c320配置脚本

Windows 2003系统安全完美设置脚本一、系统权限的设置系统盘加固脚本：@echo offecho 本程序是源自，tamenglang亲手创作，此程序会自动加固您的系统…………………cacls C:\ /t /c /g administrators:F system:FCacls "C:\Program Files\Common Files" /t /e /c /g everyone:RCacls "C:\WINDOWS\IIS Temporary Compressed Files" /t /e /c /geveryone:CCacls C:\WINDOWS\ /t /e /c /g everyone:RCacls "C:\WINDOWS\\Framework\v1.1.4322\Temporary Files" /t /e /c /g everyone:CCacls "C:\WINDOWS\\Framework\v2.0.50727\Temporary Files" /t /e /c /g everyone:CCacls C:\WINDOWS\Registration /t /e /c /g everyone:RCacls C:\WINDOWS\Temp /t /e /c /g everyone:CCacls C:\WINDOWS\assembly /t /e /c /g everyone:RCacls C:\WINDOWS\WinSxS /t /e /c /g everyone:RCacls C:\WINDOWS\Fonts /t /e /c /g everyone:RCacls C:\WINDOWS\System32 /t /e /c /g everyone:RCacls C:\windows\system32\msdtc /t /e /c /g networkservice:CCacls "C:\WINDOWS\system32\inetsrv\ASP Compiled Templates"/t /e /c /g everyone:CCacls C:\WINDOWS\System32\*.exe /e /c /r everyoneCacls C:\WINDOWS\System32\cmd.exe /e /c /r systemCacls C:\WINDOWS\System32\net.exe /e /c /r systemCacls C:\WINDOWS\System32\net1.exe /e /c /r systemCacls C:\WINDOWS\System32\msdtc.exe /e /c /g everyone:RCacls C:\WINDOWS\System32\dllhost.exe /e /c /g everyone:RCacls C:\WINDOWS\System32\svchost.exe /e /c /g everyone:R此程序实现的功能如下：C:\ administrators,system完全控制C:\Program Files\Common Files everyone 读取C:\WINDOWS\IIS Temporary Compressed Files everyone 更改C:\Windows\ everyone 读取C:\WINDOWS\\Framework\v1.1.4322\Temporary Files everyone 更改C:\WINDOWS\\Framework\v2.0.50727\Temporary Files everyone 更改C:\Windows\Registration everyone 读取C:\Windows\Temp everyone 更改C:\Windows\assembly everyone 读取C:\Windows\WinSxS everyone 读取C:\Windows\Fonts everyone 读取C:\Windows\System32 everyone 读取C:\windows\system32\msdtc NETWORK SERVICE 更改C:\WINDOWS\system32\inetsrv\ASP Compiled Templates Everyone 更改C:\Windows\System32\*.exe 去除everyone 权限C:\windows\system32\msdtc.exe everyone 读取C:\Windows\System32\dllhost.exe everyone 读取C:\Windows\System32\svchost.exe everyone 读取二、服务启动类型的设置rem serverrem 微软：支持此计算机通过网络的文件、打印、和命名管道共享。

