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要创建一个（无标记），可以使用U-Boot的第一KuroBox 2.6.25.20Linux内核。
首先，安装需要编译的程序。

KURO-BOX:/usr/src# aptitude install patch KURO-BOX:/usr/src# aptitude install libncurses-dev KURO-BOX:/usr/src# aptitude install bzip2 KURO-BOX:/usr/src# aptitude install module-init-tools 

接下来，下载源代码，解压缩。

 KURO-BOX:/usr/src# wget http://www.genbako.com/kurobox-sources-2.6.25.patch KURO-BOX:/usr/src# wget http://www.genbako.com/kurobox-section-mismatch2625.patch KURO-BOX:/usr/src# wget http://www.kernel.org/pub/linux/kernel/v2.6/linux-2.6.25.20.tar.bz2 KURO-BOX:/usr/src# tar -jxpvf linux-2.6.25.20.tar.bz2 

接下来，应用修补程序。

 KURO-BOX:/usr/src# cd linux-2.6.25.20 KURO-BOX:/usr/src/linux-2.6.25.20# patch -Np1 < ../kurobox-section-mismatch2625.patch KURO-BOX:/usr/src/linux-2.6.25.20# patch -Np1 < ../kurobox-sources-2.6.25.patch 

下一步，准备。

 KURO-BOX:/usr/src/linux-2.6.25.20# export ARCH=ppc KURO-BOX:/usr/src/linux-2.6.25.20# cp config_kurobox .config KURO-BOX:/usr/src/linux-2.6.25.20# make oldconfig 

这里重要的配置内核。

 KURO-BOX:/usr/src/linux-2.6.25.20# make menuconfig 

 Networking > Networking options <*> Packet socket [*] Packet socket: mmapped IO <*> Unix domain sockets < > Transformation user configuration interface [ ] Transformation sub policy support (EXPERIMENTAL) [ ] Transformation migrate database (EXPERIMENTAL) [ ] Transformation statistics (EXPERIMENTAL) <M> PF_KEY sockets [ ] PF_KEY MIGRATE (EXPERIMENTAL) (NEW) [*] TCP/IP networking [*] IP: multicasting [*] IP: advanced router Choose IP: FIB lookup algorithm (choose FIB_HASH if unsurx x [*] IP: policy routing [ ] IP: equal cost multipath (NEW) [ ] IP: verbose route monitoring (NEW) [ ] IP: kernel level autoconfiguration <M> IP: tunneling <M> IP: GRE tunnels over IP [*] IP: broadcast GRE over IP [*] IP: multicast routing [*] IP: PIM-SM version 1 support [*] IP: PIM-SM version 2 support [ ] IP: ARP daemon support (EXPERIMENTAL) [ ] IP: TCP syncookie support (disabled per default) <M> IP: AH transformation <M> IP: ESP transformation <M> IP: IPComp transformation <*> IP: IPsec transport mode <*> IP: IPsec tunnel mode <*> IP: IPsec BEET mode < > Large Receive Offload (ipv4/tcp) <*> INET: socket monitoring interface [ ] TCP: advanced congestion control ---> [*] TCP: MD5 Signature Option support (RFC2385) (EXPERIMENTAL) < > IP virtual server support (EXPERIMENTAL) (NEW) ---> < > The IPv6 protocol [ ] Security Marking [*] Network packet filtering framework (Netfilter) ---> [*] Network packet filtering debugging [*] Advanced netfilter configuration (NEW) [*] Bridged IP/ARP packets filtering (NEW) Core Netfilter Configuration ---> <M> Netfilter NFQUEUE over NFNETLINK interface <M> Netfilter LOG over NFNETLINK interface <M> Netfilter connection tracking support -*- Connection tracking flow accounting -*- Connection mark tracking support [*] Connection tracking events <M> SCTP protocol connection tracking support (EXPERIMENTAL) <M> UDP-Lite protocol connection tracking support <M> Amanda backup protocol support <M> FTP protocol support <M> H.323 protocol support <M> IRC protocol support <M> NetBIOS name service protocol support <M> PPtP protocol support <M> SANE protocol support (EXPERIMENTAL) <M> SIP protocol support <M> TFTP protocol support <M> Connection tracking netlink interface {M} Netfilter Xtables support (required for ip_tables) <M> "CLASSIFY" target support <M> "CONNMARK" target support <M> "DSCP" and "TOS" target support <M> "MARK" target support <M> "NFQUEUE" target Support <M> "NFLOG" target support <M> "NOTRACK" target support -M- "RATEEST" target support <M> "TRACE" target support <M> "TCPMSS" target support <M> "TCPOPTSTRIP" target support (EXPERIMENTAL) <M> "comment" match support <M> "connbytes" per-connection counter match support <M> "connlimit" match support" <M> "connmark" connection mark match support <M> "conntrack" connection tracking match support <M> "dccp" protocol match support <M> "dscp" and "tos" match support <M> "esp" match support <M> "helper" match support <M> "iprange" address range match support <M> "length" match support <M> "limit" match support <M> "mac" address match support <M> "mark" match support <M> "owner" match support <M> IPsec "policy" match support <M> "multiport" Multiple port match support <M> "physdev" match support <M> "pkttype" packet type match support <M> "quota" match support <M> "rateest" match support <M> "realm" match support <M> "sctp" protocol match support (EXPERIMENTAL) <M> "state" match support <M> "statistic" match support <M> "string" match support <M> "tcpmss" match support <M> "time" match support <M> "u32" match support <M> "hashlimit" match support IP: Netfilter Configuration ---> <M> IPv4 connection tracking support (required for NAT) [*] proc/sysctl compatibility with old connection tracking (NEW) <M> IP Userspace queueing via NETLINK (OBSOLETE) <M> IP tables support (required for filtering/masq/NAT) <M> "recent" match support <M> "ecn" match support <M> "ah" match support <M> "ttl" match support <M> "addrtype" address type match support <M> Packet filtering <M> REJECT target support <M> LOG target support <M> ULOG target support <M> Full NAT <M> MASQUERADE target support <M> REDIRECT target support <M> NETMAP target support <M> Basic SNMP-ALG support <M> Packet mangling <M> ECN target support <M> TTL target support <M> CLUSTERIP target support (EXPERIMENTAL) <M> raw table support (required for NOTRACK/TRACE) <M> ARP tables support <M> ARP packet filtering <M> ARP payload mangling Bridge: Netfilter Configuration ---> <M> Ethernet Bridge tables (ebtables) support <M> ebt: broute table support <M> ebt: filter table support <M> ebt: nat table support <M> ebt: 802.3 filter support <M> ebt: among filter support <M> ebt: ARP filter support <M> ebt: IP filter support <M> ebt: limit match support <M> ebt: mark filter support <M> ebt: packet type filter support <M> ebt: STP filter support <M> ebt: 802.1Q VLAN filter support <M> ebt: arp reply target support <M> ebt: dnat target support <M> ebt: mark target support <M> ebt: redirect target support <M> ebt: snat target support <M> ebt: log support <M> ebt: ulog support (OBSOLETE) < > The DCCP Protocol (EXPERIMENTAL) ---> < > The SCTP Protocol (EXPERIMENTAL) ---> < > The TIPC Protocol (EXPERIMENTAL) ---> < > Asynchronous Transfer Mode (ATM) <M> 802.1d Ethernet Bridging <M> 802.1Q VLAN Support < > DECnet Support < > ANSI/IEEE 802.2 LLC type 2 Support < > The IPX protocol < > Appletalk protocol support < > CCITT X.25 Packet Layer (EXPERIMENTAL) < > LAPB Data Link Driver (EXPERIMENTAL) < > Acorn Econet/AUN protocols (EXPERIMENTAL) < > WAN router [ ] QoS and/or fair queueing ---> Network testing ---> 

