How to access ssh terminal in web browser on Linux

Posted by Unknown Senin, 30 September 2013 0 komentar
http://xmodulo.com/2013/09/access-ssh-terminal-web-browser-linux.html

Running “everything” in a web browser used to be a bold statement. However, due to the powerful HTML5/JavaScript stack, a web browser increasingly becomes a dominant application delivery platform. Even the Linux kernel sandboxed in a web browser no longer sounds so crazy these days.
In this tutorial, I describe how to access an SSH terminal in a web browser on Linux. Web-based SSH is useful when the firewall you are behind is so restrictive that only HTTP(s) traffic can get through.
Shell In A Box (or shellinabox) is a web-based terminal emulator which can run as a web-based SSH client. It comes with its own web server (shellinaboxd) which exports a command line shell to a web-based terminal emulator via AJAX interface. Shell In a Box only needs JavaScript/CSS support from a web browser, and does not require any additional browser plugin.

Install Shell In A Box on Linux

To install shellinabox on Debian, Ubuntu or Linux Mint:
$ sudo apt-get install openssl shellinabox
To install shellinabox on Fedora:
$ sudo yum install openssl shellinabox
To install shellinabox on CentOS or RHEL, first enable EPEL repository, and then run:
$ sudo yum install openssl shellinabox

Configure Shellinaboxd Web Server

By default shellinaboxd web server listens on 4200 TCP port on localhost. In this tutorial, I change the default port to 443 for HTTPS. For that, modify shellinabox configuration as follows.
Configure shellinaboxd On Debian, Ubuntu or Linux Mint:
$ sudo vi /etc/default/shellinabox
# TCP port that shellinboxd's webserver listens on
SHELLINABOX_PORT=443

# specify the IP address of a destination SSH server
SHELLINABOX_ARGS="--o-beep -s /:SSH:192.168.1.7"

# if you want to restrict access to shellinaboxd from localhost only
SHELLINABOX_ARGS="--o-beep -s /:SSH:192.168.1.7 --localhost-only"
Configure shellinaboxd On Fedora, CentOS or RHEL:
$ sudo vi /etc/sysconfig/shellinaboxd
# TCP port that shellinboxd's webserver listens on
PORT=443

# specify the IP address of a destination SSH server
OPTS="-s /:SSH:192.168.1.7"

# if you want to restrict access to shellinaboxd from localhost only
OPTS="-s /:SSH:192.168.1.7 --localhost-only"
Heads-up for Fedora users: According to the official document, some operations may not work out of the box when you run shellinaboxd in SELinux mode on Fedora. Refer to the document if you have any issue.

Provision a Self-Signed Certificate

During the installation of Shell In A Box, shellinaboxd attempts to create a new self-signed certificate (certificate.pem) by using /usr/bin/openssl if no suitable certificate is found on your Linux. The created certificate is then placed in /var/lib/shellinabox.
If no certificate is found in the directory for some reason, you can create one yourself as follows.
$ su (change to the root)
# cd /var/lib/shellinabox
# openssl genrsa -des3 -out server.key 1024
# openssl req -new -key server.key -out server.csr
# cp server.key server.key.org
# openssl rsa -in server.key.org -out server.key
# openssl x509 -req -days 365 -in server.csr -signkey server.key -out server.crt
# cat server.crt server.key > certificate.pem

Run Shellinaboxd Web Server

On Debian, Ubuntu or Linux Mint:
$ sudo service shellinabox start
On Fedora, CentOS or RHEL:
$ sudo systemctl enable shellinaboxd.service
$ sudo systemctl start shellinaboxd.service
To verify if shellinaboxd is running:
$ sudo netstat -nap | grep shellinabox
tcp        0      0 0.0.0.0:443             0.0.0.0:*               LISTEN      4787/shellinaboxd
Now open up your web browser, and navigate to https://. You should be able to see a web-based SSH console, and log in to the remote SSH server via web browser interface.

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How to access Dropbox from the command line in Linux

Posted by Unknown 0 komentar
http://xmodulo.com/2013/09/access-dropbox-command-line-linux.html

Cloud storage is everywhere in today’s multi-device environment where people want to access content across multiple devices wherever they go. Dropbox is the most widely used cloud storage service due to its elegant UI and flawless multi-platform compatibility. There are numerous official or unofficial Dropbox clients available on multiple platforms.
Linux has its own share of Dropbox clients; CLI clients as well as GUI-based clients. Dropbox Uploader is an easy-to-use Dropbox CLI client written in BASH scripting language. In this tutorial, I describe how to access Dropbox from the command line in Linux by using Dropbox Uploader.

Install and Configure Dropbox Uploader on Linux

To use Dropbox Uploader, download the script and make it executable.
$ wget https://raw.github.com/andreafabrizi/Dropbox-Uploader/master/dropbox_uploader.sh
$ chmod +x dropbox_uploader.sh
Make sure that you have installed curl on your system, since Dropbox Uploader runs Dropbox APIs via curl.
To configure Dropbox Uploader, simply run dropbox_uploader.sh. When you run the script for the first time, it will ask you to grant the script access to your Dropbox account.
$ ./dropbox_uploader.sh

As instructed above, go to https://www2.dropbox.com/developers/apps on your web browser, and create a new Dropbox app. Fill in the information of the new app as shown below, and enter the app name as generated by Dropbox Uploader.

After you have created a new app, you will see app key/secret on the next page. Make a note of them.

Enter the app key and secret in the terminal window where dropbox_uploader.sh is running. dropbox_uploader.sh will then generate an oAUTH URL (e.g., http://www2.dropbox.com/1/oauth/authorize?oauth_token=XXXXXXX).

Go to the oAUTH URL generated above on your web browser, and allow access to your Dropbox account.

This completes Dropbox Uploader configuration. To check whether Dropbox Uploader is successfully authenticated, run the following command.
$ ./dropbox_uploader.sh info
Dropbox Uploader v0.12

> Getting info...

Name: Dan Nanni
UID: XXXXXXXXXX
Email: my@email_address
Quota: 2048 Mb
Used: 13 Mb
Free: 2034 Mb

Dropbox Uploader Examples

To list all contents in the top-level directory:
$ ./dropbox_uploader.sh list
To list all contents in a specific folder:
$ ./dropbox_uploader.sh list Documents/manuals
To upload a local file to a remote Dropbox folder:
$ ./dropbox_uploader.sh upload snort.pdf Documents/manuals
To download a remote file from Dropbox to a local file:
$ ./dropbox_uploader.sh download Documents/manuals/mysql.pdf ./mysql.pdf
To download an entire remote folder from Dropbox to a local folder:
$ ./dropbox_uploader.sh download Documents/manuals ./manuals
To create a new remote folder on Dropbox:
$ ./dropbox_uploader.sh mkdir Documents/whitepapers
To delete an entire remote folder (including all its contents) on Dropbox:
$ ./dropbox_uploader.sh delete Documents/manuals

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How to access VNC remote desktop in web browser

Posted by Unknown 0 komentar
http://xmodulo.com/2013/09/access-vnc-remote-desktop-web-browser.html

There are many VNC clients available on Linux, differing in their capabilities and operating system support. If you are looking for a cross-platform VNC client, you have two options: use either Java-based VNC viewers (e.g., RealVNC or TightVNC), or web-based VNC clients.
VNC web clients are typically faster than Java-based VNC viewers, and could easily be integrated into other third-party applications.
In this tutorial, I will describe how to access VNC remote desktop in web browser by using VNC web client called noVNC.
noVNC is a HTML5-based remote desktop web client which can communicate with a remote VNC server via Web Sockets. Using noVNC, you can control a remote computer in a web browser over VNC.
noVNC has been integrated into a number of other projects including OpenStack, OpenNebula, CloudSigma, Amahi and PocketVNC.

noVNC Feature List

The following list shows full features offered by noVNC.
  • Supports all modern browsers including those on iOS, Android.
  • Supported VNC encodings: raw, copyrect, rre, hextile, tight, tightPNG
  • WebSocket SSL/TLS encryption (i.e. “wss://”) support
  • 24-bit true color and 8 bit colour mapped
  • Supports desktop resize notification/pseudo-encoding
  • Local or remote cursor
  • Clipboard copy/paste
  • Clipping or scrolling modes for large remote screens

Web Browser Requirements

To run noVNC, your web browser must support HTML5, more specifically HTML5 Canvas and WebSockets. The following browsers meet the requirements: Chrome 8+, Firefox 3.6+, Safari 5+, iOS Safari 4.2+, Opera 11+, IE 9+, and Chrome Frame on IE 6-8. If your browser does not have native WebSockets support, you can use web-socket-js, which is included in noVNC package.
For more detailed browser compatibility, refer to the official guide.

