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🎨 更改代码结构

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This commit is contained in:
fslongjin 2022-04-14 16:53:11 +08:00
parent 777932704d
commit 53c553c730
2 changed files with 48 additions and 55 deletions
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1
kernel/mm/mm.c
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@ -599,7 +599,6 @@ void mm_map_phys_addr_user(ul virt_addr_start, ul phys_addr_start, ul length, ul
// 页面写穿,禁止缓存
set_pdt(tmp1, mk_pdt((ul)phys_addr_start + i, flags | PAGE_USER_PAGE));
kdebug("mk_pdt((ul)phys_addr_start + i, flags | PAGE_USER_PAGE) = %#018lx",mk_pdt((ul)phys_addr_start + i, flags | PAGE_USER_PAGE));
}
flush_tlb();

102
kernel/process/process.c
View File

@ -8,19 +8,18 @@
#include <mm/slab.h>
#include <sched/sched.h>
extern void system_call(void);
ul _stack_start; // initial proc的栈基地址虚拟地址
ul _stack_start; // initial proc的栈基地址虚拟地址
struct mm_struct initial_mm = {0};
struct thread_struct initial_thread =
{
.rbp = (ul)(initial_proc_union.stack + STACK_SIZE / sizeof(ul)),
.rsp = (ul)(initial_proc_union.stack + STACK_SIZE / sizeof(ul)),
.fs = KERNEL_DS,
.gs = KERNEL_DS,
.cr2 = 0,
.trap_num = 0,
.err_code = 0};
{
.rbp = (ul)(initial_proc_union.stack + STACK_SIZE / sizeof(ul)),
.rsp = (ul)(initial_proc_union.stack + STACK_SIZE / sizeof(ul)),
.fs = KERNEL_DS,
.gs = KERNEL_DS,
.cr2 = 0,
.trap_num = 0,
.err_code = 0};
// 初始化 初始进程的union ,并将其链接到.data.init_proc段内
union proc_union initial_proc_union __attribute__((__section__(".data.init_proc_union"))) = {INITIAL_PROC(initial_proc_union.pcb)};
@ -42,8 +41,8 @@ struct tss_struct initial_tss[MAX_CPU_NUM] = {[0 ... MAX_CPU_NUM - 1] = INITIAL_
void __switch_to(struct process_control_block *prev, struct process_control_block *next)
{
initial_tss[proc_current_cpu_id].rsp0 = next->thread->rbp;
//set_tss64((uint *)phys_2_virt(TSS64_Table), initial_tss[0].rsp0, initial_tss[0].rsp1, initial_tss[0].rsp2, initial_tss[0].ist1,
// initial_tss[0].ist2, initial_tss[0].ist3, initial_tss[0].ist4, initial_tss[0].ist5, initial_tss[0].ist6, initial_tss[0].ist7);
// set_tss64((uint *)phys_2_virt(TSS64_Table), initial_tss[0].rsp0, initial_tss[0].rsp1, initial_tss[0].rsp2, initial_tss[0].ist1,
// initial_tss[0].ist2, initial_tss[0].ist3, initial_tss[0].ist4, initial_tss[0].ist5, initial_tss[0].ist6, initial_tss[0].ist7);
__asm__ __volatile__("movq %%fs, %0 \n\t"
: "=a"(prev->thread->fs));
@ -52,14 +51,12 @@ void __switch_to(struct process_control_block *prev, struct process_control_bloc
__asm__ __volatile__("movq %0, %%fs \n\t" ::"a"(next->thread->fs));
__asm__ __volatile__("movq %0, %%gs \n\t" ::"a"(next->thread->gs));
//wrmsr(0x175, next->thread->rbp);
// wrmsr(0x175, next->thread->rbp);
uint color;
if(proc_current_cpu_id == 0)
color = WHITE;
else
color = YELLOW;
if (proc_current_cpu_id == 0)
color = WHITE;
else
color = YELLOW;
}
/**
@ -73,7 +70,7 @@ void user_level_function()
// enter_syscall(15, 0, 0, 0, 0, 0, 0, 0, 0);
// enter_syscall(SYS_PRINTF, (ul) "test_sys_printf\n", 0, 0, 0, 0, 0, 0, 0);
//while(1);
// while(1);
long ret = 0;
// printk_color(RED,BLACK,"user_level_function task is running\n");
@ -116,9 +113,9 @@ ul do_execve(struct pt_regs *regs)
// 选择这两个寄存器是对应了sysexit指令的需要
regs->rip = 0x800000; // rip 应用层程序的入口地址 这里的地址选择没有特殊要求,只要是未使用的内存区域即可。
regs->rsp = 0xa00000; // rsp 应用层程序的栈顶地址
regs->cs = USER_CS|3;
regs->ds = USER_DS|3;
regs->ss = USER_DS |0x3;
regs->cs = USER_CS | 3;
regs->ds = USER_DS | 3;
regs->ss = USER_DS | 0x3;
regs->rflags = 0x200246;
regs->rax = 1;
regs->es = 0;
@ -129,31 +126,30 @@ ul do_execve(struct pt_regs *regs)
// mm_map_proc_page_table(get_CR3(), true, 0x800000, alloc_pages(ZONE_NORMAL, 1, PAGE_PGT_MAPPED)->addr_phys, PAGE_2M_SIZE, PAGE_USER_PAGE, true);
uint64_t addr = 0x800000UL;
unsigned long *tmp = phys_2_virt((unsigned long *)((unsigned long)get_CR3() & (~0xfffUL)) + ((addr >> PAGE_GDT_SHIFT) & 0x1ff));
