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[/] [or1k/] [trunk/] [gdb-5.3/] [gdb/] [arc-tdep.c] - Rev 1773
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// OBSOLETE /* ARC target-dependent stuff. // OBSOLETE Copyright 1995, 1996, 1999, 2000, 2001 Free Software Foundation, Inc. // OBSOLETE // OBSOLETE This file is part of GDB. // OBSOLETE // OBSOLETE This program is free software; you can redistribute it and/or modify // OBSOLETE it under the terms of the GNU General Public License as published by // OBSOLETE the Free Software Foundation; either version 2 of the License, or // OBSOLETE (at your option) any later version. // OBSOLETE // OBSOLETE This program is distributed in the hope that it will be useful, // OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of // OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // OBSOLETE GNU General Public License for more details. // OBSOLETE // OBSOLETE You should have received a copy of the GNU General Public License // OBSOLETE along with this program; if not, write to the Free Software // OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, // OBSOLETE Boston, MA 02111-1307, USA. */ // OBSOLETE // OBSOLETE #include "defs.h" // OBSOLETE #include "frame.h" // OBSOLETE #include "inferior.h" // OBSOLETE #include "gdbcore.h" // OBSOLETE #include "target.h" // OBSOLETE #include "floatformat.h" // OBSOLETE #include "symtab.h" // OBSOLETE #include "gdbcmd.h" // OBSOLETE #include "regcache.h" // OBSOLETE #include "gdb_string.h" // OBSOLETE // OBSOLETE /* Local functions */ // OBSOLETE // OBSOLETE static int arc_set_cpu_type (char *str); // OBSOLETE // OBSOLETE /* Current CPU, set with the "set cpu" command. */ // OBSOLETE static int arc_bfd_mach_type; // OBSOLETE char *arc_cpu_type; // OBSOLETE char *tmp_arc_cpu_type; // OBSOLETE // OBSOLETE /* Table of cpu names. */ // OBSOLETE struct // OBSOLETE { // OBSOLETE char *name; // OBSOLETE int value; // OBSOLETE } // OBSOLETE arc_cpu_type_table[] = // OBSOLETE { // OBSOLETE { "arc5", bfd_mach_arc_5 }, // OBSOLETE { "arc6", bfd_mach_arc_6 }, // OBSOLETE { "arc7", bfd_mach_arc_7 }, // OBSOLETE { "arc8", bfd_mach_arc_8 }, // OBSOLETE { NULL, 0 } // OBSOLETE }; // OBSOLETE // OBSOLETE /* Used by simulator. */ // OBSOLETE int display_pipeline_p; // OBSOLETE int cpu_timer; // OBSOLETE /* This one must have the same type as used in the emulator. // OBSOLETE It's currently an enum so this should be ok for now. */ // OBSOLETE int debug_pipeline_p; // OBSOLETE // OBSOLETE #define ARC_CALL_SAVED_REG(r) ((r) >= 16 && (r) < 24) // OBSOLETE // OBSOLETE #define OPMASK 0xf8000000 // OBSOLETE // OBSOLETE /* Instruction field accessor macros. // OBSOLETE See the Programmer's Reference Manual. */ // OBSOLETE #define X_OP(i) (((i) >> 27) & 0x1f) // OBSOLETE #define X_A(i) (((i) >> 21) & 0x3f) // OBSOLETE #define X_B(i) (((i) >> 15) & 0x3f) // OBSOLETE #define X_C(i) (((i) >> 9) & 0x3f) // OBSOLETE #define X_D(i) ((((i) & 0x1ff) ^ 0x100) - 0x100) // OBSOLETE #define X_L(i) (((((i) >> 5) & 0x3ffffc) ^ 0x200000) - 0x200000) // OBSOLETE #define X_N(i) (((i) >> 5) & 3) // OBSOLETE #define X_Q(i) ((i) & 0x1f) // OBSOLETE // OBSOLETE /* Return non-zero if X is a short immediate data indicator. */ // OBSOLETE #define SHIMM_P(x) ((x) == 61 || (x) == 63) // OBSOLETE // OBSOLETE /* Return non-zero if X is a "long" (32 bit) immediate data indicator. */ // OBSOLETE #define LIMM_P(x) ((x) == 62) // OBSOLETE // OBSOLETE /* Build a simple instruction. */ // OBSOLETE #define BUILD_INSN(op, a, b, c, d) \ // OBSOLETE ((((op) & 31) << 27) \ // OBSOLETE | (((a) & 63) << 21) \ // OBSOLETE | (((b) & 63) << 15) \ // OBSOLETE | (((c) & 63) << 9) \ // OBSOLETE | ((d) & 511)) // OBSOLETE // OBSOLETE /* Codestream stuff. */ // OBSOLETE static void codestream_read (unsigned int *, int); // OBSOLETE static void codestream_seek (CORE_ADDR); // OBSOLETE static unsigned int codestream_fill (int); // OBSOLETE // OBSOLETE #define CODESTREAM_BUFSIZ 16 // OBSOLETE static CORE_ADDR codestream_next_addr; // OBSOLETE static CORE_ADDR codestream_addr; // OBSOLETE /* FIXME assumes sizeof (int) == 32? */ // OBSOLETE static unsigned int codestream_buf[CODESTREAM_BUFSIZ]; // OBSOLETE static int codestream_off; // OBSOLETE static int codestream_cnt; // OBSOLETE // OBSOLETE #define codestream_tell() \ // OBSOLETE (codestream_addr + codestream_off * sizeof (codestream_buf[0])) // OBSOLETE #define codestream_peek() \ // OBSOLETE (codestream_cnt == 0 \ // OBSOLETE ? codestream_fill (1) \ // OBSOLETE : codestream_buf[codestream_off]) // OBSOLETE #define codestream_get() \ // OBSOLETE (codestream_cnt-- == 0 \ // OBSOLETE ? codestream_fill (0) \ // OBSOLETE : codestream_buf[codestream_off++]) // OBSOLETE // OBSOLETE static unsigned int // OBSOLETE codestream_fill (int peek_flag) // OBSOLETE { // OBSOLETE codestream_addr = codestream_next_addr; // OBSOLETE codestream_next_addr += CODESTREAM_BUFSIZ * sizeof (codestream_buf[0]); // OBSOLETE codestream_off = 0; // OBSOLETE codestream_cnt = CODESTREAM_BUFSIZ; // OBSOLETE read_memory (codestream_addr, (char *) codestream_buf, // OBSOLETE CODESTREAM_BUFSIZ * sizeof (codestream_buf[0])); // OBSOLETE /* FIXME: check return code? */ // OBSOLETE // OBSOLETE // OBSOLETE /* Handle byte order differences -> convert to host byte ordering. */ // OBSOLETE { // OBSOLETE int i; // OBSOLETE for (i = 0; i < CODESTREAM_BUFSIZ; i++) // OBSOLETE codestream_buf[i] = // OBSOLETE extract_unsigned_integer (&codestream_buf[i], // OBSOLETE sizeof (codestream_buf[i])); // OBSOLETE } // OBSOLETE // OBSOLETE if (peek_flag) // OBSOLETE return codestream_peek (); // OBSOLETE else // OBSOLETE return codestream_get (); // OBSOLETE } // OBSOLETE // OBSOLETE static void // OBSOLETE codestream_seek (CORE_ADDR place) // OBSOLETE { // OBSOLETE codestream_next_addr = place / CODESTREAM_BUFSIZ; // OBSOLETE codestream_next_addr *= CODESTREAM_BUFSIZ; // OBSOLETE codestream_cnt = 0; // OBSOLETE codestream_fill (1); // OBSOLETE while (codestream_tell () != place) // OBSOLETE codestream_get (); // OBSOLETE } // OBSOLETE // OBSOLETE /* This function is currently unused but leave in for now. */ // OBSOLETE // OBSOLETE static void // OBSOLETE codestream_read (unsigned int *buf, int count) // OBSOLETE { // OBSOLETE unsigned int *p; // OBSOLETE int i; // OBSOLETE p = buf; // OBSOLETE for (i = 0; i < count; i++) // OBSOLETE *p++ = codestream_get (); // OBSOLETE } // OBSOLETE // OBSOLETE /* Set up prologue scanning and return the first insn. */ // OBSOLETE // OBSOLETE static unsigned int // OBSOLETE setup_prologue_scan (CORE_ADDR pc) // OBSOLETE { // OBSOLETE unsigned int insn; // OBSOLETE // OBSOLETE codestream_seek (pc); // OBSOLETE insn = codestream_get (); // OBSOLETE // OBSOLETE return insn; // OBSOLETE } // OBSOLETE // OBSOLETE /* // OBSOLETE * Find & return amount a local space allocated, and advance codestream to // OBSOLETE * first register push (if any). // OBSOLETE * If entry sequence doesn't make sense, return -1, and leave // OBSOLETE * codestream pointer random. // OBSOLETE */ // OBSOLETE // OBSOLETE static long // OBSOLETE arc_get_frame_setup (CORE_ADDR pc) // OBSOLETE { // OBSOLETE unsigned int insn; // OBSOLETE /* Size of frame or -1 if unrecognizable prologue. */ // OBSOLETE int frame_size = -1; // OBSOLETE /* An initial "sub sp,sp,N" may or may not be for a stdarg fn. */ // OBSOLETE int maybe_stdarg_decr = -1; // OBSOLETE // OBSOLETE insn = setup_prologue_scan (pc); // OBSOLETE // OBSOLETE /* The authority for what appears here is the home-grown ABI. // OBSOLETE The most recent version is 1.2. */ // OBSOLETE // OBSOLETE /* First insn may be "sub sp,sp,N" if stdarg fn. */ // OBSOLETE if ((insn & BUILD_INSN (-1, -1, -1, -1, 0)) // OBSOLETE == BUILD_INSN (10, SP_REGNUM, SP_REGNUM, SHIMM_REGNUM, 0)) // OBSOLETE { // OBSOLETE maybe_stdarg_decr = X_D (insn); // OBSOLETE insn = codestream_get (); // OBSOLETE } // OBSOLETE // OBSOLETE if ((insn & BUILD_INSN (-1, 0, -1, -1, -1)) /* st blink,[sp,4] */ // OBSOLETE == BUILD_INSN (2, 0, SP_REGNUM, BLINK_REGNUM, 4)) // OBSOLETE { // OBSOLETE insn = codestream_get (); // OBSOLETE /* Frame may not be necessary, even though blink is saved. // OBSOLETE At least this is something we recognize. */ // OBSOLETE frame_size = 0; // OBSOLETE } // OBSOLETE // OBSOLETE if ((insn & BUILD_INSN (-1, 0, -1, -1, -1)) /* st fp,[sp] */ // OBSOLETE == BUILD_INSN (2, 0, SP_REGNUM, FP_REGNUM, 0)) // OBSOLETE { // OBSOLETE insn = codestream_get (); // OBSOLETE if ((insn & BUILD_INSN (-1, -1, -1, -1, 0)) // OBSOLETE != BUILD_INSN (12, FP_REGNUM, SP_REGNUM, SP_REGNUM, 0)) // OBSOLETE return -1; // OBSOLETE // OBSOLETE /* Check for stack adjustment sub sp,sp,N. */ // OBSOLETE insn = codestream_peek (); // OBSOLETE if ((insn & BUILD_INSN (-1, -1, -1, 0, 0)) // OBSOLETE == BUILD_INSN (10, SP_REGNUM, SP_REGNUM, 0, 0)) // OBSOLETE { // OBSOLETE if (LIMM_P (X_C (insn))) // OBSOLETE frame_size = codestream_get (); // OBSOLETE else if (SHIMM_P (X_C (insn))) // OBSOLETE frame_size = X_D (insn); // OBSOLETE else // OBSOLETE return -1; // OBSOLETE if (frame_size < 0) // OBSOLETE return -1; // OBSOLETE // OBSOLETE codestream_get (); // OBSOLETE // OBSOLETE /* This sequence is used to get the address of the return // OBSOLETE buffer for a function that returns a structure. */ // OBSOLETE insn = codestream_peek (); // OBSOLETE if ((insn & OPMASK) == 0x60000000) // OBSOLETE codestream_get (); // OBSOLETE } // OBSOLETE /* Frameless fn. */ // OBSOLETE else // OBSOLETE { // OBSOLETE frame_size = 0; // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE /* If we found a "sub sp,sp,N" and nothing else, it may or may not be a // OBSOLETE stdarg fn. The stdarg decrement is not treated as part of the frame size, // OBSOLETE so we have a dilemma: what do we return? For now, if we get a // OBSOLETE "sub sp,sp,N" and nothing else assume this isn't a stdarg fn. One way // OBSOLETE to fix this completely would be to add a bit to the function descriptor // OBSOLETE that says the function is a stdarg function. */ // OBSOLETE // OBSOLETE if (frame_size < 0 && maybe_stdarg_decr > 0) // OBSOLETE return maybe_stdarg_decr; // OBSOLETE return frame_size; // OBSOLETE } // OBSOLETE // OBSOLETE /* Given a pc value, skip it forward past the function prologue by // OBSOLETE disassembling instructions that appear to be a prologue. // OBSOLETE // OBSOLETE If FRAMELESS_P is set, we are only testing to see if the function // OBSOLETE is frameless. If it is a frameless function, return PC