Install noVNC on Linux

To install noVNC remote desktop web client, clone the noVNC GitHub project by running:
$ git clone git://github.com/kanaka/noVNC

Launch Websockify WebSockets Proxy

The first step is to launch Websockify (which comes with noVNC package) on local host. noVNC leverages Websockify to communicate with a remote VNC server. Websockify is a WebSocket to TCP proxy/bridge, which allows a web browser to connect to any application, server or service via local TCP proxy.
I assume that you already set up a running VNC server somewhere. For the purpose of this tutorial, I set up a VNC server at 192.168.1.10:5900 by using x11vnc.
To launch Websockify, use a startup script called launch.sh. This script starts a mini-webserver as well as Websockify. The “--vnc” option is used to specify the location of a remotely running VNC server.
$ cd noVNC
$ ./utils/launch.sh --vnc 192.168.1.10:5900
Warning: could not find self.pem
Starting webserver and WebSockets proxy on port 6080
WebSocket server settings:
- Listen on :6080
- Flash security policy server
- Web server. Web root: /home/xmodulo/noVNC
- No SSL/TLS support (no cert file)
- proxying from :6080 to 192.168.1.10:5900

Navigate to this URL:

http://127.0.0.1:6080/vnc.html?host=127.0.0.1&port=6080

Press Ctrl-C to exit
At this point, you can open up a web browser, and navigate to the URL shown in the output of Websockify (e.g., http://127.0.0.1:6080/vnc.html?host=127.0.0.1&port=6080).
If the remote VNC server requires password authentication, you will see the following screen in your web browser.

After you have successfully connected to a remote VNC server, you will be able to access the remote desktop as follows.

You can adjust the settings of a VNC session by clicking on the settings icon located in the top right corner.

Create Encrypted VNC Session with noVNC

By default a VNC session created by noVNC is not encrypted. If you want, you can create encrypted VNC connections by using the WebSocket ‘wss://’ URI scheme. For that, you need to generate a self-signed encryption certificate (e.g., by using OpenSSL), and have Websockify load the certificate.
To create a self-signed certificate with OpenSSL:
$ openssl req -new -x509 -days 365 -nodes -out self.pem -keyout self.pem
After that, place the certificate in noVNC/utils directory. Then when you run launch.sh, Websockify will automatically load the certificate.

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Queueing in the Linux Network Stack

Posted by Unknown 0 komentar
http://www.linuxjournal.com/content/queueing-linux-network-stack

Packet queues are a core component of any network stack or device. They allow for asynchronous modules to communicate, increase performance and have the side effect of impacting latency. This article aims to explain where IP packets are queued on the transmit path of the Linux network stack, how interesting new latency-reducing features, such as BQL, operate and how to control buffering for reduced latency.
Figure 1. Simplified High-Level Overview of the Queues on the Transmit Path of the Linux Network Stack

Driver Queue (aka Ring Buffer)

Between the IP stack and the network interface controller (NIC) lies the driver queue. This queue typically is implemented as a first-in, first-out (FIFO) ring buffer (http://en.wikipedia.org/wiki/Circular_buffer)—just think of it as a fixed-sized buffer. The driver queue does not contain the packet data. Instead, it consists of descriptors that point to other data structures called socket kernel buffers (SKBs, http://vger.kernel.org/%7Edavem/skb.html), which hold the packet data and are used throughout the kernel.
Figure 2. Partially Full Driver Queue with Descriptors Pointing to SKBs
The input source for the driver queue is the IP stack that queues IP packets. The packets may be generated locally or received on one NIC to be routed out another when the device is functioning as an IP router. Packets added to the driver queue by the IP stack are dequeued by the hardware driver and sent across a data bus to the NIC hardware for transmission.
The reason the driver queue exists is to ensure that whenever the system has data to transmit it is available to the NIC for immediate transmission. That is, the driver queue gives the IP stack a location to queue data asynchronously from the operation of the hardware. An alternative design would be for the NIC to ask the IP stack for data whenever the physical medium is ready to transmit. Because responding to this request cannot be instantaneous, this design wastes valuable transmission opportunities resulting in lower throughput. The opposite of this design approach would be for the IP stack to wait after a packet is created until the hardware is ready to transmit. This also is not ideal, because the IP stack cannot move on to other work.

Huge Packets from the Stack

Most NICs have a fixed maximum transmission unit (MTU), which is the biggest frame that can be transmitted by the physical media. For Ethernet, the default MTU is 1,500 bytes, but some Ethernet networks support Jumbo Frames (http://en.wikipedia.org/wiki/Jumbo_frame) of up to 9,000 bytes. Inside the IP network stack, the MTU can manifest as a limit on the size of the packets that are sent to the device for transmission. For example, if an application writes 2,000 bytes to a TCP socket, the IP stack needs to create two IP packets to keep the packet size less than or equal to a 1,500 MTU. For large data transfers, the comparably small MTU causes a large number of small packets to be created and transferred through the driver queue.
In order to avoid the overhead associated with a large number of packets on the transmit path, the Linux kernel implements several optimizations: TCP segmentation offload (TSO), UDP fragmentation offload (UFO) and generic segmentation offload (GSO). All of these optimizations allow the IP stack to create packets that are larger than the MTU of the outgoing NIC. For IPv4, packets as large as the IPv4 maximum of 65,536 bytes can be created and queued to the driver queue. In the case of TSO and UFO, the NIC hardware takes responsibility for breaking the single large packet into packets small enough to be transmitted on the physical interface. For NICs without hardware support, GSO performs the same operation in software immediately before queueing to the driver queue.
Recall from earlier that the driver queue contains a fixed number of descriptors that each point to packets of varying sizes. Since TSO, UFO and GSO allow for much larger packets, these optimizations have the side effect of greatly increasing the number of bytes that can be queued in the driver queue. Figure 3 illustrates this concept in contrast with Figure 2.
Figure 3. Large packets can be sent to the NIC when TSO, UFO or GSO are enabled. This can greatly increase the number of bytes in the driver queue.
Although the focus of this article is the transmit path, it is worth noting that Linux has receive-side optimizations that operate similarly to TSO, UFO and GSO and share the goal of reducing per-packet overhead. Specifically, generic receive offload (GRO, http://vger.kernel.org/%7Edavem/cgi-bin/blog.cgi/2010/08/30) allows the NIC driver to combine received packets into a single large packet that is then passed to the IP stack. When the device forwards these large packets, GRO allows the original packets to be reconstructed, which is necessary to maintain the end-to-end nature of the IP packet flow. However, there is one side effect: when the large packet is broken up, it results in several packets for the flow being queued at once. This "micro-burst" of packets can negatively impact inter-flow latency.

