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Revision: 1.2 Copyright 2011 All Rights Reserved. Manual’s first edition: For the purpose of improving reliability, design and function, the information in this document is subject to change without prior notice and does not represent a commitment on the part of the manufacturer.
Revision: 1.2 System Installation Guide ..................................................5 1 Introduction to AR-R5800 ..............................................................5 1.1 1.2 1.3 Specifications................................................................................... 6 Packing List ..................................................................................... 6 System Dissection ...........................................................................
Revision: 1.2 4.1 4.2 4.3 Introduction .................................................................................... 49 File Descriptions ............................................................................ 51 API List and Descriptions ..............................................................
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Revision: 1.2 AR-R5800 series is a 1U height, rack-mounted platform for networking appliance, e.g. VPN, SSL, UTM or firewall. With Intel advanced Core 2 Quad / Duo / Pentium / Celeron CPU, AR-R5800 is a powerful platform to satisfy different applications. By eight 10/100/1000Mbps LANs, the AR-R5800 is sufficient for the small to middle size business security solution. AR-R5800 series can be equipped with 2 x HDD for RAID 0/1 redundancy.
Revision: 1.2 Description Quantity AR-R5800 system 1 Console Cable(RJ45) 1 Quick user manual 1 CD with Driver and Manual 1 SATA cable 2 USA or Europe or Japan or UK power cord 1 Rack bracket 2 Screw for bracket (for Rack + HDD bracket) 14 Power cord hook 1 1.
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Revision: 1.2 2 Procedures of Assembly/Disassembly 2.1 2.5” HDD Installation The following instructions will guide you to install 2.5” HDD step-by-step. 1. Unfasten 2 screws of chassis top cover and take off it. 2. Release HDD bracket by unfastening 4 screws.
Revision: 1.2 3. Take out HDD screws from packing bag. 4. Fix HDD with HDD bracket by 4 screws.
Revision: 1.2 5. Fix HDD with HDD bracket by 4 screws.
Revision: 1.2 6. Plug SATA power cable into motherboard. 7. The SATA power cable MUST go through below M/B power cable, please follow below photo.
Revision: 1.2 8. Connect SATA cable and SATA power cable with HDD module. 9. Assemble top cover back by fastening the 2 screws.
Revision: 1.2 2.2 CF Card Installation 1. Open the top cover (the same as above steps). 2. Push CF card into CF socket. 3. Finish the CF card installation.
Revision: 1.2 2.3 Power Cord Hook Installation 1. Take out the hook from packing bag. 2. Install the hook from right side firstly. 3. Then install the hook by left side.
Revision: 1.2 2.4 PCIe Card Installation 1. Unfasten two screws of PCIe bracket and then take out the PCIe card bracket. 2. Release the PCIe dummy bracket.
Revision: 1.2 3. Fix the PCIe card with PCIe bracket. 4. Plug the PCIe module into PCIe slot following below direction.
Revision: 1.2 5. Fasten the 2 screws in order to firm the PCIe module.
Revision: 1.2 2.5 Rack Bracket Installation 1. Take out the screws and Rack bracket from packing bag. 2. Fixed the Rack bracket to Chassis by fastening 6 screws.
Revision: 1.2 AR-B5800 Board Intel® Core™2 LGA775 PROCESSOR Networking Board Board Guide Manual Rev.: 1.0 Book Number: AR-B5800-2011.01.
Revision: 1.2 1 Introduction AR-B5800 is designed for rack-mounted platform for networking appliance, e.g. VPN, SSL, UTM or firewall. With Intel advanced Core 2 Quad / Duo / Pentium / Celeron CPU, AR-B5800 is a powerful platform to satisfy different applications. By eight 10/100/1000Mbps LANs, the AR-B5800 is sufficient for the small to middle size business security solution. AR-B5800 can install 2 x HDD for RAID 0/1 redundancy. Customers don’t need to worry about data lost due to HDD defected problem.
Revision: 1.2 1.1 Specifications CPU: a LGA775 socket for Intel Core2 Processors in the 775-Land LGA package. DMA channels: 7. Interrupt levels: 16 (24 APIC interrupts). Chipset: Intel G41 express chipset 82G41 + 82801GR + W83627DHG-P. Memory: provides two 240-pin DIMM sockets to support DDRIII 1066 non-ECC DIMM. The memory capability can up to 2GB. VGA Controller: G41 GMCH integrated. Analog Display Interface: 10-pin box header, and resolution up to 2048x1536@75Hz.