 Networking > Wireless {*} Improved wireless configuration API [*] nl80211 new netlink interface support (NEW) -*- Wireless extensions <M> Generic IEEE 802.11 Networking Stack (mac80211) Rate control algorithm selection ---> [ ] Enable packet alignment debugging (NEW) [ ] Enable debugging output (NEW) {M} Generic IEEE 802.11 Networking Stack (DEPRECATED) [ ] Enable full debugging output (NEW) -M- IEEE 802.11 WEP encryption (802.1x) < > IEEE 802.11i CCMP support (NEW) < > IEEE 802.11i TKIP encryption (NEW) < > Software MAC add-on to the IEEE 802.11 networking stack (NEW) 

 Device Drivers > Networking device support [ ] Netdevice multiple hardware queue support <M> Dummy net driver support < > Bonding driver support < > MAC-VLAN support (EXPERIMENTAL) < > EQL (serial line load balancing) support <M> Universal TUN/TAP device driver support < > Virtual ethernet pair device < > ARCnet support ---> < > PHY Device support and infrastructure ---> [*] Ethernet (10 or 100Mbit) ---> [*] Ethernet (1000 Mbit) ---> [ ] Ethernet (10000 Mbit) ---> [ ] Token Ring driver support ---> Wireless LAN ---> [ ] Wireless LAN (pre-802.11) [*] Wireless LAN (IEEE 802.11) < > Intel PRO/Wireless 2100 Network Connection (NEW) < > Intel PRO/Wireless 2200BG and 2915ABG Network Connection (NEW) < > Marvell 8xxx Libertas WLAN driver support (NEW) < > Cisco/Aironet 34X/35X/4500/4800 ISA and PCI cards (NEW) <M> Hermes chipset 802.11b support (Orinoco/Prism2/Symbol) < > Hermes in PLX9052 based PCI adaptor support (Netgear MA30 < > Hermes in TMD7160 based PCI adaptor support (NEW) < > Nortel emobility PCI adaptor support (NEW) < > Prism 2.5 PCI 802.11b adaptor support (NEW) < > Atmel at76c50x chipset 802.11b support (NEW) < > Intersil Prism GT/Duette/Indigo PCI/Cardbus (NEW) <M> USB ZD1201 based Wireless device support < > Wireless RNDIS USB support (NEW) < > Realtek 8180/8185 PCI support (NEW) <M> Realtek 8187 USB support < > ADMtek ADM8211 support (NEW) < > Softmac Prism54 support (NEW) < > Atheros 5xxx wireless cards support (NEW) < > Intel Wireless WiFi 4965AGN (NEW) < > Intel PRO/Wireless 3945ABG/BG Network Connection (NEW) <M> IEEE 802.11 for Host AP (Prism2/2.5/3 and WEP/TKIP/CCMP) [*] Support downloading firmware images with Host AP driver [*] Support for non-volatile firmware download < > Host AP driver for Prism2/2.5/3 in PLX9052 PCI adaptors < > Host AP driver for Prism2.5 PCI adaptors (NEW) < > Broadcom 43xx wireless support (mac80211 stack) (NEW) < > Broadcom 43xx-legacy wireless support (mac80211 stack) (NEW) <M> ZyDAS ZD1211/ZD1211B USB-wireless support [*] ZyDAS ZD1211 debugging < > Ralink driver support (NEW) USB Network Adapters ---> < > USB CATC NetMate-based Ethernet device support (EXPERIMENTAL) < > USB KLSI KL5USB101-based ethernet device support < > USB Pegasus/Pegasus-II based ethernet device support <M> USB RTL8150 based ethernet device support (EXPERIMENTAL) < > Multi-purpose USB Networking Framework [ ] Wan interfaces support ---> [ ] FDDI driver support [ ] HIPPI driver support (EXPERIMENTAL) < > PPP (point-to-point protocol) support < > SLIP (serial line) support [ ] Fibre Channel driver support < > Network console logging support (EXPERIMENTAL) 

