[PATCH] arm reversible : <phase_2_complete>

paawan oza paawan1982@yahoo.com
Wed Apr 20 19:16:00 GMT 2011


Hi,

I am working on phase-3 now.
if anybody could please start reviewing phase-2 patch (as this is
independent of phase-3 and could be checked in independently too)
I may start implementing review comments as and when I get.
In Parallel, test cases are also being worked upon.
following is the phase-2 patch.

PATCH STARTS.

------------------------------
diff -urN arm_orig/arm-linux-tdep.c arm_new/arm-linux-tdep.c
--- arm_orig/arm-linux-tdep.c    2011-03-03 09:21:13.000000000 +0530
+++ arm_new/arm-linux-tdep.c    2011-04-15 13:11:15.000000000 +0530
@@ -998,6 +998,9 @@
   set_gdbarch_fetch_tls_load_module_address (gdbarch,
                                              svr4_fetch_objfile_link_map);

+  /* Enable process record */
+  set_gdbarch_process_record(gdbarch, arm_process_record);
+
   tramp_frame_prepend_unwinder (gdbarch,
                 &arm_linux_sigreturn_tramp_frame);
   tramp_frame_prepend_unwinder (gdbarch,
@@ -1025,6 +1028,8 @@


   tdep->syscall_next_pc = arm_linux_syscall_next_pc;
+
+  tdep->arm_swi_record = NULL;
}

/* Provide a prototype to silence -Wmissing-prototypes.  */
diff -urN arm_orig/arm-tdep.c arm_new/arm-tdep.c
--- arm_orig/arm-tdep.c    2011-03-03 09:21:13.000000000 +0530
+++ arm_new/arm-tdep.c    2011-04-15 13:11:15.000000000 +0530
@@ -54,8 +54,11 @@
#include "gdb_assert.h"
#include "vec.h"

+#include "record.h"
+
#include "features/arm-with-m.c"

+
static int arm_debug;

/* Macros for setting and testing a bit in a minimal symbol that marks
@@ -7929,3 +7932,1692 @@
                NULL, /* FIXME: i18n: "ARM debugging is %s.  */
                &setdebuglist, &showdebuglist);
}
+
+
+
+/* arm-reversible process reacord data structures.  */
+
+#define ARM_INSN_SIZE_BYTES 4    
+#define THUMB_INSN_SIZE_BYTES 2
+#define THUMB2_INSN_SIZE_BYTES 4
+#define NO_OF_TYPE_OF_ARM_INSNS 8
+#define NO_OF_TYPE_OF_THUMB_INSNS 8
+#define ARM_RECORD_ARCH_LIST_ADD_REG(regnum) \
+    record_arch_list_add_reg (arm_record.regcache, regnum)
+#define GET_REG_VAL(REGCACHE,NO,BUF)  regcache_raw_read (REGCACHE, NO, BUF);
+#define INSN_S_L_BIT_NUM 20
+
+struct arm_mem_r
+{
+    uint32_t len;
+    CORE_ADDR addr;
+};
+
+typedef struct insn_decode_record_t
+{
+  struct gdbarch *gdbarch;
+  struct regcache *regcache;
+  CORE_ADDR this_addr;          /* address of the insn being decoded.  */
+  uint32_t arm_insn;            /* should accomodate thumb.  */
+  uint32_t cond;                /* condition code.  */
+  uint32_t id;                  /* type of insn.  */
+  uint32_t opcode;              /* insn opcode.  */
+  uint32_t decode;              /* insn decode bits.  */
+  uint32_t *arm_regs;           /* registers to be saved for this record.  */
+  struct arm_mem_r *arm_mems;   /* memory to be saved for this record.  */
+} insn_decode_record;
+
+
+static int
+SBO_SBZ (uint32_t insn, uint32_t bit_num, uint32_t len, uint32_t sbo)
+{
+  uint32_t ONES = bits (insn, bit_num - 1, (bit_num -1) + (len - 1));
+      
+  if (!len)
+    return 1;
+
+  if(!sbo)
+    ONES = ~ONES;
+
+  while (ONES)
+    {
+      if (!(ONES & sbo))
+        {
+          return 0;
+        }
+      ONES = ONES >> 1;
+    }
+  return 1;
+}
+
+static int 
+handle_extension_space (insn_decode_record *arm_record)
+{
+  insn_decode_record *arm_insn_r = arm_record;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache = arm_insn_r->regcache;
+    
+  uint32_t reg_src1 = 0, reg_src2 = 0;
+  uint32_t opcode1 = 0, opcode2 = 0;
+
+  opcode1 = bits (arm_insn_r->arm_insn, 25, 27);
+  if ((3 == opcode1) && (bit (arm_insn_r->arm_insn, 4)))
+    {
+      /* undefined instruction on ARM V5; need to handle if later versions
+          define it.  */
+    }
+  
+  opcode2 = bits (arm_insn_r->arm_insn, 4, 7);
+  
+  if ((!opcode1) && (9 == opcode2))
+    {
+      /* handle arithmetic insn extension space.  */
+    }
+
+  opcode1 = bits (arm_insn_r->arm_insn, 26, 27);
+  opcode2 = bits (arm_insn_r->arm_insn, 23, 24);
+
+  if ((!opcode1) && (2 == opcode2) && (!bit (arm_insn_r->arm_insn, 20)))
+    {
+      /* handle control insn extension space.  */
+    }
+
+  opcode1 = bits (arm_insn_r->arm_insn, 25, 27);
+  if ((!opcode1) && (bit (arm_insn_r->arm_insn, 7)) \
+                 && (bit(arm_insn_r->arm_insn, 4)))
+    {
+      /* handle load/store insn extension space.  */
+    }
+
+  opcode1 = bits (arm_insn_r->arm_insn, 23, 27);
+  if ((24 == opcode1) && (bit (arm_insn_r->arm_insn, 21)))
+    {
+      /* handle coprocessor insn extension space.  */
+    }
+
+  /* to be done for ARMv5 and later; as of now we return -1.  */
+  return -1;
+}
+
+static int 
+arm_handle_data_proc_misc_load_str_insn (void *data)
+{
+
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache = arm_insn_r->regcache;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf[2];
+
+
+  uint32_t reg_src1 = 0, reg_src2 = 0, reg_dest = 0;
+  uint32_t immed_high = 0, immed_low = 0,offset_8 = 0, tgt_mem_addr = 0;
+  uint32_t opcode1 = 0;
+
+  memset(&u_buf, 0, sizeof(u_buf));
+
+  arm_insn_r->opcode = bits (arm_insn_r->arm_insn, 21, 24);
+  arm_insn_r->decode = bits (arm_insn_r->arm_insn, 4, 7);
+  opcode1 = bits (arm_insn_r->arm_insn, 20, 24);
+
+  /* data processing insn /multiply insn.  */    
+  if ((9 == arm_insn_r->decode) 
+     && (((4 <= arm_insn_r->opcode) && (7 >= arm_insn_r->opcode))
+     ||  ((0 == arm_insn_r->opcode) || (1 == arm_insn_r->opcode))))
+    {
+      /* handle multiply instructions.  */
+      /* MLA, MUL, SMLAL, SMULL, UMLAL, UMULL.  */
+        if ((0 == arm_insn_r->opcode) || (1 == arm_insn_r->opcode))
+          {
+            /* handle MLA and MUL.  */
+            arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+            arm_insn_r->arm_regs[0] = 2;
+            arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 16, 19);
+            arm_insn_r->arm_regs[2] = ARM_PS_REGNUM;
+          }
+        else if ((4 <= arm_insn_r->opcode) && (7 >= arm_insn_r->opcode))
+         {
+          /* handle SMLAL, SMULL, UMLAL, UMULL.  */
+           arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*4);
+           arm_insn_r->arm_regs[0] = 3;
+           arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 16, 19);
+           arm_insn_r->arm_regs[2] = bits (arm_insn_r->arm_insn, 12, 15);
+           arm_insn_r->arm_regs[3] = ARM_PS_REGNUM;  
+         }        
+      }
+  else if ((bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM)) 
+        && ((11 == arm_insn_r->decode) || (13 == arm_insn_r->decode)))
+      {
+        /* handle misc load insns, as 20th bit (L = 1).  */
+        /* LDR insn has a capability to do branching, if
+                  MOV LR, PC is precedded by LDR insn having Rn as R15 
+                  in that case, it emulates branch and link insn, and hence we 
+                  need to save CSPR and PC as well. I am not sure this is right 