unchanged. // OBSOLETE This allows a quicker answer. */ // OBSOLETE // OBSOLETE CORE_ADDR // OBSOLETE arc_skip_prologue (CORE_ADDR pc, int frameless_p) // OBSOLETE { // OBSOLETE unsigned int insn; // OBSOLETE int i, frame_size; // OBSOLETE // OBSOLETE if ((frame_size = arc_get_frame_setup (pc)) < 0) // OBSOLETE return (pc); // OBSOLETE // OBSOLETE if (frameless_p) // OBSOLETE return frame_size == 0 ? pc : codestream_tell (); // OBSOLETE // OBSOLETE /* Skip over register saves. */ // OBSOLETE for (i = 0; i < 8; i++) // OBSOLETE { // OBSOLETE insn = codestream_peek (); // OBSOLETE if ((insn & BUILD_INSN (-1, 0, -1, 0, 0)) // OBSOLETE != BUILD_INSN (2, 0, SP_REGNUM, 0, 0)) // OBSOLETE break; /* not st insn */ // OBSOLETE if (!ARC_CALL_SAVED_REG (X_C (insn))) // OBSOLETE break; // OBSOLETE codestream_get (); // OBSOLETE } // OBSOLETE // OBSOLETE return codestream_tell (); // OBSOLETE } // OBSOLETE // OBSOLETE /* Is the prologue at PC frameless? */ // OBSOLETE // OBSOLETE int // OBSOLETE arc_prologue_frameless_p (CORE_ADDR pc) // OBSOLETE { // OBSOLETE return (pc == arc_skip_prologue (pc, 1)); // OBSOLETE } // OBSOLETE // OBSOLETE /* Return the return address for a frame. // OBSOLETE This is used to implement FRAME_SAVED_PC. // OBSOLETE This is taken from frameless_look_for_prologue. */ // OBSOLETE // OBSOLETE CORE_ADDR // OBSOLETE arc_frame_saved_pc (struct frame_info *frame) // OBSOLETE { // OBSOLETE CORE_ADDR func_start; // OBSOLETE unsigned int insn; // OBSOLETE // OBSOLETE func_start = get_pc_function_start (frame->pc) + FUNCTION_START_OFFSET; // OBSOLETE if (func_start == 0) // OBSOLETE { // OBSOLETE /* Best guess. */ // OBSOLETE return ARC_PC_TO_REAL_ADDRESS (read_memory_integer (FRAME_FP (frame) + 4, 4)); // OBSOLETE } // OBSOLETE // OBSOLETE /* The authority for what appears here is the home-grown ABI. // OBSOLETE The most recent version is 1.2. */ // OBSOLETE // OBSOLETE insn = setup_prologue_scan (func_start); // OBSOLETE // OBSOLETE /* First insn may be "sub sp,sp,N" if stdarg fn. */ // OBSOLETE if ((insn & BUILD_INSN (-1, -1, -1, -1, 0)) // OBSOLETE == BUILD_INSN (10, SP_REGNUM, SP_REGNUM, SHIMM_REGNUM, 0)) // OBSOLETE insn = codestream_get (); // OBSOLETE // OBSOLETE /* If the next insn is "st blink,[sp,4]" we can get blink from there. // OBSOLETE Otherwise this is a leaf function and we can use blink. Note that // OBSOLETE this still allows for the case where a leaf function saves/clobbers/ // OBSOLETE restores blink. */ // OBSOLETE // OBSOLETE if ((insn & BUILD_INSN (-1, 0, -1, -1, -1)) /* st blink,[sp,4] */ // OBSOLETE != BUILD_INSN (2, 0, SP_REGNUM, BLINK_REGNUM, 4)) // OBSOLETE return ARC_PC_TO_REAL_ADDRESS (read_register (BLINK_REGNUM)); // OBSOLETE else // OBSOLETE return ARC_PC_TO_REAL_ADDRESS (read_memory_integer (FRAME_FP (frame) + 4, 4)); // OBSOLETE } // OBSOLETE // OBSOLETE /* // OBSOLETE * Parse the first few instructions of the function to see // OBSOLETE * what registers were stored. // OBSOLETE * // OBSOLETE * The startup sequence can be at the start of the function. // OBSOLETE * 'st blink,[sp+4], st fp,[sp], mov fp,sp' // OBSOLETE * // OBSOLETE * Local space is allocated just below by sub sp,sp,nnn. // OBSOLETE * Next, the registers used by this function are stored (as offsets from sp). // OBSOLETE */ // OBSOLETE // OBSOLETE void // OBSOLETE frame_find_saved_regs (struct frame_info *fip, struct frame_saved_regs *fsrp) // OBSOLETE { // OBSOLETE long locals; // OBSOLETE unsigned int insn; // OBSOLETE CORE_ADDR