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authorLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-17 00:20:36 +0200
committerLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-17 00:20:36 +0200
commit1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch)
tree0bba044c4ce775e45a88a51686b5d9f90697ea9d /include/asm-ia64/mca_asm.h
downloadlinux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.tar.xz
linux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.zip
Linux-2.6.12-rc2v2.6.12-rc2
Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
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+/*
+ * File: mca_asm.h
+ *
+ * Copyright (C) 1999 Silicon Graphics, Inc.
+ * Copyright (C) Vijay Chander (vijay@engr.sgi.com)
+ * Copyright (C) Srinivasa Thirumalachar <sprasad@engr.sgi.com>
+ * Copyright (C) 2000 Hewlett-Packard Co.
+ * Copyright (C) 2000 David Mosberger-Tang <davidm@hpl.hp.com>
+ * Copyright (C) 2002 Intel Corp.
+ * Copyright (C) 2002 Jenna Hall <jenna.s.hall@intel.com>
+ */
+#ifndef _ASM_IA64_MCA_ASM_H
+#define _ASM_IA64_MCA_ASM_H
+
+#define PSR_IC 13
+#define PSR_I 14
+#define PSR_DT 17
+#define PSR_RT 27
+#define PSR_MC 35
+#define PSR_IT 36
+#define PSR_BN 44
+
+/*
+ * This macro converts a instruction virtual address to a physical address
+ * Right now for simulation purposes the virtual addresses are
+ * direct mapped to physical addresses.
+ * 1. Lop off bits 61 thru 63 in the virtual address
+ */
+#define INST_VA_TO_PA(addr) \
+ dep addr = 0, addr, 61, 3
+/*
+ * This macro converts a data virtual address to a physical address
+ * Right now for simulation purposes the virtual addresses are
+ * direct mapped to physical addresses.
+ * 1. Lop off bits 61 thru 63 in the virtual address
+ */
+#define DATA_VA_TO_PA(addr) \
+ tpa addr = addr
+/*
+ * This macro converts a data physical address to a virtual address
+ * Right now for simulation purposes the virtual addresses are
+ * direct mapped to physical addresses.
+ * 1. Put 0x7 in bits 61 thru 63.
+ */
+#define DATA_PA_TO_VA(addr,temp) \
+ mov temp = 0x7 ;; \
+ dep addr = temp, addr, 61, 3
+
+#define GET_THIS_PADDR(reg, var) \
+ mov reg = IA64_KR(PER_CPU_DATA);; \
+ addl reg = THIS_CPU(var), reg
+
+/*
+ * This macro jumps to the instruction at the given virtual address
+ * and starts execution in physical mode with all the address
+ * translations turned off.
+ * 1. Save the current psr
+ * 2. Make sure that all the upper 32 bits are off
+ *
+ * 3. Clear the interrupt enable and interrupt state collection bits
+ * in the psr before updating the ipsr and iip.
+ *
+ * 4. Turn off the instruction, data and rse translation bits of the psr
+ * and store the new value into ipsr
+ * Also make sure that the interrupts are disabled.
+ * Ensure that we are in little endian mode.
+ * [psr.{rt, it, dt, i, be} = 0]
+ *
+ * 5. Get the physical address corresponding to the virtual address
+ * of the next instruction bundle and put it in iip.
+ * (Using magic numbers 24 and 40 in the deposint instruction since
+ * the IA64_SDK code directly maps to lower 24bits as physical address
+ * from a virtual address).
+ *
+ * 6. Do an rfi to move the values from ipsr to psr and iip to ip.
