Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/run/@/sparc64/sparc64/ |
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/usb/run/@/sparc64/sparc64/swtch.S |
/*- * Copyright (c) 2001 Jake Burkholder. * Copyright (c) 2011 Marius Strobl <marius@FreeBSD.org> * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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. */ #include <machine/asm.h> __FBSDID("$FreeBSD: release/9.1.0/sys/sparc64/sparc64/swtch.S 230690 2012-01-29 00:24:46Z marius $"); #include <machine/asmacros.h> #include <machine/asi.h> #include <machine/fsr.h> #include <machine/ktr.h> #include <machine/pcb.h> #include <machine/tstate.h> #include "assym.s" #include "opt_sched.h" .register %g2, #ignore .register %g3, #ignore /* * void cpu_throw(struct thread *old, struct thread *new) */ ENTRY(cpu_throw) save %sp, -CCFSZ, %sp flushw ba %xcc, .Lsw1 mov %g0, %i2 END(cpu_throw) /* * void cpu_switch(struct thread *old, struct thread *new, struct mtx *mtx) */ ENTRY(cpu_switch) save %sp, -CCFSZ, %sp /* * If the current thread was using floating point in the kernel, save * its context. The userland floating point context has already been * saved in that case. */ rd %fprs, %l2 andcc %l2, FPRS_FEF, %g0 bz,a,pt %xcc, 1f nop call savefpctx add PCB_REG, PCB_KFP, %o0 ba,a,pt %xcc, 2f nop /* * If the current thread was using floating point in userland, save * its context. */ 1: sub PCB_REG, TF_SIZEOF, %l2 ldx [%l2 + TF_FPRS], %l3 andcc %l3, FPRS_FEF, %g0 bz,a,pt %xcc, 2f nop call savefpctx add PCB_REG, PCB_UFP, %o0 andn %l3, FPRS_FEF, %l3 stx %l3, [%l2 + TF_FPRS] ldx [PCB_REG + PCB_FLAGS], %l3 or %l3, PCB_FEF, %l3 stx %l3, [PCB_REG + PCB_FLAGS] /* * Flush the windows out to the stack and save the current frame * pointer and program counter. */ 2: flushw wrpr %g0, 0, %cleanwin stx %fp, [PCB_REG + PCB_SP] stx %i7, [PCB_REG + PCB_PC] /* * Load the new thread's frame pointer and program counter, and set * the current thread and pcb. */ .Lsw1: #if KTR_COMPILE & KTR_PROC CATR(KTR_PROC, "cpu_switch: new td=%p pc=%#lx fp=%#lx" , %g1, %g2, %g3, 8, 9, 10) stx %i1, [%g1 + KTR_PARM1] ldx [%i1 + TD_PCB], %g2 ldx [%g2 + PCB_PC], %g3 stx %g3, [%g1 + KTR_PARM2] ldx [%g2 + PCB_SP], %g3 stx %g3, [%g1 + KTR_PARM3] 10: #endif ldx [%i1 + TD_PCB], %l0 stx %i1, [PCPU(CURTHREAD)] stx %l0, [PCPU(CURPCB)] wrpr %g0, PSTATE_NORMAL, %pstate mov %l0, PCB_REG wrpr %g0, PSTATE_ALT, %pstate mov %l0, PCB_REG wrpr %g0, PSTATE_KERNEL, %pstate ldx [PCB_REG + PCB_SP], %fp ldx [PCB_REG + PCB_PC], %i7 sub %fp, CCFSZ, %sp /* * Point to the pmaps of the new process, and of the last non-kernel * process to run. */ ldx [%i1 + TD_PROC], %l1 ldx [PCPU(PMAP)], %l2 ldx [%l1 + P_VMSPACE], %i5 add %i5, VM_PMAP, %l1 #if KTR_COMPILE & KTR_PROC CATR(KTR_PROC, "cpu_switch: new pmap=%p old pmap=%p" , %g1, %g2, %g3, 8, 9, 10) stx %l1, [%g1 + KTR_PARM1] stx %l2, [%g1 + KTR_PARM2] 10: #endif /* * If they are the same we are done. */ cmp %l2, %l1 be,a,pn %xcc, 8f nop /* * If the new process is a kernel thread we can just leave the old * context active and avoid recycling its context number. */ SET(vmspace0, %i4, %i3) cmp %i5, %i3 be,a,pn %xcc, 8f nop /* * If there was no non-kernel pmap, don't