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7

I think your primary and secondary confusions are due to general confusion on the subject :)Let me talk around this a bit and hopefully I can be of some help. First, an analogy - imagine that you're trying to locate a house in a city. Imagine that each house was given a unique number - you can imagine that the number of houses would soon get very large and ...


7

It's a function pointer. You pass it the address of a function that returns void and takes a void pointer and an unsigned long. So, for example, if you have a function: void myfunc(void *data, unsigned long number); Then you could pass it as the fourth argument to md_initpcb. This function is the code that the thread you're creating is going to execute. ...


6

A page table usually has a fixed number of entries and therefore describes only a portion of the entire virtual address space. This is why you need multiple of them to cover the entire address space. Now, in many OSes processes have individual (in other words, not shared with others) virtual address spaces, which helps to protect processes from one another. ...


5

Since you are a beginner in that domain, don't use the fancy stuff. Just protect your counter by a mutex and that is it. // with static linkage somewhere pthread_mutex_t countMut = PTHREAD_MUTEX_INITIALIZER; size_t count = 0; // in the functions pthread_mutex_lock(&countMut); ++count; pthread_mutex_unlock(&countMut);


3

I know nothing of OS/161 -- but your description sounds a lot like a standard POSIX system. So, here's how your questions work with POSIX and hopefully they'll make sense for OS/161 as well. Only parents ever call waitpid(). Applications are designed around this. The POSIX specification of waitpid() requires returning an error with errno set to ECHILD if ...


3

I'm working on OS161 too. Here is how I tackle the problem. In sys_fork, I copy parent's trapframe into a kernel heap space allocated via kmalloc: struct trapframe* ctf = (struct trapframe*)kmalloc(sizeof(struct trapframe)); *ctf = *tf; // tf points to parent's trapframe; Then I use thread_fork to create a child thread: // passing address space using ...


2

I'm working on OS161 too. Here is how I do it. Before you destroy current address space, copy all the arguments into a kernel buffer. Then after you create and activate a new address space, get the stack pointer via as_define_stack and copy these arguments into the stack. You need to pack them very carefully otherwise you new stack will be corrupted. Also, ...


2

void (*func)(void *, unsigned long) mean that func is a pointer to a function that take void* and unsigned long, and return void. I guess that this parameter is the function that the new thread will run, and data1 and data2 are the parameters that the new thread will pass to this function.


2

I figured out my problem. But what I am going to say is related to OS161 system. So anyone working on this system, this will be helpful. Ok, there is a function on the kernel side which deals with context switch. This function stores all the data related to context switch frame onto the threads kernel stack. So all you need to do is follow the same steps ...


2

use the stack, but ensure that the memory is aligned


2

The CPU knows nothing about threads, they are just a logical/abstract concept implemented in software. But the CPU does know about interrupts, they are real, and whenever one comes in from some device, the CPU stops executing whatever it has been executing and starts executing the routine dedicated to handling this particular interrupt. Once done, the ...


2

try to set the bmake flag manually $export MAKESYSPATH=~/os161/tools/share/mk/


2

You should link a.o when building the executable. Example: cc -c a.c cc -c b.c cc a.o b.o -o executable # ^^^ this is important


1

I am answering this question with respect to OS161 implementations. done is a pointer to semaphore and it would be NULL only when the sem_create does not create the semaphore due to memory not available or other memory constraints. The 0 value that is passed as a parameter to a function which initializes the initial count of semaphore to be 0. The count ...


1

Each system call has a unique identifying number, in OS161 these system call numbers are defined in kern/include/kern/syscall.h: #define SYS_reboot 119 The library procedure reboot() places the syscall number in a register (v0) and issues a trap to the OS, the syscall handler receives from the assembly-language exception handler a data structure ...


1

done is a pointer to semaphore, and the condition done==NULL checks whether the creation of a new semaphore succeeded, in which case done will hold the address of the new semaphore, or failed, in which case done will hold NULL. In short, this condition does not check the state of the semaphore, but if it was created at all.


1

Thanks a lot for this question 1st. Even I am a newbie to os161 and struggling to understand the code. I tell you what I have understood till now... Please feel free to correct me. We need page table to keep track of all the pages assigned to our process. Not just because we need a translation from virtual to physical address translation. the page table ...


1

Add another system call number, e.g. SYS_print1 in callno.h or wherever those constants like SYS_fork and SYS_read are defined. Find the place where they are used to choose functions to call, looks like it should be mips_syscall(). Although, I'm not sure why in this version of the source code there's only SYS_reboot used to call sys_reboot(). This source ...


1

You have to copy parent thread's address space before you call thread_fork, and pass the address space pointer as the second parameter of enter_forked_process. And in enter_forked_process, you have to fill the address space into curthread->t_addrspace. Otherwise, you'll get the TLB miss on load error, since current thread (the child)'s address space is ...


1

I'm working on os161, too. INLINE is not defined, try using #define ARRAYINLINE inline instead. [EDIT] I checked my os161 revision. I found this line before the #define ARRAYINLINE INLINE #define INLINE extern inline So please check if your array.h also contains this line (115 in my case) [/EDIT]



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