+ */
+#define PHYSICAL_MODE_ENTER(temp1, temp2, start_addr, old_psr) \
+ mov old_psr = psr; \
+ ;; \
+ dep old_psr = 0, old_psr, 32, 32; \
+ \
+ mov ar.rsc = 0 ; \
+ ;; \
+ srlz.d; \
+ mov temp2 = ar.bspstore; \
+ ;; \
+ DATA_VA_TO_PA(temp2); \
+ ;; \
+ mov temp1 = ar.rnat; \
+ ;; \
+ mov ar.bspstore = temp2; \
+ ;; \
+ mov ar.rnat = temp1; \
+ mov temp1 = psr; \
+ mov temp2 = psr; \
+ ;; \
+ \
+ dep temp2 = 0, temp2, PSR_IC, 2; \
+ ;; \
+ mov psr.l = temp2; \
+ ;; \
+ srlz.d; \
+ dep temp1 = 0, temp1, 32, 32; \
+ ;; \
+ dep temp1 = 0, temp1, PSR_IT, 1; \
+ ;; \
+ dep temp1 = 0, temp1, PSR_DT, 1; \
+ ;; \
+ dep temp1 = 0, temp1, PSR_RT, 1; \
+ ;; \
+ dep temp1 = 0, temp1, PSR_I, 1; \
+ ;; \
+ dep temp1 = 0, temp1, PSR_IC, 1; \
+ ;; \
+ dep temp1 = -1, temp1, PSR_MC, 1; \
+ ;; \
+ mov cr.ipsr = temp1; \
+ ;; \
+ LOAD_PHYSICAL(p0, temp2, start_addr); \
+ ;; \
+ mov cr.iip = temp2; \
+ mov cr.ifs = r0; \
+ DATA_VA_TO_PA(sp); \
+ DATA_VA_TO_PA(gp); \
+ ;; \
+ srlz.i; \
+ ;; \
+ nop 1; \
+ nop 2; \
+ nop 1; \
+ nop 2; \
+ rfi; \
+ ;;
+
+/*
+ * This macro jumps to the instruction at the given virtual address
+ * and starts execution in virtual mode with all the address
+ * translations turned on.
+ * 1. Get the old saved psr
+ *
+ * 2. Clear the interrupt state collection bit in the current psr.
+ *
+ * 3. Set the instruction translation bit back in the old psr
+ * Note we have to do this since we are right now saving only the
+ * lower 32-bits of old psr.(Also the old psr has the data and
+ * rse translation bits on)
+ *
+ * 4. Set ipsr to this old_psr with "it" bit set and "bn" = 1.
+ *
+ * 5. Reset the current thread pointer (r13).
+ *
+ * 6. Set iip to the virtual address of the next instruction bundle.
+ *
+ * 7. Do an rfi to move ipsr to psr and iip to ip.
+ */
+
+#define VIRTUAL_MODE_ENTER(temp1, temp2, start_addr, old_psr) \
+ mov temp2 = psr; \
+ ;; \
+ mov old_psr = temp2; \
+ ;; \
+ dep temp2 = 0, temp2, PSR_IC, 2; \
+ ;; \
+ mov psr.l = temp2; \
+ mov ar.rsc = 0; \
+ ;; \
+ srlz.d; \
+ mov r13 = ar.k6; \
+ mov temp2 = ar.bspstore; \
+ ;; \
+ DATA_PA_TO_VA(temp2,temp1); \
+ ;; \
+ mov temp1 = ar.rnat; \
+ ;; \
+ mov ar.bspstore = temp2; \
+ ;; \
+ mov ar.rnat = temp1; \
+ ;; \
+ mov temp1 = old_psr; \
+ ;; \
+ mov temp2 = 1; \
+ ;; \
+ dep temp1 = temp2, temp1, PSR_IC, 1; \
+ ;; \
+ dep temp1 = temp2, temp1, PSR_IT, 1; \
+ ;; \
+ dep temp1 = temp2, temp1, PSR_DT, 1; \
+ ;; \
+ dep temp1 = temp2, temp1, PSR_RT, 1; \
+ ;; \
+ dep temp1 = temp2, temp1, PSR_BN, 1; \
+ ;; \
+ \
+ mov cr.ipsr = temp1; \
+ movl temp2 = start_addr; \
+ ;; \
+ mov cr.iip = temp2; \
+ ;; \
+ DATA_PA_TO_VA(sp, temp1); \
+ DATA_PA_TO_VA(gp, temp2); \
+ srlz.i; \
+ ;; \
+ nop 1; \
+ nop 2; \
+ nop 1; \
+ rfi \
+ ;;
+
+/*
+ * The following offsets capture the order in which the
+ * RSE related registers from the old context are
+ * saved onto the new stack frame.
