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From what I know, even though the common OS have parts written in other languages, the kernel is entirely written in C.

I want to know if it's feasible to write a Kernel in C++ and if not, what would be the drawbacks.

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A very balanced analysis of possibly using C++ for the Linux kernel can be found here thread.gmane.org/gmane.comp.version-control.git/57643/…. –  Benjamin Bannier Sep 12 '12 at 9:52
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@honk: "From: Linus Torvalds"... yeah, balanced... –  avakar Sep 12 '12 at 9:53
    
@honk Ok.That's Linus opinion, but I mean if now someone would start to develop a kernel, would C++ would be such a bad choice? and regarding to some issues that Linus pointed out, you could just ignore the STL and Boost and just develop your own classes. –  coredump Sep 12 '12 at 9:58
    
The LKML FAQ item #15.3 is my number one example of badly done propaganda that any high-schooler should be able to see through. Circular reasoning, straw-man arguments and very nice "find / wc" logic to prove the "nightmare" that it would be to write a couple of "find / sed"s. They either don't want or don't know C++, and that's fine, but they shouldn't be spewing all that BS about it. –  DevSolar Sep 12 '12 at 10:02
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msdn.microsoft.com/en-us/library/windows/hardware/gg487420.aspx can be read in a general sense to get an understanding of some of the issues. –  ta.speot.is Sep 12 '12 at 10:15

6 Answers 6

up vote 5 down vote accepted

This is covered explicitly in the OSDev Wiki.

Basically, you either have to implement runtime support for certain things (like RTTI, exceptions), or refrain from using them (leaving only a subset of C++ to be used).

Other than that, C++ is the more complex language, so you need to have a bit more competent developers that won't screw it up. Linus Torvalds hating C++ being purely coincidental, of course.

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From what I know, in many projects actually only a subset of C++ is used. I mean, C++ would make a case in the sense that it could be written like in C, but, when needed, you could use some encapsulation, or some other language features that are harder to get in C ( I mean you could get some kind of classes even in C with function pointers ) . –  coredump Sep 12 '12 at 10:04
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@coredump: Usually the reason for using a C++ subset is that many hobbyists setting out to develop a kernel of their own simply don't have the in-depth understanding to make full-fledged C++ runtime support feasible yet. Exception handling, for one, is a pretty involved issue, and took the compiler implementors years to get "right" from an efficiency standpoint. Using existing implementations raises the issue of software licensing. Moreover, the stuff that needs runtime support usually involves runtime costs as well, and you don't really want that if you can do without. –  DevSolar Sep 12 '12 at 10:51
    
@coredump: Oh, and one thing I forgot... things like exception handling aren't implemented tabula rasa, but are dependent on the compiler... and GCC technical docs aren't a bag of laughs, either. ;-) –  DevSolar Sep 12 '12 at 11:35

There are plenty of examples of well-used operating systems (or parts of them) implemented in C++ - IOKit - the device driver subsystem of MacOSX and IOS is implemented in EC++. Then there's the eCOS RTOS - where the kernel is implemented in C++, even making use of templates.

Operating systems are traditionally awash with examples of OO concepts implemented the hard way in C. In the linux device model kobject is effectively the base-class for driver and device objects, complete with DIY v-tables and some funky arrangements implemented in macros for up and down-casting.

The Windows NT kernel has an even more deeply rooted inheritance hierarchy of kernel objects. And for all of the neigh-sayers complaining about the suitability of exception handling in kernel code, exactly such a mechanism is provided.

Traditionally, the arguments against using C++ in kernel code have been:

  • Portability: availability of C++ compilers for all intended target platforms. This is not really an issue any more
  • Cost of C++ language mechanisms such as RTTI and exceptions. Clearly if they were to be used, the standard implementation isn't suitable and a kernel-specific variant needs using. This is generally the driver behind the use of EC++
  • Robustness of C++ APIs, and particularly the Fragile base-class problem

Undoubtedly, the use of exceptions and RAII paradigm would vastly improve kernel code quality - you only have to look at source code for BSD or linux to see the alternative - enormous amounts of error handling code implemented with gotos.

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The feasibility of writing a kernel in C++ can be easily established: it has already been done. EKA2 is the kernel of Symbian OS, which has been written in C++.

However, some restrictions to the usage of certain C++ features apply in the Symbian environment.

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You can write an OS kernel in more or less any language you like.

There are a few reasons to prefer C, however.

  • It is a simple language! There's very little magic. You can reason about the machinecode the compiler will generate from your source code without too much difficulty.
  • It tends to be quite fast.
  • There's not much of a required runtime; there's minimal effort needed to port that to a new system.
  • There are lots of decent compilers available that target many many different CPU and system architectures.

By contrast, C++ is potentially a very complex language which involves an awful lot of magic being done to translate your increasingly high-level OOP code into machine code. It is harder to reason about the generated machine code, and when you need to start debugging your panicky kernel or flaky device driver the complexities of your OOP abstractions will start becoming extremely irritating... especially if you have to do it via user-unfriendly debug ports into the target system.

