What's the difference between a process and a process image?
What does one contain that the other doesn't? What are the distinguishing components?
This is all within the context of process control structures and process location in memory.
From what I understand, a process image is an image of a process taken when memory is allocated to it before execution. This happens because, when multitasking, the kernel needs to re-enter the process where it left off. If the process were to be changed in mid execution, bad things could happen so the operating system makes a read-only version of the process and uses that during execution.
A process can involve more than its image. It is a live and changing image, hence the name, that is run by the CPU.
A single process can have multiple images at different intervals, along with its effect on the CPU that is not directly included in the image, like arithmetic operations.
When a programme is loaded as a process it is allocated a section of virtual memory which forms its useable address space. Within this process image there are typically at least four elements :
Program code (or text)
The program instructions to be executed. Note that it is not necessary for the processor to read the totality of a process into physical memory when a program is run, instead by a procedure known as ?dynamic paging? the next block of instructions is loaded as required and may be shared between processes.
May be distinguished as initialised variables including external global and static variables, uninitialised variables (known as a bss area on Unix derivative systems). Data blocks are not shared between processes by default.
A process will commonly have at least two last-in, first-out (LIFO) stacks, including a user stack for user mode and a kernel stack for kernel mode.
Process Control Block
Information needed by the operating system to control the process.