Here are some packages returned from China Post, please check if there is your package. Most of them are incorrect address. (After 4~6 months, some people might already move to new place). If your trace id is in the list, please email your new address to support@vocore.io.

RC127346697CN
RC127346958CN
RC127346520CN
RI077512791CN
RI077509758CN
RI077513474CN
RI077511615CN
RI077510549CN
RI077511195CN
RI077512403CN
RI077510875CN
RI077508528CN
RI077512448CN
RI077510645CN
RI077509293CN

VoCore breakout board will have such features:

1. two ethernet ports.
2. jtag port, 2.54mm pins, with 10k ohm pull up resistors.
3. gpio port, 2.54mm pins, with 4.7k ohm pull up resistors.(some for boot stripe has pull down)
4. reset button.(with 4.7k ohm pull up)
5. spi port, 2.54mm pins.
6. micro USB power in.
7. uart full port, 2.54mm pins.
8. usb 2.0.
9. size about 6cm x 4cm

consider to add to this breakout board:
1. arduino chip and pins export.
2. on board usb2ttl chip.

Former layout:

Plan to use usbip upgrade my cheap printer(Epson ME350) into a wireless printer, also a wireless scanner.
But just find it is very hard to complete that.

There is kmod-usbip-client, kmod-usbip-server in the openwrt truck, but I just can not find usbipd, that is a important compose for transfer data to client computer. As I remember, it is there in old openwrt truck…

If I can not find any exist package, I have to rewrite part of that usbipd, to make it work.
usbipd is based on glibc…but current openwrt is using ulibc, can not compile directly.
Only this middle adapter application missed…I am so eager to try usbip control my printer wirelessly. 🙂

Prepare:
1. necessary library(openwrt must have video support)
(if you do not know how to compile it, download here packages, or full firmware(no luci):
kmod-video-core_3.14.25-1_ramips_24kec.ipk
kmod-video-uvc_3.14.25-1_ramips_24kec.ipk
kmod-video-videobuf2_3.14.25-1_ramips_24kec.ipk
libjpeg_9a-1_ramips_24kec.ipk
mjpg-streamer_r182-2_ramips_24kec.ipk

copy all of them to vocore:
scp kmod-video-core_3.14.25-1_ramips_24kec.ipk root@192.168.61.1:/tmp/
scp kmod-video-videobuf2_3.14.25-1_ramips_24kec.ipk root@192.168.61.1:/tmp/
scp kmod-video-uvc_3.14.25-1_ramips_24kec.ipk root@192.168.61.1:/tmp/
scp libjpeg_9a-1_ramips_24kec.ipk root@192.168.61.1:/tmp/
scp mjpg-streamer_r182-2_ramips_24kec.ipk root@192.168.61.1:/tmp/

ssh to vocore, install:
opkg install /tmp/kmod-video-core_3.14.25-1_ramips_24kec.ipk
opkg install /tmp/kmod-video-videobuf2_3.14.25-1_ramips_24kec.ipk
opkg install /tmp/kmod-video-uvc_3.14.25-1_ramips_24kec.ipk
opkg install /tmp/libjpeg_9a-1_ramips_24kec.ipk
opkg install /tmp/mjpg-streamer_r182-2_ramips_24kec.ipk

2. one usb mjpg camera. mine get from taobao.com, cost about 12USD.

3.a vocore, need to connect with USB D+/D- and give the webcam 5V power.
3.b vocore + dock, this is much easier, directly connect to dock usb port.

Now, run

/usr/bin/mjpg_streamer -i "input_uvc.so -d /dev/video0 -resolution 320x240" -o "output_http.so -www /www/webcam"

(Note: “/etc/init.d/mjpg-streamer start” not working, have to call it directly)

Try with your browser 🙂 Plan to write a plugin for vohttpd, to make this easier.
http://192.168.61.1:8080/?action=stream

Looks like my webcam is a little short sight…

Finally it works 🙂 But still not perfect.
Thanks for noltari find the problem. Just change spi speed line in dts, then it works.

Here is the patch and new spi-rt2880.c(rewrite by noltari)
vocore_spi_sd_#1
spi-rt2880

Here is the screen capture.

PS: here is the patch of VoCoreopenwrt-vocore patch
1. change ap to VoCore to avoid ap name conflict with other openwrt device.
2. change default ip to 192.168.61.1 to avoid ap+sta mode ip conflict.
3. change shadow file, so there is default password “vocore”
4. change dts flash partition to fit 16MB flash.(keep the line if you are using 8MB version vocore)

Here is the link of compiled firmware: vocore.16m.microsd.bin

There are mainly two type of packages:

1. VoCore, main board version
a) 4x4p female connectors.
b) 4x7p female connectors.
c) USB convert to TTL, driver PL2302.