Starvation and Latency

Despite its necessity and benefits, the queue between the IP stack and the hardware introduces two problems: starvation and latency.
If the NIC driver wakes to pull packets off of the queue for transmission and the queue is empty, the hardware will miss a transmission opportunity, thereby reducing the throughput of the system. This is referred to as starvation. Note that an empty queue when the system does not have anything to transmit is not starvation—this is normal. The complication associated with avoiding starvation is that the IP stack that is filling the queue and the hardware driver draining the queue run asynchronously. Worse, the duration between fill or drain events varies with the load on the system and external conditions, such as the network interface's physical medium. For example, on a busy system, the IP stack will get fewer opportunities to add packets to the queue, which increases the chances that the hardware will drain the queue before more packets are queued. For this reason, it is advantageous to have a very large queue to reduce the probability of starvation and ensure high throughput.
Although a large queue is necessary for a busy system to maintain high throughput, it has the downside of allowing for the introduction of a large amount of latency.
Figure 4 shows a driver queue that is almost full with TCP segments for a single high-bandwidth, bulk traffic flow (blue). Queued last is a packet from a VoIP or gaming flow (yellow). Interactive applications like VoIP or gaming typically emit small packets at fixed intervals that are latency-sensitive, while a high-bandwidth data transfer generates a higher packet rate and larger packets. This higher packet rate can fill the queue between interactive packets, causing the transmission of the interactive packet to be delayed.
Figure 4. Interactive Packet (Yellow) behind Bulk Flow Packets (Blue)
To illustrate this behaviour further, consider a scenario based on the following assumptions:
  • A network interface that is capable of transmitting at 5 Mbit/sec or 5,000,000 bits/sec.
  • Each packet from the bulk flow is 1,500 bytes or 12,000 bits.
  • Each packet from the interactive flow is 500 bytes.
  • The depth of the queue is 128 descriptors.
  • There are 127 bulk data packets and one interactive packet queued last.
Given the above assumptions, the time required to drain the 127 bulk packets and create a transmission opportunity for the interactive packet is (127 * 12,000) / 5,000,000 = 0.304 seconds (304 milliseconds for those who think of latency in terms of ping results). This amount of latency is well beyond what is acceptable for interactive applications, and this does not even represent the complete round-trip time—it is only the time required to transmit the packets queued before the interactive one. As described earlier, the size of the packets in the driver queue can be larger than 1,500 bytes, if TSO, UFO or GSO are enabled. This makes the latency problem correspondingly worse.
Large latencies introduced by over-sized, unmanaged queues is known as Bufferbloat (http://en.wikipedia.org/wiki/Bufferbloat). For a more detailed explanation of this phenomenon, see the Resources for this article.
As the above discussion illustrates, choosing the correct size for the driver queue is a Goldilocks problem—it can't be too small, or throughput suffers; it can't be too big, or latency suffers.

Byte Queue Limits (BQL)

Byte Queue Limits (BQL) is a new feature in recent Linux kernels (> 3.3.0) that attempts to solve the problem of driver queue sizing automatically. This is accomplished by adding a layer that enables and disables queueing to the driver queue based on calculating the minimum queue size required to avoid starvation under the current system conditions. Recall from earlier that the smaller the amount of queued data, the lower the maximum latency experienced by queued packets.
It is key to understand that the actual size of the driver queue is not changed by BQL. Rather, BQL calculates a limit of how much data (in bytes) can be queued at the current time. Any bytes over this limit must be held or dropped by the layers above the driver queue.
A real-world example may help provide a sense of how much BQL affects the amount of data that can be queued. On one of the author's servers, the driver queue size defaults to 256 descriptors. Since the Ethernet MTU is 1,500 bytes, this means up to 256 * 1,500 = 384,000 bytes can be queued to the driver queue (TSO, GSO and so forth are disabled, or this would be much higher). However, the limit value calculated by BQL is 3,012 bytes. As you can see, BQL greatly constrains the amount of data that can be queued.
BQL reduces network latency by limiting the amount of data in the driver queue to the minimum required to avoid starvation. It also has the important side effect of moving the point where most packets are queued from the driver queue, which is a simple FIFO, to the queueing discipline (QDisc) layer, which is capable of implementing much more complicated queueing strategies.

Queueing Disciplines (QDisc)

The driver queue is a simple first-in, first-out (FIFO) queue. It treats all packets equally and has no capabilities for distinguishing between packets of different flows. This design keeps the NIC driver software simple and fast. Note that more advanced Ethernet and most wireless NICs support multiple independent transmission queues, but similarly, each of these queues is typically a FIFO. A higher layer is responsible for choosing which transmission queue to use.
Sandwiched between the IP stack and the driver queue is the queueing discipline (QDisc) layer (Figure 1). This layer implements the traffic management capabilities of the Linux kernel, which include traffic classification, prioritization and rate shaping. The QDisc layer is configured through the somewhat opaque tc command. There are three key concepts to understand in the QDisc layer: QDiscs, classes and filters.
The QDisc is the Linux abstraction for traffic queues, which are more complex than the standard FIFO queue. This interface allows the QDisc to carry out complex queue management behaviors without requiring the IP stack or the NIC driver to be modified. By default, every network interface is assigned a pfifo_fast QDisc (http://lartc.org/howto/lartc.qdisc.classless.html), which implements a simple three-band prioritization scheme based on the TOS bits. Despite being the default, the pfifo_fast QDisc is far from the best choice, because it defaults to having very deep queues (see txqueuelen below) and is not flow aware.
The second concept, which is closely related to the QDisc, is the class. Individual QDiscs may implement classes in order to handle subsets of the traffic differently—for example, the Hierarchical Token Bucket (HTB, http://lartc.org/manpages/tc-htb.html). QDisc allows the user to configure multiple classes, each with a different bitrate, and direct traffic to each as desired. Not all QDiscs have support for multiple classes. Those that do are referred to as classful QDiscs, and those that do not are referred to as classless QDiscs.
Filters (also called classifiers) are the mechanism used to direct traffic to a particular QDisc or class. There are many different filters of varying complexity. The u32 filter (http://www.lartc.org/lartc.html#LARTC.ADV-FILTER.U32) is the most generic, and the flow filter is the easiest to use.

Buffering between the Transport Layer and the Queueing Disciplines

In looking at the figures for this article, you may have noticed that there are no packet queues above the QDisc layer. The network stack places packets directly into the QDisc or else pushes back on the upper layers (for example, socket buffer) if the queue is full. The obvious question that follows is what happens when the stack has a lot of data to send? This can occur as the result of a TCP connection with a large congestion window or, even worse, an application sending UDP packets as fast as it can. The answer is that for a QDisc with a single queue, the same problem outlined in Figure 4 for the driver queue occurs. That is, the high-bandwidth or high-packet rate flow can consume all of the space in the queue causing packet loss and adding significant latency to other flows. Because Linux defaults to the pfifo_fast QDisc, which effectively has a single queue (most traffic is marked with TOS=0), this phenomenon is not uncommon.
As of Linux 3.6.0, the Linux kernel has a feature called TCP Small Queues that aims to solve this problem for TCP. TCP Small Queues adds a per-TCP-flow limit on the number of bytes that can be queued in the QDisc and driver queue at any one time. This has the interesting side effect of causing the kernel to push back on the application earlier, which allows the application to prioritize writes to the socket more effectively. At the time of this writing, it is still possible for single flows from other transport protocols to flood the QDisc layer.
Another partial solution to the transport layer flood problem, which is transport-layer-agnostic, is to use a QDisc that has many queues, ideally one per network flow. Both the Stochastic Fairness Queueing (SFQ, http://crpppc19.epfl.ch/cgi-bin/man/man2html?8+tc-sfq) and Fair Queueing with Controlled Delay (fq_codel, http://linuxmanpages.net/manpages/fedora18/man8/tc-fq_codel.8.html) QDiscs fit this problem nicely, as they effectively have a queue-per-network flow.

