forked from Minki/linux
fa968ee215
If user space is running in primary mode it can switch to secondary or access register mode, this is used e.g. in the clock_gettime code of the vdso. If a signal is delivered to the user space process while it has been running in access register mode the signal handler is executed in access register mode as well which will result in a crash most of the time. Set the address space control bits in the PSW to the default for the execution of the signal handler and make sure that the previous address space control is restored on signal return. Take care that user space can not switch to the kernel address space by modifying the registers in the signal frame. Cc: stable@vger.kernel.org Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
473 lines
12 KiB
C
473 lines
12 KiB
C
/*
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* S390 version
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* Copyright IBM Corp. 1999, 2000
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* Author(s): Denis Joseph Barrow (djbarrow@de.ibm.com,barrow_dj@yahoo.com)
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*/
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#ifndef _UAPI_S390_PTRACE_H
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#define _UAPI_S390_PTRACE_H
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/*
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* Offsets in the user_regs_struct. They are used for the ptrace
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* system call and in entry.S
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*/
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#ifndef __s390x__
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#define PT_PSWMASK 0x00
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#define PT_PSWADDR 0x04
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#define PT_GPR0 0x08
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#define PT_GPR1 0x0C
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#define PT_GPR2 0x10
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#define PT_GPR3 0x14
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#define PT_GPR4 0x18
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#define PT_GPR5 0x1C
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#define PT_GPR6 0x20
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#define PT_GPR7 0x24
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#define PT_GPR8 0x28
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#define PT_GPR9 0x2C
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#define PT_GPR10 0x30
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#define PT_GPR11 0x34
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#define PT_GPR12 0x38
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#define PT_GPR13 0x3C
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#define PT_GPR14 0x40
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#define PT_GPR15 0x44
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#define PT_ACR0 0x48
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#define PT_ACR1 0x4C
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#define PT_ACR2 0x50
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#define PT_ACR3 0x54
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#define PT_ACR4 0x58
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#define PT_ACR5 0x5C
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#define PT_ACR6 0x60
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#define PT_ACR7 0x64
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#define PT_ACR8 0x68
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#define PT_ACR9 0x6C
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#define PT_ACR10 0x70
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#define PT_ACR11 0x74
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#define PT_ACR12 0x78
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#define PT_ACR13 0x7C
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#define PT_ACR14 0x80
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#define PT_ACR15 0x84
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#define PT_ORIGGPR2 0x88
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#define PT_FPC 0x90
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/*
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* A nasty fact of life that the ptrace api
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* only supports passing of longs.
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*/
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#define PT_FPR0_HI 0x98
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#define PT_FPR0_LO 0x9C
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#define PT_FPR1_HI 0xA0
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#define PT_FPR1_LO 0xA4
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#define PT_FPR2_HI 0xA8
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#define PT_FPR2_LO 0xAC
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#define PT_FPR3_HI 0xB0
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#define PT_FPR3_LO 0xB4
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#define PT_FPR4_HI 0xB8
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#define PT_FPR4_LO 0xBC
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#define PT_FPR5_HI 0xC0
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#define PT_FPR5_LO 0xC4
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#define PT_FPR6_HI 0xC8
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#define PT_FPR6_LO 0xCC
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#define PT_FPR7_HI 0xD0
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#define PT_FPR7_LO 0xD4
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#define PT_FPR8_HI 0xD8
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#define PT_FPR8_LO 0XDC
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#define PT_FPR9_HI 0xE0
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#define PT_FPR9_LO 0xE4
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#define PT_FPR10_HI 0xE8
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#define PT_FPR10_LO 0xEC
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#define PT_FPR11_HI 0xF0
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#define PT_FPR11_LO 0xF4
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#define PT_FPR12_HI 0xF8
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#define PT_FPR12_LO 0xFC
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#define PT_FPR13_HI 0x100
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#define PT_FPR13_LO 0x104
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#define PT_FPR14_HI 0x108
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#define PT_FPR14_LO 0x10C
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#define PT_FPR15_HI 0x110
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#define PT_FPR15_LO 0x114
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#define PT_CR_9 0x118
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#define PT_CR_10 0x11C
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#define PT_CR_11 0x120
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#define PT_IEEE_IP 0x13C
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#define PT_LASTOFF PT_IEEE_IP
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#define PT_ENDREGS 0x140-1
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#define GPR_SIZE 4
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#define CR_SIZE 4
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#define STACK_FRAME_OVERHEAD 96 /* size of minimum stack frame */
