Free for All by Peter Wayner (good books to read for young adults .TXT) π
Linux users also bragged about the quality of their desktop interface. Most of the uninitiated thought of Linux as a hacker's system built for nerds. Yet recently two very good operating shells called GNOME and KDE had taken hold. Both offered the user an environment that looked just like Windows but was better. Linux hackers started bragging that they were able to equip their girlfriends, mothers, and friends with Linux boxes without grief. Some people with little computer experience were adopting Linux with little trouble.
Building websites and supercomputers is not an easy task, and it is often done in back rooms out of the sight of most people. When people began realizing that the free software hippies had slowly managed to take over a large chunk of the web server and supercomputing world, they realized that perhaps Microsoft's claim was viable. Web servers and su
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Now, after investigating the free software world, I am convinced that my project was a small success. Penney's contribution was not just a strange aberration but a relatively common event on the Internet. People are quite willing to take a piece of software that interests them, modify it to suit their needs, and then contribute it back to the world. Sure, most people only have a few hours a week to work on such projects, but they add up. Penney's work made my software easier to use for many C programmers, thus spreading it further.
In fact, I may have been subconsciously belittling the project. It took only three or four days of my time and a bit more of Penney's, but it was a complete version of a powerful encryption system that worked well. Yes, there was no money flowing, but that may have made it more of a success. Penney probably wouldn't have given me his C version if he knew I was going to sell it. He probably would have demanded a share. Lawyers would have gotten involved. The whole project would have been gummed up with contracts, release dates, distribution licenses, and other hassles that just weren't worth it for a neat way to hide messages. Sure, money is good, but money also brings hassles.
6.2 CASH VERSUS SHARING
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In the 1980s and 1990s, programmers in universities still shared heavily with the world. The notion of sharing source code with the world owes a great deal to the academic tradition of publishing results so others can read them, think about them, critique them, and ultimately extend them. Many of the government granting agencies like the National Science Foundation and the Defense Advanced Research Projects Agency fostered this sharing by explicitly requiring that people with grants release the source code to the world with no restrictions. Much of the Internet was created by people who gave out these kinds of contracts and insisted upon shared standards that weren't proprietary. This tradition has fallen on harder times as universities became more obsessed with the profits associated with patents and contract research, but the idea is so powerful that it's hard to displace.
The free software movement in particular owes a great deal to the Massachusetts Institute of Technology. Richard Stallman, the man who is credited with starting the movement, began working in MIT's computer labs in the 1970s. He gets credit for sparking the revolution because he wrote the GNU Manifesto in 1984. The document spelled out why it's essential to share the source code to a program with others. Stallman took the matter to heart because he also practiced what he wrote about and contributed several great programs, including a text editor with thousands of features.
Of course, Stallman doesn't take credit for coming up with the idea of sharing source code. He remembers his early years at MIT quite fondly and speaks of how people would share their source code and software without restrictions. The computers were new, complicated, and temperamental. Cooperation was the only way that anyone could accomplish anything. That's why IBM shared the source code to the operating systems on their mainframes though the early part of the 1960s.
This tradition started to fade by the early 1980s as the microcomputer revolution began. Companies realized that most people just wanted software that worked. They didn't need the source code and all the instructions that only programmers could read. So companies quickly learned that they could keep the source code to themselves and keep their customers relatively happy while locking out competitors. They were kings who built a wall to keep out the intruders.
The GNU Manifesto emerged as the most radical reaction to the trend toward locking up the source code. While many people looked at the GNU Manifesto with confusion, others became partial converts. They began donating code that they had written. Some tossed random utility programs into the soup, some offered games, and some sent in sophisticated packages that ran printers, networks, or even networks of printers. A few even became complete disciples and started writing code full-time for the GNU project. This growth was largely ignored by the world, which became entranced with the growth of Microsoft. More and more programmers, however, were spending more time mingling with the GNU project, and it was taking hold.
In the early 1980s, an operating system known as UNIX had grown to be very popular in universities and laboratories. AT&T designed and built it at Bell Labs throughout the 1970s. In the beginning, the company shared the source code with researchers and computer scientists in universities, in part because the company was a monopoly that was only allowed to sell telephone service. UNIX was just an experiment that the company started to help run the next generation of telephone switches, which were already turning into specialized computers.
In the beginning, the project was just an academic exercise, but all of the research and sharing helped create a nice operating system with a wide audience. UNIX turned out to be pretty good. When the phone company started splitting up in 1984, the folks at AT&T wondered how they could turn a profit from what was a substantial investment in time and money. They started by asking people who used UNIX at the universities to sign non-disclosure agreements.