+                  place as opcode = 010 LDR insn make this happen, if R15 was 
+                  used.  */
+        reg_dest = bits (arm_insn_r->arm_insn, 12, 15);
+        if (15 != reg_dest)
+          {
+            arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+            arm_insn_r->arm_regs[0] = 1;
+            arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+          }
+        else
+          {
+            arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+            arm_insn_r->arm_regs[0] = 2;
+            arm_insn_r->arm_regs[1] = reg_dest;
+            arm_insn_r->arm_regs[2] = ARM_PS_REGNUM; 
+          }
+      }
+  else if (((9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode))
+      && (SBO_SBZ (arm_insn_r->arm_insn, 5, 12, 0))
+      && (SBO_SBZ (arm_insn_r->arm_insn, 13, 4, 1))
+      && (2 == bits (arm_insn_r->arm_insn, 20, 21)))
+    {
+      /* handle MSR insn.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      if (9 == arm_insn_r->opcode)
+        {
+          /* CSPR is going to be changed.  */
+          arm_insn_r->arm_regs[0] = 1;
+          arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+        }    
+      else
+      {
+        /* SPSR is going to be changed. */
+        /* Oza: FIX ME ? how to read SPSR value ?  */
+      }
+    }  
+  else if ((9 == arm_insn_r->decode) 
+           && ((8 == arm_insn_r->opcode) || (10 == arm_insn_r->opcode))
+           && (!bit (arm_insn_r->arm_insn,  INSN_S_L_BIT_NUM)))
+    {
+      /* Handling SWP, SWPB.  */
+      /* these insns, changes register and memory as well.  */
+      /* SWP or SWPB insn.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+                              arm_mem_r)*2);
+      /* get memory address given by Rn.  */
+      reg_src1 = bits (arm_insn_r->arm_insn, 16, 19); 
+      GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+      arm_insn_r->arm_mems[0].len = 1;
+      /* SWP insn ?, swaps word.  */
+      if (8 == arm_insn_r->opcode)
+        {
+          arm_insn_r->arm_mems[1].len = 4;
+        }
+        else
+        {  
+          /* SWPB insn, swaps only byte.  */
+          arm_insn_r->arm_mems[1].len = 1;
+        }
+      arm_insn_r->arm_mems[1].addr = u_buf[0].s_word;
+      arm_insn_r->arm_regs[0] = 1;
+      arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);    
+    }
+  else if ((3 == arm_insn_r->decode) && (0x12 == opcode1)
+           && (SBO_SBZ (arm_insn_r->arm_insn, 9, 12, 1)))
+    {
+      /* handle BLX, branch and link/exchange.  */
+      if (9 == arm_insn_r->opcode)
+      {
+        /* branch is chosen by setting T bit of CSPR, bitp[0] of Rm, 
+                     and R14 stores the return address.  */
+        arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+        arm_insn_r->arm_regs[0] = 2;
+        arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+        arm_insn_r->arm_regs[2] = ARM_LR_REGNUM;
+      }
+    }
+  else if ((7 == arm_insn_r->decode) && (0x12 == opcode1))
+    {
+      /* handle enhanced software breakpoint insn, BKPT */
+      /* CPSR is changed to be executed in ARM state,  disabling normal 
+               interrupts, entering abort mode.  */
+      /* accorindly to high vector configuration PC is set accordingly */
+      /* Oza: FIX ME ?  what if user hit breakpoint and type reverse, in 
+               that case, we need to go back with previous CPSR and 
+               Program Counter.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+      arm_insn_r->arm_regs[0] = 2;
+      arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+      arm_insn_r->arm_regs[2] = ARM_LR_REGNUM;
+      /* save SPSR also; how?  */
+    }  
+  else if ((11 == arm_insn_r->decode)
+          && (!bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM)))
+  {
+    /* handle enhanced store insns and DSP insns (e.g. LDRD) 
+           let us begin according to addressing modes for store insns 
+           STRH insn, addresing modes are taken following.  */
+    if ((14 == arm_insn_r->opcode) || (10 == arm_insn_r->opcode))
+      {
+        /* 1) handle misc store, immediate offset.  */
+        printf("handling store insn, immed offfset insn\n");
+        immed_low = bits (arm_insn_r->arm_insn, 0, 3);
+        immed_high = bits (arm_insn_r->arm_insn, 8, 11);
+        reg_src1 = bits (arm_insn_r->arm_insn, 16, 19);
+        GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);            
+        if (15 == reg_src1)
+          {
+            /* if R15 was used as Rn, hence current PC+8.  */
+            u_buf[0].s_word = u_buf[0].s_word + 8;
+          }            
+        offset_8 = (immed_high << 4) | immed_low;
+        /* calculate target store address.  */
+        if (14 == arm_insn_r->opcode)
+          {
+            tgt_mem_addr = u_buf[0].s_word + offset_8;
+          }
+        else
+          {
+            tgt_mem_addr = u_buf[0].s_word - offset_8;
+          }
+        arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+        arm_insn_r->arm_mems[0].len = 1;
+        arm_insn_r->arm_mems[1].len = 2;
+        arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+      }
+    else if ((12 == arm_insn_r->opcode) || (8 == arm_insn_r->opcode))
+      {
+        /* 2) store, register offset.  */
+        /* get Rm.  */
+        reg_src1 = bits (arm_insn_r->arm_insn, 0, 3);  
+        /* get Rn.  */
+        reg_src2 = bits (arm_insn_r->arm_insn, 16, 19);
+        GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+        GET_REG_VAL (reg_cache, reg_src2, 
&u_buf[1].buf[0]);                        

+        if (15 == reg_src2)
+          {
+            /* if R15 was used as Rn, hence current PC+8.  */
+            u_buf[0].s_word = u_buf[0].s_word + 8;
+          }            
+        /* calculate target store address, Rn +/- Rm, register offset.  */
+        if (12 == arm_insn_r->opcode)
+          {
+            tgt_mem_addr = u_buf[0].s_word + u_buf[1].s_word;
+          }
+        else
+          {
+            tgt_mem_addr = u_buf[1].s_word - u_buf[0].s_word;
+          }            
+        arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+        arm_insn_r->arm_mems[0].len = 1;
+        arm_insn_r->arm_mems[1].len = 2;
+        arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+      }
+    else if ((11 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)
+      || (2 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode))
+      {
+        /* 3) store, immediate pre-indexed.  */            
+        /* 5)  store, immediate post-indexed.  */
+        immed_low = bits (arm_insn_r->arm_insn, 0, 3);  
+        immed_high = bits (arm_insn_r->arm_insn, 8, 11);
+        offset_8 = (immed_high << 4) | immed_low;
+        reg_src1 = bits (arm_insn_r->arm_insn, 16, 19);
+        GET_REG_VAL(reg_cache, reg_src1, &u_buf[0].buf[0]);
+        /* calculate target store address, Rn +/- Rm, register offset.  */
+        if ((15 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode))
+          {
+            tgt_mem_addr = u_buf[0].s_word + offset_8;
+          }
+        else
+          {
+            tgt_mem_addr = u_buf[0].s_word - offset_8;
+          }            
+        arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+        arm_insn_r->arm_mems[0].len = 1;
+        arm_insn_r->arm_mems[1].len = 2;
+        arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+        /* record Rn also as it changes.  */
+        arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+        arm_insn_r->arm_regs[0] = 1;
+        arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 16, 19);  
+      }
+    else if ((9 == arm_insn_r->opcode) || (13 == arm_insn_r->opcode)
+      || (0 == arm_insn_r->opcode) || (4 == arm_insn_r->opcode))
+      {
+        /* 4) store, register pre-indexed.  */
+        /* 6) store, register post -indexed.  */
+        reg_src1 = bits (arm_insn_r->arm_insn, 0, 3);  
+        reg_src2 = bits (arm_insn_r->arm_insn, 16, 19);
+        GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+        GET_REG_VAL (reg_cache, reg_src2, &u_buf[1].buf[0]);
+        /* calculate target store address, Rn +/- Rm, register offset.  */
+        if ((13 == arm_insn_r->opcode) || (4 == arm_insn_r->opcode))
+          {
+            tgt_mem_addr = u_buf[0].s_word + u_buf[1].s_word;
+          }
+        else
+          {
+            tgt_mem_addr = u_buf[1].s_word - u_buf[0].s_word;
+          }            
+        arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+        arm_insn_r->arm_mems[0].len = 1;
+        arm_insn_r->arm_mems[1].len = 2;
+        arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+        /* record Rn also as it changes.  */
+        arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+        arm_insn_r->arm_regs[0] = 1;
+        arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 16, 
19);              