en（密码zxr10）之老阳三干创作进入特权模式ZXAN#dir cfg检查是否有过配置如果看到那么暗示有配置，需要删除配置，然后重启设备ZXAN#:delete cfg startrun.savZXAN#:delete cfg startrun.dat删除配置Reboot重启设备重启完之后en（密码zxr10）进入特权模式oconfigure terminal进入全局模式add-rack rackno 1 racktype IEC19添加机架add-shelf rackno 1 shelfno 1 shelftype IEC_SHELF 添加框add-card rackno 1 shelfno 1 slotno 0 PRWGadd-card rackno 1 shelfno 1 slotno 1 PRWGadd-card rackno 1 shelfno 1 slotno 2 ETGOadd-card rackno 1 shelfno 1 slotno 3 ETGOadd-card rackno 1 shelfno 1 slotno 4 ETGOadd-card rackno 1 shelfno 1 slotno 5 ETGOadd-card rackno 1 shelfno 1 slotno 6 ETGOadd-card rackno 1 shelfno 1 slotno 7 ETGOadd-card rackno 1 shelfno 1 slotno 8 ETGOadd-card rackno 1 shelfno 1 slotno 9 ETGOadd-card rackno 1 shelfno 1 slotno 12 ETGOadd-card rackno 1 shelfno 1 slotno 13 ETGOadd-card rackno 1 shelfno 1 slotno 14 ETGOadd-card rackno 1 shelfno 1 slotno 15 ETGOadd-card rackno 1 shelfno 1 slotno 16 ETGOadd-card rackno 1 shelfno 1 slotno 17 ETGOadd-card rackno 1 shelfno 1 slotno 18 CICGadd-card rackno 1 shelfno 1 slotno 19 GUSQadd-card rackno 1 shelfno 1 slotno 20 GUSQ添加板卡，如果当前插槽上没有板卡的话，就不要添加hostname MXYQQ-C300-16设备命名命名规则为：局名缩写+分区缩写-设备名称-序列号vlan databasevlan 1,6,9-39,2010-2039,2500-2699,3991-3992 vlan 3997,4000ex创建VLANinterface vlan 9ip addressex进入VLAN 9(OLT管理vlan)添加IP地址和子网掩码interface vlan3997ip proxy-arpEx进入VLAN 3997（VLAN 3997 为语音）开启代理ARPinterface vlan 624.0ex进入VLAN 6（ONU管理VLAN）添加IP地址mpnat onu-mng-vlan 6定义VLAN 6为ONU管理VLANip route 123.124.120.0 255.255.255.0 10.169. ntp serverntp source 10.169.ntp enable添加静态路由添加时间同步服务器开启时间同步clock timezone BJT 8 0时区为北京时间interface vlan 3991ip address 10.100.60.154ip ospf hello-interval 3ip ospf network point-to-pointex进入VLAN 3991（VLAN 3991为OSPF通讯VLAN）添加ip地址ospf每三秒发送一次hello报文osfp为点对点模式interface gei_1/19/1switchport mode hybridswitchport default vlan 3991no negotiation autoduplex fullspeed 100ex进入1筐19槽1口接口模式为混合模式对VLAN 3991进行剥离标签关闭接口自动协商全双工模式速率为100M?interface vlan 3992ip addressip ospf cost 10000ip ospf hello-interval 3ip ospf network point-to-pointex进入VLAN 3992（VLAN 3992为OSPF通讯VLAN）添加ip地址OSPF-COST值设定10000ospf每三秒发送一次hello报文osfp为点对点模式interface gei_1/20/1switchport mode hybridswitchport default vlan 3992no negotiation autoduplex fullspeed 100ex进入1筐20槽1口接口模式为混合模式对VLAN 3991进行剥离标签关闭接口自动协商全双工模式速率为100M?router ospf 900network 0.0.0.3 area20network 0.0.0.3 area 20ex创建ospf进程900发布IP地址而且划分区域20 interface smartgroup1port-protect disableswitchport mode hybridswitchport vlan 9-39,2500-2599 tag ex进入聚合组1关闭用户隔离(端口呵护)功能模式为混合模式定义打标识表记标帜的VLANinterface smartgroup2port-protect disableswitchport mode hybridswitchport vlan 2010-2039,2600-2699,4000 tag ex进入聚合组2关闭用户隔离(端口呵护)功能模式为混合模式定义打标识表记标帜的VLAN？interface gei_1/19/3hybrid-attribute fiberno negotiation autoSpeed 1000duplex fullflowcontrol disableport-protect disableuplink-isolate disableswitchport mode hybridswitchport vlan 9-39,2500-2599 tag smartgroup 1 mode activeex进入1筐19槽3口混合模式为光纤关闭接口自动协商速率为1000M全双工模式关闭流量控制关闭用户隔离(端口呵护)功能混合模式定义打标识表记标帜的VLAN属于聚合组1interface gei_1/19/4hybrid-attribute fiberno negotiation autoSpeed 1000duplex fullflowcontrol disableport-protect disableuplink-isolate disableswitchport mode hybridswitchport vlan 2010-2039,2600-2699,4000 tag smartgroup 2 mode activeex进入1筐19槽4口混合模式为光纤关闭接口自动协商速率为1000M?