Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/i386/xen/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/i386/xen/exception.s |
/*- * Copyright (c) 1989, 1990 William F. Jolitz. * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * 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. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. * * $FreeBSD: release/9.1.0/sys/i386/xen/exception.s 199852 2009-11-27 01:02:17Z attilio $ */ #include "opt_apic.h" #include "opt_npx.h" #include <machine/asmacros.h> #include <machine/psl.h> #include <machine/trap.h> #include "assym.s" #define SEL_RPL_MASK 0x0002 #define __HYPERVISOR_iret 23 /* Offsets into shared_info_t. */ #define evtchn_upcall_pending /* 0 */ #define evtchn_upcall_mask 1 #define sizeof_vcpu_shift 6 #ifdef SMP #define GET_VCPU_INFO(reg) movl PCPU(CPUID),reg ; \ shl $sizeof_vcpu_shift,reg ; \ addl HYPERVISOR_shared_info,reg #else #define GET_VCPU_INFO(reg) movl HYPERVISOR_shared_info,reg #endif #define __DISABLE_INTERRUPTS(reg) movb $1,evtchn_upcall_mask(reg) #define __ENABLE_INTERRUPTS(reg) movb $0,evtchn_upcall_mask(reg) #define DISABLE_INTERRUPTS(reg) GET_VCPU_INFO(reg) ; \ __DISABLE_INTERRUPTS(reg) #define ENABLE_INTERRUPTS(reg) GET_VCPU_INFO(reg) ; \ __ENABLE_INTERRUPTS(reg) #define __TEST_PENDING(reg) testb $0xFF,evtchn_upcall_pending(reg) #define POPA \ popl %edi; \ popl %esi; \ popl %ebp; \ popl %ebx; \ popl %ebx; \ popl %edx; \ popl %ecx; \ popl %eax; .text /*****************************************************************************/ /* Trap handling */ /*****************************************************************************/ /* * Trap and fault vector routines. * * Most traps are 'trap gates', SDT_SYS386TGT. A trap gate pushes state on * the stack that mostly looks like an interrupt, but does not disable * interrupts. A few of the traps we are use are interrupt gates, * SDT_SYS386IGT, which are nearly the same thing except interrupts are * disabled on entry. * * The cpu will push a certain amount of state onto the kernel stack for * the current process. The amount of state depends on the type of trap * and whether the trap crossed rings or not. See i386/include/frame.h. * At the very least the current EFLAGS (status register, which includes * the interrupt disable state prior to the trap), the code segment register, * and the return instruction pointer are pushed by the cpu. The cpu * will also push an 'error' code for certain traps. We push a dummy * error code for those traps where the cpu doesn't in order to maintain * a consistent frame. We also push a contrived 'trap number'. * * The cpu does not push the general registers, we must do that, and we * must restore them prior to calling 'iret'. The cpu adjusts the %cs and * %ss segment registers, but does not mess with %ds, %es, or %fs. Thus we * must load them with appropriate values for supervisor mode operation. */ MCOUNT_LABEL(user) MCOUNT_LABEL(btrap) #define TRAP(a) pushl $(a) ; jmp alltraps IDTVEC(div) pushl $0; TRAP(T_DIVIDE) IDTVEC(dbg) pushl $0; TRAP(T_TRCTRAP) IDTVEC(nmi) pushl $0; TRAP(T_NMI) IDTVEC(bpt) pushl $0; TRAP(T_BPTFLT) IDTVEC(ofl) pushl $0; TRAP(T_OFLOW) IDTVEC(bnd) pushl $0; TRAP(T_BOUND) IDTVEC(ill) pushl $0; TRAP(T_PRIVINFLT) IDTVEC(dna) pushl $0; TRAP(T_DNA) IDTVEC(fpusegm) pushl $0; TRAP(T_FPOPFLT) IDTVEC(tss) TRAP(T_TSSFLT) IDTVEC(missing) TRAP(T_SEGNPFLT) IDTVEC(stk) TRAP(T_STKFLT) IDTVEC(prot) TRAP(T_PROTFLT) IDTVEC(page) TRAP(T_PAGEFLT) IDTVEC(mchk) pushl $0; TRAP(T_MCHK) IDTVEC(rsvd) pushl $0; TRAP(T_RESERVED) IDTVEC(fpu) pushl $0; TRAP(T_ARITHTRAP) IDTVEC(align) TRAP(T_ALIGNFLT) IDTVEC(xmm) pushl $0; TRAP(T_XMMFLT) IDTVEC(hypervisor_callback) pushl $0; pushl $0; pushal pushl %ds pushl %es pushl %fs upcall_with_regs_pushed: SET_KERNEL_SREGS