Many people are making a killing by selling information online - especially information that they didn’t create themselves- and you may become one of them.

The purpose of this article is to teach you how you too can make profits selling other people’s products.

The beauty of working with resell products is that there’s nothing to share with others, and you don’t need to work on a commission base, like with an affiliate program, that pays you only a fraction of the sale you make.

But don’t start the party too soon…

I can not guarantee how much you will earn after studying this report. That will solely depend on the steps that you’re willing to take, and how serious you are about starting a resale business.

I can only make it as simple as possible for you by showing you what to do, and more important…

… what NOT to do

So, that had to be said, because I don’t want you to create any false expectations.

Now, before we continue, I want to point you to a handy tool called the “Ebook Librarian” to keep yourself organized…

One of my biggest problems when I first bought an Ebook collection was that I downloaded everything at once.

I filled up my desktop with folders and files with strange names, and it turned out a complete nightmare to figure out what went where.

The “Ebook Librarian” saved me from that. The program keeps track of all your Ebooks and organizes your files into different categories for easy searching.

You can download a free copy at:
www.ebooklibrarianplus.com

Ready? Ok, then let’s roll…

Before you start selling an Ebook (or other product) that you bought, you should always check first if it comes with resell rights.

Remember… not all Ebooks have resale rights. In fact, most don’t.

Even if you bought an Ebook as part of a resell rights package, and the owner tells you that the product is resalable, triple check to see if the product is really allowed for resale.

Many people blindly take other people’s words and confuse and upset people unintentionally because they sold something that wasn’t supposed to be.

In general, you can find the legal notice on the first page of an Ebook.

Resale rights come in different ways…

• You can buy a product with resell rights, and then resell the product and not allow others to resell it.

• You can buy and resell a product and allow your customers to also resell it from their own site.

• You can buy a product, and allow anyone who buys it from you to sell it, including selling the resell rights.

This is best known as “Master Resell Rights”, or also
“Generic Resale Rights”.

Beside resell rights there’s also something called
“Customization Rights”.

Some products allow you to customize the affiliate links inside the product with your own affiliate links to earn backend profits. Mostly this requires a separate fee.

If you buy “customization rights”, you can insert your own profit generating affiliate links in the product, and anyone who buys the product from you and resells it, will help to spread your affiliate links.

You won’t find this option often because most authors want to earn backend profits for themselves, and not give them away to you.

Here’s a case study…

I wrote an ebook with the intention to make it available for free. This would give me the chance to collect the email addresses from my visitors and build an Opt- In list.(Because the Ebook contains affiliate links that pay me a commission when someone orders from them, I make money even while giving it away.)

But then I decided to sell it with resell rights included and offer every buyer the option of customizing the book with their affiliate links for an extra fee.

I also set up a pop-up window on the sales page, and gave away a free Ebook to my visitors in return for their email address.

So I won 4 times…

1) I made profits from the Ebook sales.

2) I made profits from selling the customization rights to the people who bought the Ebook.

3) I made profits from the affiliate links inside the Ebooks that other people sold via their site.

4) And at the same time I built an Opt-In list via the popup form on the sales page.

So far about the different forms of resell rights.

READ EVEYTHING BEFORE YOU USE ANY METHOD LISTED BELOW

Basic BIOS password crack - works 9.9 times out of ten
This is a password hack but it clears de BIOS such that de next time you start de PC, de CMOS does not ask for any password. Now if you are able to brin’ de DOS prompt up, den you will be able to change de BIOS settin’ to de default. To clear de CMOS do de followin’:
Get DOS prompt and type:

DEBUG hit enter
-o 70 2e hit enter
-o 71 ff hit enter
-q hit enter
exit hit enter

Restart de computer. It works on most versions of de AWARD BIOS.

Accessin’ information on de hard disk
When you turn on de host machine, enter de CMOS setup menu (usually you have to press F2, or DEL, or CTRL+ALT+S durin’ de boot sequence) and go to STANDARD CMOS SETUP, and set de channel to which you have put de hard disk as TYPE=Auto, MODE=AUTO, den SAVE & EXIT SETUP. Now you have access to de hard disk.