全双工模式关闭流量控制关闭用户隔离(端口呵护)功能混合模式定义打标识表记标帜的VLAN属于聚合组2interface gei_1/20/3hybrid-attribute fiberno negotiation autoSpeed 1000duplex fullflowcontrol disableport-protect disableuplink-isolate disableswitchport mode hybridswitchport vlan 9-39,2500-2599 tag smartgroup 1 mode activeex进入1筐20槽3口混合模式为光纤关闭接口自动协商速率为1000M全双工模式关闭流量控制关闭用户隔离(端口呵护)功能混合模式定义打标识表记标帜的VLAN属于聚合组1interface gei_1/20/4hybrid-attribute fiberno negotiation autoSpeed 1000duplex fullflowcontrol disableport-protect disableuplink-isolate disableswitchport mode hybridswitchport vlan 2010-2039,2600-2699,4000 tagsmartgroup 2 mode activeex进入1筐20槽4口混合模式为光纤关闭接口自动协商速率为1000M全双工模式关闭流量控制关闭用户隔离(端口呵护)功能混合模式定义打标识表记标帜的VLAN属于聚合组2snmp-server community public view allview rwsnmp-server host 123.124.120.66 trap version 2c public enable NOTIFICATIONS isnmsserver server-index 1 udp-port 162snmp-server host 123.124.120.70 trap version 2c public enable NOTIFICATIONS isnmsserver server-index 2 udp-port 162创建SNMP而且设置服务器IP地址eponems-report 1/2 unauthonu enableems-report 1/3 unauthonu enableems-report 1/4 unauthonu enableems-report 1/5 unauthonu enableems-report 1/6 unauthonu enableems-report 1/7 unauthonu enableems-report 1/8 unauthonu enableems-report 1/9 unauthonu enableems-report 1/12 unauthonu enableems-report 1/13 unauthonu enableems-report 1/14 unauthonu enableems-report 1/15 unauthonu enableems-report 1/16 unauthonu enableems-report 1/17 unauthonu enable设备PON板卡用户自动认证voip-vlan profile CNCRMS tag-mode tag cvlan 3997 priority 7h248-profile CNCRMS register-server ip port 2944h248-profile CNCRMS backup-register-server ip10.0.98.66port 2944h248-profile CNCRMS heartbeat-mode h248ctc rtp-link-test disable cycle 120 count 2h248-profile CNCRMS mg register-mode ip port 2944onu-sla-profile profile-name create publiconu-sla-profile profile-set public downstream maximum 999994 maxburst 16777215onu-sla-profile profile-set public upstream assured 10000 maximum 25000创建语音IP、VLAN、软交换协议模板、带宽模板auto-dispatch-set ZTE-F821 disable关闭ZTE-F821Exponip-poolp1 begin 172.16.0.2 end 172.16.3124.0 vlan 6 priority 5routeip-pool-bind epon-olt_1/2/1 p1ip-pool-bind epon-olt_1/2/2 p1ip-pool-bind epon-olt_1/2/3 p1ip-pool-bind epon-olt_1/2/4 p1ip-pool-bind epon-olt_1/2/5 p1ip-pool-bind epon-olt_1/2/6 p1ip-pool-bind epon-olt_1/2/7 p1ip-pool-bind epon-olt_1/2/8 p1ip-pool-bind epon-olt_1/3/1 p1ip-pool-bind epon-olt_1/3/3 p1 ip-pool-bind epon-olt_1/3/4 p1 ip-pool-bind epon-olt_1/3/5 p1 ip-pool-bind epon-olt_1/3/6 p1 ip-pool-bind epon-olt_1/3/7 p1 ip-pool-bind epon-olt_1/3/8 p1 ip-pool-bind epon-olt_1/4/1 p1 ip-pool-bind epon-olt_1/4/2 p1 ip-pool-bind epon-olt_1/4/3 p1 ip-pool-bind epon-olt_1/4/4 p1 ip-pool-bind epon-olt_1/4/5 p1 ip-pool-bind epon-olt_1/4/6 p1 ip-pool-bind epon-olt_1/4/7 p1 ip-pool-bind epon-olt_1/4/8 p1 ip-pool-bind epon-olt_1/5/1 p1 ip-pool-bind epon-olt_1/5/2 p1 ip-pool-bind epon-olt_1/5/3 p1 ip-pool-bind epon-olt_1/5/4 p1 ip-pool-bind epon-olt_1/5/5 p1 ip-pool-bind epon-olt_1/5/6 p1 ip-pool-bind epon-olt_1/5/7 p1ip-pool-bind epon-olt_1/6/1 p1 ip-pool-bind epon-olt_1/6/2 p1 ip-pool-bind epon-olt_1/6/3 p1 ip-pool-bind epon-olt_1/6/4 p1 ip-pool-bind epon-olt_1/6/5 p1 ip-pool-bind epon-olt_1/6/6 p1 ip-pool-bind epon-olt_1/6/7 p1 ip-pool-bind epon-olt_1/6/8 p1 ip-pool-bind