/*
- * Copyright (c) 2000-2009 Apple Inc. All rights reserved.
+ * Copyright (c) 2000-2012 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
#include <kern/cpu_data.h>
#include <mach/mach_types.h>
#include <mach/machine.h>
-#include <kern/etimer.h>
#include <mach/vm_map.h>
#include <mach/machine/vm_param.h>
#include <vm/vm_kern.h>
#include <kern/misc_protos.h>
-#ifdef __x86_64__
#define K_INTR_GATE (ACC_P|ACC_PL_K|ACC_INTR_GATE)
#define U_INTR_GATE (ACC_P|ACC_PL_U|ACC_INTR_GATE)
#define TRAP(n, name) extern void *name ;
#define TRAP_ERR(n, name) extern void *name ;
#define TRAP_SPC(n, name) extern void *name ;
-#define TRAP_IST(n, name) extern void *name ;
+#define TRAP_IST1(n, name) extern void *name ;
+#define TRAP_IST2(n, name) extern void *name ;
#define INTERRUPT(n) extern void *_intr_ ## n ;
#define USER_TRAP(n, name) extern void *name ;
#define USER_TRAP_SPC(n, name) extern void *name ;
#undef TRAP
#undef TRAP_ERR
#undef TRAP_SPC
-#undef TRAP_IST
+#undef TRAP_IST1
+#undef TRAP_IST2
#undef INTERRUPT
#undef USER_TRAP
#undef USER_TRAP_SPC
#define TRAP_ERR TRAP
#define TRAP_SPC TRAP
-#define TRAP_IST(n, name) \
+#define TRAP_IST1(n, name) \
[n] = { \
(uintptr_t)&name, \
KERNEL64_CS, \
0 \
},
+#define TRAP_IST2(n, name) \
+ [n] = { \
+ (uintptr_t)&name, \
+ KERNEL64_CS, \
+ 2, \
+ K_INTR_GATE, \
+ 0 \
+ },
+
#define INTERRUPT(n) \
[n] = { \
(uintptr_t)&_intr_ ## n,\
__attribute__ ((aligned(PAGE_SIZE))) = {
#include "../x86_64/idt_table.h"
};
-#endif
-
-/*
- * The i386 needs an interrupt stack to keep the PCB stack from being
- * overrun by interrupts. All interrupt stacks MUST lie at lower addresses
- * than any thread`s kernel stack.
- */
/*
* First cpu`s interrupt stack.
* The master cpu (cpu 0) has its data area statically allocated;
* others are allocated dynamically and this array is updated at runtime.
*/
-cpu_data_t cpu_data_master = {
+static cpu_data_t cpu_data_master = {
.cpu_this = &cpu_data_master,
.cpu_nanotime = &pal_rtc_nanotime_info,
.cpu_int_stack_top = (vm_offset_t) low_eintstack,
-#ifdef __i386__
- .cpu_is64bit = FALSE,
-#else
- .cpu_is64bit = TRUE
-#endif
};
cpu_data_t *cpu_data_ptr[MAX_CPUS] = { [0] = &cpu_data_master };
unsigned int real_ncpus = 1;
unsigned int max_ncpus = MAX_CPUS;
-#ifdef __i386__
-extern void *hi_remap_text;
-#define HI_TEXT(lo_text) \
- (((uint32_t)&lo_text - (uint32_t)&hi_remap_text) + HIGH_MEM_BASE)
-
-extern void hi_sysenter(void);
-
-typedef struct {
- uint16_t length;
- uint32_t offset[2];
-} __attribute__((__packed__)) table_descriptor64_t;
-
-extern table_descriptor64_t gdtptr64;
-extern table_descriptor64_t idtptr64;
-#endif
extern void hi64_sysenter(void);
extern void hi64_syscall(void);
-#if defined(__x86_64__) && !defined(UBER64)
-#define UBER64(x) ((uintptr_t)x)
-#endif
-
/*
* Multiprocessor i386/i486 systems use a separate copy of the
* GDT, IDT, LDT, and kernel TSS per processor. The first three
}
}
-#ifdef __i386__
-void
-cpu_desc_init(cpu_data_t *cdp)
-{
- cpu_desc_index_t *cdi = &cdp->cpu_desc_index;
-
- if (cdp == &cpu_data_master) {
- /*
- * Fix up the entries in the GDT to point to
- * this LDT and this TSS.
