Lindy Switch manual Calculating the mask for IP access control, Single locations, All locations

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Calculating the mask for IP access control

The IP access control function uses a standard IP address and a net mask notation to specify both single locations and ranges of addresses. In order to use this function correctly, you need to calculate the mask so that it accurately encompasses the required address(es).

Single locations

Some of the simplest addresses to allow or deny are single locations. In this case you enter the required IP address into the ‘Network/Address’ field and simply enter the ‘Mask’ as 255.255.255.255 (255 used throughout the mask means that every bit of the address will be compared and so there can only be one unique address to match the one stated in the ‘Network/Address’ field).

All locations

The other easy setting to make is ALL addresses, using the mask 0.0.0.0 As standard, the IP access control section includes the entry: +0.0.0.0/0.0.0.0 The purpose of this entry is to include all IP addresses. It is possible to similarly exclude all addresses, however, take great care not to do this as you instantly render all network access void. There is a recovery procedure should this occur.

Address ranges

Although you can define ranges of addresses, due to the way that the mask operates, there are certain restrictions on the particular ranges that can be set. For any given address you can encompass neighbouring addresses in blocks of either 2, 4, 8, 16, 32, 64, 128, etc. and these must fall on particular boundaries. For instance, if you wanted to define the local address range:

192.168.142.67 to 192.168.142.93

The closest single block to cover the range would be the 32 addresses from:

192.168.142.64 to 192.168.142.95.

The mask needed to accomplish this would be: 255.255.255.224

When you look at the mask in binary, the picture becomes a little clearer. The above mask has the form: 11111111.11111111.11111111.11100000

Ignoring the initial three octets, the final six zeroes of the mask would ensure that the 32 addresses from .64 (01000000) to .95 (01011111) would all be treated in the same manner. See Net masks - the binary explanation for details.

When defining a mask, the important rule to remember is:

There must be no ‘ones’ to the right of a ‘zero’.

For instance, (ignoring the first three octets) you could not use a mask that had 11100110 because this would affect intermittent addresses within a range in an impractical manner. The same rule applies across the octets. For example, if you have zeroes in the third octet, then all of the fourth octet must be zeroes.

The permissible mask values (for all octets) are as follows:

Mask octet

Binary

Number of addresses encompassed

255

11111111

1 address

254

11111110

2 addresses

252

11111100

4 addresses

248

11111000

8 addresses

240

11110000

16 addresses

224

11100000

32 addresses

192

11000000

64 addresses

128

10000000

128 addresses

0

00000000

256 addresses

If the access control range that you need to define is not possible using one address and one mask, then you could break it down into two or more entries. Each of these entries could then use smaller ranges (of differing sizes) that, when combined with the other entries, cover the range that you require.

For instance, to accurately encompass the range in the earlier example:

192.168.142.67 to 192.168.142.93

You would need to define the following six address and mask combinations in the IP access control section:

Network/address entry

Mask entry

 

192.168.142.67

255.255.255.255

defines 1 address (.67)

192.168.142.68

255.255.255.252

defines 4 addresses (.68 to .71)

192.168.142.72

255.255.255.248

defines 8 addresses (.72 to .79)

192.168.142.80

255.255.255.248

defines 8 addresses (.80 to .87)

192.168.142.88

255.255.255.252

defines 4 addresses (.88 to .92)

192.168.142.93

255.255.255.255

defines 1 address (.93)