无论如何，保存您的设置，使一些无线局域网的USB iptable的，IPSEC，组播，IPIP / GRE隧道，虚拟接口，桥接，和802.1Q VLAN。
最后编译。 这里创建一个把uImage。

 KURO-BOX:/usr/src/linux-2.6.25.20# make uImage scripts/kconfig/conf -s arch/ppc/Kconfig CHK include/linux/version.h UPD include/linux/version.h CHK include/linux/utsrelease.h UPD include/linux/utsrelease.h SYMLINK include/asm -> include/asm-ppc CC arch/ppc/kernel/asm-offsets.s ～省略～ LD .tmp_vmlinux2 KSYM .tmp_kallsyms2.S AS .tmp_kallsyms2.o LD vmlinux SYSMAP System.map SYSMAP .tmp_System.map OBJCOPY arch/ppc/boot/images/vmlinux.bin GZIP arch/ppc/boot/images/vmlinux.gz UIMAGE arch/ppc/boot/images/uImage Image Name: Linux-2.6.25.20-kurobox Created: Sat Jul 2 21:40:24 2011 Image Type: PowerPC Linux Kernel Image (gzip compressed) Data Size: 1460604 Bytes = 1426.37 kB = 1.39 MB Load Address: 0x00000000 Entry Point: 0x00000000 Image: arch/ppc/boot/images/uImage is ready 

所以，你已经创建了一个把uImage继续安全，制作和安装模块

 KURO-BOX:/usr/src/linux-2.6.25.20# make modules KURO-BOX:/usr/src/linux-2.6.25.20# make modules_install 

要备份现有的创建把uImage存储

 KURO-BOX:/usr/src/linux-2.6.25.20# cd /boot KURO-BOX:/boot# ls -la drwxr-xr-x 3 root root 4096 2011-06-26 22:35 . drwxr-xr-x 21 root root 4096 2011-04-10 05:23 .. -rw-r--r-- 1 tmp-kun tmp-kun 31064 2008-05-04 22:18 .config -rw-r--r-- 1 root root 718574 2011-06-26 18:20 System.map -rw-r--r-- 1 root root 1465831 2011-06-26 22:01 uImage lrwxrwxrwx 1 tmp-kun tmp-kun 6 2011-04-10 05:25 vmlinux.UBoot -> uImage -rwxr-xr-x 1 tmp-kun tmp-kun 3063942 2008-05-04 22:18 vmlinux.bin KURO-BOX:/boot# mv System.map System.map.org KURO-BOX:/boot# mv uImage uImage.org 

把uImage和您已创建的副本。

 KURO-BOX:/boot# cp -p /usr/src/linux-2.6.25.20/arch/ppc/boot/images/uImage /boot KURO-BOX:/boot# cp -p /usr/src/linux-2.6.25.20/System.map /boot 

最终像

 KURO-BOX:/boot# ls -la drwxr-xr-x 3 root root 4096 2011-06-26 22:35 . drwxr-xr-x 21 root root 4096 2011-04-10 05:23 .. -rw-r--r-- 1 tmp-kun tmp-kun 31064 2008-05-04 22:18 .config -rw-r--r-- 1 root root 718574 2011-06-26 18:20 System.map -rw-r--r-- 1 tmp-kun tmp-kun 694437 2008-05-04 22:18 System.map.org -rw-r--r-- 1 root root 1465831 2011-06-26 22:01 uImage -rw-r--r-- 1 tmp-kun tmp-kun 1432414 2008-05-04 22:18 uImage.org lrwxrwxrwx 1 tmp-kun tmp-kun 6 2011-04-10 05:25 vmlinux.UBoot -> uImage -rwxr-xr-x 1 tmp-kun tmp-kun 3063942 2008-05-04 22:18 vmlinux.bin 