- */
- struct fake_descriptor temp_fake_desc;
- temp_fake_desc = ldt_desc_pattern;
- temp_fake_desc.offset = (vm_offset_t) &master_ldt;
- fix_desc(&temp_fake_desc, 1);
- *(struct fake_descriptor *) &master_gdt[sel_idx(KERNEL_LDT)] =
- temp_fake_desc;
- *(struct fake_descriptor *) &master_gdt[sel_idx(USER_LDT)] =
- temp_fake_desc;
-
- temp_fake_desc = tss_desc_pattern;
- temp_fake_desc.offset = (vm_offset_t) &master_ktss;
- fix_desc(&temp_fake_desc, 1);
- *(struct fake_descriptor *) &master_gdt[sel_idx(KERNEL_TSS)] =
- temp_fake_desc;
-
- temp_fake_desc = cpudata_desc_pattern;
- temp_fake_desc.offset = (vm_offset_t) &cpu_data_master;
- fix_desc(&temp_fake_desc, 1);
- *(struct fake_descriptor *) &master_gdt[sel_idx(CPU_DATA_GS)] =
- temp_fake_desc;
-
- fix_desc((void *)&master_idt, IDTSZ);
-
- cdi->cdi_idt.ptr = master_idt;
- cdi->cdi_gdt.ptr = (void *)master_gdt;
-
-
- /*
- * Master CPU uses the tables built at boot time.
- * Just set the index pointers to the high shared-mapping space.
- * Note that the sysenter stack uses empty space above the ktss
- * in the HIGH_FIXED_KTSS page. In this case we don't map the
- * the real master_sstk in low memory.
- */
- cdi->cdi_ktss = (struct i386_tss *)
- pmap_index_to_virt(HIGH_FIXED_KTSS) ;
- cdi->cdi_sstk = (vm_offset_t) (cdi->cdi_ktss + 1) +
- (vm_offset_t) &master_sstk.top -
- (vm_offset_t) &master_sstk;
- } else {
- cpu_desc_table_t *cdt = (cpu_desc_table_t *) cdp->cpu_desc_tablep;
-
- vm_offset_t cpu_hi_desc;
-
- cpu_hi_desc = pmap_cpu_high_shared_remap(
- cdp->cpu_number,
- HIGH_CPU_DESC,
- (vm_offset_t) cdt, 1);
-
- /*
- * Per-cpu GDT, IDT, LDT, KTSS descriptors are allocated in one
- * block (cpu_desc_table) and double-mapped into high shared space
- * in one page window.
- * Also, a transient stack for the fast sysenter path. The top of
- * which is set at context switch time to point to the PCB using
- * the high address.
- */
- cdi->cdi_gdt.ptr = (struct fake_descriptor *) (cpu_hi_desc +
- offsetof(cpu_desc_table_t, gdt[0]));
- cdi->cdi_idt.ptr = (struct fake_descriptor *) (cpu_hi_desc +
- offsetof(cpu_desc_table_t, idt[0]));
- cdi->cdi_ktss = (struct i386_tss *) (cpu_hi_desc +
- offsetof(cpu_desc_table_t, ktss));
- cdi->cdi_sstk = cpu_hi_desc + offsetof(cpu_desc_table_t, sstk.top);
-
- /*
- * LDT descriptors are mapped into a seperate area.
- */
- cdi->cdi_ldt = (struct fake_descriptor *)
- pmap_cpu_high_shared_remap(
- cdp->cpu_number,
- HIGH_CPU_LDT_BEGIN,
- (vm_offset_t) cdp->cpu_ldtp,
- HIGH_CPU_LDT_END - HIGH_CPU_LDT_BEGIN + 1);
-
- /*
- * Copy the tables
- */
- bcopy((char *)master_idt, (char *)cdt->idt, sizeof(master_idt));
- bcopy((char *)master_gdt, (char *)cdt->gdt, sizeof(master_gdt));
- bcopy((char *)master_ldt, (char *)cdp->cpu_ldtp, sizeof(master_ldt));
- bzero((char *)&cdt->ktss, sizeof(struct i386_tss));
-
- /*
- * Fix up the entries in the GDT to point to
- * this LDT and this TSS.
