2005-04-16 15:20:36 -07:00
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/*
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* This file contains the code that gets mapped at the upper end of each task's text
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* region. For now, it contains the signal trampoline code only.
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*
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* Copyright (C) 1999-2003 Hewlett-Packard Co
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* David Mosberger-Tang <davidm@hpl.hp.com>
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*/
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#include <linux/config.h>
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#include <asm/asmmacro.h>
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#include <asm/errno.h>
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2005-09-09 13:03:13 -07:00
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#include <asm/asm-offsets.h>
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2005-04-16 15:20:36 -07:00
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#include <asm/sigcontext.h>
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#include <asm/system.h>
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#include <asm/unistd.h>
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/*
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* We can't easily refer to symbols inside the kernel. To avoid full runtime relocation,
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* complications with the linker (which likes to create PLT stubs for branches
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* to targets outside the shared object) and to avoid multi-phase kernel builds, we
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* simply create minimalistic "patch lists" in special ELF sections.
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*/
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.section ".data.patch.fsyscall_table", "a"
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.previous
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#define LOAD_FSYSCALL_TABLE(reg) \
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[1:] movl reg=0; \
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.xdata4 ".data.patch.fsyscall_table", 1b-.
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.section ".data.patch.brl_fsys_bubble_down", "a"
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.previous
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#define BRL_COND_FSYS_BUBBLE_DOWN(pr) \
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[1:](pr)brl.cond.sptk 0; \
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.xdata4 ".data.patch.brl_fsys_bubble_down", 1b-.
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GLOBAL_ENTRY(__kernel_syscall_via_break)
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.prologue
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.altrp b6
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.body
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/*
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* Note: for (fast) syscall restart to work, the break instruction must be
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* the first one in the bundle addressed by syscall_via_break.
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*/
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{ .mib
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break 0x100000
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nop.i 0
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br.ret.sptk.many b6
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}
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END(__kernel_syscall_via_break)
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/*
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* On entry:
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* r11 = saved ar.pfs
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* r15 = system call #
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* b0 = saved return address
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* b6 = return address
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* On exit:
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* r11 = saved ar.pfs
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* r15 = system call #
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* b0 = saved return address
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* all other "scratch" registers: undefined
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* all "preserved" registers: same as on entry
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*/
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GLOBAL_ENTRY(__kernel_syscall_via_epc)
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.prologue
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.altrp b6
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.body
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{
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/*
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* Note: the kernel cannot assume that the first two instructions in this
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* bundle get executed. The remaining code must be safe even if
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* they do not get executed.
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*/
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2005-04-27 21:20:11 -07:00
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adds r17=-1024,r15 // A
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mov r10=0 // A default to successful syscall execution
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epc // B causes split-issue
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2005-04-16 15:20:36 -07:00
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}
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;;
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2005-04-27 21:22:40 -07:00
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rsm psr.be | psr.i // M2 (5 cyc to srlz.d)
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2005-04-27 21:20:11 -07:00
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LOAD_FSYSCALL_TABLE(r14) // X
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2005-04-27 21:19:37 -07:00
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;;
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2005-04-27 21:20:11 -07:00
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mov r16=IA64_KR(CURRENT) // M2 (12 cyc)
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shladd r18=r17,3,r14 // A
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mov r19=NR_syscalls-1 // A
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2005-04-16 15:20:36 -07:00
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;;
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2005-04-27 21:19:37 -07:00
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lfetch [r18] // M0|1
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2005-04-27 21:20:11 -07:00
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mov r29=psr // M2 (12 cyc)
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// If r17 is a NaT, p6 will be zero
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cmp.geu p6,p7=r19,r17 // A (sysnr > 0 && sysnr < 1024+NR_syscalls)?
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2005-04-16 15:20:36 -07:00
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;;
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2005-04-27 21:20:11 -07:00
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mov r21=ar.fpsr // M2 (12 cyc)
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tnat.nz p10,p9=r15 // I0
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mov.i r26=ar.pfs // I0 (would stall anyhow due to srlz.d...)
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2005-04-16 15:20:36 -07:00
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;;
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2005-04-27 21:20:11 -07:00
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srlz.d // M0 (forces split-issue) ensure PSR.BE==0
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(p6) ld8 r18=[r18] // M0|1
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2005-04-27 21:19:37 -07:00
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nop.i 0
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;;
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nop.m 0
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2005-04-27 21:20:11 -07:00
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(p6) tbit.z.unc p8,p0=r18,0 // I0 (dual-issues with "mov b7=r18"!)
