Please note that diffs are not public domain; they are subject to the copyright notices on the relevant files. =================================================================== RCS file: /ftp/cvs/cvsroot/src/sys/arch/i386/i386/locore.S,v rcsdiff: /ftp/cvs/cvsroot/src/sys/arch/i386/i386/locore.S,v: warning: Unknown phrases like `commitid ...;' are present. retrieving revision 1.40 retrieving revision 1.58.6.3 diff -u -p -r1.40 -r1.58.6.3 --- src/sys/arch/i386/i386/locore.S 2006/05/22 13:44:53 1.40 +++ src/sys/arch/i386/i386/locore.S 2008/01/08 22:10:00 1.58.6.3 @@ -1,7 +1,77 @@ -/* $NetBSD: locore.S,v 1.40 2006/05/22 13:44:53 yamt Exp $ */ +/* $NetBSD: locore.S,v 1.58.6.3 2008/01/08 22:10:00 bouyer Exp $ */ + +/* + * Copyright-o-rama! + */ + +/* + * Copyright (c) 2006 Manuel Bouyer. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * 3. All advertising materials mentioning features or use of this software + * must display the following acknowledgement: + * This product includes software developed by Manuel Bouyer. + * 4. The name of the author may not be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR + * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES + * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. + * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT + * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF + * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + */ + +/* + * Copyright (c) 2001 Wasabi Systems, Inc. + * All rights reserved. + * + * Written by Frank van der Linden for Wasabi Systems, Inc. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * 3. All advertising materials mentioning features or use of this software + * must display the following acknowledgement: + * This product includes software developed for the NetBSD Project by + * Wasabi Systems, Inc. + * 4. The name of Wasabi Systems, Inc. may not be used to endorse + * or promote products derived from this software without specific prior + * written permission. + * + * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED + * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR + * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC + * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + */ + /*- - * Copyright (c) 1998, 2000, 2004 The NetBSD Foundation, Inc. + * Copyright (c) 1998, 2000, 2004, 2006, 2007 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation @@ -70,20 +140,17 @@ * @(#)locore.s 7.3 (Berkeley) 5/13/91 */ -#include "opt_compat_netbsd.h" +#include +__KERNEL_RCSID(0, "$NetBSD: locore.S,v 1.58.6.3 2008/01/08 22:10:00 bouyer Exp $"); + #include "opt_compat_oldboot.h" -#include "opt_cputype.h" #include "opt_ddb.h" -#include "opt_ipkdb.h" -#include "opt_lockdebug.h" -#include "opt_multiprocessor.h" #include "opt_realmem.h" -#include "opt_user_ldt.h" #include "opt_vm86.h" +#include "opt_xen.h" #include "npx.h" #include "assym.h" -#include "apm.h" #include "lapic.h" #include "ioapic.h" #include "ksyms.h" @@ -95,60 +162,44 @@ #include #include #include - -#if NLAPIC > 0 #include -#endif - +#include +#include +#ifndef XEN #include - -/* LINTSTUB: include */ -/* LINTSTUB: include */ -/* LINTSTUB: include */ - -#include - -#if defined(MULTIPROCESSOR) - -#define SET_CURLWP(lwp,cpu) \ - movl CPUVAR(SELF),cpu ; \ - movl lwp,CPUVAR(CURLWP) ; \ - movl cpu,L_CPU(lwp) - -#else - -#define SET_CURLWP(lwp,tcpu) movl lwp,CPUVAR(CURLWP) -#define GET_CURLWP(reg) movl CPUVAR(CURLWP),reg - #endif -#define SET_CURPCB(reg) movl reg,CPUVAR(CURPCB) - -#define CLEAR_RESCHED(reg) movl reg,CPUVAR(RESCHED) - /* XXX temporary kluge; these should not be here */ /* Get definitions for IOM_BEGIN, IOM_END, and IOM_SIZE */ #include - -/* Disallow old names for REALBASEMEM */ -#ifdef BIOSBASEMEM -#error BIOSBASEMEM option deprecated; use REALBASEMEM only if memory size reported by latest boot block is incorrect -#endif - -/* Disallow old names for REALEXTMEM */ -#ifdef EXTMEM_SIZE -#error EXTMEM_SIZE option deprecated; use REALEXTMEM only if memory size reported by latest boot block is incorrect +#ifdef XEN +/* + * Xen guest identifier and loader selection + */ +.section __xen_guest +#ifdef XEN3 + .ascii "GUEST_OS=netbsd,GUEST_VER=3.0,XEN_VER=xen-3.0" +#if defined(DOM0OPS) || !defined(XEN_COMPAT_030001) + .ascii ",VIRT_BASE=0xc0000000" /* KERNBASE */ + .ascii ",ELF_PADDR_OFFSET=0xc0000000" /* KERNBASE */ +#else + .ascii ",VIRT_BASE=0xc0100000" /* KERNTEXTOFF */ + .ascii ",ELF_PADDR_OFFSET=0xc0100000" /* KERNTEXTOFF */ #endif -#ifdef BIOSEXTMEM -#error BIOSEXTMEM option deprecated; use REALEXTMEM only if memory size reported by latest boot block is incorrect + .ascii ",VIRT_ENTRY=0xc0100000" /* KERNTEXTOFF */ +#if !defined(XEN_COMPAT_030001) + .ascii ",HYPERCALL_PAGE=0x00000101" + /* (???