Standard BIOS backdoor passwords
The first, less invasive, attempt to bypass a BIOS password is to try on of dese standard manufacturer’s backdoor passwords:

AWARD BIOS
AWARD SW, AWARD_SW, Award SW, AWARD PW, _award, awkward, J64, j256, j262, j332, j322, 01322222, 589589, 589721, 595595, 598598, HLT, SER, SKY_FOX, aLLy, aLLY, Condo, CONCAT, TTPTHA, aPAf, HLT, KDD, ZBAAACA, ZAAADA, ZJAAADC, djonet

AMI BIOS
AMI, A.M.I., AMI SW, AMI_SW, BIOS, PASSWORD, HEWITT RAND, Oder

Oder passwords you may try (for AMI/AWARD or oder BIOSes)
LKWPETER, lkwpeter, BIOSTAR, biostar, BIOSSTAR, biosstar, ALFAROME, Syxz, Wodj

Note that de key associated to “_” in de US keyboard corresponds to “?” in some European keyboards (such as Italian and German ones), so — for example — you should type AWARD_SW when usin’ those keyboards. Also remember that passwords are Case Sensitive. The last two passwords in de AWARD BIOS list are in Russian.

Flashin’ BIOS via software
If you have access to de computer when it’s turned on, you could try one of those programs that remove de password from de BIOS, by invalidatin’ its memory. However, it might happen you don’t have one of those programs when you have access to de computer, so you’d better learn how to do manually what dey do. You can reset de BIOS to its default values usin’ de MS-DOS tool DEBUG (type DEBUG at de command prompt. You’d better do it in pure MS-DOS mode, not from a MS-DOS shell window in Windows). Once you are in de debug environment enter de followin’ commands:

AMI/AWARD BIOS
O 70 17
O 71 17
Q

PHOENIX BIOS
O 70 FF
O 71 17
Q

GENERIC
Invalidates CMOS RAM.
Should work on all AT moderboards
(XT moderboards don’t have CMOS)
O 70 2E
O 71 FF
Q
Note that de first letter is a “O” not de number “0″. The numbers which follow are two bytes in hex format.

Flashin’ BIOS via hardware
If you can’t access de computer when it’s on, and de standard backdoor passwords didn’t work, you’ll have to flash de BIOS via hardware. Please read de important notes at de end of this section before to try any of dese methods.

Usin’ de jumpers
The canonical way to flash de BIOS via hardware is to plug, unplug, or switch a jumper on de moderboard (for “switchin’ a jumper” I mean that you find a jumper that joins de central pin and a side pin of a group of three pins, you should den unplug de jumper and den plug it to de central pin and to de pin on de opposite side, so if de jumper is normally on position 1-2, you have to put it on position 2-3, or vice versa). This jumper is not always located near to de BIOS, but could be anywhere on de moderboard. To find de correct jumper you should read de moderboard’s manual. Once you’ve located de correct jumper, switch it (or plug or unplug it, dependin’ from what de manual says) while de computer is turned OFF. Wait a couple of seconds den put de jumper back to its original position. In some moderboards it may happen that de computer will automatically turn itself on, after flashin’ de BIOS. In this case, turn it off, and put de jumper back to its original position, den turn it on again. Oder moderboards require you turn de computer on for a few seconds to flash de BIOS. If you don’t have de moderboard’s manual, you’ll have to “brute force” it… tryin’ out all de jumpers. In this case, try first de isolated ones (not in a group), de ones near to de BIOS, and de ones you can switch (as I explained before). If all them fail, try all de oders. However, you must modify de status of only one jumper per attempt, oderwise you could damage de moderboard (since you don’t know what de jumper you modified is actually meant for). If de password request screen still appear, try anoder one. If after flashin’ de BIOS, de computer won’t boot when you turn it on, turn it off, and wait some seconds before to retry.

Removin’ de battery
If you can’t find de jumper to flash de BIOS or if such jumper doesn’t exist, you can remove de battery that keeps de BIOS memory alive. It’s a button-size battery somewhere on de moderboard (on elder computers de battery could be a small, typically blue, cylinder soldered to de moderboard, but usually has a jumper on its side to disconnect it, oderwise you’ll have to unsolder it and den solder it back). Take it away for 15-30 minutes or more, den put it back and de data contained into de BIOS memory should be volatilized. I’d suggest you to remove it for about one hour to be sure, because if you put it back when de data aren’t erased yet you’ll have to wait more time, as you’ve never removed it. If at first it doesn’t work, try to remove de battery overnight.