FAKE_MCOUNT(TF_EIP(%esp)) call_evtchn_upcall: movl TF_EIP(%esp),%eax cmpl $scrit,%eax jb 10f cmpl $ecrit,%eax jb critical_region_fixup 10: pushl %esp call evtchn_do_upcall addl $4,%esp /* * Return via doreti to handle ASTs. */ MEXITCOUNT jmp doreti hypervisor_callback_pending: DISABLE_INTERRUPTS(%esi) /* cli */ jmp 10b /* * alltraps entry point. Interrupts are enabled if this was a trap * gate (TGT), else disabled if this was an interrupt gate (IGT). * Note that int0x80_syscall is a trap gate. Only page faults * use an interrupt gate. */ SUPERALIGN_TEXT .globl alltraps .type alltraps,@function alltraps: pushal pushl %ds pushl %es pushl %fs alltraps_with_regs_pushed: SET_KERNEL_SREGS FAKE_MCOUNT(TF_EIP(%esp)) calltrap: push %esp call trap add $4, %esp /* * Return via doreti to handle ASTs. */ MEXITCOUNT jmp doreti /* * SYSCALL CALL GATE (old entry point for a.out binaries) * * The intersegment call has been set up to specify one dummy parameter. * * This leaves a place to put eflags so that the call frame can be * converted to a trap frame. Note that the eflags is (semi-)bogusly * pushed into (what will be) tf_err and then copied later into the * final spot. It has to be done this way because esp can't be just * temporarily altered for the pushfl - an interrupt might come in * and clobber the saved cs/eip. */ SUPERALIGN_TEXT IDTVEC(lcall_syscall) pushfl /* save eflags */ popl 8(%esp) /* shuffle into tf_eflags */ pushl $7 /* sizeof "lcall 7,0" */ subl $4,%esp /* skip over tf_trapno */ pushal pushl %ds pushl %es pushl %fs SET_KERNEL_SREGS FAKE_MCOUNT(TF_EIP(%esp)) pushl %esp call syscall add $4, %esp MEXITCOUNT jmp doreti /* * Call gate entry for FreeBSD ELF and Linux/NetBSD syscall (int 0x80) * * Even though the name says 'int0x80', this is actually a TGT (trap gate) * rather then an IGT (interrupt gate). Thus interrupts are enabled on * entry just as they are for a normal syscall. */ SUPERALIGN_TEXT IDTVEC(int0x80_syscall) pushl $2 /* sizeof "int 0x80" */ pushl $0xBEEF /* for debug */ pushal pushl %ds pushl %es pushl %fs SET_KERNEL_SREGS FAKE_MCOUNT(TF_EIP(%esp)) pushl %esp call syscall add $4, %esp MEXITCOUNT jmp doreti ENTRY(fork_trampoline) pushl %esp /* trapframe pointer */ pushl %ebx /* arg1 */ pushl %esi /* function */ call fork_exit addl $12,%esp /* cut from syscall */ /* * Return via doreti to handle ASTs. */ MEXITCOUNT jmp doreti /* * To efficiently implement classification of trap and interrupt handlers * for profiling, there must be only trap handlers between the labels btrap * and bintr, and only interrupt handlers between the labels bintr and * eintr. This is implemented (partly) by including files that contain * some of the handlers. Before including the files, set up a normal asm * environment so that the included files doen't need to know that they are * included. */ .data .p2align 4 .text SUPERALIGN_TEXT MCOUNT_LABEL(bintr) #ifdef DEV_APIC .data .p2align 4 .text SUPERALIGN_TEXT #include <i386/i386/apic_vector.s> #endif .data .p2align 4 .text SUPERALIGN_TEXT #include <i386/i386/vm86bios.s> .text MCOUNT_LABEL(eintr) /* * void doreti(struct trapframe) * * Handle return from interrupts, traps and syscalls. */ .text SUPERALIGN_TEXT .type doreti,@function doreti: FAKE_MCOUNT($bintr) /* init "from" bintr -> doreti */ doreti_next: #ifdef notyet /* * Check if ASTs can be handled now. PSL_VM must be checked first * since segment registers only have an RPL in non-VM86 mode. */ testl $PSL_VM,TF_EFLAGS(%esp) /* are we in vm86 mode? */ jz doreti_notvm86 movl PCPU(CURPCB),%ecx testl $PCB_VM86CALL,PCB_FLAGS(%ecx) /* are we in a vm86 call? */ jz doreti_ast /* can handle ASTS now if not */ jmp doreti_exit doreti_notvm86: #endif testb $SEL_RPL_MASK,TF_CS(%esp) /* are we returning to user mode? */ jz doreti_exit /* can't handle ASTs now if not */ doreti_ast: /* * Check for ASTs atomically with returning. Disabling CPU * interrupts provides sufficient locking even in the SMP case, * since we will be informed of any new ASTs by an IPI. */ DISABLE_INTERRUPTS(%esi) /* cli */ movl PCPU(CURTHREAD),%eax testl $TDF_ASTPENDING | TDF_NEEDRESCHED,TD_FLAGS(%eax) je doreti_exit ENABLE_INTERRUPTS(%esi) /* sti */ pushl %esp /* pass a pointer to the trapframe */ call ast add $4,%esp jmp doreti_ast /* * doreti_exit: pop registers, iret. * * The segment register pop is a special case, since it may * fault if (for example) a sigreturn specifies bad segment * registers. The fault is handled in trap.c. */ doreti_exit: ENABLE_INTERRUPTS(%esi) # reenable event callbacks (sti) .globl scrit scrit: __TEST_PENDING(%esi) jnz hypervisor_callback_pending /* More to go */ MEXITCOUNT .globl doreti_popl_fs doreti_popl_fs: popl %fs .globl doreti_popl_es doreti_popl_es: popl %es .globl doreti_popl_ds doreti_popl_ds: popl %ds /* * This is important: as nothing is atomic over here (we can get * interrupted any time), we use the critical_region_fixup() in * order to figure out where out stack is. Therefore, do NOT use * 'popal' here without fixing up the table! */ POPA addl $8,%esp .globl doreti_iret doreti_iret: jmp hypercall_page + (__HYPERVISOR_iret * 32) .globl ecrit ecrit: /* * doreti_iret_fault and friends. Alternative return code for * the case where we get a fault in the doreti_exit code * above. trap() (i386/i386/trap.c) catches this specific * case, sends the process a signal and continues in the * corresponding place in the code below. */ ALIGN_TEXT .globl doreti_iret_fault doreti_iret_fault: subl $8,%esp pushal pushl %ds .globl doreti_popl_ds_fault doreti_popl_ds_fault: pushl %es .globl doreti_popl_es_fault doreti_popl_es_fault: pushl %fs .globl doreti_popl_fs_fault doreti_popl_fs_fault: movl $0,TF_ERR(%esp) /* XXX should be the error code */ movl $T_PROTFLT,TF_TRAPNO(%esp) jmp alltraps_with_regs_pushed /* # [How we do the fixup]. We want to merge the current stack frame with the # just-interrupted frame. How we do this depends on where in the critical # region the interrupted handler was executing, and so how many saved # registers are in each frame. We do this quickly using the lookup table # 'critical_fixup_table'. For each byte offset in the critical region, it # provides the number of bytes which have already been popped from the # interrupted stack frame. */ .globl critical_region_fixup critical_region_fixup: addl $critical_fixup_table-scrit,%eax movzbl (%eax),%eax # %eax contains num bytes popped movl %esp,%esi add %eax,%esi # %esi points at end of src region movl %esp,%edi add $0x40,%edi # %edi points at end of dst region movl %eax,%ecx shr $2,%ecx # convert bytes to words je 16f # skip loop if nothing to copy 15: subl $4,%esi # pre-decrementing copy loop subl $4,%edi movl (%esi),%eax movl %eax,(%edi) loop 15b 16: movl %edi,%esp # final %edi is top of merged stack jmp hypervisor_callback_pending critical_fixup_table: .byte 0x0,0x0,0x0 #testb $0x1,(%esi) .byte 0x0,0x0,0x0,0x0,0x0,0x0 #jne ea .byte 0x0,0x0 #pop %fs .byte 0x04 #pop %es .byte 0x08 #pop %ds .byte 0x0c #pop %edi .byte 0x10 #pop %esi .byte 0x14 #pop %ebp .byte 0x18 #pop %ebx .byte 0x1c #pop %ebx .byte 0x20 #pop %edx .byte 0x24 #pop %ecx .byte 0x28 #pop %eax .byte 0x2c,0x2c,0x2c #add $0x8,%esp #if 0 .byte 0x34 #iret #endif .byte 0x34,0x34,0x34,0x34,0x34 #HYPERVISOR_iret /* # Hypervisor uses this for application faults while it executes.*/ ENTRY(failsafe_callback) pushal call xen_failsafe_handler /*# call install_safe_pf_handler */ movl 28(%esp),%ebx 1: movl %ebx,%ds movl 32(%esp),%ebx 2: movl %ebx,%es movl 36(%esp),%ebx 3: movl %ebx,%fs movl 40(%esp),%ebx 4: movl %ebx,%gs /*# call install_normal_pf_handler */ popal addl $12,%esp iret