- */
- struct fake_descriptor temp_ldt = ldt_desc_pattern;
- temp_ldt.offset = (vm_offset_t)cdi->cdi_ldt;
- fix_desc(&temp_ldt, 1);
-
- cdt->gdt[sel_idx(KERNEL_LDT)] = temp_ldt;
- cdt->gdt[sel_idx(USER_LDT)] = temp_ldt;
-
- cdt->gdt[sel_idx(KERNEL_TSS)] = tss_desc_pattern;
- cdt->gdt[sel_idx(KERNEL_TSS)].offset = (vm_offset_t) cdi->cdi_ktss;
- fix_desc(&cdt->gdt[sel_idx(KERNEL_TSS)], 1);
-
- cdt->gdt[sel_idx(CPU_DATA_GS)] = cpudata_desc_pattern;
- cdt->gdt[sel_idx(CPU_DATA_GS)].offset = (vm_offset_t) cdp;
- fix_desc(&cdt->gdt[sel_idx(CPU_DATA_GS)], 1);
-
- cdt->ktss.ss0 = KERNEL_DS;
- cdt->ktss.io_bit_map_offset = 0x0FFF; /* no IO bitmap */
-
- cpu_userwindow_init(cdp->cpu_number);
- cpu_physwindow_init(cdp->cpu_number);
-
- }
-}
-#endif /* __i386__ */
void
cpu_desc_init64(cpu_data_t *cdp)
*/
cdi->cdi_ktss = (void *)&master_ktss64;
cdi->cdi_sstk = (vm_offset_t) &master_sstk.top;
-#if __x86_64__
cdi->cdi_gdt.ptr = (void *)MASTER_GDT_ALIAS;
cdi->cdi_idt.ptr = (void *)MASTER_IDT_ALIAS;
-#else
- cdi->cdi_gdt.ptr = (void *)master_gdt;
- cdi->cdi_idt.ptr = (void *)master_idt64;
-#endif
cdi->cdi_ldt = (struct fake_descriptor *) master_ldt;
/* Replace the expanded LDTs and TSS slots in the GDT */
- kernel_ldt_desc64.offset64 = UBER64(&master_ldt);
+ kernel_ldt_desc64.offset64 = (uintptr_t) &master_ldt;
*(struct fake_descriptor64 *) &master_gdt[sel_idx(KERNEL_LDT)] =
kernel_ldt_desc64;
*(struct fake_descriptor64 *) &master_gdt[sel_idx(USER_LDT)] =
kernel_ldt_desc64;
- kernel_tss_desc64.offset64 = UBER64(&master_ktss64);
+ kernel_tss_desc64.offset64 = (uintptr_t) &master_ktss64;
*(struct fake_descriptor64 *) &master_gdt[sel_idx(KERNEL_TSS)] =
kernel_tss_desc64;
fix_desc64((void *) &master_gdt[sel_idx(KERNEL_TSS)], 1);
/*
- * Set the double-fault stack as IST1 in the 64-bit TSS
+ * Set the NMI/fault stacks as IST2/IST1 in the 64-bit TSS
+ * Note: this will be dynamically re-allocated in VM later.
*/
-#if __x86_64__
- master_ktss64.ist1 = (uintptr_t) low_eintstack;
-#else
- master_ktss64.ist1 = UBER64((uintptr_t) df_task_stack_end);
-#endif
+ master_ktss64.ist2 = (uintptr_t) low_eintstack;
+ master_ktss64.ist1 = (uintptr_t) low_eintstack
+ - sizeof(x86_64_intr_stack_frame_t);
} else {
cpu_desc_table64_t *cdt = (cpu_desc_table64_t *) cdp->cpu_desc_tablep;
* heap (cpu_desc_table).
* LDT descriptors are mapped into a separate area.
*/
-#if __x86_64__
cdi->cdi_idt.ptr = (void *)MASTER_IDT_ALIAS;
-#else
- cdi->cdi_idt.ptr = (void *)cdt->idt;
-#endif
cdi->cdi_gdt.ptr = (struct fake_descriptor *)cdt->gdt;
cdi->cdi_ktss = (void *)&cdt->ktss;
cdi->cdi_sstk = (vm_offset_t)&cdt->sstk.top;
/*
* Copy the tables
*/
-#if !__x86_64__
- bcopy((char *)master_idt64, (char *)cdt->idt, sizeof(master_idt64));
-#endif
bcopy((char *)master_gdt, (char *)cdt->gdt, sizeof(master_gdt));
bcopy((char *)master_ldt, (char *)cdp->cpu_ldtp, sizeof(master_ldt));
bcopy((char *)&master_ktss64, (char *)&cdt->ktss, sizeof(struct x86_64_tss));
* Fix up the entries in the GDT to point to
* this LDT and this TSS.