2. VoCore + Dock
a) 1x4p female connectors.
b) 3x7p female connectors.
c) USB convert to TTL, driver PL2302.

What are those addition female connectors used to do?
They are used to solder on the pin holes to make them stand longer.
1.27mm female connectors are hard to find in some countries, so I add that to the package, but that is not necessary at all. From current report, the female connectors did not help much, just lead a few people broken down VoCore when they trying to solder the connectors. I am thinking to remove it in further package.
For beginner, a break out board is necessary, so people will not afraid of broken their little VoCore. 🙂 I am on that now.

PS: I thought the buyers of VoCore should have enough skill to solder that, but I am totally wrong. That’s my bad. 🙂

What is that USB2TTL used to do?
That USB2TTL is very important. It helps you repair the bricked VoCore by uboot or connect to VoCore when your wifi or ethernet do not work.
When I write driver for VoCore, I always make stupid mistake, such as system can not reboot or too heavy CPU load, make the wifi can not work normal. For such situation, USB2TTL is the only way to connect to VoCore(maybe JTAG is fine too, but I did not try).

Next version I will consider to add USB2TTL chip to dock, but the space on dock is so limited, that QFN chip + slot parts is not easy to assemble.
This move must be very careful 🙂

How to detach the VoCore and the Dock?
That is not easy, due to there are almost 20 pins tightly connected together and the pin are long, 14mm, easy to bend.
There is no glue between the VoCore main board and the dock, the white one is just silicone grease make the CPU well touch the ethernet port which is used to be a heat sink.

Detach the VoCore + Dock, two keywords are “vertical” and “slow”, the pin into the female connector about 1.4mm, if you do not do it vertical, the pin might bend.

About GPIO, I post a blog when I start VoCore.
Please check this link http://vonger.cn/?p=473.

There is some note about how to finish this:

Connection:

That 330ohm resistor is necessary, without it, the LED will burn.

Command:
Already in this post http://vonger.cn/?p=473.

Advance:

We can write an API for this LED control, so we can simply control it from browser remotely 🙂 phone, computer, pad, anything have broswer.

Here is the code, based on VoWeb, just add one function:

int voweb_func_gpio0ctrl(socket_data *d, string_reference *pa)
{
    char buf[MESSAGE_SIZE] = "Invalid parameter.";
    FILE *fp;

    fp = fopen("/sys/class/gpio/gpio0/direction", "w");
    if(fp == NULL) {
        sprintf(buf, "update gpio 0 direction failed.");
        return send(d->sock, buf, strlen(buf), 0);
    }
    fwrite("out", 1, 4, fp);
    fclose(fp);

    if(memcmp(pa->ref, "on", 2) == 0) {
        fp = fopen("/sys/class/gpio/gpio0/value", "w");
        if(fp != NULL) {
            fwrite("1", 1, 2, fp);
            fclose(fp);

            sprintf(buf, "update gpio 0 value to 1 success.");
        } else {
            sprintf(buf, "update gpio 0 value to 1 failed.");
        }
    }
    if(memcmp(pa->ref, "off", 3) == 0) {
        fp = fopen("/sys/class/gpio/gpio0/value", "w");
        if(fp != NULL) {
            fwrite("0", 1, 2, fp);
            fclose(fp);

            sprintf(buf, "update gpio 0 value to 0 success.");
        } else {
            sprintf(buf, "update gpio 0 value to 0 failed.");
        }
    }

    return send(d->sock, buf, strlen(buf), 0);
}

And register this function:

string_hash_set(funcs, "gpio0ctrl", (uchar *)voweb_func_gpio0ctrl);

Here is compiled one and necessary html: download

Uncompress vocore.voweb.gpio.test.zip to local folder, such as “~/voweb.gpio”, and scp all of the files to root@192.168.61.1:~/

scp -r ~/voweb.gpio/* root@192.168.61.1:~/

Then run command in vocore.

/root/voweb 8080 /root/html

Just open 192.168.61.1:8080, you will find this page, now, just click on the switch, the LED is under your control.

Here is a simple video:

Any questions, just leave a comment under. 🙂
brandonhead, I like your question 😀

From last week, I am thinking of a super light weight web server.
There are many choices:
LuCI + uhttpd, goahead, mini-httpd, etc…

But none of them is perfect for me:

1. cgi part use too much resource.
Fork new child process to deal cgi, and dealing code with Lua. Calling script to create the html page. If I need update frequently, such as video, the board will die for out of memory or cpu 100%.

2. memory control low efficiency.
They call malloc for every memory request. For small memory device, such malloc is pain. It will generate tons of memory fragment, and the core have to arrange them, costs lots of resource.

3. unnecessary optimisation.
We just has one core, so whatever the optimisation you do, remember the most effect way is to make the app run in one thread.
Such on board web server do not have to deal with many people request same time, so use why use pthread? Looks like the reply time is shorter, but underground it costs two times of CPU time, if the load is heavy, it is twice slower.

