2d72cbec41
. add cpufeature detection of both . use it for both ipc and kernelcall traps, using a register for call number . SYSENTER/SYSCALL does not save any context, therefore userland has to save it . to accomodate multiple kernel entry/exit types, the entry type is recorded in the process struct. hitherto all types were interrupt (soft int, exception, hard int); now SYSENTER/SYSCALL is new, with the difference that context is not fully restored from proc struct when running the process again. this can't be done as some information is missing. . complication: cases in which the kernel has to fully change process context (i.e. sigreturn). in that case the exit type is changed from SYSENTER/SYSEXIT to soft-int (i.e. iret) and context is fully restored from the proc struct. this does mean the PC and SP must change, as the sysenter/sysexit userland code will otherwise try to restore its own context. this is true in the sigreturn case. . override all usage by setting libc_ipc=1
283 lines
8.3 KiB
C
283 lines
8.3 KiB
C
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#ifndef _I386_PROTO_H
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#define _I386_PROTO_H
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#include <machine/vm.h>
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#define K_STACK_SIZE I386_PAGE_SIZE
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#ifndef __ASSEMBLY__
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/* Hardware interrupt handlers. */
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void hwint00(void);
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void hwint01(void);
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void hwint02(void);
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void hwint03(void);
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void hwint04(void);
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void hwint05(void);
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void hwint06(void);
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void hwint07(void);
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void hwint08(void);
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void hwint09(void);
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void hwint10(void);
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void hwint11(void);
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void hwint12(void);
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void hwint13(void);
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void hwint14(void);
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void hwint15(void);
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/* Exception handlers (real or protected mode), in numerical order. */
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void int00(void), divide_error (void);
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void int01(void), single_step_exception (void);
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void int02(void), nmi (void);
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void int03(void), breakpoint_exception (void);
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void int04(void), overflow (void);
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void int05(void), bounds_check (void);
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void int06(void), inval_opcode (void);
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void int07(void), copr_not_available (void);
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void double_fault(void);
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void copr_seg_overrun(void);
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void inval_tss(void);
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void segment_not_present(void);
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void stack_exception(void);
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void general_protection(void);
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void page_fault(void);
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void copr_error(void);
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void alignment_check(void);
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void machine_check(void);
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void simd_exception(void);
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void restore_user_context_int(struct proc *);
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void restore_user_context_sysenter(struct proc *);
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void restore_user_context_syscall(struct proc *);
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/* Software interrupt handlers, in numerical order. */
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void trp(void);
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void ipc_entry_softint_orig(void);
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void ipc_entry_softint_um(void);
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void ipc_entry_sysenter(void);
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void ipc_entry_syscall_cpu0(void);
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void ipc_entry_syscall_cpu1(void);
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void ipc_entry_syscall_cpu2(void);
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void ipc_entry_syscall_cpu3(void);
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void ipc_entry_syscall_cpu4(void);
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void ipc_entry_syscall_cpu5(void);
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void ipc_entry_syscall_cpu6(void);
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void ipc_entry_syscall_cpu7(void);
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void kernel_call_entry_orig(void);
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void kernel_call_entry_um(void);
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void level0_call(void);
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/* exception.c */
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struct exception_frame {
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reg_t vector; /* which interrupt vector was triggered */
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reg_t errcode; /* zero if no exception does not push err code */
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reg_t eip;
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reg_t cs;
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reg_t eflags;
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reg_t esp; /* undefined if trap is nested */
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reg_t ss; /* undefined if trap is nested */
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};
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void exception(struct exception_frame * frame);
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/* klib386.s */
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__dead void monitor(void);
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__dead void reset(void);
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__dead void x86_triplefault(void);
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reg_t read_cr0(void);
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reg_t read_cr2(void);