+      }
+    /* DSP insns (e.g. LDRD)  TBD.  */
+  }  
+  else if ((1 == arm_insn_r->decode) && (0x12 == opcode1)
+           && SBO_SBZ (arm_insn_r->arm_insn, 9, 12, 1))
+    {
+      /* handle BX, branch and link/exchange.  */
+      /* branch is chosen by setting T bit of CSPR, bitp[0] of Rm.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      arm_insn_r->arm_regs[0] = 1;
+      arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+    }  
+  else if ((1 == arm_insn_r->decode) && (0x16 == opcode1)
+           && SBO_SBZ (arm_insn_r->arm_insn, 9, 4, 1)
+           && SBO_SBZ (arm_insn_r->arm_insn, 17, 4, 1))
+    {
+      /* count leading zeros: CLZ.  */
+      printf("handling CLZ - count leading zero insn\n");
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      arm_insn_r->arm_regs[0] = 1;
+      arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+    }
+  else if ((!bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM))
+          && ((8 == arm_insn_r->opcode) || (10 == arm_insn_r->opcode))
+          && (SBO_SBZ (arm_insn_r->arm_insn, 17, 4, 1))
+          && (SBO_SBZ (arm_insn_r->arm_insn, 1, 12, 0))
+          )
+    {      
+      /* handle MRS insn.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      arm_insn_r->arm_regs[0] = 1;
+      arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);  
+    }      
+  /* following is always true, in case none of the above conditions meet, it 
will fall here.  */
+  else if (arm_insn_r->opcode <= 15) 
+    {
+      /* normal data processing insns.  */
+      /* out of 11 shifter operands mode, all the insn modifies destination 
+                register, which is specified by 13-16 decode.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+      arm_insn_r->arm_regs[0] = 2;
+      arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+      arm_insn_r->arm_regs[2] = ARM_PS_REGNUM;        
+    }
+  return 0;
+}
+
+static int 
+arm_handle_data_proc_imm_insn (void *data)
+{
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache =  arm_insn_r->regcache;
+
+  uint32_t reg_src1 = 0, reg_src2 = 0, reg_dest = 0;
+  uint32_t immed_high = 0, immed_low = 0, offset_8 = 0, tgt_mem_addr = 0;
+
+  arm_insn_r->opcode = bits (arm_insn_r->arm_insn, 21, 24);
+  arm_insn_r->decode = bits (arm_insn_r->arm_insn, 4, 7);
+
+  if (((9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode))
+       && (2 == bits (arm_insn_r->arm_insn, 20, 21))
+       && (SBO_SBZ (arm_insn_r->arm_insn, 13, 4, 1))
+       )
+    {
+      /* handle MSR insn.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      if (9 == arm_insn_r->opcode)
+       {
+         /*CSPR is going to be changed.  */
+         arm_insn_r->arm_regs[0] = 1;
+         arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+       }    
+      else
+      {
+       /* SPSR is going to be changed.  */
+       /* Oza: FIX ME ? how to read SPSR value?  */
+      }
+    }  
+  /* following is always true, in case none of the above conditions meet, it 
will fall 

+        here.  */
+  else if (arm_insn_r->opcode <= 15) 
+    {
+      /* normal data processing insns.  */
+      /* out of 11 shifter operands mode, all the insn modifies destination 
+                register, which is specified by 13-16 decode.  */
+      arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+      arm_insn_r->arm_regs[0] = 2;
+      arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+      arm_insn_r->arm_regs[2] = ARM_PS_REGNUM;        
+    }
+  return 0;
+}
+
+static int 
+arm_handle_ld_st_imm_offset_insn (void *data)
+{
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache = arm_insn_r->regcache;
+
+  uint32_t reg_src1 = 0 , reg_src2= 0, reg_dest = 0;
+  uint32_t immed_high = 0, immed_low = 0, offset_12 = 0, tgt_mem_addr = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  memset(&u_buf, 0, sizeof(u_buf));
+  arm_insn_r->opcode = bits (arm_insn_r->arm_insn, 21, 24);
+  arm_insn_r->decode = bits (arm_insn_r->arm_insn, 4, 7);
+
+  if (bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM)) 
+    {
+      reg_dest = bits (arm_insn_r->arm_insn, 12, 15);
+      /* LDR insn has a capability to do branching, if
+              MOV LR, PC is precedded by LDR insn having Rn as R15 
+              in that case, it emulates branch and link insn, and hence we 
+              need to save CSPR and PC as well.  */
+      if (15 != reg_dest)
+        {
+          arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+          arm_insn_r->arm_regs[0] = 1;
+          arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+        }
+      else
+        {
+          arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+          arm_insn_r->arm_regs[0] = 2;
+          arm_insn_r->arm_regs[1] = reg_dest;
+          arm_insn_r->arm_regs[2] = ARM_PS_REGNUM; 
+        }
+    }
+  else
+    {
+      if ((8 == arm_insn_r->opcode) || (10 == arm_insn_r->opcode)    
+      || (12 == arm_insn_r->opcode) || (14 == arm_insn_r->opcode)
+      || (9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode)    
+      || (13 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)        
+      || (0 == arm_insn_r->opcode) || (2 == arm_insn_r->opcode)    
+      || (4 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode)
+      || (1 == arm_insn_r->opcode) || (3 == arm_insn_r->opcode)
+      || (5 == arm_insn_r->opcode) || (7 == arm_insn_r->opcode))
+        {
+          /* store, immediate offset, immediate pre-indexed,
+                      immediate post-indexed.  */          
+          reg_src1 = bits (arm_insn_r->arm_insn, 16, 19);
+          offset_12 = bits (arm_insn_r->arm_insn, 0, 11);
+          GET_REG_VAL (reg_cache, reg_src1, &u_buf.buf[0]);
+          /* U == 1 */
+          if (bit (arm_insn_r->arm_insn, 23))
+            {  
+              tgt_mem_addr = u_buf.s_word + offset_12;
+            }
+          else
+            {
+             tgt_mem_addr = u_buf.s_word - offset_12;
+            }
+
+          arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+          arm_mem_r)*2);
+          arm_insn_r->arm_mems[0].len = 1;
+
+          switch(arm_insn_r->opcode)
+            {
+              case 8:
+              case 12:          
+              case 9:  
+              case 13:  
+              case 1:  
+              case 5:              
+                /* STR insn, STRT insn.  */
+                arm_insn_r->arm_mems[1].len = 4;    
+              break;  
+
+              case 10:
+              case 14:            
+              case 11:  
+              case 15:  
+              case 3:  
+              case 7:  
+                /* STRB insn, STRBT insn.  */
+                arm_insn_r->arm_mems[1].len = 1;    
+              break;  
+
+              default:
+                /* rest of the insns are unreachable for this addressing mode.  

