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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-7.1/] [gdb/] [arm-tdep.h] - Blame information for rev 327

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1 227 jeremybenn
/* Common target dependent code for GDB on ARM systems.
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   Copyright (C) 2002, 2003, 2007, 2008, 2009, 2010
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   Free Software Foundation, Inc.
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   This file is part of GDB.
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   This program is free software; you can redistribute it and/or modify
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   it under the terms of the GNU General Public License as published by
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   the Free Software Foundation; either version 3 of the License, or
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   (at your option) any later version.
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   This program is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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   GNU General Public License for more details.
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   You should have received a copy of the GNU General Public License
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   along with this program.  If not, see <http://www.gnu.org/licenses/>.  */
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#ifndef ARM_TDEP_H
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#define ARM_TDEP_H
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/* Forward declarations.  */
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struct gdbarch;
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struct regset;
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/* Register numbers of various important registers.  */
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enum gdb_regnum {
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  ARM_A1_REGNUM = 0,             /* first integer-like argument */
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  ARM_A4_REGNUM = 3,            /* last integer-like argument */
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  ARM_AP_REGNUM = 11,
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  ARM_IP_REGNUM = 12,
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  ARM_SP_REGNUM = 13,           /* Contains address of top of stack */
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  ARM_LR_REGNUM = 14,           /* address to return to from a function call */
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  ARM_PC_REGNUM = 15,           /* Contains program counter */
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  ARM_F0_REGNUM = 16,           /* first floating point register */
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  ARM_F3_REGNUM = 19,           /* last floating point argument register */
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  ARM_F7_REGNUM = 23,           /* last floating point register */
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  ARM_FPS_REGNUM = 24,          /* floating point status register */
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  ARM_PS_REGNUM = 25,           /* Contains processor status */
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  ARM_WR0_REGNUM,               /* WMMX data registers.  */
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  ARM_WR15_REGNUM = ARM_WR0_REGNUM + 15,
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  ARM_WC0_REGNUM,               /* WMMX control registers.  */
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  ARM_WCSSF_REGNUM = ARM_WC0_REGNUM + 2,
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  ARM_WCASF_REGNUM = ARM_WC0_REGNUM + 3,
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  ARM_WC7_REGNUM = ARM_WC0_REGNUM + 7,
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  ARM_WCGR0_REGNUM,             /* WMMX general purpose registers.  */
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  ARM_WCGR3_REGNUM = ARM_WCGR0_REGNUM + 3,
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  ARM_WCGR7_REGNUM = ARM_WCGR0_REGNUM + 7,
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  ARM_D0_REGNUM,                /* VFP double-precision registers.  */
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  ARM_D31_REGNUM = ARM_D0_REGNUM + 31,
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  ARM_NUM_REGS,
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  /* Other useful registers.  */
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  ARM_FP_REGNUM = 11,           /* Frame register in ARM code, if used.  */
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  THUMB_FP_REGNUM = 7,          /* Frame register in Thumb code, if used.  */
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  ARM_NUM_ARG_REGS = 4,
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  ARM_LAST_ARG_REGNUM = ARM_A4_REGNUM,
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  ARM_NUM_FP_ARG_REGS = 4,
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  ARM_LAST_FP_ARG_REGNUM = ARM_F3_REGNUM
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};
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/* Size of integer registers.  */
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#define INT_REGISTER_SIZE               4
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/* Say how long FP registers are.  Used for documentation purposes and
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   code readability in this header.  IEEE extended doubles are 80
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   bits.  DWORD aligned they use 96 bits.  */
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#define FP_REGISTER_SIZE        12
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/* Number of machine registers.  The only define actually required
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   is gdbarch_num_regs.  The other definitions are used for documentation
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   purposes and code readability.  */
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/* For 26 bit ARM code, a fake copy of the PC is placed in register 25 (PS)
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   (and called PS for processor status) so the status bits can be cleared
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   from the PC (register 15).  For 32 bit ARM code, a copy of CPSR is placed
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   in PS.  */
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#define NUM_FREGS       8       /* Number of floating point registers.  */
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#define NUM_SREGS       2       /* Number of status registers.  */
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#define NUM_GREGS       16      /* Number of general purpose registers.  */
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/* Instruction condition field values.  */
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#define INST_EQ         0x0
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#define INST_NE         0x1
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#define INST_CS         0x2
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#define INST_CC         0x3
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#define INST_MI         0x4
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#define INST_PL         0x5
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#define INST_VS         0x6
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#define INST_VC         0x7
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#define INST_HI         0x8
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#define INST_LS         0x9
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#define INST_GE         0xa
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#define INST_LT         0xb
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#define INST_GT         0xc
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#define INST_LE         0xd
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#define INST_AL         0xe
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#define INST_NV         0xf
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#define FLAG_N          0x80000000
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#define FLAG_Z          0x40000000
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#define FLAG_C          0x20000000
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#define FLAG_V          0x10000000
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108
#define CPSR_T          0x20
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110
/* Type of floating-point code in use by inferior.  There are really 3 models
111
   that are traditionally supported (plus the endianness issue), but gcc can
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   only generate 2 of those.  The third is APCS_FLOAT, where arguments to
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   functions are passed in floating-point registers.
114
 