为此，重新启动后，启动检查。

 KURO-BOX:~# uname -a Linux KURO-BOX 2.6.25.20-kurobox #3 Sun Jun 26 21:59:59 JST 2011 ppc GNU/Linux 

为了验证内核版本已更新

在U-Boot的形式，以重建内核编译MKIMAGE可用于

KuroBox创建从源头到1.1.4，因为它们含有电流的U-Boot1.1.4。
首先，下载源代码，解压

 KURO-BOX:~# cd /usr/src/ KURO-BOX:/usr/src# wget http://prdownloads.sourceforge.net/u-boot/u-boot-1.1.4.tar.bz2 KURO-BOX:/usr/src# tar -xjvf u-boot-1.1.4.tar.bz2 KURO-BOX:/usr/src# cd u-boot-1.1.4 

存储当前的路径，因为它似乎，有时参考$ TOPDIR。

 KURO-BOX:/usr/src/u-boot-1.1.4# export TOPDIR=`pwd` KURO-BOX:/usr/src/u-boot-1.1.4# echo $TOPDIR /usr/src/u-boot-1.1.4 

我需要时间来使工具目录，所以只能MKIMAGE。

 KURO-BOX:/usr/src/u-boot-1.1.4# cd tools KURO-BOX:/usr/src/u-boot-1.1.4/tools# make mkimage ln -s ../common/environment.c environment.c ln -s ../lib_generic/crc32.c crc32.c gcc -M -Wall -pedantic -idirafter ../include -DTEXT_BASE= -DUSE_HOSTCC environment.c img2srec.c mkimage.c crc32.c envcrc.c gen_eth_addr.c bmp_logo.c > .depend environment.c:28:20: error: config.h: No such file or directory envcrc.c:32:20: error: config.h: No such file or directory gcc -g -Wall -pedantic -idirafter ../include -DTEXT_BASE= -DUSE_HOSTCC -O -c mkimage.c gcc -g -Wall -pedantic -idirafter ../include -DTEXT_BASE= -DUSE_HOSTCC -O -c crc32.c gcc -Wall -pedantic -idirafter ../include -DTEXT_BASE= -DUSE_HOSTCC -O -o mkimage mkimage.o crc32.o strip mkimage 

创建的U-Boot的内核，你就可以开始没有任何问题，这个错误是，它MKIMAGE。

 KURO-BOX:/usr/src/u-boot-1.1.4/tools# cp -p mkimage /usr/local/bin KURO-BOX:/usr/src/u-boot-1.1.4/tools# which mkimage /usr/local/bin/mkimage 

MKIMAGE被创建，然后复制到的位置，并完成您的路径，比如/ usr / local / bin中。

必须安装GCC，默认的系统安装两个版本为3.4（4.3系统）

 KURO-BOX:~# aptitude install gcc gcc-3.4 

·然而，在update-alternatives的设置切换当你安装完，我的命令检查：

 KURO-BOX:~# update-alternatives --display gcc No alternatives for gcc. 

不喜欢。 尝试设置一切可以用下面的命令设置，并根据不同的名称可能已经存在

 KURO-BOX:~# update-alternatives --all 

yappari不喜欢。
因此，（是“gcc”和组名）手动添加

 KURO-BOX:~# update-alternatives --install /usr/bin/gcc gcc /usr/bin/gcc-3.4 34 --slave /usr/bin/cpp cpp /usr/bin/cpp-3.4 --slave /usr/bin/gcov gcov /usr/bin/gcov-3.4 KURO-BOX:~# update-alternatives --install /usr/bin/gcc gcc /usr/bin/gcc-4.3 43 --slave /usr/bin/cpp cpp /usr/bin/cpp-4.3 --slave /usr/bin/gcov gcov /usr/bin/gcov-4.3 

配置默认使用GCC-3.4

 KURO-BOX:~# update-alternatives --config gcc There are 2 alternatives which provide `gcc'. Selection Alternative ----------------------------------------------- * 1 /usr/bin/gcc-3.4 + 2 /usr/bin/gcc-4.3 Press enter to keep the default[*], or type selection number: 1 Using '/usr/bin/gcc-3.4' to provide 'gcc'. 

注意，当我去重新安装和格式化硬盘后，变成一个U-Boot的（无商标），因为原来一直左KuroBox。

1. 这种格式的硬盘<br />故意删除硬盘驱动器进行删除Windows7的分区。
   KuroBox回的格式是完整的，组装。
2. U-Boot的命令模式，以确认有关情况，并开始在数控
   从Windows PC 数控 ，提供了一个交叉电缆接线盒和创（直通电缆上的开关和背部）
   198.168.11.149设置的Windows PC的IP地址，浏览到数控文件夹从命令提示符，运行以下命令来启动

    nc -v -v -n -u -s 192.168.11.149 -p 6666 192.168.11.150 6666 

   应显示如下所示来观看的状态，所以到192.168.11.150现在，当你启动KuroBox

    U-Boot 1.1.4 LiSt 2.1.0 (Sep 21 2006 - 00:22:56) LinkStation / KuroBox CPU: MPC8245 Revision 1.4 at 196.608 MHz: 16 kB I-Cache 16 kB D-Cache DRAM: 64 MB FLASH: 4 MB ～省略～ Boot in 10 seconds ('s' to stop)... 