+HYPERCALL_PAGE_OFFSET)/PAGE_SIZE) */ +#endif +#else /* !XEN3 */ + .ascii "GUEST_OS=netbsd,GUEST_VER=2.0,XEN_VER=2.0" +#endif /* XEN3 */ + .ascii ",LOADER=generic" +#if (NKSYMS || defined(DDB) || defined(LKM)) && !defined(SYMTAB_SPACE) + .ascii ",BSD_SYMTAB=yes" #endif - -#include - - -#ifdef MULTIPROCESSOR -#include + .byte 0 #endif /* @@ -161,9 +212,7 @@ .globl _C_LABEL(atdevbase) .globl _C_LABEL(proc0uarea),_C_LABEL(PDPpaddr) .globl _C_LABEL(gdt) -#ifdef I586_CPU .globl _C_LABEL(idt) -#endif .globl _C_LABEL(lapic_tpr) #if NLAPIC > 0 @@ -189,18 +238,20 @@ _C_LABEL(lapic_tpr): .long 0 #endif - -_C_LABEL(cpu): .long 0 # are we 386, 386sx, or 486, - # or Pentium, or.. +_C_LABEL(cpu): .long 0 # are we 80486, Pentium, or.. _C_LABEL(atdevbase): .long 0 # location of start of iomem in virtual _C_LABEL(proc0uarea): .long 0 _C_LABEL(PDPpaddr): .long 0 # paddr of PDP, for libkvm +_C_LABEL(tablesize): .long 0 - .space 512 + .space 1024 tmpstk: - +#ifndef XEN #define _RELOC(x) ((x) - KERNBASE) +#else +#define _RELOC(x) ((x)) +#endif /* XEN */ #define RELOC(x) _RELOC(_C_LABEL(x)) .text @@ -208,6 +259,7 @@ tmpstk: .set _C_LABEL(kernel_text),KERNTEXTOFF .globl start +#ifndef XEN start: movw $0x1234,0x472 # warm boot #if defined(MULTIBOOT) @@ -216,16 +268,10 @@ start: movw $0x1234,0x472 # warm boot .align 4 .globl Multiboot_Header _C_LABEL(Multiboot_Header): -#define MULTIBOOT_HEADER_FLAGS (MULTIBOOT_HEADER_WANT_MEMORY | \ - MULTIBOOT_HEADER_HAS_ADDR) +#define MULTIBOOT_HEADER_FLAGS (MULTIBOOT_HEADER_WANT_MEMORY) .long MULTIBOOT_HEADER_MAGIC .long MULTIBOOT_HEADER_FLAGS .long -(MULTIBOOT_HEADER_MAGIC + MULTIBOOT_HEADER_FLAGS) - .long RELOC(Multiboot_Header) - .long RELOC(start) - .long RELOC(_edata) - .long RELOC(_end) + MULTIBOOT_SYMTAB_SPACE - .long RELOC(start) 1: /* Check if we are being executed by a Multiboot-compliant boot @@ -233,10 +279,12 @@ _C_LABEL(Multiboot_Header): cmpl $MULTIBOOT_INFO_MAGIC,%eax jne 1f - /* Indeed, a multiboot-compliat boot loader executed us. We copy + /* + * Indeed, a multiboot-compliant boot loader executed us. We copy * the received Multiboot information structure into kernel's data * space to process it later -- after we are relocated. It will - * be safer to run complex C code than doing it at this point. */ + * be safer to run complex C code than doing it at this point. + */ pushl %ebx # Address of Multiboot information call _C_LABEL(multiboot_pre_reloc) addl $4,%esp @@ -247,7 +295,7 @@ _C_LABEL(Multiboot_Header): /* * At this point, we know that a NetBSD-specific boot loader * booted this kernel. The stack carries the following parameters: - * (boothowto, [bootdev], bootinfo, esym, biosbasemem, biosextmem), + * (boothowto, [bootdev], bootinfo, esym, biosextmem, biosbasemem), * 4 bytes each. */ addl $4,%esp # Discard return address to boot loader @@ -444,13 +492,27 @@ try586: /* Use the `cpuid' instruction. /* * Virtual address space of kernel: * - * text | data | bss | [syms] | page dir | proc0 kstack + * text | data | bss | [syms] | page dir | proc0 kstack | L1 ptp * 0 1 2 3 */ -#define PROC0PDIR ((0) * PAGE_SIZE) -#define PROC0STACK ((1) * PAGE_SIZE) -#define SYSMAP ((1+UPAGES) * PAGE_SIZE) -#define TABLESIZE ((1+UPAGES) * PAGE_SIZE) /* + nkpde * PAGE_SIZE */ + +#define PROC0_PDIR_OFF 0 +#define PROC0_STK_OFF (PROC0_PDIR_OFF + PAGE_SIZE) +#define PROC0_PTP1_OFF (PROC0_STK_OFF + UPAGES * PAGE_SIZE) + +/* + * fillkpt + * eax = pte (page frame | control | status) + * ebx = page table address + * ecx = number of pages to map + */ + +#define fillkpt \ +1: movl %eax,(%ebx) ; /* store phys addr */ \ + addl $4,%ebx ; /* next pte/pde */ \ + addl $PAGE_SIZE,%eax ; /* next phys page */ \ + loop 1b ; \ + /* Find end of kernel image. */ movl $RELOC(end),%edi @@ -464,67 +526,60 @@ try586: /* Use the `cpuid' instruction. 1: #endif - /* Calculate where to start the bootstrap tables. */ + /* Compute sizes */ movl %edi,%esi # edi = esym ? esym : end addl $PGOFSET,%esi # page align up andl $~PGOFSET,%esi - /* - * Calculate the size of the kernel page table directory, and - * how many entries it will have. Adjust nkpde to the actual - * kernel size automatically. Account for the bootstrap tables, - * round up, and add an extra 4MB. - */ - leal TABLESIZE+NBPD+PDOFSET(%edi),%eax - shrl $PDSHIFT,%eax - movl RELOC(nkpde),%ecx # get nkpde - cmpl %ecx,%eax - jb 1f - movl %eax,%ecx -1: cmpl $NKPTP_MIN,%ecx # larger than min? - jge 1f - movl $NKPTP_MIN,%ecx # set at min - jmp 2f -1: cmpl $NKPTP_MAX,%ecx # larger than max? - jle 2f - movl $NKPTP_MAX,%ecx -2: movl %ecx,RELOC(nkpde) - - /* Clear memory for bootstrap tables. */ - shll $PGSHIFT,%ecx - addl $TABLESIZE,%ecx - addl %esi,%ecx # end of tables - subl %edi,%ecx # size of tables - shrl $2,%ecx + /* nkptp[1] = (esi + ~L2_FRAME) >> L2_SHIFT + 1; */ + movl %esi,%eax + addl $~L2_FRAME,%eax + shrl $L2_SHIFT,%eax + incl %eax /* one more ptp for VAs stolen by bootstrap */ +1: movl %eax,RELOC(nkptp)+1*4 + + /* tablesize = (1 + UPAGES + nkptp) << PGSHIFT; */ + addl $(1+UPAGES),%eax + shll $PGSHIFT,%eax + movl %eax,RELOC(tablesize) + + /* ensure that nkptp covers bootstrap tables */ + addl %esi,%eax + addl $~L2_FRAME,%eax + shrl $L2_SHIFT,%eax + incl %eax + cmpl %eax,RELOC(nkptp)+1*4 + jnz 1b + + /* Clear tables */ + movl %esi,%edi xorl %eax,%eax cld + movl RELOC(tablesize),%ecx + shrl $2,%ecx rep stosl -/* - * fillkpt - * eax = pte (page frame | control | status) - * ebx = page table address - * ecx = number of pages to map - */ -#define fillkpt \ -1: movl %eax,(%ebx) ; \ - addl $PAGE_SIZE,%eax ; /* increment physical address */ \ - addl $4,%ebx ; /* next pte */ \ - loop 1b ; + leal (PROC0_PTP1_OFF)(%esi), %ebx /* * Build initial page tables. */ - /* Calculate end of text segment, rounded to a page. */ - leal (RELOC(etext)+PGOFSET),%edx + /* + * Compute &__data_start - KERNBASE. This can't be > 4G, + * or we can't deal with it anyway, since we can't load it in + * 32 bit mode. So use the bottom 32 bits. + */ + movl $RELOC(__data_start),%edx andl $~PGOFSET,%edx - /* Skip over the first 1MB. */ + /* + * Skip the first MB. + */ movl $_RELOC(KERNTEXTOFF),%eax movl %eax,%ecx - shrl $PGSHIFT,%ecx - leal (SYSMAP)(%esi,%ecx,4),%ebx + shrl $(PGSHIFT-2),%ecx /* ((n >> PGSHIFT) << 2) for # pdes */ + addl %ecx,%ebx /* Map the kernel text read-only. */ movl %edx,%ecx @@ -535,15 +590,13 @@ try586: /* Use the `cpuid' instruction. /* Map the data, BSS, and bootstrap tables read-write. */ leal (PG_V|PG_KW)(%edx),%eax - movl RELOC(nkpde),%ecx - shll $PGSHIFT,%ecx - addl $TABLESIZE,%ecx + movl RELOC(tablesize),%ecx addl %esi,%ecx # end of tables subl %edx,%ecx # subtract end of text shrl $PGSHIFT,%ecx fillkpt - /* Map ISA I/O memory. */ + /* Map ISA I/O mem (later atdevbase) */ movl $(IOM_BEGIN|PG_V|PG_KW/*|PG_N*/),%eax # having these bits set movl $(IOM_SIZE>>PGSHIFT),%ecx # for this many pte s, fillkpt @@ -551,28 +604,40 @@ try586: /* Use the `cpuid' instruction. /* * Construct a page table directory. */ - /* Install PDEs for temporary double map of kernel. */ - movl RELOC(nkpde),%ecx # for this many pde s, - leal (PROC0PDIR+0*4)(%esi),%ebx # which is where temp maps! - leal (SYSMAP+PG_V|PG_KW)(%esi),%eax # pte for KPT in proc 0, + /* Set up top level entries for identity mapping */ + leal (PROC0_PDIR_OFF)(%esi),%ebx + leal (PROC0_PTP1_OFF)(%esi),%eax + orl $(PG_V|PG_KW), %eax + movl RELOC(nkptp)+1*4,%ecx fillkpt - /* Map kernel PDEs. */ - movl RELOC(nkpde),%ecx # for this many pde s, - leal (PROC0PDIR+PDSLOT_KERN*4)(%esi),%ebx # kernel pde offset - leal (SYSMAP+PG_V|PG_KW)(%esi),%eax # pte for KPT in proc 0, + /* Set up top level entries for actual kernel mapping */ + leal (PROC0_PDIR_OFF + L2_SLOT_KERNBASE*4)(%esi),%ebx + leal (PROC0_PTP1_OFF)(%esi),%eax + orl $(PG_V|PG_KW), %eax + movl RELOC(nkptp)+1*4,%ecx fillkpt /* Install a PDE recursively mapping page directory as a page table! */ - leal (PROC0PDIR+PG_V|PG_KW)(%esi),%eax # pte for ptd - movl %eax,(PROC0PDIR+PDSLOT_PTE*4)(%esi) # recursive PD slot + leal (PROC0_PDIR_OFF + PDIR_SLOT_PTE*4)(%esi),%ebx + leal (PROC0_PDIR_OFF)(%esi),%eax + orl $(PG_V|PG_KW),%eax + movl %eax,(%ebx) + /* Save phys. addr of PDP, for libkvm. */ movl %esi,RELOC(PDPpaddr) - /* Load base of page directory and enable mapping. */ + /* + * Startup checklist: + * 1. Load %cr3 with pointer to PDIR. + */ movl %esi,%eax # phys address of ptd in proc 0 movl %eax,%cr3 # load ptd addr into mmu + + /* + * 2. Enable paging and the rest of it. + */ movl %cr0,%eax # get control word # enable paging & NPX emulation orl $(CR0_PE|CR0_PG|CR0_NE|CR0_TS|CR0_EM|CR0_MP),%eax @@ -582,23 +647,26 @@ try586: /* Use the `cpuid' instruction. ret begin: - /* Now running relocated at KERNBASE. Remove double mapping. */ - movl _C_LABEL(nkpde),%ecx # for this many pde s, - leal (PROC0PDIR+0*4)(%esi),%ebx # which is where temp maps! - addl $(KERNBASE), %ebx # now use relocated address + /* + * We have arrived. + * There's no need anymore for the identity mapping in low + * memory, remove it. + */ + movl _C_LABEL(nkptp)+1*4,%ecx + leal (PROC0_PDIR_OFF)(%esi),%ebx # old, phys address of PDIR + addl $(KERNBASE), %ebx # new, virtual address of PDIR 1: movl $0,(%ebx) - addl $4,%ebx # next pde + addl $4,%ebx loop 1b /* Relocate atdevbase. */ - movl _C_LABEL(nkpde),%edx - shll $PGSHIFT,%edx - addl $(TABLESIZE+KERNBASE),%edx + movl $KERNBASE,%edx + addl _C_LABEL(tablesize),%edx addl %esi,%edx movl %edx,_C_LABEL(atdevbase) /* Set up bootstrap stack. */ - leal (PROC0STACK+KERNBASE)(%esi),%eax + leal (PROC0_STK_OFF+KERNBASE)(%esi),%eax movl %eax,_C_LABEL(proc0uarea) leal (KSTACK_SIZE-FRAMESIZE)(%eax),%esp movl %esi,(KSTACK_SIZE+PCB_CR3)(%eax) # pcb->pcb_cr3 @@ -617,9 +685,7 @@ begin: call _C_LABEL(initgdt) addl $4,%esp - movl _C_LABEL(nkpde),%eax - shll $PGSHIFT,%eax - addl $TABLESIZE,%eax + movl _C_LABEL(tablesize),%eax addl %esi,%eax # skip past stack and page tables pushl %eax @@ -645,34 +711,126 @@ begin: #endif /* SAFARI_FIFO_HACK */ call _C_LABEL(main) +#else /* XEN */ +start: + /* First, reset the PSL. */ + pushl $PSL_MBO + popfl + + cld +#ifdef XEN3 + movl %esp, %ebx # save start of available space +#else + movl %esi,%ebx # save start_info pointer +#endif + movl $_RELOC(tmpstk),%esp # bootstrap stack end location + + /* Clear BSS first so that there are no surprises... */ + xorl %eax,%eax + movl $RELOC(__bss_start),%edi + movl $RELOC(_end),%ecx + subl %edi,%ecx + rep stosb + + /* Copy the necessary stuff from start_info structure. */ + /* We need to copy shared_info early, so that sti/cli work */ + movl $RELOC(start_info_union),%edi + movl $128,%ecx + rep movsl + + /* Clear segment registers; always null in proc0. */ + xorl %eax,%eax + movw %ax,%fs + movw %ax,%gs + decl %eax + movl %eax,RELOC(cpu_info_primary)+CPU_INFO_LEVEL + + xorl %eax,%eax + cpuid + movl %eax,RELOC(cpu_info_primary)+CPU_INFO_LEVEL + + call xen_pmap_bootstrap + /* + * First avail returned by xen_pmap_bootstrap in %eax + */ + movl %eax, %esi; + movl %esi, _C_LABEL(proc0uarea) + +#define PROC0PDIR ((0) * PAGE_SIZE) +#define PROC0STACK ((1) * PAGE_SIZE) + + /* Set up bootstrap stack. */ + leal (KSTACK_SIZE-FRAMESIZE)(%eax),%esp + xorl %ebp,%ebp # mark end of frames + + addl $USPACE, %esi + subl $KERNBASE, %esi #init386 want a physical address + pushl %esi + call _C_LABEL(init386) # wire 386 chip for unix operation + addl $4,%esp + call _C_LABEL(main) + +#if defined(XEN3) && !defined(XEN_COMPAT_030001) +/* space for the hypercall call page */ +#define HYPERCALL_PAGE_OFFSET 0x1000 +.org HYPERCALL_PAGE_OFFSET +ENTRY(hypercall_page) +.skip 0x1000 +#endif /* defined(XEN3) && !defined(XEN_COMPAT_030001) */ + +/* + * void lgdt_finish(void); + * Finish load a new GDT pointer (do any necessary cleanup). + * XXX It's somewhat questionable whether reloading all the segment registers + * is necessary, since the actual descriptor data is not changed except by + * process creation and exit, both of which clean up via task switches. OTOH, + * this only happens at run time when the GDT is resized. + */ +/* LINTSTUB: Func: void lgdt_finish(void) */ +NENTRY(lgdt_finish) + movl $GSEL(GDATA_SEL, SEL_KPL),%eax + movw %ax,%ds + movw %ax,%es + movw %ax,%gs + movw %ax,%ss + movl $GSEL(GCPU_SEL, SEL_KPL),%eax + movw %ax,%fs + /* Reload code selector by doing intersegment return. */ + popl %eax + pushl $GSEL(GCODE_SEL, SEL_KPL) + pushl %eax + lret + +#endif /* XEN */ /* - * void proc_trampoline(void); + * void lwp_trampoline(void); + * * This is a trampoline function pushed onto the stack of a newly created * process in order to do some additional setup. The trampoline is entered by * cpu_switch()ing to the process, so we abuse the callee-saved registers used * by cpu_switch() to store the information about the stub to call. * NOTE: This function does not have a normal calling sequence! */ -/* LINTSTUB: Func: void proc_trampoline(void) */ -NENTRY(proc_trampoline) -#ifdef MULTIPROCESSOR - call _C_LABEL(proc_trampoline_mp) -#endif - movl $IPL_NONE,CPUVAR(ILEVEL) +NENTRY(lwp_trampoline) + pushl %ebp + xorl %ebp,%ebp + pushl %eax + call _C_LABEL(lwp_startup) + addl $8,%esp pushl %ebx call *%esi addl $4,%esp - DO_DEFERRED_SWITCH(%eax) + DO_DEFERRED_SWITCH INTRFASTEXIT /* NOTREACHED */ -/*****************************************************************************/ -#ifdef COMPAT_16 /* - * Signal trampoline; copied to top of user stack. + * sigcode() + * + * Signal trampoline; copied to top of user stack. Used only for + * compatibility with old releases of NetBSD. */ -/* LINTSTUB: Var: char sigcode[1], esigcode[1]; */ NENTRY(sigcode) /* * Handler has returned here as if we called it. The sigcontext @@ -687,51 +845,12 @@ NENTRY(sigcode) int $0x80 # exit if sigreturn fails .globl _C_LABEL(esigcode) _C_LABEL(esigcode): -#endif - -/*****************************************************************************/ - -/* - * The following is i386-specific nonsense. - */ - -/* - * void lgdt(struct region_descriptor *rdp); - * Load a new GDT pointer (and do any necessary cleanup). - * XXX It's somewhat questionable whether reloading all the segment registers - * is necessary, since the actual descriptor data is not changed except by - * process creation and exit, both of which clean up via task switches. OTOH, - * this only happens at run time when the GDT is resized. - */ -/* LINTSTUB: Func: void lgdt(struct region_descriptor *rdp) */ -NENTRY(lgdt) - /* Reload the descriptor table. */ - movl 4(%esp),%eax - lgdt (%eax) - /* Flush the prefetch queue. */ - jmp 1f - nop -1: /* Reload "stale" selectors. */ - movl $GSEL(GDATA_SEL, SEL_KPL),%eax - movw %ax,%ds - movw %ax,%es - movw %ax,%gs - movw %ax,%ss - movl $GSEL(GCPU_SEL, SEL_KPL),%eax - movw %ax,%fs - /* Reload code selector by doing intersegment return. */ - popl %eax - pushl $GSEL(GCODE_SEL, SEL_KPL) - pushl %eax - lret - -/*****************************************************************************/ /* - * These functions are primarily used by DDB. + * int setjmp(label_t *) + * + * Used primarily by DDB. */ - -/* LINTSTUB: Func: int setjmp (label_t *l) */ ENTRY(setjmp) movl 4(%esp),%eax movl %ebx,(%eax) # save ebx @@ -741,10 +860,14 @@ ENTRY(setjmp) movl %edi,16(%eax) # save edi movl (%esp),%edx # get rta movl %edx,20(%eax) # save eip - xorl %eax,%eax # return (0); + xorl %eax,%eax # return 0 ret -/* LINTSTUB: Func: void longjmp (label_t *l) */ +/* + * int longjmp(label_t *) + * + * Used primarily by DDB. + */ ENTRY(longjmp) movl 4(%esp),%eax movl (%eax),%ebx # restore ebx @@ -754,488 +877,172 @@ ENTRY(longjmp) movl 16(%eax),%edi # restore edi movl 20(%eax),%edx # get rta movl %edx,(%esp) # put in return frame - xorl %eax,%eax # return (1); - incl %eax + movl $1,%eax # return 1 ret -/*****************************************************************************/ - - .globl _C_LABEL(sched_whichqs),_C_LABEL(sched_qs) - .globl _C_LABEL(uvmexp),_C_LABEL(panic) - -#ifdef DIAGNOSTIC -NENTRY(switch_error) - pushl $1f - call _C_LABEL(panic) - /* NOTREACHED */ -1: .asciz "cpu_switch" -#endif /* DIAGNOSTIC */ - /* - * void cpu_switch(struct lwp *) - * Find a runnable lwp and switch to it. Wait if necessary. If the new - * lwp is the same as the old one, we short-circuit the context save and - * restore. + * struct lwp *cpu_switchto(struct lwp *oldlwp, struct newlwp, + * bool returning) + * + * 1. if (oldlwp != NULL), save its context. + * 2. then, restore context of newlwp. * - * Note that the stack frame layout is known to "struct switchframe" - * in and to the code in cpu_fork() which initializes + * Note that the stack frame layout is known to "struct switchframe" in + * and to the code in cpu_lwp_fork() which initializes * it for a new lwp. */ -ENTRY(cpu_switch) +ENTRY(cpu_switchto) pushl %ebx pushl %esi pushl %edi -#ifdef DEBUG - cmpl $IPL_SCHED,CPUVAR(ILEVEL) - jae 1f - pushl $2f - call _C_LABEL(panic) - /* NOTREACHED */ -2: .asciz "not splsched() in cpu_switch!" -1: -#endif /* DEBUG */ - - movl 16(%esp),%esi # current - - /* - * Clear curlwp so that we don't accumulate system time while idle. - * This also insures that schedcpu() will move the old lwp to - * the correct queue if it happens to get called from the spllower() - * below and changes the priority. (See corresponding comment in - * userret()). - */ - movl $0,CPUVAR(CURLWP) - /* - * First phase: find new lwp. - * - * Registers: - * %eax - queue head, scratch, then zero - * %ebx - queue number - * %ecx - cached value of whichqs - * %edx - next lwp in queue - * %esi - old lwp - * %edi - new lwp - */ - - /* Look for new lwp. */ - cli # splhigh doesn't do a cli - movl _C_LABEL(sched_whichqs),%ecx - bsfl %ecx,%ebx # find a full q - jnz switch_dequeue - - /* - * idling: save old context. - * - * Registers: - * %eax, %ecx - scratch - * %esi - old lwp, then old pcb - * %edi - idle pcb - */ - - pushl %esi - call _C_LABEL(pmap_deactivate2) # pmap_deactivate(oldproc) - addl $4,%esp - - movl L_ADDR(%esi),%esi - - /* Save stack pointers. */ - movl %esp,PCB_ESP(%esi) - movl %ebp,PCB_EBP(%esi) - - /* Find idle PCB for this CPU */ -#ifndef MULTIPROCESSOR - movl $_C_LABEL(lwp0),%ebx - movl L_ADDR(%ebx),%edi - movl L_MD_TSS_SEL(%ebx),%edx -#else - movl CPUVAR(IDLE_PCB),%edi - movl CPUVAR(IDLE_TSS_SEL),%edx -#endif - movl $0,CPUVAR(CURLWP) /* In case we fault... */ - - /* Restore the idle context (avoid interrupts) */ - cli - - /* Restore stack pointers. */ - movl PCB_ESP(%edi),%esp - movl PCB_EBP(%edi),%ebp - - /* Switch TSS. Reset "task