2022-12-03 12:07:44 +08:00
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/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2021-7-14 JasonHu first version
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*/
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#include <rthw.h>
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#include <stddef.h>
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#include <rtconfig.h>
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#include <rtdbg.h>
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2022-12-16 18:38:28 +08:00
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#ifdef ARCH_MM_MMU
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2022-12-03 12:07:44 +08:00
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#include <stackframe.h>
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#include <interrupt.h>
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#include <segment.h>
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#include <mmu.h>
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#include <page.h>
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#include <lwp_mm_area.h>
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#include <lwp_user_mm.h>
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#include <lwp_arch.h>
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#ifdef RT_USING_SIGNALS
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#include <lwp_signal.h>
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#endif /* RT_USING_SIGNALS */
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extern size_t g_mmu_table[];
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int arch_expand_user_stack(void *addr)
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{
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int ret = 0;
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size_t stack_addr = (size_t)addr;
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stack_addr &= ~PAGE_OFFSET_MASK;
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if ((stack_addr >= (size_t)USER_STACK_VSTART) && (stack_addr < (size_t)USER_STACK_VEND))
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{
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void *map = lwp_map_user(lwp_self(), (void *)stack_addr, PAGE_SIZE, RT_FALSE);
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if (map || lwp_user_accessable(addr, 1))
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{
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ret = 1; /* map success */
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}
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else /* map failed, send signal SIGSEGV */
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{
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#ifdef RT_USING_SIGNALS
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dbg_log(DBG_ERROR, "[fault] thread %s mapped addr %p failed!\n", rt_thread_self()->name, addr);
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lwp_thread_kill(rt_thread_self(), SIGSEGV);
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ret = 1; /* return 1, will return back to intr, then check exit */
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#endif
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}
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}
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else /* not stack, send signal SIGSEGV */
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{
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#ifdef RT_USING_SIGNALS
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dbg_log(DBG_ERROR, "[fault] thread %s access unmapped addr %p!\n", rt_thread_self()->name, addr);
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lwp_thread_kill(rt_thread_self(), SIGSEGV);
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ret = 1; /* return 1, will return back to intr, then check exit */
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#endif
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}
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return ret;
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}
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void *get_thread_kernel_stack_top(rt_thread_t thread)
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{
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return RT_NULL;
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}
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/**
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* don't support this in i386, it's ok!
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*/
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void *arch_get_user_sp()
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{
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return RT_NULL;
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}
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int arch_user_space_init(struct rt_lwp *lwp)
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{
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rt_size_t *mmu_table;
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mmu_table = (rt_size_t *)rt_pages_alloc(0);
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if (!mmu_table)
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{
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return -1;
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}
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rt_memset(mmu_table, 0, ARCH_PAGE_SIZE);
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lwp->end_heap = USER_HEAP_VADDR;
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memcpy(mmu_table, g_mmu_table, ARCH_PAGE_SIZE / 4);
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memset((rt_uint8_t *)mmu_table + ARCH_PAGE_SIZE / 4, 0, ARCH_PAGE_SIZE / 4 * 3);
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rt_hw_cpu_dcache_ops(RT_HW_CACHE_FLUSH, mmu_table, ARCH_PAGE_SIZE);
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if (rt_hw_mmu_map_init(&lwp->mmu_info, (void*)USER_VADDR_START, USER_VADDR_TOP - USER_VADDR_START, mmu_table, PV_OFFSET) < 0)
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{
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rt_pages_free(mmu_table, 0);
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return -1;
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}
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return 0;
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}
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void *arch_kernel_mmu_table_get(void)
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{
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return (void *)((char *)g_mmu_table);
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}
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void arch_user_space_vtable_free(struct rt_lwp *lwp)
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{
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if (lwp && lwp->mmu_info.vtable)
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{
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rt_pages_free(lwp->mmu_info.vtable, 0);
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lwp->mmu_info.vtable = NULL;
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}
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}
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void arch_set_thread_area(void *p)
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{
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rt_hw_seg_tls_set((rt_ubase_t) p);
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rt_thread_t cur = rt_thread_self();
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cur->thread_idr = p; /* update thread idr after first set */
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}
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void *arch_get_tidr(void)
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{
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rt_thread_t cur = rt_thread_self();
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if (!cur->lwp) /* no lwp, don't get thread idr from tls seg */
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return NULL;
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return (void *)rt_hw_seg_tls_get(); /* get thread idr from tls seg */
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}
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void arch_set_tidr(void *p)
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{
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rt_thread_t cur = rt_thread_self();
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if (!cur->lwp) /* no lwp, don't set thread idr to tls seg */
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return;
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rt_hw_seg_tls_set((rt_ubase_t) p); /* set tls seg addr as thread idr */
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}
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static void lwp_user_stack_init(rt_hw_stack_frame_t *frame)
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{
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frame->ds = frame->es = USER_DATA_SEL;
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frame->cs = USER_CODE_SEL;
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frame->ss = USER_STACK_SEL;
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frame->gs = USER_TLS_SEL;
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frame->fs = 0; /* unused */
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frame->edi = frame->esi = \
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frame->ebp = frame->esp_dummy = 0;
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frame->eax = frame->ebx = \
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frame->ecx = frame->edx = 0;
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frame->error_code = 0;
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frame->vec_no = 0;
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frame->eflags = (EFLAGS_MBS | EFLAGS_IF_1 | EFLAGS_IOPL_3);
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}
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extern void lwp_switch_to_user(void *frame);
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/**
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* user entry, set frame.