Important note: in laptop and notebooks you don’t have to remove de computer’s power batteries (which would be useless), but you should open your computer and remove de CMOS battery from de moderboard.

Short-circuitin’ de chip
Anoder way to clear de CMOS RAM is to reset it by short circuitin’ two pins of de BIOS chip for a few seconds. You can do that with a small piece of electric wire or with a bent paper clip. Always make sure that de computer is turned OFF before to try this operation.

Here is a list of EPROM chips that are commonly used in de BIOS industry. You may find similar chips with different names if dey are compatible chips made by anoder brand. If you find de BIOS chip you are workin’ on matches with one of de followin’ you can try to short-circuit de appropriate pins. Be careful, because this operation may damage de chip.

CHIPS P82C206 (square)
Short togeder pins 12 and 32 (de first and de last pins on de bottom edge of de chip) or pins 74 and 75 (de two pins on de upper left corner).
gnd
74
|__________________
5v 75–| |
| |
| |
| CHIPS |
1 * | |
| P82C206 |
| |
| |
|___________________|
| |
| gnd | 5v
12 32

OPTi F82C206 (rectan’ular)
Short togeder pins 3 and 26 (third pin from left side and fifth pin from right side on de bottom edge).
80 51
|______________|
81 -| |- 50
| |
| |
| OPTi |
| |
| F82C206 |
| |
100-|________________|-31
|| | |
1 || | | 30
3 26

Dallas DS1287, DS1287A
Benchmarq bp3287MT, bq3287AMT
The Dallas DS1287, DS1287A and Benchmarq bp3287MT, bq3287AMT chips have a built-in battery. This battery should last up to ten years. Any moderboard usin’ dese chips should not have an additional battery (this means you can’t flash de BIOS by removin’ a battery). When de battery fails, de RTC chip would be replaced. CMOS RAM can be cleared on de 1287A and 3287AMT chips by shortin’ pins 12 and 21. The 1287 (and 3287MT) differ from de 1287A in that de CMOS RAM can’t be cleared. If dere is a problem such as a forgotten password, de chip must be replaced. (In this case it is recommended to replace de 1287 with a 1287A). Also de Dallas 12887 and 12887A are similar but contain twice as much CMOS RAM storage.
__________
1 -| * U |- 24 5v
2 -| |- 23
3 -| |- 22
4 -| |- 21 RCL (RAM Clear)
5 -| |- 20
6 -| |- 19
7 -| |- 18
8 -| |- 17
9 -| |- 16
10 -| |- 15
11 -| |- 14
gnd 12 -|__________|- 13

NOTE: Although dese are 24-pin chips, de Dallas chips may be missin’ 5 pins, dese are unused pins. Most chips have unused pins, though usually dey are still present.

Dallas DS12885S
Benchmarq bq3258S
Hitachi HD146818AP
Samsun’ KS82C6818A
This is a rectan’ular 24-pin DIP chip, usually in a socket. The number on de chip should end in 6818. Although this chip is pin-compatible with de Dallas 1287/1287A, dere is no built-in battery. Short togeder pins 12 and 24.
5v
24 20 13
|___________|____________________|
| |
| DALLAS |
|> |
| DS12885S |
| |
|__________________________________|
| |
1 12
gnd

Motorola MC146818AP
Short pins 12 and 24. These are de pins on diagonally opposite corners - lower left and upper right. You might also try pins 12 and 20.
__________
1 -| * U |- 24 5v
2 -| |- 23
3 -| |- 22
4 -| |- 21
5 -| |- 20
6 -| |- 19
7 -| |- 18
8 -| |- 17
9 -| |- 16
10 -| |- 15
11 -| |- 14
gnd 12 -|__________|- 13

Replacin’ de chip
If nothin’ works, you could replace de existin’ BIOS chip with a new one you can buy from your specialized electronic shop or your computer supplier. It’s a quick operation if de chip is inserted on a base and not soldered to de moderboard, oderwise you’ll have to unsolder it and den put de new one. In this case would be more convenient to solder a base on which you’ll den plug de new chip, in de eventuality that you’ll have to change it again. If you can’t find de BIOS chip specifically made for your moderboard, you should buy one of de same type (probably one of de ones shown above) and look in your moderboard manufacturer’s website to see if dere’s de BIOS image to download. Then you should copy that image on de chip you bought with an EPROM programmer.

