U-Boot loader for BeagleBone and BeagleBone Black.
To install this bootloader, copy the files MLO and bb-uboot.img to the FAT
partition on an SD card or the eMMC. Normally this is partition 1, but
different partitions can be set with U-Boot environment variables.
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file uboot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr
using the fdtfile env variable. ubldr loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads ELF ubldr from file bbubldr on the FAT partition
to address 0x88000000, and launches it.
Note: prefixing the boot files with 'bb' allows building
images with boot bits for more than one board.
For information about running FreeBSD on BeagleBone or BeagleBone Black, see
https://wiki.freebsd.org/FreeBSD/arm/BeagleBone
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for SolidRun Cubox-i and Hummingboard.
Install the u-boot.imx file onto the boot disk using:
dd if=u-boot.imx of=/dev/whatever bs=1k oseek=1 conv=sync
The U-Boot built by this port expects the first 1MB of the boot media to
be reserved for the U-Boot executable and saved environment. The u-boot.imx
file begins at an offset of 1K from the start of the boot disk. The U-Boot
environment area begins at an offset of 512K.
This version is patched so that:
* ELF and API features are enabled to support ubldr.
The sources for this port were originally obtained from commit e4bc4c3ebe
at https://github.com/SolidRun/u-boot-imx6 which appears to be a highly
modified fork of the stock U-Boot 2013.10 release. As of this writing,
the changes in this fork have not been rolled back into upstream U-Boot.
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for Gumstix Duovero.
To install this bootloader, copy the files MLO and u-boot.img to the FAT
partition on an SD card. Normally this is partition 1, but different
partitions can be set with U-Boot environment variables.
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file uboot.env on the FAT partition.
* The DTB file name is passed to ubldr using the fdtfile env variable.
The default is omap4-duovero-parlor.dtb for a Parlor expansion board.
ubldr loads the DTB from /boot/dtb/ on the FreeBSD partition.
(Not tested)
* By default, it loads ELF ubldr from file ubldr on the FAT partition
to address 0x88000000, and launches it.
For information about running FreeBSD on Duovero, see
https://wiki.freebsd.org/FreeBSD/arm/Duovero
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for Olimex A20 SOM EVB.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for OrangePi One.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for Wandboard Solo, Dual, and Quad.
Install the u-boot.imx file onto the boot disk using:
dd if=u-boot.imx of=/dev/whatever bs=1k oseek=1 conv=sync
The U-Boot built by this port expects the first 1MB of the boot media to
be reserved for the U-Boot executable and saved environment. The u-boot.imx
file begins at an offset of 1K from the start of the boot disk. The U-Boot
environment area begins at an offset of 512K.
This version is patched so that:
* ELF and API features are enabled to support ubldr.
* A single U-Boot image supports Solo, Dual[lite], and Quad processors.
* When the selected board has multiple SD or MMC devices available, the
mmc0 device in U-Boot (and thus the disk0 device in loader(8)) will be
whichever device U-Boot was loaded from by the ROM bootloader routines.
The sources for this port were originally obtained from commit 87f595d1ee
at https://github.com/TechNexion/U-Boot-edm/ which appears to be a slightly
modified fork of the stock U-Boot 2013.10 release. As of this writing,
the changes in this fork have not been rolled back into upstream U-Boot.
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for A13 Olinuxino.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
U-Boot loader for Olinuxino Lime.
To install this bootloader on an sdcard just do :
dd if=/usr/local/share/u-boot/u-boot-boardname/u-boot-sunxi-with-spl.bin of=/path/to/sdcarddevice bs=1k seek=8 conv=notrunc,sync
This version is patched so that:
* ELF and API features are enabled.
* The default environment is trimmed to just what's needed to boot.
* The saveenv command writes to the file u-boot.env on the FAT partition.
* The DTB file name is chosen based on the board model and passed to ubldr.bin
using the fdtfile env variable. ubldr.bin loads the DTB from /boot/dtb/ on
the FreeBSD partition.
* By default, it loads PIE ubldr.bin from file ubldr.bin on the FAT partition
to address 0x42000000, and launches it.
For information about running FreeBSD on Allwinner boards, see
https://wiki.freebsd.org/FreeBSD/arm/Allwinner
For general information about U-Boot see WWW: http://www.denx.de/wiki/U-Boot
OnionCat is a VPN-adapter which allows to connect two or more computers or
networks through VPN-tunnels. It is designed to use the anonymization networks
Tor or I2P as its transport, hence, it provides location-based anonymity while
still creating tunnel end points with private unique IP addresses.
OnionCat uses IPv6 as native layer 3 network protocol. The clients
connected by it appear as on a single logical IPv6 network as being connected
by a virtual switch. OnionCat automatically calculates and assigns unique IPv6
addresses to the tunnel end points which are derived from the hidden service
ID (onion ID) of the hidden service of the local Tor client, or the local I2P
server destination, respectively. This technique provides authentication
between the onion ID and the layer 3 address, hence, defeats IP spoofing
within the OnionCat VPN.
If necessary, OnionCat can of course transport IPv4 as well. Although it has
native IP support, the suggested way to do this is to configure an
IPv4-in-IPv6 tunnel.
Mediastreamer2 is a powerful and lightweight streaming engine specialized
in voice/video telephony applications.
It is the library that is responsible for all the receiving and sending of
multimedia streams in linphone, including voice/video capture, encoding and
decoding, and rendering.
Features:
* Capture and playback from various platform dependent sound architectures
* Send and receive RTP streams
* Encode and decode the following audio formats: OPUS, speex, G711, GSM, iLBC,
AMR, AMR-WB, G722, SILK, G729, and video formats H263, theora, MPEG4,
H264 and VP8
* RTP/AVPF support: RTCP control messages for video error recovery: PLI, SLI,
RPSI, FIR
* Audio conferencing
* Supports SRTP and ZRTP (encryption of voice and video)
* Supports any webcam, based on OS's camera API: quicktime, directshow,
video4linux, android.camera
* Acoustic echo cancellation using the speex echo canceler or webrtc AECm
* Read and write .wav files
* Optimized rendering of YUV pictures, using OpenGL, DrawDib, X11/Xv
* Dual tones generation
* Custom tone detector
* Audio parametric equalizer
* Volume control, automatic gain control
* ICE for optimized NAT traversal (RFC5246) to allow peer to peer audio and
video connections without media relay server
* Adaptive bitrate control algorithm: for automatic adaption of encoder
bitrate based on received RTCP feedback
* Can use plugins to add new codecs, new sound input/output backends,...