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* at the end of execute, we need enter user mode,
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* in x86, we can set stack, arg, text entry in a stack frame,
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* then pop then into register, final use iret to switch kernel mode to user mode.
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*/
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void arch_start_umode(void *args, const void *text, void *ustack, void *k_stack)
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{
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rt_uint8_t *stk = k_stack;
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stk -= sizeof(struct rt_hw_stack_frame);
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struct rt_hw_stack_frame *frame = (struct rt_hw_stack_frame *)stk;
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lwp_user_stack_init(frame);
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frame->esp = (rt_uint32_t)ustack - 32;
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frame->ebx = (rt_uint32_t)args;
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frame->eip = (rt_uint32_t)text;
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lwp_switch_to_user(frame);
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/* should never return */
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}
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void lwp_exec_user(void *args, void *kernel_stack, void *user_entry)
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{
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arch_start_umode(args, (const void *)user_entry, (void *)USER_STACK_VEND, kernel_stack);
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}
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extern void lwp_thread_return();
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extern void lwp_thread_return_end();
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static void *lwp_copy_return_code_to_user_stack(void *ustack)
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{
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size_t size = (size_t)lwp_thread_return_end - (size_t)lwp_thread_return;
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void *retcode = (void *)((size_t)ustack - size);
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memcpy(retcode, (void *)lwp_thread_return, size);
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return retcode;
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}
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/**
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* when called sys_thread_create, need create a thread, after thread stared, will come here,
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* like arch_start_umode, will enter user mode, but we must set thread exit function. it looks like:
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* void func(void *arg)
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* {
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* ...
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* }
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* when thread func return, we must call exit code to exit thread, or not the program runs away.
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* so we need copy exit code to user and call exit code when func return.
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*/
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void arch_crt_start_umode(void *args, const void *text, void *ustack, void *k_stack)
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{
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RT_ASSERT(ustack != NULL);
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rt_uint8_t *stk;
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stk = (rt_uint8_t *)((rt_uint8_t *)k_stack + sizeof(rt_ubase_t));
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stk = (rt_uint8_t *)RT_ALIGN_DOWN(((rt_ubase_t)stk), sizeof(rt_ubase_t));
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stk -= sizeof(struct rt_hw_stack_frame);
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struct rt_hw_stack_frame *frame = (struct rt_hw_stack_frame *)stk;
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lwp_user_stack_init(frame);
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/* make user thread stack */
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unsigned long *retcode = lwp_copy_return_code_to_user_stack(ustack); /* copy ret code */
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unsigned long *retstack = (unsigned long *)RT_ALIGN_DOWN(((rt_ubase_t)retcode), sizeof(rt_ubase_t));
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/**
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* x86 call stack
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*
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* retcode here
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*
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* arg n
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* arg n - 1
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* ...
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* arg 2
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* arg 1
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* arg 0
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* eip (caller return addr, point to retcode)
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* esp
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*/
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*(--retstack) = (unsigned long) args; /* arg */
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*(--retstack) = (unsigned long) retcode; /* ret eip */
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frame->esp = (rt_uint32_t)retstack;
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frame->eip = (rt_uint32_t)text;
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lwp_switch_to_user(frame);
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/* should never return */
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}
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rt_thread_t rt_thread_sp_to_thread(void *spmember_addr)
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{
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return (rt_thread_t)(((rt_ubase_t)spmember_addr) - (offsetof(struct rt_thread, sp)));
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}
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/**
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* set exec context for fork/clone.