busy" flag before loading. */ - movl %cr3,%eax - movl %eax,PCB_CR3(%edi) -#ifdef MULTIPROCESSOR - movl CPUVAR(GDT),%eax -#else - movl _C_LABEL(gdt),%eax -#endif - andl $~0x0200,4-SEL_KPL(%eax,%edx,1) - ltr %dx - - /* We're always in the kernel, so we don't need the LDT. */ - - /* Restore cr0 (including FPU state). */ - movl PCB_CR0(%edi),%ecx - movl %ecx,%cr0 - - /* Record new pcb. */ - SET_CURPCB(%edi) - - xorl %esi,%esi - sti -idle_unlock: -#if defined(MULTIPROCESSOR) || defined(LOCKDEBUG) - call _C_LABEL(sched_unlock_idle) -#endif - /* Interrupts are okay again. */ - pushl $IPL_NONE # spl0() - call _C_LABEL(Xspllower) # process pending interrupts - addl $4,%esp - jmp idle_start -idle_zero: - sti - call _C_LABEL(uvm_pageidlezero) - cli - cmpl $0,_C_LABEL(sched_whichqs) - jnz idle_exit -idle_loop: - /* Try to zero some pages. */ - movl _C_LABEL(uvm)+UVM_PAGE_IDLE_ZERO,%ecx - testl %ecx,%ecx - jnz idle_zero - sti - hlt -NENTRY(mpidle) -idle_start: - cli - cmpl $0,_C_LABEL(sched_whichqs) - jz idle_loop -idle_exit: - movl $IPL_HIGH,CPUVAR(ILEVEL) # splhigh - sti -#if defined(MULTIPROCESSOR) || defined(LOCKDEBUG) - call _C_LABEL(sched_lock_idle) -#endif - movl _C_LABEL(sched_whichqs),%ecx - bsfl %ecx,%ebx - jz idle_unlock - -switch_dequeue: - /* - * we're running at splhigh(), but it's otherwise okay to take - * interrupts here. - */ - sti - leal _C_LABEL(sched_qs)(,%ebx,8),%eax # select q - - movl L_FORW(%eax),%edi # unlink from front of process q -#ifdef DIAGNOSTIC - cmpl %edi,%eax # linked to self (i.e. nothing queued)? - je _C_LABEL(switch_error) # not possible -#endif /* DIAGNOSTIC */ - movl L_FORW(%edi),%edx - movl %edx,L_FORW(%eax) - movl %eax,L_BACK(%edx) - - cmpl %edx,%eax # q empty? - jne 3f - - btrl %ebx,%ecx # yes, clear to indicate empty - movl %ecx,_C_LABEL(sched_whichqs) # update q status - -3: /* We just did it. */ - xorl %eax,%eax - CLEAR_RESCHED(%eax) - -switch_resume: -#ifdef DIAGNOSTIC - cmpl %eax,L_WCHAN(%edi) # Waiting for something? - jne _C_LABEL(switch_error) # Yes; shouldn't be queued. - cmpb $LSRUN,L_STAT(%edi) # In run state? - jne _C_LABEL(switch_error) # No; shouldn't be queued. -#endif /* DIAGNOSTIC */ - - /* Isolate lwp. XXX Is this necessary? */ - movl %eax,L_BACK(%edi) - - /* Record new lwp. */ - movb $LSONPROC,L_STAT(%edi) # l->l_stat = LSONPROC - SET_CURLWP(%edi,%ecx) - - /* Skip context switch if same lwp. */ - xorl %ebx,%ebx - cmpl %edi,%esi - je switch_return - - /* If old lwp exited, don't bother. */ + movl 16(%esp),%esi # oldlwp + movl 20(%esp),%edi # newlwp + movl 24(%esp),%edx # returning testl %esi,%esi - jz switch_exited + jz 1f - /* - * Second phase: save old context. - * - * Registers: - * %eax, %ecx - scratch - * %esi - old lwp, then old pcb - * %edi - new lwp - */ + /* Save old context. */ + movl L_ADDR(%esi),%eax + movl %esp,PCB_ESP(%eax) + movl %ebp,PCB_EBP(%eax) + + /* Switch to newlwp's stack. */ +1: movl L_ADDR(%edi),%ebx + movl PCB_EBP(%ebx),%ebp + movl PCB_ESP(%ebx),%esp + + /* Set curlwp. */ + movl %edi,CPUVAR(CURLWP) + + /* Skip the rest if returning to a pinned LWP. */ + testl %edx,%edx + jnz 4f - pushl %esi - call _C_LABEL(pmap_deactivate2) # pmap_deactivate(oldproc) +#ifdef XEN + pushl %edi + call _C_LABEL(i386_switch_context) addl $4,%esp +#else /* XEN */ + /* Switch ring0 esp */ + movl PCB_ESP0(%ebx),%eax + movl %eax,CPUVAR(ESP0) - movl L_ADDR(%esi),%esi + /* Don't bother with the rest if switching to a system process. */ + testl $LW_SYSTEM,L_FLAG(%edi) + jnz 4f - /* Save stack pointers. */ - movl %esp,PCB_ESP(%esi) - movl %ebp,PCB_EBP(%esi) + /* Restore thread-private %fs/%gs descriptors. */ + movl CPUVAR(GDT),%ecx + movl PCB_FSD(%ebx), %eax + movl PCB_FSD+4(%ebx), %edx + movl %eax, (GUFS_SEL*8)(%ecx) + movl %edx, (GUFS_SEL*8+4)(%ecx) + movl PCB_GSD(%ebx), %eax + movl PCB_GSD+4(%ebx), %edx + movl %eax, (GUGS_SEL*8)(%ecx) + movl %edx, (GUGS_SEL*8+4)(%ecx) +#endif /* XEN */ + + /* Switch I/O bitmap */ + movl PCB_IOMAP(%ebx),%eax + orl %eax,%eax + jnz,pn .Lcopy_iobitmap + movl $(IOMAP_INVALOFF << 16),CPUVAR(IOBASE) +.Liobitmap_done: + + /* Is this process using RAS (restartable atomic sequences)? */ + movl L_PROC(%edi),%eax + cmpl $0,P_RASLIST(%eax) + jne 5f -switch_exited: /* - * Third phase: restore saved context. - * - * Registers: - * %eax, %ebx, %ecx, %edx - scratch - * %esi - new pcb - * %edi - new lwp + * Restore cr0 (including FPU state). Raise the IPL to IPL_IPI. + * FPU IPIs can alter the LWP's saved cr0. Dropping the priority + * is deferred until mi_switch(), when cpu_switchto() returns. */ +2: +#ifndef XEN + movl $IPL_IPI,CPUVAR(ILEVEL) + movl PCB_CR0(%ebx),%ecx + movl %cr0,%edx - /* No