   进入[S]在这里，进入U-Boot的命令模式。

    Boot in 7 seconds ('s' to stop)... s => 

3. EM模式

    => run writeng Un-Protected 1 sectors Flash erase: first = 55 @ 0xfff70000 last = 55 @ 0xfff70000 Flash erase: Done Erased 1 sectors Copy to Flash... done => run emboot ## Booting image at ffc00000 ... ******* Product Information ******* [#k0621bb4] ---------------------------------- Product Name: KURO-BOX(IETSUNA) VER: 1.02 Date: 2004/4/16 11:46:41 ---------------------------------- Verifying checksum... OK Uncompressing kernel...done. Loading Ramdisk at 0x03C67000, end 0x03E6E647 ... OK Booting the kernel ～省略～ 

   所以应该站在EM模式，删除交叉电缆连接到LAN，DHCP运行。

检查在KuroBox DHCP获得的IP地址，做telnet登录。

 Kroutoshikou KURO-BOX (IETSUNA) kernel 2.4.17_kuro-box on ppc KURO-BOX login: root Password: kuro 

4. 创建一个分区
   删除整个地区硬盘

    root@KURO-BOX:~# /sbin/mfdisk -e /dev/hda delete partition 1 delete partition 2 delete partition 3 delete partition 4 create partitions... deleate all partitions. The partition table has been altered! Syncing disks. 

   （4GB，为第二个区域交换，256MB的第三个区域：第一个休息区），其次是分区

    root@KURO-BOX:~# /sbin/mfdisk -c /dev/hda Command (m for help): n Command action e extended p primary partition (1-4) p Partition number (1-4): 1 First cylinder (1-15798, default 1): [enter] Using default value 1 Last cylinder or +size or +sizeM or +sizeK (1-15798, default 15798): +4000M Command (m for help): n Command action  e extended  p primary partition (1-4) p Partition number (1-4): 2 First cylinder (8128-15798, default 8128): [enter] Using default value 8128 Last cylinder or +size or +sizeM or +sizeK (8128-15798, default 15798): +256M Command (m for help): n Command action  e extended  p primary partition (1-4) p Partition number (1-4): 3 First cylinder (8649-15798, default 8649): [enter] Using default value 8649 Last cylinder or +size or +sizeM or +sizeK (8649-15798, default 15798): [enter] Using default value 15798 Command (m for help): t Partition number (1-4): 2 Hex code (type L to list codes): 82 Changed system type of partition 2 to 82 (Linux swap) Command (m for help): p Disk /dev/hda: 16 heads, 63 sectors, 15798 cylinders Units = cylinders of 1008 * 512 bytes Device Boot Start  End  Blocks Id System /dev/hda1     1  8127 4095976+ 83 Linux /dev/hda2    8128  8648  262584 82 Linux swap /dev/hda3   8649 15798 3603600 83 Linux Command (m for help): w The partition table has been altered! Syncing disks. 

5. 第一个格式<br />的第一个区域（LinuxOS）面积

    root@KURO-BOX:~# /sbin/mke2fs -j /dev/hda1 mke2fs 1.22, 22-Jun-2001 for EXT2 FS 0.5b, 95/08/09 Filesystem label= OS type: Linux Block size=4096 (log=2) Fragment size=4096 (log=2) 512000 inodes, 1023994 blocks 51199 blocks (5.00%) reserved for the super user First data block=0 32 block groups 32768 blocks per group, 32768 fragments per group 16000 inodes per group Superblock backups stored on blocks:    32768, 98304, 163840, 229376, 294912, 819200, 884736 Writing inode tables: done Creating journal (8192 blocks): done Writing superblocks and filesystem accounting information: done This filesystem will be automatically checked every 21 mounts or 180 days, whichever comes first. Use tune2fs -c or -i to override. 

   然后第二个区域（掉期）

    root@KURO-BOX:~# /sbin/mkswap /dev/hda2 Setting up swapspace version 1, size = 268881920 bytes 

   最后的第三个地区（资料）

    root@KURO-BOX:~# /sbin/mke2fs -j -m 0 /dev/hda3 mke2fs 1.22, 22-Jun-2001 for EXT2 FS 0.5b, 95/08/09 Filesystem label= OS type: Linux Block size=4096 (log=2) Fragment size=4096 (log=2) 450688 inodes, 900900 blocks 0 blocks (0.00%) reserved for the super user First data block=0 28 block groups 32768 blocks per group, 32768 fragments per group 16096 inodes per group Superblock backups stored on blocks:    32768, 98304, 163840, 229376, 294912, 819200, 884736 Writing inode tables: done Creating journal (8192 blocks): done Writing superblocks and filesystem accounting information: done This filesystem will be automatically checked every 28 mounts or 180 days, whichever comes first. Use tune2fs -c or -i to override. 