Revision: 1.2 Memory: one Kingston KVR1333D3N9/2G. One 3.5” HDD OS: Windows XP SP3. Processor was running at 100% loading. Note: A proper power supply unit choice means that we should consider at least about a.) Protection of overload, short-circuit, and other safeties. b.) Summation of all devices’ power requirements. c.) Thermal de-rating. 1.2 Package Contents Check if the following items are included in the package.
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Revision: 1.2 2 H/W Information This chapter describes the installation of AR-B5800. At first, it shows the Function diagram and the layout of AR-B5800. It then describes the unpacking information which you should read carefully, as well as the jumper/switch settings for the AR-B5800 configuration 2.
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Revision: 1.2 2.2 Connectors and Jumper Setting 2.2.
Revision: 1.2 LAN1 LAN1 RJ45 Connector FP_USB1 Internal USB2, USB3 connector. SYSFAN2 System FAN Connector. LAN2 LCM1 LAN2 RJ45 Connector Pin Header for LCM SYSFAN1 System FAN Connector. LAN3 GP1 GPIO Header. JP1 For LAN1/LAN2 Bypass Function Select. JP2 GPIO Header Voltage Selection. RTC1 CR2032 Battery Hold Connector. CF1 CF CARD SOCKET. CCMOS1 CMOS Memory Clearing Header LAN6 RJ45 Connector CPLD1 For CPLD Firmware Update JP4 For LAN3/LAN4 Bypass Function Select.
Revision: 1.2 2.3 Connector and Jumper Setting 1. LAN1 ~ LAN8 RJ45 Connector 9. USB1 Connector External USB Connector Connects to USB devices such as scanner, LAN RJ45 Connector digital speakers, monitor Connects to Local Area , mouse, keyboard, hub, digital camera, Network. 10. COM1 ( RJ45 Connector ) joystick etc. 11. LED1 Green1: Power ON LED. Green2: HDD LED COM Port RJ45 Connector Yellow1: LAN3&LAN4 Bypass LED. Yellow2: LAN1&LAN2 Bypass LED. 12. RST2 13,14.
Revision: 1.2 15. LCM1 ( for LCM use ) 16. GP1 ( GPIO Header ) PIN SIGNAL PIN SIGNAL Pull-High to VCC5 1 VCC_GP 2 GND 2 VCC5 3 GP30 4 GP34 3 SOUTB 5 GP31 6 GP35 4 SINB 7 GP32 8 GP36 5 RTSB# 9 GP33 10 GP37 6 CTSB# 7 GND Pin SIGNAL 1 17. JP2 GPIO Header Voltage Selection 18. CF1 ( CF CARD Socket ) Pins 1 and 2 shorted (Default): VCC 5 Pins 2 and 3 shorted: VCC 3 19.
Revision: 1.2 21,22. SATA2, SATA1 (SATA device connector #2 and #1). 23. VGA1 (2x5pin 2mm Wafer). To connect SATA device: 1.Attach either end of the signal cable VGA Wafer CONNECTOR . to the SATA connector on PIN SIGNAL PIN SIGNAL motherboard. 1 Red 2 GND Attach the other end to the SATA 3 Green 4 GND 5 Blue 6 GND 7 VSYNC 8 DDCCLK 9 HSYNC 10 DDCDATA device. 2. Attach the SATA power cable to the SATA device and connect the other end from the power supply. 24. ATX12V1.
Revision: 1.2 28. SYS_FAN1 (System FAN connector 1). PIN SIGNAL 1 GND 2 +12V 3 Fan speed data 29. JP1 (For LAN1/LAN2 Bypass Function Select.). Pins 1 and 2 shorted (Default): Forced Normal. Pins 2 and 3 shorted: Controlled By CPLD. Otherwise : Forced Bypass 30. RTC1 31. CCMOS1. CMOS Backup Battery: An onboard battery saves the CMOS memory to keep the BIOS information stays on even after disconnected your system with power source. Nevertheless, this backup battery exhausts after some five years.
Revision: 1.2 3 BIOS setting This chapter describes the BIOS menu displays and explains how to perform common tasks needed to get the system up and running. It also gives detailed explanation of the elements found in each of the BIOS menus.