How to Manipulate the Queue Sizes in Linux

Driver Queue:
The ethtool command (http://linuxmanpages.net/manpages/fedora12/man8/ethtool.8.html) is used to control the driver queue size for Ethernet devices. ethtool also provides low-level interface statistics as well as the ability to enable and disable IP stack and driver features.
The -g flag to ethtool displays the driver queue (ring) parameters:

# ethtool -g eth0
Ring parameters for eth0:
Pre-set maximums:
RX: 16384
RX Mini: 0
RX Jumbo: 0
TX: 16384
Current hardware settings:
RX: 512
RX Mini: 0
RX Jumbo: 0
TX: 256
You can see from the above output that the driver for this NIC defaults to 256 descriptors in the transmission queue. Early in the Bufferbloat investigation, it often was recommended to reduce the size of the driver queue in order to reduce latency. With the introduction of BQL (assuming your NIC driver supports it), there no longer is any reason to modify the driver queue size (see below for how to configure BQL).
ethtool also allows you to view and manage optimization features, such as TSO, GSO, UFO and GRO, via the -k and -K flags. The -k flag displays the current offload settings and -K modifies them.
As discussed above, some optimization features greatly increase the number of bytes that can be queued in the driver queue. You should disable these optimizations if you want to optimize for latency over throughput. It's doubtful you will notice any CPU impact or throughput decrease when disabling these features unless the system is handling very high data rates.
Byte Queue Limits (BQL):
The BQL algorithm is self-tuning, so you probably don't need to modify its configuration. BQL state and configuration can be found in a /sys directory based on the location and name of the NIC. For example: /sys/devices/pci0000:00/0000:00:14.0/net/eth0/queues/tx-0/byte_queue_limits.
To place a hard upper limit on the number of bytes that can be queued, write the new value to the limit_max file:

echo "3000" > limit_max
What Is txqueuelen?
Often in early Bufferbloat discussions, the idea of statically reducing the NIC transmission queue was mentioned. The txqueuelen field in the ifconfig command's output or the qlen field in the ip command's output show the current size of the transmission queue:

$ ifconfig eth0
eth0 Link encap:Ethernet HWaddr 00:18:F3:51:44:10
inet addr:69.41.199.58 Bcast:69.41.199.63 Mask:255.255.255.248
inet6 addr: fe80::218:f3ff:fe51:4410/64 Scope:Link
UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1
RX packets:435033 errors:0 dropped:0 overruns:0 frame:0
TX packets:429919 errors:0 dropped:0 overruns:0 carrier:0
collisions:0 txqueuelen:1000
RX bytes:65651219 (62.6 MiB) TX bytes:132143593 (126.0 MiB)
Interrupt:23

$ ip link
1: lo: mtu 16436 qdisc noqueue state UNKNOWN
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
2: eth0: mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:18:f3:51:44:10 brd ff:ff:ff:ff:ff:ff
The length of the transmission queue in Linux defaults to 1,000 packets, which is a large amount of buffering, especially at low bandwidths.
The interesting question is what queue does this value control? One might guess that it controls the driver queue size, but in reality, it serves as a default queue length for some of the QDiscs. Most important, it is the default queue length for the pfifo_fast QDisc, which is the default. The "limit" argument on the tc command line can be used to ignore the txqueuelen default.
The length of the transmission queue is configured with the ip or ifconfig commands:

ip link set txqueuelen 500 dev eth0
Queueing Disciplines:
As introduced earlier, the Linux kernel has a large number of queueing disciplines (QDiscs), each of which implements its own packet queues and behaviour. Describing the details of how to configure each of the QDiscs is beyond the scope of this article. For full details, see the tc man page (man tc). You can find details for each QDisc in man tc qdisc-name(for example, man tc htb or man tc fq_codel).
TCP Small Queues:
The per-socket TCP queue limit can be viewed and controlled with the following /proc file: /proc/sys/net/ipv4/tcp_limit_output_bytes.
You should not need to modify this value in any normal situation.

Oversized Queues Outside Your Control

Unfortunately, not all of the over-sized queues that will affect your Internet performance are under your control. Most commonly, the problem will lie in the device that attaches to your service provider (such as DSL or cable modem) or in the service provider's equipment itself. In the latter case, there isn't much you can do, because it is difficult to control the traffic that is sent toward you. However, in the upstream direction, you can shape the traffic to slightly below the link rate. This will stop the queue in the device from having more than a few packets. Many residential home routers have a rate limit setting that can be used to shape below the link rate. Of course, if you use Linux on your home gateway, you can take advantage of the QDisc features to optimize further. There are many examples of tc scripts on-line to help get you started.

Summary

Queueing in packet buffers is a necessary component of any packet network, both within a device and across network elements. Properly managing the size of these buffers is critical to achieving good network latency, especially under load. Although static queue sizing can play a role in decreasing latency, the real solution is intelligent management of the amount of queued data. This is best accomplished through dynamic schemes, such as BQL and active queue management (AQM, http://en.wikipedia.org/wiki/Active_queue_management) techniques like Codel. This article outlines where packets are queued in the Linux network stack, how features related to queueing are configured and provides some guidance on how to achieve low latency.

Acknowledgements

Thanks to Kevin Mason, Simon Barber, Lucas Fontes and Rami Rosen for reviewing this article and providing helpful feedback.

Resources

Controlling Queue Delay: http://queue.acm.org/detail.cfm?id=2209336
Bufferbloat: Dark Buffers in the Internet: http://cacm.acm.org/magazines/2012/1/144810-bufferbloat/fulltext
Bufferbloat Project: http://www.bufferbloat.net
Linux Advanced Routing and Traffic Control How-To (LARTC): http://www.lartc.org/howto

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Best iphone and ipad games and apps Package October 2013

Posted by Unknown Minggu, 29 September 2013 0 komentar
The lovely month of October 2013 brought us a tornado of awesome new games and apps and games could not complain about lack of variety.From action games to strategy to puzzlers and very important apps, it seems that Apple appstore were just bursting with new great titles. We offer you the best free iphone and ipad games and app Package in october 2013.
Best iphone and ipad games and apps Package October 2013

The Games and apps list:
2K DRIVE 1.6
Alien Shooter EX 1.0.1
Backgammon Masters 1.5.8
Bravura Quest Rush 1.1.3
Haunted Manor - The Secret of the Lost Soul FULL HD 1.4.1
Hills of Glory 3D 1.0
Little Galaxy 1.1.1
Lost Echo 1.0.1
Magicka 1.3.0
Pinball Arcade 2.8.0
Quantum Legacy HD 2.1.0
Raven 1.3
ReKillers 1.01
Shadowrun Returns 1.0.5
Sky Gamblers Cold War 1.0.2
Sky Gamblers Storm Raiders 1.2.1
Sonic Dash 1.6.1
We will provide links when available.

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Acer Iconia W4 tablet Specs and price

Posted by Unknown 0 komentar
At the end of september 2013, Acer released the world's second small-size Windows 8 iconia w4 tablet 
and,it comes with this specs and Features:
Memory:2GB,32G SSD solid state storage.
Camera:5 megapixel of rear camera, 2.0 megapixel of front camera.
Screen: 8-inch IPS screen, the screen resolution of 1280 × 800, 5-point touch support.
Networks:W4 also supports 802.11n Wi-Fi, Bluetooth 4.0, GPS.
There are Micro-HDMI port and microSD card slot.
W4 equipped with 32GB SSD storage, the maximum available storage space is 28.5GB, freely usable space is 16GB.
Acer Iconia W4 tablet


The Acer iconia w4 tablet prices is:
-In FN: € 330.
-USA ,Canada ,Uk:$400.
-The price was very similar to the previous W3.
Hands-on and Review 


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Download BlackJack 21 For android for free

Posted by Unknown Jumat, 27 September 2013 0 komentar
Today we are going to offer you one of  the best blackjack games that works on android platform it's BlackJack 21 game Try your luck at one of LV most popular casino games.with Blackjack 21 Game , you can play as fast and as often as you want. Try it now and enjoy playing.
-Requires Android:2.2 and up.
-Price: its free
-Download From : Google play (recommended). 


