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https://mirrors.bfsu.edu.cn/git/linux.git
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e55645ec57
All the ia64 pvops code is now dead code since both xen and kvm support have been ripped out [0] [1]. Just that no one had troubled to rip this stuff out. The only useful remaining pieces were the old pvops docs but that was recently also generalized and moved out from ia64 [2]. This has been run time tested on an ia64 Madison system. [0]003f7de625
"KVM: ia64: remove" since v3.19-rc1 [1]d52eefb47d
"ia64/xen: Remove Xen support for ia64" since v3.14-rc1 [2] "virtual: Documentation: simplify and generalize paravirt_ops.txt" Signed-off-by: Luis R. Rodriguez <mcgrof@suse.com> Signed-off-by: Tony Luck <tony.luck@intel.com>
380 lines
11 KiB
ArmAsm
380 lines
11 KiB
ArmAsm
/*
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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 <asm/asmmacro.h>
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#include <asm/errno.h>
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#include <asm/asm-offsets.h>
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#include <asm/sigcontext.h>
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#include <asm/unistd.h>
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#include <asm/kregs.h>
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#include <asm/page.h>
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#include <asm/native/inst.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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;; \
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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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# 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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/*
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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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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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}
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;;
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RSM_PSR_BE_I(r20, r22) // M2 (5 cyc to srlz.d)
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LOAD_FSYSCALL_TABLE(r14) // X
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;;
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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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;;
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lfetch [r18] // M0|1
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MOV_FROM_PSR(p0, r29, r8) // 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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;;
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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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;;
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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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nop.i 0
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;;
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nop.m 0
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(p6) tbit.z.unc p8,p0=r18,0 // I0 (dual-issues with "mov b7=r18"!)
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nop.i 0
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;;
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SSM_PSR_I(p8, p14, r25)
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(p6) mov b7=r18 // I0
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(p8) br.dptk.many b7 // B
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mov r27=ar.rsc // M2 (12 cyc)
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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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(p6) add r14=-8,r14 // r14 <- addr of fsys_bubble_down entry
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;;
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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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SSM_PSR_I(p0, p14, r10)
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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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