epon-olt_1/7/1 p1 ip-pool-bind epon-olt_1/7/2 p1 ip-pool-bind epon-olt_1/7/3 p1 ip-pool-bind epon-olt_1/7/4 p1 ip-pool-bind epon-olt_1/7/5 p1 ip-pool-bind epon-olt_1/7/6 p1 ip-pool-bind epon-olt_1/7/7 p1 ip-pool-bind epon-olt_1/7/8 p1 ip-pool-bind epon-olt_1/8/1 p1 ip-pool-bind epon-olt_1/8/2 p1 ip-pool-bind epon-olt_1/8/3 p1 ip-pool-bind epon-olt_1/8/4 p1 ip-pool-bind epon-olt_1/8/5 p1ip-pool-bind epon-olt_1/8/7 p1 ip-pool-bind epon-olt_1/8/8 p1 ip-pool-bind epon-olt_1/9/1 p1 ip-pool-bind epon-olt_1/9/2 p1 ip-pool-bind epon-olt_1/9/3 p1 ip-pool-bind epon-olt_1/9/4 p1 ip-pool-bind epon-olt_1/9/5 p1 ip-pool-bind epon-olt_1/9/6 p1 ip-pool-bind epon-olt_1/9/7 p1 ip-pool-bind epon-olt_1/9/8 p1 ip-pool-bind epon-olt_1/12/1 p1 ip-pool-bind epon-olt_1/12/2 p1 ip-pool-bind epon-olt_1/12/3 p1 ip-pool-bind epon-olt_1/12/4 p1 ip-pool-bind epon-olt_1/12/5 p1 ip-pool-bind epon-olt_1/12/6 p1 ip-pool-bind epon-olt_1/12/7 p1 ip-pool-bind epon-olt_1/12/8 p1 ip-pool-bind epon-olt_1/13/1 p1 ip-pool-bind epon-olt_1/13/2 p1 ip-pool-bind epon-olt_1/13/3 p1ip-pool-bind epon-olt_1/13/5 p1 ip-pool-bind epon-olt_1/13/6 p1 ip-pool-bind epon-olt_1/13/7 p1 ip-pool-bind epon-olt_1/13/8 p1 ip-pool-bind epon-olt_1/14/1 p1 ip-pool-bind epon-olt_1/14/2 p1 ip-pool-bind epon-olt_1/14/3 p1 ip-pool-bind epon-olt_1/14/4 p1 ip-pool-bind epon-olt_1/14/5 p1 ip-pool-bind epon-olt_1/14/6 p1 ip-pool-bind epon-olt_1/14/7 p1 ip-pool-bind epon-olt_1/14/8 p1 ip-pool-bind epon-olt_1/15/1 p1 ip-pool-bind epon-olt_1/15/2 p1 ip-pool-bind epon-olt_1/15/3 p1 ip-pool-bind epon-olt_1/15/4 p1 ip-pool-bind epon-olt_1/15/5 p1 ip-pool-bind epon-olt_1/15/6 p1 ip-pool-bind epon-olt_1/15/7 p1 ip-pool-bind epon-olt_1/15/8 p1 ip-pool-bind epon-olt_1/16/1 p1ip-pool-bind epon-olt_1/16/3 p1ip-pool-bind epon-olt_1/16/4 p1ip-pool-bind epon-olt_1/16/5 p1ip-pool-bind epon-olt_1/16/6 p1ip-pool-bind epon-olt_1/16/7 p1ip-pool-bind epon-olt_1/16/8 p1ip-pool-bind epon-olt_1/17/1 p1ip-pool-bind epon-olt_1/17/2 p1ip-pool-bind epon-olt_1/17/3 p1ip-pool-bind epon-olt_1/17/4 p1ip-pool-bind epon-olt_1/17/5 p1ip-pool-bind epon-olt_1/17/6 p1ip-pool-bind epon-olt_1/17/7 p1ip-pool-bind epon-olt_1/17/8 p1向ONU下发IPonu-type ZTE-F400 epon description 4FE onu-type-if ZTE-F400 eth_0/1onu-type-if ZTE-F400 eth_0/2onu-type-if ZTE-F400 eth_0/3onu-type-if ZTE-F400 eth_0/4onu-type F407 epon description 2FE,1POTSonu-type-if F407 eth_0/2onu-type-if F407 pots_1/1onu-type F417 epon description 4FE,2POTSonu-type-if F417 eth_0/1onu-type-if F417 eth_0/2onu-type-if F417 eth_0/3onu-type-if F417 eth_0/4onu-type-if F417 pots_1/1onu-type-if F417 pots_1/2onu-type F427 epon description 4FE,2POTS,WIFI onu-type-if F427 eth_0/1onu-type-if F427 eth_0/2onu-type-if F427 eth_0/3onu-type-if F427 eth_0/4onu-type-if F427 pots_1/1onu-type-if F427 pots_1/2onu-type 220G epon description 4FE,2POTS,WIFI onu-type-if 220G eth_0/1onu-type-if 220G eth_0/2onu-type-if 220G eth_0/3onu-type-if 220G eth_0/4onu-type-if 220G pots_1/2onu-type 221G epon description 2FE,1POTS onu-type-if 221G eth_0/1onu-type-if 221G eth_0/2onu-type-if 221G pots_1/1onu-type 226G epon description 4FE,2POTS onu-type-if 226G eth_0/1onu-type-if 226G eth_0/2onu-type-if 226G eth_0/3onu-type-if 226G eth_0/4onu-type-if 226G