6. 安装面积

    root@KURO-BOX:~# mount -t ext3 /dev/hda1 /mnt root@KURO-BOX:~# mount -t ext3 /dev/hda3 /mnt2 root@KURO-BOX:~# df -h Filesystem Size  Used Available Use% Mounted on /dev/ram0  9.5M  5.0M    4.5M  53% / /dev/hda1  3.8G 32.1M    3.6G  1% /mnt /dev/hda3  3.4G 32.1M    3.4G  1% /mnt2 

7. OS的数据传输
   FTP （FileZilla中保存以下三个创建一个文件夹中的u-boot（/ dev/hda3的）/ mnt2下列文件等）
   • 压缩文件Revulo Debian5.0 lenny中的实验室 （ Debian的lenny中KuroBOX-20090317.Tgz ）
   • 内核映像 （ 2.6.20-Kernelimage KuroBOX-UImage.Tgz的 ）
   • 内核模块 （ 模块2.6.20-KuroBOX.Tgz的 ）

   我检查后转让。

    root@KURO-BOX:~# ls /mnt2/u-boot debian-lenny-kuroBOX-20090317.tgz kernelimage-2.6.20-kuroBOX-uImage.tgz modules-2.6.20-kuroBOX.tgz 

8. 安装操作系统
   扩大到/ mnt / dev/hda1的（莱尼）Debian5.0

    root@KURO-BOX:~# cd /mnt root@KURO-BOX:~# pwd /mnt root@KURO-BOX:~# tar xvzf /mnt2/u-boot/debian-lenny-kuroBOX-20090317.tgz ～省略～ 

   （到/ mnt）检查/ dev/hda1的

    root@KURO-BOX:~# ls /mnt bin home mnt sbin tmp boot lib opt selinux usr dev lost+found proc srv var etc media root sys 

   扩大（到/ mnt /开机）/ dev/hda1/boot（2.6.20）内核映像

    root@KURO-BOX:~# tar xvfz /mnt2/u-boot/kernelimage-2.6.20-kuroBOX-uImage.tgz .config System.map vmlinux.UBoot uImage 

   /开机检查的内容

    root@KURO-BOX:~# ls /mnt/boot System.map uImage vmlinux.UBoot 

   扩大（到/ mnt / lib / modules目录）/ dev/hda1/lib/modules（2.6.20）内核模块

    root@KURO-BOX:~# cd /mnt/lib/modules root@KURO-BOX:~# pwd /mnt/lib/modules root@KURO-BOX:~# tar xvzf /mnt2/u-boot/modules-2.6.20-kuroBOX.tgz ～省略～ 

   /确保您有是lib/modules/2.6.20-kurobox

    root@KURO-BOX:~# ls 2.6.20-kurobox root@KURO-BOX:~# ls 2.6.20-kurobox build modules.dep modules.pcimap kernel modules.ieee1394map modules.symbols modules.alias modules.inputmap modules.usbmap modules.ccwmap modules.isapnpmap source 

9. 你之前设置的网络配置，网络设置重新启动<br /> lenny中给出一个固定的IP地址，以防万一

    root@KURO-BOX:~# vi /mnt/etc/network/interfaces iface eth0 inet static address 192.168.0.100 network 192.168.0.0 netmask 255.255.255.0 broadcast 192.168.0.255 gateway 192.168.0.1 iface lo inet loopback auto eth0 lo 

    root@KURO-BOX:~# vi /mnt/etc/hosts 127.0.0.1 localhost 192.168.0.100 KURO-BOX 

    root@KURO-BOX:~# vi /mnt/etc/hosts.allow #ALL: 192.168.0.0/255.255.0.0 #ALL: 127.0.0.1 ALL : ALL : ALLOW 

    root@KURO-BOX:~# vi /mnt/etc/resolv.conf search nameserver 192.168.0.1 

10. 修复fstab中设置您的环境

     root@KURO-BOX:~# vi /mnt/etc/fstab # /etc/fstab: static file system information. # # proc /proc proc defaults 0 0 /dev/hda2 none swap sw 0 0 /dev/ hda1 / ext3 defaults,noatime,errors=remount-ro 0 0 /dev/ hda3 /mnt ext3 defaults,noatime 0 0   root@KURO-BOX:~# vi /mnt/etc/fstab # /etc/fstab: static file system information. # # proc /proc proc defaults 0 0 /dev/hda2 none swap sw 0 0 /dev/ hda1 / ext3 defaults,noatime,errors=remount-ro 0 0 /dev/ hda3 /mnt ext3 defaults,noatime 0 0  root@KURO-BOX:~# vi /mnt/etc/fstab # /etc/fstab: static file system information. # # proc /proc proc defaults 0 0 /dev/hda2 none swap sw 0 0 /dev/ hda1 / ext3 defaults,noatime,errors=remount-ro 0 0 /dev/ hda3 /mnt ext3 defaults,noatime 0 0  root@KURO-BOX:~# vi /mnt/etc/fstab # /etc/fstab: static file system information. # # proc /proc proc defaults 0 0 /dev/hda2 none swap sw 0 0 /dev/ hda1 / ext3 defaults,noatime,errors=remount-ro 0 0 /dev/ hda3 /mnt ext3 defaults,noatime 0 0 