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#else /* __s390x__ */
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#define PT_PSWMASK 0x00
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#define PT_PSWADDR 0x08
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#define PT_GPR0 0x10
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#define PT_GPR1 0x18
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#define PT_GPR2 0x20
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#define PT_GPR3 0x28
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#define PT_GPR4 0x30
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#define PT_GPR5 0x38
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#define PT_GPR6 0x40
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#define PT_GPR7 0x48
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#define PT_GPR8 0x50
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#define PT_GPR9 0x58
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#define PT_GPR10 0x60
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#define PT_GPR11 0x68
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#define PT_GPR12 0x70
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#define PT_GPR13 0x78
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#define PT_GPR14 0x80
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#define PT_GPR15 0x88
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#define PT_ACR0 0x90
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#define PT_ACR1 0x94
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#define PT_ACR2 0x98
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#define PT_ACR3 0x9C
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#define PT_ACR4 0xA0
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#define PT_ACR5 0xA4
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#define PT_ACR6 0xA8
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#define PT_ACR7 0xAC
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#define PT_ACR8 0xB0
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#define PT_ACR9 0xB4
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#define PT_ACR10 0xB8
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#define PT_ACR11 0xBC
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#define PT_ACR12 0xC0
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#define PT_ACR13 0xC4
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#define PT_ACR14 0xC8
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#define PT_ACR15 0xCC
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#define PT_ORIGGPR2 0xD0
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#define PT_FPC 0xD8
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#define PT_FPR0 0xE0
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#define PT_FPR1 0xE8
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#define PT_FPR2 0xF0
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#define PT_FPR3 0xF8
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#define PT_FPR4 0x100
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#define PT_FPR5 0x108
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#define PT_FPR6 0x110
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#define PT_FPR7 0x118
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#define PT_FPR8 0x120
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#define PT_FPR9 0x128
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#define PT_FPR10 0x130
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#define PT_FPR11 0x138
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#define PT_FPR12 0x140
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#define PT_FPR13 0x148
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#define PT_FPR14 0x150
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#define PT_FPR15 0x158
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#define PT_CR_9 0x160
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#define PT_CR_10 0x168
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#define PT_CR_11 0x170
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#define PT_IEEE_IP 0x1A8
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#define PT_LASTOFF PT_IEEE_IP
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#define PT_ENDREGS 0x1B0-1
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#define GPR_SIZE 8
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#define CR_SIZE 8
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#define STACK_FRAME_OVERHEAD 160 /* size of minimum stack frame */
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#endif /* __s390x__ */
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#define NUM_GPRS 16
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#define NUM_FPRS 16
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#define NUM_CRS 16
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#define NUM_ACRS 16
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#define NUM_CR_WORDS 3
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#define FPR_SIZE 8
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#define FPC_SIZE 4
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#define FPC_PAD_SIZE 4 /* gcc insists on aligning the fpregs */
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#define ACR_SIZE 4
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#define PTRACE_OLDSETOPTIONS 21
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#ifndef __ASSEMBLY__
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#include <linux/stddef.h>
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#include <linux/types.h>
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typedef union
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{
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float f;
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double d;
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__u64 ui;
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struct
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{
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__u32 hi;
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__u32 lo;
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} fp;
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} freg_t;
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typedef struct
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{
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__u32 fpc;
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freg_t fprs[NUM_FPRS];
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} s390_fp_regs;
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#define FPC_EXCEPTION_MASK 0xF8000000
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#define FPC_FLAGS_MASK 0x00F80000
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#define FPC_DXC_MASK 0x0000FF00
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#define FPC_RM_MASK 0x00000003
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#define FPC_VALID_MASK 0xF8F8FF03
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/* this typedef defines how a Program Status Word looks like */
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typedef struct
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{
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unsigned long mask;
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unsigned long addr;
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} __attribute__ ((aligned(8))) psw_t;
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typedef struct
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{
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__u32 mask;