interrupts while loading new state. */ - cli - movl L_ADDR(%edi),%esi - - /* Restore stack pointers. */ - movl PCB_ESP(%esi),%esp - movl PCB_EBP(%esi),%ebp - -#if 0 - /* Don't bother with the rest if switching to a system process. */ - testl $P_SYSTEM,L_FLAG(%edi); XXX NJWLWP lwp's don't have P_SYSTEM! - jnz switch_restored -#endif - - /* Switch TSS. Reset "task busy" flag before loading. */ - movl %cr3,%eax - movl %eax,PCB_CR3(%esi) /* XXX should be done by pmap_activate? */ -#ifdef MULTIPROCESSOR - movl CPUVAR(GDT),%eax -#else - /* Load TSS info. */ - movl _C_LABEL(gdt),%eax -#endif - movl L_MD_TSS_SEL(%edi),%edx - - andl $~0x0200,4(%eax,%edx, 1) - ltr %dx - - pushl %edi - call _C_LABEL(pmap_activate) # pmap_activate(p) - addl $4,%esp - -#if 0 -switch_restored: -#endif - /* Restore cr0 (including FPU state). */ - movl PCB_CR0(%esi),%ecx -#ifdef MULTIPROCESSOR /* * If our floating point registers are on a different CPU, - * clear CR0_TS so we'll trap rather than reuse bogus state. + * set CR0_TS so we'll trap rather than reuse bogus state. */ - movl PCB_FPCPU(%esi),%ebx - cmpl CPUVAR(SELF),%ebx - jz 1f + movl PCB_FPCPU(%ebx),%eax + cmpl CPUVAR(SELF),%eax + je 3f orl $CR0_TS,%ecx -1: -#endif - movl %ecx,%cr0 - - /* Record new pcb. */ - SET_CURPCB(%esi) - - /* Interrupts are okay again. */ - sti - -/* - * Check for restartable atomic sequences (RAS) - */ - movl CPUVAR(CURLWP),%edi - movl L_PROC(%edi),%esi - cmpl $0,P_RASLIST(%esi) - jne 2f -1: - movl $1,%ebx - -switch_return: -#if defined(MULTIPROCESSOR) || defined(LOCKDEBUG) - call _C_LABEL(sched_unlock_idle) -#endif - cmpl $0,CPUVAR(IPENDING) - jz 3f - pushl $IPL_NONE # spl0() - call _C_LABEL(Xspllower) # process pending interrupts - addl $4,%esp -3: - movl $IPL_HIGH,CPUVAR(ILEVEL) # splhigh() - movl %ebx,%eax + /* Reloading CR0 is very expensive - avoid if possible. */ +3: cmpl %edx,%ecx + je 4f + movl %ecx,%cr0 +#endif /* XEN */ + /* Return to the new LWP, returning 'oldlwp' in %eax. */ +4: movl %esi,%eax popl %edi popl %esi popl %ebx ret -2: # check RAS list - movl L_MD_REGS(%edi),%ebx - movl TF_EIP(%ebx),%eax + /* Check for restartable atomic sequences (RAS). */ +5: movl L_MD_REGS(%edi),%ecx + pushl TF_EIP(%ecx) pushl %eax - pushl %esi call _C_LABEL(ras_lookup) addl $8,%esp cmpl $-1,%eax - je 1b - movl %eax,TF_EIP(%ebx) - jmp 1b + je 2b + movl L_MD_REGS(%edi),%ecx + movl %eax,TF_EIP(%ecx) + jmp 2b -/* - * void cpu_switchto(struct lwp *current, struct lwp *next) - * Switch to the specified next LWP. - */ -ENTRY(cpu_switchto) - pushl %ebx +.Lcopy_iobitmap: + /* Copy I/O bitmap. */ + movl $(IOMAPSIZE/4),%ecx pushl %esi pushl %edi - -#ifdef DEBUG - cmpl $IPL_SCHED,CPUVAR(ILEVEL) - jae 1f - pushl $2f - call _C_LABEL(panic) - /* NOTREACHED */ -2: .asciz "not splsched() in cpu_switchto!" -1: -#endif /* DEBUG */ - - movl 16(%esp),%esi # current - movl 20(%esp),%edi # next - - /* - * Clear curlwp so that we don't accumulate system time while idle. - * This also insures that schedcpu() will move the old process to - * the correct queue if it happens to get called from the spllower() - * below and changes the priority. (See corresponding comment in - * usrret()). - * - * XXX Is this necessary? We know we won't go idle. - */ - movl $0,CPUVAR(CURLWP) - - /* - * We're running at splhigh(), but it's otherwise okay to take - * interrupts here. - */ - sti - - /* Jump into the middle of cpu_switch */ - xorl %eax,%eax - jmp switch_resume - -/* - * void cpu_exit(struct lwp *l) - * Switch to the appropriate idle context (lwp0's if uniprocessor; the CPU's - * if multiprocessor) and deallocate the address space and kernel stack for p. - * Then jump into cpu_switch(), as if we were in the idle proc all along. - */ -#ifndef MULTIPROCESSOR - .globl _C_LABEL(lwp0) -#endif -/* LINTSTUB: Func: void cpu_exit(struct lwp *l) */ -ENTRY(cpu_exit) - movl 4(%esp),%edi # old process -#ifndef MULTIPROCESSOR - movl $_C_LABEL(lwp0),%ebx - movl L_ADDR(%ebx),%esi - movl L_MD_TSS_SEL(%ebx),%edx -#else - movl CPUVAR(IDLE_PCB),%esi - movl CPUVAR(IDLE_TSS_SEL),%edx -#endif - /* In case we fault... */ - movl $0,CPUVAR(CURLWP) - - /* Restore the idle context. */ - cli - - /* Restore stack pointers. */ - movl PCB_ESP(%esi),%esp - movl PCB_EBP(%esi),%ebp - - /* Switch TSS. Reset "task busy" flag before loading. */ - movl %cr3,%eax - movl %eax,PCB_CR3(%esi) -#ifdef MULTIPROCESSOR - movl CPUVAR(GDT),%eax -#else - /* Load TSS info. */ - movl _C_LABEL(gdt),%eax -#endif - - andl $~0x0200,4-SEL_KPL(%eax,%edx,1) - ltr %dx - - /* We're always in the kernel, so we don't need the LDT. */ - - /* Restore cr0 (including FPU state). */ - movl PCB_CR0(%esi),%ecx - movl %ecx,%cr0 - - /* Record new pcb. */ - SET_CURPCB(%esi) - - /* Interrupts are okay again. */ - sti - - /* - * Schedule the dead LWP's stack to be freed. - */ - pushl %edi - call _C_LABEL(lwp_exit2) - addl $4,%esp - - /* Jump into cpu_switch() with the right state. */ - xorl %esi,%esi - movl %esi,CPUVAR(CURLWP) - jmp idle_start + movl %eax,%esi /* pcb_iomap */ + movl CPUVAR(SELF),%edi + leal CPU_INFO_IOMAP(%edi),%edi + rep + movsl + popl %edi + popl %esi + movl $((CPU_INFO_IOMAP - CPU_INFO_TSS) << 16),CPUVAR(IOBASE) + jmp .Liobitmap_done /* * void savectx(struct pcb *pcb); + * * Update pcb, saving current processor state. */ -/* LINTSTUB: Func: void savectx(struct pcb *pcb) */ ENTRY(savectx) - movl 4(%esp),%edx # edx = p->p_addr - - /* Save stack pointers. */ + movl 4(%esp),%edx # edx = pcb movl %esp,PCB_ESP(%edx) movl %ebp,PCB_EBP(%edx) - ret /* + * osyscall() + * * Old call gate entry for syscall */ -/* LINTSTUB: Var: char Xosyscall[1]; */ IDTVEC(osyscall) - /* Set eflags in trap frame. */ - pushfl + pushfl # set eflags in trap frame popl 8(%esp) pushl $7 # size of instruction for restart jmp syscall1 /* + * syscall() + * * Trap gate entry for syscall */ -/* LINTSTUB: Var: char Xsyscall[1]; */ IDTVEC(syscall) pushl $2 # size of instruction for restart syscall1: @@ -1268,39 +1075,61 @@ syscall1: addl $4,%esp .Lsyscall_checkast: /* Check for ASTs on exit to user mode. */ - cli + CLI(%eax) CHECK_ASTPENDING(%eax) je 1f /* Always returning to user mode here. */ CLEAR_ASTPENDING(%eax) - sti + STI(%eax) /* Pushed T_ASTFLT into tf_trapno on entry. */ pushl %esp call _C_LABEL(trap) addl $4,%esp jmp .Lsyscall_checkast /* re-check ASTs */ -1: CHECK_DEFERRED_SWITCH(%eax) +1: CHECK_DEFERRED_SWITCH jnz 9f +#ifdef XEN + STIC(%eax) + jz 14f + call _C_LABEL(stipending) + testl %eax,%eax + jz 14f + /* process pending interrupts */ + CLI(%eax) + movl CPUVAR(ILEVEL), %ebx + movl $.Lsyscall_resume, %esi # address to resume loop at +.Lsyscall_resume: + movl %ebx,%eax # get cpl + movl CPUVAR(IUNMASK)(,%eax,4),%eax + andl CPUVAR(IPENDING),%eax # any non-masked bits left? + jz 17f + bsrl %eax,%eax + btrl %eax,CPUVAR(IPENDING) + movl CPUVAR(ISOURCES)(,%eax,4),%eax + jmp *IS_RESUME(%eax) +17: movl %ebx, CPUVAR(ILEVEL) #restore cpl + jmp .Lsyscall_checkast +14: +#endif /* XEN */ #ifndef DIAGNOSTIC INTRFASTEXIT #else /* DIAGNOSTIC */ cmpl $IPL_NONE,CPUVAR(ILEVEL) jne 3f INTRFASTEXIT -3: sti +3: STI(%eax) pushl $4f call _C_LABEL(printf) addl $4,%esp -#ifdef DDB - int $3 -#endif /* DDB */ - movl $IPL_NONE,CPUVAR(ILEVEL) - jmp 2b + pushl $IPL_NONE + call _C_LABEL(spllower) + addl $4,%esp + jmp .Lsyscall_checkast 4: .asciz "WARNING: SPL NOT LOWERED ON SYSCALL EXIT\n" 5: .asciz "WARNING: SPL NOT ZERO ON SYSCALL ENTRY\n" 6: .asciz "WARNING: WANT PMAPLOAD ON SYSCALL ENTRY\n" #endif /* DIAGNOSTIC */ -9: sti +9: STI(%eax) call _C_LABEL(pmap_load) jmp .Lsyscall_checkast /* re-check ASTs */ @@ -1311,7 +1140,9 @@ syscall1: * latch stuff in probintr() can be moved to npxprobe(). */ -/* LINTSTUB: Func: void probeintr(void) */ +/* + * void probeintr(void) + */ NENTRY(probeintr) ss incl _C_LABEL(npx_intrs_while_probing) @@ -1324,14 +1155,18 @@ NENTRY(probeintr) popl %eax iret -/* LINTSTUB: Func: void probetrap(void) */ +/* + * void probetrap(void) + */ NENTRY(probetrap) ss incl _C_LABEL(npx_traps_while_probing) fnclex iret -/* LINTSTUB: Func: int npx586bug1(int a, int b) */ +/* + * int npx586bug1(int a, int b) + */ NENTRY(npx586bug1) fildl 4(%esp) # x fildl 8(%esp) # y @@ -1344,3 +1179,65 @@ NENTRY(npx586bug1) popl %eax ret #endif /* NNPX > 0 */ + +/* + * void sse2_zero_page(void *pg) + * + * Zero a page without polluting the cache. + */ +ENTRY(sse2_zero_page) + pushl %ebp + movl %esp,%ebp + movl 8(%esp), %edx + movl $PAGE_SIZE, %ecx + xorl %eax, %eax + .align 16 +1: + movnti %eax, 0(%edx) + movnti %eax, 4(%edx) + movnti %eax, 8(%edx) + movnti %eax, 12(%edx) + movnti %eax, 16(%edx) + movnti %eax, 20(%edx) + movnti %eax, 24(%edx) + movnti %eax, 28(%edx) + subl $32, %ecx + leal 32(%edx), %edx + jnz 1b + sfence + pop %ebp + ret + +/* + * void sse2_copy_page(void *src, void *dst) + * + * Copy a page without polluting the cache. + */ +ENTRY(sse2_copy_page) + pushl %ebp + pushl %ebx + pushl %esi + pushl %edi + movl 20(%esp), %esi + movl 24(%esp), %edi + movl $PAGE_SIZE, %ebp + .align 16 +1: + movl 0(%esi), %eax + movl 4(%esi), %ebx + movl 8(%esi), %ecx + movl 12(%esi), %edx + movnti %eax, 0(%edi) + movnti %ebx, 4(%edi) + movnti %ecx, 8(%edi) + movnti %edx, 12(%edi) + subl $16, %ebp + leal 16(%esi), %esi + leal 16(%edi), %edi + jnz 1b + sfence + popl %edi + popl %esi + popl %ebx + popl %ebp + ret