11. 通过EM重新启动
    写命令退出EM模式

     root@KURO-BOX:~# echo -n "OKOK" > /dev/fl3 

    确认该命令可以写成

     root@KURO-BOX:~# dd if=/dev/fl3 bs=4 count=1 OKOK1+0 records in 1+0 records out 4 bytes transferred in 0.006583 seconds (608 bytes/sec) 

    重新开始

     root@KURO-BOX:~# reboot 

12. Debian5.0莱尼启动检查
    确保在登录后，成为连接到IP的根已先前通过telnet

     Debian GNU/Linux 5.0 KURO-BOX login: tmp-kun Password: tmp-kun ～省略～ tmp-kun@KURO-BOX:~$ suパスワード: root KURO-BOX:/home/tmp-kun# 

V2系统也是内部Unicode字符代码“樱花编辑器”已正式发布。
注意与它一起，尝试改变你的设置，使您可以检查系统V2演示工具“SakuraDown”协助安装。

如果你想编辑如下：一段“DownInfo.ini”介绍[编辑]如下载目的地。

 [EDITOR] ;ReleaseURI=http://sourceforge.net/api/file/index/project-id/12488/rss?path=%2Fsakura ReleaseURI=http://sourceforge.net/api/file/index/project-id/12488/rss?path=%2Fsakura2 ;FileRegExp=\d\.\d\.\d\.\d/sakura_[^\/\?<>=]+\.zip FileRegExp=\d\.\d\.\d\.\d/sakura2[^\/\?<>=]+\.zip ReleaseFindingPolicy=FROM_LAST ;DownloadURI=http://@MIRROR.dl.sourceforge.net/project/sakura-editor/sakura/@FILE DownloadURI=http://@MIRROR.dl.sourceforge.net/project/sakura-editor/sakura2/@FILE ReleaseType=SITE_SOURCEFORGE ;WildName=sakura_????-??-??*.zip WildName=sakura2-*.zip 

如果你想编辑如下：第的“DownInfo.ini”[BREGEXP] Unicode版本也正则表达式库的优势。

 [BREGEXP] ReleaseURI=http://homepage3.nifty.com/k-takata/mysoft/bregonig.html ;FileRegExp=bron[0-9]+\.zip FileRegExp=bron2[0-9]+\.zip DownloadURI=http://homepage3.nifty.com/k-takata/mysoft/@FILE ReleaseType=SITE_NORMAL WildName=bron???.zip;bron???.lzh 

但我认为是不正确的东西，所以暂定在此提出，请您自己的风险回应什么中期。

安装Ubuntu上网本版10.10的最后时间 ，但已经出来了改变，因为可用性是一个较重的工作问题。
lubuntu是你从Gnome的Ubuntu为基础的LXDE桌面改变。
使用PC十年成熟的轻量级的LXDE饥饿，然后转化成一个时尚的电脑有点不同的旧电脑，但它也包含发射服务的上网本。

提供了如下所述的文件，因为你没有重新启动自动开机Lxlauncher。
/ / / <用户名>。配置/启动/ lxlauncher.desktop

 [Desktop Entry] Encoding=UTF-8 Name=Lxlauncher Comment=LXDE launcher Exec=/usr/bin/lxlauncher Terminal=false Type=Application Icon= Categories=Application;System; 