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Download Order and Chaos Online , Duels v2.2.0 on android

Posted by Unknown 0 komentar
We are going to offer you one of the most popular action games its comes in two versions Order and Chaos Online 2.2 in $7 and  Order and Chaos Duels for free. with this game you can Explore the world of Haradon solo, or unleash the true multiplayer game experience: Make friends or enemies, trade, duel, communicate and more. A wide range of interactions makes each player a living part of this fantasy universe.and you can Join a party or guild to become stronger and coordinate with your teammates to overcome the most challenging part of MMO games: our Legendary dungeons.Take part in epic multiplayer fights and try to lead your guild to the very top of Haradon.
Order and Chaos Online  v2.2 logo

Important  recommendations to play Order & Chaos Online:
- 1 GHz CPU.
- 500 MB RAM.
- 1.7 GB of  free space.
-Player Rating:4.2/5.
-Game size:1.6GB.
-Version:2.2.0.
-Requires Android:2.2 and up.
-Price: $6.99.
1-Download From : Google play (recommended).
2-Download Order & Chaos Duels for free from :Google play (recommended).
Screenshots
Screen1

Screen2


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Samsung Galaxy Trend 3 Specs and Price

Posted by Unknown Kamis, 26 September 2013 0 komentar
Today Samsung has officially announced about  the Galaxy Trend 3 in China, a low-end handset that sports dual SIM slots. The Galaxy Trend 3 looks similar to the Galaxy Trend DUOS that was launched in India recently, , which is odd since the firmware Samsung rolled out for the Trend 3 the other day was based on 4.1 as well. 
Galaxy Trend 3

The Galaxy Trend 3 comes with Specs:
OS:run on Android 4.2 OS.
Processor : 1.2GHz dual-core processor.
Memory: microSD memory.
Networks:Wi-Fi, Bluetooth and GPS connectivity.
Screen: 4.3-inch , ( WVGA (480 x 800) of the TFT Dimensions type ,129.7 x 66.95 x 9.4 Mm.
Weight:128 gm
Battery:1,800 mAh
Camera:13 Mpx
There will be three models: an unlocked SM-G3502U, an SM-G3502 for China Unicom, SM-3508 for China Mobile, and SM-3509 for China Telecom.
There will be three colors: in powder pink, black, and white.
Price :$470

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Top 5 Video Editors for Ubuntu/Linux

Posted by Unknown Selasa, 24 September 2013 0 komentar
http://www.techdrivein.com/2013/09/top-5-video-editors-for-ubuntu-linux.html

 Video editing in Linux is a controversial topic. There are a number of video editors for Ubuntu that works quite well. But are they any good for serious movie editing? Perhaps not. But with the arrival of Linux variants from many big-shots such as Lightworks, things are slowly starting to change. Remember the kind of sweeping-change we witnessed in the Linux gaming scene once Valve released their much-touted Steam client for Linux. But that's another story. Here, we'll discuss 5 of the most potent video editors available for Ubuntu. 
lightworks for linux beta
Lightworks is a top notch, professional-grade video/movie editor which recently released a beta version for Linux as well. Lightworks was perhaps one of the firsts to adopt computer-based non-linear editing systems, and has been in development since 1989. The release of an open source version, as well as ports for Linux and Mac OS X were announced in May 2010. Lightworks beta video editor is free to download and use, and their is a PRO paid plan offering which gives you extra features and codec support at $60/year.
best video editors for linux ubuntu

Kdenlive is an open-source, non-linear video editing software available for FreeBSD, Linux and MAC OSX platforms. Kdenlive was one of the earliest to develop a dedicated video editor for Linux with the project starting as early as in 2002. Kdenlive 0.9.4 is available in Ubuntu Software Center by default. But if you want the latest version (Kdenlive 0.9.6 instead), do the following in Terminal. Visit Kdenlive download page for more options.
sudo add-apt-repository ppa:sunab/kdenlive-release
sudo apt-get update
sudo apt-get install kdenlive

top 5 video editors for linux ubuntu

OpenShot is perhaps one of the most active open source video editing software projects out there. In my book, OpenShot is a little more intuitive when compared to its competition. And after a successful Kickstarter funding campaign recently, the team will be launching a Windows and Mac version of OpenShot apart from the normal Linux variant. Add the following PPA to install OpenShot in Ubuntu. More download options here.
sudo add-apt-repository ppa:openshot.developers/ppa
sudo apt-get update
sudo apt-get install openshot openshot-doc

5 best video editors for linux ubuntu

Flowblade Movie Editor is an open source, multitrack and non-linear video editor for Linux. Flowblade is undoubtedly the hottest new entrant into the Linux video editing scene. Project started only last year and there has been just three releases so far. The latest release was Flowblade version 0.10.0 and this happened just two weeks ago. And it is already showing enormous amount of potential. Flowblade is available in DEB packages only at the moment.
top video editing software for linux ubuntu

Cinelerra is a professional video editing and compositing software for Linux which is also open source. Cinelerra was first released August 1, 2002. Cinelerra includes support for very high-fidelity audio and video. The latest version, Cinelerra 4.4, was released more than an year ago and it featured a faster startup and increased responsiveness among other improvements. Cinelerra has plenty of download options. If you're an Ubuntu user, just do the following.

sudo add-apt-repository ppa:cinelerra-ppa/ppa
sudo apt-get update
sudo apt-get install cinelerra-cv

I have deliberately not included Blender here because, even though it can do video editing, Blender is much more than that. Blender is a full blown graphics processing software with advanced 3D modelling capabilities (Tears of Steel was the latest in a long list of official Blender made animation movies). Did we miss out on any other good video editors for Linux? Let us know in the comments. Thanks for reading.

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user data manifesto

Posted by Unknown Minggu, 22 September 2013 0 komentar
http://userdatamanifesto.org

  user data manifesto   defining basic rights for people to control their own data in the internet age

1. Own the data
The data that someone directly or indirectly creates belongs to the person who created it.
2. Know where the data is stored
Everybody should be able to know: where their personal data is physically stored, how long, on which server, in what country, and what laws apply.
3. Choose the storage location
Everybody should always be able to migrate their personal data to a different provider, server or their own machine at any time without being locked in to a specific vendor.
4. Control access
Everybody should be able to know, choose and control who has access to their own data to see or modify it.
5. Choose the conditions
If someone chooses to share their own data, then the owner of the data selects the sharing license and conditions.
6. Invulnerability of data
Everybody should be able to protect their own data against surveillance and to federate their own data for backups to prevent data loss or for any other reason.
7. Use it optimally
Everybody should be able to access and use their own data at all times with any device they choose and in the most convenient and easiest way for them.
8. Server software transparency
Server software should be free and open source software so that the source code of the software can be inspected to confirm that it works as specified.

Services, projects, software that respects the user data rights and this manifesto. Contact us to have a software or project added to this list.


