In "Advanced Programming in the Unix Environment", 2nd edition, By W. Richard Stevens.
Section 8.3 fork function.
Here's the description:
It is important that the parent and the child share the same file offset.
Consider a process that forks a child, then waits for the child to complete. Assume that both processes write to standard output as part of their normal processing. If the parent has its standard output redirected (by a shell, perhaps) it is essential that the parent's file offset be updated by the child when the child writes to standard output.
[1. What does it mean? if parent's std output is redirected to a 'file1' for example, then what should child update after child writes? parent's original std output offset or redirected ouput(i.e file1) offset? Can't be the later, right?]
[2. How is the update done? by child explicitly, by OS implicitly, by files descriptor itself? After fork, i thought parent and child went their own ways and has their own COPY of file descriptor. So how does child update offset to parent side?]
In this case, the child can write to standard output while the parent is waiting for it; on completion of the child, the parent can continue writing to standard output, knowing that its output will be appended to whatever the child wrote. If the parent and the child did not share the same file offset, this type of interaction would be more difficult to accomplish and would require explicit actions by the parent.
If both parent and child write to the same descriptor, without any form of synchronization, such as having the parent wait for the child, their output will be intermixed (assuming it's a descriptor that was open before the fork). Although this is possible, it's not the normal mode of operation.
There are two normal cases for handling the descriptors after a fork.
The parent waits for the child to complete. In this case, the parent does not need to do anything with its descriptors. When the child terminates, any of the shared descriptors that the child read from or wrote to will have their file offsets updated accordingly.
Both the parent and the child go their own ways. Here, after the fork, the parent closes the descriptors that it doesn't need, and the child does the same thing. This way, neither interferes with the other's open descriptors. This scenario is often the case with network servers."
[3. When fork() is invoked, all i understand is that child get a COPY of what parent has, file descriptor in this case, and does its thing. If any offset changes to file descriptor that parent and child share, it can only be because the descriptor remember the offset itself. Am i right?]
Sorry I am kind of new to the concepts.
Any help? Thanks.