注意：设置时，能够使用无线电

• 更换的DLL

  因此，保持好一点的天线的灵敏度。

  1. 1.09.25.23 rilphone.cab向前运行的触摸钻石
• 限制带释放

  在原有的遗体可以选择通过改变注册表的值，因为你不能设置一定的频段76.0〜90.0MHz 87.5〜108.0MHZ日本，超过设定的范围。

  1. FM_JP.cab转移到触摸钻石和运行

      [HKEY_LOCAL_MACHINE\Software\HTC\FMRadio\FMPlayer] “Band”=dword:0000000 1 

• 与通常使用的耳机，收听调频广播

  可以收听广播，即使它没有配备麦克风和所提供的耳机使用USB音频适配器“苗条”。

  1. USB音频适配器“苗条”购买。

参考： 日本相应的变化，在非日本的调频收音机的频段

描述，因为收到请求，并希望写和电子邮件设置EMnet短信。

• 删除ArcMMS

  运行的DelArcMMS.mscr，删除关联ArcMMS

  1. DelArcMMS.mscr转移到触摸钻石和运行
     （BsB6.5.1G，但应该能够运行MortScript，如果不能MortScript-4.2-PPC.cab请在安装后运行。）
• MMS Lite安装准备

  写注册表的信息，以便能够接收短信或彩信Lite在PreSetupMMSLite.exe的运行。

  1. PreSetupMMSLite.zip解压，并运行它转移到触摸钻石1 PreSetupMMSLite.exe
• MSS的Lite的安装

  为了能够使用SMS和MMS安装的MMSLite.1.1.320.wm6.cab

  1. MMSLite.1.1.320.wm6.cab转移到触摸钻石和运行
• 设置MMSLite

  运行重写，以适应您的环境MMSLite.mscr，反映设置

  1. MMSLite.mscr下载修复的e-mail地址等。

      Case(YES) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "AllowDeliveryReport" , 1 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "AllowReadReport" , 1 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "AutoRetry" , 1 ) RegWriteString( "HKCU", "Software\MMS Lite\Profiles\MMS", "EmailAddres", " 自分のメールアドレス@emnet.ne.jp " ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "ForceAutoRecv" , 1 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "ForceConnect" , 0 ) RegWriteString( "HKCU", "Software\MMS Lite\Profiles\MMS", "MmsGateway", " 10.56.46.1:8080 " ) RegWriteString( "HKCU", "Software\MMS Lite\Profiles\MMS", "MmsServer", " http://mms.internal.emnet.ne.jp " ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "MsgDurationPeriod" , 0 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "RequireDeliveryReport" , 0 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "RetryCount" , 0 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "RetryTimeout" , 30 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "SaveSent" , 1 ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS", "ServerPort" , 80 ) RegWriteString( "HKCU", "Software\MMS Lite\Profiles\MMS\UserAgent", " Default ", " S21HT " ) RegWriteString( "HKCU", "Software\MMS Lite\Profiles\MMS\UserAgent", " S21HT ", " S21HT/ArcSoft-MMSUA-PPC-v50 " ) RegWriteDword( "HKCU", "Software\MMS Lite\Profiles\MMS\Connections", " EMnet " , 0 ) 

  2. 转移到触摸钻石和运行修改后的MMSLite.mscr
• 检查配置

  检查设置反映在

  1. 要为您所选择的EMnet：“选择你要使用的连接”
  2. “电子邮件地址：”人们急于发送，但似乎没有问题，但已经显示的电话号码，地址信息被记录在注册表中被改变，以解决。

注： Touch Diamond的ROM EMnet烤邮件（S21HT）。

前回Ubuntu Netbook Edition 10.04をインストールしたけれどそのあとWindowsXPに戻していたので再度Ubuntu Netbook Edition 10.10をインストールしてみて、画面設定を手動で行う必要があったのでメモ。

xorg.confの作成 <br /> 対象となったのはTrident社製CyberALADDiN-Tのチップセット

1. 端末からgedit を起動する

    $ gedit ~/xorg.conf 

2. 下記の内容をコピー＆ペースト

    Section "Monitor" Identifier "Generic Monitor" HorizSync 28-51 VertRefresh 43-60 EndSection Section "Screen" Identifier "Default Screen" Monitor "Generic Monitor" SubSection "Display" Depth 24 Modes "1024x768" "800x600" "640x480" EndSubSection EndSection 

3. 保存し xorg.conf を /etc/X11 にコピー

    sudo cp ~/xorg.conf /etc/X11/ 

MacOSXにインストールしたEclipseにAndroid NDKをインストールしたときのメモ。
(ndk-buildコマンド内でmakeコマンドを使用するため、Xcodeなどをインストールしておくこと)
Android NDK のダウンロード

1. 下記のファイルをダウンロード
   • android-ndk-r5b-darwin-x86.tar.bz2
2. ダウンロードしたファイルを解凍し、適当なフォルダに格納する(例:User/username/Developer)

CDT(C/C++ Development Tooling)のインストール

1. 「ヘルプ」->「新規ソフトウェアのインストール…」を開く
2. “作業対象:”に”Helios – http://download.eclipse.org/release/helios”を選択する
3. 一覧が表示されたら「プログラミング言語」の中から下記のものにチェックを入れ、インストールする
   • C/C++ Development Tools
   • C/C++ Library API Documentation Hover Help (インキュベーション)

環境変数の追加

1. .bash_profileを開く
   • vim ~/.bash_profile
2. NDKの格納先を”PATH”に追加(例 NDK格納場所:/Users/username/Developer/android-ndk-mac)

    ANDROIDNDK_HOME=/Users/username/Developer/android-ndk-mac PATH=$PATH:${ANDROIDNDK_HOME} 

3. .bash_profileを再読込し、変更を反映させる
   • source ~/.bash_profile
4. 環境変数が反映されているか確認する
   • printenv PATH
5. (もし、そもそも環境変数”PATH”が存在してなかったら.bash_profileに下記の一文を最終行に追記する)

    export PATH 

hello-jniライブラリのビルド

NDKに含まれるサンプルをビルドしてみて環境設定が整っていることを確認する。

1. hello-jniのディレクトリに移動(例:/Users/username/Developer/android-ndk-mac/sample/hello-jni/)
   • cd /Users/username/Developer/android-ndk-mac/sample/hello-jni/
2. ndk-build コマンドでビルドする(成功すると下記のような出力になる)

    Gdbserver : [arm-linux-androideabi-4.4.3] libs/armeabi/gdbserver Gdbsetup : libs/armeabi/gdb.setup Compile thumb : hello-jni <= hello-jni.c SharedLibrary : libhello-jni.so Install : libhello-jni.so => libs/armeabi/libhello-jni.so