/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(__amd64) #include /* * XX64 This stuff deals with switching stacks in case a trapping * thread wants to call back into boot -after- boot has lost track * of the mappings but before the kernel owns the console. * * (A better way to hide this would be to add a 'this' pointer to * every boot syscall so that vmx could get at the resulting save * area.) */ struct boot_syscalls *_vmx_sysp; static struct boot_syscalls __kbootsvcs; extern struct boot_syscalls *sysp; extern void _stack_safe_putchar(int c); #endif /* * some globals for patching the result of cpuid * to solve problems w/ creative cpu vendors */ extern uint32_t cpuid_feature_ecx_include; extern uint32_t cpuid_feature_ecx_exclude; extern uint32_t cpuid_feature_edx_include; extern uint32_t cpuid_feature_edx_exclude; /* * Dummy spl priority masks */ static unsigned char dummy_cpu_pri[MAXIPL + 1] = { 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf, 0xf }; /* * External Routines: */ extern void init_tables(void); static uint32_t bootprop_getval(char *name) { char prop[32]; u_longlong_t ll; extern struct bootops *bootops; if ((BOP_GETPROPLEN(bootops, name) > sizeof (prop)) || (BOP_GETPROP(bootops, name, prop) < 0) || (kobj_getvalue(prop, &ll) == -1)) return (0); return ((uint32_t)ll); } /* * Setup routine called right before main(). Interposing this function * before main() allows us to call it in a machine-independent fashion. */ void mlsetup(struct regs *rp) { extern struct classfuncs sys_classfuncs; extern struct chip cpu0_chip; extern disp_t cpu0_disp; extern char t0stack[]; int boot_ncpus; ASSERT_STACK_ALIGNED(); #if defined(__amd64) #if (BS_VERSION > 4) /* * When new boot_syscalls are added to the vector, this routine * must be modified to copy them into the kernel's copy of the * vector. */ #error mlsetup() must be updated for amd64 to support new boot_syscalls #endif /* (BS_VERSION > 4) */ /* * XX64 This remaps vmx's putchar to use the kernel's version * that switches stacks before diving into vmx * See explanation/complaints in commentary above. */ _vmx_sysp = sysp; sysp = &__kbootsvcs; sysp->bsvc_getchar = _vmx_sysp->bsvc_getchar; sysp->bsvc_putchar = _stack_safe_putchar; sysp->bsvc_ischar = _vmx_sysp->bsvc_ischar; #endif /* * initialize cpu_self */ cpu[0]->cpu_self = cpu[0]; /* * Set up dummy cpu_pri_data values till psm spl code is * installed. This allows splx() to work on amd64. */ cpu[0]->cpu_pri_data = dummy_cpu_pri; /* * check if we've got special bits to clear or set * when checking cpu features */ cpuid_feature_ecx_include = bootprop_getval("cpuid_feature_ecx_include"); cpuid_feature_ecx_exclude = bootprop_getval("cpuid_feature_ecx_exclude"); cpuid_feature_edx_include = bootprop_getval("cpuid_feature_edx_include"); cpuid_feature_edx_exclude = bootprop_getval("cpuid_feature_edx_exclude"); /* * The first lightweight pass (pass0) through the cpuid data * was done in locore before mlsetup was called. Do the next * pass in C code. * * The x86_feature bits are set here on the basis of the capabilities * of the boot CPU. Note that if we choose to support CPUs that have * different feature sets (at which point we would almost certainly * want to set the feature bits to correspond to the feature * minimum) this value may be altered. */ x86_feature = cpuid_pass1(cpu[0]); /* * Initialize idt0, gdt0, ldt0_default, ktss0 and dftss. */ init_tables(); #if defined(__amd64) /*CSTYLED*/ { /* * setup %gs for the kernel */ wrmsr(MSR_AMD_GSBASE, (uint64_t)&cpus[0]); /* * XX64 We should never dereference off "other gsbase" or * "fsbase". So, we should arrange to point FSBASE and * KGSBASE somewhere