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[Other resourceUDA1341TS_

Description: 这个驱动的移植主要是是将原来的2..4.18内核中的1341驱动程序直接往2.6.11上移植的,没有采用ALSA。移植过程中也曾经参考过一些资料,具体是哪位大虾的资料忘记了,在此感谢文中所参考的资料的大虾们 硬件环境:SBC-2410X开发板(CPU:S3C2410X) 内核版本:2.6.11.1 运行环境:Debian2.6.8 交叉编译环境:gcc-3.3.4-glibc-2.3.3 第一部分 声卡UDA1341TS驱动程序播放部分的移植 一、从网上将Linux内核源代码下载到本机上,并将其解压: #tar jxf linux-2.6.11.1.tar.bz2 二、打开内核顶层目录中的Makefile文件,这个文件中需要修改的内容包括以下两个方面。
Platform: | Size: 27441 | Author: 谷子 | Hits:

[Embeded Linuxsmp86xx_rootfs.tar.bz2

Description:

 sigma smp8634/8635 toolchain rootfs building source.

=================

Readme.txt

=================

 

This is the Sigma Designs customization of the root file system for the

SMP86xx family of chips.

 

This package is of course heavily depending on the toolchain and kernel

packages.

 

Quick HOW-TO

============

a) You need to have a working toolchain package. Once you have built your 

   toolchain, be sure to source toolchain-path.env. This is required for you to

   be able to build the rootfs package.

b) Untar the rootfs package.

c) First, configure your root file system: 'make menuconfig'. All the options 

   in the configuration menus have detailed help. Once you are satisfied with

   your choice of options, exit and save the configuration.

d) If you are using the toolchain composed of gcc 3.4.2, binutils 2.15.91.0.2,

   and uClibc 0.9.27 (defined in the toolchain package) then you must select

   Busybox 1.00 from the 'Package Selection for the target --->' menu.

   If on the other hand you are using the toolchain composed of gcc 4.0.4,

   binutils 2.17, and uClibc 0.9.28.3 then you must select Busybox 1.5 from

   the 'Package Selection for the target --->' menu.

e) If you chose to customize your root file system (option 'customize' in

   submenu 'Package Selection for the target'), be sure to prepare your custom

   files now.

f) Run 'make' to produce your root file system.

 

IMPORTANT NOTE: as of this release, the only supported option in the 'Target 

Options' menu is 'cramfs root filesystem for the target device' (with all its

suboptions). Any other option is currently unsupported and some are known to

not work.

 

Once you are through with step e), your root file system is available in the

main directory of the package as 'root_fs_mipsel.cramfs'.

 

Note about the integration with the toolchain and the kernel source packages

============================================================================

The rootfs package is now integrated with the toolchain package and the 

kernel source package and is able to interact with them in the following

ways:

 

 a) it can grab the necessary runtime libraries from the toolchain package.

 b) it can receive the kernel modules and support files from the kernel source

    package.

 c) the kernel source package can use the produced rootfs image for its initial

    RAM disk.

 

For interaction a) to take place, the SMP86XX_TOOLCHAIN_PATH environment 

variable must be defined and it must point to the main directory of the 

produced toolchain. The easiest way to achieve that is by sourcing the

'toolchain-path.env' environment file after it is produced at the end of the

toolchain production.

 

Note that defining SMP86XX_TOOLCHAIN_PATH is not optional. The build will not

go through unless the environment variable is defined and points to a correct

location. This is because, even if the build went through, the resulting root

file system would be unusable as it would not provide *any* run time library.

 

For interactions b) and c) to take place, the SMP86XX_ROOTFS_PATH environment

variable must be defined and must point to the main directory of the rootfs

package. The easiest way to achieve that is by sourcing the 'rootfs-path.env'

environment file after it is produced, right after your run 'make' or 

'make menuconfig' for the first time.

 

When SMP86XX_ROOTFS_PATH is defined and points to a valid location, the kernel

source package is able to:

 

 b) install its modules to the correct location under the customization 

    directory ('package/customize/source') in the rootfs package. In order to

    then make sure the modules end up in the produced rootfs image, you must

    select the 'customize' option under the 'Package Selection for the target'

    menu in 'make menuconfig'.

 c) grab the produced rootfs image (root_fs_mipsel.cramfs) and use it for its

    initial RAM disk.

 

Thus, in order to produce a rootfs holding the kernel modules and use it as the

kernel initial RAM disk, you need to go through the following steps in order

(note: this is convoluted):

 1) optionally build the toolchain (or use an existing one, more recent than

    2.6.90.0)

 2) source toolchain-path.env in the toolchain package directory

 3) configure the rootfs package with the 'customize' option on in the

    'Package Selection for the target' menu

 4) source 'rootfs-path.env' in the rootfs package directory

 5) configure the kernel, review what is configured as modules, 'make dep'

 6) 'make modules' in the kernel source directory

 7) the 'modules_install' target for the kernel needs that the system map be

    already produced. In order to achieve that, build a first version of the

    kernel: 'make vmlinux'

 8) 'make modules_install' in the kernel source directory. The modules are now

    installed in the rootfs package customization directory.