pots_1/1onu-type-if 226G pots_1/2onu-type 321R epon description 2FE,1POTS onu-type-if 321R eth_0/1onu-type-if 321R eth_0/2onu-type-if 321R pots_1/1onu-type 342R epon description 4FE,2POTS onu-type-if 342R eth_0/1onu-type-if 342R eth_0/2onu-type-if 342R eth_0/3onu-type-if 342R eth_0/4onu-type-if 342R pots_1/2onu-type 346R epon description 4FE,2POTS,WIFI onu-type-if 346R eth_0/1onu-type-if 346R eth_0/2onu-type-if 346R eth_0/3onu-type-if 346R eth_0/4onu-type-if 346R pots_1/1onu-type-if 346R pots_1/2onu-type P800 epon description 4FE,2POTS,WIFI onu-type-if P800 eth_0/1onu-type-if P800 eth_0/2onu-type-if P800 eth_0/3onu-type-if P800 eth_0/4onu-type-if P800 pots_1/1onu-type-if P800 pots_1/2onu-type R200 epon description 4FE,2POTS,WIFI onu-type-if R200 eth_0/1onu-type-if R200 eth_0/2onu-type-if R200 eth_0/3onu-type-if R200 eth_0/4onu-type-if R200 pots_1/1onu-type R201 epon description 4FE,2POTS onu-type-if R201 eth_0/1onu-type-if R201 eth_0/2onu-type-if R201 eth_0/3onu-type-if R201 eth_0/4onu-type-if R201 pots_1/1onu-type-if R201 pots_1/2ex新增ONU类型exacl standard number 99rule 20 permit访问控制列表exline telnet access-class 99line telnet idle-timeout 5snmp-server access-list 1Telnet 允许的最大数和失联时间访问列表加在SNMP里igmp enableigmp mvlan 4000igmp mvlan 4000 enableigmp mvlan 4000 work-mode proxyigmp mvlan 4000 max-group 1024igmp mvlan 4000 group-filter enableigmp mvlan 4000 source-port smartgroup2 mvlan-translate 4000 to 3996配置IPTV组播数据mpnat onu-telnet idle-time 5ONU远程登录的空闲时间为5fan speed-percent-set 75 80 85 90风扇转速分75 80 85 90Auto-write enableAuto-write 00:00:00 everyday自动保管snmp-server packetsize 3000security port-protect enableSNMP呵护cpe task V2P2T2Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T6DG_H action Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T6Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T7BJ_H action Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T7Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T7HG_H action Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T7ZY_Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V2P2T8Haction Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V3P1T4Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V3P2T1Haction Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V3P2T2Hequipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V3P2T3H action Update-reonline equipment-type F420 parallel-limitation 16 mode Bothrange neservice-type EPON vendor-name ZTEtask addexitcpe task V3P3T1Hequipment-type F420parallel-limitation 16mode Bothrange neservice-type EPONvendor-name ZTEtask addexitcpe task V3P3T3Haction Update-reonlineequipment-type F420parallel-limitation 16mode Bothrange neservice-type EPONvendor-name ZTEtask addexitONU补丁interface epon-olt_1/2/1-8 ShutdownExinterface epon-olt_1/3/1-8 ShutdownExinterface epon-olt_1/4/1-8 Shutdownexinterface epon-olt_1/5/1-8 Shutdownexinterface epon-olt_1/6/1-8 Shutdownexinterface epon-olt_1/7/1-8 Shutdownexinterface epon-olt_1/8/1-8 Shutdownexinterface epon-olt_1/9/1-8Shutdownexinterface epon-olt_1/12/1-8 Shutdownexinterface epon-olt_1/13/1-8 Shutdownexinterface epon-olt_1/14/1-8 Shutdownexinterface epon-olt_1/15/1-8 Shutdownex关闭接口clock set 17:14:30 NOV 4 2013配置时间EXwrite保管。