+ *
+ * +-----------------------+
+ * |NDIRTY [BSP - BSPSTORE]|
+ * +-----------------------+
+ * | RNAT |
+ * +-----------------------+
+ * | BSPSTORE |
+ * +-----------------------+
+ * | IFS |
+ * +-----------------------+
+ * | PFS |
+ * +-----------------------+
+ * | RSC |
+ * +-----------------------+ <-------- Bottom of new stack frame
+ */
+#define rse_rsc_offset 0
+#define rse_pfs_offset (rse_rsc_offset+0x08)
+#define rse_ifs_offset (rse_pfs_offset+0x08)
+#define rse_bspstore_offset (rse_ifs_offset+0x08)
+#define rse_rnat_offset (rse_bspstore_offset+0x08)
+#define rse_ndirty_offset (rse_rnat_offset+0x08)
+
+/*
+ * rse_switch_context
+ *
+ * 1. Save old RSC onto the new stack frame
+ * 2. Save PFS onto new stack frame
+ * 3. Cover the old frame and start a new frame.
+ * 4. Save IFS onto new stack frame
+ * 5. Save the old BSPSTORE on the new stack frame
+ * 6. Save the old RNAT on the new stack frame
+ * 7. Write BSPSTORE with the new backing store pointer
+ * 8. Read and save the new BSP to calculate the #dirty registers
+ * NOTE: Look at pages 11-10, 11-11 in PRM Vol 2
+ */
+#define rse_switch_context(temp,p_stackframe,p_bspstore) \
+ ;; \
+ mov temp=ar.rsc;; \
+ st8 [p_stackframe]=temp,8;; \
+ mov temp=ar.pfs;; \
+ st8 [p_stackframe]=temp,8; \
+ cover ;; \
+ mov temp=cr.ifs;; \
+ st8 [p_stackframe]=temp,8;; \
+ mov temp=ar.bspstore;; \
+ st8 [p_stackframe]=temp,8;; \
+ mov temp=ar.rnat;; \
+ st8 [p_stackframe]=temp,8; \
+ mov ar.bspstore=p_bspstore;; \
+ mov temp=ar.bsp;; \
+ sub temp=temp,p_bspstore;; \
+ st8 [p_stackframe]=temp,8;;
+
+/*
+ * rse_return_context
+ * 1. Allocate a zero-sized frame
+ * 2. Store the number of dirty registers RSC.loadrs field
+ * 3. Issue a loadrs to insure that any registers from the interrupted
+ * context which were saved on the new stack frame have been loaded
+ * back into the stacked registers
+ * 4. Restore BSPSTORE
+ * 5. Restore RNAT
+ * 6. Restore PFS
+ * 7. Restore IFS
+ * 8. Restore RSC
+ * 9. Issue an RFI
+ */
+#define rse_return_context(psr_mask_reg,temp,p_stackframe) \
+ ;; \
+ alloc temp=ar.pfs,0,0,0,0; \
+ add p_stackframe=rse_ndirty_offset,p_stackframe;; \
+ ld8 temp=[p_stackframe];; \
+ shl temp=temp,16;; \
+ mov ar.rsc=temp;; \
+ loadrs;; \
+ add p_stackframe=-rse_ndirty_offset+rse_bspstore_offset,p_stackframe;;\
+ ld8 temp=[p_stackframe];; \
+ mov ar.bspstore=temp;; \
+ add p_stackframe=-rse_bspstore_offset+rse_rnat_offset,p_stackframe;;\
+ ld8 temp=[p_stackframe];; \
+ mov ar.rnat=temp;; \
+ add p_stackframe=-rse_rnat_offset+rse_pfs_offset,p_stackframe;; \
+ ld8 temp=[p_stackframe];; \
+ mov ar.pfs=temp;; \
+ add p_stackframe=-rse_pfs_offset+rse_ifs_offset,p_stackframe;; \
+ ld8 temp=[p_stackframe];; \
+ mov cr.ifs=temp;; \
+ add p_stackframe=-rse_ifs_offset+rse_rsc_offset,p_stackframe;; \
+ ld8 temp=[p_stackframe];; \
+ mov ar.rsc=temp ; \
+ mov temp=psr;; \
+ or temp=temp,psr_mask_reg;; \
+ mov cr.ipsr=temp;; \
+ mov temp=ip;; \
+ add temp=0x30,temp;; \
+ mov cr.iip=temp;; \
+ srlz.i;; \
+ rfi;;
+
+#endif /* _ASM_IA64_MCA_ASM_H */