60/udp Unassignedni- mail 6. NI MAILni- mail 6. NI MAIL# Steve Kille & lt; S. Kille@isode. com& gt; acas 6. ACA Servicesacas 6. ACA Services# E. Wald & lt; ewald@via. Rickard Schoultz & lt; schoultz@sunet. Communications Integrator (CI)covia 6. Communications Integrator (CI)# Dan Smith & lt; dan. TACACS- Database Servicetacacs- ds 6. TACACS- Database Service# Kathy Huber & lt; khuber@bbn. Oracle SQL*NETsql*net 6. Oracle SQL*NET# Jack Haverty & lt; jhaverty@ORACLE. COM& gt; bootps 6. Bootstrap Protocol Serverbootps 6. Bootstrap Protocol Serverbootpc 6. Bootstrap Protocol Clientbootpc 6. Bootstrap Protocol Client# Bill Croft & lt; Croft@SUMEX- AIM. STANFORD. EDU& gt; tftp 6. Trivial File Transfertftp 6. Trivial File Transfer# David Clark & lt; ddc@LCS. MIT. EDU& gt; gopher 7. Gophergopher 7. Gopher# Mark Mc. Cahill & lt; mpm@boombox. Remote Job Servicenetrjs- 1 7. Remote Job Servicenetrjs- 2 7. Remote Job Servicenetrjs- 2 7. Remote Job Servicenetrjs- 3 7. Remote Job Servicenetrjs- 3 7. Remote Job Servicenetrjs- 4 7. Remote Job Servicenetrjs- 4 7. Remote Job Service# Bob Braden & lt; Braden@ISI. EDU& gt; 7. 5/tcp any private dial out service. Jon Postel & lt; postel@isi. Distributed External Object Storedeos 7. Distributed External Object Store# Robert Ullmann & lt; ariel@world. RJE service. 77/udp any private RJE service# Jon Postel & lt; postel@isi. Christopher Leong & lt; leong@kolmod. Fingerfinger 7. Finger# David Zimmerman & lt; dpz@RUTGERS. EDU& gt; http 8. World Wide Web HTTPhttp 8. World Wide Web HTTPwww 8. World Wide Web HTTPwww 8. World Wide Web HTTPwww- http 8. World Wide Web HTTPwww- http 8. World Wide Web HTTP# Tim Berners- Lee & lt; timbl@W3. HOSTS2 Name Serverhosts. HOSTS2 Name Server# Earl Killian & lt; EAK@MORDOR. S1. GOV& gt; xfer 8. XFER Utilityxfer 8. XFER Utility# Thomas M. Smith & lt; Thomas. M. Smith@lmco. com& gt; mit- ml- dev 8. MIT ML Devicemit- ml- dev 8. MIT ML Device# David Reed & lt; -- none- -- & gt; ctf 8. Teledyne Le. Croy - Protocol Analyzer. Now supporting the Type- C, 3. Power Delivery 2. Teledyne Le. Croy’s legendary Voyager USB analyzer platform provides the industry’s most accurate and reliable capture of USB 2. This multifunction validation platform is available with an integrated exerciser capable of both 2. In addition to compliance verification and error injection, the exerciser can emulate a USB endpoint and intelligently respond to enumeration requests. With best- in- class features including T. A. P. 3 probing, 1. GB recording memory, and Super. Speed 3. 0 data upload ports, the Voyager system features countless innovations in data analysis to help reduce time- to- market for USB systems and software. From fault recovery to performance optimization, the Voyager system helps assure that USB devices deliver excellent compatibility and throughput. Voyager USB 3. 0 Introduction series of video demos. Unmatched Accuracy. The Voyager M3. 10 features custom probe technology known as T. A. P. 3 (Transparent Acquisition Probing) which has been field proven in our market- leading PCIe 3. SAS 1. 2G analyzers. Designed to non- intrusively record both 5 and 1. Gbps Super. Speed links, T. A. P. 3 technology provides unprecedented accuracy and reliability without compromising link integrity. Hot plug any combination of USB host and device and the Voyager system will transparently follow speed negotiation and lock to the agreed rate. While in line, it will detect and seamlessly recover from electrical idle while accurately showing all bus and power state transitions within the display. Flexible hardware. The front end of the Voyager analyzer features standard USB Type- C connectors that support USB 2. Concurrent recording of legacy USB and Super. Speed+ and PD, allows end- to- end viewing of data transfers across a USB 3. The Voyager M3. 10 platform includes 1. GB of recording memory plus USB 3. Gbe links for uploading recorded traffic to the host PC. In spooled recording mode, the Voyager provides continuous, real- time display of captured traffic allowing fast access and extended recording sessions. The heart of the Voyager analyzer is Teledyne Le. Croy's revolutionary Bus. Engine technology. This state- of- the- art protocol processing core incorporates a real- time recording engine and configurable tools to selectively monitor and record Super. Speed USB traffic. Field upgradeable firmware allows the Bus. Engine to evolve and support new features or future changes to the USB specification. Analysis Software. The Voyager utilizes the legendary CATC Trace - the industry's de facto standard since the inception of USB 1. The trace viewer software uses colors and patterns to train the eye to understand information faster. When recording mixed traffic upstream from a Super. Speed hub, Legacy 2. Each event is shown on a separate row with every field labeled and color coded. Traffic from the logical 2. The USB Transfer level can be expanded and collapsed to show the packet layer including all link commands and flow control symbols. Raw Debugging Power. The Voyager is the only analyzer on the market that captures every transition at the 5 and 1. Gbps link rates including idles, inter- packet symbols and corrupt 1. The Link Tracker provides a chronological upstream / downstream display of all ordered sets with timing resolution of 2ns. Designed to assist with low- level debugging, all symbols including training sequences can be displayed in raw 1. Hex format. Symbol- to- symbol timing measurements are possible with a single click. Key Features. CATC Trace Analysis Software System - Expand / Collapse transfer layer for faster interpretation of USB traffic. Capture / Analyze 3. Record 2. 