*/
+              break;  
+            }      
+          arm_insn_r->arm_mems[1].addr = tgt_mem_addr;    
+          if ((9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode)    
+          || (13 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)
+          || (0 == arm_insn_r->opcode) || (2 == arm_insn_r->opcode)    
+          || (4 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode)          
+          || (1 == arm_insn_r->opcode) || (3 == arm_insn_r->opcode)
+          || (5 == arm_insn_r->opcode) || (7 == arm_insn_r->opcode))
+            {
+              /* we are handling pre-indexed mode; post-indexed mode;
+                             where Rn is going to be changed.  */
+              arm_insn_r->arm_regs = (uint32_t*)xmalloc 
(sizeof(uint32_t)*2);    

+              arm_insn_r->arm_regs[0] = 1;
+              arm_insn_r->arm_regs[1] = reg_src1;    
+            }  
+        }  
+    }
+  return 0;
+}
+
+static int 
+arm_handle_ld_st_reg_offset_insn (void *data)
+{
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache =  arm_insn_r->regcache;
+
+  uint32_t shift_imm = 0;
+  uint32_t reg_src1 = 0, reg_src2 = 0, reg_dest = 0;
+  uint32_t immed_high = 0, immed_low = 0, offset_12 = 0, tgt_mem_addr = 0;
+
+  union
+    {
+      int32_t signed_word;
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf[2];
+
+  memset(&u_buf, 0, sizeof(u_buf));
+  arm_insn_r->opcode = bits (arm_insn_r->arm_insn, 21, 24);
+  arm_insn_r->decode = bits (arm_insn_r->arm_insn, 4, 7);
+
+  /* handle enhanced store insns and LDRD DSP insn,
+        let us begin according to addressing modes for store insns 
+        STRH insn.  */
+
+  /* LDR or STR?  */
+  if (bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM))
+    {
+      reg_dest = bits (arm_insn_r->arm_insn, 12, 15);
+      /* LDR insn has a capability to do branching, if
+              MOV LR, PC is precedded by LDR insn having Rn as R15 
+              in that case, it emulates branch and link insn, and hence we 
+              need to save CSPR and PC as well.  */
+      if (15 != reg_dest)
+        {
+          arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+          arm_insn_r->arm_regs[0] = 1;
+          arm_insn_r->arm_regs[1] = bits (arm_insn_r->arm_insn, 12, 15);
+        }
+      else
+        {
+          arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+          arm_insn_r->arm_regs[0] = 2;
+          arm_insn_r->arm_regs[1] = reg_dest;
+          arm_insn_r->arm_regs[2] = ARM_PS_REGNUM; 
+        } 
+    }
+  else
+    {
+    if ((8 == arm_insn_r->opcode) || (10 == arm_insn_r->opcode)    
+    || (12 == arm_insn_r->opcode) || (14 == arm_insn_r->opcode)
+    || (9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode)    
+    || (13 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)        
+    || (0 == arm_insn_r->opcode) || (2 == arm_insn_r->opcode)    
+    || (4 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode)        
+    || (1 == arm_insn_r->opcode) || (3 == arm_insn_r->opcode)
+    || (5 == arm_insn_r->opcode) || (7 == arm_insn_r->opcode))
+      {
+        if (! bits (arm_insn_r->arm_insn, 4, 11))
+          {
+            /* store insn, register offset and register pre-indexed, 
+                          register post-indexed.  */
+            /* get Rm.  */
+            reg_src1 = bits (arm_insn_r->arm_insn, 0, 3);  
+            /* get Rn.  */
+            reg_src2 = bits (arm_insn_r->arm_insn, 16, 19);
+            GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+            GET_REG_VAL (reg_cache, reg_src2, 
&u_buf[1].buf[0]);                        

+            if (15 == reg_src2)
+              {
+                /* if R15 was used as Rn, hence current PC+8.  */
+                /* pre-indexed mode doesnt reach here ; illegal insn.  */
+                u_buf[0].s_word = u_buf[0].s_word + 8;
+              }            
+            /* calculate target store address, Rn +/- Rm, register offset.  */
+            /* U == 1.  */
+            if (bit (arm_insn_r->arm_insn, 23))
+              {
+                tgt_mem_addr = u_buf[0].s_word + u_buf[1].s_word;
+              }
+            else
+              {
+                tgt_mem_addr = u_buf[1].s_word - u_buf[0].s_word;
+              }            
+            arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+            arm_mem_r)*2);
+            arm_insn_r->arm_mems[0].len = 1;
+            switch(arm_insn_r->opcode)
+              {
+                case 8:
+                case 12:          
+                case 9:  
+                case 13:  
+                case 1:  
+                case 5:              
+                  /* STR insn, STRT insn.  */
+                  arm_insn_r->arm_mems[1].len = 4;    
+                break;  
+
+                case 10:
+                case 14:            
+                case 11:  
+                case 15:  
+                case 3:  
+                case 7:  
+                  /* STRB insn, STRBT insn.  */
+                  arm_insn_r->arm_mems[1].len = 1;    
+                break;  
+
+                default:
+                  /* rest of the insns are unreachable for this addr mode.  */
+                break;  
+              }      
+            arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+
+            if ((9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode)    
+            || (13 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)
+            || (0 == arm_insn_r->opcode) || (2 == arm_insn_r->opcode)    
+            || (4 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode)        
+            || (1 == arm_insn_r->opcode) || (3 == arm_insn_r->opcode)
+            || (5 == arm_insn_r->opcode) || (7 == arm_insn_r->opcode))
+              {
+                arm_insn_r->arm_regs = \
+                (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+                arm_insn_r->arm_regs[0] = 1;
+                /* Rn is going to be changed in pre-indexed mode and 
+                                post-indexed mode as well.  */
+                arm_insn_r->arm_regs[1] = reg_src2;  
+              }    
+          }
+        else
+          {
+            /* store insn, scaled register offset; scaled pre-indexed.  */
+            offset_12 = bits (arm_insn_r->arm_insn, 5, 6);
+            /* get Rm.  */
+            reg_src1 = bits (arm_insn_r->arm_insn, 0, 3);  
+            /* get Rn.  */
+            reg_src2 = bits (arm_insn_r->arm_insn, 16, 19);
+            /* get shift_imm.  */
+            shift_imm = bits (arm_insn_r->arm_insn, 7, 11);
+            GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+            GET_REG_VAL (reg_cache, reg_src2, &u_buf[1].buf[0]);  
+            /* offset_12 used as shift.  */
+            switch(offset_12)
+              {
+                case 0:
+                  /* offset_12 used as index.  */
+                  offset_12 = u_buf[0].s_word << shift_imm;
+                break;
+                
+                case 1:
+                  offset_12 = (!shift_imm)?0:u_buf[0].s_word >> shift_imm; 
+                break;
+                
+                case 2:
+                  if (!shift_imm)
+                    {
+                      if (bit (u_buf[0].s_word, 31))
+                        {
+                          offset_12 = 0xFFFFFFFF;
+                        }
+                      else
+                        {
+                          offset_12 = 0;
+                        }
+                    }
+                  else
+                    {
+                      /* this is arithmetic shift.  */
+                      offset_12 = u_buf[0].signed_word >> shift_imm;
+                    }
+                  break;  
+                  
+                case 3:
+                  if (!shift_imm)
+                    {
+                      GET_REG_VAL (reg_cache, ARM_PS_REGNUM, &u_buf[1].buf[0]);
+                      /* get C flag value and shift it by 31.  */
+                      offset_12 = (((bit (u_buf[1].s_word, 29)) << 31) \
+                                    | (u_buf[0].s_word) >> 1);
+                    }
+                  else
+                    {                      
+                      offset_12 = (u_buf[0].s_word >> shift_imm) \
+                            | (u_buf[0].s_word << 
(sizeof(uint32_t)-shift_imm));
+                    }
+                break;
+
+                default:
+                  /* unreachable.  */  
+                break;
+              }      
+
+            GET_REG_VAL (reg_cache, reg_src2, &u_buf[1].buf[0]); 
+            /* U == 1 */
+            if (bit (arm_insn_r->arm_insn, 23))
+              {
+                tgt_mem_addr = u_buf[1].s_word + offset_12;
+              }
+            else
+              {
+                tgt_mem_addr = u_buf[1].s_word - offset_12;
+              }      
+            
+            arm_insn_r->arm_mems = (struct arm_mem_r *)
+                        xmalloc (sizeof(struct arm_mem_r)*2);
+            arm_insn_r->arm_mems[0].len = 1;
+            arm_insn_r->arm_mems[1].addr = tgt_mem_addr;
+            switch (arm_insn_r->opcode)
+              {
+                case 8:
+                case 12:          
+                case 9:  
+                case 13:  
+                case 1:  
+                case 5:              
+                  /* STR insn, STRT insn.  */
+                  arm_insn_r->arm_mems[1].len = 4;    
+                break;  
+
+                case 10:
+                case 14:            
+                case 11:  
+                case 15:  
+                case 3:  
+                case 7:  
+                  /* STRB insn, STRBT insn.  */
+                  arm_insn_r->arm_mems[1].len = 1;    
+                break;  
+
+                default:
+                  /* rest of the insns are unreachable for this addr mode.  */
+                break;  
+              }                  
+            if ((9 == arm_insn_r->opcode) || (11 == arm_insn_r->opcode)    
+            || (13 == arm_insn_r->opcode) || (15 == arm_insn_r->opcode)
+            || (0 == arm_insn_r->opcode) || (2 == arm_insn_r->opcode)    
+            || (4 == arm_insn_r->opcode) || (6 == arm_insn_r->opcode)        
+            || (1 == arm_insn_r->opcode) || (3 == arm_insn_r->opcode)
+            || (5 == arm_insn_r->opcode) || (7 == arm_insn_r->opcode))
+              {
+                arm_insn_r->arm_regs = \
+                (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+                arm_insn_r->arm_regs[0] = 1;
+                /* Rn is going to be changed in register scaled pre-indexed 
+                                mode, and scaled post indexed mode.  */
+                arm_insn_r->arm_regs[1] = reg_src2;  
+              }
+          }            
+      }  
+    }
+  return 0;  
+}
+
+static int 
+arm_hamdle_ld_st_multiple_insn (void *data)
+{  
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+  struct regcache *reg_cache =  arm_insn_r->regcache;
+
+  uint32_t register_list[16]={0}, register_count=0, register_bits=0;      
+  uint32_t shift_imm=0;
+  uint32_t reg_src1=0, reg_src2=0, addr_mode=0;
+  uint32_t start_address=0, index = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf[2];
+
+  memset (&u_buf, 0, sizeof(u_buf));
+
+  /* this mode is exclusively for load and store multiple.  */
+  /* handle incremenrt after/before and decrment after.before mode;
+        Rn is chaging depending on W bit, but as of now we store Rn too wihtout 