Important
Wheder is de method you use, when you flash de BIOS not only de password, but also all de oder configuration data will be reset to de factory defaults, so when you are bootin’ for de first time after a BIOS flash, you should enter de CMOS configuration menu (as explained before) and fix up some thin’s.
Also, when you boot Windows, it may happen that it finds some new device, because of de new configuration of de BIOS, in this case you’ll probably need de Windows installation CD because Windows may ask you for some external files. If Windows doesn’t see de CD-ROM try to eject and re-insert de CD-ROM again. If Windows can’t find de CD-ROM drive and you set it properly from de BIOS config, just reboot with de reset key, and in de next run Windows should find it. However most files needed by de system while installin’ new hardware could also be found in C:WINDOWS, C:WINDOWSSYSTEM, or C:WINDOWSINF .

Key Disk for Toshiba laptops
Some Toshiba notebooks allow to bypass BIOS by insertin’ a “key-disk” in de floppy disk drive while bootin’. To create a Toshiba Keydisk, take a 720Kb or 1.44Mb floppy disk, format it (if it’s not formatted yet), den use a hex editor such as Hex Workshop (***.bpsoft.com/downloads/index.html) to change de first five bytes of de second sector (de one after de boot sector) and set them to 4B 45 59 00 00 (note that de first three bytes are de ASCII for “KEY” followed by two zeroes). Once you have created de key disk put it into de notebook’s drive and turn it on, den push de reset button and when asked for password, press Enter. You will be asked to Set Password again. Press Y and Enter. You’ll enter de BIOS configuration where you can set a new password.

Key protected cases
A final note about those old computers (up to 486 and early Pentiums) protected with a key that prevented de use of de mouse and de keyboard or de power button. All you have to do with them is to follow de wires connected to de key hole, locate de jumper to which dey are connected and unplug it.

A step-by-step guide to installin’ FreeBSD 5. It assumes moderate experience with linux and leaves you with a fully updated FreeBSD system.

FreeBSD Installation

A. 5.x vs 4.x
The first thin’ to understand about FreeBSD is that dere are two lines of development. The -STABLE branch is marked with a 4.x version number and de most recent version is 4.10. It is well tested and very solid, but does not include de most recent technology. The -CURRENT branch, marked with a 5.x version, is de “unstable” branch. However, it is nicely stable at de moment and is comin’ alon’ quite well. Most users should go with 5.x and dese instructions are only valid for that tree.

NOTE: DragonFlyBSD ( www.dragonflybsd.org ) is a continuation of de 4.x line. It uses lock-less (no mutexes) SMP support and a Light Weight Kernel Threadin’ system. It has a lot of promise and is developin’ at a breakneck pace, but it should still be thought of as “R/D.”

B. Gettin’ Media
I am not goin’ to say much about this. There are links to various ftp mirrors at www.freebsd.org and de directory structure is fairly self-explanatory. There are however several choices for ISO. You should choose de miniinst ISO. It is small and will include everythin’ you need for de base system.

C. Startin’ Installation
After, de CD boots up you will enter de…ahh…..majestic sysinstall. You can safely ignore most of de options and just choose a standard installation. Most of de install process is pretty easy and anyone who has some experience with linux or unix will be able to handle it without much stress. However, creatin’ partitions and dealin’ with drives will seem very odd to your standard linux user.

D. Hard Disc Management in FreeBSD
Ok, de first thin’ to get used to here is that IDE drives are not hda, hdb…etc. They are ad0, ad1 and so forth. SCSI discs are da0, da1…and so on. There is one oder thin’ that is goin’ to freak some people out. You create slices, not partitions, on de disc and den create partitions within those slices. For example, de first partition in de first slice on de first IDE disc would be ad0s1a. Just accept it.