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void write_cr0(unsigned long value);
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unsigned long read_cr4(void);
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void write_cr4(unsigned long value);
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void write_cr3(unsigned long value);
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unsigned long read_cpu_flags(void);
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phys_bytes vir2phys(void *);
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void phys_insb(u16_t port, phys_bytes buf, size_t count);
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void phys_insw(u16_t port, phys_bytes buf, size_t count);
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void phys_outsb(u16_t port, phys_bytes buf, size_t count);
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void phys_outsw(u16_t port, phys_bytes buf, size_t count);
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u32_t read_cr3(void);
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void reload_cr3(void);
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void i386_invlpg(phys_bytes linaddr);
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vir_bytes phys_memset(phys_bytes ph, u32_t c, phys_bytes bytes);
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void reload_ds(void);
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void ia32_msr_read(u32_t reg, u32_t * hi, u32_t * lo);
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void ia32_msr_write(u32_t reg, u32_t hi, u32_t lo);
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void fninit(void);
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void clts(void);
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void fxsave(void *);
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void fnsave(void *);
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int fxrstor(void *);
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int __fxrstor_end(void *);
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int frstor(void *);
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int __frstor_end(void *);
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int __frstor_failure(void *);
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unsigned short fnstsw(void);
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void fnstcw(unsigned short* cw);
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void x86_lgdt(void *);
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void x86_lldt(u32_t);
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void x86_ltr(u32_t);
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void x86_lidt(void *);
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void x86_load_kerncs(void);
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void x86_load_ds(u32_t);
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void x86_load_ss(u32_t);
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void x86_load_es(u32_t);
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void x86_load_fs(u32_t);
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void x86_load_gs(u32_t);
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/* ipc functions in usermapped_ipc.S */
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int usermapped_send_softint(endpoint_t dest, message *m_ptr);
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int usermapped_receive_softint(endpoint_t src, message *m_ptr, int *status_ptr);
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int usermapped_sendrec_softint(endpoint_t src_dest, message *m_ptr);
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int usermapped_sendnb_softint(endpoint_t dest, message *m_ptr);
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int usermapped_notify_softint(endpoint_t dest);
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int usermapped_do_kernel_call_softint(message *m_ptr);
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int usermapped_senda_softint(asynmsg_t *table, size_t count);
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int usermapped_send_syscall(endpoint_t dest, message *m_ptr);
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int usermapped_receive_syscall(endpoint_t src, message *m_ptr, int *status_ptr);
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int usermapped_sendrec_syscall(endpoint_t src_dest, message *m_ptr);
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int usermapped_sendnb_syscall(endpoint_t dest, message *m_ptr);
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int usermapped_notify_syscall(endpoint_t dest);
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int usermapped_do_kernel_call_syscall(message *m_ptr);
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int usermapped_senda_syscall(asynmsg_t *table, size_t count);
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int usermapped_send_sysenter(endpoint_t dest, message *m_ptr);
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int usermapped_receive_sysenter(endpoint_t src, message *m_ptr, int *status_ptr);
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int usermapped_sendrec_sysenter(endpoint_t src_dest, message *m_ptr);
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int usermapped_sendnb_sysenter(endpoint_t dest, message *m_ptr);
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int usermapped_notify_sysenter(endpoint_t dest);
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int usermapped_do_kernel_call_sysenter(message *m_ptr);
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int usermapped_senda_sysenter(asynmsg_t *table, size_t count);
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void switch_k_stack(void * esp, void (* continuation)(void));
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void __switch_address_space(struct proc * p, struct proc ** __ptproc);
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#define switch_address_space(proc) \
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__switch_address_space(proc, get_cpulocal_var_ptr(ptproc))
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void refresh_tlb(void);
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/* multiboot.c */
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void multiboot_init(void);
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/* protect.c */
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struct tss_s {
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reg_t backlink;
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reg_t sp0; /* stack pointer to use during interrupt */
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reg_t ss0; /* " segment " " " " */
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reg_t sp1;
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reg_t ss1;
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reg_t sp2;
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reg_t ss2;
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reg_t cr3;
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reg_t ip;
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reg_t flags;
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reg_t ax;
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reg_t cx;
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reg_t dx;