第一章产品概述本章将简要介绍万全3200C服务器的产品特色、技术特性以及应用领域，可以让您对万全3200C服务器有一个总体的、概括性的了解。

1.1 产品简介万全3200C服务器是联想部门级服务器的高端产品，可以支持2颗最新的Intel Pentium III Xeon处理器，具有强大的数据处理能力和优良的系统扩展能力，提供了全面的管理功能。

万全3200C服务器可稳定运行于多种操作系统平台，可以提供服务器处理能力、可用性以及管理性等方面的优势，是国内企业、政府机构、行业用户构建相关网络应用的最佳选择。

1. 2 产品特色（1）强大的处理性能●支持2路最新Pentium III Xeon处理器，系统前端总线为133MHz，可以支持866/933MHz 或更高主频的处理器，具有256K全速二级缓存，系统的数据处理能力更高；●提供64Bit/66MHz的PCI扩展槽，系统的I/O性能优秀；●系统集成双通道Ultra 160 SCSI控制器，可以带来更高的传输速度。

（2） 优秀的扩展能力●系统提供4个内存插槽，最大内存扩展能力为4GB的PC-133、ECC registered SDRAM；●系统提供7个PCI扩展槽，其中2个为64bit/66MHz PCI扩展槽；●系统最大可支持10个硬盘。

（3） 高可用性●支持硬盘的热插拔；●系统提供热插拔冗余电源。

（4） 全面的可管理性●导航光盘，帮助用户轻松安装、配置联想万全服务器；●中文服务器管理软件LSC，可以实现全面的服务器管理功能，包括远程检测、控制等管理功能；●中文网络管理软件Netmanager，可以实现基本的网络管理功能，并可在其上进行二次开发，添加新的管理功能。

1. 3 技术特点CPUⅢ Xeon 866/933MHz 处理器Pentiumi CPU： Inteli Cache： 256K全速二级缓存i SMP：支持2个CPU（必须为同样的主频及Cache，但是空余CPU插槽要安装CPU终结板）i系统总线：133MHz内存i内存插槽：4个DIMM插槽，Registered SDRAMECCi内存类型： PC133i内存容量：最小64MB，最大4GBI/Oi外围芯片组：ServerWorks ServerSet III LEi PCI扩展槽： 4 x 33MHz/32bit2 x 66MHz/64bit1 x 33MHz/64biti SCSI控制器：主板集成1个Adaptec 7899双通道SCSI控制器，可以提供2个SCSI通道：1个Ultra160 SCSI+1个Ultra wide SCSIi IDE控制器：1个EIDE接口i软驱/ CD-ROM： 1.44M软驱/IDE 光驱i内驱动器架：可支持2个热插拔硬盘模组，提供10个热插拔硬盘接口，支持7200,10000 RPM Ultra 160 SCSI硬盘i外驱动器架：3×5.25”1×3.5”i显示：主板集成显示，4MB显存i网卡：主板集成10M/100M自适应网卡i外部设备接口：1个PS/2键盘接口，1个PS/2鼠标接口，2个串行接口，1个并行接口，2个USB接口，1个显示接口，1个RJ-45网络接口随机软件服务器管理软件 LSC2.4，中文网络管理软件Netmanager导航软件Navigator 2.6兼容操作系统Microsoft Windows 2000 Advanced Server (中文版/英文版)Microsoft Windows NT Server 4.0 + SP6 (中文版/英文版)Novell Netware 5.0Novell Netware 4.11SCO Unixware 7.1.1SCO Openserver 5.05SUN Solaris 7.0/8.0 (中文版/英文版)Redhat Linux 6.1/6.2电源i电源电压：220V /50Hzi电源功率：350Wi电源冗余：配置为350W 1+1热插拔冗余电源系统指标i环境温度：非操作： -40°C ~ 70°C操作：5°C~35°Ci环境湿度：非操作： 95% 相对湿度（25°~30°C）i系统尺寸： 445mm（高） x 660mm（深）x 216mm（宽）i系统重量：28Kgi安全可靠性：通过CCEE认证第二章系统技术特性本章主要介绍万全3200C服务器的基本硬件技术特性，包含主板、机箱、处理器、内存、等部件，以及管理方面的特性。

TMS320F2812的CMD文件配置详解1存储空间的配置dsp交流网dsp学习第一论坛dsp技术应用与推广平台dsp开发服务平台\TMS320F2812的DSP内存分为三个独立选择的空间——程序空间、数据空间和I/O空间。

程序存储器存储要执行的指令和执行中使用的系数（常数），可以由片内或片外ram、ROM或EPROM组成；数据存储器存储指令执行期间生成的数据，这些数据可以在芯片内或芯片外使用的ram和rom来构成；i/o存储器存放与映象外围接口相关的数据，也可以作为附加的数据存储空间使用。

表1是tms320f2812的存储空间分布。

#p5r)e7[*e!s2cmd文件的分配方法TI新的汇编程序和链接器创建的目标文件采用coff（通用目标文件格式），这更有利于模块化编程，并为管理代码段和目标系统内存提供了强大而灵活的编程方法。

