/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Welcome to the world of the "real mode platter". * See also startup.c, mpcore.s and apic.c for related routines. */ #include #include #include #include #include #include #include #include #include #include #include #include #include extern void real_mode_start(void); extern void real_mode_end(void); /* * Fill up the real mode platter to make it easy for real mode code to * kick it off. This area should really be one passed by boot to kernel * and guaranteed to be below 1MB and aligned to 16 bytes. Should also * have identical physical and virtual address in paged mode. */ static ushort_t *warm_reset_vector = NULL; int mach_cpucontext_init(void) { ushort_t *vec; if (!(vec = (ushort_t *)psm_map_phys(WARM_RESET_VECTOR, sizeof (vec), PROT_READ | PROT_WRITE))) return (-1); /* * setup secondary cpu bios boot up vector */ *vec = (ushort_t)((caddr_t) ((struct rm_platter *)rm_platter_va)->rm_code - rm_platter_va + ((ulong_t)rm_platter_va & 0xf)); vec[1] = (ushort_t)(rm_platter_pa >> 4); warm_reset_vector = vec; bcopy((caddr_t)real_mode_start, (caddr_t)((rm_platter_t *)rm_platter_va)->rm_code, (size_t)real_mode_end - (size_t)real_mode_start); return (0); } void mach_cpucontext_fini(void) { if (warm_reset_vector) psm_unmap_phys((caddr_t)warm_reset_vector, sizeof (warm_reset_vector)); hat_unload(kas.a_hat, (caddr_t)(uintptr_t)rm_platter_pa, MMU_PAGESIZE, HAT_UNLOAD); } #if defined(__amd64) extern void *long_mode_64(void); #endif /* __amd64 */ void * mach_cpucontext_alloc(struct cpu *cp) { rm_platter_t *rm = (rm_platter_t *)rm_platter_va; struct cpu_tables *ct; struct tss *ntss; /* * Allocate space for page directory, stack, tss, gdt and idt. * The page directory has to be page aligned */ ct = kmem_zalloc(sizeof (*ct), KM_SLEEP); if ((uintptr_t)ct & ~MMU_STD_PAGEMASK) panic("mp_startup_init: cpu%d misaligned tables", cp->cpu_id); ntss = cp->cpu_tss = &ct->ct_tss; #if defined(__amd64) /* * #DF (double fault). */ ntss->tss_ist1 = (uint64_t)&ct->ct_stack[sizeof (ct->ct_stack)]; #elif defined(__i386) ntss->tss_esp0 = ntss->tss_esp1 = ntss->tss_esp2 = ntss->tss_esp = (uint32_t)&ct->ct_stack[sizeof (ct->ct_stack)]; ntss->tss_ss0 = ntss->tss_ss1 = ntss->tss_ss2 = ntss->tss_ss = KDS_SEL; ntss->tss_eip = (uint32_t)cp->cpu_thread->t_pc; ntss->tss_cs = KCS_SEL; ntss->tss_ds = ntss->tss_es = KDS_SEL; ntss->tss_fs = KFS_SEL; ntss->tss_gs = KGS_SEL; #endif /* __i386 */ /* * Set I/O bit map offset equal to size of TSS segment limit * for no I/O permission map. This will cause all user I/O * instructions to generate #gp fault. */ ntss->tss_bitmapbase = sizeof (*ntss); /* * Setup kernel tss. */ set_syssegd((system_desc_t *)&cp->cpu_gdt[GDT_KTSS], cp->cpu_tss, sizeof (*cp->cpu_tss) -1, SDT_SYSTSS, SEL_KPL); /* * Now copy all that we've set up onto the real mode platter * for the real mode code to digest as part of starting the cpu. */ rm->rm_idt_base = cp->cpu_idt; rm->rm_idt_lim = sizeof (idt0) - 1; rm->rm_gdt_base = cp->cpu_gdt; rm->rm_gdt_lim = ((sizeof (*cp->cpu_gdt) * NGDT)) -1; rm->rm_pdbr = getcr3(); rm->rm_cpu = cp->cpu_id; rm->rm_x86feature = x86_feature; rm->rm_cr4 = getcr4(); #if defined(__amd64) if (getcr3() > 0xffffffffUL) panic("Cannot initialize CPUs; kernel's 64-bit page tables\n" "located above 4G in physical memory (@ 0x%lx)", getcr3()); /* * Setup pseudo-descriptors for temporary GDT and IDT for use ONLY * by code in real_mode_start(): * * GDT[0]: NULL selector * GDT[1]: 64-bit CS: Long = 1, Present = 1, bits 12, 11 = 1 * * Clear the IDT as interrupts will be off and a limit of 0 will cause * the CPU to triple fault and reset on an NMI, seemingly as reasonable * a course of action as any other, though it may cause the entire * platform to reset in some cases... */ rm->rm_temp_gdt[0] = 0; rm->rm_temp_gdt[TEMPGDT_KCODE64] = 0x20980000000000ULL; rm->rm_temp_gdt_lim = (ushort_t)(sizeof (rm->rm_temp_gdt) - 1); rm->rm_temp_gdt_base = rm_platter_pa + (uint32_t)offsetof(rm_platter_t, rm_temp_gdt); rm->rm_temp_idt_lim = 0; rm->rm_temp_idt_base = 0; /* * Since the CPU needs to jump to protected mode using an identity * mapped address, we need to calculate it here. */ rm->rm_longmode64_addr = rm_platter_pa + ((uint32_t)long_mode_64 - (uint32_t)real_mode_start); #endif /* __amd64 */ return (ct); } /*ARGSUSED*/ void mach_cpucontext_free(struct cpu *cp, void *arg, int err) { struct cpu_tables *ct = arg; ASSERT(&ct->ct_tss == cp->cpu_tss); switch (err) { case 0: break; case ETIMEDOUT: /* * The processor was poked, but failed to start before * we gave up waiting for it. In case it starts later, * don't free anything. */ break; default: /* * Some other, passive, error occurred. */ kmem_free(ct, sizeof (*ct)); cp->cpu_tss = NULL; break; } } /* * "Enter monitor." Called via cross-call from stop_other_cpus(). */ void mach_cpu_halt(char *msg) { if (msg) prom_printf("%s\n", msg); /*CONSTANTCONDITION*/ while (1) ; } void mach_cpu_idle(void) { i86_halt(); } void mach_cpu_pause(volatile char *safe) { /* * This cpu is now safe. */ *safe = PAUSE_WAIT; membar_enter(); /* make sure stores are flushed */ /* * Now we wait. When we are allowed to continue, safe * will be set to PAUSE_IDLE. */ while (*safe != PAUSE_IDLE) SMT_PAUSE(); } /* * Power on CPU. */ /*ARGSUSED*/ int mp_cpu_poweron(struct cpu *cp) { ASSERT(MUTEX_HELD(&cpu_lock)); return (ENOTSUP); /* not supported */ } /* * Power off CPU. */ /*ARGSUSED*/ int mp_cpu_poweroff(struct cpu *cp) { ASSERT(MUTEX_HELD(&cpu_lock)); return (ENOTSUP); /* not supported */ }