4. take too much disk(flash) space.
goahead, after I compile it, the size goes to 850KB, and even not contains its dependency library.

So same reason as I make VoCore, I write something looks better to me.

1. advanced memory control.
Only 12KB or even lower memory request. Self maintain memory, do not create memory fragment.

2. optimisation for one core cpu.
The full application only have just one thread, no switch cost.

3. cgi write in pure C code.
This makes it more effective, no middle layer. Pure server, client mode.

4. super fast.
deal 60~80/sec request on VoCore.

5. minimised dependency
Only basic C library is necessary. Do not need pthread, libdl, etc.

6. small executable file size.
After compile, it is 33KB, and do not need addition library. That’s all.

7. source code in one file.
I like sqlite3 style, so I make all files into one file, easy to compile.

This VoWebServer is very “embed”, of course, it is just a new project, many bugs have to be fixed, at least, we have one more choice. 🙂

Here is the source code, once I feel happy about it, will upload to github.
compile it by one line:

cc -g voweb.c -o voweb

Compiled one for VoCore: voweb

run it like this:(put some htmls to /var/www/html, it will get index.html)

voweb 8080 /var/www/html

Then open 192.168.61.1:8080, you will find the page 🙂
Test cgi function: http://192.168.61.1:8080/cgi-bin/love?VoCore
(cgi-bin folder do not exists)

In this tutorial, I will show you the full process about setup a develop environment and compile/run a “hello world” on VoCore, step by step.

1. Prepare Linux
a) Download and install VirtualBox. VirtualBox is a famous open source VM software, I like it. If you are using Linux OS already, just ignore this.

https://www.virtualbox.org/wiki/Downloads

Click on the links, you will get the install package, run it to install VirtualBox into your computer. If you have VoCore you can not be a newbie to such thing.

b) Download Ubuntu. Ubuntu is the first UI Linux I used. I like the font 🙂

http://www.ubuntu.com/download/

After download, you will get the ubuntu install iso file.

c) Setup VirtualBox and install ubuntu into it.

Better to have 30GB free disk space(at least 20GB).

Click “Create”, then double click the new item in VBox.
It will popup a window request you to select the iso.
Now select your downloaded ubuntu iso, then click Start.

Rest is the install Ubuntu, I will not post here, please check ubuntu.com for the install instruction.

d) Install VirtualBox driver to ubuntu.
After ubuntu installed and startup successfully, we have to install VirtualBox driver so we can use the network, etc in VM.

Details is here: https://www.virtualbox.org/manual/UserManual.html

Now we have a Linux system in VM.

2. Prepare OpenWrt.(http://vocore.io/wiki/index/id:15)

a) Install necessary tools:
sudo apt-get install zlib1g-dev libncurses5-dev gawk subversion libssl-dev git

b) Download openwrt
git clone git://git.openwrt.org/openwrt.git

c) Make & Compile
goto openwrt folder(git create that), for example: cd ~/openwrt
make menuconfig

make sure the config is like upper picture.

call make to compile openwrt, or make -jX for faster speed.(X is your CPU core number +1, for my macbook pro, it is -j9)

3. Write your first application.
use vi or any text edit, create main.c.

#include <stdio.h>

int main(void)
{
    return printf("hello world\n");
}

Now there are two ways to compile your main.c
One is to write a makefile, put the file to openwrt package folder, I will show this way in later tutorial.

Another way is super simple 🙂 Just make sure main.c is in current folder.

`find . -name mipsel-openwrt-linux-gcc` -g main.c -o hello

Now you have the compiled application, hello.
Note: you might get this warning, just ignore that.

mipsel-openwrt-linux-gcc: warning: environment variable 'STAGING_DIR' not defined

4. Upload to VoCore

a) Connect to your VoCore.

Here is the tutoral

VoCore: Simple Start Tutorial 1

VoCore: Simple Start Tutorial 2

b) scp the file to VoCore, password vocore.

scp ./hello root@192.168.61.1:/tmp/

c) ssh to VoCore.

ssh root@192.168.61.1

d) Try to run your first app.
Works well 🙂

Next tutorial, I will show how to remote control GPIO.

Yesterday I have been to Beijing Make(r) Space, find Edison there 🙂

Here is some photo compare VoCore with Edison.

VoCore is much smaller 🙂

This bottom interface is rather not that friendly to hobbyist, if I only have the $50 Edison, I can not use it at all. That slot is hard to buy from everywhere, lol, compare to that, seems VoCore’s 1.27mm connectors are much easy to get. 🙂 That is not the point, at least, I can solder wire to the 1.27mm holes, but I have no idea how to use Edison without its $79(?) breakout board.

Emm, I am a little disappoint. Last year, I was thinking Intel must making some wonderful thing, but the final result is just so so.