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reg_t bx;
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reg_t sp;
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reg_t bp;
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reg_t si;
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reg_t di;
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reg_t es;
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reg_t cs;
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reg_t ss;
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reg_t ds;
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reg_t fs;
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reg_t gs;
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reg_t ldt;
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u16_t trap;
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u16_t iobase;
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/* u8_t iomap[0]; */
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} __attribute__((packed));
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void enable_iop(struct proc *pp);
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u32_t read_cs(void);
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u32_t read_ds(void);
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u32_t read_ss(void);
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void add_memmap(kinfo_t *cbi, u64_t addr, u64_t len);
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phys_bytes alloc_lowest(kinfo_t *cbi, phys_bytes len);
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void vm_enable_paging(void);
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void cut_memmap(kinfo_t *cbi, phys_bytes start, phys_bytes end);
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phys_bytes pg_roundup(phys_bytes b);
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void pg_info(reg_t *, u32_t **);
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void pg_clear(void);
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void pg_identity(kinfo_t *);
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phys_bytes pg_load(void);
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void pg_map(phys_bytes phys, vir_bytes vaddr, vir_bytes vaddr_end, kinfo_t *cbi);
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int pg_mapkernel(void);
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void pg_mapproc(struct proc *p, struct boot_image *ip, kinfo_t *cbi);
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/* prototype of an interrupt vector table entry */
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struct gate_table_s {
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void(*gate) (void);
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unsigned char vec_nr;
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unsigned char privilege;
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};
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/* copies an array of vectors to the IDT. The last vector must be zero filled */
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void idt_copy_vectors(struct gate_table_s * first);
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void idt_copy_vectors_pic(void);
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void idt_reload(void);
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EXTERN void * k_stacks_start;
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extern void * k_stacks;
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#define get_k_stack_top(cpu) ((void *)(((char*)(k_stacks)) \
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+ 2 * ((cpu) + 1) * K_STACK_SIZE))
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void mfence(void);
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#define barrier() do { mfence(); } while(0)
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#ifndef __GNUC__
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/* call a function to read the stack fram pointer (%ebp) */
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reg_t read_ebp(void);
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#define get_stack_frame(__X) ((reg_t)read_ebp())
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#else
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/* read %ebp directly */
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#define get_stack_frame(__X) ((reg_t)__builtin_frame_address(0))
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#endif
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/*
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* sets up TSS for a cpu and assigns kernel stack and cpu id
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*/
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int tss_init(unsigned cpu, void * kernel_stack);
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void int_gate_idt(unsigned vec_nr, vir_bytes offset, unsigned dpl_type);
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void __copy_msg_from_user_end(void);
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void __copy_msg_to_user_end(void);
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void __user_copy_msg_pointer_failure(void);
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int platform_tbl_checksum_ok(void *ptr, unsigned int length);
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int platform_tbl_ptr(phys_bytes start, phys_bytes end, unsigned
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increment, void * buff, unsigned size, phys_bytes * phys_addr, int ((*
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cmp_f)(void *)));
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/* breakpoints.c */
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int breakpoint_set(phys_bytes linaddr, int bp, const int flags);
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#define BREAKPOINT_COUNT 4
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#define BREAKPOINT_FLAG_RW_MASK (3 << 0)
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#define BREAKPOINT_FLAG_RW_EXEC (0 << 0)
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#define BREAKPOINT_FLAG_RW_WRITE (1 << 0)
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#define BREAKPOINT_FLAG_RW_RW (2 << 0)
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#define BREAKPOINT_FLAG_LEN_MASK (3 << 2)
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#define BREAKPOINT_FLAG_LEN_1 (0 << 2)
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#define BREAKPOINT_FLAG_LEN_2 (1 << 2)
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#define BREAKPOINT_FLAG_LEN_4 (2 << 2)
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#define BREAKPOINT_FLAG_MODE_MASK (3 << 4)
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#define BREAKPOINT_FLAG_MODE_OFF (0 << 4)
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#define BREAKPOINT_FLAG_MODE_LOCAL (1 << 4)
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#define BREAKPOINT_FLAG_MODE_GLOBAL (2 << 4)
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/* functions defined in architecture-independent kernel source. */
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#include "kernel/proto.h"
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#endif /* __ASSEMBLY__ */
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#endif
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