dummy_bottom; // OBSOLETE CORE_ADDR adr; // OBSOLETE int i, regnum, offset; // OBSOLETE // OBSOLETE memset (fsrp, 0, sizeof *fsrp); // OBSOLETE // OBSOLETE /* If frame is the end of a dummy, compute where the beginning would be. */ // OBSOLETE dummy_bottom = fip->frame - 4 - REGISTER_BYTES - CALL_DUMMY_LENGTH; // OBSOLETE // OBSOLETE /* Check if the PC is in the stack, in a dummy frame. */ // OBSOLETE if (dummy_bottom <= fip->pc && fip->pc <= fip->frame) // OBSOLETE { // OBSOLETE /* all regs were saved by push_call_dummy () */ // OBSOLETE adr = fip->frame; // OBSOLETE for (i = 0; i < NUM_REGS; i++) // OBSOLETE { // OBSOLETE adr -= REGISTER_RAW_SIZE (i); // OBSOLETE fsrp->regs[i] = adr; // OBSOLETE } // OBSOLETE return; // OBSOLETE } // OBSOLETE // OBSOLETE locals = arc_get_frame_setup (get_pc_function_start (fip->pc)); // OBSOLETE // OBSOLETE if (locals >= 0) // OBSOLETE { // OBSOLETE /* Set `adr' to the value of `sp'. */ // OBSOLETE adr = fip->frame - locals; // OBSOLETE for (i = 0; i < 8; i++) // OBSOLETE { // OBSOLETE insn = codestream_get (); // OBSOLETE if ((insn & BUILD_INSN (-1, 0, -1, 0, 0)) // OBSOLETE != BUILD_INSN (2, 0, SP_REGNUM, 0, 0)) // OBSOLETE break; // OBSOLETE regnum = X_C (insn); // OBSOLETE offset = X_D (insn); // OBSOLETE fsrp->regs[regnum] = adr + offset; // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE fsrp->regs[PC_REGNUM] = fip->frame + 4; // OBSOLETE fsrp->regs[FP_REGNUM] = fip->frame; // OBSOLETE } // OBSOLETE // OBSOLETE void // OBSOLETE arc_push_dummy_frame (void) // OBSOLETE { // OBSOLETE CORE_ADDR sp = read_register (SP_REGNUM); // OBSOLETE int regnum; // OBSOLETE char regbuf[MAX_REGISTER_RAW_SIZE]; // OBSOLETE // OBSOLETE read_register_gen (PC_REGNUM, regbuf); // OBSOLETE write_memory (sp + 4, regbuf, REGISTER_SIZE); // OBSOLETE read_register_gen (FP_REGNUM, regbuf); // OBSOLETE write_memory (sp, regbuf, REGISTER_SIZE); // OBSOLETE write_register (FP_REGNUM, sp); // OBSOLETE for (regnum = 0; regnum < NUM_REGS; regnum++) // OBSOLETE { // OBSOLETE read_register_gen (regnum, regbuf); // OBSOLETE sp = push_bytes (sp, regbuf, REGISTER_RAW_SIZE (regnum)); // OBSOLETE } // OBSOLETE sp += (2 * REGISTER_SIZE); // OBSOLETE write_register (SP_REGNUM, sp); // OBSOLETE } // OBSOLETE // OBSOLETE void // OBSOLETE arc_pop_frame (void) // OBSOLETE { // OBSOLETE struct frame_info *frame = get_current_frame (); // OBSOLETE CORE_ADDR fp; // OBSOLETE int regnum; // OBSOLETE struct frame_saved_regs fsr; // OBSOLETE char regbuf[MAX_REGISTER_RAW_SIZE]; // OBSOLETE // OBSOLETE fp = FRAME_FP (frame); // OBSOLETE get_frame_saved_regs (frame, &fsr); // OBSOLETE for (regnum = 0; regnum < NUM_REGS; regnum++) // OBSOLETE { // OBSOLETE CORE_ADDR adr; // OBSOLETE adr = fsr.regs[regnum]; // OBSOLETE if (adr) // OBSOLETE { // OBSOLETE read_memory (adr, regbuf, REGISTER_RAW_SIZE (regnum)); // OBSOLETE write_register_bytes (REGISTER_BYTE (regnum), regbuf, // OBSOLETE REGISTER_RAW_SIZE (regnum)); // OBSOLETE } // OBSOLETE } // OBSOLETE write_register (FP_REGNUM, read_memory_integer (fp, 4)); // OBSOLETE write_register (PC_REGNUM, read_memory_integer (fp + 4, 4)); // OBSOLETE write_register (SP_REGNUM, fp + 8); // OBSOLETE flush_cached_frames (); // OBSOLETE } // OBSOLETE // OBSOLETE /* Simulate single-step. */ // OBSOLETE // OBSOLETE typedef enum // OBSOLETE { // OBSOLETE NORMAL4, /* a normal 4 byte insn */ // OBSOLETE NORMAL8, /* a normal 8 byte insn */ // OBSOLETE BRANCH4, /* a 4 byte branch insn, including ones without delay slots */ // OBSOLETE