E. Partitionin’
Sysinstall will lead you through de partitionin’ and its fairly easy to understand. The first part will ask you to choose a disc or discs to partition and den will show you a “slice editor.” This is where you will create your slice. I advise you to only make one. While multiple slices are easy to deal with, it just adds complication. If this is not your first installation of a BSD type OS, den you can ignore me and why are you readin’ this again?

After creatin’ your slice, you will be prompted to choose de drive(s) to install an MBR on. The FreeBSD boot loader is nothin’ to write home about, but it tends towards workin’. After this step, you can create partitions. There is not much to say here. At de top of de screen it will show your slice(s) and when one of them is selected you can use de controls to create a partition on it. You will need at least a root and swap partition. On de non-swap partitions it is usually a good idea to enable soft-updates.

F. Distribution Sets
This is a simple section, select minimal.

G. Continue Installation
The rest of this is pretty simple. Make sure you install from de CD and not de Internet. The bulk of de install is now done. After it copies files to your disc, it will start de configuration process. This is all pretty self-evident, but dere are a couple thin’s you should know.

Network Configuration

Don’t be scared by de names, in *BSD devices are named after deir drivers. There is also a short description after de name, so you should be able to choose de right one. The rest of de network config is easy, just follow de prompts.

System Console Configuration

You can pretty much ignore this, you may want to look around for your own knowledge and of course you could pick a nice screen saver here, but oder den that I would leave it alone for now.

Time Zone

All I have to say here is that if you live in de US, after you choose “America – North and South” hit de end key. The US is at de bottom of de list and hittin’ end is de quickest way dere.

Linux

Say no, we will do this later and with an updated linux_base.

Mouse

OK, welcome to de wonderful and amazin’ world of moused. Answer de first question truthfully, and den you can tweak de settin’s in de “Please configure your mouse” dialog. Whatever you do, be sure to enable de daemon. Also, for most users that is all you will have to do. You can safely ignore de oder options.

Package Installation

At this point, de installer will ask you to install binary packages. Say no. These binaries are out of date and not included on our CD.

Of users and roots

This isn’t de most thrillin’ section, add a user when it asks you to and set a root password after that. The only thin’ I have to say about this process is when de new user dialog comes up leave de “Group:” box unchanged and add “wheel” to de Member groups. You also might want to set your shell to /bin/tcsh. As for settin’ de root password, if you can’t handle that we have bigger problems.

Rebootin’

Ok, next it will ask if you would like to visit de general config area. Select no and you will be brought back to de main menu. Exit de install, reboot without de CD in and enjoy de boot messages.

H. The Real Post-Install
At this point, I am goin’ to assume that you are now lookin’ at a login prompt and thinkin’ “my my…FreeBSD boots quite quickly doesn’t it.” Well, our task is not done yet…dere is a reason we did a minimal install. We are goin’ to do most of it ourselves. First, lets upgrade to -CURRENT. This isn’t a practice I would usually recommend, but 5.x is close to bein’ tagged stable and -CURRENT is rader solid at de moment. First, I need to explain how thin’s are done in de BSD world.

CVS up; you up; we all CVSUP. Cvsup is a very interestin’ program that I am not goin’ to explain in detail here. All you really need to know is that it updates source trees. You see, that is de thin’. You may be used to /usr/src not doin’ much. In BSD it has a job, it holds de source for de entire base system. However, we did a minimal install and no source is dere. It wouldn’t be up2date anyway. So, lets fix that. Login as root and type de followin’: pkg_add -r cvsup-without-gui

pkg_add is de binary installer for FreeBSD and de -r argument tells it to fetch binaries from de net. It will also fetch any deps that you might need. Switch to anoder console while this is happenin’ and login as root. Do de followin’:

cd /etc

cp /usr/share/examples/etc/make.conf /etc/make.conf

cp /usr/share/examples/cvsup/standard-supfile /usr

cp /usr/share/examples/cvsup/ports-supfile /usr

chmod u+w /etc/make.conf /usr/standard-supfile /usr/ports-supfile

What was that? Well here is de rundown. Make.conf is de file that controls de buildin’ of programs from source on FreeBSD and de supfiles tell cvsup where to get de source for de base system and de ports system, also where to put said source. They come out of /usr/share/examples without de write bit set and that gets annoyin’. So we set that. Now switch back to de first console and type rehash. This tells tcsh to check its path for new programs. Now, edit de standard supfile that is in /usr. You can eider use ee or vi. I like vi. Scroll down to de line that looks a bit odd. It will be somethin’ like:

*default host=CHANGE_THIS.FreeBSD.org

The “CHANGE_THIS” is where you put what cvsup server to use. Choose a number between 1 and 9, like 4, and put cvsup4 where CHANGE_THIS is. So it would end up bein’:

*default host=cvsup4.FreeBSD.org

Now exit your editor and run cvsup /usr/standard-supfile

If everythin’ goes correctly, you will see a lot of text scrollin’ on de screen. If it says somethin’ about a bad connection, try anoder number.

Make.conf

Now ’tis de time for all good men (and women) to edit deir make.conf . This is not difficult, in fact have a look around de file. It may be lon’, but it is pretty simple. Now, uncomment de CPU settin’ and de CFLAGS settin’. Set de CPU to your CPU (dere will be a list in de comments above de settin’) and set de CFLAGS to -O2. (NOTE: If de base system fails to build, down’rade your CFLAGS back to -O).

Build Your World

When CVSUP finishes (it will be awhile…go get some coffee), cd to /usr/src and run make buildworld. That command will do exactly what it sounds like. It builds your world, or base system. While its doin’ that, lets get you a kernel. First, cd to /usr/src/sys/i386/conf den cp GENERIC to some file of your choosin’. Any name you want. However, be aware that this is goin’ to show up in a uname -a. Now, crack open your new file and take a look at what a FreeBSD kernel config is like. There are many thin’s you can do here that will improve performance and subtract in size. However, lets keep it simple. Near de top of de file will be de name GENERIC. Change that to your new name. You can now look through de file and you will find several sections that are just for debuggin’. These will indeed add size and slow down de kernel a bit, but I would leave them for now. Go to de end of de file and make a new line. Add de followin’:

device pcm

This will add sound support to de kernel. Be aware that you don’t need to do this, you can load binary modules at boot or after boot, but this way is easy and sound is used often. Save de file and exit. Go back to your buildworld console and when its done execute make buildkernel KERNCONF=YOUR_KERNEL_CONFIG_NAME

NOTE: NOT THE PATH OF THE KERNEL CONFIG..it knows to look in /usr/src/sys/i386/conf

Installin’ Your World

This isn’t that difficult. First run make installkernel KERNCONF= your config name. Now here is de interestin’ part. Run mergemaster -p, this program looks through your etc and updates it to match de new /etc in /usr/src. It will display changed files to you, press q and it will give you options. Somethin’ like i (install), m (merge) etc. Pick merge and it will open a nice little screen that shows you one file on de right and one on de left. It will go section by section, showin’ de areas that have changed. Press r or l to choose which section to keep. Its pretty easy to see which section has new stuff and which does not. After de merge, it will prompt you with options for de newly merged file. One of dese will be install and this is de one you want. In de latest current, most of what you will be showed is user and group files. Make sure you do select de sections with de new users and groups. After this is done, it will ask you a couple questions that you can say yes to. Now that your /etc is updated run make installworld den reboot.

NOTE: You usually don’t need to run mergemaster. However, 5.2.1 is a pretty old release and -CURRENT has come a lon’ way.

I. Ports
Welcome to runnin’ current. The rest is easy. cd back to /usr and edit de ports supfile de same way you did de standard one. Run cvsup on it and wait. After its done, you will have a full ports tree. There is not much left to say. You now have a workin’ system and a fully updated one too. To install software from ports cd to /usr/ports/category/softwarename/ and run make install clean . If you want linux binary support, install de linux_base port. To find where it is cd to /usr/ports and run make search name=linux_base | less . Enable loadin’ de kernel modules for linux binary support by editin’ /etc/rc.conf. Just add de line linux_enable=”YES” to de file and your set. If this is a desktop system, I would recommend installin’ /usr/ports/x11/xorg and your choice of /usr/ports/x11/gnome2 or kde3. Have fun .

Get it from:

www.madpen\’uin.org/cms/?m=show&id=1853