going for 

+        optmization.  */
+
+
+  if (bit (arm_insn_r->arm_insn, INSN_S_L_BIT_NUM))
+    {
+      /* LDR (1,2,3) where LDR (3) changes CPSR too.  */
+
+      register_bits = bits (arm_insn_r->arm_insn, 0, 15);
+      /* get Rn.  */
+      reg_src1 = bits (arm_insn_r->arm_insn, 16, 19);
+      while (register_bits)
+       {
+         if (register_bits & 0x00000001)
+           register_list[register_count++] = 1;
+         register_bits = register_bits >> 1;
+       }
+      
+        /* extra space for Base Register and CPSR; wihtout optmization.  */
+        arm_insn_r->arm_regs = (uint32_t*)xmalloc \
+                                      (sizeof(uint32_t) * (register_count + 
3));
+        arm_insn_r->arm_regs[0] = register_count + 2;
+        arm_insn_r->arm_regs[register_count+1] = reg_src1;
+        arm_insn_r->arm_regs[register_count+2] = ARM_PS_REGNUM;
+        for (register_count = 0; register_count < 8; register_count++)
+          {
+            if  (register_list[register_count])
+              {
+                arm_insn_r->arm_regs[index] = register_count;
+                index++;
+              }
+          }
+    }
+  else
+    {
+    /* it handles both STM(1) and STM(2).  */
+    addr_mode = bits (arm_insn_r->arm_insn, 23, 24);    
+
+    register_bits = bits (arm_insn_r->arm_insn, 0, 15);
+    /* get Rn.  */
+    reg_src1 = bits (arm_insn_r->arm_insn, 16, 19);
+    GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+    while (register_bits)
+      {
+        if (register_bits & 0x00000001)
+           register_count++;
+        register_bits = register_bits >> 1;
+      }
+
+    switch(addr_mode)
+      {
+        /* Decrement after.  */ 
+        case 0:                          
+          start_address = (u_buf[0].s_word) - (register_count * 4) + 4;
+          arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+          arm_mem_r)*(register_count+1));
+          arm_insn_r->arm_mems[0].len = register_count;
+          while (register_count)
+            {
+              arm_insn_r->arm_mems[register_count].addr = start_address;
+              arm_insn_r->arm_mems[register_count].len = 4;
+              start_address = start_address + 4;
+              register_count--;
+            }
+        break;    
+
+        /* Increment after.  */
+        case 1:
+          start_address = u_buf[0].s_word;
+          arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+          arm_mem_r)*(register_count+1));
+          arm_insn_r->arm_mems[0].len = register_count;
+          while (register_count)
+            {
+              arm_insn_r->arm_mems[register_count].addr = start_address;
+              arm_insn_r->arm_mems[register_count].len = 4;
+              start_address = start_address + 4;
+              register_count--;
+            }
+        break;    
+
+        /* Decrement before.  */
+        case 2:
+          
+          start_address = (u_buf[0].s_word) - (register_count * 4);
+          arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+          arm_mem_r)*(register_count+1));  
+          arm_insn_r->arm_mems[0].len = register_count;
+          while (register_count)
+            {
+              arm_insn_r->arm_mems[register_count].addr = start_address;
+              arm_insn_r->arm_mems[register_count].len = 4;
+              start_address = start_address + 4;
+              register_count--;
+            }
+        break;    
+
+        /* Increment before.  */
+        case 3:
+          start_address = u_buf[0].s_word + 4;
+          arm_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+          arm_mem_r)*(register_count+1));
+          arm_insn_r->arm_mems[0].len = register_count;
+          while (register_count)
+            {
+              arm_insn_r->arm_mems[register_count].addr = start_address;
+              arm_insn_r->arm_mems[register_count].len = 4;
+              start_address = start_address + 4;
+              register_count--;
+            }
+        break;    
+
+        default:
+          /* unreachable.  */    
+        break;    
+      }
+
+    /* base register also changes; based on condition and W bit.  */
+    /* we save it anyway without optimization.  */
+    arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+    arm_insn_r->arm_regs[0] = 1;
+    arm_insn_r->arm_regs[1] = reg_src1;
+    }
+  return 0;  
+}
+
+static int 
+arm_handle_brn_insn (void *data)
+{
+  insn_decode_record *arm_insn_r = (insn_decode_record*) data; 
+  /* handle B, BL, BLX(1) insns.  */
+  /* wihtout optmization we save link register, 
+        CSPR for the insn which changes T bit.  */
+  arm_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+  arm_insn_r->arm_regs[0] = 2;
+  arm_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+  arm_insn_r->arm_regs[2] = ARM_LR_REGNUM;
+  
+  return 0;
+}
+
+static int 
+arm_handle_coproc_insn (void *data)
+{
+   return -1;  
+}
+
+static int 
+arm_handle_coproc_data_proc_insn (void *data)
+{
+
+   insn_decode_record *arm_insn_r = (insn_decode_record*) data;
+   struct gdbarch_tdep *tdep = gdbarch_tdep (arm_insn_r->gdbarch);
+   struct regcache *reg_cache = arm_insn_r->regcache;
+  
+   uint32_t shift_imm = 0;
+   uint32_t reg_src1 = 0, reg_src2 = 0, addr_mode = 0;
+   uint32_t start_address = 0;
+
+   /* handle SWI insn; system call would be handled over here.  */
+
+   arm_insn_r->opcode = bits (arm_insn_r->arm_insn, 24, 27);
+   if (15 == arm_insn_r->opcode) 
+   {
+        /* handle arm syscall insn.  */
+        if (tdep->arm_swi_record != NULL)
+          {
+            tdep->arm_swi_record(reg_cache);
+          }
+        else
+          {
+            return -1;
+          }
+   }
+    
+   return -1;  
+}
+
+
+static int 
+thumb_handle_shift_add_sub_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (  thumb_insn_r->gdbarch);
+  struct regcache *reg_cache =  thumb_insn_r->regcache;
+
+  uint32_t reg_src1 = 0;
+
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  reg_src1 = bits (thumb_insn_r->arm_insn, 0, 2);
+
+  thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+  thumb_insn_r->arm_regs[0] = 2;
+  thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+  thumb_insn_r->arm_regs[2] = reg_src1;
+
+  return 0;  
+}
+
+static int 
+thumb_handle_add_sub_cmp_mov_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = thumb_insn_r->regcache;
+
+  uint32_t reg_src1 = 0;
+
+
+  union
+  {
+    uint32_t s_word;
+    gdb_byte buf[4];
+  } u_buf;
+
+  reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+
+  thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+  thumb_insn_r->arm_regs[0] = 2;
+  thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+  thumb_insn_r->arm_regs[2] = reg_src1;
+
+  return 0;  
+}
+
+static int 
+thumb_handle_ld_st_reg_offset_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache =  thumb_insn_r->regcache;
+
+  uint32_t reg_src1 = 0, reg_src2 = 0;
+  uint32_t opcode1 = 0, opcode2 = 0, opcode3 = 0;
+
+  
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf[2];
+
+  if (bit (thumb_insn_r->arm_insn, 12))
+    {
+      /* handle load/store register offset.  */ 
+      opcode1 = bits (thumb_insn_r->arm_insn, 11, 12);
+      opcode2 = bits (thumb_insn_r->arm_insn, 9, 10);  
+      if ((opcode2 >= 12) && (opcode2 <= 15))
+        {        
+          /* LDR(2), LDRB(2) , LDRH(2), LDRSB, LDRSH.  */
+          reg_src1 = bits (thumb_insn_r->arm_insn,0, 2);          
+          thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+          thumb_insn_r->arm_regs[0] = 1;
+          thumb_insn_r->arm_regs[1] = reg_src1;
+        }
+      else if ((opcode2 >= 8) && (opcode2 <= 10))
+        {
+          /* STR(2), STRB(2), STRH(2) .  */
+          reg_src1 = bits (thumb_insn_r->arm_insn, 3, 5);
+          reg_src2 = bits (thumb_insn_r->arm_insn, 6, 8);
+          GET_REG_VAL (reg_cache, reg_src1, &u_buf[0].buf[0]);
+          GET_REG_VAL (reg_cache, reg_src2, &u_buf[1].buf[0]);
+          thumb_insn_r->arm_mems = (struct arm_mem_r *)  \
+                                    xmalloc (sizeof(struct arm_mem_r) * 2);
+          thumb_insn_r->arm_mems[0].len = 1; 
+          thumb_insn_r->arm_mems[0].addr = u_buf[0].s_word+u_buf[1].s_word; 
+          if (8 == opcode2)
+            thumb_insn_r->arm_mems[0].len = 4;    /* STR (2).  */            
+          else if (10 == opcode2)
+            thumb_insn_r->arm_mems[0].len = 1;    /*  STRB (2).  */
+          else if (9 == opcode2)
+            thumb_insn_r->arm_mems[0].len = 2;    /* STRH (2).  */
+        }                
+      goto end;
+    }            
+  else if (bit (thumb_insn_r->arm_insn, 11))
+    {
+      /* handle load from literal pool.  */  
+      /* LDR(3).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);                          