BRANCH8, /* an 8 byte branch insn, including ones with delay slots */ // OBSOLETE } // OBSOLETE insn_type; // OBSOLETE // OBSOLETE /* Return the type of INSN and store in TARGET the destination address of a // OBSOLETE branch if this is one. */ // OBSOLETE /* ??? Need to verify all cases are properly handled. */ // OBSOLETE // OBSOLETE static insn_type // OBSOLETE get_insn_type (unsigned long insn, CORE_ADDR pc, CORE_ADDR *target) // OBSOLETE { // OBSOLETE unsigned long limm; // OBSOLETE // OBSOLETE switch (insn >> 27) // OBSOLETE { // OBSOLETE case 0: // OBSOLETE case 1: // OBSOLETE case 2: /* load/store insns */ // OBSOLETE if (LIMM_P (X_A (insn)) // OBSOLETE || LIMM_P (X_B (insn)) // OBSOLETE || LIMM_P (X_C (insn))) // OBSOLETE return NORMAL8; // OBSOLETE return NORMAL4; // OBSOLETE case 4: // OBSOLETE case 5: // OBSOLETE case 6: /* branch insns */ // OBSOLETE *target = pc + 4 + X_L (insn); // OBSOLETE /* ??? It isn't clear that this is always the right answer. // OBSOLETE The problem occurs when the next insn is an 8 byte insn. If the // OBSOLETE branch is conditional there's no worry as there shouldn't be an 8 // OBSOLETE byte insn following. The programmer may be cheating if s/he knows // OBSOLETE the branch will never be taken, but we don't deal with that. // OBSOLETE Note that the programmer is also allowed to play games by putting // OBSOLETE an insn with long immediate data in the delay slot and then duplicate // OBSOLETE the long immediate data at the branch target. Ugh! */ // OBSOLETE if (X_N (insn) == 0) // OBSOLETE return BRANCH4; // OBSOLETE return BRANCH8; // OBSOLETE case 7: /* jump insns */ // OBSOLETE if (LIMM_P (X_B (insn))) // OBSOLETE { // OBSOLETE limm = read_memory_integer (pc + 4, 4); // OBSOLETE *target = ARC_PC_TO_REAL_ADDRESS (limm); // OBSOLETE return BRANCH8; // OBSOLETE } // OBSOLETE if (SHIMM_P (X_B (insn))) // OBSOLETE *target = ARC_PC_TO_REAL_ADDRESS (X_D (insn)); // OBSOLETE else // OBSOLETE *target = ARC_PC_TO_REAL_ADDRESS (read_register (X_B (insn))); // OBSOLETE if (X_Q (insn) == 0 && X_N (insn) == 0) // OBSOLETE return BRANCH4; // OBSOLETE return BRANCH8; // OBSOLETE default: /* arithmetic insns, etc. */ // OBSOLETE if (LIMM_P (X_A (insn)) // OBSOLETE || LIMM_P (X_B (insn)) // OBSOLETE || LIMM_P (X_C (insn))) // OBSOLETE return NORMAL8; // OBSOLETE return NORMAL4; // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE /* single_step() is called just before we want to resume the inferior, if we // OBSOLETE want to single-step it but there is no hardware or kernel single-step // OBSOLETE support. We find all the possible targets of the coming instruction and // OBSOLETE breakpoint them. // OBSOLETE // OBSOLETE single_step is also called just after the inferior stops. If we had // OBSOLETE set up a simulated single-step, we undo our damage. */ // OBSOLETE // OBSOLETE void // OBSOLETE arc_software_single_step (enum target_signal ignore, /* sig but we don't need it */ // OBSOLETE int insert_breakpoints_p) // OBSOLETE { // OBSOLETE static CORE_ADDR next_pc, target; // OBSOLETE static int brktrg_p; // OBSOLETE typedef char binsn_quantum[BREAKPOINT_MAX]; // OBSOLETE static binsn_quantum break_mem[2]; // OBSOLETE // OBSOLETE if (insert_breakpoints_p) // OBSOLETE { // OBSOLETE insn_type type; // OBSOLETE CORE_ADDR pc; // OBSOLETE unsigned long insn; // OBSOLETE // OBSOLETE pc = read_register (PC_REGNUM); // OBSOLETE insn = read_memory_integer (pc, 4); // OBSOLETE type = get_insn_type (insn, pc, &target); // OBSOLETE // OBSOLETE /* Always set a breakpoint for the insn after the branch. */ // OBSOLETE next_pc = pc + ((type == NORMAL8 || type == BRANCH8) ? 