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2005-04-27 21:19:37 -07:00
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nop.i 0
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2005-04-27 21:22:40 -07:00
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;;
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(p8) ssm psr.i
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(p6) mov b7=r18 // I0
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2005-04-27 21:20:11 -07:00
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(p8) br.dptk.many b7 // B
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2005-04-16 15:20:36 -07:00
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2005-04-27 21:20:11 -07:00
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mov r27=ar.rsc // M2 (12 cyc)
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2005-04-16 15:20:36 -07:00
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/*
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* brl.cond doesn't work as intended because the linker would convert this branch
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* into a branch to a PLT. Perhaps there will be a way to avoid this with some
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* future version of the linker. In the meantime, we just use an indirect branch
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* instead.
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*/
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#ifdef CONFIG_ITANIUM
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2005-04-27 21:20:11 -07:00
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(p6) add r14=-8,r14 // r14 <- addr of fsys_bubble_down entry
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2005-04-27 21:19:37 -07:00
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;;
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2005-04-16 15:20:36 -07:00
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(p6) ld8 r14=[r14] // r14 <- fsys_bubble_down
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;;
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(p6) mov b7=r14
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(p6) br.sptk.many b7
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#else
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BRL_COND_FSYS_BUBBLE_DOWN(p6)
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#endif
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2005-04-27 21:22:40 -07:00
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ssm psr.i
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2005-04-16 15:20:36 -07:00
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mov r10=-1
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(p10) mov r8=EINVAL
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(p9) mov r8=ENOSYS
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FSYS_RETURN
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END(__kernel_syscall_via_epc)
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# define ARG0_OFF (16 + IA64_SIGFRAME_ARG0_OFFSET)
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# define ARG1_OFF (16 + IA64_SIGFRAME_ARG1_OFFSET)
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# define ARG2_OFF (16 + IA64_SIGFRAME_ARG2_OFFSET)
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# define SIGHANDLER_OFF (16 + IA64_SIGFRAME_HANDLER_OFFSET)
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# define SIGCONTEXT_OFF (16 + IA64_SIGFRAME_SIGCONTEXT_OFFSET)
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# define FLAGS_OFF IA64_SIGCONTEXT_FLAGS_OFFSET
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# define CFM_OFF IA64_SIGCONTEXT_CFM_OFFSET
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# define FR6_OFF IA64_SIGCONTEXT_FR6_OFFSET
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# define BSP_OFF IA64_SIGCONTEXT_AR_BSP_OFFSET
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# define RNAT_OFF IA64_SIGCONTEXT_AR_RNAT_OFFSET
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# define UNAT_OFF IA64_SIGCONTEXT_AR_UNAT_OFFSET
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# define FPSR_OFF IA64_SIGCONTEXT_AR_FPSR_OFFSET
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# define PR_OFF IA64_SIGCONTEXT_PR_OFFSET
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# define RP_OFF IA64_SIGCONTEXT_IP_OFFSET
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# define SP_OFF IA64_SIGCONTEXT_R12_OFFSET
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# define RBS_BASE_OFF IA64_SIGCONTEXT_RBS_BASE_OFFSET
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# define LOADRS_OFF IA64_SIGCONTEXT_LOADRS_OFFSET
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# define base0 r2
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# define base1 r3
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/*
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* When we get here, the memory stack looks like this:
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*
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* +===============================+
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* | |
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* // struct sigframe //
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* | |
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* +-------------------------------+ <-- sp+16
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* | 16 byte of scratch |
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* | space |
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* +-------------------------------+ <-- sp
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*
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* The register stack looks _exactly_ the way it looked at the time the signal
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* occurred. In other words, we're treading on a potential mine-field: each
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* incoming general register may be a NaT value (including sp, in which case the
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* process ends up dying with a SIGSEGV).
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*
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* The first thing need to do is a cover to get the registers onto the backing
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* store. Once that is done, we invoke the signal handler which may modify some
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* of the machine state. After returning from the signal handler, we return
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* control to the previous context by executing a sigreturn system call. A signal
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* handler may call the rt_sigreturn() function to directly return to a given
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* sigcontext. However, the user-level sigreturn() needs to do much more than
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* calling the rt_sigreturn() system call as it needs to unwind the stack to
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* restore preserved registers that may have been saved on the signal handler's
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* call stack.