Revision: 1.2 3.1 Main Setup Once you enter the Award BIOS™ CMOS Setup Utility, the Main Menu will appear on the screen. Use the arrow keys to highlight the item and then use the keys to select the desired value in each item. Note: The control keys are listed at the bottom of the menu. If you need any help with the item fields, you can press the key, and the relevant information will be displayed. Option Choice Description Date Setup N/A Set the system date.
Revision: 1.2 The onboard SATA connectors provide 1 channel for connecting one SATA hard disks, the BIOS will auto-detect the SATA type. SATA Channel 1/2 N/A Halt On All Errors, No Errors, All but keyboard. Select the situation in which you want the BIOS to stop the POST process and notify you. 3.2 Advanced Chipset Setup This section allows you to configure and improve your system and follows you to set up some system features according to your preference.
Revision: 1.2 Full Screen Logo Enabled Select Enabled to show the OEM full screen logo if you have Show Disabled add-in BIOS. APIC Mode Pre-allocated Memory Size DVMT Mode Console Redirection Enabled Disabled 32Mb 64Mb 128Mb Enabled Disabled Advanced Programmable Interrupt Controller.This item [Enabled] for more system INTerrupts that AR-B5800 required. This Item is for setting the Frame Buffer (Share system memory as display memory). Dynamic Video Memory Technology.
Revision: 1.2 Option Choice Description Normally, you leave this field Disabled. Select Enabled to Reset Configuration Enabled Data Disabled reset Extended System Configuration Data (ESCD) when you exit Setup. If you have installed a new add-on and the system reconfiguration has caused such a serious conflict, then the operating system cannot boot.
Revision: 1.2 Option Choice Description Onboard Serial Port 1 Serial Port 1: 3F8 / IRQ4 Select an address and the corresponding Onboard Serial Port 2 Serial Port 2: 2F8 / IRQ3 interrupt for each serial port. USB Device Setting Enter to Select USB Device Setting Select Enabled if your system contains USB 1.0 Controller Enabled a Universal Serial Bus (USB) 1.0 Disabled controller and you have USB peripherals Select Enabled if your system contains USB 2.
Revision: 1.2 3.5 PC Health Setup This section shows the parameters in determining the PC Health Status. These parameters include temperatures, fan speeds, and voltages. 3.6 Boot Setup This section is used to exit the BIOS main menu. After making your changes, you can either save them or exit the BIOS menu and without saving the new values.
Revision: 1.2 Option Choice Description Hard Disk First / Second / Third Boot Device/Other Boot Device CDROM USB-FDD USB-CDROM LAN The BIOS attempts to load the operating system from the devices in the sequence selected in these items. Disabled LAN Boot Select Hard Disk Boot Priority Enabled These fields allow the system to search Disabled for an OS from LAN These fields set the Boot Priority for each N/A Hard Disk 3.7 Exit Setup This section is used to configure exit mode.
Revision: 1.2 Option Choice Description Press “Y” to store the selections made in Pressing on this item for confirmation: the menus in CMOS – a special section of memory that stays on after you turn your system off. The next time you boot your Save & Exit Setup Save to CMOS and EXIT (Y/N)? Y computer, the BIOS configures your system according to the Setup selections stored in CMOS.
Revision: 1.2 when you are prompted to enter the password. A message will confirm that the password will be disabled. Once the password is disabled, the system will boot and you can enter Setup freely. 3.8 BIOS Update The BIOS program instructions are contained within computer chips called FLASH ROMs that are located on your system board. The chips can be electronically reprogrammed, allowing you to update your BIOS firmware without removing and installing chips.
Revision: 1.2 APPENDIX A.
Revision: 1.2 APPEXDIX B.
Revision: 1.2 APPENDIX C.
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Revision: 1.2 Software Installation and 4 Programming Guide 4.1 Introduction LCD Control Module Overview The LCM (short for LCD Control Module) APIs provide interfaces to control the module. By invoking these APIs, programmers can implement the applications which have the functions listed below: 1. 2. 3. 4. 5. 6. Clear LCD screen. Turn on or off the cursor on the screen. Move the cursor on the screen. Turn on or off the text on the screen. Get the identification of the pressed key of the LCM.