unsigned long *virtual = kmalloc(PAGE_4K_SIZE, 0);
set_pml4t(tmp, mk_pml4t(virt_2_phys(virtual), PAGE_USER_PGT));
tmp = phys_2_virt((unsigned long *)(*tmp & (~0xfffUL)) + ((addr >> PAGE_1G_SHIFT) & 0x1ff));
virtual = kmalloc(PAGE_4K_SIZE, 0);
set_pdpt(tmp, mk_pdpt(virt_2_phys(virtual), PAGE_USER_DIR));
tmp = phys_2_virt((unsigned long *)(*tmp & (~0xfffUL)) + ((addr >> PAGE_2M_SHIFT) & 0x1ff));
struct Page *p = alloc_pages(ZONE_NORMAL, 1, PAGE_PGT_MAPPED);
set_pdt(tmp, mk_pdt(p->addr_phys, PAGE_USER_PAGE));
flush_tlb();
/*
mm_map_phys_addr_user(addr, alloc_pages(ZONE_NORMAL, 1, PAGE_PGT_MAPPED)->addr_phys, PAGE_2M_SIZE, PAGE_USER_PAGE);
*/
unsigned long *tmp = phys_2_virt((unsigned long *)((unsigned long)get_CR3() & (~0xfffUL)) + ((addr >> PAGE_GDT_SHIFT) & 0x1ff));
unsigned long *virtual = kmalloc(PAGE_4K_SIZE, 0);
set_pml4t(tmp, mk_pml4t(virt_2_phys(virtual), PAGE_USER_PGT));
tmp = phys_2_virt((unsigned long *)(*tmp & (~0xfffUL)) + ((addr >> PAGE_1G_SHIFT) & 0x1ff));
virtual = kmalloc(PAGE_4K_SIZE, 0);
set_pdpt(tmp, mk_pdpt(virt_2_phys(virtual), PAGE_USER_DIR));
tmp = phys_2_virt((unsigned long *)(*tmp & (~0xfffUL)) + ((addr >> PAGE_2M_SHIFT) & 0x1ff));
struct Page *p = alloc_pages(ZONE_NORMAL, 1, PAGE_PGT_MAPPED);
set_pdt(tmp, mk_pdt(p->addr_phys, PAGE_USER_PAGE));
flush_tlb();
*/
mm_map_phys_addr_user(addr, alloc_pages(ZONE_NORMAL, 1, PAGE_PGT_MAPPED)->addr_phys, PAGE_2M_SIZE, PAGE_USER_PAGE);
if (!(current_pcb->flags & PF_KTHREAD))
current_pcb->addr_limit = KERNEL_BASE_LINEAR_ADDR;
// 将程序代码拷贝到对应的内存中
memcpy((void *)0x800000, user_level_function, 1024);
// kdebug("program copied!");
return 0;
}
@ -294,7 +290,7 @@ void process_init()
initial_mm.brk_end = memory_management_struct.kernel_end;
initial_mm.stack_start = _stack_start;
/*
// 向MSR寄存器组中的 IA32_SYSENTER_CS寄存器写入内核的代码段的地址
wrmsr(0x174, KERNEL_CS);
@ -305,7 +301,7 @@ void process_init()
wrmsr(0x176, (ul)system_call);
*/
// 初始化进程和tss
//set_tss64((uint *)phys_2_virt(TSS64_Table), initial_thread.rbp, initial_tss[0].rsp1, initial_tss[0].rsp2, initial_tss[0].ist1, initial_tss[0].ist2, initial_tss[0].ist3, initial_tss[0].ist4, initial_tss[0].ist5, initial_tss[0].ist6, initial_tss[0].ist7);
// set_tss64((uint *)phys_2_virt(TSS64_Table), initial_thread.rbp, initial_tss[0].rsp1, initial_tss[0].rsp2, initial_tss[0].ist1, initial_tss[0].ist2, initial_tss[0].ist3, initial_tss[0].ist4, initial_tss[0].ist5, initial_tss[0].ist6, initial_tss[0].ist7);
initial_tss[proc_current_cpu_id].rsp0 = initial_thread.rbp;
/*
@ -319,11 +315,11 @@ void process_init()
initial_proc_union.pcb.state = PROC_RUNNING;
initial_proc_union.pcb.preempt_count = 0;
// 获取新的进程的pcb
//struct process_control_block *p = container_of(list_next(&current_pcb->list), struct process_control_block, list);
// struct process_control_block *p = container_of(list_next(&current_pcb->list), struct process_control_block, list);
//kdebug("Ready to switch...");
// 切换到新的内核线程
// switch_proc(current_pcb, p);
// kdebug("Ready to switch...");
// 切换到新的内核线程
// switch_proc(current_pcb, p);
}
/**
@ -349,8 +345,8 @@ unsigned long do_fork(struct pt_regs *regs, unsigned long clone_flags, unsigned
// 将当前进程的pcb复制到新的pcb内
*tsk = *current_pcb;
//kdebug("current_pcb->flags=%#010lx", current_pcb->flags);
// kdebug("current_pcb->flags=%#010lx", current_pcb->flags);
// 将进程加入循环链表
list_init(&tsk->list);
@ -378,15 +374,13 @@ unsigned long do_fork(struct pt_regs *regs, unsigned long clone_flags, unsigned
thd->fs = KERNEL_DS;
thd->gs = KERNEL_DS;
//kdebug("do_fork() thd->rsp=%#018lx", thd->rsp);
// 若进程不是内核层的进程则跳转到ret from system call
// kdebug("do_fork() thd->rsp=%#018lx", thd->rsp);
// 若进程不是内核层的进程则跳转到ret from system call
if (!(tsk->flags & PF_KTHREAD))
thd->rip = regs->rip = (ul)ret_from_system_call;
else
kdebug("is kernel proc.");
tsk->state = PROC_RUNNING;
sched_cfs_enqueue(tsk);