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*/
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#define SIGTRAMP_SAVES \
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.unwabi 3, 's'; /* mark this as a sigtramp handler (saves scratch regs) */ \
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.unwabi @svr4, 's'; /* backwards compatibility with old unwinders (remove in v2.7) */ \
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.savesp ar.unat, UNAT_OFF+SIGCONTEXT_OFF; \
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.savesp ar.fpsr, FPSR_OFF+SIGCONTEXT_OFF; \
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.savesp pr, PR_OFF+SIGCONTEXT_OFF; \
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.savesp rp, RP_OFF+SIGCONTEXT_OFF; \
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.savesp ar.pfs, CFM_OFF+SIGCONTEXT_OFF; \
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.vframesp SP_OFF+SIGCONTEXT_OFF
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GLOBAL_ENTRY(__kernel_sigtramp)
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// describe the state that is active when we get here:
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.prologue
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SIGTRAMP_SAVES
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.body
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.label_state 1
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adds base0=SIGHANDLER_OFF,sp
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adds base1=RBS_BASE_OFF+SIGCONTEXT_OFF,sp
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br.call.sptk.many rp=1f
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1:
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ld8 r17=[base0],(ARG0_OFF-SIGHANDLER_OFF) // get pointer to signal handler's plabel
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ld8 r15=[base1] // get address of new RBS base (or NULL)
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cover // push args in interrupted frame onto backing store
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;;
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cmp.ne p1,p0=r15,r0 // do we need to switch rbs? (note: pr is saved by kernel)
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mov.m r9=ar.bsp // fetch ar.bsp
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.spillsp.p p1, ar.rnat, RNAT_OFF+SIGCONTEXT_OFF
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(p1) br.cond.spnt setup_rbs // yup -> (clobbers p8, r14-r16, and r18-r20)
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back_from_setup_rbs:
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alloc r8=ar.pfs,0,0,3,0
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ld8 out0=[base0],16 // load arg0 (signum)
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adds base1=(ARG1_OFF-(RBS_BASE_OFF+SIGCONTEXT_OFF)),base1
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;;
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ld8 out1=[base1] // load arg1 (siginfop)
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ld8 r10=[r17],8 // get signal handler entry point
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;;
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ld8 out2=[base0] // load arg2 (sigcontextp)
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ld8 gp=[r17] // get signal handler's global pointer
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adds base0=(BSP_OFF+SIGCONTEXT_OFF),sp
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;;
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.spillsp ar.bsp, BSP_OFF+SIGCONTEXT_OFF
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st8 [base0]=r9 // save sc_ar_bsp
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adds base0=(FR6_OFF+SIGCONTEXT_OFF),sp
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adds base1=(FR6_OFF+16+SIGCONTEXT_OFF),sp
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;;
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stf.spill [base0]=f6,32
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stf.spill [base1]=f7,32
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;;
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stf.spill [base0]=f8,32
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stf.spill [base1]=f9,32
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mov b6=r10
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;;
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stf.spill [base0]=f10,32
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stf.spill [base1]=f11,32
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;;
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stf.spill [base0]=f12,32
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stf.spill [base1]=f13,32
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;;
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stf.spill [base0]=f14,32
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stf.spill [base1]=f15,32
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br.call.sptk.many rp=b6 // call the signal handler
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.ret0: adds base0=(BSP_OFF+SIGCONTEXT_OFF),sp
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;;
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ld8 r15=[base0] // fetch sc_ar_bsp
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mov r14=ar.bsp
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;;
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cmp.ne p1,p0=r14,r15 // do we need to restore the rbs?