0, 3. 0, and 3. USB host & hub operation. Integrated 3. 1 analyzer / exerciser (single box) - Multifunction system with 2. USB Type- C & PD analyzer / exerciser - Generate and Record all Type- C and Power Delivery protocol messages and state changes. GB Recording Capacity - Capture long recording sessions for analysis and problem solving. Raw bit Recording / 1. Detects over 4. 0 Link & Protocol errors - Critical link and timing errors are automatically detected and flagged in the trace. External Trigger In / Out - Use the Teledyne Le. Croy Voyager to identify any packet and toggle a scope or logic analyzer (via SMA connectors)Fully supports SSC and Data scrambling - Fast Locking and Accurate capture on 5 and 1. Gbps signals. Hardware Triggering - Trigger on 2. Comprehensive Device Decoding - SCSI Mass Storage, Hub, PTP/Still Image, Printer, Pict. Bridge, Media Transfer Protocol (MTP), and all popular USB device classes. Hardware Filtering - Automatically exclude non- essential and redundant symbols including Idles, TS1, TS2, SKPs, and LFPS sequences. Intelligent Reporting - Automatically report event metrics and flag over 2. USB 2. 0, 3. 0, and 3. Sophisticated Viewing - View TLP messages and headers, plus logical transaction and transfer layers of the USB protocol. Gbe or USB 3. 0 Upload - Sustained transfer rates of 6. Mbps over Gbe provide instant access to captured data. Loopback and Compliance Mode - Exerciser system provides special console for initiating loopback and compliance mode. Link Training and Timing Views - LTSSM flow diagram and chronological views linked to trace display. Real Time Statistics - RTS window shows throughput, link statistics and packet error rates graphically, in real time. Compliance Test option - Voyager is a certified Link Verification System (LVS) for performing link, Hub and USB Type- C compliance testing. Power Tracker Option - Graphs Power & Current draw for VBus devices synchronized to the trace data - now compatible with USB PD voltages (up to 5 Amp)1. Month Hardware Warranty - Protect your investment with industry leading support and warranty. Intelligent Triggering. The Voyager provides hardware triggering to pinpoint protocol events of interest. Trigger events can be specified at the lowest levels including bus states and ordered sets (Link up, SKP, etc..) or header fields including route strings or packet types (ACK, Data, etc….). Voyager's graphical drag- and- drop interface makes setup easy. Users can define trigger logic that monitors multiple sequential event trigger scenarios that include SCSI operations, counters, loops and timers all within a multi- level sequence. Real Time Filtering. Super. Speed data transfers at 1. Gb/s can fill memory buffers in an instant making event filtering critical for efficient debug. The Voyager analyzer can filter unwanted traffic from the buffer in real- time by discarding redundant patterns such as SKPs, idles, and training sequences. Filtering logic can also include transaction layer packets with added criteria like direction or port number. Error Detection. The Teledyne Le. Croy Voyager can detect and flag real protocol errors including logical link and timing errors. At the lower layers, training sequences and link commands are automatically verified for proper formatting. The Spec View displays header fields in hex or binary and also marks errors in red. Integrated Exerciser Option. A comprehensive exerciser capability with support for both USB 2. Voyager platform. The exerciser option allows users to transmit custom packets over standard USB cables with low- level control of headers, payloads, timing, and link states. Featuring Voyager Ready. Link and Transaction Engine the exerciser includes full function link and transaction layer state machines that automatically handle all USB 3. Ready. Link performs link synchronization, flow control and header acknowledgements in hardware. The Transaction Engine manages NRDY retry conditions allowing the Voyager to operate at full line rate and correctly respond to the DUT as defined by the specification. Overrides allow these behaviors to be altered such as shortening LFPS intervals, link training sequences or handshake timing. The Exerciser is seamlessly integrated with the protocol analyzer, making the Voyager system a complete test and development solution for engineers validating USB protocol. USB Compliance Testing. The Voyager USB 3. Compliance Suite is a software option that provides comprehensive link layer test coverage to verify hosts and devices properly implement link training, link recovery and power management behaviors (chapter 7). Integrated with Teledyne Le. Croy’s Voyager exerciser platform, the Compliance Suite is certified for Link and Hub testing by the USB IF. USB Device Decoding.
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