8 : 4); // OBSOLETE target_insert_breakpoint (next_pc, break_mem[0]); // OBSOLETE // OBSOLETE brktrg_p = 0; // OBSOLETE // OBSOLETE if ((type == BRANCH4 || type == BRANCH8) // OBSOLETE /* Watch out for branches to the following location. // OBSOLETE We just stored a breakpoint there and another call to // OBSOLETE target_insert_breakpoint will think the real insn is the // OBSOLETE breakpoint we just stored there. */ // OBSOLETE && target != next_pc) // OBSOLETE { // OBSOLETE brktrg_p = 1; // OBSOLETE target_insert_breakpoint (target, break_mem[1]); // OBSOLETE } // OBSOLETE // OBSOLETE } // OBSOLETE else // OBSOLETE { // OBSOLETE /* Remove breakpoints. */ // OBSOLETE target_remove_breakpoint (next_pc, break_mem[0]); // OBSOLETE // OBSOLETE if (brktrg_p) // OBSOLETE target_remove_breakpoint (target, break_mem[1]); // OBSOLETE // OBSOLETE /* Fix the pc. */ // OBSOLETE stop_pc -= DECR_PC_AFTER_BREAK; // OBSOLETE write_pc (stop_pc); // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE /* Because of Multi-arch, GET_LONGJMP_TARGET is always defined. So test // OBSOLETE for a definition of JB_PC. */ // OBSOLETE #ifdef JB_PC // OBSOLETE /* Figure out where the longjmp will land. Slurp the args out of the stack. // OBSOLETE We expect the first arg to be a pointer to the jmp_buf structure from which // OBSOLETE we extract the pc (JB_PC) that we will land at. The pc is copied into PC. // OBSOLETE This routine returns true on success. */ // OBSOLETE // OBSOLETE int // OBSOLETE get_longjmp_target (CORE_ADDR *pc) // OBSOLETE { // OBSOLETE char buf[TARGET_PTR_BIT / TARGET_CHAR_BIT]; // OBSOLETE CORE_ADDR sp, jb_addr; // OBSOLETE // OBSOLETE sp = read_register (SP_REGNUM); // OBSOLETE // OBSOLETE if (target_read_memory (sp + SP_ARG0, /* Offset of first arg on stack */ // OBSOLETE buf, // OBSOLETE TARGET_PTR_BIT / TARGET_CHAR_BIT)) // OBSOLETE return 0; // OBSOLETE // OBSOLETE jb_addr = extract_address (buf, TARGET_PTR_BIT / TARGET_CHAR_BIT); // OBSOLETE // OBSOLETE if (target_read_memory (jb_addr + JB_PC * JB_ELEMENT_SIZE, buf, // OBSOLETE TARGET_PTR_BIT / TARGET_CHAR_BIT)) // OBSOLETE return 0; // OBSOLETE // OBSOLETE *pc = extract_address (buf, TARGET_PTR_BIT / TARGET_CHAR_BIT); // OBSOLETE // OBSOLETE return 1; // OBSOLETE } // OBSOLETE #endif /* GET_LONGJMP_TARGET */ // OBSOLETE // OBSOLETE /* Disassemble one instruction. */ // OBSOLETE // OBSOLETE static int // OBSOLETE arc_print_insn (bfd_vma vma, disassemble_info *info) // OBSOLETE { // OBSOLETE static int current_mach; // OBSOLETE static int current_endian; // OBSOLETE static disassembler_ftype current_disasm; // OBSOLETE // OBSOLETE if (current_disasm == NULL // OBSOLETE || arc_bfd_mach_type != current_mach // OBSOLETE || TARGET_BYTE_ORDER != current_endian) // OBSOLETE { // OBSOLETE current_mach = arc_bfd_mach_type; // OBSOLETE current_endian = TARGET_BYTE_ORDER; // OBSOLETE current_disasm = arc_get_disassembler (NULL); // OBSOLETE } // OBSOLETE // OBSOLETE return (*current_disasm) (vma, info); // OBSOLETE } // OBSOLETE // OBSOLETE /* Command to set cpu type. */ // OBSOLETE // OBSOLETE void // OBSOLETE arc_set_cpu_type_command (char *args, int from_tty) // OBSOLETE { // OBSOLETE int i; // OBSOLETE // OBSOLETE if (tmp_arc_cpu_type == NULL || *tmp_arc_cpu_type == '\0') // OBSOLETE { // OBSOLETE printf_unfiltered ("The known ARC cpu types are