Stallman looked at this as mind control and the death of a great tradition. Many others at the universities were more pragmatic. AT&T had given plenty of money and resources to the university. Wasn't it fair for the university to give something back?
Stallman looked at this a bit differently. Yes, AT&T was being nice when they gave grants to the university, but weren't masters always kind when they gave bowls of gruel to their slaves? The binary version AT&T started distributing to the world was just gruel for Stallman. The high priests and lucky few got to read the source code. They got to eat the steak and lobster spread. Stallman saw this central, controlling, corporate force as the enemy, and he began naming his work GNU, which was a recursive acronym that stood for "GNU's Not UNIX." The GNU project aimed to produce a complete working operating system that was going to do everything that UNIX did for none of the moral, emotional, or ethical cost. Users would be able to read the source code to Stallman's OS and modify it without signing a tough non-disclosure agreement drafted by teams of lawyers. They would be able to play with their software in complete freedom. Stallman notes that he never aimed to produce an operating system that didn't cost anything. The world may be entranced with the notion of a price tag of zero, but for Stallman, that was just a side effect of the unrestricted sharing.
Creating a stand-alone system that would do everything with free software was his dream, but it was a long way from fruition, and Stallman was smart enough to start off with a manageable project. He began by producing a text editor known as GNU Emacs. The program was a big hit because it was highly customizable. Some people just used the program to edit papers, but others programmed it to accomplish fancier tasks such as reading their e-mail and generating automatic responses. One programmer was told by management that he had to include plenty of comments in his source code, so he programmed GNU Emacs to insert them automatically. One professor created a version of GNU Emacs that would automatically insert random praise into requests to his secretary.[^2] Practically everything in Emacs could be changed or customized. If you didn't like hitting the delete key to fix a mistyped character, then you could arrange for the 6 key to do the same thing. This might make it hard to type numbers, but the user was free to mess up his life as much as he wanted.
[2]: "Where are those reports I asked you to copy? You're doing a great job. Thanks for all the help," on one day. "Are you ever going to copy those reports? You're doing a great job. Thanks for all the help," on the next.
It took Microsoft years to catch up with Stallman's solution, and even then they implemented it in a dangerous way. They let people create little custom programs for modifying documents, but they forgot to prevent malicious code from crying havoc. Today, Microsoft Word allows little programs named macro viruses to roam around the planet. Open up a Word document, and a virus might be lurking.
In the 1980s, the free software world devoted itself to projects like this. GNU Emacs became a big hit in the academic world where system administrators could install it for free and not worry about counting students or negotiating licenses. Also, smart minds were better able to appreciate the cool flexibility Stallman had engineered into the system. Clever folks wasted time by adding filters to the text editor that would scan their text and translate it into, like, Valley Girl talk or more urban jive.
The GNU project grew by accepting contributions from many folks across the country. Some were fairly sophisticated, eye-catching programs like GNU Chess, a program that was quite competitive and as good as all but the best packages. Most were simple tools for handling many of the day-to-day chores for running a computer system. System administrators, students, and programmers from around the country would often take on small jobs because they felt compelled to fix something. When they were done, a few would kick the source code over to the GNU project.
Stallman's biggest programming project for GNU during the 1980s was writing the GNU C compiler (GCC). This program was an important tool that converted the C source code written by humans into the machine code understood by computers. The GCC package was an important cornerstone for the GNU project in several ways. First, it was one of the best compilers around. Second, it could easily move from machine to machine. Stallman personally ported it to several different big platforms like Intel's x86 line of processors. Third, the package was free, which in the case of GNU software meant that anyone was free to use and modify the software.
The GCC provided an important harmonizing effect to the GNU project. Someone could write his program on a machine built by Digital, compile it with GCC, and be fairly certain that it would run on all other machines with GCC. That allowed the GNU software to migrate freely throughout the world, from machine to machine, from Sun to Apollo to DEC to Intel.
The GCC's license also attracted many developers and curious engineers. Anyone could use the source code for their projects, and many did. Over time, the compiler moved from machine to machine as users converted it. Sometimes a chip company engineer would rework the compiler to make it work on a new chip. Sometimes a user would do it for a project. Sometimes a student would do it when insomnia struck. Somehow, it moved from machine to machine, and it carried all of the other GNU software with it.
The next great leap forward came in the early 1990s as people began to realize that a completely free operating system was a serious possibility. Stallman had always dreamed of replacing UNIX with something that was just as good and accompanied by the source code, but it was a large task. It was the reason he started the GNU project. Slowly but surely, the GNU project was assembling the parts to make
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