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Merge pull request #11 from Archstacker/fix_spell

Correct some spelling mistakes
main
chyyuu 9年前
コミット
b607f1accb
12個のファイルの変更33行の追加33行の削除
  1. +2
    -2
      labcodes/lab4/kern/process/proc.c
  2. +3
    -3
      labcodes/lab5/kern/process/proc.c
  3. +3
    -3
      labcodes/lab6/kern/process/proc.c
  4. +3
    -3
      labcodes/lab7/kern/process/proc.c
  5. +3
    -3
      labcodes/lab8/kern/process/proc.c
  6. +2
    -2
      labcodes_answer/lab4_result/kern/process/proc.c
  7. +3
    -3
      labcodes_answer/lab5_result/kern/process/proc.c
  8. +3
    -3
      labcodes_answer/lab6_result/kern/process/proc.c
  9. +3
    -3
      labcodes_answer/lab7_result/kern/process/proc.c
  10. +3
    -3
      labcodes_answer/lab8_result/kern/process/proc.c
  11. +2
    -2
      related_info/lab4/lab4-spoc-discuss/kern/process/proc.c
  12. +3
    -3
      related_info/lab5/lab5-spoc-discuss/kern/process/proc.c

+ 2
- 2
labcodes/lab4/kern/process/proc.c ファイルの表示

@ -283,7 +283,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -294,7 +294,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
fork_out:
return ret;

+ 3
- 3
labcodes/lab5/kern/process/proc.c ファイルの表示

@ -382,7 +382,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -393,7 +393,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -615,7 +615,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes/lab6/kern/process/proc.c ファイルの表示

@ -392,7 +392,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -403,7 +403,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -625,7 +625,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes/lab7/kern/process/proc.c ファイルの表示

@ -392,7 +392,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -403,7 +403,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -625,7 +625,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes/lab8/kern/process/proc.c ファイルの表示

@ -440,7 +440,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -451,7 +451,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -609,7 +609,7 @@ failed_cleanup:
return ret;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, int argc, const char **argv) {

+ 2
- 2
labcodes_answer/lab4_result/kern/process/proc.c ファイルの表示

@ -295,7 +295,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -306,7 +306,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
if ((proc = alloc_proc()) == NULL) {
goto fork_out;

+ 3
- 3
labcodes_answer/lab5_result/kern/process/proc.c ファイルの表示

@ -390,7 +390,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -401,7 +401,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
if ((proc = alloc_proc()) == NULL) {
goto fork_out;
@ -647,7 +647,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes_answer/lab6_result/kern/process/proc.c ファイルの表示

@ -396,7 +396,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -407,7 +407,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
if ((proc = alloc_proc()) == NULL) {
goto fork_out;
@ -653,7 +653,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes_answer/lab7_result/kern/process/proc.c ファイルの表示

@ -402,7 +402,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -413,7 +413,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -667,7 +667,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

+ 3
- 3
labcodes_answer/lab8_result/kern/process/proc.c ファイルの表示

@ -449,7 +449,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -460,7 +460,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
//LAB5 YOUR CODE : (update LAB4 steps)
@ -801,7 +801,7 @@ failed_cleanup:
return ret;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, int argc, const char **argv) {

+ 2
- 2
related_info/lab4/lab4-spoc-discuss/kern/process/proc.c ファイルの表示

@ -266,7 +266,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -281,7 +281,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
copy_thread(proc, stack, tf);
// 4. insert proc_struct into proc_list
list_add_before(&proc_list, &proc->list_link);
// 5. call wakup_proc to make the new child process RUNNABLE
// 5. call wakeup_proc to make the new child process RUNNABLE
wakeup_proc(proc);
// 7. set ret vaule using child proc's pid
nr_process++;

+ 3
- 3
related_info/lab5/lab5-spoc-discuss/kern/process/proc.c ファイルの表示

@ -390,7 +390,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
* setup the kernel entry point and stack of process
* hash_proc: add proc into proc hash_list
* get_pid: alloc a unique pid for process
* wakup_proc: set proc->state = PROC_RUNNABLE
* wakeup_proc: set proc->state = PROC_RUNNABLE
* VARIABLES:
* proc_list: the process set's list
* nr_process: the number of process set
@ -401,7 +401,7 @@ do_fork(uint32_t clone_flags, uintptr_t stack, struct trapframe *tf) {
// 3. call copy_mm to dup OR share mm according clone_flag
// 4. call copy_thread to setup tf & context in proc_struct
// 5. insert proc_struct into hash_list && proc_list
// 6. call wakup_proc to make the new child process RUNNABLE
// 6. call wakeup_proc to make the new child process RUNNABLE
// 7. set ret vaule using child proc's pid
if ((proc = alloc_proc()) == NULL) {
goto fork_out;
@ -647,7 +647,7 @@ bad_mm:
goto out;
}
// do_execve - call exit_mmap(mm)&pug_pgdir(mm) to reclaim memory space of current process
// do_execve - call exit_mmap(mm)&put_pgdir(mm) to reclaim memory space of current process
// - call load_icode to setup new memory space accroding binary prog.
int
do_execve(const char *name, size_t len, unsigned char *binary, size_t size) {

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