*/
- kernel_ldt_desc64.offset64 = UBER64(cdi->cdi_ldt);
+ kernel_ldt_desc64.offset64 = (uintptr_t) cdi->cdi_ldt;
*(struct fake_descriptor64 *) &cdt->gdt[sel_idx(KERNEL_LDT)] =
kernel_ldt_desc64;
fix_desc64(&cdt->gdt[sel_idx(KERNEL_LDT)], 1);
- kernel_ldt_desc64.offset64 = UBER64(cdi->cdi_ldt);
+ kernel_ldt_desc64.offset64 = (uintptr_t) cdi->cdi_ldt;
*(struct fake_descriptor64 *) &cdt->gdt[sel_idx(USER_LDT)] =
kernel_ldt_desc64;
fix_desc64(&cdt->gdt[sel_idx(USER_LDT)], 1);
- kernel_tss_desc64.offset64 = UBER64(cdi->cdi_ktss);
+ kernel_tss_desc64.offset64 = (uintptr_t) cdi->cdi_ktss;
*(struct fake_descriptor64 *) &cdt->gdt[sel_idx(KERNEL_TSS)] =
kernel_tss_desc64;
fix_desc64(&cdt->gdt[sel_idx(KERNEL_TSS)], 1);
- /* Set (zeroed) double-fault stack as IST1 */
- bzero((void *) cdt->dfstk, sizeof(cdt->dfstk));
- cdt->ktss.ist1 = UBER64((unsigned long)cdt->dfstk + sizeof(cdt->dfstk));
-#ifdef __i386__
- cdt->gdt[sel_idx(CPU_DATA_GS)] = cpudata_desc_pattern;
- cdt->gdt[sel_idx(CPU_DATA_GS)].offset = (vm_offset_t) cdp;
- fix_desc(&cdt->gdt[sel_idx(CPU_DATA_GS)], 1);
-
- /* Allocate copyio windows */
- cpu_userwindow_init(cdp->cpu_number);
- cpu_physwindow_init(cdp->cpu_number);
-#endif
+ /* Set (zeroed) fault stack as IST1, NMI intr stack IST2 */
+ bzero((void *) cdt->fstk, sizeof(cdt->fstk));
+ cdt->ktss.ist2 = (unsigned long)cdt->fstk + sizeof(cdt->fstk);
+ cdt->ktss.ist1 = cdt->ktss.ist2
+ - sizeof(x86_64_intr_stack_frame_t);
}
/* Require that the top of the sysenter stack is 16-byte aligned */
panic("cpu_desc_init64() sysenter stack not 16-byte aligned");
}
-#ifdef __i386__
-void
-cpu_desc_load(cpu_data_t *cdp)
-{
- cpu_desc_index_t *cdi = &cdp->cpu_desc_index;
-
- cdi->cdi_idt.size = 0x1000 + cdp->cpu_number;
- cdi->cdi_gdt.size = sizeof(struct real_descriptor)*GDTSZ - 1;
-
- lgdt((uintptr_t *) &cdi->cdi_gdt);
- lidt((uintptr_t *) &cdi->cdi_idt);
- lldt(KERNEL_LDT);
-
- set_tr(KERNEL_TSS);
-
- __asm__ volatile("mov %0, %%gs" : : "rm" ((unsigned short)(CPU_DATA_GS)));
-}
-#endif /* __i386__ */
void
cpu_desc_load64(cpu_data_t *cdp)
{
cpu_desc_index_t *cdi = &cdp->cpu_desc_index;
-#ifdef __i386__
- /*
- * Load up the new descriptors etc
- * ml_load_desc64() expects these global pseudo-descriptors:
- * gdtptr64 -> per-cpu gdt
- * idtptr64 -> per-cpu idt
- * These are 10-byte descriptors with 64-bit addresses into
- * uber-space.
- *
- * Refer to commpage/cpu_number.s for the IDT limit trick.
- */
- gdtptr64.length = GDTSZ * sizeof(struct real_descriptor) - 1;
- gdtptr64.offset[0] = (uint32_t) cdi->cdi_gdt.ptr;
- gdtptr64.offset[1] = KERNEL_UBER_BASE_HI32;
- idtptr64.length = 0x1000 + cdp->cpu_number;
- idtptr64.offset[0] = (uint32_t) cdi->cdi_idt.ptr;
- idtptr64.offset[1] = KERNEL_UBER_BASE_HI32;
-
- /* Make sure busy bit is cleared in the TSS */
- gdt_desc_p(KERNEL_TSS)->access &= ~ACC_TSS_BUSY;
-
- ml_load_desc64();
-#else
/* Load the GDT, LDT, IDT and TSS */
cdi->cdi_gdt.size = sizeof(struct real_descriptor)*GDTSZ - 1;
cdi->cdi_idt.size = 0x1000 + cdp->cpu_number;
#if GPROF // Hack to enable mcount to work on K64
__asm__ volatile("mov %0, %%gs" : : "rm" ((unsigned short)(KERNEL_DS)));
#endif
-#endif
}
-#ifdef __i386__
-/*
- * Set MSRs for sysenter/sysexit for 32-bit.
