#ifndef __ARCH_DESC_H #define __ARCH_DESC_H #include /* * The layout of the GDT under Linux: * * 0 - null * 1 - not used * 2 - kernel code segment * 3 - kernel data segment * 4 - user code segment <-- new cacheline * 5 - user data segment * 6 - not used * 7 - not used * 8 - APM BIOS support <-- new cacheline * 9 - APM BIOS support * 10 - APM BIOS support * 11 - APM BIOS support * * The TSS+LDT descriptors are spread out a bit so that every CPU * has an exclusive cacheline for the per-CPU TSS and LDT: * * 12 - CPU#0 TSS <-- new cacheline * 13 - CPU#0 LDT * 14 - not used * 15 - not used * 16 - CPU#1 TSS <-- new cacheline * 17 - CPU#1 LDT * 18 - not used * 19 - not used * ... NR_CPUS per-CPU TSS+LDT's if on SMP * * Entry into gdt where to find first TSS. */ #define __FIRST_TSS_ENTRY 12 #define __FIRST_LDT_ENTRY (__FIRST_TSS_ENTRY+1) #define __TSS(n) (((n)<<2) + __FIRST_TSS_ENTRY) #define __LDT(n) (((n)<<2) + __FIRST_LDT_ENTRY) #ifndef __ASSEMBLY__ struct desc_struct { unsigned long a,b; }; extern struct desc_struct gdt_table[]; extern struct desc_struct *idt, *gdt; struct Xgt_desc_struct { unsigned short size; unsigned long address __attribute__((packed)); }; #define idt_descr (*(struct Xgt_desc_struct *)((char *)&idt - 2)) #define gdt_descr (*(struct Xgt_desc_struct *)((char *)&gdt - 2)) #define load_TR(n) __asm__ __volatile__("ltr %%ax"::"a" (__TSS(n)<<3)) #define __load_LDT(n) __asm__ __volatile__("lldt %%ax"::"a" (__LDT(n)<<3)) /* * This is the ldt that every process will get unless we need * something other than this. */ extern struct desc_struct default_ldt[]; extern void set_intr_gate(unsigned int irq, void * addr); extern void set_ldt_desc(unsigned int n, void *addr, unsigned int size); extern void set_tss_desc(unsigned int n, void *addr); static inline void clear_LDT(void) { int cpu = smp_processor_id(); set_ldt_desc(cpu, &default_ldt[0], 5); __load_LDT(cpu); } /* * load one particular LDT into the current CPU */ static inline void load_LDT (mm_context_t *pc) { int cpu = smp_processor_id(); void *segments = pc->ldt; int count = pc->size; if (!count) { segments = &default_ldt[0]; count = 5; } set_ldt_desc(cpu, segments, count); __load_LDT(cpu); } #endif /* !__ASSEMBLY__ */ #endif