truly awful e.g. point it at the last * valid address below the hole so that any attempts to index * off them cause an exception. * * For now, point it at 8G -- at least it should be unmapped * until some 64-bit processes run. */ wrmsr(MSR_AMD_FSBASE, 0x200000000UL); wrmsr(MSR_AMD_KGSBASE, 0x200000000UL); } #elif defined(__i386) /* * enable large page support right here. */ if (x86_feature & X86_LARGEPAGE) { cr4_value |= CR4_PSE; if (x86_feature & X86_PGE) cr4_value |= CR4_PGE; setup_121_andcall(enable_big_page_support, cr4_value); } /* * Some i386 processors do not implement the rdtsc instruction, * or at least they do not implement it correctly. * * For those that do, patch in the rdtsc instructions in * various parts of the kernel right now while the text is * still writable. */ if (x86_feature & X86_TSC) patch_tsc(); #endif /* * initialize t0 */ t0.t_stk = (caddr_t)rp - MINFRAME; t0.t_stkbase = t0stack; t0.t_pri = maxclsyspri - 3; t0.t_schedflag = TS_LOAD | TS_DONT_SWAP; t0.t_procp = &p0; t0.t_plockp = &p0lock.pl_lock; t0.t_lwp = &lwp0; t0.t_forw = &t0; t0.t_back = &t0; t0.t_next = &t0; t0.t_prev = &t0; t0.t_cpu = cpu[0]; t0.t_disp_queue = &cpu0_disp; t0.t_bind_cpu = PBIND_NONE; t0.t_bind_pset = PS_NONE; t0.t_cpupart = &cp_default; t0.t_clfuncs = &sys_classfuncs.thread; t0.t_copyops = NULL; THREAD_ONPROC(&t0, CPU); lwp0.lwp_thread = &t0; lwp0.lwp_regs = (void *) rp; lwp0.lwp_procp = &p0; t0.t_tid = p0.p_lwpcnt = p0.p_lwprcnt = p0.p_lwpid = 1; p0.p_exec = NULL; p0.p_stat = SRUN; p0.p_flag = SSYS; p0.p_tlist = &t0; p0.p_stksize = 2*PAGESIZE; p0.p_stkpageszc = 0; p0.p_as = &kas; p0.p_lockp = &p0lock; p0.p_brkpageszc = 0; sigorset(&p0.p_ignore, &ignoredefault); CPU->cpu_thread = &t0; bzero(&cpu0_disp, sizeof (disp_t)); CPU->cpu_disp = &cpu0_disp; CPU->cpu_disp->disp_cpu = CPU; CPU->cpu_dispthread = &t0; CPU->cpu_idle_thread = &t0; CPU->cpu_flags = CPU_READY | CPU_RUNNING | CPU_EXISTS | CPU_ENABLE; CPU->cpu_dispatch_pri = t0.t_pri; CPU->cpu_id = 0; CPU->cpu_tss = &ktss0; CPU->cpu_pri = 12; /* initial PIL for the boot CPU */ CPU->cpu_gdt = gdt0; /* * The kernel doesn't use LDTs unless a process explicitly requests one. */ p0.p_ldt_desc = zero_sdesc; /* * Kernel IDT. */ CPU->cpu_idt = idt0; /* * Initialize thread/cpu microstate accounting here */ init_mstate(&t0, LMS_SYSTEM); init_cpu_mstate(CPU, CMS_SYSTEM); /* * Initialize lists of available and active CPUs. */ cpu_list_init(CPU); cpu_vm_data_init(CPU); /* lgrp_init() needs PCI config space access */ pci_cfgspace_init(); /* * Initialize the lgrp framework */ lgrp_init(); /* * The lgroup code needs to at least know about a CPU's * chip association, but it's too early to fully initialize * cpu0_chip, since the device node for the boot CPU doesn't * exist yet. Initialize enough of it to get by until formal * initialization. */ CPU->cpu_rechoose = rechoose_interval; CPU->cpu_chip = &cpu0_chip; rp->r_fp = 0; /* terminate kernel stack traces! */ prom_init("kernel", (void *)NULL); boot_ncpus = bootprop_getval("boot-ncpus"); /* * To avoid wasting kernel memory, we're temporarily limiting the * total number of processors to 32 by default until we get the * capability to scan ACPI tables early on boot to detect how many * processors are actually present. However, 64-bit systems * can be booted with up to 64 processors by setting "boot-ncpus" * boot property to 64. */ if (boot_ncpus <= 0 || boot_ncpus > NCPU) boot_ncpus = 32; max_ncpus = boot_max_ncpus = boot_ncpus; if (boothowto & RB_HALT) { prom_printf("unix: kernel halted by -h flag\n"); prom_enter_mon(); } ASSERT_STACK_ALIGNED(); if (workaround_errata(CPU) != 0) panic("critical workaround(s) missing for boot cpu"); }