- */
-static void
-fast_syscall_init(__unused cpu_data_t *cdp)
-{
- wrmsr(MSR_IA32_SYSENTER_CS, SYSENTER_CS, 0);
- wrmsr(MSR_IA32_SYSENTER_EIP, HI_TEXT(hi_sysenter), 0);
- wrmsr(MSR_IA32_SYSENTER_ESP, current_sstk(), 0);
-}
-#endif
/*
* Set MSRs for sysenter/sysexit and syscall/sysret for 64-bit.
fast_syscall_init64(__unused cpu_data_t *cdp)
{
wrmsr64(MSR_IA32_SYSENTER_CS, SYSENTER_CS);
- wrmsr64(MSR_IA32_SYSENTER_EIP, UBER64((uintptr_t) hi64_sysenter));
- wrmsr64(MSR_IA32_SYSENTER_ESP, UBER64(current_sstk()));
+ wrmsr64(MSR_IA32_SYSENTER_EIP, (uintptr_t) hi64_sysenter);
+ wrmsr64(MSR_IA32_SYSENTER_ESP, current_sstk());
/* Enable syscall/sysret */
wrmsr64(MSR_IA32_EFER, rdmsr64(MSR_IA32_EFER) | MSR_IA32_EFER_SCE);
* Note USER_CS because sysret uses this + 16 when returning to
* 64-bit code.
*/
- wrmsr64(MSR_IA32_LSTAR, UBER64((uintptr_t) hi64_syscall));
+ wrmsr64(MSR_IA32_LSTAR, (uintptr_t) hi64_syscall);
wrmsr64(MSR_IA32_STAR, (((uint64_t)USER_CS) << 48) |
(((uint64_t)KERNEL64_CS) << 32));
/*
*/
wrmsr64(MSR_IA32_FMASK, EFL_DF|EFL_IF|EFL_TF|EFL_NT);
-#ifdef __i386__
- /*
- * Set the Kernel GS base MSR to point to per-cpu data in uber-space.
- * The uber-space handler (hi64_syscall) uses the swapgs instruction.
- */
- wrmsr64(MSR_IA32_KERNEL_GS_BASE, UBER64(cdp));
-
-#if ONLY_SAFE_FOR_LINDA_SERIAL
- kprintf("fast_syscall_init64() KERNEL_GS_BASE=0x%016llx\n",
- rdmsr64(MSR_IA32_KERNEL_GS_BASE));
-#endif
-#endif
}
bzero((void*) cdp, sizeof(cpu_data_t));
cdp->cpu_this = cdp;
- /* Propagate mode */
- cdp->cpu_is64bit = cpu_mode_is64bit();
-
/*
* Allocate interrupt stack:
*/
/*
* Allocate descriptor table:
- * Size depends on cpu mode.
