/* * 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 /* for bootops */ #include #include #include #include #include #include #include #include /* * External Routines: */ extern void map_wellknown_devices(void); extern void hsvc_setup(void); extern void mach_descrip_startup_init(void); extern void mach_soft_state_init(void); int dcache_size; int dcache_linesize; int icache_size; int icache_linesize; int ecache_size; int ecache_alignsize; int ecache_associativity; int ecache_setsize; /* max possible e$ setsize */ int cpu_setsize; /* max e$ setsize of configured cpus */ int dcache_line_mask; /* spitfire only */ int vac_size; /* cache size in bytes */ uint_t vac_mask; /* VAC alignment consistency mask */ int vac_shift; /* log2(vac_size) for ppmapout() */ int vac = 0; /* virtual address cache type (none == 0) */ /* * fpRAS. An individual sun4* machine class (or perhaps subclass, * eg sun4u/cheetah) must set fpras_implemented to indicate that it implements * the fpRAS feature. The feature can be suppressed by setting fpras_disable * or the mechanism can be disabled for individual copy operations with * fpras_disableids. All these are checked in post_startup() code so * fpras_disable and fpras_disableids can be set in /etc/system. * If/when fpRAS is implemented on non-sun4 architectures these * definitions will need to move up to the common level. */ int fpras_implemented; int fpras_disable; int fpras_disableids; /* * Static Routines: */ static void kern_splr_preprom(void); static void kern_splx_postprom(void); /* * 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, void *cif, kfpu_t *fp) { struct machpcb *mpcb; extern char t0stack[]; extern struct classfuncs sys_classfuncs; extern disp_t cpu0_disp; unsigned long long pa; #ifdef TRAPTRACE TRAP_TRACE_CTL *ctlp; #endif /* TRAPTRACE */ /* * initialize cpu_self */ cpu0.cpu_self = &cpu0; /* * initialize t0 */ t0.t_stk = (caddr_t)rp - REGOFF; /* Can't use va_to_pa here - wait until prom_ initialized */ 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 = &cpu0; /* loaded by _start */ 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_procp = &p0; lwp0.lwp_regs = (void *)rp; t0.t_tid = p0.p_lwpcnt = p0.p_lwprcnt = p0.p_lwpid = 1; mpcb = lwptompcb(&lwp0); mpcb->mpcb_fpu = fp; mpcb->mpcb_fpu->fpu_q = mpcb->mpcb_fpu_q; mpcb->mpcb_thread = &t0; lwp0.lwp_fpu = (void *)mpcb->mpcb_fpu; 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_utraps = NULL; p0.p_brkpageszc = 0; sigorset(&p0.p_ignore, &ignoredefault); CPU->cpu_thread = &t0; CPU->cpu_dispthread = &t0; bzero(&cpu0_disp, sizeof (disp_t)); CPU->cpu_disp = &cpu0_disp; CPU->cpu_disp->disp_cpu = CPU; CPU->cpu_idle_thread = &t0; CPU->cpu_flags = CPU_RUNNING; CPU->cpu_id = getprocessorid(); CPU->cpu_dispatch_pri = t0.t_pri; /* * 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); prom_init("kernel", cif); (void) prom_set_preprom(kern_splr_preprom); (void) prom_set_postprom(kern_splx_postprom); PRM_INFO("mlsetup: now ok to call prom_printf"); mpcb->mpcb_pa = va_to_pa(t0.t_stk); /* * Claim the physical and virtual resources used by panicbuf, * then map panicbuf. This operation removes the phys and * virtual addresses from the free lists. */ if (prom_claim_virt(PANICBUFSIZE, panicbuf) != panicbuf) prom_panic("Can't claim panicbuf virtual address"); if (prom_retain("panicbuf", PANICBUFSIZE, MMU_PAGESIZE, &pa) != 0) prom_panic("Can't allocate retained panicbuf physical address"); if (prom_map_phys(-1, PANICBUFSIZE, panicbuf, pa) != 0) prom_panic("Can't map panicbuf"); PRM_DEBUG(panicbuf); PRM_DEBUG(pa); /* * Negotiate hypervisor services, if any */ hsvc_setup(); mach_soft_state_init(); #ifdef TRAPTRACE /* * initialize the trap trace buffer for the boot cpu * XXX todo, dynamically allocate this buffer too */ ctlp = &trap_trace_ctl[CPU->cpu_id]; ctlp->d.vaddr_base = trap_tr0; ctlp->d.offset = ctlp->d.last_offset = 0; ctlp->d.limit = TRAP_TSIZE; /* XXX dynamic someday */ ctlp->d.paddr_base = va_to_pa(trap_tr0); #endif /* TRAPTRACE */ /* * Initialize the Machine Description kernel framework */ mach_descrip_startup_init(); /* * initialize HV trap trace buffer for the boot cpu */ mach_htraptrace_setup(CPU->cpu_id); mach_htraptrace_configure(CPU->cpu_id); /* * lgroup framework initialization. This must be done prior * to devices being mapped. */ lgrp_init(); cpu_setup(); if (boothowto & RB_HALT) { prom_printf("unix: kernel halted by -h flag\n"); prom_enter_mon(); } setcputype(); map_wellknown_devices(); setcpudelay(); /* * Associate the boot cpu with a physical processor. * This needs to be done after devices are mapped, since * we need to know what type of physical processor this is. * (CMP for example) */ chip_cpu_init(CPU); chip_cpu_assign(CPU); } /* * These routines are called immediately before and * immediately after calling into the firmware. The * firmware is significantly confused by preemption - * particularly on MP machines - but also on UP's too. */ static int saved_spl; static void kern_splr_preprom(void) { saved_spl = spl7(); } static void kern_splx_postprom(void) { splx(saved_spl); }