Incidentally, Linus is not the only OS developer to have strong opinions on systems programming languages; Theo de Raadt of OpenBSD has made a few choice quotes on the matter too.

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C isn't simple. It has a pretty complex and ugly and error-prone declaration grammar (ever misplaced const or volatile when declaring pointers to pointers?). Its type system and promotions are another pain for every novice (and for pros, too, at times). It's got a number of undefined, unspecified and implementation-specific behaviors, yay, more magic (=surprises)! Floating point, albeit not used a lot in the kernels, is another problematic area. Assembly language, in comparison, is much more direct and in a way simpler, less surprising. –  Alexey Frunze Sep 12 '12 at 10:40
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Conversely, in C-based kernels we see DIY implementations of OO concepts - a considerable amount of wheel re-invention that one would get for free from using C++ in the first place. This is a very real code quality issue as it results in far more complexity, particularly in error paths that are unlikely to receive proper testing. –  marko Sep 12 '12 at 10:45
    
@AlexeyFrunze: and yet almost everything else, (with the exception of assembly, granted) is more complex and more magic and hence provides more ways for problems to arise. As a portable assembly language, C is pretty reasonable. There have been numerous attempts to make a "better" systems programming language, but I'm not personally aware of any that have made it out of the academic project stage. –  Rook Sep 12 '12 at 10:51
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@Marko: indeed, it is difficult for many developers to cope without their familiar layers of abstraction, and the resulting hacks are often awful because they are not language developers. Abstraction is valuable in higher level applications, but not when you are coding close to the metal. An undisciplined coder can write rubbish in any language; it is not the fault of the language that it lets them do so. –  Rook Sep 12 '12 at 10:54
    
Don't get me wrong. C is great and I love it for its powers despite all of the shortcomings. Though, one could make a better C by reducing the number of surprises it has. Many are unreasonable by today's "standards" and only exists because of compatibility and historical reasons. –  Alexey Frunze Sep 12 '12 at 10:59

The OOP paradigm favors a memory model which is suboptimal when it comes to execution. With OOP data is laid out to be encapsulated inside the object instances. For optimal performance you need data to be laid out according to procedure sequences. Because of this, leaning on an OOP implementation will result in less efficient code, mostly because of cache pollution, cache misses and more frequent access to main memory which is slow. And low performance is a very bad thing in kernel development. So much about data model.

Another main aspect of OOP is polymorphism, which also carries its performance penalties - virtual method access is not direct but determined during runtime, which is slow on itself, but even more significant is the fact virtual methods cannot be inlined, thus function calls cannot be avoided.

In short, opting for a heavily OOP oriented design, with deep polymorphic hierarchies spells out a loud BAD IDEA when it comes to kernel development or any other performance intensive scenario.

Of course, all this is provided you opt for a heavily OOP oriented design, which is what separates C++ from C.

However, since C++ implements almost all C features as well, there is nothing preventing you from avoiding the flaws of OOP and create a more data-oriented design, which can be implemented in C++.

IMO the statement C++ is bad for kernel development is because for most people C++ almost implies OOP which is bad for performance intensive scenarios, but C++ is NOT Java, it is not strictly enforced OOP, it is a general purpose language. That being said, data orientation is a design matter, it could even be implemented in Java as well, but Java performance is typically lower than C/C++.

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Since we're comparing C++ and Java already, I think it's also worth emphasising that OOP is not the same as "everything is one polymorphic hierarchy". To me, unique_ptr is as much a use of OOP as is, say an abstract factory singleton wrapper bean. Perhaps even more so. –  Kerrek SB Sep 12 '12 at 10:03
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Java was just an example of a language that enforces OOP, no comparison intended at all. And sure, OOP is a big paradigm that can take many forms (pun intended) - I just mentioned what decreases performance and this is unsuitable for use in performance critical scenarios. –  ddriver Sep 12 '12 at 10:14
    
The question is about C++, not OOP. C++ has many features that have little to do with OOP (and I care to disagree with @KerrekSB on this). –  larsmans Sep 12 '12 at 10:36
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OOP isn't the main difference, it is things like templates, stronger type checking, overloaded functions, namespaces, and classes with member functions for better abstractions. Nothing of which affects performance, or suitability for kernel use. –  Bo Persson Sep 12 '12 at 11:41
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The argument here that polymorphism in C++ carries a run-time penalty ignores the fact that kernels implemented in C are absolutely full of DIY vtables and polymorphic function calls. –  marko Sep 12 '12 at 13:01

The main drawback of C++ is having a leader that hates it ;)

http://thread.gmane.org/gmane.comp.version-control.git/57643/focus=57918

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Who is Linus Thorvals leading? Not me, at the very least. –  DevSolar Sep 12 '12 at 9:58

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