用户可以编写一个链接命令文件（.CMD文件），将链接信息放在一个文件中，以便在多次使用同一链接信息时调用它。

在命令文件中，使用了两条非常有用的伪指令“内存”和“内存”部分来指定实际应用中的内存结构和地址映射。

内存用于指定目标内存结构。

在内存下，可以通过页面选项配置地址空间。

链接器将每个页面视为独立的存储空间。

通常，Page0表示用于存储程序的程序内存，page1表示用于存储数据的数据内存。

编译器生成的可重定位代码和数据块称为被初始化的“sections”(包括数据表和可执行代码).text它包括所有的可执行代码和常数，必须放在程序页；.cinit它包括初始化的变量和常量表,要求放在程序页；.econst在使用大内存模式时使用，包括字符串、声明和显式初始化的全局和静态变量，这些变量可以放在数据页的任何位置。

DSP交流开关，包括用于转换声明的表格集，可以放在低地址的程序页或数据页上。

h2_u$？；d9e$l:o5k（2）未被初始化的“sections”（为程序运行中创建和存放的变量在存储器中保留空间)9d3a.\\'x7e)m;a'c.BSS，为全局变量和静态变量保留空间。

TMS320F2812的CMD文件的编写经验总结CMD文件里包含三部分内容：1)输入／输出定义：.obj文件：链接器要链接的目标文件;.lib文件：链接器要链接的库文件;.map文件：链接器生成的交叉索引文件;.out文件：链接器生成的可执行代码;链接器选项2)MEMORY命令：描述系统实际的硬件资源3)SECTIONS命令：描述“段”如何定位F2812的CMD文件只包含后两部分，现对它的编写做一下总结：（一）用于调试时用，取名为SRAM.CMD这里有个比较标准的F2812的CMD文件，可以供大家借鉴使用：MEMORY{PAGE 0:ZONE0 : origin = 0x002000, length = 0x002000ZONE1 : origin = 0x004000, length = 0x002000RAML0 : origin = 0x008000, length = 0x001000ZONE2 : origin = 0x080000, length = 0x080000ZONE6 : origin = 0x100000, length = 0x080000OTP : origin = 0x3D7800, length = 0x000800FLASHJ : origin = 0x3D8000, length = 0x002000FLASHI : origin = 0x3DA000, length = 0x002000FLASHH : origin = 0x3DC000, length = 0x004000FLASHG : origin = 0x3E0000, length = 0x004000FLASHF : origin = 0x3E4000, length = 0x004000FLASHE : origin = 0x3E8000, length = 0x004000FLASHD : origin = 0x3EC000, length = 0x004000FLASHC : origin = 0x3F0000, length = 0x004000FLASHA : origin = 0x3F6000, length = 0x002000BEGIN_H0 : origin = 0x3F8000, length = 0x000002BEGIN_FLASH : origin = 0x3F7FF6, length = 0x000002PRAMH0 : origin = 0x3F8002, length = 0x001FFEZONE7 : origin = 0x3FC000, length = 0x003FC0ROM : origin = 0x3FF000, length = 0x000FC0 // boot ROM available if MP/MCn=0 RESET : origin = 0x3FFFC0, length = 0x000002VECTORS : origin = 0x3FFFC2, length = 0x00003EPAGE 1 : // Data MemoryRAMM0 : origin = 0x000000, length = 0x000400RAMM1 : origin = 0x000400, length = 0x000400DEV_EMU : origin = 0x000880, length = 0x000180FLASH_REGS : origin = 0x000A80, length = 0x000060CSM : origin = 0x000AE0, length = 0x000010XINTF : origin = 0x000B20, length = 0x000020CPU_TIMER0 : origin = 0x000C00, length = 0x000008PIE_CTRL : origin = 0x000CE0, length = 0x000020PIE_VECT : origin = 0x000D00, length = 0x000100ECAN_A : origin = 0x006000, length = 0x000100ECAN_AMBOX : origin = 0x006100, length = 0x000100SYSTEM : origin = 0x007010, length = 0x000020SPI_A : origin = 0x007040, length = 0x000010SCI_A : origin = 0x007050, length = 0x000010XINTRUPT : origin = 0x007070, length = 0x000010GPIOMUX : origin = 0x0070C0, length = 0x000020GPIODAT : origin = 0x0070E0, length = 0x000020ADC : origin = 0x007100, length = 0x000020EV_A : origin = 0x007400, length = 0x000040EV_B : origin = 0x007500, length = 0x000040SCI_B : origin = 0x007750, length = 0x000010MCBSP_A : origin = 0x007800, length = 0x000040RAML1 : origin = 0x009000, length = 0x001000FLASHB : origin = 0x3F4000, length = 0x002000CSM_PWL : origin = 0x3F7FF8, length = 0x000008DRAMH0 : origin = 0x3f9000, length = 0x001000}SECTIONS{// Compiler Required Sections.text : > PRAMH0, PAGE = 0.cinit : > PRAMH0, PAGE = 0.stack : > RAMM1, PAGE = 1.bss : > RAMM0, PAGE = 1.ebss : > RAMM0, PAGE = 1.const : > RAMM0, PAGE = 1.econst : > RAMM0, PAGE = 1.sysmem : > RAMM1, PAGE = 1.reset : > RESET, PAGE = 0, TYPE = DSECT // we are not using the .reset // section//Peripheral Frame 0 Register StructuresDevEmuRegsFile : > DEV_EMU, PAGE = 1FlashRegsFile : > FLASH_REGS, PAGE = 1CsmRegsFile : > CSM, PAGE = 1XintfRegsFile : > XINTF, PAGE = 1CpuTimer0RegsFile : > CPU_TIMER0, PAGE = 1PieCtrlRegsFile : > PIE_CTRL, PAGE = 1PieVectTable : > PIE_VECT, PAGE = 1//Peripheral Frame 1 Register StructuresSysCtrlRegsFile : > SYSTEM, PAGE = 1SpiaRegsFile : > SPI_A, PAGE = 1SciaRegsFile : > SCI_A, PAGE = 1XIntruptRegsFile : > XINTRUPT, PAGE = 1GpioMuxRegsFile : > GPIOMUX, PAGE = 1GpioDataRegsFile : > GPIODAT PAGE = 1AdcRegsFile : > ADC, PAGE = 1EvaRegsFile : > EV_A, PAGE = 1EvbRegsFile : > EV_B, PAGE = 1ScibRegsFile : > SCI_B, PAGE = 1McbspaRegsFile : > MCBSP_A, PAGE = 1//Peripheral Frame 2 Register StructuresECanaRegsFile : > ECAN_A, PAGE = 1ECanaMboxesFile : > ECAN_AMBOX PAGE = 1//Code Security Password LocationsCsmPwlFile : > CSM_PWL, PAGE = 1}（二）用于烧写到FLASH中时用，取名为FLASH.CMDFLASH.CMD与SRAM.CMD基本一样，只是有两处改动：一是MEMORY中将你的程序代码部分映射到FLASH空间里；二是在SECTIONS中添加一个用户定义的起始段，起始段的代码如下：//User Defined Sections , Used by file DSP28_CodeStartBranch.asmcodestart : > BEGIN, PAGE = 0其中DSP28_CodeStartBranch.asm中的关键代码为：.ref _c_int00.sect “codestart”Code_start:LB _c_int00.end（三）SECTIONS中段的含义与用户自定义段的方法1、各个段的含义以下是TI公司的技术文档中对一些段的说明，现截个图给大家参考：除此外还有一些段的含义如下（这仅是我见过的，有漏下的还请提示，大家一起学习）：.reset 复位中断向量表.vectors 中断向量表.data 已初始化数据，常数数据（比如对变量的初始化数据）.pvecs 外围模块中断向量表.ref 引用外部定义的变量或函数名.global 引用全局变量或函数.space 定义要保留的空间.def 定义变量，与#define功能相同.end 段的结束标识.sect 用户自定义的已初始化段.asect 比.sect多了绝对地址定位功能，一般不用.usect 用户自定义的未初始化段已初始化的段：.text, .cinit, .const, .econst, .pinit, .switch.text:所有可以执行的代码和常量.cinit:全局变量和静态变量的C初始化记录.const:包含字符串常量和初始化的全局变量和静态变量(由const)的初始化和说明.econst:包含字符串常量和初始化的全局变量和静态变量(由far const)的初始化和说明.pinit:全局构造器(C++)程序列表.switch:包含转换语气声明的列表非初始化的段：.bss, .ebss, .stack, .sysmem, .esysmem(更好的理解就是，这些段就是存储空间而已)..bss:为全局变量和局部变量保留的空间，在程序上电时，cinit空间中的数据复制出来并存储在.bss空间中.ebss:为使用大寄存器模式时的全局变量和静态变量预留的空间，在程序上电时，cinit空间中的数据复制出来并存储在.ebss中.stack:为系统堆栈保留的空间，主要用于和函数传递变量或为局部变量分配空间.sysmem:为动态存储分配保留的空间。