as follows:\n"); // OBSOLETE for (i = 0; arc_cpu_type_table[i].name != NULL; ++i) // OBSOLETE printf_unfiltered ("%s\n", arc_cpu_type_table[i].name); // OBSOLETE // OBSOLETE /* Restore the value. */ // OBSOLETE tmp_arc_cpu_type = xstrdup (arc_cpu_type); // OBSOLETE // OBSOLETE return; // OBSOLETE } // OBSOLETE // OBSOLETE if (!arc_set_cpu_type (tmp_arc_cpu_type)) // OBSOLETE { // OBSOLETE error ("Unknown cpu type `%s'.", tmp_arc_cpu_type); // OBSOLETE /* Restore its value. */ // OBSOLETE tmp_arc_cpu_type = xstrdup (arc_cpu_type); // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE static void // OBSOLETE arc_show_cpu_type_command (char *args, int from_tty) // OBSOLETE { // OBSOLETE } // OBSOLETE // OBSOLETE /* Modify the actual cpu type. // OBSOLETE Result is a boolean indicating success. */ // OBSOLETE // OBSOLETE static int // OBSOLETE arc_set_cpu_type (char *str) // OBSOLETE { // OBSOLETE int i, j; // OBSOLETE // OBSOLETE if (str == NULL) // OBSOLETE return 0; // OBSOLETE // OBSOLETE for (i = 0; arc_cpu_type_table[i].name != NULL; ++i) // OBSOLETE { // OBSOLETE if (strcasecmp (str, arc_cpu_type_table[i].name) == 0) // OBSOLETE { // OBSOLETE arc_cpu_type = str; // OBSOLETE arc_bfd_mach_type = arc_cpu_type_table[i].value; // OBSOLETE return 1; // OBSOLETE } // OBSOLETE } // OBSOLETE // OBSOLETE return 0; // OBSOLETE } // OBSOLETE // OBSOLETE void // OBSOLETE _initialize_arc_tdep (void) // OBSOLETE { // OBSOLETE struct cmd_list_element *c; // OBSOLETE // OBSOLETE c = add_set_cmd ("cpu", class_support, var_string_noescape, // OBSOLETE (char *) &tmp_arc_cpu_type, // OBSOLETE "Set the type of ARC cpu in use.\n\ // OBSOLETE This command has two purposes. In a multi-cpu system it lets one\n\ // OBSOLETE change the cpu being debugged. It also gives one access to\n\ // OBSOLETE cpu-type-specific registers and recognize cpu-type-specific instructions.\ // OBSOLETE ", // OBSOLETE &setlist); // OBSOLETE set_cmd_cfunc (c, arc_set_cpu_type_command); // OBSOLETE c = add_show_from_set (c, &showlist); // OBSOLETE set_cmd_cfunc (c, arc_show_cpu_type_command); // OBSOLETE // OBSOLETE /* We have to use xstrdup() here because the `set' command frees it // OBSOLETE before setting a new value. */ // OBSOLETE tmp_arc_cpu_type = xstrdup (DEFAULT_ARC_CPU_TYPE); // OBSOLETE arc_set_cpu_type (tmp_arc_cpu_type); // OBSOLETE // OBSOLETE c = add_set_cmd ("displaypipeline", class_support, var_zinteger, // OBSOLETE (char *) &display_pipeline_p, // OBSOLETE "Set pipeline display (simulator only).\n\ // OBSOLETE When enabled, the state of the pipeline after each cycle is displayed.", // OBSOLETE &setlist); // OBSOLETE c = add_show_from_set (c, &showlist); // OBSOLETE // OBSOLETE c = add_set_cmd ("debugpipeline", class_support, var_zinteger, // OBSOLETE (char *) &debug_pipeline_p, // OBSOLETE "Set pipeline debug display (simulator only).\n\ // OBSOLETE When enabled, debugging information about the pipeline is displayed.", // OBSOLETE &setlist); // OBSOLETE c = add_show_from_set (c, &showlist); // OBSOLETE // OBSOLETE c = add_set_cmd ("cputimer", class_support, var_zinteger, // OBSOLETE (char *) &cpu_timer, // OBSOLETE "Set maximum cycle count (simulator only).\n\ // OBSOLETE Control will return to gdb if the timer expires.\n\ // OBSOLETE A negative value disables the timer.", // OBSOLETE &setlist); // OBSOLETE c = add_show_from_set (c, &showlist); // OBSOLETE // OBSOLETE tm_print_insn = arc_print_insn; // OBSOLETE }
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