48 struct snd_card *snd_cards[SNDRV_CARDS]; 49 EXPORT_SYMBOL(snd_cards);
i am not getting whats the meaning of it and why that is used. I tried to search about it but not understanding the meaning of that.
It makes a symbol accessible to dynamically loaded modules (provided that said modules add an
Not long ago, someone asked how to use it.
When modules are loaded, they are dynamically linked into the kernel.As with user-space, dynamically linked binaries can call only into external functions explicitly exported for use. In the kernel, this is handled via special directives called EXPORT_SYMBOL() and EXPORT_SYMBOL_GPL() .
Exported functions are available for use by modules. Functions not exported cannot be invoked from modules.The linking and invoking rules are much more stringent for modules than code in the core kernel image. Core code can call any nonstatic interface in the kernel because all core source files are linked into a single base image. Exported symbols, of course, must be nonstatic, too.The set of exported kernel symbols are known as the exported kernel interfaces.
Exporting a symbol is easy.After the function is declared, it is usually followed by an EXPORT_SYMBOL() . For example
Presuming that get_pirate_beard_color() is also declared in an accessible header file, any module can now access it. Some developers want their interfaces accessible to only GPL-compliant modules.The kernel linker enforces this restriction through use of the MODULE_LICENSE() directive. If you want the previous function accessible to only modules that labeled themselves as GPL-licensed, use instead EXPORT_SYMBOL_GPL(get_pirate_beard_color);
If your code is configurable as a module, you must ensure that when compiled as a module all interfaces that it uses are exported. Otherwise linking errors (and a broken module) result.
Linux Kernel Development by Robert Love (Chapter 17)
Not an answer per se but a demonstration, as promised from my comment, that exported symbols are not required to be non-static. The below 2 modules demonstrate this:
And the second module
These were tested on CentOS 6 & CentOS 7: kernels 2.6.32 and 3.10 (respectively). Loading mod1.ko and then mod2.ko will result in the value passed to mod1_exp_func() being printed to the kernel log buffers.