115
   In addition to the traditional models, VFP adds two more.
116
 
117
   If you update this enum, don't forget to update fp_model_strings in
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   arm-tdep.c.  */
119
 
120
enum arm_float_model
121
{
122
  ARM_FLOAT_AUTO,       /* Automatic detection.  Do not set in tdep.  */
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  ARM_FLOAT_SOFT_FPA,   /* Traditional soft-float (mixed-endian on LE ARM).  */
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  ARM_FLOAT_FPA,        /* FPA co-processor.  GCC calling convention.  */
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  ARM_FLOAT_SOFT_VFP,   /* Soft-float with pure-endian doubles.  */
126
  ARM_FLOAT_VFP,        /* Full VFP calling convention.  */
127
  ARM_FLOAT_LAST        /* Keep at end.  */
128
};
129
 
130
/* ABI used by the inferior.  */
131
enum arm_abi_kind
132
{
133
  ARM_ABI_AUTO,
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  ARM_ABI_APCS,
135
  ARM_ABI_AAPCS,
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  ARM_ABI_LAST
137
};
138
 
139
/* Convention for returning structures.  */
140
 
141
enum struct_return
142
{
143
  pcc_struct_return,            /* Return "short" structures in memory.  */
144
  reg_struct_return             /* Return "short" structures in registers.  */
145
};
146
 
147
/* Target-dependent structure in gdbarch.  */
148
struct gdbarch_tdep
149
{
150
  /* The ABI for this architecture.  It should never be set to
151
     ARM_ABI_AUTO.  */
152
  enum arm_abi_kind arm_abi;
153
 
154
  enum arm_float_model fp_model; /* Floating point calling conventions.  */
155
 
156
  int have_fpa_registers;       /* Does the target report the FPA registers?  */
157
  int have_vfp_registers;       /* Does the target report the VFP registers?  */
158
  int have_vfp_pseudos;         /* Are we synthesizing the single precision
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                                   VFP registers?  */
160
  int have_neon_pseudos;        /* Are we synthesizing the quad precision
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                                   NEON registers?  Requires
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                                   have_vfp_pseudos.  */
163
  int have_neon;                /* Do we have a NEON unit?  */
164
 
165
  CORE_ADDR lowest_pc;          /* Lowest address at which instructions
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                                   will appear.  */
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168
  const char *arm_breakpoint;   /* Breakpoint pattern for an ARM insn.  */
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  int arm_breakpoint_size;      /* And its size.  */
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  const char *thumb_breakpoint; /* Breakpoint pattern for a Thumb insn.  */
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  int thumb_breakpoint_size;    /* And its size.  */
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  /* If the Thumb breakpoint is an undefined instruction (which is
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     affected by IT blocks) rather than a BKPT instruction (which is
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     not), then we need a 32-bit Thumb breakpoint to preserve the
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     instruction count in IT blocks.  */
177
  const char *thumb2_breakpoint;
178
  int thumb2_breakpoint_size;
179
 
180
  int jb_pc;                    /* Offset to PC value in jump buffer.
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                                   If this is negative, longjmp support
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                                   will be disabled.  */
183
  size_t jb_elt_size;           /* And the size of each entry in the buf.  */
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185
  /* Convention for returning structures.  */
186
  enum struct_return struct_return;
187
 
188
  /* Cached core file helpers.  */
189
  struct regset *gregset, *fpregset;
190
 
