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I have two c files: producer.c and consumer.c. Consumer creates a shared buffer in memory and waits producer to put items into buffer to consume. Producer attaches shared memory to its memory map, then starts putting items into buffer.

The question is how to compile and run them together?

Here is the actual assignment. (I know I can do it with one c file using threads, but this is not I am asked to do.)

In this part you will develop a producer-consumer application that will use shared memory for process communication (POSIX shared memory, not System V shared memory). There will be N producers and N consumers. N can be 1, 2, or 3.

You will develop a producer program (producer.c) and a consumer program (consumer.c). When started, the producer program will create N child processes which will be acting as N producers (i.e. each child process will be a producer process).

Similarly, when started, the consumer program will create N child processes, where each child process will be acting as a consumer process. You will consider that consumers are identified as 0, 1, 2, depending on N. For example, if N is 2, then there will two consumers, 0 and 1.

The consumer program will be run first. When run, the consumer program will first create a shared memory of size 4 KB. This shared memory will be the place where you will have a shared single buffer sitting. The buffer can be accessed by producers and consumers. The buffer size is 100. It can hold at most 100 items (integers). In the shared memory you can have some other shared variables that you feel necessary. The consumer program will also create one or more semaphores (you decide how many).

Then it will create N child processes (N consumers) using the fork() system call (You will not need to use the exec() system call). The main process of the consumer program (parent), after creating the child processes, should not terminate. It should wait until all children (i.e. consumers) finish their tasks and terminate. When all children terminate, it will remove (delete) the shared memory from the system. It will also remove (delete) the semaphores. Then it can terminate as well.

Each producer will read an input file of positive integers (one integer per line) and will just pass the integers through a shared buffer sitting in a shared memory (created by the consumer program) between the producers and consumers.

Each consumer will read integers from the shared buffer and will write a received integer z to an output file associated with consumer if z mod N is equal to the ID of the consumer. For example, if N is 3 and if the ID of a consumer is 2 and the consumer has received an integer 7, it will do nothing with it (ignore), but if it receives 8, it will write the integer to its output file. An output file will contain one integer in a line. While producers and consumers are accessing the shared buffer, they should use semaphores so that access is synchronized. Additionally, if the buffer is full, producers should sleep, and if there is nothing to consume, consumers should sleep. We should not have busy waiting. You will use POSIX semaphores (named semaphores). The consumer program will be invoked as follows:
consumer N …

Here, N is the number of consumer processes to be created. The value of this parameter must be the same with the corresponding parameter of the producer program. Here, the is the name of the output file that will be used by the consumer with ID X. The number of output file names entered will be equal to N. is a name we can use to identify the shared memory. is a name we can use to identify the semaphores (it can be a prefix that can be used for names of many semaphores). These same names must be used when invoking the producer. The producer program will be named as producer and will be invoked with the following parameters:
producer N …

Here, N is the number of producers. The is the name of an input file for producer X. An input file is a text file storing integers. The number of input file names we enter will be equal to N. There can be one or more integers in a file. An input file can be quite huge (billions of integers). is a name we can use to identify the shared memory. is a name we can use to identify the semaphores.

An example invocation of the programs can be like the following.
consumer 3 out0.txt out1.txt out2.txt mysmem mysemaphores producer 3 in0.txt in1.txt in2.txt mysmem mysemaphore

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What do you mean by "together" exactly? –  Mat Nov 12 '11 at 9:10
What is your OS? –  pmod Nov 12 '11 at 9:11
You'll need one of these new-fashioned multi-tasking operating systems. Unix systems got that thing on mainframes for a while, and I've heard you can get it at home on this fancy new Amiga computer. –  thiton Nov 12 '11 at 9:18
My OS is MacOSX Lion. There is nothing to do with OS, since these OS can do multi-tasking etc. –  mert Nov 12 '11 at 9:30
asking for shared memory has nothing to do with OS? you're kidding no? It looks that you are new to SO, but questions here need to be posed precisely, telling us what you have and what you want to achieve. We are not here to do your "homework". Did you google for "producer consumer shared memory"? –  Jens Gustedt Nov 12 '11 at 10:40

4 Answers 4

The question is how to synchronize two processes sharing some memory. You could use Posix semaphores, but there are many other ways to do that.

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I agree with Semaphores. +1 –  John Riselvato Nov 12 '11 at 9:41
I already implemented semaphores. The question is how can I compile and run producer.c and consumer.c. For example, consumer.c creates buffer and waits producer to put item into buffer. –  mert Nov 13 '11 at 10:24

Just add a main() to each of your modules. Compile each separately to become two different binaries and run them.

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Both files have own main functions. However, the problem is they work on bounded shared memory, and sometimes one needs to wait the other and the other way around. –  mert Nov 12 '11 at 9:32
@user853005: Basile Starynkevitch's proposal would be a way to go. –  alk Nov 12 '11 at 9:49

You cannot simply share memory. You have to ask the operating system to provide you access to memory that can be shared with another process. The API to use depends on your OS. Also, even on something like Linux, there is more than one way to do this with different pros, cons and limitations. Here is another question where some of the alternatives are discussed Shmem vs tmpfs vs mmap

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I agree with Semaphores,and shared memeory.In Linux environment, I suggest POSIX Semaphores used for process and System V shared memory,also other way could realize it the same ,it just because i think these methods are easy.

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