+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = reg_src1;
+      goto end;
+    }
+    
+  thumb_insn_r->opcode = bits (thumb_insn_r->arm_insn, 13, 15);
+  opcode1 = bits (thumb_insn_r->arm_insn, 10, 12);
+  if (opcode1)
+    {
+      opcode2 = bits (thumb_insn_r->arm_insn, 8, 9);
+      opcode3 = bits (thumb_insn_r->arm_insn, 0, 2);
+      if ((3 == opcode2) && (!opcode3))
+        {
+          /* branch with exchange.  */
+          thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+          thumb_insn_r->arm_regs[0] = 1;
+          thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+        }
+      else
+        {
+          /* format 8; special data processing insns.  */
+          reg_src1 = bits (thumb_insn_r->arm_insn, 0, 2);
+          thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+          thumb_insn_r->arm_regs[0] = 2;
+          thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+          thumb_insn_r->arm_regs[2] = reg_src1;
+        }
+    }
+  else
+    {
+      /* format 5; data processing insns.  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 0, 2);
+      if (bit (thumb_insn_r->arm_insn, 7))
+        {
+          reg_src1 = reg_src1 + 8;
+        }
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+      thumb_insn_r->arm_regs[0] = 2;
+      thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+      thumb_insn_r->arm_regs[2] = reg_src1;
+    }  
+
+  end:
+  return 0;
+}
+
+static int 
+thumb_handle_ld_st_imm_offset_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = (struct regcache*) thumb_insn_r->regcache;
+  
+  uint32_t reg_val1 = 0;
+  uint32_t reg_src1 = 0;
+  uint32_t opcode = 0, immed_5 = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  opcode = bits (thumb_insn_r->arm_insn, 11, 12);
+
+  if (opcode)
+    {
+      /* LDR(1).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 0, 2);
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = reg_src1;
+    }
+  else
+    {
+      /* STR(1).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 3, 5);
+      immed_5 = bits (thumb_insn_r->arm_insn, 6, 10);
+      GET_REG_VAL (reg_cache, reg_src1, &u_buf.buf[0]);
+      thumb_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+      thumb_insn_r->arm_mems[0].len = 1;
+      thumb_insn_r->arm_mems[1].len = 4;
+      thumb_insn_r->arm_mems[1].addr = u_buf.s_word + (immed_5 * 4);
+    }
+
+  return 0;
+}
+
+static int 
+thumb_hamdle_ld_st_stack_insn (void *data)
+{ 
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = (struct regcache*) thumb_insn_r->regcache;
+  
+  uint32_t reg_val1 = 0;
+  uint32_t reg_src1 = 0;
+  uint32_t opcode = 0, immed_8 = 0, immed_5 = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  opcode = bits (thumb_insn_r->arm_insn, 11, 12);
+
+  if (3 == opcode)
+    {
+      /* LDR(4).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = reg_src1;
+    }
+  else if (1 == opcode)
+    {
+      /* LDRH(1).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 0, 2);
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = reg_src1;
+    }
+  else if (2 == opcode)
+    {
+      /* STR(3).  */
+      immed_8 = bits (thumb_insn_r->arm_insn, 0, 7);
+      GET_REG_VAL (reg_cache, ARM_SP_REGNUM, &u_buf.buf[0]);
+      thumb_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+      thumb_insn_r->arm_mems[0].len = 1;
+      thumb_insn_r->arm_mems[1].len = 4;
+      thumb_insn_r->arm_mems[1].addr = u_buf.s_word + (immed_8 * 4);
+    }
+  else if (0 == opcode)
+    {
+      /* STRH(1).  */
+      immed_5 = bits (thumb_insn_r->arm_insn, 6, 10);
+      reg_src1 = bits (thumb_insn_r->arm_insn, 3, 5);
+      GET_REG_VAL (reg_cache, reg_src1, &u_buf.buf[0]);
+      thumb_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+        arm_mem_r)*2);
+      thumb_insn_r->arm_mems[0].len = 1;
+      thumb_insn_r->arm_mems[1].len = 2;
+      thumb_insn_r->arm_mems[1].addr = u_buf.s_word + (immed_5 * 2);
+    }
+  return 0;
+}
+
+static int 
+thumb_handle_misc_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = (struct regcache*) thumb_insn_r->regcache;
+  
+  uint32_t reg_val1 = 0;
+  uint32_t reg_src1 = 0;
+  uint32_t opcode = 0, opcode1 = 0, opcode2 = 0, immed_8 = 0, immed_5 = 0;
+  uint32_t register_bits = 0, register_count = 0;
+  uint32_t register_list[8] = {0}, index = 0, start_address = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  opcode = bits (thumb_insn_r->arm_insn, 11, 12);
+  opcode1 = bits (thumb_insn_r->arm_insn, 8, 12);
+  opcode2 = bits (thumb_insn_r->arm_insn, 9, 12);
+
+  if (14 == opcode2)
+    {
+      /* POP.  */
+      register_bits = bits (thumb_insn_r->arm_insn, 0, 7);
+      while (register_bits)
+        {
+          if (register_bits & 0x00000001)
+            register_list[register_count++] = 1;
+          register_bits = register_bits >> 1;
+        }
+        thumb_insn_r->arm_regs = (uint32_t*)xmalloc \
+                                      (sizeof(uint32_t) * (register_count + 
3));
+        thumb_insn_r->arm_regs[0] = register_count + 2;
+        thumb_insn_r->arm_regs[register_count + 1] = ARM_PS_REGNUM;
+        thumb_insn_r->arm_regs[register_count + 2] = ARM_SP_REGNUM;
+      for (register_count = 0; register_count < 8; register_count++)
+        {
+          if  (register_list[register_count])
+            {
+              thumb_insn_r->arm_regs[index] = register_count;
+              index++;
+            }
+        }
+    }
+  else if (10 == opcode2)
+    {
+      /* PUSH.  */
+      register_bits = bits (thumb_insn_r->arm_insn, 0, 7);
+      GET_REG_VAL (reg_cache, ARM_PC_REGNUM, &u_buf.buf[0]);
+      while (register_bits)
+        {
+          if (register_bits & 0x00000001)