191
  /* ISA-specific data types.  */
192
  struct type *arm_ext_type;
193
  struct type *neon_double_type;
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  struct type *neon_quad_type;
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};
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/* Structures used for displaced stepping.  */
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/* The maximum number of temporaries available for displaced instructions.  */
200
#define DISPLACED_TEMPS                 16
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/* The maximum number of modified instructions generated for one single-stepped
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   instruction, including the breakpoint (usually at the end of the instruction
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   sequence) and any scratch words, etc.  */
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#define DISPLACED_MODIFIED_INSNS        8
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206
struct displaced_step_closure
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{
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  ULONGEST tmp[DISPLACED_TEMPS];
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  int rd;
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  int wrote_to_pc;
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  union
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  {
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    struct
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    {
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      int xfersize;
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      int rn;                      /* Writeback register.  */
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      unsigned int immed : 1;      /* Offset is immediate.  */
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      unsigned int writeback : 1;  /* Perform base-register writeback.  */
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      unsigned int restore_r4 : 1; /* Used r4 as scratch.  */
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    } ldst;
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222
    struct
223
    {
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      unsigned long dest;
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      unsigned int link : 1;
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      unsigned int exchange : 1;
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      unsigned int cond : 4;
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    } branch;
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230
    struct
231
    {
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      unsigned int regmask;
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      int rn;
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      CORE_ADDR xfer_addr;
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      unsigned int load : 1;
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      unsigned int user : 1;
237
      unsigned int increment : 1;
238
      unsigned int before : 1;
239
      unsigned int writeback : 1;
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      unsigned int cond : 4;
241
    } block;
242
 
243
    struct
244
    {
245
      unsigned int immed : 1;
246
    } preload;
247
 
248
    struct
249
    {
250
      /* If non-NULL, override generic SVC handling (e.g. for a particular
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         OS).  */
252
      int (*copy_svc_os) (struct gdbarch *gdbarch, uint32_t insn, CORE_ADDR to,
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                          struct regcache *regs,
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                          struct displaced_step_closure *dsc);
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    } svc;
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  } u;
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  unsigned long modinsn[DISPLACED_MODIFIED_INSNS];
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  int numinsns;
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  CORE_ADDR insn_addr;
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  CORE_ADDR scratch_base;
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  void (*cleanup) (struct gdbarch *, struct regcache *,
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                   struct displaced_step_closure *);
263
};
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/* Values for the WRITE_PC argument to displaced_write_reg.  If the register
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   write may write to the PC, specifies the way the CPSR T bit, etc. is
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   modified by the instruction.  */
268
 
269
enum pc_write_style
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{
271
  BRANCH_WRITE_PC,
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  BX_WRITE_PC,
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  LOAD_WRITE_PC,
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  ALU_WRITE_PC,
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  CANNOT_WRITE_PC
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};
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278
extern void
279
  arm_process_displaced_insn (struct gdbarch *gdbarch, uint32_t insn,
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                              CORE_ADDR from, CORE_ADDR to,
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                              struct regcache *regs,
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                              struct displaced_step_closure *dsc);
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extern void
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  arm_displaced_init_closure (struct gdbarch *gdbarch, CORE_ADDR from,
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                              CORE_ADDR to, struct displaced_step_closure *dsc);
286
extern ULONGEST
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  displaced_read_reg (struct regcache *regs, CORE_ADDR from, int regno);
288
extern void
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  displaced_write_reg (struct regcache *regs,
290
                       struct displaced_step_closure *dsc, int regno,
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                       ULONGEST val, enum pc_write_style write_pc);
292
 
293
CORE_ADDR arm_skip_stub (struct frame_info *, CORE_ADDR);
294
CORE_ADDR arm_get_next_pc (struct frame_info *, CORE_ADDR);
295
int arm_software_single_step (struct frame_info *);
296
 
297
extern struct displaced_step_closure *
298
  arm_displaced_step_copy_insn (struct gdbarch *, CORE_ADDR, CORE_ADDR,
299
                                struct regcache *);
300
extern void arm_displaced_step_fixup (struct gdbarch *,
301
                                      struct displaced_step_closure *,
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                                      CORE_ADDR, CORE_ADDR, struct regcache *);
303
 
304
/* Functions exported from armbsd-tdep.h.  */
305
 
306
/* Return the appropriate register set for the core section identified
307
   by SECT_NAME and SECT_SIZE.  */
308
 
309
extern const struct regset *
310
  armbsd_regset_from_core_section (struct gdbarch *gdbarch,
311
                                   const char *sect_name, size_t sect_size);
312
 
313
#endif /* arm-tdep.h */

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