I'm reading source code of the linux tool badblocks. They use the
read() function there. Is there a difference to the standard C
fread() function? (I'm not counting the arguments as a difference.)
read() is a low level, unbuffered read. It makes a direct system call on UNIX.
fread() is part of the C library, and provides buffered reads. It is usually implemented by calling
read() in order to fill its buffer.
- are system calls
- are not formatted IO: we have a non formatted byte stream
- are functions of the standard C library (libc)
- use an internal buffer
- are formatted IO (with the "%.." parameter) for some of them
- use always the Linux buffer cache
More details here, although note that this post contains some incorrect information.
read is a syscall, whereas
fread is a function in the C standard library.
As I remember it the
read() level APIs do not do buffering - so if you
read() 1 byte at a time you will have a huge perf penalty compared to doing the same thing with
fread() will pull a block and dole it out as you ask for it.
read() will drop to the kernel for each call.
One difference you should be aware of if you are converting code that uses one to using the other:
freadblocks until the number of bytes you asked for has been read, or the file ends, or an error occurs.
readalso blocks, but if you ask for say 4kB it may return after reading just 1kB, even if the file has not ended.
This can cause subtle bugs, as it depends on where the file is stored, caches, etc.
read() --> Directly using this system call to kernel and that performs the IO operation.
fread() --> Is a function provided in standard library.
fread() is mainly used for binary file data where struct data are stored.
The main difference between these two is the number of system calls in your application.
fread() kind of standard IO library functions are optimized for system calls, rather your application making system calls.