+             register_count++;
+          register_bits = register_bits >> 1;
+        }
+      start_address = u_buf.s_word -  \
+                   (4 * (bit (thumb_insn_r->arm_insn, 8) + register_count)) ;
+      thumb_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+      arm_mem_r)*(register_count + 1));
+      thumb_insn_r->arm_mems[0].len = register_count;
+      while (register_count)
+        {
+          thumb_insn_r->arm_mems[register_count].addr = start_address;
+          thumb_insn_r->arm_mems[register_count].len = 4;
+          start_address = start_address + 4;
+          register_count--;
+        }
+        thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t) * 2);
+        thumb_insn_r->arm_regs[0] = 1;
+        thumb_insn_r->arm_regs[1] = ARM_SP_REGNUM;
+    }
+  else if (0x1E == opcode1)
+    {
+      /* BKPT insn.  */
+      /* handle enhanced software breakpoint insn, BKPT.  */
+      /* CPSR is changed to be executed in ARM state,  disabling normal 
+               interrupts, entering abort mode.  */
+      /* accorindly to high vector configuration PC is set accordingly.  */
+      /* Oza: FIX ME ?  what if user hit breakpoint and type reverse, in 
+               that case, we need to go back with previous CPSR and 
+               Program Counter..  */
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+      thumb_insn_r->arm_regs[0] = 2;
+      thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+      thumb_insn_r->arm_regs[2] = ARM_LR_REGNUM;
+      /* save SPSR also; how?.  */
+    }
+  else if ((0 == opcode) || (1 == opcode))
+    {
+       /* ADD(5), ADD(6).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = reg_src1;
+    }  
+  else if (2 == opcode)
+    {
+      /* ADD(7), SUB(4).  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+      thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*2);
+      thumb_insn_r->arm_regs[0] = 1;
+      thumb_insn_r->arm_regs[1] = ARM_SP_REGNUM;
+    }
+  
+ 
+  return 0;
+}
+
+static int 
+thumb_handle_swi_insn (void *data)                
+{
+
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = (struct regcache*) thumb_insn_r->regcache;
+  
+  uint32_t reg_val1 = 0;
+  uint32_t reg_src1 = 0;
+  uint32_t opcode1 = 0, opcode2 = 0, register_bits = 0, register_count = 0;
+  uint32_t register_list[8] = {0}, index = 0, start_address = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  opcode1 = bits (thumb_insn_r->arm_insn, 8, 12);
+  opcode2 = bits (thumb_insn_r->arm_insn, 11, 12);
+
+  if (1 == opcode2)
+    {
+
+      /* LDMIA.  */
+      register_bits = bits (thumb_insn_r->arm_insn, 0, 7);
+      /* get Rn.  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+      while (register_bits)
+        {
+          if (register_bits & 0x00000001)
+            register_list[register_count++] = 1;
+          register_bits = register_bits >> 1;
+        }
+        thumb_insn_r->arm_regs = (uint32_t*)xmalloc \
+                                      (sizeof(uint32_t) * (register_count + 
2));
+        thumb_insn_r->arm_regs[0] = register_count + 1;
+        thumb_insn_r->arm_regs[register_count + 1] = reg_src1;
+      for (register_count = 0; register_count < 8; register_count++)
+        {
+          if  (register_list[register_count])
+            {
+              thumb_insn_r->arm_regs[index] = register_count;
+              index++;
+            }
+        }
+    }
+  else if (0 == opcode2)
+    {
+      /* it handles both STMIA.  */
+      register_bits = bits (thumb_insn_r->arm_insn, 0, 7);
+      /* get Rn.  */
+      reg_src1 = bits (thumb_insn_r->arm_insn, 8, 10);
+      GET_REG_VAL (reg_cache, reg_src1, &u_buf.buf[0]);
+      while (register_bits)
+        {
+          if (register_bits & 0x00000001)
+             register_count++;
+          register_bits = register_bits >> 1;
+        }
+      start_address = u_buf.s_word;
+      thumb_insn_r->arm_mems = (struct arm_mem_r *)xmalloc (sizeof(struct 
+      arm_mem_r)*(register_count+1));
+      thumb_insn_r->arm_mems[0].len = register_count;
+      while (register_count)
+        {
+          thumb_insn_r->arm_mems[register_count].addr = start_address;
+          thumb_insn_r->arm_mems[register_count].len = 4;
+          start_address = start_address + 4;
+          register_count--;
+        }
+    }
+  else if (0x1F == opcode1)
+     {
+        /* handle arm syscall insn.  */
+        if (tdep->arm_swi_record != NULL)
+          {
+            printf("handling syscall swi insn\n");
+            tdep->arm_swi_record(reg_cache);
+          }
+        else
+          {
+            return -1;
+          }
+     }
+
+  /* B(1), conditional branch is automatically taken care in process_record, 
+        as PC is saved there.  */
+  
+  return 0;
+}
+
+static int 
+thumb_handle_branch_insn (void *data)
+{
+  insn_decode_record *thumb_insn_r = (insn_decode_record*) data;
+  struct gdbarch_tdep *tdep = gdbarch_tdep (thumb_insn_r->gdbarch);
+  struct regcache *reg_cache = (struct regcache*) thumb_insn_r->regcache;
+  
+  uint32_t reg_val1=0;
+  uint32_t reg_src1=0;
+  uint32_t opcode = 0, immed_5 = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+
+  /* BL , BLX(1).  */  
+  thumb_insn_r->arm_regs = (uint32_t*)xmalloc (sizeof(uint32_t)*3);
+  thumb_insn_r->arm_regs[0] = 2;
+  thumb_insn_r->arm_regs[1] = ARM_PS_REGNUM;
+  thumb_insn_r->arm_regs[2] = ARM_LR_REGNUM;
+
+  /* B(2) is automatically taken care in process_record, as PC is saved 
+        there.  */
+  return 0;    
+}
+
+
+
+static int 
+decode_insn (insn_decode_record *arm_record, uint32_t insn_size)
+{
+
+  /* (starting from numerical 0); bits 25, 26, 27 decodes type of arm 
instruction.  */