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* user_stack(unused)
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*/
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void arch_set_thread_context(void *exit_addr, void *new_thread_stack, void *user_stack, void **thread_sp)
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{
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/**
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* thread kernel stack was set to tss.esp0, when intrrupt/syscall occur,
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* the stack frame will store in kernel stack top, so we can get the stack
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* frame by kernel stack top.
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*/
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rt_hw_stack_frame_t *frame = (rt_hw_stack_frame_t *)((rt_ubase_t)new_thread_stack - sizeof(rt_hw_stack_frame_t));
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frame->eax = 0; /* child return 0 */
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rt_hw_context_t *context = (rt_hw_context_t *) (((rt_uint32_t *)frame) - HW_CONTEXT_MEMBER_NR);
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context->eip = (void *)exit_addr; /* when thread started, jump to intr exit for enter user mode */
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context->ebp = context->ebx = context->esi = context->edi = 0;
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/**
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* set sp as the address of first member of rt_hw_context,
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* when scheduler call switch, pop stack from context stack.
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*/
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*thread_sp = (void *)&context->ebp;
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/**
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* after set context, the stack like this:
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*
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* -----------
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* stack frame| eax = 0
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* -----------
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* context(only HW_CONTEXT_MEMBER_NR)| eip = rt_hw_intr_exit
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* -----------
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* thread sp | to <- rt_hw_context_switch(from, to)
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* -----------
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*/
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}
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#ifdef RT_USING_SIGNALS
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#define SIGNAL_RET_CODE_SIZE 16
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struct rt_signal_frame
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{
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char *ret_addr; /* return addr when handler return */
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int signo; /* signal for user handler arg */
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rt_hw_stack_frame_t frame; /* save kernel signal stack */
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char ret_code[SIGNAL_RET_CODE_SIZE]; /* save return code */
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};
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typedef struct rt_signal_frame rt_signal_frame_t;
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extern void lwp_signal_return();
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extern void lwp_signal_return_end();
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void lwp_try_do_signal(rt_hw_stack_frame_t *frame)
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{
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if (!lwp_signal_check())
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return;
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/* 1. backup signal mask */
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int signal = lwp_signal_backup((void *) frame->esp, (void *) frame->eip, (void *) frame->eflags);
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/* 2. get signal handler */
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lwp_sighandler_t handler = lwp_sighandler_get(signal);
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if (handler == RT_NULL) /* no handler, ignore */
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{
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lwp_signal_restore();
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return;
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}
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rt_base_t level = rt_hw_interrupt_disable();
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/* 3. backup frame */
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rt_signal_frame_t *sig_frame = (rt_signal_frame_t *)((frame->esp - sizeof(rt_signal_frame_t)) & -8UL);
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memcpy(&sig_frame->frame, frame, sizeof(rt_hw_stack_frame_t));
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sig_frame->signo = signal;
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/**
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* 4. copy user return code into user stack
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*
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* save current frame on user stack. the user stack like:
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*
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* ----------
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* user code stack
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* ----------+ -> esp before enter kernel
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* signal frame
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* ----------+ -> esp when handle signal handler
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* signal handler stack
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* ----------
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*/
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size_t ret_code_size = (size_t)lwp_signal_return_end - (size_t)lwp_signal_return;
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memcpy(sig_frame->ret_code, (void *)lwp_signal_return, ret_code_size);
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sig_frame->ret_addr = sig_frame->ret_code;
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/* 5. jmp to user execute handler, update frame register info */
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lwp_user_stack_init(frame);
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frame->eip = (rt_uint32_t) handler;
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frame->esp = (rt_uint32_t) sig_frame;
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rt_hw_interrupt_enable(level);
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}
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void lwp_signal_do_return(rt_hw_stack_frame_t *frame)
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{
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/**
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* ASSUME: in x86, each stack push and pop element is 4 byte. so STACK_ELEM_SIZE = sizeof(int) => 4.
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* when signal handler return, the stack move to the buttom of signal frame.
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* but return will pop eip from esp, then {esp += STACK_ELEM_SIZE}, thus {esp = (signal frame) + STACK_ELEM_SIZE}.
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* so {(signal frame) = esp - STACK_ELEM_SIZE}
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*/
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rt_signal_frame_t *sig_frame = (rt_signal_frame_t *)(frame->esp - sizeof(rt_uint32_t));
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memcpy(frame, &sig_frame->frame, sizeof(rt_hw_stack_frame_t));
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/**
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* restore signal info, but don't use rt_user_context,
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* we use sig_frame to restore stack frame
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*/
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lwp_signal_restore();
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}
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#endif /* RT_USING_SIGNALS */
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2022-12-16 18:38:28 +08:00
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#endif /* ARCH_MM_MMU */
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