Supporter:
  • Frank Karlitschek
  • Klaas Freitag
  • Ingo Ebel
  • Georg Ehrke
  • Wolfgang Romey
  • Dan Leinir Turthra Jensen
  • Arthur Schiwon
  • André Crevilaro
  • Ash Crisp
  • Thomas Müller
  • Matt Nunn
  • Michael Gapczynski
  • Felix Rohrbach
  • Claus Christensen
  • Jonas Pfenniger
  • Augusto Destrero
  • Gabor Pusztai
  • Michel Lutynski
  • Carl Symons
  • André Colomb
  • Markus Rex
  • Daniel Devine
  • Victor BONHOMME
  • Jed Ibeftri
  • Diederik de Haas
  • Aaron Seigo
  • Ahmed LADJAL
  • Fabrice Ménard
  • Caleb Cooper
  • Patrick Welch
  • Kevin Ottens
  • Joachim Mairböck
  • Thomas Tanghus Olsen
  • Thomas Baumgart
  • Klaus Weidenbach
  • Aitor Pazos
  • Simon Lees
  • Luis Soeiro
  • Maurizio Napolitano
  • Markus Neteler
  • Stian Viskjer
  • Andy Tow
  • Richard Freytag
  • Stephen Judge
  • Helmut Kudrnovsky
  • Christophe Blondel
  • Etienne Perot
  • Michael Grant
  • Jeffery Benton
  • Eric Berg
  • Bill Barnhill
  • Matthew Cope
  • Mauro Santos
  • Val Miller
  • Kurt Pfeifle
  • Joubin Houshyar
  • Beau Gunderson
  • Ralf Schäfer
  • Georgios Kolokotronis
  • Jeffery MacEachern
  • Margherita Di Leo
  • Dominik Reukauf
  • Oliver Wittenburg
  • Daniel Lee
  • Peter Gasper
  • Mehdi Laouichi
  • John Jolly
  • Tadeas Moravec
  • David Kolibáè
  • Koen Willems
  • Gerlando Gibilaro
  • Robin Lövgren
  • Stewart Johnston
  • Galih Pradhana
  • Luca Brivio
  • Tom Needham
  • Martin Jakl
  • Jan-Christoph Borchardt
  • Peter Daimu
  • Alessandro Cosentino
  • Matt Holman
  • Bart Cornelis
  • David Cullen
  • Luca Delucchi
  • Alessandro Furieri
  • Daniele Galiffa
  • Flavio Rigolon
  • Dario Biazzi
  • Paweł Orzechowski
  • Giovanni Allegri
  • Paolo Corti
  • Iacopo Zetti
  • Alessandro Fanna
  • Amedeo Fadini
  • Paolo Cavallini
  • Hartmut Körber
  • Andrea Ranaldi
  • Martin Klepsch
  • Sebastian Kippe
  • Mathieu Segaud
  • Matti Saastamoinen
  • M. Edwin Zakaria
  • Niklas Cathor
  • Uwe Geuder
  • Chad Cassady
  • Peter Loewe
  • Vaclav Petras
  • Jeremy Malcolm
  • Sebastian Kanschat
  • Walter Lorenzetti
  • Johannes Twittmann
  • Kunal Ghosh
  • Dirk Kutsche
  • Yvonne Mockenhaupt
  • pro-ite GmbH
  • Brice Maron
  • Sven Guckes
  • Hylke Bons
  • Florian Hülsmann
  • Garret Alfert
  • Matteo Bonora
  • Vinzenz Vietzke
  • Nicolas Joyard
  • Drew Pearce
  • Ole-Morten Duesund
  • Zack Tyler
  • Gonçalo Cabrita
  • Kelvin Wong
  • Steffen Fritz
  • Lautaro Silva
  • Björn Schießle
  • Johannes Fürmann
  • Mathieu Carrandié
  • Stefano Iacovella
  • Nicolas Coevoet
  • Arthur Lutz
  • Pavol Rusnak
  • Kjetil.Thuen
  • Austin Seraphin
  • iacopo Spalletti
  • Zach I.
  • Tom Bigelajzen
  • Andy Fuchs
  • Rickie Chung
  • Eder Ruiz Maria
  • Magnus Hoglund
  • Fil
  • Daniel Wunderlich
  • Christian Egle
  • Nelson Saavedra
  • Magnus Anderssen
  • Holger Dyroff
  • Jacob Emcken
  • Jens Ziemann
  • D Waterloo
  • Sam Tuke
  • Simone Balzarotti
  • Samed Beyribey
  • Adil Ilhan
  • Gianluca Massei
  • Anna Kratochvilova
  • Ceyhan Molla
  • Jake Collingwood
  • Osman Alperen Elhan
  • Bora Alper
  • Joey Peso
  • Philippe Hürlimann
  • Wahyu Primadi (LittleOrange)
  • Pierre Alex
  • Vladimir Savić
  • Paul Ortyl
  • Rıza Selçuk Saydam
  • Raghu Nayyar
  • Stefano Costa
  • Francesco de Virgilio
  • Chris Oei
  • emanuela ciccolella
  • Lloyd Watkin
  • Matthias Huisken
  • Andrew Clarke
  • Filipe Cruz
  • Manuel Delgado
  • Andrea Torres
  • Marco Piedra
  • Adrian Patrascu
  • Giovanni Longo, LinuxBird Staff
  • Massimo Donati
  • Atencio Felipe
  • Giuseppe Puliafito
  • Hanns Tappen
  • Ramiro Rivera
  • Renato Rolandi
  • Paul Greindl
  • Michał \"rysiek\" Woźniak
  • Johnson Pau
  • Tomislav Nakic-Alfirevic
  • Mattia Rizzolo
  • YOUNOUSS Abba Soungui
  • Luca Migliorini
  • Nick
  • Postsoftware Movement
  • James Clements
  • Nikolas Sachnikas
  • Nikos Roussos
  • George Giftogiannis
  • Antonio Esposito
  • Ruset Zeno
  • elf Pavlik
  • Jan Wrobel
  • Daniel Harris
  • Kyle Stevenson
  • Andrea Di Marco
  • Florian Jacob
  • Stephen Guerin
  • Jordan Ash (noospheer)
  • Brad Laue
  • David Duncan Ross Palmer
  • Mike Evans
  • Ross Laird
  • Alexander Salnikov
  • hellekin (GNU/consensus)
  • Alan Dawson
  • Daniel E. Renfer
  • Jeremy M Pope
  • Adam Swirkowski
  • Nate Bounds
  • Philipp Steverding
  • Andrija Ljubicic
  • Robert Pollak
  • Alik Barsegian
  • Francz Kafka
  • Julien Rabier
  • Matthias Pfefferle
  • Michael Gisiger
  • Gernot Stangl
  • Peter Laplain
  • Adrien Blanvillain
  • Xavier Gillard
  • Pablo Padilla
  • Taylor Baldwin
  • Martin Steigerwald
  • Aldis Berjoza
  • Michiel de Jong
  • RJ Herrick
  • Oliver Johnston
  • Karl Fischer
  • olia lialina
  • Will Brand
  • Val Anzaldo
  • Michael Dieter
  • Joe Flintham
  • Jack Armitage
  • Anders Carlsson
  • Aram Bartholl
  • Torsten Krill
  • lizvlx
  • Jörn Röder
  • Cristóbal Severin
  • Luis Arce
  • Alexandra Argüelles
  • Ciro Museres
  • Nicolás Narváez
  • Ilian Sapundshiev
  • andrea rota
  • Jari Seppälä
  • Carl Worth
  • Alex Colson
  • Glenn Bakker
  • Ion Martin
  • Chandler Bailey
  • Kim Halavakoski
  • Jan Sarenik
  • Stephan Luckow
  • Sameh Attia

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Most popular open-source projects hosted at GitHub

Posted by Unknown 0 komentar
http://xmodulo.com/2013/09/popular-open-source-projects-hosted-github.html

GitHub is the most popular open source project hosting site. Earlier this year, GitHub reached a milestone in the history of open source project management by hosting 6 million projects over which 3.5 million people collaborate. You may wonder what the hottest open source projects are among those 6 million projects.
In this post, I will describe 20 most popular open source projects that are hosted at GitHub. To rank projects, I use the number of “stars” received by each project as a “popularity” metric. At GitHub, “starring” a project is a way to keep track of projects that you find interesting. So the number of stars added to a project presumably indicates the level of interests in the project among registered GitHub users.
I understand that any kind of “popularity” metric for open source projects would be subjective at best. The value of open source code is in fact very much in the eye of the beholder. With that being said, this post is for introducing nice cool projects that you may not be aware of, and for casual reading to those interested in this kind of tidbits. It is NOT meant for a popularity contest or a competition among different projects.