Revision: 1.2 Pin Name on SIO I/O Direction Signal Name in Source Code GP30 Configurable GPIO0 GP31 Configurable GPIO1 GP32 Configurable GPIO2 GP33 Configurable GPIO3 GP34 Configurable GPIO4 GP35 Configurable GPIO5 GP36 Configurable GPIO6 GP37 Configurable GPIO7 In the GPIO APIs, we use the signal names ‘GPIO0’, ‘GPIO1’…etc. to identify the GPIO ports. LAN Bypass Subsystem Overview Two pairs of LAN ports on AR-B5800 implement the bypass function.
Revision: 1.2 4.2 File Descriptions LCD Control Module On Linux platform: 1. lcmdemo.c This file is the source code of the demo program. This program displays the user interface, processes user’s input, and invokes LCM APIs to demonstrates the functions of LCM. 2. lcm.c This file includes the hardware independent implementation of LCM APIs.
Revision: 1.2 GPIO and Watchdog On Linux platform: 1. sio_acce.c The source code of the Watchdog and GPIO APIs for accessing the SuperIO. 2. sio_acce.h This file includes the declarations of the APIs and macro definitions. 3. main.c The source code of the utility. 4. Makefile On Windows platform: 1. GPIO_Watchdog.cpp GPIO and Watchdog demo program source code. 2. AR-B5800.h The header file of the APIs. 3. AR-B5800.lib and AR-B5800.dll The API libiaries. LAN Bypass Subsystem On Linux platform: 1. bypass.
Revision: 1.2 On Windows platform: 1. LAN_Bypass.cpp LAN_Bypass demo program source code. 2. AR-B5800.h The header file of the APIs. 3. AR-B5800.lib and AR-B5800.dll The API libiaries.
Revision: 1.2 4.3 API List and Descriptions Type Definitions Typedef Typedef Typedef Typedef Typedef Typedef char unsigned char short unsigned short unsigned long int i8; u8; i16; u16; u32; i32; LCD Control Module 1. i32 clrscrLcm( void ) Description: Clear the screen of the LCM. Return value: 0 after the screen is cleared. 2. i32 cursorLcm( bool mode ) Description: According to the argument ‘mode’, show the cursor on the LCM screen or eliminate the cursor on the LCM screen.
Revision: 1.2 4. i32 displayLcm( bool mode ) Description: Show the text on the LCM screen or eliminate the text on the LCM screen. The content of the text is not altered. mode = true, show the text. mode = false, eliminate the text. Return value: 0 after the text has been shown or eliminated. 5. i32 getKeyLcm( void ) Description: Scan the LCM and return the identification of the pressed direction key. Return value: ‘UP’ if the ‘up’ direction key is pressed. ‘RIGHT’ if the ‘right’ direction key is pressed.
Revision: 1.2 GPIO and Watchdog GPIO 1. Syntax: i32 setChDir( u8 val ) Description: Set the direction (Input/Output) of GPIO ports according to the parameter ‘val’. Parameters: The parameter ‘val’ is an unsigned character. Each bit of *val corresponds to a GPIO port. Bit 0 corresponds to GPIO0. Bit 1 corresponds to GPIO1. Bit 2 corresponds to GPIO2, and so on. Setting a bit of ‘val’ as 0 configures the corresponding port as Output. Setting a bit of ‘val’ as 1 configures the corresponding port as Input.
Revision: 1.2 Return Value: If the function gets the values successfully, it returns 0. If any error, it returns –1. 4. Syntax: i32 setChLevel( u8 val ) Description: Set the status bits of GPIO Output ports according to the variable ‘val’. The status bits at the ports which are configured as input will not be affected. Parameters: The parameter ‘val’ is an unsigned character. If a GPIO port is configured as an Output port, a ‘1’ bit at ‘val’ directs the corresponding port to output a ‘1’.
Revision: 1.2 Parameters: The parameter ‘val’ is the value to set to watchdog timer register. The range is 0 ~ 255. Return Value: None. LAN Bypass Subsystem 1. void enableWdt(void) Enable Watchdog Timer. (This timer is different from the System Watchdog timer, which is configured by the API described in 6.2). 2. void disableWdt(void) Disable Watchdog Timer. 3. void reloadWdt(void) Reload Watchdog Timer. 4. void forceNormal(void) Force the port to become normal state. 5.