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__u32 addr;
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} __attribute__ ((aligned(8))) psw_compat_t;
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#ifndef __s390x__
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#define PSW_MASK_PER 0x40000000UL
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#define PSW_MASK_DAT 0x04000000UL
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#define PSW_MASK_IO 0x02000000UL
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#define PSW_MASK_EXT 0x01000000UL
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#define PSW_MASK_KEY 0x00F00000UL
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#define PSW_MASK_BASE 0x00080000UL /* always one */
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#define PSW_MASK_MCHECK 0x00040000UL
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#define PSW_MASK_WAIT 0x00020000UL
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#define PSW_MASK_PSTATE 0x00010000UL
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#define PSW_MASK_ASC 0x0000C000UL
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#define PSW_MASK_CC 0x00003000UL
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#define PSW_MASK_PM 0x00000F00UL
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#define PSW_MASK_RI 0x00000000UL
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#define PSW_MASK_EA 0x00000000UL
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#define PSW_MASK_BA 0x00000000UL
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#define PSW_MASK_USER 0x0000FF00UL
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#define PSW_ADDR_AMODE 0x80000000UL
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#define PSW_ADDR_INSN 0x7FFFFFFFUL
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#define PSW_DEFAULT_KEY (((unsigned long) PAGE_DEFAULT_ACC) << 20)
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#define PSW_ASC_PRIMARY 0x00000000UL
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#define PSW_ASC_ACCREG 0x00004000UL
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#define PSW_ASC_SECONDARY 0x00008000UL
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#define PSW_ASC_HOME 0x0000C000UL
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#else /* __s390x__ */
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#define PSW_MASK_PER 0x4000000000000000UL
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#define PSW_MASK_DAT 0x0400000000000000UL
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#define PSW_MASK_IO 0x0200000000000000UL
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#define PSW_MASK_EXT 0x0100000000000000UL
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#define PSW_MASK_BASE 0x0000000000000000UL
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#define PSW_MASK_KEY 0x00F0000000000000UL
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#define PSW_MASK_MCHECK 0x0004000000000000UL
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#define PSW_MASK_WAIT 0x0002000000000000UL
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#define PSW_MASK_PSTATE 0x0001000000000000UL
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#define PSW_MASK_ASC 0x0000C00000000000UL
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#define PSW_MASK_CC 0x0000300000000000UL
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#define PSW_MASK_PM 0x00000F0000000000UL
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#define PSW_MASK_RI 0x0000008000000000UL
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#define PSW_MASK_EA 0x0000000100000000UL
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#define PSW_MASK_BA 0x0000000080000000UL
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#define PSW_MASK_USER 0x0000FF8180000000UL
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#define PSW_ADDR_AMODE 0x0000000000000000UL
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#define PSW_ADDR_INSN 0xFFFFFFFFFFFFFFFFUL
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#define PSW_DEFAULT_KEY (((unsigned long) PAGE_DEFAULT_ACC) << 52)
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#define PSW_ASC_PRIMARY 0x0000000000000000UL
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#define PSW_ASC_ACCREG 0x0000400000000000UL
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#define PSW_ASC_SECONDARY 0x0000800000000000UL
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#define PSW_ASC_HOME 0x0000C00000000000UL
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#endif /* __s390x__ */
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/*
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* The s390_regs structure is used to define the elf_gregset_t.
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*/
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typedef struct
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{
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psw_t psw;
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unsigned long gprs[NUM_GPRS];
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unsigned int acrs[NUM_ACRS];
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unsigned long orig_gpr2;
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} s390_regs;
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typedef struct
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{
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psw_compat_t psw;
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__u32 gprs[NUM_GPRS];
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__u32 acrs[NUM_ACRS];
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__u32 orig_gpr2;
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} s390_compat_regs;
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typedef struct
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{
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__u32 gprs_high[NUM_GPRS];
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} s390_compat_regs_high;
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/*
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* Now for the user space program event recording (trace) definitions.
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* The following structures are used only for the ptrace interface, don't
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* touch or even look at it if you don't want to modify the user-space
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* ptrace interface. In particular stay away from it for in-kernel PER.
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*/
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typedef struct
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{
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unsigned long cr[NUM_CR_WORDS];
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} per_cr_words;
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#define PER_EM_MASK 0xE8000000UL
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typedef struct
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{
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#ifdef __s390x__
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unsigned : 32;
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#endif /* __s390x__ */
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unsigned em_branching : 1;
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unsigned em_instruction_fetch : 1;
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/*
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* Switching on storage alteration automatically fixes
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* the storage alteration event bit in the users std.