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(p1) br.cond.spnt restore_rbs // yup -> (clobbers r14-r18, f6 & f7)
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;;
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back_from_restore_rbs:
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adds base0=(FR6_OFF+SIGCONTEXT_OFF),sp
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adds base1=(FR6_OFF+16+SIGCONTEXT_OFF),sp
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;;
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ldf.fill f6=[base0],32
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ldf.fill f7=[base1],32
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;;
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ldf.fill f8=[base0],32
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ldf.fill f9=[base1],32
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;;
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ldf.fill f10=[base0],32
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ldf.fill f11=[base1],32
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;;
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ldf.fill f12=[base0],32
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ldf.fill f13=[base1],32
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;;
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ldf.fill f14=[base0],32
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ldf.fill f15=[base1],32
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mov r15=__NR_rt_sigreturn
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.restore sp // pop .prologue
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break __BREAK_SYSCALL
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.prologue
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SIGTRAMP_SAVES
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setup_rbs:
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mov ar.rsc=0 // put RSE into enforced lazy mode
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;;
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.save ar.rnat, r19
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mov r19=ar.rnat // save RNaT before switching backing store area
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adds r14=(RNAT_OFF+SIGCONTEXT_OFF),sp
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mov r18=ar.bspstore
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mov ar.bspstore=r15 // switch over to new register backing store area
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;;
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.spillsp ar.rnat, RNAT_OFF+SIGCONTEXT_OFF
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st8 [r14]=r19 // save sc_ar_rnat
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.body
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mov.m r16=ar.bsp // sc_loadrs <- (new bsp - new bspstore) << 16
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adds r14=(LOADRS_OFF+SIGCONTEXT_OFF),sp
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;;
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invala
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sub r15=r16,r15
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extr.u r20=r18,3,6
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;;
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mov ar.rsc=0xf // set RSE into eager mode, pl 3
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cmp.eq p8,p0=63,r20
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shl r15=r15,16
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;;
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st8 [r14]=r15 // save sc_loadrs
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(p8) st8 [r18]=r19 // if bspstore points at RNaT slot, store RNaT there now
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.restore sp // pop .prologue
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br.cond.sptk back_from_setup_rbs
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.prologue
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SIGTRAMP_SAVES
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.spillsp ar.rnat, RNAT_OFF+SIGCONTEXT_OFF
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.body
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restore_rbs:
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// On input:
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// r14 = bsp1 (bsp at the time of return from signal handler)
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// r15 = bsp0 (bsp at the time the signal occurred)
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//
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// Here, we need to calculate bspstore0, the value that ar.bspstore needs
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// to be set to, based on bsp0 and the size of the dirty partition on
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// the alternate stack (sc_loadrs >> 16). This can be done with the
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// following algorithm:
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//
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// bspstore0 = rse_skip_regs(bsp0, -rse_num_regs(bsp1 - (loadrs >> 19), bsp1));
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//
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// This is what the code below does.
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//
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alloc r2=ar.pfs,0,0,0,0 // alloc null frame
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adds r16=(LOADRS_OFF+SIGCONTEXT_OFF),sp
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adds r18=(RNAT_OFF+SIGCONTEXT_OFF),sp
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;;
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ld8 r17=[r16]
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ld8 r16=[r18] // get new rnat
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extr.u r18=r15,3,6 // r18 <- rse_slot_num(bsp0)
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;;
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mov ar.rsc=r17 // put RSE into enforced lazy mode
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shr.u r17=r17,16
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;;
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sub r14=r14,r17 // r14 (bspstore1) <- bsp1 - (sc_loadrs >> 16)
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shr.u r17=r17,3 // r17 <- (sc_loadrs >> 19)
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;;
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loadrs // restore dirty partition
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extr.u r14=r14,3,6 // r14 <- rse_slot_num(bspstore1)
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;;
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add r14=r14,r17 // r14 <- rse_slot_num(bspstore1) + (sc_loadrs >> 19)
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;;
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shr.u r14=r14,6 // r14 <- (rse_slot_num(bspstore1) + (sc_loadrs >> 19))/0x40
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;;
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sub r14=r14,r17 // r14 <- -rse_num_regs(bspstore1, bsp1)
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movl r17=0x8208208208208209
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;;
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add r18=r18,r14 // r18 (delta) <- rse_slot_num(bsp0) - rse_num_regs(bspstore1,bsp1)
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setf.sig f7=r17
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cmp.lt p7,p0=r14,r0 // p7 <- (r14 < 0)?
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;;
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(p7) adds r18=-62,r18 // delta -= 62
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;;
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setf.sig f6=r18
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;;
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xmpy.h f6=f6,f7
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;;
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getf.sig r17=f6
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;;
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add r17=r17,r18
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shr r18=r18,63
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;;
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shr r17=r17,5
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;;
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sub r17=r17,r18 // r17 = delta/63
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;;
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add r17=r14,r17 // r17 <- delta/63 - rse_num_regs(bspstore1, bsp1)
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;;
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shladd r15=r17,3,r15 // r15 <- bsp0 + 8*(delta/63 - rse_num_regs(bspstore1, bsp1))
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;;
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mov ar.bspstore=r15 // switch back to old register backing store area
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;;
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mov ar.rnat=r16 // restore RNaT
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mov ar.rsc=0xf // (will be restored later on from sc_ar_rsc)
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// invala not necessary as that will happen when returning to user-mode
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br.cond.sptk back_from_restore_rbs
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END(__kernel_sigtramp)
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