1. Bootstrap

Bootstrap, which is developed by Twitter, is a powerful front-end framework for web development. Bootstrap contains a collection of HTML/CSS templates and JavaScript extensions to allow you to quickly prototype the front-end UI of websites and web applications.

2. Node.js

Node.js is a server-side JavaScript environment that enables real-time web applications to scale by using asynchronous event-driven model. Node.js uses Google’s V8 JavaScript engine to run its JavaScript. Node.js is the hottest technology used in many production environments including LinkedIn, PayPal, Walmart, Yahoo! and eBay.

3. jQuery

jQuery is a cross-browser JavaScript library designed to simplify the way you write client-side JavaScript. jQuery can handle HTML document traversal, events, animation, AJAX interaction, and much more. According to BuiltWith, jQuery is used by more than 60% of top-ranking websites today.

4. HTML5 Boilerplate

HTML5 Boilerplate is a professional looking front-end template for building fast, robust, and adaptable web sites or web applications in HTML5. If you want to learn HTML5 and CSS3, this is an excellent starting point.

5. Rails

Rails is an open-source framework for developing web applications based on Ruby programming language. Rails is a full-stack framework for developing database-backed web applications, encompassing everything from front-end template rendering to backend database query.

6. D3: Data-Driven Documents

D3.js is a cross-browser JavaScript library for presenting documents with dynamic and interactive graphics driven by data. D3.js can visualize any digital data in W3C-compliant HTML5, CSS3, SVG or JavaScript.

7. Impress.js

Impress.js is a CSS3-based presentation framework that allows you to convert HTML content into a slideshow presentation with stunning visualization and animation. Using impress.js, you can easily create beautiful looking online presentations supported by all modern browsers.

8. Font Awesome

Font Awesome is a suite of scalable vector icons that can be customized in size, color or drop shadow by using CSS. It is designed to be fully compatible with Bootstrap. Font Awesome is completely free for commercial use.

9. AngularJS

AngularJS is a JavaScript framework developed by Google to assist writing client-side web applications with model–view–controller (MVC) capability, so that both development and testing become easier. AngularJS allows you to properly structure web applications by using powerful features such as directives, data binding, filters, modules and scope.

10. Homebrew

Homebrew is package management software for MacOS X. It simplifies installation of other free/open source software that Apples does not ship with MacOS X. As of today, Homebrew has the second largest number of contributors at GitHub (next to Linux kernel source tree by Linus Torvalds).

11. Chosen

Chosen is a jQuery plugin that specializes in creating user-friendly and feature-rich select boxes in HTML. Chosen supports creating single select, multiple select, select with groups, disabled select, etc.

12. Foundation

Foundation is a responsive front-end framework that allows you to easily build websites or applications that run on any kind of mobile devices. Foundation includes layout templates (like a fully responsive grid), elements and best practices.

13. jQuery File Upload

jQuery File Upload is a jQuery plugin that creates a powerful file upload widget. The plugin supports multiple file selection, drag & drop, progress bar, validation, preview images, chunked/resumable uploads, client-side image resizing, etc.

14. Three.js

Three.js is a cross-browser JavaScript library that allows you to create and display lightweight 3D animation and graphics in a web browser without any proprietary browser plugin. It can be used along with HTML5 Canvas, SVG or WebGL.

15. Jekyll

Jekyll is a simple website generator that converts plain texts into static websites or blogs. Without any database, comment moderation, update or installation, it simplifies blog management significantly. It supports permalinks, categories, pages, posts, and custom layouts.

16. Brackets

Brackets is a web code editor written in JavaScript, HTML and CSS, which allows you to edit HTML and CSS. Brackets works directly in your browser, and so you can instantly switch between code editor view and browser view, all within web browser.

17. Oh My Zsh

Oh My Zsh is a community-driven framework for managing ZSH configurations, where contributors contribute their ZSH configurations to GitHub, so that users can grab them. It comes bundled with more than 120 ZSH plugins, themes, functions, etc.

18. Express

Express is a flexible and minimalist web application framework for node.js, offering a set of features for building single-page, multi-page or hybrid web applications.

19. Moment

Moment is a lightweight JavaScript library for parsing, validating, manipulating, and displaying dates in JavaScript.

20. GitLab


GitLab is self hosted Git project management software powered by Ruby on Rails, which allows you host code repositories on your own server. It supports user/access permission, issue tracking, line-comments, code review, etc. GitLab is currently used by more than 25,000 organization to host private code repositories.

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Nokia Lumia 2520 Tablet Specs and prices

Posted by Unknown Sabtu, 21 September 2013 0 komentar
Today On Monday, Nokia Has announced about the official name of its new tablet( Nokia's Sirius Windows RT ) and it decided to called it lumia 2520 , and the new nokia tablet comes with this Specs:
Nokia lumia-2520

  • Processor:Lumia 2520 will use Qualcomm 8974 quad-core processor.
  • Screen size: is 10.1 inches with 1920 x 1080 IPS screen.
  • Battery life:10 hours .
  • Weight : 1.3 pounds.
  • Thickness: of 0.35 inches
  • Camera:equipped with 6.7 million rear camera,camera through Zeiss certification.
  • Keyboard:support external keyboard.
  • OS: Windows RT.
  • Price: $ 499.
  • Network:4G LTE network.

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Bossies 2013: The Best of Open Source Software Awards

Posted by Unknown 0 komentar
http://news.techworld.com/applications/3469092/bossies-2013-the-best-of-open-source-software-awards

This year, the annual Bossie Awards recognize 120 of the best open source software for data centers and clouds, desktops and mobile devices, developers and IT pros

What do a McLaren Supercar, a refrigerator, a camera, a washing machine, and a cellphone have to do with open source? They're all examples of how a good pile of code can take on a new life when it's set free with an open source license.

The same forces are turned loose in every corner of business computing, from application development and big data analytics to the software that runs our desktops, data centers, and clouds. This year's edition of our annual Best of Open Source Software Awards rounds up more than 120 top projects in seven categories:
When the Android developers started releasing their operating system in 2007, they just wanted to colonize the world of mobile phones. The iPhone was incredibly popular, and attracting any attention was a challenge. Choosing an open source license was an easy path to partnerships with the phone manufacturers around the world. After all, giving people something free is an easy way to make friends.

In 2013, something unexpected happened: The camera engineers noticed the explosion of creative new software apps for taking photographs with mobile phones. Someone asked, "What if we put Android on our camera?" Now Android cameras with better lenses can leverage the fertile software ecosystem of Android apps.

This is the way that open source software is supposed to work. Developers share, and software proliferates. Is it any surprise that the folks at Samsung are now making an Android refrigerator? Or an Android clothes washer? Or an Android watch? Or that McLaren, the maker of overjuiced cars, wants the radio in its car to run Android? Will there be Android in our doorbells, our cats, and our sofas? Only time and the programmers know. The source code is out there and anyone can install it.

As in years past, this year's collection of Bossie Award winners celebrates this tradition of sharing and cross-fertilization. The open source software ecosystem continues to flourish and grow as old projects continue to snowball while new projects emerge to tackle new needs.