try to deactivate it. */ brz,pn %l2, 3f lduw [PCPU(CPUID)], %l3 /* * Mark the pmap of the last non-kernel vmspace to run as no longer * active on this CPU. */ mov _NCPUBITS, %l5 mov %g0, %y udiv %l3, %l5, %l6 srl %l6, 0, %l4 sllx %l4, PTR_SHIFT, %l4 add %l4, PM_ACTIVE, %l4 smul %l6, %l5, %l5 sub %l3, %l5, %l5 mov 1, %l6 sllx %l6, %l5, %l5 #ifdef SMP add %l2, %l4, %l4 membar #LoadStore | #StoreStore ATOMIC_CLEAR_LONG(%l4, %l6, %l7, %l5) #else ldx [%l2 + %l4], %l6 andn %l6, %l5, %l6 stx %l6, [%l2 + %l4] #endif /* * Take away its context number. */ sllx %l3, INT_SHIFT, %l3 add %l2, PM_CONTEXT, %l4 mov -1, %l5 stw %l5, [%l3 + %l4] 3: cmp %i2, %g0 be,pn %xcc, 4f add %i0, TD_LOCK, %l4 #if defined(SCHED_ULE) && defined(SMP) membar #LoadStore | #StoreStore ATOMIC_STORE_LONG(%l4, %l6, %l7, %i2) #else stx %i2, [%l4] #endif /* * Find a new TLB context. If we've run out we have to flush all * user mappings from the TLB and reset the context numbers. */ 4: lduw [PCPU(TLB_CTX)], %i3 lduw [PCPU(TLB_CTX_MAX)], %i4 cmp %i3, %i4 bne,a,pt %xcc, 5f nop SET(tlb_flush_user, %i5, %i4) ldx [%i4], %i5 call %i5 lduw [PCPU(TLB_CTX_MIN)], %i3 /* * Advance next free context. */ 5: add %i3, 1, %i4 stw %i4, [PCPU(TLB_CTX)] /* * Set the new context number in the pmap. */ lduw [PCPU(CPUID)], %l3 sllx %l3, INT_SHIFT, %i4 add %l1, PM_CONTEXT, %i5 stw %i3, [%i4 + %i5] /* * Mark the pmap as active on this CPU. */ mov _NCPUBITS, %l5 mov %g0, %y udiv %l3, %l5, %l6 srl %l6, 0, %l4 sllx %l4, PTR_SHIFT, %l4 add %l4, PM_ACTIVE, %l4 smul %l6, %l5, %l5 sub %l3, %l5, %l5 mov 1, %l6 sllx %l6, %l5, %l5 #ifdef SMP add %l1, %l4, %l4 ATOMIC_SET_LONG(%l4, %l6, %l7, %l5) #else ldx [%l1 + %l4], %l6 or %l6, %l5, %l6 stx %l6, [%l1 + %l4] #endif /* * Make note of the change in pmap. */ #ifdef SMP PCPU_ADDR(PMAP, %l4) ATOMIC_STORE_LONG(%l4, %l5, %l6, %l1) #else stx %l1, [PCPU(PMAP)] #endif /* * Fiddle the hardware bits. Set the TSB registers and install the * new context number in the CPU. */ ldx [%l1 + PM_TSB], %i4 mov AA_DMMU_TSB, %i5 stxa %i4, [%i5] ASI_DMMU mov AA_IMMU_TSB, %i5 stxa %i4, [%i5] ASI_IMMU setx TLB_CXR_PGSZ_MASK, %i5, %i4 mov AA_DMMU_PCXR, %i5 ldxa [%i5] ASI_DMMU, %l1 and %l1, %i4, %l1 or %i3, %l1, %i3 sethi %hi(KERNBASE), %i4 stxa %i3, [%i5] ASI_DMMU flush %i4 6: #if defined(SCHED_ULE) && defined(SMP) SET(blocked_lock, %l2, %l1) add %i1, TD_LOCK, %l2 7: ATOMIC_LOAD_LONG(%l2, %l3) cmp %l1, %l3 be,a,pn %xcc, 7b nop #endif /* * Done, return and load the new process's window from the stack. */ ret restore 8: cmp %i2, %g0 be,pn %xcc, 6b add %i0, TD_LOCK, %l4 #if defined(SCHED_ULE) && defined(SMP) membar #LoadStore | #StoreStore ATOMIC_STORE_LONG(%l4, %l6, %l7, %i2) ba,pt %xcc, 6b nop #else ba,pt %xcc, 6b stx %i2, [%l4] #endif END(cpu_switch) ENTRY(savectx) save %sp, -CCFSZ, %sp flushw call savefpctx add %i0, PCB_UFP, %o0 stx %fp, [%i0 + PCB_SP] stx %i7, [%i0 + PCB_PC] ret restore %g0, 0, %o0 END(savectx) /* * void savefpctx(uint32_t *); */ ENTRY(savefpctx) wr %g0, FPRS_FEF, %fprs wr %g0, ASI_BLK_S, %asi stda %f0, [%o0 + (0 * 64)] %asi stda %f16, [%o0 + (1 * 64)] %asi stda %f32, [%o0 + (2 * 64)] %asi stda %f48, [%o0 + (3 * 64)] %asi membar #Sync retl wr %g0, 0, %fprs END(savefpctx)