+  int (*const arm_handle_insn[NO_OF_TYPE_OF_ARM_INSNS]) (void*) = 
+  { 
+      arm_handle_data_proc_misc_load_str_insn,  /* 000.  */
+      arm_handle_data_proc_imm_insn,            /* 001.  */
+      arm_handle_ld_st_imm_offset_insn,         /* 010.  */
+      arm_handle_ld_st_reg_offset_insn,         /* 011.  */  
+      arm_hamdle_ld_st_multiple_insn,           /* 100.  */
+      arm_handle_brn_insn,                      /* 101.  */
+      arm_handle_coproc_insn,                   /* 110.  */
+      arm_handle_coproc_data_proc_insn          /* 111.  */  
+  };
+  
+  /* (starting from numerical 0); bits 13,14,15 decodes type of thumb 
instruction.  */
+  int (*const thumb_handle_insn[NO_OF_TYPE_OF_THUMB_INSNS]) (void*) = 
+  { 
+      thumb_handle_shift_add_sub_insn,         /* 000.  */
+      thumb_handle_add_sub_cmp_mov_insn,       /* 001.  */
+      thumb_handle_ld_st_reg_offset_insn,      /* 010.  */
+      thumb_handle_ld_st_imm_offset_insn,      /* 011.  */  
+      thumb_hamdle_ld_st_stack_insn,           /* 100.  */
+      thumb_handle_misc_insn,                  /* 101.  */
+      thumb_handle_swi_insn,                   /* 110.  */
+      thumb_handle_branch_insn                 /* 111.  */  
+  };
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[insn_size];
+    } u_buf;
+
+  uint32_t ret=0;
+    
+  memset (&u_buf, 0, sizeof(u_buf));
+  if (target_read_memory (arm_record->this_addr, &u_buf.buf[0], insn_size))    
+    {        
+      if (record_debug)
+        {
+          printf_unfiltered (_("Process record: error reading memory at "
+                               "addr %s len = %d.\n"),
+          paddress (arm_record->gdbarch, arm_record->this_addr), insn_size);
+          return -1;
+        }
+    }
+  else if (ARM_INSN_SIZE_BYTES == insn_size)
+    {
+      arm_record->arm_insn = u_buf.s_word;
+      arm_record->cond = bits (arm_record->arm_insn, 28, 31); 
+      arm_record->id = bits (arm_record->arm_insn, 25, 27);
+      ret = (0x0F != arm_record->cond)? \
+            arm_handle_insn[arm_record->id] ((void*)arm_record) : \
+            handle_extension_space(arm_record);
+    }    
+  else if (THUMB_INSN_SIZE_BYTES == insn_size)
+    {
+      arm_record->arm_insn = u_buf.s_word;  
+      arm_record->id = bits (arm_record->arm_insn, 13, 15);
+      ret = thumb_handle_insn[arm_record->id] ((void*)arm_record);
+    }
+  return ret;
+}
+
+/* Parse the current instruction and record the values of the registers and
+   memory that will be changed in current instruction to "record_arch_list".
+   Return -1 if something is wrong..  */
+
+int 
+arm_process_record (struct gdbarch *gdbarch, struct regcache *regcache,
+                             CORE_ADDR insn_addr)
+{
+
+  enum bfd_endian byte_order = gdbarch_byte_order (gdbarch);  
+  struct gdbarch_tdep *tdep = gdbarch_tdep (gdbarch);
+  uint32_t no_of_rec=0;
+  uint32_t ret=0;
+  ULONGEST t_bit = 0;
+
+  union
+    {
+      uint32_t s_word;
+      gdb_byte buf[4];
+    } u_buf;
+
+  insn_decode_record arm_record;
+  memset (&u_buf, 0, sizeof(u_buf));
+
+  memset (&arm_record, 0, sizeof (insn_decode_record));
+  arm_record.regcache = regcache;
+  arm_record.this_addr = insn_addr;
+  arm_record.gdbarch = gdbarch;
+
+
+  if (record_debug > 1)
+    {
+      fprintf_unfiltered (gdb_stdlog, "Process record: arm_process_record "
+                                      "addr = %s\n",
+      paddress (gdbarch, arm_record.this_addr));
+    }
+
+  /* check the insn, whether it is thumb or arm one.  */
+
+  t_bit = arm_psr_thumb_bit (arm_record.gdbarch);
+  GET_REG_VAL (arm_record.regcache, ARM_PS_REGNUM, &u_buf.buf[0]);
+    
+  if (!(u_buf.s_word & t_bit))
+    {
+      /* we are decoding arm insn.  */
+      ret = decode_insn (&arm_record, ARM_INSN_SIZE_BYTES);      
+    }
+  else
+    {
+      /* we are decoding thumb insn.  */
+      ret = decode_insn (&arm_record, THUMB_INSN_SIZE_BYTES);    
+    }
+
+  /* record registers.  */
+  ARM_RECORD_ARCH_LIST_ADD_REG(ARM_PC_REGNUM);
+  if (arm_record.arm_regs)
+    {
+      for (no_of_rec=1;no_of_rec<=arm_record.arm_regs[0];no_of_rec++)
+        {
+          if (ARM_RECORD_ARCH_LIST_ADD_REG (arm_record.arm_regs[no_of_rec]))
+          ret = -1;
+        }
+    }  
+  /* record memories.  */
+  if (arm_record.arm_mems)
+    {
+      for (no_of_rec=1;no_of_rec<=arm_record.arm_mems[0].len;no_of_rec++)
+       {
+          if (record_arch_list_add_mem \
+            ((CORE_ADDR)arm_record.arm_mems[no_of_rec].addr,
+            arm_record.arm_mems[no_of_rec].len))
+            ret = -1;
+       }
+    }
+
+  if (record_arch_list_add_end ())
+    ret = -1;
+
+  if (arm_record.arm_regs)
+    xfree (arm_record.arm_regs);
+  if (arm_record.arm_mems)
+    xfree (arm_record.arm_mems);
+  
+  return ret; 
+}
diff -urN arm_orig/arm-tdep.h arm_new/arm-tdep.h
--- arm_orig/arm-tdep.h    2011-03-03 09:21:13.000000000 +0530
+++ arm_new/arm-tdep.h    2011-04-15 13:11:15.000000000 +0530
@@ -200,6 +200,9 @@
   /* Return the expected next PC if FRAME is stopped at a syscall
      instruction.  */
   CORE_ADDR (*syscall_next_pc) (struct frame_info *frame);
+
+   /* Parse swi args.  */
+  int (*arm_swi_record) (struct regcache *regcache);
};

/* Structures used for displaced stepping.  */
@@ -310,6 +313,10 @@
                       struct displaced_step_closure *,
                       CORE_ADDR, CORE_ADDR, struct regcache *);

+extern int arm_process_record (struct gdbarch *gdbarch,
+                                struct regcache *regcache, CORE_ADDR addr);
+
+
/* Functions exported from armbsd-tdep.h.  */

/* Return the appropriate register set for the core section identified



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