The most successful projects, like Android, are finding new homes in unexpected places, and there seem to be more unexpected places than ever.(( Throughout the Web and the enterprise, open source is less and less the exception and more and more the rule. It's in the server stacks, it's on the desktop, and it's a big, big part of the mobile ecology.

The server stack is growing increasingly open. Much of the software for maintaining our collection of servers is now largely open source thanks to the proliferation of Linux, but the operating system is just the beginning. Almost everything built on top of -- or below -- the operating system is also available as an open source package.

OpenStack is a collection of open source packages that let you build a cloud that rivals Amazon's. If you want your cloud to work the same way Amazon's does, using the same scripts and commands, open source offers that too: Eucalyptus. The cloud companies are using open source's flexibility as a way to lure people into their infrastructures. If things don't work out and you want to leave, open source presumably provides the exit. As Eucalyptus is to Amazon, an OpenStack cloud in your data center should behave like the OpenStack clouds run by Rackspace and HP by answering to the same commands.

The Bossie Awards also focus on an increasingly important layer, the one that keeps all of these machines in the cloud in line. Orchestration tools such as Puppet, Chef, and Salt serve the needs of the harried sys admins who must organize the various servers by making sure they're running the right combination of software, patches, libraries, and extensions. These tools ensure the code will be the right versions, the services will be initialized, and everything will start and stop as it's supposed to do. They automate the tasks that keep the entire cloud in harmony.

Once the machines are configured, another popular layer for the enterprise gets the servers working together on answers to big questions. The cloud is not just for databases and Web serving because more and more complex analytical work is being done by clusters of machines that get spun up to handle big mathematical jobs. Hadoop is a buzzword that refers to both the core software for running massively parallel jobs and the constellation of fat packages that help Hadoop find the answers. Most of these companions are open source too, and a number of them made the list for our awards.

These tools for big data are often closely aligned with the world of NoSQL data stores that offer lightweight storage for extremely large data sets. This next generation of data storage is dominated by open source offerings, and we've recognized several that grew more sophisticated, more stable, and more essential this year. The information for the increasingly social and networked Internet is stored in open source tools.

By the way, the past roles for open source aren't forgotten -- they've simply begun to morph. Some of the awards go to a core of old-fashioned tools that continue to grow more robust. Python, Ruby, WordPress, and the old standard OpenOffice (in a freshly minted version 4) are better and stronger than ever. Firefox -- both the browser and the operating system -- received Bossies, illustrating the enduring strength of the openness of HTML and the World Wide Web.

Some of these new roles are surprising. One of HTML's close cousins or partners in crime, JavaScript, is continuing its bold rush to colonize the server. Node.js, a clever hack designed to repurpose the V8 JavaScript engine by bringing it to the server, is now a flourishing ecosystem of its own. The raw speed of the tool has attracted an explosion of attention, and developers have shared thousands of modules that revise and extend the core server.

What is notable is that many of the newest open source tools are already on the front lines in enterprise shops. The open source ethic began in the labs, where it continues to serve an important role, aligning groups in pre-competitive areas and allowing them to work together without worrying about ownership. A number of important areas of research are advancing through open source blocks of code, and our list of winners includes several projects for studying social networks (Gephi, Neo4j, Giraph, Hama) and constructing statistical models of data (Drill).

Throughout this long list, there continues to be a healthy competition between the different licenses. The most generous and least encumbering options such as the MIT and BSD licenses are generally applied to the tools built by researchers who often aren't ready to commercialize their work. The more polished, productlike tools backed by professional programmers are increasingly being released under tighter rules that force more disclosure. Use of the GPL 3.0 and the AGPL is growing more common as companies look to push more sharing on those who benefit from open source.

Openly commercialThe companies behind open source projects are also becoming more adept at creating tools that exert control and dominance. Many who are drawn into by the lure of open source quickly discover that not everything is as free as it seems. While the code continues to be shared openly, companies often hold something back. Some charge for documentation, others charge for privacy, but all of the successful companies have some secret sauce they use to ensure their role.

Google, for instance, is increasingly flexing its muscle to exert more control by pushing more features into the ubiquitous Play Services. The Android operating system may be free and available under the generous BSD license, but more and more features are appearing in the Play Services layer that's hidden away. The phone companies can customize and enhance the Android layer all they want, but Google maintains control over the Play Services.

This has some advantages. Some developers of Android apps complain about the "matrix of pain," a term that refers to the impossibly wide range of Android devices on the market. Any app that they build should be tested against all of the phones and tablets, both small and large. The Play Services offer some stability in this sea of confusion.

This stability is more and more common in the professional stack as the companies behind the projects find ways to sustain the development. When the software is powering the servers and the apps that power the business, that's what the enterprise customers demand. When the software is running on cars, refrigerators, washing machines, and even mobile phones, that's what the rest of the world needs too.

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Zombie Gunship 2 game for android free Download

Posted by Unknown 0 komentar
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Our Favourite Linux Cheat Sheets

Posted by Unknown Kamis, 19 September 2013 0 komentar
http://www.everydaylinuxuser.com/2013/09/our-favourite-linux-cheat-sheets.html

Most Linux system administrators spend their days at the command line, configuring and monitoring their servers through an SSH session. The command line is extremely powerful, but it can be difficult to keep all the options switches and tools in your head. Man pages are only a command away, but they're often not written for quick consultation, so when we're stuck for some of the more arcane options, we reach for the collection of cheat sheets that we've curated over the years.

Even command line masters occasionally need a litte help, and we hope that terminal beginners will find these concise lists useful too. All of these tools are installed by default on a standard Linux box except for Vim and Emacs, which may or may not be available (see the package manager cheat sheets for how to get them).

Server Management

SSH

SSH is the standard tool for connecting securely to remote servers on the command line. (We hope you aren't using Telnet.)

Screen

Screen is a must-have application for those who SSH into multiple servers or who want multiple sessions on the same server. Somewhat akin to a window manager for terminals, screen lets users have multiple command line instances open within the same window.

Bash

Bash is the default shell on most Linux distributions (except Ubuntu, but Dash is almost completely compatible). It's the glue that holds together all the other command line tools, and whether you're on the command line or writing scripts, this Bash cheat sheet will help make you more productive.

Crontab

Cron is a tool for scheduling tasks. The notation is simple but if you don't use it a lot it's easy to forget how to set it to the right times and intervals.

Writing and Manipulating Text

Vim

Vim is a powerful editor, and you'll find it or its older brother Vi on most Linux systems. Vim has a modal interface that can be a bit daunting for newcomers, but once you get to grips with how it works, it's very natural.

Emacs

Emacs is a text editor that throws the "do one thing well" philosophy out of the window. The range of things that Emacs can do is seemingly endless, and a good cheat sheet is necessary for getting to grips with its finger work-out keyboard commands.

Org Mode

As a bonus for the Emacs users out there: check out Org mode. It's a flexible plain text outliner that integrates with Emacs and can be used for planning, to-dos, and writing.

Grep

Getting to grips with grep is essential if you deal with a lot of text files (as almost everyone managing a Linux server will).

SED and AWK

Together Sed and Awk can do just about anything you might want to do with a text file.

Package Management

RPM

Distributions that use RPM for package management, including Fedora, RHEL, and CentOS have a couple of tools to choose from: Yum for high-level package management, and the RPM tool itself for manipulating and querying the package database at a lower level.

Deb Package Management

Debian-based distros like Ubuntu and its derivatives use "apt-get" for general package management, and "dpkg" for direct manipulation of debs.

Cheaters


 
If you're a regular user of cheat sheets and manage your servers from a Mac, you might want to take a look at Brett Terpstra's cheat sheet app. Cheaters is a collection of scripts that will display an Automator-based pop-up containing a configurable selection of cheat sheets.
Check out the instructions on his site to find out how to integrate the cheat sheets we've covered in this article with Cheaters.


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