*/
-
ret = kmem_alloc(kernel_map,
(vm_offset_t *) &cdp->cpu_desc_tablep,
- cdp->cpu_is64bit ? sizeof(cpu_desc_table64_t)
- : sizeof(cpu_desc_table_t));
+ sizeof(cpu_desc_table64_t));
if (ret != KERN_SUCCESS) {
printf("cpu_data_alloc() desc_table failed, ret=%d\n", ret);
goto abort;
if (cdp) {
if (cdp->cpu_desc_tablep)
kfree((void *) cdp->cpu_desc_tablep,
- sizeof(*cdp->cpu_desc_tablep));
+ sizeof(cpu_desc_table64_t));
if (cdp->cpu_int_stack_top)
kfree((void *) (cdp->cpu_int_stack_top - INTSTACK_SIZE),
INTSTACK_SIZE);
*/
cdp->cpu_copywindow_pdp = pmap_pde(kernel_pmap, user_window);
-#ifdef __i386__
- cpu_desc_index_t *cdi = &cdp->cpu_desc_index;
- cdi->cdi_gdt.ptr[sel_idx(USER_WINDOW_SEL)] = userwindow_desc_pattern;
- cdi->cdi_gdt.ptr[sel_idx(USER_WINDOW_SEL)].offset = user_window;
-
- fix_desc(&cdi->cdi_gdt.ptr[sel_idx(USER_WINDOW_SEL)], 1);
-#endif /* __i386__ */
}
void
cdp->cpu_physwindow_base = phys_window;
cdp->cpu_physwindow_ptep = vtopte(phys_window);
}
-#ifdef __i386__
- cpu_desc_index_t *cdi = &cdp->cpu_desc_index;
- cdi->cdi_gdt.ptr[sel_idx(PHYS_WINDOW_SEL)] = physwindow_desc_pattern;
- cdi->cdi_gdt.ptr[sel_idx(PHYS_WINDOW_SEL)].offset = phys_window;
-
- fix_desc(&cdi->cdi_gdt.ptr[sel_idx(PHYS_WINDOW_SEL)], 1);
-#endif /* __i386__ */
}
#endif /* NCOPY_WINDOWS > 0 */
void
cpu_mode_init(cpu_data_t *cdp)
{
-#ifdef __i386__
- if (cdp->cpu_is64bit) {
- cpu_IA32e_enable(cdp);
- cpu_desc_load64(cdp);
- fast_syscall_init64(cdp);
- } else {
- fast_syscall_init(cdp);
- }
-#else
fast_syscall_init64(cdp);
-#endif
}
-#if __x86_64__
/*
* Allocate a new interrupt stack for the boot processor from the
* heap rather than continue to use the statically allocated space.
cpu_data_realloc(void)
{
int ret;
- vm_offset_t stack;
+ vm_offset_t istk;
+ vm_offset_t fstk;
cpu_data_t *cdp;
boolean_t istate;
- ret = kmem_alloc(kernel_map, &stack, INTSTACK_SIZE);
+ ret = kmem_alloc(kernel_map, &istk, INTSTACK_SIZE);
if (ret != KERN_SUCCESS) {
panic("cpu_data_realloc() stack alloc, ret=%d\n", ret);
}
- bzero((void*) stack, INTSTACK_SIZE);
- stack += INTSTACK_SIZE;
+ bzero((void*) istk, INTSTACK_SIZE);
+ istk += INTSTACK_SIZE;
ret = kmem_alloc(kernel_map, (vm_offset_t *) &cdp, sizeof(cpu_data_t));
if (ret != KERN_SUCCESS) {
}
/* Copy old contents into new area and make fix-ups */
- bcopy((void *) &cpu_data_master, (void*) cdp, sizeof(cpu_data_t));
+ assert(cpu_number() == 0);
+ bcopy((void *) cpu_data_ptr[0], (void*) cdp, sizeof(cpu_data_t));
cdp->cpu_this = cdp;
- cdp->cpu_int_stack_top = stack;
- timer_call_initialize_queue(&cdp->rtclock_timer.queue);
+ cdp->cpu_int_stack_top = istk;
+ timer_call_queue_init(&cdp->rtclock_timer.queue);
- kprintf("Reallocated master cpu data: %p, interrupt stack top: %p\n",
- (void *) cdp, (void *) stack);
+ /* Allocate the separate fault stack */
+ ret = kmem_alloc(kernel_map, &fstk, PAGE_SIZE);
+ if (ret != KERN_SUCCESS) {
+ panic("cpu_data_realloc() fault stack alloc, ret=%d\n", ret);
+ }
+ bzero((void*) fstk, PAGE_SIZE);
+ fstk += PAGE_SIZE;
/*
* With interrupts disabled commmit the new areas.
*/
istate = ml_set_interrupts_enabled(FALSE);
cpu_data_ptr[0] = cdp;
+ master_ktss64.ist2 = (uintptr_t) fstk;
+ master_ktss64.ist1 = (uintptr_t) fstk
+ - sizeof(x86_64_intr_stack_frame_t);
wrmsr64(MSR_IA32_GS_BASE, (uintptr_t) cdp);
wrmsr64(MSR_IA32_KERNEL_GS_BASE, (uintptr_t) cdp);
(void) ml_set_interrupts_enabled(istate);
+
+ kprintf("Reallocated master cpu data: %p,"
+ " interrupt stack: %p, fault stack: %p\n",
+ (void *) cdp, (void *) istk, (void *) fstk);
}
-#endif /* __x86_64__ */
projects / apple / xnu.git / blobdiff