I believe there are two main parts in your problem:
For the first issue, I would suggest using a Netlink socket, rather than the more traditional system call (read/write/ioctl) interface. Netlink sockets allow configuration data to be passed to the kernel using a socket-like interface, which is significantly simpler and safer to use.
Your program should perform all the input parsing and validation and then pass the data to the kernel, preferably in a more structured form (e.g. entry-by-entry) than a massive data blob.
Unless you are interested in high throughput (megabytes of data per second), the netlink interface is fine. The following links provide an explanation, as well as an example:
As far as the array storage goes, if you plan on storing more than 128KB of data you will have to use vmalloc() to allocate the space, otherwise kmalloc() is preferred. You should read the related chapter of the Linux Device Drivers book:
Please note that buffers allocated with vmalloc() are not suitable for DMA to/from devices, since the memory pages are not contiguous. You might also want to consider a more complex data structure like a list if you do not know how many entries you will have beforehand.
As for accessing the storage globally, you can do it as with any C program:
In a header file included by all .c files that you need to access the data put something like:
extern struct my_struct *unique_name_that_will_not_conflict_with_other_symbols;
extern keyword indicates that this declares a variable that is implemented at another source file. This will make this pointer accesible to all C files that include this header.
Then in a C file, preferrably the one with the rest of your code - if one exists:
struct my_struct *unique_name_that_will_not_conflict_with_other_symbols = NULL;
Which is the actual implementation of the variable declared in the header file.
PS: If you are going to work with the Linux kernel, you really need to brush up on your C. Otherwise you will be in for some very frustrating moments and you WILL end up sorry and sore.
PS2: You will also save a lot of time if you at least skim through the whole Linux Device Drivers book. Despite its name and its relative age, it has a lot of information that is both current and important when writing any code for the Linux Kernel.