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Contents IP Access Switch Plus DVI Audio Contents Index Modem/ISDN port Virtual Media featureLocal user console Dual formats for flexibilityLindy KVM IP features front and rear What’s in the box What you may additionally needDouble unit rack brackets MountingSingle unit rack brackets Full width of a 1U rack slotLocal console connections Keyboard and mouse Video Audio ConnectionsHost computer links Keyboard and mouse Single host computer or many?Host computer links Video To make a video linkTo make an audio link Host computer links AudioHost computer links Virtual Media To make an Virtual Media linkLocal console. Why? Local console connections Keyboard and mouseTo connect a local keyboard and mouse   Local console connections Video To connnect a local video monitorTo connect local speakers Local console connections AudioIP network port To connect the IP network portConnect the power leads to a nearby main supply socket Power supply connectionTo connect the power supply Modem/ISDN portPower control port To connect and address the switch boxesInitial configuration occurs as two distinct parts Initial configurationPart 1 Local configuration Part 1 Local configurationTo perform the initial local configuration Edit the Unit config screen. The key elements here areViewer encryption settings Encryption settingsLindy KVM IP encryption settings EncryptionHot plugging and mouse restoration Which restore setting do I use?To restore mouse operation when hot plugging Recognising an IntelliMouse-style mouseTo invoke a configuration reset by switch Resetting the configurationLindy KVM IP asks for an unknown admin password Lindy KVM IP does not display the configuration sequencePart 2 Remote configuration To perform the remote configurationPositioning Lindy KVM IP in the network Networking issuesPort settings Placing Lindy KVM IP behind a router or firewallDNS addressing AddressingTo discover a DHCP-allocated IP address Firewall/router addressPlacing Lindy KVM IP alongside the firewall Ensuring sufficient securityPorts To configure the power sequences for each host computer Power switching configurationPower control sequences Power OffKvmadmin -getconfig kvm1.cfg Kvmadmin utilityKvmadmin command ip address parameters Kvmadmin -setusers users.csvConfigure network option Performing a flash upgradeTo perform a flash upgrade Important Wait until the upgrade is completeTo make a local connection Connecting to the Lindy KVM IPLocal connection To view the local control menuRemote connections To avoid the ‘hall of mirrors’ effectRemote connection by VNC viewer To connect using the VNC viewerTo connect using your Web browser Remote connection by Web browserUsing the viewer window When using the viewer windowMenu bar For the VNC viewer, the local cursor is a dot ConfigureMouse pointers To select a hostAuto calibrate Access mode shared/privatePower control Re-synchronise mouseMouse Control Single Mouse ModeControls Resync MouseKeyboard Control When entering codesVideo Settings InfoWhen the screen contains only host system information AdjustedSettings for all items Increased by 50% when a slow link is detectedVirtual Media To remotely transfer files to a host computerConnecting via dial up modem or Isdn link Downloading VNC viewer from the Lindy KVM IPIf you need to enter a port number Windows Viewer encryption settingsSupported web browsers LinuxTroubleshooting Getting assistanceSelect the ‘Configuration’ option to display Appendix 1 Local configuration menusTo access the local configuration menus Select the required optionUnit configuration Network configuration Modem configuration Reset configuration This option allows you to completely reset the Lindy KVM IPTo reset the Lindy KVM IP configuration Clear IP access control What is IP access control?To clear IP access control Auto select Appendix 2 VNC viewer connection optionsColour/Encoding Preferred encodingInputs Enable all inputsDisable all inputs view-only mode CustomiseScaling MiscIdentities Defaults ReloadDefaults Save Load / SaveAppendix 3 VNC viewer window options Appendix 4 Browser viewer options Encoding and colour levelSecurity Main configuration menu Logged on users Appendix 5 Remote configuration menusTo access the remote configuration menus Click the required optionUser accounts Firmware Version Screensaver TimeoutHardware Version Host Keyboard LayoutAdvanced unit configuration Time & date configuration IP Access Control IP Network MaskIP Gateway To reorder access control entries Setting IP access controlTo define a new IP access control entry To edit/remove access control entriesSerial port configuration Power control portModem port Host configuration To create a new host entryHotkey sequences Port/host addressing using Port DirectHotkey sequences and Port Direct Port DirectSyslog Server IP Address Logging and statusTo copy and paste the log For further details To get hereNet masks Appendix 6 Addresses, masks and portsIP addresses Answer YESBinary equivalent Net masks the binary explanationOperation with net mask Binary octet afterAll locations Calculating the mask for IP access controlSingle locations Address rangesSecurity issues with ports Ports+5V Appendix 7 Cable and connector specificationsRS232 serial mouse to PS/2 converter cable 12VAppendix 8 Hotkey sequence codes Permissible key pressesCreating macro sequences Appendix 9 Supported video modes Safety information Other products in the CPU Switch rangeWarranty General Public License LinuxEnd user licence agreement FCC Compliance Statement United States Radio Frequency EnergyEuropean EMC directive 89/336/EEC Canadian Department of Communications RFI statementGermany France Italia LINDY-Elektronik GmbHItalia Email info@lindy.ch Video source setting IndexConnections

Switch specifications

Lindy Switch is a pivotal innovation in the realm of audio-visual and data transmission technologies, designed to facilitate seamless switching between multiple signal sources. This device serves numerous applications, from broadcasting and live events to professional AV setups and corporate environments. One of its standout features is the ability to handle multiple input and output formats, enabling users to switch between HDMI, DisplayPort, USB, and more, depending on their specific needs.

The technology behind Lindy Switch is built to ensure high-definition signal integrity, with support for resolutions up to 4K at 60Hz. This makes it an ideal choice for environments that demand high-quality video output, such as home theaters and conference rooms. Furthermore, the device is engineered for low latency, ensuring that signal switching occurs in real-time without discernible lag, crucial for live performances and presentations.

Lindy Switch incorporates advanced features such as automatic switching, which detects the active input source and seamlessly transitions to it, making it user-friendly even for those who are not tech-savvy. Additionally, the device often includes remote control capabilities, allowing users to manage inputs from a distance, enhancing convenience in larger spaces.

Another characteristic that sets Lindy Switch apart is its robust build quality. Designed for reliability, it features durable connectors and housing, safeguarding against wear and tear from frequent use. This reliability extends to its compatibility with a wide range of operating systems and devices, including Windows, macOS, and various gaming consoles.

In summary, Lindy Switch exemplifies cutting-edge technology in signal management, boasting features such as high-definition support, low latency, automatic switching, and versatile compatibility. Its solid construction and user-friendly interface make it a vital tool for professionals and enthusiasts alike, ensuring optimal performance in diverse audio-visually demanding environments. Whether for a home cinema or a corporate setting, Lindy Switch meets the needs of modern users who rely on efficient and high-quality signal switching solutions.