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*/
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unsigned em_storage_alteration : 1;
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unsigned em_gpr_alt_unused : 1;
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unsigned em_store_real_address : 1;
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unsigned : 3;
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unsigned branch_addr_ctl : 1;
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unsigned : 1;
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unsigned storage_alt_space_ctl : 1;
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unsigned : 21;
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unsigned long starting_addr;
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unsigned long ending_addr;
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} per_cr_bits;
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typedef struct
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{
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unsigned short perc_atmid;
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unsigned long address;
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unsigned char access_id;
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} per_lowcore_words;
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typedef struct
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{
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unsigned perc_branching : 1;
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unsigned perc_instruction_fetch : 1;
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unsigned perc_storage_alteration : 1;
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unsigned perc_gpr_alt_unused : 1;
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unsigned perc_store_real_address : 1;
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unsigned : 3;
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unsigned atmid_psw_bit_31 : 1;
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unsigned atmid_validity_bit : 1;
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unsigned atmid_psw_bit_32 : 1;
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unsigned atmid_psw_bit_5 : 1;
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unsigned atmid_psw_bit_16 : 1;
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unsigned atmid_psw_bit_17 : 1;
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unsigned si : 2;
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unsigned long address;
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unsigned : 4;
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unsigned access_id : 4;
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} per_lowcore_bits;
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typedef struct
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{
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union {
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per_cr_words words;
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per_cr_bits bits;
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} control_regs;
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/*
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* Use these flags instead of setting em_instruction_fetch
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* directly they are used so that single stepping can be
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* switched on & off while not affecting other tracing
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*/
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unsigned single_step : 1;
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unsigned instruction_fetch : 1;
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unsigned : 30;
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/*
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* These addresses are copied into cr10 & cr11 if single
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* stepping is switched off
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*/
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unsigned long starting_addr;
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unsigned long ending_addr;
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union {
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per_lowcore_words words;
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per_lowcore_bits bits;
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} lowcore;
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} per_struct;
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typedef struct
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{
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unsigned int len;
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unsigned long kernel_addr;
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unsigned long process_addr;
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} ptrace_area;
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/*
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* S/390 specific non posix ptrace requests. I chose unusual values so
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* they are unlikely to clash with future ptrace definitions.
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*/
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#define PTRACE_PEEKUSR_AREA 0x5000
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#define PTRACE_POKEUSR_AREA 0x5001
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#define PTRACE_PEEKTEXT_AREA 0x5002
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#define PTRACE_PEEKDATA_AREA 0x5003
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#define PTRACE_POKETEXT_AREA 0x5004
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#define PTRACE_POKEDATA_AREA 0x5005
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#define PTRACE_GET_LAST_BREAK 0x5006
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#define PTRACE_PEEK_SYSTEM_CALL 0x5007
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#define PTRACE_POKE_SYSTEM_CALL 0x5008
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#define PTRACE_ENABLE_TE 0x5009
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#define PTRACE_DISABLE_TE 0x5010
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/*
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* PT_PROT definition is loosely based on hppa bsd definition in
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* gdb/hppab-nat.c
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*/
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#define PTRACE_PROT 21
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typedef enum
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{
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ptprot_set_access_watchpoint,
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ptprot_set_write_watchpoint,
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ptprot_disable_watchpoint
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} ptprot_flags;
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typedef struct
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{
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unsigned long lowaddr;
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unsigned long hiaddr;
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ptprot_flags prot;
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} ptprot_area;
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/* Sequence of bytes for breakpoint illegal instruction. */
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#define S390_BREAKPOINT {0x0,0x1}
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#define S390_BREAKPOINT_U16 ((__u16)0x0001)
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#define S390_SYSCALL_OPCODE ((__u16)0x0a00)
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#define S390_SYSCALL_SIZE 2
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/*
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* The user_regs_struct defines the way the user registers are
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* store on the stack for signal handling.
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*/
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struct user_regs_struct
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{
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psw_t psw;
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unsigned long gprs[NUM_GPRS];
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unsigned int acrs[NUM_ACRS];
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unsigned long orig_gpr2;
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s390_fp_regs fp_regs;
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/*
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* These per registers are in here so that gdb can modify them
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* itself as there is no "official" ptrace interface for hardware
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* watchpoints. This is the way intel does it.
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*/
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per_struct per_info;
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unsigned long ieee_instruction_pointer; /* obsolete, always 0 */
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};
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#endif /* __ASSEMBLY__ */
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#endif /* _UAPI_S390_PTRACE_H */
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