 9) 'make' in the rootfs package directory. You have now produced a rootfs 

    image holding the kernel modules.

10) 'make' in the kernel source directory. You have now produced a linux ZBF

    image with an initrd holding the kernel modules.

    

Coming features

===============

N/A

 

Troubleshooting

===============

a) when building the cramfs utility tool, the compiler complains that it can't

   find 'zlib.h' or '-lz'.

 

   You need to have the development version of zlib installed on your system.

   How to do that depends on your distribution.

 

 


Platform: | Size: 234248 | Author: mattli001 | Hits:

[Embeded LinuxUDA1341TS_

Description: 这个驱动的移植主要是是将原来的2..4.18内核中的1341驱动程序直接往2.6.11上移植的,没有采用ALSA。移植过程中也曾经参考过一些资料,具体是哪位大虾的资料忘记了,在此感谢文中所参考的资料的大虾们 硬件环境:SBC-2410X开发板(CPU:S3C2410X) 内核版本:2.6.11.1 运行环境:Debian2.6.8 交叉编译环境:gcc-3.3.4-glibc-2.3.3 第一部分 声卡UDA1341TS驱动程序播放部分的移植 一、从网上将Linux内核源代码下载到本机上,并将其解压: #tar jxf linux-2.6.11.1.tar.bz2 二、打开内核顶层目录中的Makefile文件,这个文件中需要修改的内容包括以下两个方面。 -This was mainly driven transplantation is the original 2 .. 4.18 kernel drivers 1341 directly to the Transplant 2.6.11, and did not use ALSA. Transplantation process have also made reference to some information, specific information prawns who have forgotten, would like to thank the paper for reference information on the hardware environment of shrimp are: SBC-2410X development board (CPU: S3C2410X) kernel version: 2.6.11.1 Operating Environment: Debian2.6.8 cross compiler environment: gcc-3.3.4-glibc-2.3.3 the first part of the sound card driver UDA1341TS play one part of the transplant, from the Internet Linux kernel source code will be downloaded to the machine, and decompression:# tar jxf linux-2.6.11.1.tar.bz2 Second, open the core top-level Makefile in the directory file, the document need to modify the contents include the following two aspects.
Platform: | Size: 27648 | Author: 谷子 | Hits:

[Linux-Unixgcc-3.3.6.tar

Description: linux下的gcc编译器,有需要请支持一下-gcc Compiler
Platform: | Size: 31493120 | Author: 葛军晓 | Hits:

[File Format200841613515595

Description: 下载vsftpd-2.0.6.tar.gz 网上很好找的,附件也提供下载,解压。 tar zxvf vsftpd-2.0.6.tar.gz 修改解压包内文件MakeFile,改交叉编译器,我的路径是 # Makefile for systems with GNU tools CC= /usr/local/arm/3.4.1/bin/arm-linux-gcc 直接编译会出错,还要改一个包含库文件的文件vsf_findlibs.sh 把下面两句屏蔽掉吧-Download vsftpd-2.0.6.tar.gz easy to find online, and accessories are also available for download, unzip. tar zxvf vsftpd-2.0.6.tar.gz modify the extract package files MakeFile, change cross-compiler, my path is# Makefile for systems with GNU tools CC =/usr/local/arm/3.4.1/bin/arm-linux-gcc directly translated to be wrong, but also to change a library file that contains the following two masked vsf_findlibs.sh Bar
Platform: | Size: 197632 | Author: qwe | Hits:

[Embeded Linuxarm-linux-gcc-3.4.5-gdb-6.8-insight-6.8-cygwin.tar

Description: cygwin下的arm交叉编译工具 包括: arm-linux-gcc-3.4.5 arm-linux-gdb-6.8 arm-linux-insight-6.8 -cygwin under the arm cross compiler tools include: arm-linux-gcc-3.4.5 arm-linux-gdb-6.8 arm-linux-insight-6.8
Platform: | Size: 59352064 | Author: tufei | Hits:

[Embeded Linuxarm-linux-gcc-3.4.1.tar.bz2

Description: arm-linux-gcc交叉编译工具的安装说明-arm-linux-gcc cross-compiler tool installation instructions
Platform: | Size: 5120 | Author: chen | Hits:

[Driver Developarm-gcc-3.4.4-gm8180.tar.bz2

Description: GM’s GM8180 MDC1 hardware environment is a highly efficient RISC-based platform for the purpose of verifying and evaluating AMBA-based designs in the early development stage. The complete set of MDC1 GM8180 platform consists of a main board (MB120) equipped with GM8180 chip and an embedded GM FA626 CPU.-Hardware: Intel x86 compatible PC Standard 16550 UART Software: Standard Linux distribution (Fedora core 2.6.14-FC5 or above) FA626-based Linux distribution
Platform: | Size: 54044672 | Author: 北科 | Hits:

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